clang  7.0.0
Classes | Public Types | Public Member Functions | Static Public Member Functions | Public Attributes | Static Public Attributes | Friends | List of all members
clang::Sema Class Reference

Sema - This implements semantic analysis and AST building for C. More...

#include "clang/Sema/Sema.h"

Collaboration diagram for clang::Sema:
[legend]

Classes

struct  ActOnMemberAccessExtraArgs
 
class  ArgumentPackSubstitutionIndexRAII
 RAII object used to change the argument pack substitution index within a Sema object. More...
 
class  BoundTypeDiagnoser
 
struct  CodeCompleteExpressionData
 
struct  CodeSynthesisContext
 A context in which code is being synthesized (where a source location alone is not sufficient to identify the context). More...
 
class  CompoundScopeRAII
 A RAII object to enter scope of a compound statement. More...
 
class  ConditionResult
 
class  ContextRAII
 A RAII object to temporarily push a declaration context. More...
 
class  ContextualImplicitConverter
 Abstract base class used to perform a contextual implicit conversion from an expression to any type passing a filter. More...
 
class  CUDADiagBuilder
 Diagnostic builder for CUDA errors which may or may not be deferred. More...
 
class  CXXThisScopeRAII
 RAII object used to temporarily allow the C++ 'this' expression to be used, with the given qualifiers on the current class type. More...
 
class  DelayedDiagnostics
 A class which encapsulates the logic for delaying diagnostics during parsing and other processing. More...
 
class  DelayedDiagnosticsState
 
struct  ExpressionEvaluationContextRecord
 Data structure used to record current or nested expression evaluation contexts. More...
 
class  ExtParameterInfoBuilder
 A helper class for building up ExtParameterInfos. More...
 
class  FPContractStateRAII
 Records and restores the FP_CONTRACT state on entry/exit of compound statements. More...
 
class  FullExprArg
 
struct  FunctionDeclAndLoc
 A pair of a canonical FunctionDecl and a SourceLocation. More...
 
struct  FunctionScopeRAII
 An RAII helper that pops function a function scope on exit. More...
 
class  GlobalEagerInstantiationScope
 
class  ICEConvertDiagnoser
 
class  ImplicitExceptionSpecification
 Helper class that collects exception specifications for implicitly-declared special member functions. More...
 
class  InheritedConstructorInfo
 
struct  InstantiatingTemplate
 A stack object to be created when performing template instantiation. More...
 
struct  LateInstantiatedAttribute
 
class  LocalEagerInstantiationScope
 
class  NameClassification
 
struct  NestedNameSpecInfo
 Keeps information about an identifier in a nested-name-spec. More...
 
struct  ObjCArgInfo
 
struct  OffsetOfComponent
 
struct  OriginalCallArg
 brief A function argument from which we performed template argument More...
 
struct  PackIncludeState
 
struct  PragmaAttributeEntry
 This represents the stack of attributes that were pushed by #pragma clang attribute. More...
 
struct  PragmaClangSection
 
struct  PragmaStack
 
class  PragmaStackSentinelRAII
 
class  SemaDiagnosticBuilder
 Helper class that creates diagnostics with optional template instantiation stacks. More...
 
class  SFINAETrap
 RAII class used to determine whether SFINAE has trapped any errors that occur during template argument deduction. More...
 
struct  SkipBodyInfo
 
class  SpecialMemberOverloadResult
 SpecialMemberOverloadResult - The overloading result for a special member function. More...
 
class  SpecialMemberOverloadResultEntry
 
class  SynthesizedFunctionScope
 RAII object to handle the state changes required to synthesize a function body. More...
 
class  TentativeAnalysisScope
 RAII class used to indicate that we are performing provisional semantic analysis to determine the validity of a construct, so typo-correction and diagnostics in the immediate context (not within implicitly-instantiated templates) should be suppressed. More...
 
struct  TypeDiagnoser
 Abstract class used to diagnose incomplete types. More...
 
struct  TypeTagData
 
class  VerifyICEDiagnoser
 Abstract base class used for diagnosing integer constant expression violations. More...
 

Public Types

enum  PragmaClangSectionKind {
  PCSK_Invalid = 0, PCSK_BSS = 1, PCSK_Data = 2, PCSK_Rodata = 3,
  PCSK_Text = 4
}
 pragma clang section kind More...
 
enum  PragmaClangSectionAction { PCSA_Set = 0, PCSA_Clear = 1 }
 
enum  PragmaMsStackAction {
  PSK_Reset = 0x0, PSK_Set = 0x1, PSK_Push = 0x2, PSK_Pop = 0x4,
  PSK_Show = 0x8, PSK_Push_Set = PSK_Push | PSK_Set, PSK_Pop_Set = PSK_Pop | PSK_Set
}
 
enum  ExpressionEvaluationContext {
  ExpressionEvaluationContext::Unevaluated, ExpressionEvaluationContext::UnevaluatedList, ExpressionEvaluationContext::DiscardedStatement, ExpressionEvaluationContext::UnevaluatedAbstract,
  ExpressionEvaluationContext::ConstantEvaluated, ExpressionEvaluationContext::PotentiallyEvaluated, ExpressionEvaluationContext::PotentiallyEvaluatedIfUsed
}
 Describes how the expressions currently being parsed are evaluated at run-time, if at all. More...
 
enum  CXXSpecialMember {
  CXXDefaultConstructor, CXXCopyConstructor, CXXMoveConstructor, CXXCopyAssignment,
  CXXMoveAssignment, CXXDestructor, CXXInvalid
}
 Kinds of C++ special members. More...
 
enum  NameClassificationKind {
  NC_Unknown, NC_Error, NC_Keyword, NC_Type,
  NC_Expression, NC_NestedNameSpecifier, NC_TypeTemplate, NC_VarTemplate,
  NC_FunctionTemplate
}
 Describes the result of the name lookup and resolution performed by ClassifyName(). More...
 
enum  TemplateNameKindForDiagnostics {
  TemplateNameKindForDiagnostics::ClassTemplate, TemplateNameKindForDiagnostics::FunctionTemplate, TemplateNameKindForDiagnostics::VarTemplate, TemplateNameKindForDiagnostics::AliasTemplate,
  TemplateNameKindForDiagnostics::TemplateTemplateParam, TemplateNameKindForDiagnostics::DependentTemplate
}
 Describes the detailed kind of a template name. Used in diagnostics. More...
 
enum  ModuleDeclKind { ModuleDeclKind::Interface, ModuleDeclKind::Implementation, ModuleDeclKind::Partition }
 
enum  MissingImportKind {
  MissingImportKind::Declaration, MissingImportKind::Definition, MissingImportKind::DefaultArgument, MissingImportKind::ExplicitSpecialization,
  MissingImportKind::PartialSpecialization
}
 Kinds of missing import. More...
 
enum  NonTagKind {
  NTK_NonStruct, NTK_NonClass, NTK_NonUnion, NTK_NonEnum,
  NTK_Typedef, NTK_TypeAlias, NTK_Template, NTK_TypeAliasTemplate,
  NTK_TemplateTemplateArgument
}
 Common ways to introduce type names without a tag for use in diagnostics. More...
 
enum  TagUseKind { TUK_Reference, TUK_Declaration, TUK_Definition, TUK_Friend }
 
enum  TrivialABIHandling { TAH_IgnoreTrivialABI, TAH_ConsiderTrivialABI }
 
enum  AvailabilityMergeKind { AMK_None, AMK_Redeclaration, AMK_Override, AMK_ProtocolImplementation }
 Describes the kind of merge to perform for availability attributes (including "deprecated", "unavailable", and "availability"). More...
 
enum  AssignmentAction {
  AA_Assigning, AA_Passing, AA_Returning, AA_Converting,
  AA_Initializing, AA_Sending, AA_Casting, AA_Passing_CFAudited
}
 
enum  OverloadKind { Ovl_Overload, Ovl_Match, Ovl_NonFunction }
 C++ Overloading. More...
 
enum  CCEKind {
  CCEK_CaseValue, CCEK_Enumerator, CCEK_TemplateArg, CCEK_NewExpr,
  CCEK_ConstexprIf
}
 Contexts in which a converted constant expression is required. More...
 
enum  ObjCSubscriptKind { OS_Array, OS_Dictionary, OS_Error }
 
enum  ObjCLiteralKind {
  LK_Array, LK_Dictionary, LK_Numeric, LK_Boxed,
  LK_String, LK_Block, LK_None
}
 
enum  ForRangeStatus { FRS_Success, FRS_NoViableFunction, FRS_DiagnosticIssued }
 
enum  MethodMatchStrategy { MMS_loose, MMS_strict }
 
enum  BuildForRangeKind { BFRK_Build, BFRK_Rebuild, BFRK_Check }
 
enum  CopyElisionSemanticsKind {
  CES_Strict = 0, CES_AllowParameters = 1, CES_AllowDifferentTypes = 2, CES_AllowExceptionVariables = 4,
  CES_FormerDefault = (CES_AllowParameters), CES_Default = (CES_AllowParameters | CES_AllowDifferentTypes), CES_AsIfByStdMove
}
 
enum  ReuseLambdaContextDecl_t { ReuseLambdaContextDecl }
 
enum  TryCaptureKind { TryCapture_Implicit, TryCapture_ExplicitByVal, TryCapture_ExplicitByRef }
 
enum  IfExistsResult { IER_Exists, IER_DoesNotExist, IER_Dependent, IER_Error }
 Describes the result of an "if-exists" condition check. More...
 
enum  AllocationFunctionScope { AFS_Global, AFS_Class, AFS_Both }
 The scope in which to find allocation functions. More...
 
enum  AccessResult { AR_accessible, AR_inaccessible, AR_dependent, AR_delayed }
 
enum  AbstractDiagSelID {
  AbstractNone = -1, AbstractReturnType, AbstractParamType, AbstractVariableType,
  AbstractFieldType, AbstractIvarType, AbstractSynthesizedIvarType, AbstractArrayType
}
 
enum  TemplateParamListContext {
  TPC_ClassTemplate, TPC_VarTemplate, TPC_FunctionTemplate, TPC_ClassTemplateMember,
  TPC_FriendClassTemplate, TPC_FriendFunctionTemplate, TPC_FriendFunctionTemplateDefinition, TPC_TypeAliasTemplate
}
 The context in which we are checking a template parameter list. More...
 
enum  CheckTemplateArgumentKind { CTAK_Specified, CTAK_Deduced, CTAK_DeducedFromArrayBound }
 Specifies the context in which a particular template argument is being checked. More...
 
enum  TemplateParameterListEqualKind { TPL_TemplateMatch, TPL_TemplateTemplateParmMatch, TPL_TemplateTemplateArgumentMatch }
 Enumeration describing how template parameter lists are compared for equality. More...
 
enum  UnexpandedParameterPackContext {
  UPPC_Expression = 0, UPPC_BaseType, UPPC_DeclarationType, UPPC_DataMemberType,
  UPPC_BitFieldWidth, UPPC_StaticAssertExpression, UPPC_FixedUnderlyingType, UPPC_EnumeratorValue,
  UPPC_UsingDeclaration, UPPC_FriendDeclaration, UPPC_DeclarationQualifier, UPPC_Initializer,
  UPPC_DefaultArgument, UPPC_NonTypeTemplateParameterType, UPPC_ExceptionType, UPPC_PartialSpecialization,
  UPPC_IfExists, UPPC_IfNotExists, UPPC_Lambda, UPPC_Block
}
 The context in which an unexpanded parameter pack is being diagnosed. More...
 
enum  TemplateDeductionResult {
  TDK_Success = 0, TDK_Invalid, TDK_InstantiationDepth, TDK_Incomplete,
  TDK_IncompletePack, TDK_Inconsistent, TDK_Underqualified, TDK_SubstitutionFailure,
  TDK_DeducedMismatch, TDK_DeducedMismatchNested, TDK_NonDeducedMismatch, TDK_TooManyArguments,
  TDK_TooFewArguments, TDK_InvalidExplicitArguments, TDK_NonDependentConversionFailure, TDK_MiscellaneousDeductionFailure,
  TDK_CUDATargetMismatch
}
 Describes the result of template argument deduction. More...
 
enum  DeduceAutoResult { DAR_Succeeded, DAR_Failed, DAR_FailedAlreadyDiagnosed }
 Result type of DeduceAutoType. More...
 
enum  ObjCContainerKind {
  OCK_None = -1, OCK_Interface = 0, OCK_Protocol, OCK_Category,
  OCK_ClassExtension, OCK_Implementation, OCK_CategoryImplementation
}
 
enum  ObjCSpecialMethodKind {
  OSMK_None, OSMK_Alloc, OSMK_New, OSMK_Copy,
  OSMK_RetainingInit, OSMK_NonRetainingInit
}
 
enum  ObjCMessageKind { ObjCSuperMessage, ObjCInstanceMessage, ObjCClassMessage }
 Describes the kind of message expression indicated by a message send that starts with an identifier. More...
 
enum  ResultTypeCompatibilityKind { RTC_Compatible, RTC_Incompatible, RTC_Unknown }
 Describes the compatibility of a result type with its method. More...
 
enum  PragmaOptionsAlignKind {
  POAK_Native, POAK_Natural, POAK_Packed, POAK_Power,
  POAK_Mac68k, POAK_Reset
}
 
enum  PragmaPackDiagnoseKind { PragmaPackDiagnoseKind::NonDefaultStateAtInclude, PragmaPackDiagnoseKind::ChangedStateAtExit }
 
enum  PragmaSectionKind { PSK_DataSeg, PSK_BSSSeg, PSK_ConstSeg, PSK_CodeSeg }
 
enum  CheckedConversionKind {
  CCK_ImplicitConversion, CCK_CStyleCast, CCK_FunctionalCast, CCK_OtherCast,
  CCK_ForBuiltinOverloadedOp
}
 The kind of conversion being performed. More...
 
enum  VariadicCallType {
  VariadicFunction, VariadicBlock, VariadicMethod, VariadicConstructor,
  VariadicDoesNotApply
}
 
enum  VarArgKind {
  VAK_Valid, VAK_ValidInCXX11, VAK_Undefined, VAK_MSVCUndefined,
  VAK_Invalid
}
 
enum  AssignConvertType {
  Compatible, PointerToInt, IntToPointer, FunctionVoidPointer,
  IncompatiblePointer, IncompatiblePointerSign, CompatiblePointerDiscardsQualifiers, IncompatiblePointerDiscardsQualifiers,
  IncompatibleNestedPointerQualifiers, IncompatibleVectors, IntToBlockPointer, IncompatibleBlockPointer,
  IncompatibleObjCQualifiedId, IncompatibleObjCWeakRef, Incompatible
}
 AssignConvertType - All of the 'assignment' semantic checks return this enum to indicate whether the assignment was allowed. More...
 
enum  ReferenceCompareResult { Ref_Incompatible = 0, Ref_Related, Ref_Compatible }
 ReferenceCompareResult - Expresses the result of comparing two types (cv1 T1 and cv2 T2) to determine their compatibility for the purposes of initialization by reference (C++ [dcl.init.ref]p4). More...
 
enum  ARCConversionResult { ACR_okay, ACR_unbridged, ACR_error }
 
enum  ConditionKind { ConditionKind::Boolean, ConditionKind::ConstexprIf, ConditionKind::Switch }
 
enum  CUDAFunctionTarget {
  CFT_Device, CFT_Global, CFT_Host, CFT_HostDevice,
  CFT_InvalidTarget
}
 
enum  CUDAFunctionPreference {
  CFP_Never, CFP_WrongSide, CFP_HostDevice, CFP_SameSide,
  CFP_Native
}
 
enum  FormatStringType {
  FST_Scanf, FST_Printf, FST_NSString, FST_Strftime,
  FST_Strfmon, FST_Kprintf, FST_FreeBSDKPrintf, FST_OSTrace,
  FST_OSLog, FST_Unknown
}
 
typedef OpaquePtr< DeclGroupRefDeclGroupPtrTy
 
typedef OpaquePtr< TemplateNameTemplateTy
 
typedef OpaquePtr< QualTypeTypeTy
 
typedef LazyVector< TypedefNameDecl *, ExternalSemaSource, &ExternalSemaSource::ReadExtVectorDecls, 2, 2 > ExtVectorDeclsType
 
typedef llvm::SmallSetVector< NamedDecl *, 16 > NamedDeclSetType
 
typedef std::pair< SourceLocation, boolDeleteExprLoc
 Delete-expressions to be analyzed at the end of translation unit. More...
 
typedef llvm::SmallVector< DeleteExprLoc, 4 > DeleteLocs
 
typedef llvm::SmallPtrSet< const CXXRecordDecl *, 8 > RecordDeclSetTy
 
typedef LazyVector< VarDecl *, ExternalSemaSource, &ExternalSemaSource::ReadTentativeDefinitions, 2, 2 > TentativeDefinitionsType
 
typedef LazyVector< const DeclaratorDecl *, ExternalSemaSource, &ExternalSemaSource::ReadUnusedFileScopedDecls, 2, 2 > UnusedFileScopedDeclsType
 
typedef LazyVector< CXXConstructorDecl *, ExternalSemaSource, &ExternalSemaSource::ReadDelegatingConstructors, 2, 2 > DelegatingCtorDeclsType
 
typedef llvm::MapVector< const FunctionDecl *, std::unique_ptr< LateParsedTemplate > > LateParsedTemplateMapT
 
typedef void LateTemplateParserCB(void *P, LateParsedTemplate &LPT)
 Callback to the parser to parse templated functions when needed. More...
 
typedef void LateTemplateParserCleanupCB(void *P)
 
typedef DelayedDiagnosticsState ParsingDeclState
 
typedef DelayedDiagnosticsState ProcessingContextState
 
typedef llvm::DenseMap< ParmVarDecl *, llvm::TinyPtrVector< ParmVarDecl * > > UnparsedDefaultArgInstantiationsMap
 
typedef std::pair< ObjCMethodList, ObjCMethodListGlobalMethods
 
typedef llvm::DenseMap< Selector, GlobalMethodsGlobalMethodPool
 
typedef llvm::PointerIntPair< CXXRecordDecl *, 3, CXXSpecialMemberSpecialMemberDecl
 
typedef void * SkippedDefinitionContext
 
typedef llvm::SmallSetVector< DeclContext *, 16 > AssociatedNamespaceSet
 
typedef llvm::SmallSetVector< CXXRecordDecl *, 16 > AssociatedClassSet
 
typedef llvm::SmallPtrSet< Selector, 8 > SelectorSet
 
typedef std::pair< StringRef, QualTypeCapturedParamNameType
 
typedef ProcessingContextState ParsingClassState
 
typedef std::pair< CXXRecordDecl *, SourceLocationVTableUse
 The list of classes whose vtables have been used within this translation unit, and the source locations at which the first use occurred. More...
 
typedef llvm::DenseMap< Decl *, SmallVector< PartialDiagnosticAt, 1 > > SuppressedDiagnosticsMap
 For each declaration that involved template argument deduction, the set of diagnostics that were suppressed during that template argument deduction. More...
 
typedef llvm::SmallSet< SourceLocation, 2 > SrcLocSet
 
typedef llvm::DenseMap< IdentifierInfo *, SrcLocSetIdentifierSourceLocations
 
typedef std::pair< ValueDecl *, SourceLocationPendingImplicitInstantiation
 An entity for which implicit template instantiation is required. More...
 
typedef SmallVector< LateInstantiatedAttribute, 16 > LateInstantiatedAttrVec
 
using VarsWithInheritedDSAType = llvm::SmallDenseMap< const ValueDecl *, const Expr *, 4 >
 
typedef std::pair< const IdentifierInfo *, uint64_t > TypeTagMagicValue
 A pair of ArgumentKind identifier and magic value. More...
 

Public Member Functions

NamedDeclfindLocallyScopedExternCDecl (DeclarationName Name)
 Look for a locally scoped extern "C" declaration by the given name. More...
 
void SetLateTemplateParser (LateTemplateParserCB *LTP, LateTemplateParserCleanupCB *LTPCleanup, void *P)
 
void LoadExternalWeakUndeclaredIdentifiers ()
 Load weak undeclared identifiers from the external source. More...
 
MangleNumberingContextgetCurrentMangleNumberContext (const DeclContext *DC, Decl *&ManglingContextDecl)
 Compute the mangling number context for a lambda expression or block literal. More...
 
bool isExternalWithNoLinkageType (ValueDecl *VD)
 Determine if VD, which must be a variable or function, is an external symbol that nonetheless can't be referenced from outside this translation unit because its type has no linkage and it's not extern "C". More...
 
void getUndefinedButUsed (SmallVectorImpl< std::pair< NamedDecl *, SourceLocation > > &Undefined)
 Obtain a sorted list of functions that are undefined but ODR-used. More...
 
const llvm::MapVector< FieldDecl *, DeleteLocs > & getMismatchingDeleteExpressions () const
 Retrieves list of suspicious delete-expressions that will be checked at the end of translation unit. More...
 
void ReadMethodPool (Selector Sel)
 Read the contents of the method pool for a given selector from external storage. More...
 
void updateOutOfDateSelector (Selector Sel)
 
void EmitCurrentDiagnostic (unsigned DiagID)
 Cause the active diagnostic on the DiagosticsEngine to be emitted. More...
 
void addImplicitTypedef (StringRef Name, QualType T)
 
 Sema (Preprocessor &pp, ASTContext &ctxt, ASTConsumer &consumer, TranslationUnitKind TUKind=TU_Complete, CodeCompleteConsumer *CompletionConsumer=nullptr)
 
 ~Sema ()
 
void Initialize ()
 Perform initialization that occurs after the parser has been initialized but before it parses anything. More...
 
const LangOptionsgetLangOpts () const
 
OpenCLOptionsgetOpenCLOptions ()
 
FPOptionsgetFPOptions ()
 
DiagnosticsEnginegetDiagnostics () const
 
SourceManagergetSourceManager () const
 
PreprocessorgetPreprocessor () const
 
ASTContextgetASTContext () const
 
ASTConsumergetASTConsumer () const
 
ASTMutationListenergetASTMutationListener () const
 
ExternalSemaSourcegetExternalSource () const
 
void addExternalSource (ExternalSemaSource *E)
 Registers an external source. More...
 
void PrintStats () const
 Print out statistics about the semantic analysis. More...
 
SemaDiagnosticBuilder Diag (SourceLocation Loc, unsigned DiagID)
 Emit a diagnostic. More...
 
SemaDiagnosticBuilder Diag (SourceLocation Loc, const PartialDiagnostic &PD)
 Emit a partial diagnostic. More...
 
PartialDiagnostic PDiag (unsigned DiagID=0)
 Build a partial diagnostic. More...
 
bool findMacroSpelling (SourceLocation &loc, StringRef name)
 Looks through the macro-expansion chain for the given location, looking for a macro expansion with the given name. More...
 
std::string getFixItZeroInitializerForType (QualType T, SourceLocation Loc) const
 Get a string to suggest for zero-initialization of a type. More...
 
std::string getFixItZeroLiteralForType (QualType T, SourceLocation Loc) const
 
SourceLocation getLocForEndOfToken (SourceLocation Loc, unsigned Offset=0)
 Calls Lexer::getLocForEndOfToken() More...
 
ModuleLoadergetModuleLoader () const
 Retrieve the module loader associated with the preprocessor. More...
 
void emitAndClearUnusedLocalTypedefWarnings ()
 
void ActOnStartOfTranslationUnit ()
 This is called before the very first declaration in the translation unit is parsed. More...
 
void ActOnEndOfTranslationUnit ()
 ActOnEndOfTranslationUnit - This is called at the very end of the translation unit when EOF is reached and all but the top-level scope is popped. More...
 
void CheckDelegatingCtorCycles ()
 
ScopegetScopeForContext (DeclContext *Ctx)
 Determines the active Scope associated with the given declaration context. More...
 
void PushFunctionScope ()
 Enter a new function scope. More...
 
void PushBlockScope (Scope *BlockScope, BlockDecl *Block)
 
sema::LambdaScopeInfoPushLambdaScope ()
 
void RecordParsingTemplateParameterDepth (unsigned Depth)
 This is used to inform Sema what the current TemplateParameterDepth is during Parsing. More...
 
void PushCapturedRegionScope (Scope *RegionScope, CapturedDecl *CD, RecordDecl *RD, CapturedRegionKind K)
 
void PopFunctionScopeInfo (const sema::AnalysisBasedWarnings::Policy *WP=nullptr, const Decl *D=nullptr, const BlockExpr *blkExpr=nullptr)
 
sema::FunctionScopeInfogetCurFunction () const
 
sema::FunctionScopeInfogetEnclosingFunction () const
 
void setFunctionHasBranchIntoScope ()
 
void setFunctionHasBranchProtectedScope ()
 
void setFunctionHasIndirectGoto ()
 
void PushCompoundScope (bool IsStmtExpr)
 
void PopCompoundScope ()
 
sema::CompoundScopeInfogetCurCompoundScope () const
 
bool hasAnyUnrecoverableErrorsInThisFunction () const
 Determine whether any errors occurred within this function/method/ block. More...
 
sema::BlockScopeInfogetCurBlock ()
 Retrieve the current block, if any. More...
 
sema::LambdaScopeInfogetCurLambda (bool IgnoreNonLambdaCapturingScope=false)
 Retrieve the current lambda scope info, if any. More...
 
sema::LambdaScopeInfogetCurGenericLambda ()
 Retrieve the current generic lambda info, if any. More...
 
sema::CapturedRegionScopeInfogetCurCapturedRegion ()
 Retrieve the current captured region, if any. More...
 
SmallVectorImpl< Decl * > & WeakTopLevelDecls ()
 WeakTopLevelDeclDecls - access to #pragma weak-generated Decls. More...
 
void ActOnComment (SourceRange Comment)
 
QualType BuildQualifiedType (QualType T, SourceLocation Loc, Qualifiers Qs, const DeclSpec *DS=nullptr)
 
QualType BuildQualifiedType (QualType T, SourceLocation Loc, unsigned CVRA, const DeclSpec *DS=nullptr)
 
QualType BuildPointerType (QualType T, SourceLocation Loc, DeclarationName Entity)
 Build a pointer type. More...
 
QualType BuildReferenceType (QualType T, bool LValueRef, SourceLocation Loc, DeclarationName Entity)
 Build a reference type. More...
 
QualType BuildArrayType (QualType T, ArrayType::ArraySizeModifier ASM, Expr *ArraySize, unsigned Quals, SourceRange Brackets, DeclarationName Entity)
 Build an array type. More...
 
QualType BuildVectorType (QualType T, Expr *VecSize, SourceLocation AttrLoc)
 
QualType BuildExtVectorType (QualType T, Expr *ArraySize, SourceLocation AttrLoc)
 Build an ext-vector type. More...
 
QualType BuildAddressSpaceAttr (QualType &T, Expr *AddrSpace, SourceLocation AttrLoc)
 BuildAddressSpaceAttr - Builds a DependentAddressSpaceType if an expression is uninstantiated. More...
 
bool CheckFunctionReturnType (QualType T, SourceLocation Loc)
 
QualType BuildFunctionType (QualType T, MutableArrayRef< QualType > ParamTypes, SourceLocation Loc, DeclarationName Entity, const FunctionProtoType::ExtProtoInfo &EPI)
 Build a function type. More...
 
QualType BuildMemberPointerType (QualType T, QualType Class, SourceLocation Loc, DeclarationName Entity)
 Build a member pointer type T Class::*. More...
 
QualType BuildBlockPointerType (QualType T, SourceLocation Loc, DeclarationName Entity)
 Build a block pointer type. More...
 
QualType BuildParenType (QualType T)
 Build a paren type including T. More...
 
QualType BuildAtomicType (QualType T, SourceLocation Loc)
 
QualType BuildReadPipeType (QualType T, SourceLocation Loc)
 Build a Read-only Pipe type. More...
 
QualType BuildWritePipeType (QualType T, SourceLocation Loc)
 Build a Write-only Pipe type. More...
 
TypeSourceInfoGetTypeForDeclarator (Declarator &D, Scope *S)
 GetTypeForDeclarator - Convert the type for the specified declarator to Type instances. More...
 
TypeSourceInfoGetTypeForDeclaratorCast (Declarator &D, QualType FromTy)
 
TypeSourceInfoGetTypeSourceInfoForDeclarator (Declarator &D, QualType T, TypeSourceInfo *ReturnTypeInfo)
 Create and instantiate a TypeSourceInfo with type source information. More...
 
ParsedType CreateParsedType (QualType T, TypeSourceInfo *TInfo)
 Package the given type and TSI into a ParsedType. More...
 
DeclarationNameInfo GetNameForDeclarator (Declarator &D)
 GetNameForDeclarator - Determine the full declaration name for the given Declarator. More...
 
DeclarationNameInfo GetNameFromUnqualifiedId (const UnqualifiedId &Name)
 Retrieves the declaration name from a parsed unqualified-id. More...
 
CanThrowResult canThrow (const Expr *E)
 
const FunctionProtoTypeResolveExceptionSpec (SourceLocation Loc, const FunctionProtoType *FPT)
 
void UpdateExceptionSpec (FunctionDecl *FD, const FunctionProtoType::ExceptionSpecInfo &ESI)
 
bool CheckSpecifiedExceptionType (QualType &T, SourceRange Range)
 CheckSpecifiedExceptionType - Check if the given type is valid in an exception specification. More...
 
bool CheckDistantExceptionSpec (QualType T)
 CheckDistantExceptionSpec - Check if the given type is a pointer or pointer to member to a function with an exception specification. More...
 
bool CheckEquivalentExceptionSpec (FunctionDecl *Old, FunctionDecl *New)
 
bool CheckEquivalentExceptionSpec (const FunctionProtoType *Old, SourceLocation OldLoc, const FunctionProtoType *New, SourceLocation NewLoc)
 CheckEquivalentExceptionSpec - Check if the two types have equivalent exception specifications. More...
 
bool CheckEquivalentExceptionSpec (const PartialDiagnostic &DiagID, const PartialDiagnostic &NoteID, const FunctionProtoType *Old, SourceLocation OldLoc, const FunctionProtoType *New, SourceLocation NewLoc)
 
bool handlerCanCatch (QualType HandlerType, QualType ExceptionType)
 
bool CheckExceptionSpecSubset (const PartialDiagnostic &DiagID, const PartialDiagnostic &NestedDiagID, const PartialDiagnostic &NoteID, const FunctionProtoType *Superset, SourceLocation SuperLoc, const FunctionProtoType *Subset, SourceLocation SubLoc)
 CheckExceptionSpecSubset - Check whether the second function type's exception specification is a subset (or equivalent) of the first function type. More...
 
bool CheckParamExceptionSpec (const PartialDiagnostic &NestedDiagID, const PartialDiagnostic &NoteID, const FunctionProtoType *Target, SourceLocation TargetLoc, const FunctionProtoType *Source, SourceLocation SourceLoc)
 CheckParamExceptionSpec - Check if the parameter and return types of the two functions have equivalent exception specs. More...
 
TypeResult ActOnTypeName (Scope *S, Declarator &D)
 
ParsedType ActOnObjCInstanceType (SourceLocation Loc)
 The parser has parsed the context-sensitive type 'instancetype' in an Objective-C message declaration. More...
 
ModulegetOwningModule (Decl *Entity)
 Get the module owning an entity. More...
 
void makeMergedDefinitionVisible (NamedDecl *ND)
 Make a merged definition of an existing hidden definition ND visible at the specified location. More...
 
bool isModuleVisible (const Module *M)
 
bool isVisible (const NamedDecl *D)
 Determine whether a declaration is visible to name lookup. More...
 
bool hasVisibleDeclaration (const NamedDecl *D, llvm::SmallVectorImpl< Module *> *Modules=nullptr)
 Determine whether any declaration of an entity is visible. More...
 
bool hasVisibleDeclarationSlow (const NamedDecl *D, llvm::SmallVectorImpl< Module *> *Modules)
 
bool hasVisibleMergedDefinition (NamedDecl *Def)
 
bool hasMergedDefinitionInCurrentModule (NamedDecl *Def)
 
bool hasStructuralCompatLayout (Decl *D, Decl *Suggested)
 Determine if D and Suggested have a structurally compatible layout as described in C11 6.2.7/1. More...
 
bool hasVisibleDefinition (NamedDecl *D, NamedDecl **Suggested, bool OnlyNeedComplete=false)
 Determine if D has a visible definition. More...
 
bool hasVisibleDefinition (const NamedDecl *D)
 
bool hasVisibleDefaultArgument (const NamedDecl *D, llvm::SmallVectorImpl< Module *> *Modules=nullptr)
 Determine if the template parameter D has a visible default argument. More...
 
bool hasVisibleExplicitSpecialization (const NamedDecl *D, llvm::SmallVectorImpl< Module *> *Modules=nullptr)
 Determine if there is a visible declaration of D that is an explicit specialization declaration for a specialization of a template. More...
 
bool hasVisibleMemberSpecialization (const NamedDecl *D, llvm::SmallVectorImpl< Module *> *Modules=nullptr)
 Determine if there is a visible declaration of D that is a member specialization declaration (as opposed to an instantiated declaration). More...
 
bool isEquivalentInternalLinkageDeclaration (const NamedDecl *A, const NamedDecl *B)
 Determine if A and B are equivalent internal linkage declarations from different modules, and thus an ambiguity error can be downgraded to an extension warning. More...
 
void diagnoseEquivalentInternalLinkageDeclarations (SourceLocation Loc, const NamedDecl *D, ArrayRef< const NamedDecl *> Equiv)
 
bool isCompleteType (SourceLocation Loc, QualType T)
 
bool RequireCompleteType (SourceLocation Loc, QualType T, TypeDiagnoser &Diagnoser)
 Ensure that the type T is a complete type. More...
 
bool RequireCompleteType (SourceLocation Loc, QualType T, unsigned DiagID)
 
template<typename... Ts>
bool RequireCompleteType (SourceLocation Loc, QualType T, unsigned DiagID, const Ts &...Args)
 
void completeExprArrayBound (Expr *E)
 
bool RequireCompleteExprType (Expr *E, TypeDiagnoser &Diagnoser)
 Ensure that the type of the given expression is complete. More...
 
bool RequireCompleteExprType (Expr *E, unsigned DiagID)
 
template<typename... Ts>
bool RequireCompleteExprType (Expr *E, unsigned DiagID, const Ts &...Args)
 
bool RequireLiteralType (SourceLocation Loc, QualType T, TypeDiagnoser &Diagnoser)
 Ensure that the type T is a literal type. More...
 
bool RequireLiteralType (SourceLocation Loc, QualType T, unsigned DiagID)
 
template<typename... Ts>
bool RequireLiteralType (SourceLocation Loc, QualType T, unsigned DiagID, const Ts &...Args)
 
QualType getElaboratedType (ElaboratedTypeKeyword Keyword, const CXXScopeSpec &SS, QualType T, TagDecl *OwnedTagDecl=nullptr)
 Retrieve a version of the type 'T' that is elaborated by Keyword, qualified by the nested-name-specifier contained in SS, and that is (re)declared by OwnedTagDecl, which is nullptr if this is not a (re)declaration. More...
 
QualType BuildTypeofExprType (Expr *E, SourceLocation Loc)
 
QualType BuildDecltypeType (Expr *E, SourceLocation Loc, bool AsUnevaluated=true)
 If AsUnevaluated is false, E is treated as though it were an evaluated context, such as when building a type for decltype(auto). More...
 
QualType BuildUnaryTransformType (QualType BaseType, UnaryTransformType::UTTKind UKind, SourceLocation Loc)
 
DeclGroupPtrTy ConvertDeclToDeclGroup (Decl *Ptr, Decl *OwnedType=nullptr)
 
void DiagnoseUseOfUnimplementedSelectors ()
 
bool isSimpleTypeSpecifier (tok::TokenKind Kind) const
 Determine whether the token kind starts a simple-type-specifier. More...
 
ParsedType getTypeName (const IdentifierInfo &II, SourceLocation NameLoc, Scope *S, CXXScopeSpec *SS=nullptr, bool isClassName=false, bool HasTrailingDot=false, ParsedType ObjectType=nullptr, bool IsCtorOrDtorName=false, bool WantNontrivialTypeSourceInfo=false, bool IsClassTemplateDeductionContext=true, IdentifierInfo **CorrectedII=nullptr)
 If the identifier refers to a type name within this scope, return the declaration of that type. More...
 
TypeSpecifierType isTagName (IdentifierInfo &II, Scope *S)
 isTagName() - This method is called for error recovery purposes only to determine if the specified name is a valid tag name ("struct foo"). More...
 
bool isMicrosoftMissingTypename (const CXXScopeSpec *SS, Scope *S)
 isMicrosoftMissingTypename - In Microsoft mode, within class scope, if a CXXScopeSpec's type is equal to the type of one of the base classes then downgrade the missing typename error to a warning. More...
 
void DiagnoseUnknownTypeName (IdentifierInfo *&II, SourceLocation IILoc, Scope *S, CXXScopeSpec *SS, ParsedType &SuggestedType, bool IsTemplateName=false)
 
ParsedType ActOnMSVCUnknownTypeName (const IdentifierInfo &II, SourceLocation NameLoc, bool IsTemplateTypeArg)
 Attempt to behave like MSVC in situations where lookup of an unqualified type name has failed in a dependent context. More...
 
NameClassification ClassifyName (Scope *S, CXXScopeSpec &SS, IdentifierInfo *&Name, SourceLocation NameLoc, const Token &NextToken, bool IsAddressOfOperand, std::unique_ptr< CorrectionCandidateCallback > CCC=nullptr)
 Perform name lookup on the given name, classifying it based on the results of name lookup and the following token. More...
 
TemplateNameKindForDiagnostics getTemplateNameKindForDiagnostics (TemplateName Name)
 
bool mightBeIntendedToBeTemplateName (ExprResult E, bool &Dependent)
 Determine whether it's plausible that E was intended to be a template-name. More...
 
void diagnoseExprIntendedAsTemplateName (Scope *S, ExprResult TemplateName, SourceLocation Less, SourceLocation Greater)
 
DeclActOnDeclarator (Scope *S, Declarator &D)
 
NamedDeclHandleDeclarator (Scope *S, Declarator &D, MultiTemplateParamsArg TemplateParameterLists)
 
void RegisterLocallyScopedExternCDecl (NamedDecl *ND, Scope *S)
 Register the given locally-scoped extern "C" declaration so that it can be found later for redeclarations. More...
 
bool DiagnoseClassNameShadow (DeclContext *DC, DeclarationNameInfo Info)
 DiagnoseClassNameShadow - Implement C++ [class.mem]p13: If T is the name of a class, then each of the following shall have a name different from T: More...
 
bool diagnoseQualifiedDeclaration (CXXScopeSpec &SS, DeclContext *DC, DeclarationName Name, SourceLocation Loc, bool IsTemplateId)
 Diagnose a declaration whose declarator-id has the given nested-name-specifier. More...
 
void diagnoseIgnoredQualifiers (unsigned DiagID, unsigned Quals, SourceLocation FallbackLoc, SourceLocation ConstQualLoc=SourceLocation(), SourceLocation VolatileQualLoc=SourceLocation(), SourceLocation RestrictQualLoc=SourceLocation(), SourceLocation AtomicQualLoc=SourceLocation(), SourceLocation UnalignedQualLoc=SourceLocation())
 
void DiagnoseFunctionSpecifiers (const DeclSpec &DS)
 Diagnose function specifiers on a declaration of an identifier that does not identify a function. More...
 
NamedDeclgetShadowedDeclaration (const TypedefNameDecl *D, const LookupResult &R)
 Return the declaration shadowed by the given typedef D, or null if it doesn't shadow any declaration or shadowing warnings are disabled. More...
 
NamedDeclgetShadowedDeclaration (const VarDecl *D, const LookupResult &R)
 Return the declaration shadowed by the given variable D, or null if it doesn't shadow any declaration or shadowing warnings are disabled. More...
 
void CheckShadow (NamedDecl *D, NamedDecl *ShadowedDecl, const LookupResult &R)
 Diagnose variable or built-in function shadowing. More...
 
void CheckShadow (Scope *S, VarDecl *D)
 Check -Wshadow without the advantage of a previous lookup. More...
 
void CheckShadowingDeclModification (Expr *E, SourceLocation Loc)
 Warn if 'E', which is an expression that is about to be modified, refers to a shadowing declaration. More...
 
void DiagnoseShadowingLambdaDecls (const sema::LambdaScopeInfo *LSI)
 Diagnose shadowing for variables shadowed in the lambda record LambdaRD when these variables are captured by the lambda. More...
 
void CheckCastAlign (Expr *Op, QualType T, SourceRange TRange)
 CheckCastAlign - Implements -Wcast-align, which warns when a pointer cast increases the alignment requirements. More...
 
void handleTagNumbering (const TagDecl *Tag, Scope *TagScope)
 
void setTagNameForLinkagePurposes (TagDecl *TagFromDeclSpec, TypedefNameDecl *NewTD)
 
void CheckTypedefForVariablyModifiedType (Scope *S, TypedefNameDecl *D)
 
NamedDeclActOnTypedefDeclarator (Scope *S, Declarator &D, DeclContext *DC, TypeSourceInfo *TInfo, LookupResult &Previous)
 
NamedDeclActOnTypedefNameDecl (Scope *S, DeclContext *DC, TypedefNameDecl *D, LookupResult &Previous, bool &Redeclaration)
 ActOnTypedefNameDecl - Perform semantic checking for a declaration which declares a typedef-name, either using the 'typedef' type specifier or via a C++0x [dcl.typedef]p2 alias-declaration: 'using T = A;'. More...
 
NamedDeclActOnVariableDeclarator (Scope *S, Declarator &D, DeclContext *DC, TypeSourceInfo *TInfo, LookupResult &Previous, MultiTemplateParamsArg TemplateParamLists, bool &AddToScope, ArrayRef< BindingDecl *> Bindings=None)
 
NamedDeclActOnDecompositionDeclarator (Scope *S, Declarator &D, MultiTemplateParamsArg TemplateParamLists)
 
bool CheckVariableDeclaration (VarDecl *NewVD, LookupResult &Previous)
 Perform semantic checking on a newly-created variable declaration. More...
 
void CheckVariableDeclarationType (VarDecl *NewVD)
 
bool DeduceVariableDeclarationType (VarDecl *VDecl, bool DirectInit, Expr *Init)
 
void CheckCompleteVariableDeclaration (VarDecl *VD)
 
void CheckCompleteDecompositionDeclaration (DecompositionDecl *DD)
 
void MaybeSuggestAddingStaticToDecl (const FunctionDecl *D)
 
NamedDeclActOnFunctionDeclarator (Scope *S, Declarator &D, DeclContext *DC, TypeSourceInfo *TInfo, LookupResult &Previous, MultiTemplateParamsArg TemplateParamLists, bool &AddToScope)
 
bool AddOverriddenMethods (CXXRecordDecl *DC, CXXMethodDecl *MD)
 AddOverriddenMethods - See if a method overrides any in the base classes, and if so, check that it's a valid override and remember it. More...
 
bool CheckConstexprFunctionDecl (const FunctionDecl *FD)
 
bool CheckConstexprFunctionBody (const FunctionDecl *FD, Stmt *Body)
 Check the body for the given constexpr function declaration only contains the permitted types of statement. More...
 
void DiagnoseHiddenVirtualMethods (CXXMethodDecl *MD)
 Diagnose methods which overload virtual methods in a base class without overriding any. More...
 
void FindHiddenVirtualMethods (CXXMethodDecl *MD, SmallVectorImpl< CXXMethodDecl *> &OverloadedMethods)
 Check if a method overloads virtual methods in a base class without overriding any. More...
 
void NoteHiddenVirtualMethods (CXXMethodDecl *MD, SmallVectorImpl< CXXMethodDecl *> &OverloadedMethods)
 
bool CheckFunctionDeclaration (Scope *S, FunctionDecl *NewFD, LookupResult &Previous, bool IsMemberSpecialization)
 Perform semantic checking of a new function declaration. More...
 
bool shouldLinkDependentDeclWithPrevious (Decl *D, Decl *OldDecl)
 Checks if the new declaration declared in dependent context must be put in the same redeclaration chain as the specified declaration. More...
 
void CheckMain (FunctionDecl *FD, const DeclSpec &D)
 
void CheckMSVCRTEntryPoint (FunctionDecl *FD)
 
AttrgetImplicitCodeSegOrSectionAttrForFunction (const FunctionDecl *FD, bool IsDefinition)
 Returns an implicit CodeSegAttr if a __declspec(code_seg) is found on a containing class. More...
 
DeclActOnParamDeclarator (Scope *S, Declarator &D)
 ActOnParamDeclarator - Called from Parser::ParseFunctionDeclarator() to introduce parameters into function prototype scope. More...
 
ParmVarDeclBuildParmVarDeclForTypedef (DeclContext *DC, SourceLocation Loc, QualType T)
 Synthesizes a variable for a parameter arising from a typedef. More...
 
ParmVarDeclCheckParameter (DeclContext *DC, SourceLocation StartLoc, SourceLocation NameLoc, IdentifierInfo *Name, QualType T, TypeSourceInfo *TSInfo, StorageClass SC)
 
void ActOnParamDefaultArgument (Decl *param, SourceLocation EqualLoc, Expr *defarg)
 ActOnParamDefaultArgument - Check whether the default argument provided for a function parameter is well-formed. More...
 
void ActOnParamUnparsedDefaultArgument (Decl *param, SourceLocation EqualLoc, SourceLocation ArgLoc)
 ActOnParamUnparsedDefaultArgument - We've seen a default argument for a function parameter, but we can't parse it yet because we're inside a class definition. More...
 
void ActOnParamDefaultArgumentError (Decl *param, SourceLocation EqualLoc)
 ActOnParamDefaultArgumentError - Parsing or semantic analysis of the default argument for the parameter param failed. More...
 
bool SetParamDefaultArgument (ParmVarDecl *Param, Expr *DefaultArg, SourceLocation EqualLoc)
 
void AddInitializerToDecl (Decl *dcl, Expr *init, bool DirectInit)
 AddInitializerToDecl - Adds the initializer Init to the declaration dcl. More...
 
void ActOnUninitializedDecl (Decl *dcl)
 
void ActOnInitializerError (Decl *Dcl)
 ActOnInitializerError - Given that there was an error parsing an initializer for the given declaration, try to return to some form of sanity. More...
 
void ActOnPureSpecifier (Decl *D, SourceLocation PureSpecLoc)
 
void ActOnCXXForRangeDecl (Decl *D)
 
StmtResult ActOnCXXForRangeIdentifier (Scope *S, SourceLocation IdentLoc, IdentifierInfo *Ident, ParsedAttributes &Attrs, SourceLocation AttrEnd)
 
void SetDeclDeleted (Decl *dcl, SourceLocation DelLoc)
 
void SetDeclDefaulted (Decl *dcl, SourceLocation DefaultLoc)
 
void FinalizeDeclaration (Decl *D)
 FinalizeDeclaration - called by ParseDeclarationAfterDeclarator to perform any semantic actions necessary after any initializer has been attached. More...
 
DeclGroupPtrTy FinalizeDeclaratorGroup (Scope *S, const DeclSpec &DS, ArrayRef< Decl *> Group)
 
DeclGroupPtrTy BuildDeclaratorGroup (MutableArrayRef< Decl *> Group)
 BuildDeclaratorGroup - convert a list of declarations into a declaration group, performing any necessary semantic checking. More...
 
void ActOnDocumentableDecl (Decl *D)
 Should be called on all declarations that might have attached documentation comments. More...
 
void ActOnDocumentableDecls (ArrayRef< Decl *> Group)
 
void ActOnFinishKNRParamDeclarations (Scope *S, Declarator &D, SourceLocation LocAfterDecls)
 
void CheckForFunctionRedefinition (FunctionDecl *FD, const FunctionDecl *EffectiveDefinition=nullptr, SkipBodyInfo *SkipBody=nullptr)
 
DeclActOnStartOfFunctionDef (Scope *S, Declarator &D, MultiTemplateParamsArg TemplateParamLists, SkipBodyInfo *SkipBody=nullptr)
 
DeclActOnStartOfFunctionDef (Scope *S, Decl *D, SkipBodyInfo *SkipBody=nullptr)
 
void ActOnStartOfObjCMethodDef (Scope *S, Decl *D)
 ActOnStartOfObjCMethodDef - This routine sets up parameters; invisible and user declared, in the method definition's AST. More...
 
bool isObjCMethodDecl (Decl *D)
 
bool canDelayFunctionBody (const Declarator &D)
 Determine whether we can delay parsing the body of a function or function template until it is used, assuming we don't care about emitting code for that function. More...
 
bool canSkipFunctionBody (Decl *D)
 Determine whether we can skip parsing the body of a function definition, assuming we don't care about analyzing its body or emitting code for that function. More...
 
void computeNRVO (Stmt *Body, sema::FunctionScopeInfo *Scope)
 Given the set of return statements within a function body, compute the variables that are subject to the named return value optimization. More...
 
DeclActOnFinishFunctionBody (Decl *Decl, Stmt *Body)
 
DeclActOnFinishFunctionBody (Decl *Decl, Stmt *Body, bool IsInstantiation)
 
DeclActOnSkippedFunctionBody (Decl *Decl)
 
void ActOnFinishInlineFunctionDef (FunctionDecl *D)
 
void ActOnFinishDelayedAttribute (Scope *S, Decl *D, ParsedAttributes &Attrs)
 ActOnFinishDelayedAttribute - Invoked when we have finished parsing an attribute for which parsing is delayed. More...
 
void DiagnoseUnusedParameters (ArrayRef< ParmVarDecl *> Parameters)
 Diagnose any unused parameters in the given sequence of ParmVarDecl pointers. More...
 
void DiagnoseSizeOfParametersAndReturnValue (ArrayRef< ParmVarDecl *> Parameters, QualType ReturnTy, NamedDecl *D)
 Diagnose whether the size of parameters or return value of a function or obj-c method definition is pass-by-value and larger than a specified threshold. More...
 
void DiagnoseInvalidJumps (Stmt *Body)
 
DeclActOnFileScopeAsmDecl (Expr *expr, SourceLocation AsmLoc, SourceLocation RParenLoc)
 
DeclActOnEmptyDeclaration (Scope *S, const ParsedAttributesView &AttrList, SourceLocation SemiLoc)
 Handle a C++11 empty-declaration and attribute-declaration. More...
 
DeclGroupPtrTy ActOnModuleDecl (SourceLocation StartLoc, SourceLocation ModuleLoc, ModuleDeclKind MDK, ModuleIdPath Path)
 The parser has processed a module-declaration that begins the definition of a module interface or implementation. More...
 
DeclResult ActOnModuleImport (SourceLocation AtLoc, SourceLocation ImportLoc, ModuleIdPath Path)
 The parser has processed a module import declaration. More...
 
void ActOnModuleInclude (SourceLocation DirectiveLoc, Module *Mod)
 The parser has processed a module import translated from a #include or similar preprocessing directive. More...
 
void BuildModuleInclude (SourceLocation DirectiveLoc, Module *Mod)
 
void ActOnModuleBegin (SourceLocation DirectiveLoc, Module *Mod)
 The parsed has entered a submodule. More...
 
void ActOnModuleEnd (SourceLocation DirectiveLoc, Module *Mod)
 The parser has left a submodule. More...
 
void createImplicitModuleImportForErrorRecovery (SourceLocation Loc, Module *Mod)
 Create an implicit import of the given module at the given source location, for error recovery, if possible. More...
 
void diagnoseMissingImport (SourceLocation Loc, NamedDecl *Decl, MissingImportKind MIK, bool Recover=true)
 Diagnose that the specified declaration needs to be visible but isn't, and suggest a module import that would resolve the problem. More...
 
void diagnoseMissingImport (SourceLocation Loc, NamedDecl *Decl, SourceLocation DeclLoc, ArrayRef< Module *> Modules, MissingImportKind MIK, bool Recover)
 
DeclActOnStartExportDecl (Scope *S, SourceLocation ExportLoc, SourceLocation LBraceLoc)
 We have parsed the start of an export declaration, including the '{' (if present). More...
 
DeclActOnFinishExportDecl (Scope *S, Decl *ExportDecl, SourceLocation RBraceLoc)
 Complete the definition of an export declaration. More...
 
void checkSpecializationVisibility (SourceLocation Loc, NamedDecl *Spec)
 We've found a use of a templated declaration that would trigger an implicit instantiation. More...
 
void checkPartialSpecializationVisibility (SourceLocation Loc, NamedDecl *Spec)
 We've found a use of a template specialization that would select a partial specialization. More...
 
PrintingPolicy getPrintingPolicy () const
 Retrieve a suitable printing policy for diagnostics. More...
 
void ActOnPopScope (SourceLocation Loc, Scope *S)
 Scope actions. More...
 
void ActOnTranslationUnitScope (Scope *S)
 
DeclParsedFreeStandingDeclSpec (Scope *S, AccessSpecifier AS, DeclSpec &DS, RecordDecl *&AnonRecord)
 ParsedFreeStandingDeclSpec - This method is invoked when a declspec with no declarator (e.g. More...
 
DeclParsedFreeStandingDeclSpec (Scope *S, AccessSpecifier AS, DeclSpec &DS, MultiTemplateParamsArg TemplateParams, bool IsExplicitInstantiation, RecordDecl *&AnonRecord)
 ParsedFreeStandingDeclSpec - This method is invoked when a declspec with no declarator (e.g. More...
 
DeclBuildAnonymousStructOrUnion (Scope *S, DeclSpec &DS, AccessSpecifier AS, RecordDecl *Record, const PrintingPolicy &Policy)
 BuildAnonymousStructOrUnion - Handle the declaration of an anonymous structure or union. More...
 
DeclBuildMicrosoftCAnonymousStruct (Scope *S, DeclSpec &DS, RecordDecl *Record)
 BuildMicrosoftCAnonymousStruct - Handle the declaration of an Microsoft C anonymous structure. More...
 
NonTagKind getNonTagTypeDeclKind (const Decl *D, TagTypeKind TTK)
 Given a non-tag type declaration, returns an enum useful for indicating what kind of non-tag type this is. More...
 
bool isAcceptableTagRedeclaration (const TagDecl *Previous, TagTypeKind NewTag, bool isDefinition, SourceLocation NewTagLoc, const IdentifierInfo *Name)
 Determine whether a tag with a given kind is acceptable as a redeclaration of the given tag declaration. More...
 
DeclActOnTag (Scope *S, unsigned TagSpec, TagUseKind TUK, SourceLocation KWLoc, CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc, const ParsedAttributesView &Attr, AccessSpecifier AS, SourceLocation ModulePrivateLoc, MultiTemplateParamsArg TemplateParameterLists, bool &OwnedDecl, bool &IsDependent, SourceLocation ScopedEnumKWLoc, bool ScopedEnumUsesClassTag, TypeResult UnderlyingType, bool IsTypeSpecifier, bool IsTemplateParamOrArg, SkipBodyInfo *SkipBody=nullptr)
 This is invoked when we see 'struct foo' or 'struct {'. More...
 
DeclActOnTemplatedFriendTag (Scope *S, SourceLocation FriendLoc, unsigned TagSpec, SourceLocation TagLoc, CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc, const ParsedAttributesView &Attr, MultiTemplateParamsArg TempParamLists)
 Handle a friend tag declaration where the scope specifier was templated. More...
 
TypeResult ActOnDependentTag (Scope *S, unsigned TagSpec, TagUseKind TUK, const CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation TagLoc, SourceLocation NameLoc)
 
void ActOnDefs (Scope *S, Decl *TagD, SourceLocation DeclStart, IdentifierInfo *ClassName, SmallVectorImpl< Decl *> &Decls)
 Called whenever @defs(ClassName) is encountered in the source. More...
 
DeclActOnField (Scope *S, Decl *TagD, SourceLocation DeclStart, Declarator &D, Expr *BitfieldWidth)
 ActOnField - Each field of a C struct/union is passed into this in order to create a FieldDecl object for it. More...
 
FieldDeclHandleField (Scope *S, RecordDecl *TagD, SourceLocation DeclStart, Declarator &D, Expr *BitfieldWidth, InClassInitStyle InitStyle, AccessSpecifier AS)
 HandleField - Analyze a field of a C struct or a C++ data member. More...
 
MSPropertyDeclHandleMSProperty (Scope *S, RecordDecl *TagD, SourceLocation DeclStart, Declarator &D, Expr *BitfieldWidth, InClassInitStyle InitStyle, AccessSpecifier AS, const ParsedAttr &MSPropertyAttr)
 HandleMSProperty - Analyze a __delcspec(property) field of a C++ class. More...
 
FieldDeclCheckFieldDecl (DeclarationName Name, QualType T, TypeSourceInfo *TInfo, RecordDecl *Record, SourceLocation Loc, bool Mutable, Expr *BitfieldWidth, InClassInitStyle InitStyle, SourceLocation TSSL, AccessSpecifier AS, NamedDecl *PrevDecl, Declarator *D=nullptr)
 Build a new FieldDecl and check its well-formedness. More...
 
bool CheckNontrivialField (FieldDecl *FD)
 
void DiagnoseNontrivial (const CXXRecordDecl *Record, CXXSpecialMember CSM)
 Diagnose why the specified class does not have a trivial special member of the given kind. More...
 
bool SpecialMemberIsTrivial (CXXMethodDecl *MD, CXXSpecialMember CSM, TrivialABIHandling TAH=TAH_IgnoreTrivialABI, bool Diagnose=false)
 Determine whether a defaulted or deleted special member function is trivial, as specified in C++11 [class.ctor]p5, C++11 [class.copy]p12, C++11 [class.copy]p25, and C++11 [class.dtor]p5. More...
 
CXXSpecialMember getSpecialMember (const CXXMethodDecl *MD)
 getSpecialMember - get the special member enum for a method. More...
 
void ActOnLastBitfield (SourceLocation DeclStart, SmallVectorImpl< Decl *> &AllIvarDecls)
 ActOnLastBitfield - This routine handles synthesized bitfields rules for class and class extensions. More...
 
DeclActOnIvar (Scope *S, SourceLocation DeclStart, Declarator &D, Expr *BitfieldWidth, tok::ObjCKeywordKind visibility)
 ActOnIvar - Each ivar field of an objective-c class is passed into this in order to create an IvarDecl object for it. More...
 
void ActOnFields (Scope *S, SourceLocation RecLoc, Decl *TagDecl, ArrayRef< Decl *> Fields, SourceLocation LBrac, SourceLocation RBrac, const ParsedAttributesView &AttrList)
 
void ActOnTagStartDefinition (Scope *S, Decl *TagDecl)
 ActOnTagStartDefinition - Invoked when we have entered the scope of a tag's definition (e.g., for an enumeration, class, struct, or union). More...
 
bool ActOnDuplicateDefinition (DeclSpec &DS, Decl *Prev, SkipBodyInfo &SkipBody)
 Perform ODR-like check for C/ObjC when merging tag types from modules. More...
 
SkippedDefinitionContext ActOnTagStartSkippedDefinition (Scope *S, Decl *TD)
 Invoked when we enter a tag definition that we're skipping. More...
 
DeclActOnObjCContainerStartDefinition (Decl *IDecl)
 
void ActOnStartCXXMemberDeclarations (Scope *S, Decl *TagDecl, SourceLocation FinalLoc, bool IsFinalSpelledSealed, SourceLocation LBraceLoc)
 ActOnStartCXXMemberDeclarations - Invoked when we have parsed a C++ record definition's base-specifiers clause and are starting its member declarations. More...
 
void ActOnTagFinishDefinition (Scope *S, Decl *TagDecl, SourceRange BraceRange)
 ActOnTagFinishDefinition - Invoked once we have finished parsing the definition of a tag (enumeration, class, struct, or union). More...
 
void ActOnTagFinishSkippedDefinition (SkippedDefinitionContext Context)
 
void ActOnObjCContainerFinishDefinition ()
 
void ActOnObjCTemporaryExitContainerContext (DeclContext *DC)
 Invoked when we must temporarily exit the objective-c container scope for parsing/looking-up C constructs. More...
 
void ActOnObjCReenterContainerContext (DeclContext *DC)
 
void ActOnTagDefinitionError (Scope *S, Decl *TagDecl)
 ActOnTagDefinitionError - Invoked when there was an unrecoverable error parsing the definition of a tag. More...
 
EnumConstantDeclCheckEnumConstant (EnumDecl *Enum, EnumConstantDecl *LastEnumConst, SourceLocation IdLoc, IdentifierInfo *Id, Expr *val)
 
bool CheckEnumUnderlyingType (TypeSourceInfo *TI)
 Check that this is a valid underlying type for an enum declaration. More...
 
bool CheckEnumRedeclaration (SourceLocation EnumLoc, bool IsScoped, QualType EnumUnderlyingTy, bool IsFixed, const EnumDecl *Prev)
 Check whether this is a valid redeclaration of a previous enumeration. More...
 
SkipBodyInfo shouldSkipAnonEnumBody (Scope *S, IdentifierInfo *II, SourceLocation IILoc)
 Determine whether the body of an anonymous enumeration should be skipped. More...
 
DeclActOnEnumConstant (Scope *S, Decl *EnumDecl, Decl *LastEnumConstant, SourceLocation IdLoc, IdentifierInfo *Id, const ParsedAttributesView &Attrs, SourceLocation EqualLoc, Expr *Val)
 
void ActOnEnumBody (SourceLocation EnumLoc, SourceRange BraceRange, Decl *EnumDecl, ArrayRef< Decl *> Elements, Scope *S, const ParsedAttributesView &Attr)
 
DeclContextgetContainingDC (DeclContext *DC)
 
void PushDeclContext (Scope *S, DeclContext *DC)
 Set the current declaration context until it gets popped. More...
 
void PopDeclContext ()
 
void EnterDeclaratorContext (Scope *S, DeclContext *DC)
 EnterDeclaratorContext - Used when we must lookup names in the context of a declarator's nested name specifier. More...
 
void ExitDeclaratorContext (Scope *S)
 
void ActOnReenterFunctionContext (Scope *S, Decl *D)
 Push the parameters of D, which must be a function, into scope. More...
 
void ActOnExitFunctionContext ()
 
DeclContextgetFunctionLevelDeclContext ()
 
FunctionDeclgetCurFunctionDecl ()
 getCurFunctionDecl - If inside of a function body, this returns a pointer to the function decl for the function being parsed. More...
 
ObjCMethodDeclgetCurMethodDecl ()
 getCurMethodDecl - If inside of a method body, this returns a pointer to the method decl for the method being parsed. More...
 
NamedDeclgetCurFunctionOrMethodDecl ()
 getCurFunctionOrMethodDecl - Return the Decl for the current ObjC method or C function we're in, otherwise return null. More...
 
void PushOnScopeChains (NamedDecl *D, Scope *S, bool AddToContext=true)
 Add this decl to the scope shadowed decl chains. More...
 
void pushExternalDeclIntoScope (NamedDecl *D, DeclarationName Name)
 Make the given externally-produced declaration visible at the top level scope. More...
 
bool isDeclInScope (NamedDecl *D, DeclContext *Ctx, Scope *S=nullptr, bool AllowInlineNamespace=false)
 isDeclInScope - If 'Ctx' is a function/method, isDeclInScope returns true if 'D' is in Scope 'S', otherwise 'S' is ignored and isDeclInScope returns true if 'D' belongs to the given declaration context. More...
 
TypedefDeclParseTypedefDecl (Scope *S, Declarator &D, QualType T, TypeSourceInfo *TInfo)
 Subroutines of ActOnDeclarator(). More...
 
bool isIncompatibleTypedef (TypeDecl *Old, TypedefNameDecl *New)
 
AvailabilityAttr * mergeAvailabilityAttr (NamedDecl *D, SourceRange Range, IdentifierInfo *Platform, bool Implicit, VersionTuple Introduced, VersionTuple Deprecated, VersionTuple Obsoleted, bool IsUnavailable, StringRef Message, bool IsStrict, StringRef Replacement, AvailabilityMergeKind AMK, unsigned AttrSpellingListIndex)
 Attribute merging methods. Return true if a new attribute was added. More...
 
TypeVisibilityAttr * mergeTypeVisibilityAttr (Decl *D, SourceRange Range, TypeVisibilityAttr::VisibilityType Vis, unsigned AttrSpellingListIndex)
 
VisibilityAttr * mergeVisibilityAttr (Decl *D, SourceRange Range, VisibilityAttr::VisibilityType Vis, unsigned AttrSpellingListIndex)
 
UuidAttr * mergeUuidAttr (Decl *D, SourceRange Range, unsigned AttrSpellingListIndex, StringRef Uuid)
 
DLLImportAttr * mergeDLLImportAttr (Decl *D, SourceRange Range, unsigned AttrSpellingListIndex)
 
DLLExportAttr * mergeDLLExportAttr (Decl *D, SourceRange Range, unsigned AttrSpellingListIndex)
 
MSInheritanceAttr * mergeMSInheritanceAttr (Decl *D, SourceRange Range, bool BestCase, unsigned AttrSpellingListIndex, MSInheritanceAttr::Spelling SemanticSpelling)
 
FormatAttr * mergeFormatAttr (Decl *D, SourceRange Range, IdentifierInfo *Format, int FormatIdx, int FirstArg, unsigned AttrSpellingListIndex)
 
SectionAttr * mergeSectionAttr (Decl *D, SourceRange Range, StringRef Name, unsigned AttrSpellingListIndex)
 
CodeSegAttr * mergeCodeSegAttr (Decl *D, SourceRange Range, StringRef Name, unsigned AttrSpellingListIndex)
 
AlwaysInlineAttr * mergeAlwaysInlineAttr (Decl *D, SourceRange Range, IdentifierInfo *Ident, unsigned AttrSpellingListIndex)
 
MinSizeAttr * mergeMinSizeAttr (Decl *D, SourceRange Range, unsigned AttrSpellingListIndex)
 
OptimizeNoneAttr * mergeOptimizeNoneAttr (Decl *D, SourceRange Range, unsigned AttrSpellingListIndex)
 
InternalLinkageAttr * mergeInternalLinkageAttr (Decl *D, SourceRange Range, IdentifierInfo *Ident, unsigned AttrSpellingListIndex)
 
CommonAttr * mergeCommonAttr (Decl *D, SourceRange Range, IdentifierInfo *Ident, unsigned AttrSpellingListIndex)
 
void mergeDeclAttributes (NamedDecl *New, Decl *Old, AvailabilityMergeKind AMK=AMK_Redeclaration)
 mergeDeclAttributes - Copy attributes from the Old decl to the New one. More...
 
void MergeTypedefNameDecl (Scope *S, TypedefNameDecl *New, LookupResult &OldDecls)
 MergeTypedefNameDecl - We just parsed a typedef 'New' which has the same name and scope as a previous declaration 'Old'. More...
 
bool MergeFunctionDecl (FunctionDecl *New, NamedDecl *&Old, Scope *S, bool MergeTypeWithOld)
 MergeFunctionDecl - We just parsed a function 'New' from declarator D which has the same name and scope as a previous declaration 'Old'. More...
 
bool MergeCompatibleFunctionDecls (FunctionDecl *New, FunctionDecl *Old, Scope *S, bool MergeTypeWithOld)
 Completes the merge of two function declarations that are known to be compatible. More...
 
void mergeObjCMethodDecls (ObjCMethodDecl *New, ObjCMethodDecl *Old)
 
void MergeVarDecl (VarDecl *New, LookupResult &Previous)
 MergeVarDecl - We just parsed a variable 'New' which has the same name and scope as a previous declaration 'Old'. More...
 
void MergeVarDeclTypes (VarDecl *New, VarDecl *Old, bool MergeTypeWithOld)
 MergeVarDeclTypes - We parsed a variable 'New' which has the same name and scope as a previous declaration 'Old'. More...
 
void MergeVarDeclExceptionSpecs (VarDecl *New, VarDecl *Old)
 Merge the exception specifications of two variable declarations. More...
 
bool checkVarDeclRedefinition (VarDecl *OldDefn, VarDecl *NewDefn)
 We've just determined that Old and New both appear to be definitions of the same variable. More...
 
void notePreviousDefinition (const NamedDecl *Old, SourceLocation New)
 
bool MergeCXXFunctionDecl (FunctionDecl *New, FunctionDecl *Old, Scope *S)
 MergeCXXFunctionDecl - Merge two declarations of the same C++ function, once we already know that they have the same type. More...
 
OverloadKind CheckOverload (Scope *S, FunctionDecl *New, const LookupResult &OldDecls, NamedDecl *&OldDecl, bool IsForUsingDecl)
 Determine whether the given New declaration is an overload of the declarations in Old. More...
 
bool IsOverload (FunctionDecl *New, FunctionDecl *Old, bool IsForUsingDecl, bool ConsiderCudaAttrs=true)
 
bool isFunctionConsideredUnavailable (FunctionDecl *FD)
 Checks availability of the function depending on the current function context.Inside an unavailable function,unavailability is ignored. More...
 
ImplicitConversionSequence TryImplicitConversion (Expr *From, QualType ToType, bool SuppressUserConversions, bool AllowExplicit, bool InOverloadResolution, bool CStyle, bool AllowObjCWritebackConversion)
 
bool IsIntegralPromotion (Expr *From, QualType FromType, QualType ToType)
 IsIntegralPromotion - Determines whether the conversion from the expression From (whose potentially-adjusted type is FromType) to ToType is an integral promotion (C++ 4.5). More...
 
bool IsFloatingPointPromotion (QualType FromType, QualType ToType)
 IsFloatingPointPromotion - Determines whether the conversion from FromType to ToType is a floating point promotion (C++ 4.6). More...
 
bool IsComplexPromotion (QualType FromType, QualType ToType)
 Determine if a conversion is a complex promotion. More...
 
bool IsPointerConversion (Expr *From, QualType FromType, QualType ToType, bool InOverloadResolution, QualType &ConvertedType, bool &IncompatibleObjC)
 IsPointerConversion - Determines whether the conversion of the expression From, which has the (possibly adjusted) type FromType, can be converted to the type ToType via a pointer conversion (C++ 4.10). More...
 
bool isObjCPointerConversion (QualType FromType, QualType ToType, QualType &ConvertedType, bool &IncompatibleObjC)
 isObjCPointerConversion - Determines whether this is an Objective-C pointer conversion. More...
 
bool isObjCWritebackConversion (QualType FromType, QualType ToType, QualType &ConvertedType)
 Determine whether this is an Objective-C writeback conversion, used for parameter passing when performing automatic reference counting. More...
 
bool IsBlockPointerConversion (QualType FromType, QualType ToType, QualType &ConvertedType)
 
bool FunctionParamTypesAreEqual (const FunctionProtoType *OldType, const FunctionProtoType *NewType, unsigned *ArgPos=nullptr)
 FunctionParamTypesAreEqual - This routine checks two function proto types for equality of their argument types. More...
 
void HandleFunctionTypeMismatch (PartialDiagnostic &PDiag, QualType FromType, QualType ToType)
 HandleFunctionTypeMismatch - Gives diagnostic information for differeing function types. More...
 
void maybeExtendBlockObject (ExprResult &E)
 Do an explicit extend of the given block pointer if we're in ARC. More...
 
CastKind PrepareCastToObjCObjectPointer (ExprResult &E)
 Prepare a conversion of the given expression to an ObjC object pointer type. More...
 
bool CheckPointerConversion (Expr *From, QualType ToType, CastKind &Kind, CXXCastPath &BasePath, bool IgnoreBaseAccess, bool Diagnose=true)
 CheckPointerConversion - Check the pointer conversion from the expression From to the type ToType. More...
 
bool IsMemberPointerConversion (Expr *From, QualType FromType, QualType ToType, bool InOverloadResolution, QualType &ConvertedType)
 IsMemberPointerConversion - Determines whether the conversion of the expression From, which has the (possibly adjusted) type FromType, can be converted to the type ToType via a member pointer conversion (C++ 4.11). More...
 
bool CheckMemberPointerConversion (Expr *From, QualType ToType, CastKind &Kind, CXXCastPath &BasePath, bool IgnoreBaseAccess)
 CheckMemberPointerConversion - Check the member pointer conversion from the expression From to the type ToType. More...
 
bool IsQualificationConversion (QualType FromType, QualType ToType, bool CStyle, bool &ObjCLifetimeConversion)
 IsQualificationConversion - Determines whether the conversion from an rvalue of type FromType to ToType is a qualification conversion (C++ 4.4). More...
 
bool IsFunctionConversion (QualType FromType, QualType ToType, QualType &ResultTy)
 Determine whether the conversion from FromType to ToType is a valid conversion that strips "noexcept" or "noreturn" off the nested function type. More...
 
bool DiagnoseMultipleUserDefinedConversion (Expr *From, QualType ToType)
 
bool isSameOrCompatibleFunctionType (CanQualType Param, CanQualType Arg)
 Compare types for equality with respect to possibly compatible function types (noreturn adjustment, implicit calling conventions). More...
 
ExprResult PerformMoveOrCopyInitialization (const InitializedEntity &Entity, const VarDecl *NRVOCandidate, QualType ResultType, Expr *Value, bool AllowNRVO=true)
 Perform the initialization of a potentially-movable value, which is the result of return value. More...
 
bool CanPerformCopyInitialization (const InitializedEntity &Entity, ExprResult Init)
 
ExprResult PerformCopyInitialization (const InitializedEntity &Entity, SourceLocation EqualLoc, ExprResult Init, bool TopLevelOfInitList=false, bool AllowExplicit=false)
 
ExprResult PerformObjectArgumentInitialization (Expr *From, NestedNameSpecifier *Qualifier, NamedDecl *FoundDecl, CXXMethodDecl *Method)
 PerformObjectArgumentInitialization - Perform initialization of the implicit object parameter for the given Method with the given expression. More...
 
void checkInitializerLifetime (const InitializedEntity &Entity, Expr *Init)
 Check that the lifetime of the initializer (and its subobjects) is sufficient for initializing the entity, and perform lifetime extension (when permitted) if not. More...
 
ExprResult PerformContextuallyConvertToBool (Expr *From)
 PerformContextuallyConvertToBool - Perform a contextual conversion of the expression From to bool (C++0x [conv]p3). More...
 
ExprResult PerformContextuallyConvertToObjCPointer (Expr *From)
 PerformContextuallyConvertToObjCPointer - Perform a contextual conversion of the expression From to an Objective-C pointer type. More...
 
ExprResult CheckConvertedConstantExpression (Expr *From, QualType T, llvm::APSInt &Value, CCEKind CCE)
 
ExprResult CheckConvertedConstantExpression (Expr *From, QualType T, APValue &Value, CCEKind CCE)
 
ExprResult PerformContextualImplicitConversion (SourceLocation Loc, Expr *FromE, ContextualImplicitConverter &Converter)
 Perform a contextual implicit conversion. More...
 
ObjCSubscriptKind CheckSubscriptingKind (Expr *FromE)
 CheckSubscriptingKind - This routine decide what type of indexing represented by "FromE" is being done. More...
 
ObjCLiteralKind CheckLiteralKind (Expr *FromE)
 
ExprResult PerformObjectMemberConversion (Expr *From, NestedNameSpecifier *Qualifier, NamedDecl *FoundDecl, NamedDecl *Member)
 Cast a base object to a member's actual type. More...
 
void AddOverloadCandidate (FunctionDecl *Function, DeclAccessPair FoundDecl, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool SuppressUserConversions=false, bool PartialOverloading=false, bool AllowExplicit=false, ConversionSequenceList EarlyConversions=None)
 AddOverloadCandidate - Adds the given function to the set of candidate functions, using the given function call arguments. More...
 
void AddFunctionCandidates (const UnresolvedSetImpl &Functions, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, TemplateArgumentListInfo *ExplicitTemplateArgs=nullptr, bool SuppressUserConversions=false, bool PartialOverloading=false, bool FirstArgumentIsBase=false)
 Add all of the function declarations in the given function set to the overload candidate set. More...
 
void AddMethodCandidate (DeclAccessPair FoundDecl, QualType ObjectType, Expr::Classification ObjectClassification, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool SuppressUserConversion=false)
 AddMethodCandidate - Adds a named decl (which is some kind of method) as a method candidate to the given overload set. More...
 
void AddMethodCandidate (CXXMethodDecl *Method, DeclAccessPair FoundDecl, CXXRecordDecl *ActingContext, QualType ObjectType, Expr::Classification ObjectClassification, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool SuppressUserConversions=false, bool PartialOverloading=false, ConversionSequenceList EarlyConversions=None)
 AddMethodCandidate - Adds the given C++ member function to the set of candidate functions, using the given function call arguments and the object argument (Object). More...
 
void AddMethodTemplateCandidate (FunctionTemplateDecl *MethodTmpl, DeclAccessPair FoundDecl, CXXRecordDecl *ActingContext, TemplateArgumentListInfo *ExplicitTemplateArgs, QualType ObjectType, Expr::Classification ObjectClassification, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool SuppressUserConversions=false, bool PartialOverloading=false)
 Add a C++ member function template as a candidate to the candidate set, using template argument deduction to produce an appropriate member function template specialization. More...
 
void AddTemplateOverloadCandidate (FunctionTemplateDecl *FunctionTemplate, DeclAccessPair FoundDecl, TemplateArgumentListInfo *ExplicitTemplateArgs, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool SuppressUserConversions=false, bool PartialOverloading=false)
 Add a C++ function template specialization as a candidate in the candidate set, using template argument deduction to produce an appropriate function template specialization. More...
 
bool CheckNonDependentConversions (FunctionTemplateDecl *FunctionTemplate, ArrayRef< QualType > ParamTypes, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, ConversionSequenceList &Conversions, bool SuppressUserConversions, CXXRecordDecl *ActingContext=nullptr, QualType ObjectType=QualType(), Expr::Classification ObjectClassification={})
 Check that implicit conversion sequences can be formed for each argument whose corresponding parameter has a non-dependent type, per DR1391's [temp.deduct.call]p10. More...
 
void AddConversionCandidate (CXXConversionDecl *Conversion, DeclAccessPair FoundDecl, CXXRecordDecl *ActingContext, Expr *From, QualType ToType, OverloadCandidateSet &CandidateSet, bool AllowObjCConversionOnExplicit, bool AllowResultConversion=true)
 AddConversionCandidate - Add a C++ conversion function as a candidate in the candidate set (C++ [over.match.conv], C++ [over.match.copy]). More...
 
void AddTemplateConversionCandidate (FunctionTemplateDecl *FunctionTemplate, DeclAccessPair FoundDecl, CXXRecordDecl *ActingContext, Expr *From, QualType ToType, OverloadCandidateSet &CandidateSet, bool AllowObjCConversionOnExplicit, bool AllowResultConversion=true)
 Adds a conversion function template specialization candidate to the overload set, using template argument deduction to deduce the template arguments of the conversion function template from the type that we are converting to (C++ [temp.deduct.conv]). More...
 
void AddSurrogateCandidate (CXXConversionDecl *Conversion, DeclAccessPair FoundDecl, CXXRecordDecl *ActingContext, const FunctionProtoType *Proto, Expr *Object, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet)
 AddSurrogateCandidate - Adds a "surrogate" candidate function that converts the given Object to a function pointer via the conversion function Conversion, and then attempts to call it with the given arguments (C++ [over.call.object]p2-4). More...
 
void AddMemberOperatorCandidates (OverloadedOperatorKind Op, SourceLocation OpLoc, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, SourceRange OpRange=SourceRange())
 Add overload candidates for overloaded operators that are member functions. More...
 
void AddBuiltinCandidate (QualType *ParamTys, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool IsAssignmentOperator=false, unsigned NumContextualBoolArguments=0)
 AddBuiltinCandidate - Add a candidate for a built-in operator. More...
 
void AddBuiltinOperatorCandidates (OverloadedOperatorKind Op, SourceLocation OpLoc, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet)
 AddBuiltinOperatorCandidates - Add the appropriate built-in operator overloads to the candidate set (C++ [over.built]), based on the operator Op and the arguments given. More...
 
void AddArgumentDependentLookupCandidates (DeclarationName Name, SourceLocation Loc, ArrayRef< Expr *> Args, TemplateArgumentListInfo *ExplicitTemplateArgs, OverloadCandidateSet &CandidateSet, bool PartialOverloading=false)
 Add function candidates found via argument-dependent lookup to the set of overloading candidates. More...
 
void NoteOverloadCandidate (NamedDecl *Found, FunctionDecl *Fn, QualType DestType=QualType(), bool TakingAddress=false)
 
void NoteAllOverloadCandidates (Expr *E, QualType DestType=QualType(), bool TakingAddress=false)
 
EnableIfAttr * CheckEnableIf (FunctionDecl *Function, ArrayRef< Expr *> Args, bool MissingImplicitThis=false)
 Check the enable_if expressions on the given function. More...
 
std::pair< Expr *, std::string > findFailedBooleanCondition (Expr *Cond, bool AllowTopLevelCond)
 Find the failed Boolean condition within a given Boolean constant expression, and describe it with a string. More...
 
bool diagnoseArgDependentDiagnoseIfAttrs (const FunctionDecl *Function, const Expr *ThisArg, ArrayRef< const Expr *> Args, SourceLocation Loc)
 Emit diagnostics for the diagnose_if attributes on Function, ignoring any non-ArgDependent DiagnoseIfAttrs. More...
 
bool diagnoseArgIndependentDiagnoseIfAttrs (const NamedDecl *ND, SourceLocation Loc)
 Emit diagnostics for the diagnose_if attributes on Function, ignoring any ArgDependent DiagnoseIfAttrs. More...
 
bool checkAddressOfFunctionIsAvailable (const FunctionDecl *Function, bool Complain=false, SourceLocation Loc=SourceLocation())
 Returns whether the given function's address can be taken or not, optionally emitting a diagnostic if the address can't be taken. More...
 
QualType ExtractUnqualifiedFunctionType (QualType PossiblyAFunctionType)
 
FunctionDeclResolveAddressOfOverloadedFunction (Expr *AddressOfExpr, QualType TargetType, bool Complain, DeclAccessPair &Found, bool *pHadMultipleCandidates=nullptr)
 ResolveAddressOfOverloadedFunction - Try to resolve the address of an overloaded function (C++ [over.over]), where From is an expression with overloaded function type and ToType is the type we're trying to resolve to. More...
 
FunctionDeclresolveAddressOfOnlyViableOverloadCandidate (Expr *E, DeclAccessPair &FoundResult)
 Given an expression that refers to an overloaded function, try to resolve that function to a single function that can have its address taken. More...
 
bool resolveAndFixAddressOfOnlyViableOverloadCandidate (ExprResult &SrcExpr, bool DoFunctionPointerConversion=false)
 Given an overloaded function, tries to turn it into a non-overloaded function reference using resolveAddressOfOnlyViableOverloadCandidate. More...
 
FunctionDeclResolveSingleFunctionTemplateSpecialization (OverloadExpr *ovl, bool Complain=false, DeclAccessPair *Found=nullptr)
 Given an expression that refers to an overloaded function, try to resolve that overloaded function expression down to a single function. More...
 
bool ResolveAndFixSingleFunctionTemplateSpecialization (ExprResult &SrcExpr, bool DoFunctionPointerConverion=false, bool Complain=false, SourceRange OpRangeForComplaining=SourceRange(), QualType DestTypeForComplaining=QualType(), unsigned DiagIDForComplaining=0)
 
ExprFixOverloadedFunctionReference (Expr *E, DeclAccessPair FoundDecl, FunctionDecl *Fn)
 FixOverloadedFunctionReference - E is an expression that refers to a C++ overloaded function (possibly with some parentheses and perhaps a '&' around it). More...
 
ExprResult FixOverloadedFunctionReference (ExprResult, DeclAccessPair FoundDecl, FunctionDecl *Fn)
 
void AddOverloadedCallCandidates (UnresolvedLookupExpr *ULE, ArrayRef< Expr *> Args, OverloadCandidateSet &CandidateSet, bool PartialOverloading=false)
 Add the overload candidates named by callee and/or found by argument dependent lookup to the given overload set. More...
 
ForRangeStatus BuildForRangeBeginEndCall (SourceLocation Loc, SourceLocation RangeLoc, const DeclarationNameInfo &NameInfo, LookupResult &MemberLookup, OverloadCandidateSet *CandidateSet, Expr *Range, ExprResult *CallExpr)
 Build a call to 'begin' or 'end' for a C++11 for-range statement. More...
 
ExprResult BuildOverloadedCallExpr (Scope *S, Expr *Fn, UnresolvedLookupExpr *ULE, SourceLocation LParenLoc, MultiExprArg Args, SourceLocation RParenLoc, Expr *ExecConfig, bool AllowTypoCorrection=true, bool CalleesAddressIsTaken=false)
 BuildOverloadedCallExpr - Given the call expression that calls Fn (which eventually refers to the declaration Func) and the call arguments Args/NumArgs, attempt to resolve the function call down to a specific function. More...
 
bool buildOverloadedCallSet (Scope *S, Expr *Fn, UnresolvedLookupExpr *ULE, MultiExprArg Args, SourceLocation RParenLoc, OverloadCandidateSet *CandidateSet, ExprResult *Result)
 Constructs and populates an OverloadedCandidateSet from the given function. More...
 
ExprResult CreateOverloadedUnaryOp (SourceLocation OpLoc, UnaryOperatorKind Opc, const UnresolvedSetImpl &Fns, Expr *input, bool RequiresADL=true)
 Create a unary operation that may resolve to an overloaded operator. More...
 
ExprResult CreateOverloadedBinOp (SourceLocation OpLoc, BinaryOperatorKind Opc, const UnresolvedSetImpl &Fns, Expr *LHS, Expr *RHS, bool RequiresADL=true)
 Create a binary operation that may resolve to an overloaded operator. More...
 
ExprResult CreateOverloadedArraySubscriptExpr (SourceLocation LLoc, SourceLocation RLoc, Expr *Base, Expr *Idx)
 
ExprResult BuildCallToMemberFunction (Scope *S, Expr *MemExpr, SourceLocation LParenLoc, MultiExprArg Args, SourceLocation RParenLoc)
 BuildCallToMemberFunction - Build a call to a member function. More...
 
ExprResult BuildCallToObjectOfClassType (Scope *S, Expr *Object, SourceLocation LParenLoc, MultiExprArg Args, SourceLocation RParenLoc)
 BuildCallToObjectOfClassType - Build a call to an object of class type (C++ [over.call.object]), which can end up invoking an overloaded function call operator (operator()) or performing a user-defined conversion on the object argument. More...
 
ExprResult BuildOverloadedArrowExpr (Scope *S, Expr *Base, SourceLocation OpLoc, bool *NoArrowOperatorFound=nullptr)
 BuildOverloadedArrowExpr - Build a call to an overloaded operator-> (if one exists), where Base is an expression of class type and Member is the name of the member we're trying to find. More...
 
bool CheckCallReturnType (QualType ReturnType, SourceLocation Loc, CallExpr *CE, FunctionDecl *FD)
 CheckCallReturnType - Checks that a call expression's return type is complete. More...
 
bool CheckParmsForFunctionDef (ArrayRef< ParmVarDecl *> Parameters, bool CheckParameterNames)
 Helpers for dealing with blocks and functions. More...
 
void CheckCXXDefaultArguments (FunctionDecl *FD)
 CheckCXXDefaultArguments - Verify that the default arguments for a function declaration are well-formed according to C++ [dcl.fct.default]. More...
 
void CheckExtraCXXDefaultArguments (Declarator &D)
 CheckExtraCXXDefaultArguments - Check for any extra default arguments in the declarator, which is not a function declaration or definition and therefore is not permitted to have default arguments. More...
 
ScopegetNonFieldDeclScope (Scope *S)
 getNonFieldDeclScope - Retrieves the innermost scope, starting from S, where a non-field would be declared. More...
 
ObjCInterfaceDeclgetObjCInterfaceDecl (IdentifierInfo *&Id, SourceLocation IdLoc, bool TypoCorrection=false)
 Look for an Objective-C class in the translation unit. More...
 
NamedDeclLazilyCreateBuiltin (IdentifierInfo *II, unsigned ID, Scope *S, bool ForRedeclaration, SourceLocation Loc)
 LazilyCreateBuiltin - The specified Builtin-ID was first used at file scope. More...
 
NamedDeclImplicitlyDefineFunction (SourceLocation Loc, IdentifierInfo &II, Scope *S)
 ImplicitlyDefineFunction - An undeclared identifier was used in a function call, forming a call to an implicitly defined function (per C99 6.5.1p2). More...
 
void AddKnownFunctionAttributes (FunctionDecl *FD)
 Adds any function attributes that we know a priori based on the declaration of this function. More...
 
void ProcessPragmaWeak (Scope *S, Decl *D)
 
void ProcessDeclAttributes (Scope *S, Decl *D, const Declarator &PD)
 ProcessDeclAttributes - Given a declarator (PD) with attributes indicated in it, apply them to D. More...
 
void ProcessDeclAttributeDelayed (Decl *D, const ParsedAttributesView &AttrList)
 
void ProcessDeclAttributeList (Scope *S, Decl *D, const ParsedAttributesView &AL, bool IncludeCXX11Attributes=true)
 ProcessDeclAttributeList - Apply all the decl attributes in the specified attribute list to the specified decl, ignoring any type attributes. More...
 
bool ProcessAccessDeclAttributeList (AccessSpecDecl *ASDecl, const ParsedAttributesView &AttrList)
 
void checkUnusedDeclAttributes (Declarator &D)
 checkUnusedDeclAttributes - Given a declarator which is not being used to build a declaration, complain about any decl attributes which might be lying around on it. More...
 
bool isValidPointerAttrType (QualType T, bool RefOkay=false)
 Determine if type T is a valid subject for a nonnull and similar attributes. More...
 
bool CheckRegparmAttr (const ParsedAttr &attr, unsigned &value)
 Checks a regparm attribute, returning true if it is ill-formed and otherwise setting numParams to the appropriate value. More...
 
bool CheckCallingConvAttr (const ParsedAttr &attr, CallingConv &CC, const FunctionDecl *FD=nullptr)
 
bool CheckAttrTarget (const ParsedAttr &CurrAttr)
 
bool CheckAttrNoArgs (const ParsedAttr &CurrAttr)
 
bool checkStringLiteralArgumentAttr (const ParsedAttr &Attr, unsigned ArgNum, StringRef &Str, SourceLocation *ArgLocation=nullptr)
 Check if the argument ArgNum of Attr is a ASCII string literal. More...
 
bool checkSectionName (SourceLocation LiteralLoc, StringRef Str)
 
bool checkTargetAttr (SourceLocation LiteralLoc, StringRef Str)
 
bool checkMSInheritanceAttrOnDefinition (CXXRecordDecl *RD, SourceRange Range, bool BestCase, MSInheritanceAttr::Spelling SemanticSpelling)
 
void CheckAlignasUnderalignment (Decl *D)
 
void adjustMemberFunctionCC (QualType &T, bool IsStatic, bool IsCtorOrDtor, SourceLocation Loc)
 Adjust the calling convention of a method to be the ABI default if it wasn't specified explicitly. More...
 
bool hasExplicitCallingConv (QualType &T)
 
const AttributedTypegetCallingConvAttributedType (QualType T) const
 Get the outermost AttributedType node that sets a calling convention. More...
 
bool checkNullabilityTypeSpecifier (QualType &type, NullabilityKind nullability, SourceLocation nullabilityLoc, bool isContextSensitive, bool allowArrayTypes)
 Check whether a nullability type specifier can be added to the given type. More...
 
StmtResult ProcessStmtAttributes (Stmt *Stmt, const ParsedAttributesView &Attrs, SourceRange Range)
 Stmt attributes - this routine is the top level dispatcher. More...
 
void WarnConflictingTypedMethods (ObjCMethodDecl *Method, ObjCMethodDecl *MethodDecl, bool IsProtocolMethodDecl)
 
void CheckConflictingOverridingMethod (ObjCMethodDecl *Method, ObjCMethodDecl *Overridden, bool IsProtocolMethodDecl)
 
void WarnExactTypedMethods (ObjCMethodDecl *Method, ObjCMethodDecl *MethodDecl, bool IsProtocolMethodDecl)
 WarnExactTypedMethods - This routine issues a warning if method implementation declaration matches exactly that of its declaration. More...
 
void CheckImplementationIvars (ObjCImplementationDecl *ImpDecl, ObjCIvarDecl **Fields, unsigned nIvars, SourceLocation Loc)
 CheckImplementationIvars - This routine checks if the instance variables listed in the implelementation match those listed in the interface. More...
 
void ImplMethodsVsClassMethods (Scope *S, ObjCImplDecl *IMPDecl, ObjCContainerDecl *IDecl, bool IncompleteImpl=false)
 ImplMethodsVsClassMethods - This is main routine to warn if any method remains unimplemented in the class or category @implementation. More...
 
void DiagnoseUnimplementedProperties (Scope *S, ObjCImplDecl *IMPDecl, ObjCContainerDecl *CDecl, bool SynthesizeProperties)
 DiagnoseUnimplementedProperties - This routine warns on those properties which must be implemented by this implementation. More...
 
void diagnoseNullResettableSynthesizedSetters (const ObjCImplDecl *impDecl)
 Diagnose any null-resettable synthesized setters. More...
 
void DefaultSynthesizeProperties (Scope *S, ObjCImplDecl *IMPDecl, ObjCInterfaceDecl *IDecl, SourceLocation AtEnd)
 DefaultSynthesizeProperties - This routine default synthesizes all properties which must be synthesized in the class's @implementation. More...
 
void DefaultSynthesizeProperties (Scope *S, Decl *D, SourceLocation AtEnd)
 
bool IvarBacksCurrentMethodAccessor (ObjCInterfaceDecl *IFace, ObjCMethodDecl *Method, ObjCIvarDecl *IV)
 IvarBacksCurrentMethodAccessor - This routine returns 'true' if 'IV' is an ivar synthesized for 'Method' and 'Method' is a property accessor declared in class 'IFace'. More...
 
void DiagnoseUnusedBackingIvarInAccessor (Scope *S, const ObjCImplementationDecl *ImplD)
 DiagnoseUnusedBackingIvarInAccessor - Issue an 'unused' warning if ivar which backs the property is not used in the property's accessor. More...
 
ObjCIvarDeclGetIvarBackingPropertyAccessor (const ObjCMethodDecl *Method, const ObjCPropertyDecl *&PDecl) const
 GetIvarBackingPropertyAccessor - If method is a property setter/getter and it property has a backing ivar, returns this ivar; otherwise, returns NULL. More...
 
ObjCPropertyDeclHandlePropertyInClassExtension (Scope *S, SourceLocation AtLoc, SourceLocation LParenLoc, FieldDeclarator &FD, Selector GetterSel, SourceLocation GetterNameLoc, Selector SetterSel, SourceLocation SetterNameLoc, const bool isReadWrite, unsigned &Attributes, const unsigned AttributesAsWritten, QualType T, TypeSourceInfo *TSI, tok::ObjCKeywordKind MethodImplKind)
 Called by ActOnProperty to handle @property declarations in class extensions. More...
 
ObjCPropertyDeclCreatePropertyDecl (Scope *S, ObjCContainerDecl *CDecl, SourceLocation AtLoc, SourceLocation LParenLoc, FieldDeclarator &FD, Selector GetterSel, SourceLocation GetterNameLoc, Selector SetterSel, SourceLocation SetterNameLoc, const bool isReadWrite, const unsigned Attributes, const unsigned AttributesAsWritten, QualType T, TypeSourceInfo *TSI, tok::ObjCKeywordKind MethodImplKind, DeclContext *lexicalDC=nullptr)
 Called by ActOnProperty and HandlePropertyInClassExtension to handle creating the ObjcPropertyDecl for a category or @interface. More...
 
void AtomicPropertySetterGetterRules (ObjCImplDecl *IMPDecl, ObjCInterfaceDecl *IDecl)
 AtomicPropertySetterGetterRules - This routine enforces the rule (via warning) when atomic property has one but not the other user-declared setter or getter. More...
 
void DiagnoseOwningPropertyGetterSynthesis (const ObjCImplementationDecl *D)
 
void DiagnoseMissingDesignatedInitOverrides (const ObjCImplementationDecl *ImplD, const ObjCInterfaceDecl *IFD)
 
void DiagnoseDuplicateIvars (ObjCInterfaceDecl *ID, ObjCInterfaceDecl *SID)
 DiagnoseDuplicateIvars - Check for duplicate ivars in the entire class at the start of @implementation. More...
 
bool MatchTwoMethodDeclarations (const ObjCMethodDecl *Method, const ObjCMethodDecl *PrevMethod, MethodMatchStrategy strategy=MMS_strict)
 MatchTwoMethodDeclarations - Checks if two methods' type match and returns true, or false, accordingly. More...
 
void MatchAllMethodDeclarations (const SelectorSet &InsMap, const SelectorSet &ClsMap, SelectorSet &InsMapSeen, SelectorSet &ClsMapSeen, ObjCImplDecl *IMPDecl, ObjCContainerDecl *IDecl, bool &IncompleteImpl, bool ImmediateClass, bool WarnCategoryMethodImpl=false)
 MatchAllMethodDeclarations - Check methods declaraed in interface or or protocol against those declared in their implementations. More...
 
void CheckCategoryVsClassMethodMatches (ObjCCategoryImplDecl *CatIMP)
 CheckCategoryVsClassMethodMatches - Checks that methods implemented in category matches with those implemented in its primary class and warns each time an exact match is found. More...
 
void addMethodToGlobalList (ObjCMethodList *List, ObjCMethodDecl *Method)
 Add the given method to the list of globally-known methods. More...
 
bool CollectMultipleMethodsInGlobalPool (Selector Sel, SmallVectorImpl< ObjCMethodDecl *> &Methods, bool InstanceFirst, bool CheckTheOther, const ObjCObjectType *TypeBound=nullptr)
 We first select the type of the method: Instance or Factory, then collect all methods with that type. More...
 
bool AreMultipleMethodsInGlobalPool (Selector Sel, ObjCMethodDecl *BestMethod, SourceRange R, bool receiverIdOrClass, SmallVectorImpl< ObjCMethodDecl *> &Methods)
 
void DiagnoseMultipleMethodInGlobalPool (SmallVectorImpl< ObjCMethodDecl *> &Methods, Selector Sel, SourceRange R, bool receiverIdOrClass)
 
void AddInstanceMethodToGlobalPool (ObjCMethodDecl *Method, bool impl=false)
 AddInstanceMethodToGlobalPool - All instance methods in a translation unit are added to a global pool. More...
 
void AddFactoryMethodToGlobalPool (ObjCMethodDecl *Method, bool impl=false)
 AddFactoryMethodToGlobalPool - Same as above, but for factory methods. More...
 
void AddAnyMethodToGlobalPool (Decl *D)
 AddAnyMethodToGlobalPool - Add any method, instance or factory to global pool. More...
 
ObjCMethodDeclLookupInstanceMethodInGlobalPool (Selector Sel, SourceRange R, bool receiverIdOrClass=false)
 LookupInstanceMethodInGlobalPool - Returns the method and warns if there are multiple signatures. More...
 
ObjCMethodDeclLookupFactoryMethodInGlobalPool (Selector Sel, SourceRange R, bool receiverIdOrClass=false)
 LookupFactoryMethodInGlobalPool - Returns the method and warns if there are multiple signatures. More...
 
const ObjCMethodDeclSelectorsForTypoCorrection (Selector Sel, QualType ObjectType=QualType())
 
ObjCMethodDeclLookupImplementedMethodInGlobalPool (Selector Sel)
 LookupImplementedMethodInGlobalPool - Returns the method which has an implementation. More...
 
void CollectIvarsToConstructOrDestruct (ObjCInterfaceDecl *OI, SmallVectorImpl< ObjCIvarDecl *> &Ivars)
 CollectIvarsToConstructOrDestruct - Collect those ivars which require initialization. More...
 
FullExprArg MakeFullExpr (Expr *Arg)
 
FullExprArg MakeFullExpr (Expr *Arg, SourceLocation CC)
 
FullExprArg MakeFullDiscardedValueExpr (Expr *Arg)
 
StmtResult ActOnExprStmt (ExprResult Arg)
 
StmtResult ActOnExprStmtError ()
 
StmtResult ActOnNullStmt (SourceLocation SemiLoc, bool HasLeadingEmptyMacro=false)
 
void ActOnStartOfCompoundStmt (bool IsStmtExpr)
 
void ActOnFinishOfCompoundStmt ()
 
StmtResult ActOnCompoundStmt (SourceLocation L, SourceLocation R, ArrayRef< Stmt *> Elts, bool isStmtExpr)
 
StmtResult ActOnDeclStmt (DeclGroupPtrTy Decl, SourceLocation StartLoc, SourceLocation EndLoc)
 
void ActOnForEachDeclStmt (DeclGroupPtrTy Decl)
 
StmtResult ActOnForEachLValueExpr (Expr *E)
 In an Objective C collection iteration statement: for (x in y) x can be an arbitrary l-value expression. More...
 
ExprResult ActOnCaseExpr (SourceLocation CaseLoc, ExprResult Val)
 
StmtResult ActOnCaseStmt (SourceLocation CaseLoc, ExprResult LHS, SourceLocation DotDotDotLoc, ExprResult RHS, SourceLocation ColonLoc)
 
void ActOnCaseStmtBody (Stmt *CaseStmt, Stmt *SubStmt)
 ActOnCaseStmtBody - This installs a statement as the body of a case. More...
 
StmtResult ActOnDefaultStmt (SourceLocation DefaultLoc, SourceLocation ColonLoc, Stmt *SubStmt, Scope *CurScope)
 
StmtResult ActOnLabelStmt (SourceLocation IdentLoc, LabelDecl *TheDecl, SourceLocation ColonLoc, Stmt *SubStmt)
 
StmtResult ActOnAttributedStmt (SourceLocation AttrLoc, ArrayRef< const Attr *> Attrs, Stmt *SubStmt)
 
StmtResult ActOnIfStmt (SourceLocation IfLoc, bool IsConstexpr, Stmt *InitStmt, ConditionResult Cond, Stmt *ThenVal, SourceLocation ElseLoc, Stmt *ElseVal)
 
StmtResult BuildIfStmt (SourceLocation IfLoc, bool IsConstexpr, Stmt *InitStmt, ConditionResult Cond, Stmt *ThenVal, SourceLocation ElseLoc, Stmt *ElseVal)
 
StmtResult ActOnStartOfSwitchStmt (SourceLocation SwitchLoc, Stmt *InitStmt, ConditionResult Cond)
 
StmtResult ActOnFinishSwitchStmt (SourceLocation SwitchLoc, Stmt *Switch, Stmt *Body)
 
StmtResult ActOnWhileStmt (SourceLocation WhileLoc, ConditionResult Cond, Stmt *Body)
 
StmtResult ActOnDoStmt (SourceLocation DoLoc, Stmt *Body, SourceLocation WhileLoc, SourceLocation CondLParen, Expr *Cond, SourceLocation CondRParen)
 
StmtResult ActOnForStmt (SourceLocation ForLoc, SourceLocation LParenLoc, Stmt *First, ConditionResult Second, FullExprArg Third, SourceLocation RParenLoc, Stmt *Body)
 
ExprResult CheckObjCForCollectionOperand (SourceLocation forLoc, Expr *collection)
 
StmtResult ActOnObjCForCollectionStmt (SourceLocation ForColLoc, Stmt *First, Expr *collection, SourceLocation RParenLoc)
 
StmtResult FinishObjCForCollectionStmt (Stmt *ForCollection, Stmt *Body)
 FinishObjCForCollectionStmt - Attach the body to a objective-C foreach statement. More...
 
StmtResult ActOnCXXForRangeStmt (Scope *S, SourceLocation ForLoc, SourceLocation CoawaitLoc, Stmt *LoopVar, SourceLocation ColonLoc, Expr *Collection, SourceLocation RParenLoc, BuildForRangeKind Kind)
 ActOnCXXForRangeStmt - Check and build a C++11 for-range statement. More...
 
StmtResult BuildCXXForRangeStmt (SourceLocation ForLoc, SourceLocation CoawaitLoc, SourceLocation ColonLoc, Stmt *RangeDecl, Stmt *Begin, Stmt *End, Expr *Cond, Expr *Inc, Stmt *LoopVarDecl, SourceLocation RParenLoc, BuildForRangeKind Kind)
 BuildCXXForRangeStmt - Build or instantiate a C++11 for-range statement. More...
 
StmtResult FinishCXXForRangeStmt (Stmt *ForRange, Stmt *Body)
 FinishCXXForRangeStmt - Attach the body to a C++0x for-range statement. More...
 
StmtResult ActOnGotoStmt (SourceLocation GotoLoc, SourceLocation LabelLoc, LabelDecl *TheDecl)
 
StmtResult ActOnIndirectGotoStmt (SourceLocation GotoLoc, SourceLocation StarLoc, Expr *DestExp)
 
StmtResult ActOnContinueStmt (SourceLocation ContinueLoc, Scope *CurScope)
 
StmtResult ActOnBreakStmt (SourceLocation BreakLoc, Scope *CurScope)
 
void ActOnCapturedRegionStart (SourceLocation Loc, Scope *CurScope, CapturedRegionKind Kind, unsigned NumParams)
 
void ActOnCapturedRegionStart (SourceLocation Loc, Scope *CurScope, CapturedRegionKind Kind, ArrayRef< CapturedParamNameType > Params)
 
StmtResult ActOnCapturedRegionEnd (Stmt *S)
 
void ActOnCapturedRegionError ()
 
RecordDeclCreateCapturedStmtRecordDecl (CapturedDecl *&CD, SourceLocation Loc, unsigned NumParams)
 
VarDeclgetCopyElisionCandidate (QualType ReturnType, Expr *E, CopyElisionSemanticsKind CESK)
 Determine whether the given expression is a candidate for copy elision in either a return statement or a throw expression. More...
 
bool isCopyElisionCandidate (QualType ReturnType, const VarDecl *VD, CopyElisionSemanticsKind CESK)
 
StmtResult ActOnReturnStmt (SourceLocation ReturnLoc, Expr *RetValExp, Scope *CurScope)
 
StmtResult BuildReturnStmt (SourceLocation ReturnLoc, Expr *RetValExp)
 
StmtResult ActOnCapScopeReturnStmt (SourceLocation ReturnLoc, Expr *RetValExp)
 ActOnCapScopeReturnStmt - Utility routine to type-check return statements for capturing scopes. More...
 
StmtResult ActOnGCCAsmStmt (SourceLocation AsmLoc, bool IsSimple, bool IsVolatile, unsigned NumOutputs, unsigned NumInputs, IdentifierInfo **Names, MultiExprArg Constraints, MultiExprArg Exprs, Expr *AsmString, MultiExprArg Clobbers, SourceLocation RParenLoc)
 
void FillInlineAsmIdentifierInfo (Expr *Res, llvm::InlineAsmIdentifierInfo &Info)
 
ExprResult LookupInlineAsmIdentifier (CXXScopeSpec &SS, SourceLocation TemplateKWLoc, UnqualifiedId &Id, bool IsUnevaluatedContext)
 
bool LookupInlineAsmField (StringRef Base, StringRef Member, unsigned &Offset, SourceLocation AsmLoc)
 
ExprResult LookupInlineAsmVarDeclField (Expr *RefExpr, StringRef Member, SourceLocation AsmLoc)
 
StmtResult ActOnMSAsmStmt (SourceLocation AsmLoc, SourceLocation LBraceLoc, ArrayRef< Token > AsmToks, StringRef AsmString, unsigned NumOutputs, unsigned NumInputs, ArrayRef< StringRef > Constraints, ArrayRef< StringRef > Clobbers, ArrayRef< Expr *> Exprs, SourceLocation EndLoc)
 
LabelDeclGetOrCreateMSAsmLabel (StringRef ExternalLabelName, SourceLocation Location, bool AlwaysCreate)
 
VarDeclBuildObjCExceptionDecl (TypeSourceInfo *TInfo, QualType ExceptionType, SourceLocation StartLoc, SourceLocation IdLoc, IdentifierInfo *Id, bool Invalid=false)
 Build a type-check a new Objective-C exception variable declaration. More...
 
DeclActOnObjCExceptionDecl (Scope *S, Declarator &D)
 
StmtResult ActOnObjCAtCatchStmt (SourceLocation AtLoc, SourceLocation RParen, Decl *Parm, Stmt *Body)
 
StmtResult ActOnObjCAtFinallyStmt (SourceLocation AtLoc, Stmt *Body)
 
StmtResult ActOnObjCAtTryStmt (SourceLocation AtLoc, Stmt *Try, MultiStmtArg Catch, Stmt *Finally)
 
StmtResult BuildObjCAtThrowStmt (SourceLocation AtLoc, Expr *Throw)
 
StmtResult ActOnObjCAtThrowStmt (SourceLocation AtLoc, Expr *Throw, Scope *CurScope)
 
ExprResult ActOnObjCAtSynchronizedOperand (SourceLocation atLoc, Expr *operand)
 
StmtResult ActOnObjCAtSynchronizedStmt (SourceLocation AtLoc, Expr *SynchExpr, Stmt *SynchBody)
 
StmtResult ActOnObjCAutoreleasePoolStmt (SourceLocation AtLoc, Stmt *Body)
 
VarDeclBuildExceptionDeclaration (Scope *S, TypeSourceInfo *TInfo, SourceLocation StartLoc, SourceLocation IdLoc, IdentifierInfo *Id)
 Perform semantic analysis for the variable declaration that occurs within a C++ catch clause, returning the newly-created variable. More...
 
DeclActOnExceptionDeclarator (Scope *S, Declarator &D)
 ActOnExceptionDeclarator - Parsed the exception-declarator in a C++ catch handler. More...
 
StmtResult ActOnCXXCatchBlock (SourceLocation CatchLoc, Decl *ExDecl, Stmt *HandlerBlock)
 ActOnCXXCatchBlock - Takes an exception declaration and a handler block and creates a proper catch handler from them. More...
 
StmtResult ActOnCXXTryBlock (SourceLocation TryLoc, Stmt *TryBlock, ArrayRef< Stmt *> Handlers)
 ActOnCXXTryBlock - Takes a try compound-statement and a number of handlers and creates a try statement from them. More...
 
StmtResult ActOnSEHTryBlock (bool IsCXXTry, SourceLocation TryLoc, Stmt *TryBlock, Stmt *Handler)
 
StmtResult ActOnSEHExceptBlock (SourceLocation Loc, Expr *FilterExpr, Stmt *Block)
 
void ActOnStartSEHFinallyBlock ()
 
void ActOnAbortSEHFinallyBlock ()
 
StmtResult ActOnFinishSEHFinallyBlock (SourceLocation Loc, Stmt *Block)
 
StmtResult ActOnSEHLeaveStmt (SourceLocation Loc, Scope *CurScope)
 
void DiagnoseReturnInConstructorExceptionHandler (CXXTryStmt *TryBlock)
 
bool ShouldWarnIfUnusedFileScopedDecl (const DeclaratorDecl *D) const
 
void MarkUnusedFileScopedDecl (const DeclaratorDecl *D)
 If it's a file scoped decl that must warn if not used, keep track of it. More...
 
void DiagnoseUnusedExprResult (const Stmt *S)
 DiagnoseUnusedExprResult - If the statement passed in is an expression whose result is unused, warn. More...
 
void DiagnoseUnusedNestedTypedefs (const RecordDecl *D)
 
void DiagnoseUnusedDecl (const NamedDecl *ND)
 DiagnoseUnusedDecl - Emit warnings about declarations that are not used unless they are marked attr(unused). More...
 
void DiagnoseEmptyStmtBody (SourceLocation StmtLoc, const Stmt *Body, unsigned DiagID)
 Emit DiagID if statement located on StmtLoc has a suspicious null statement as a Body, and it is located on the same line. More...
 
void DiagnoseEmptyLoopBody (const Stmt *S, const Stmt *PossibleBody)
 Warn if a for/while loop statement S, which is followed by PossibleBody, has a suspicious null statement as a body. More...
 
void DiagnoseSelfMove (const Expr *LHSExpr, const Expr *RHSExpr, SourceLocation OpLoc)
 Warn if a value is moved to itself. More...
 
void diagnoseNullableToNonnullConversion (QualType DstType, QualType SrcType, SourceLocation Loc)
 Warn if we're implicitly casting from a _Nullable pointer type to a _Nonnull one. More...
 
void diagnoseZeroToNullptrConversion (CastKind Kind, const Expr *E)
 Warn when implicitly casting 0 to nullptr. More...
 
ParsingDeclState PushParsingDeclaration (sema::DelayedDiagnosticPool &pool)
 
void PopParsingDeclaration (ParsingDeclState state, Decl *decl)
 
ParsingClassState PushParsingClass ()
 
void PopParsingClass (ParsingClassState state)
 
void redelayDiagnostics (sema::DelayedDiagnosticPool &pool)
 Given a set of delayed diagnostics, re-emit them as if they had been delayed in the current context instead of in the given pool. More...
 
void DiagnoseAvailabilityOfDecl (NamedDecl *D, ArrayRef< SourceLocation > Locs, const ObjCInterfaceDecl *UnknownObjCClass, bool ObjCPropertyAccess, bool AvoidPartialAvailabilityChecks=false)
 
bool makeUnavailableInSystemHeader (SourceLocation loc, UnavailableAttr::ImplicitReason reason)
 makeUnavailableInSystemHeader - There is an error in the current context. More...
 
void DiagnoseUnguardedAvailabilityViolations (Decl *FD)
 Issue any -Wunguarded-availability warnings in FD. More...
 
bool CanUseDecl (NamedDecl *D, bool TreatUnavailableAsInvalid)
 Determine whether the use of this declaration is valid, without emitting diagnostics. More...
 
bool DiagnoseUseOfDecl (NamedDecl *D, ArrayRef< SourceLocation > Locs, const ObjCInterfaceDecl *UnknownObjCClass=nullptr, bool ObjCPropertyAccess=false, bool AvoidPartialAvailabilityChecks=false)
 Determine whether the use of this declaration is valid, and emit any corresponding diagnostics. More...
 
void NoteDeletedFunction (FunctionDecl *FD)
 Emit a note explaining that this function is deleted. More...
 
void NoteDeletedInheritingConstructor (CXXConstructorDecl *CD)
 
std::string getDeletedOrUnavailableSuffix (const FunctionDecl *FD)
 Retrieve the message suffix that should be added to a diagnostic complaining about the given function being deleted or unavailable. More...
 
bool DiagnosePropertyAccessorMismatch (ObjCPropertyDecl *PD, ObjCMethodDecl *Getter, SourceLocation Loc)
 
void DiagnoseSentinelCalls (NamedDecl *D, SourceLocation Loc, ArrayRef< Expr *> Args)
 DiagnoseSentinelCalls - This routine checks whether a call or message-send is to a declaration with the sentinel attribute, and if so, it checks that the requirements of the sentinel are satisfied. More...
 
void PushExpressionEvaluationContext (ExpressionEvaluationContext NewContext, Decl *LambdaContextDecl=nullptr, ExpressionEvaluationContextRecord::ExpressionKind Type=ExpressionEvaluationContextRecord::EK_Other)
 
void PushExpressionEvaluationContext (ExpressionEvaluationContext NewContext, ReuseLambdaContextDecl_t, ExpressionEvaluationContextRecord::ExpressionKind Type=ExpressionEvaluationContextRecord::EK_Other)
 
void PopExpressionEvaluationContext ()
 
void DiscardCleanupsInEvaluationContext ()
 
ExprResult TransformToPotentiallyEvaluated (Expr *E)
 
ExprResult HandleExprEvaluationContextForTypeof (Expr *E)
 
ExprResult ActOnConstantExpression (ExprResult Res)
 
void MarkAnyDeclReferenced (SourceLocation Loc, Decl *D, bool MightBeOdrUse)
 Perform marking for a reference to an arbitrary declaration. More...
 
void MarkFunctionReferenced (SourceLocation Loc, FunctionDecl *Func, bool MightBeOdrUse=true)
 Mark a function referenced, and check whether it is odr-used (C++ [basic.def.odr]p2, C99 6.9p3) More...
 
void MarkVariableReferenced (SourceLocation Loc, VarDecl *Var)
 Mark a variable referenced, and check whether it is odr-used (C++ [basic.def.odr]p2, C99 6.9p3). More...
 
void MarkDeclRefReferenced (DeclRefExpr *E, const Expr *Base=nullptr)
 Perform reference-marking and odr-use handling for a DeclRefExpr. More...
 
void MarkMemberReferenced (MemberExpr *E)
 Perform reference-marking and odr-use handling for a MemberExpr. More...
 
void UpdateMarkingForLValueToRValue (Expr *E)
 
void CleanupVarDeclMarking ()
 
bool tryCaptureVariable (VarDecl *Var, SourceLocation Loc, TryCaptureKind Kind, SourceLocation EllipsisLoc, bool BuildAndDiagnose, QualType &CaptureType, QualType &DeclRefType, const unsigned *const FunctionScopeIndexToStopAt)
 Try to capture the given variable. More...
 
bool tryCaptureVariable (VarDecl *Var, SourceLocation Loc, TryCaptureKind Kind=TryCapture_Implicit, SourceLocation EllipsisLoc=SourceLocation())
 Try to capture the given variable. More...
 
bool NeedToCaptureVariable (VarDecl *Var, SourceLocation Loc)
 Checks if the variable must be captured. More...
 
QualType getCapturedDeclRefType (VarDecl *Var, SourceLocation Loc)
 Given a variable, determine the type that a reference to that variable will have in the given scope. More...
 
void MarkDeclarationsReferencedInType (SourceLocation Loc, QualType T)
 Mark all of the declarations referenced within a particular AST node as referenced. More...
 
void MarkDeclarationsReferencedInExpr (Expr *E, bool SkipLocalVariables=false)
 Mark any declarations that appear within this expression or any potentially-evaluated subexpressions as "referenced". More...
 
bool tryToRecoverWithCall (ExprResult &E, const PartialDiagnostic &PD, bool ForceComplain=false, bool(*IsPlausibleResult)(QualType)=nullptr)
 Try to recover by turning the given expression into a call. More...
 
bool tryExprAsCall (Expr &E, QualType &ZeroArgCallReturnTy, UnresolvedSetImpl &NonTemplateOverloads)
 Figure out if an expression could be turned into a call. More...
 
bool DiagRuntimeBehavior (SourceLocation Loc, const Stmt *Statement, const PartialDiagnostic &PD)
 Conditionally issue a diagnostic based on the current evaluation context. More...
 
SourceRange getExprRange (Expr *E) const
 
ExprResult ActOnIdExpression (Scope *S, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, UnqualifiedId &Id, bool HasTrailingLParen, bool IsAddressOfOperand, std::unique_ptr< CorrectionCandidateCallback > CCC=nullptr, bool IsInlineAsmIdentifier=false, Token *KeywordReplacement=nullptr)
 
void DecomposeUnqualifiedId (const UnqualifiedId &Id, TemplateArgumentListInfo &Buffer, DeclarationNameInfo &NameInfo, const TemplateArgumentListInfo *&TemplateArgs)
 Decomposes the given name into a DeclarationNameInfo, its location, and possibly a list of template arguments. More...
 
bool DiagnoseEmptyLookup (Scope *S, CXXScopeSpec &SS, LookupResult &R, std::unique_ptr< CorrectionCandidateCallback > CCC, TemplateArgumentListInfo *ExplicitTemplateArgs=nullptr, ArrayRef< Expr *> Args=None, TypoExpr **Out=nullptr)
 Diagnose an empty lookup. More...
 
ExprResult LookupInObjCMethod (LookupResult &LookUp, Scope *S, IdentifierInfo *II, bool AllowBuiltinCreation=false)
 LookupInObjCMethod - The parser has read a name in, and Sema has detected that we're currently inside an ObjC method. More...
 
ExprResult ActOnDependentIdExpression (const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, const DeclarationNameInfo &NameInfo, bool isAddressOfOperand, const TemplateArgumentListInfo *TemplateArgs)
 ActOnDependentIdExpression - Handle a dependent id-expression that was just parsed. More...
 
ExprResult BuildDeclRefExpr (ValueDecl *D, QualType Ty, ExprValueKind VK, SourceLocation Loc, const CXXScopeSpec *SS=nullptr)
 
ExprResult BuildDeclRefExpr (ValueDecl *D, QualType Ty, ExprValueKind VK, const DeclarationNameInfo &NameInfo, const CXXScopeSpec *SS=nullptr, NamedDecl *FoundD=nullptr, const TemplateArgumentListInfo *TemplateArgs=nullptr)
 BuildDeclRefExpr - Build an expression that references a declaration that does not require a closure capture. More...
 
ExprResult BuildAnonymousStructUnionMemberReference (const CXXScopeSpec &SS, SourceLocation nameLoc, IndirectFieldDecl *indirectField, DeclAccessPair FoundDecl=DeclAccessPair::make(nullptr, AS_none), Expr *baseObjectExpr=nullptr, SourceLocation opLoc=SourceLocation())
 
ExprResult BuildPossibleImplicitMemberExpr (const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, LookupResult &R, const TemplateArgumentListInfo *TemplateArgs, const Scope *S)
 Builds an expression which might be an implicit member expression. More...
 
ExprResult BuildImplicitMemberExpr (const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, LookupResult &R, const TemplateArgumentListInfo *TemplateArgs, bool IsDefiniteInstance, const Scope *S)
 Builds an implicit member access expression. More...
 
bool UseArgumentDependentLookup (const CXXScopeSpec &SS, const LookupResult &R, bool HasTrailingLParen)
 
ExprResult BuildQualifiedDeclarationNameExpr (CXXScopeSpec &SS, const DeclarationNameInfo &NameInfo, bool IsAddressOfOperand, const Scope *S, TypeSourceInfo **RecoveryTSI=nullptr)
 BuildQualifiedDeclarationNameExpr - Build a C++ qualified declaration name, generally during template instantiation. More...
 
ExprResult BuildDependentDeclRefExpr (const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, const DeclarationNameInfo &NameInfo, const TemplateArgumentListInfo *TemplateArgs)
 
ExprResult BuildDeclarationNameExpr (const CXXScopeSpec &SS, LookupResult &R, bool NeedsADL, bool AcceptInvalidDecl=false)
 
ExprResult BuildDeclarationNameExpr (const CXXScopeSpec &SS, const DeclarationNameInfo &NameInfo, NamedDecl *D, NamedDecl *FoundD=nullptr, const TemplateArgumentListInfo *TemplateArgs=nullptr, bool AcceptInvalidDecl=false)
 Complete semantic analysis for a reference to the given declaration. More...
 
ExprResult BuildLiteralOperatorCall (LookupResult &R, DeclarationNameInfo &SuffixInfo, ArrayRef< Expr *> Args, SourceLocation LitEndLoc, TemplateArgumentListInfo *ExplicitTemplateArgs=nullptr)
 BuildLiteralOperatorCall - Build a UserDefinedLiteral by creating a call to a literal operator described by the provided lookup results. More...
 
ExprResult BuildPredefinedExpr (SourceLocation Loc, PredefinedExpr::IdentType IT)
 
ExprResult ActOnPredefinedExpr (SourceLocation Loc, tok::TokenKind Kind)
 
ExprResult ActOnIntegerConstant (SourceLocation Loc, uint64_t Val)
 
bool CheckLoopHintExpr (Expr *E, SourceLocation Loc)
 
ExprResult ActOnNumericConstant (const Token &Tok, Scope *UDLScope=nullptr)
 
ExprResult ActOnCharacterConstant (const Token &Tok, Scope *UDLScope=nullptr)
 
ExprResult ActOnParenExpr (SourceLocation L, SourceLocation R, Expr *E)
 
ExprResult ActOnParenListExpr (SourceLocation L, SourceLocation R, MultiExprArg Val)
 
ExprResult ActOnStringLiteral (ArrayRef< Token > StringToks, Scope *UDLScope=nullptr)
 ActOnStringLiteral - The specified tokens were lexed as pasted string fragments (e.g. More...
 
ExprResult ActOnGenericSelectionExpr (SourceLocation KeyLoc, SourceLocation DefaultLoc, SourceLocation RParenLoc, Expr *ControllingExpr, ArrayRef< ParsedType > ArgTypes, ArrayRef< Expr *> ArgExprs)
 
ExprResult CreateGenericSelectionExpr (SourceLocation KeyLoc, SourceLocation DefaultLoc, SourceLocation RParenLoc, Expr *ControllingExpr, ArrayRef< TypeSourceInfo *> Types, ArrayRef< Expr *> Exprs)
 
ExprResult CreateBuiltinUnaryOp (SourceLocation OpLoc, UnaryOperatorKind Opc, Expr *InputExpr)
 
ExprResult BuildUnaryOp (Scope *S, SourceLocation OpLoc, UnaryOperatorKind Opc, Expr *Input)
 
ExprResult ActOnUnaryOp (Scope *S, SourceLocation OpLoc, tok::TokenKind Op, Expr *Input)
 
bool isQualifiedMemberAccess (Expr *E)
 Determine whether the given expression is a qualified member access expression, of a form that could be turned into a pointer to member with the address-of operator. More...
 
QualType CheckAddressOfOperand (ExprResult &Operand, SourceLocation OpLoc)
 CheckAddressOfOperand - The operand of & must be either a function designator or an lvalue designating an object. More...
 
ExprResult CreateUnaryExprOrTypeTraitExpr (TypeSourceInfo *TInfo, SourceLocation OpLoc, UnaryExprOrTypeTrait ExprKind, SourceRange R)
 Build a sizeof or alignof expression given a type operand. More...
 
ExprResult CreateUnaryExprOrTypeTraitExpr (Expr *E, SourceLocation OpLoc, UnaryExprOrTypeTrait ExprKind)
 Build a sizeof or alignof expression given an expression operand. More...
 
ExprResult ActOnUnaryExprOrTypeTraitExpr (SourceLocation OpLoc, UnaryExprOrTypeTrait ExprKind, bool IsType, void *TyOrEx, SourceRange ArgRange)
 ActOnUnaryExprOrTypeTraitExpr - Handle sizeof(type) and sizeof expr and the same for alignof and __alignof Note that the ArgRange is invalid if isType is false. More...
 
ExprResult CheckPlaceholderExpr (Expr *E)
 Check for operands with placeholder types and complain if found. More...
 
bool CheckVecStepExpr (Expr *E)
 
bool CheckUnaryExprOrTypeTraitOperand (Expr *E, UnaryExprOrTypeTrait ExprKind)
 Check the constraints on expression operands to unary type expression and type traits. More...
 
bool CheckUnaryExprOrTypeTraitOperand (QualType ExprType, SourceLocation OpLoc, SourceRange ExprRange, UnaryExprOrTypeTrait ExprKind)
 Check the constraints on operands to unary expression and type traits. More...
 
ExprResult ActOnSizeofParameterPackExpr (Scope *S, SourceLocation OpLoc, IdentifierInfo &Name, SourceLocation NameLoc, SourceLocation RParenLoc)
 Called when an expression computing the size of a parameter pack is parsed. More...
 
ExprResult ActOnPostfixUnaryOp (Scope *S, SourceLocation OpLoc, tok::TokenKind Kind, Expr *Input)
 
ExprResult ActOnArraySubscriptExpr (Scope *S, Expr *Base, SourceLocation LLoc, Expr *Idx, SourceLocation RLoc)
 
ExprResult CreateBuiltinArraySubscriptExpr (Expr *Base, SourceLocation LLoc, Expr *Idx, SourceLocation RLoc)
 
ExprResult ActOnOMPArraySectionExpr (Expr *Base, SourceLocation LBLoc, Expr *LowerBound, SourceLocation ColonLoc, Expr *Length, SourceLocation RBLoc)
 
ExprResult BuildMemberReferenceExpr (Expr *Base, QualType BaseType, SourceLocation OpLoc, bool IsArrow, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, NamedDecl *FirstQualifierInScope, const DeclarationNameInfo &NameInfo, const TemplateArgumentListInfo *TemplateArgs, const Scope *S, ActOnMemberAccessExtraArgs *ExtraArgs=nullptr)
 
ExprResult BuildMemberReferenceExpr (Expr *Base, QualType BaseType, SourceLocation OpLoc, bool IsArrow, const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, NamedDecl *FirstQualifierInScope, LookupResult &R, const TemplateArgumentListInfo *TemplateArgs, const Scope *S, bool SuppressQualifierCheck=false, ActOnMemberAccessExtraArgs *ExtraArgs=nullptr)
 
ExprResult BuildFieldReferenceExpr (Expr *BaseExpr, bool IsArrow, SourceLocation OpLoc, const CXXScopeSpec &SS, FieldDecl *Field, DeclAccessPair FoundDecl, const DeclarationNameInfo &MemberNameInfo)
 
ExprResult PerformMemberExprBaseConversion (Expr *Base, bool IsArrow)
 Perform conversions on the LHS of a member access expression. More...
 
bool CheckQualifiedMemberReference (Expr *BaseExpr, QualType BaseType, const CXXScopeSpec &SS, const LookupResult &R)
 
ExprResult ActOnDependentMemberExpr (Expr *Base, QualType BaseType, bool IsArrow, SourceLocation OpLoc, const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, NamedDecl *FirstQualifierInScope, const DeclarationNameInfo &NameInfo, const TemplateArgumentListInfo *TemplateArgs)
 
ExprResult ActOnMemberAccessExpr (Scope *S, Expr *Base, SourceLocation OpLoc, tok::TokenKind OpKind, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, UnqualifiedId &Member, Decl *ObjCImpDecl)
 The main callback when the parser finds something like expression . More...
 
void ActOnDefaultCtorInitializers (Decl *CDtorDecl)
 
bool ConvertArgumentsForCall (CallExpr *Call, Expr *Fn, FunctionDecl *FDecl, const FunctionProtoType *Proto, ArrayRef< Expr *> Args, SourceLocation RParenLoc, bool ExecConfig=false)
 ConvertArgumentsForCall - Converts the arguments specified in Args/NumArgs to the parameter types of the function FDecl with function prototype Proto. More...
 
void CheckStaticArrayArgument (SourceLocation CallLoc, ParmVarDecl *Param, const Expr *ArgExpr)
 CheckStaticArrayArgument - If the given argument corresponds to a static array parameter, check that it is non-null, and that if it is formed by array-to-pointer decay, the underlying array is sufficiently large. More...
 
ExprResult ActOnCallExpr (Scope *S, Expr *Fn, SourceLocation LParenLoc, MultiExprArg ArgExprs, SourceLocation RParenLoc, Expr *ExecConfig=nullptr, bool IsExecConfig=false)
 ActOnCallExpr - Handle a call to Fn with the specified array of arguments. More...
 
ExprResult BuildResolvedCallExpr (Expr *Fn, NamedDecl *NDecl, SourceLocation LParenLoc, ArrayRef< Expr *> Arg, SourceLocation RParenLoc, Expr *Config=nullptr, bool IsExecConfig=false)
 BuildResolvedCallExpr - Build a call to a resolved expression, i.e. More...
 
ExprResult ActOnCUDAExecConfigExpr (Scope *S, SourceLocation LLLLoc, MultiExprArg ExecConfig, SourceLocation GGGLoc)
 
ExprResult ActOnCastExpr (Scope *S, SourceLocation LParenLoc, Declarator &D, ParsedType &Ty, SourceLocation RParenLoc, Expr *CastExpr)
 
ExprResult BuildCStyleCastExpr (SourceLocation LParenLoc, TypeSourceInfo *Ty, SourceLocation RParenLoc, Expr *Op)
 
CastKind PrepareScalarCast (ExprResult &src, QualType destType)
 Prepares for a scalar cast, performing all the necessary stages except the final cast and returning the kind required. More...
 
ExprResult BuildVectorLiteral (SourceLocation LParenLoc, SourceLocation RParenLoc, Expr *E, TypeSourceInfo *TInfo)
 Build an altivec or OpenCL literal. More...
 
ExprResult MaybeConvertParenListExprToParenExpr (Scope *S, Expr *ME)
 This is not an AltiVec-style cast or or C++ direct-initialization, so turn the ParenListExpr into a sequence of comma binary operators. More...
 
ExprResult ActOnCompoundLiteral (SourceLocation LParenLoc, ParsedType Ty, SourceLocation RParenLoc, Expr *InitExpr)
 
ExprResult BuildCompoundLiteralExpr (SourceLocation LParenLoc, TypeSourceInfo *TInfo, SourceLocation RParenLoc, Expr *LiteralExpr)
 
ExprResult ActOnInitList (SourceLocation LBraceLoc, MultiExprArg InitArgList, SourceLocation RBraceLoc)
 
ExprResult ActOnDesignatedInitializer (Designation &Desig, SourceLocation Loc, bool GNUSyntax, ExprResult Init)
 
ExprResult ActOnBinOp (Scope *S, SourceLocation TokLoc, tok::TokenKind Kind, Expr *LHSExpr, Expr *RHSExpr)
 
ExprResult BuildBinOp (Scope *S, SourceLocation OpLoc, BinaryOperatorKind Opc, Expr *LHSExpr, Expr *RHSExpr)
 
ExprResult CreateBuiltinBinOp (SourceLocation OpLoc, BinaryOperatorKind Opc, Expr *LHSExpr, Expr *RHSExpr)
 CreateBuiltinBinOp - Creates a new built-in binary operation with operator Opc at location TokLoc. More...
 
void DiagnoseCommaOperator (const Expr *LHS, SourceLocation Loc)
 
ExprResult ActOnConditionalOp (SourceLocation QuestionLoc, SourceLocation ColonLoc, Expr *CondExpr, Expr *LHSExpr, Expr *RHSExpr)
 ActOnConditionalOp - Parse a ?: operation. More...
 
ExprResult ActOnAddrLabel (SourceLocation OpLoc, SourceLocation LabLoc, LabelDecl *TheDecl)
 ActOnAddrLabel - Parse the GNU address of label extension: "&&foo". More...
 
void ActOnStartStmtExpr ()
 
ExprResult ActOnStmtExpr (SourceLocation LPLoc, Stmt *SubStmt, SourceLocation RPLoc)
 
void ActOnStmtExprError ()
 
ExprResult BuildBuiltinOffsetOf (SourceLocation BuiltinLoc, TypeSourceInfo *TInfo, ArrayRef< OffsetOfComponent > Components, SourceLocation RParenLoc)
 __builtin_offsetof(type, a.b[123][456].c) More...
 
ExprResult ActOnBuiltinOffsetOf (Scope *S, SourceLocation BuiltinLoc, SourceLocation TypeLoc, ParsedType ParsedArgTy, ArrayRef< OffsetOfComponent > Components, SourceLocation RParenLoc)
 
ExprResult ActOnChooseExpr (SourceLocation BuiltinLoc, Expr *CondExpr, Expr *LHSExpr, Expr *RHSExpr, SourceLocation RPLoc)
 
ExprResult ActOnVAArg (SourceLocation BuiltinLoc, Expr *E, ParsedType Ty, SourceLocation RPLoc)
 
ExprResult BuildVAArgExpr (SourceLocation BuiltinLoc, Expr *E, TypeSourceInfo *TInfo, SourceLocation RPLoc)
 
ExprResult ActOnGNUNullExpr (SourceLocation TokenLoc)
 
bool CheckCaseExpression (Expr *E)
 
IfExistsResult CheckMicrosoftIfExistsSymbol (Scope *S, CXXScopeSpec &SS, const DeclarationNameInfo &TargetNameInfo)
 
IfExistsResult CheckMicrosoftIfExistsSymbol (Scope *S, SourceLocation KeywordLoc, bool IsIfExists, CXXScopeSpec &SS, UnqualifiedId &Name)
 
StmtResult BuildMSDependentExistsStmt (SourceLocation KeywordLoc, bool IsIfExists, NestedNameSpecifierLoc QualifierLoc, DeclarationNameInfo NameInfo, Stmt *Nested)
 
StmtResult ActOnMSDependentExistsStmt (SourceLocation KeywordLoc, bool IsIfExists, CXXScopeSpec &SS, UnqualifiedId &Name, Stmt *Nested)
 
void ActOnBlockStart (SourceLocation CaretLoc, Scope *CurScope)
 ActOnBlockStart - This callback is invoked when a block literal is started. More...
 
void ActOnBlockArguments (SourceLocation CaretLoc, Declarator &ParamInfo, Scope *CurScope)
 ActOnBlockArguments - This callback allows processing of block arguments. More...
 
void ActOnBlockError (SourceLocation CaretLoc, Scope *CurScope)
 ActOnBlockError - If there is an error parsing a block, this callback is invoked to pop the information about the block from the action impl. More...
 
ExprResult ActOnBlockStmtExpr (SourceLocation CaretLoc, Stmt *Body, Scope *CurScope)
 ActOnBlockStmtExpr - This is called when the body of a block statement literal was successfully completed. More...
 
ExprResult ActOnConvertVectorExpr (Expr *E, ParsedType ParsedDestTy, SourceLocation BuiltinLoc, SourceLocation RParenLoc)
 __builtin_convertvector(...) More...
 
ExprResult ActOnAsTypeExpr (Expr *E, ParsedType ParsedDestTy, SourceLocation BuiltinLoc, SourceLocation RParenLoc)
 __builtin_astype(...) More...
 
DeclActOnStartNamespaceDef (Scope *S, SourceLocation InlineLoc, SourceLocation NamespaceLoc, SourceLocation IdentLoc, IdentifierInfo *Ident, SourceLocation LBrace, const ParsedAttributesView &AttrList, UsingDirectiveDecl *&UsingDecl)
 ActOnStartNamespaceDef - This is called at the start of a namespace definition. More...
 
void ActOnFinishNamespaceDef (Decl *Dcl, SourceLocation RBrace)
 ActOnFinishNamespaceDef - This callback is called after a namespace is exited. More...
 
NamespaceDeclgetStdNamespace () const
 
NamespaceDeclgetOrCreateStdNamespace ()
 Retrieve the special "std" namespace, which may require us to implicitly define the namespace. More...
 
NamespaceDecllookupStdExperimentalNamespace ()
 
CXXRecordDeclgetStdBadAlloc () const
 
EnumDeclgetStdAlignValT () const
 
QualType CheckComparisonCategoryType (ComparisonCategoryType Kind, SourceLocation Loc)
 Lookup the specified comparison category types in the standard library, an check the VarDecls possibly returned by the operator<=> builtins for that type. More...
 
bool isStdInitializerList (QualType Ty, QualType *Element)
 Tests whether Ty is an instance of std::initializer_list and, if it is and Element is not NULL, assigns the element type to Element. More...
 
QualType BuildStdInitializerList (QualType Element, SourceLocation Loc)
 Looks for the std::initializer_list template and instantiates it with Element, or emits an error if it's not found. More...
 
bool isInitListConstructor (const FunctionDecl *Ctor)
 Determine whether Ctor is an initializer-list constructor, as defined in [dcl.init.list]p2. More...
 
DeclActOnUsingDirective (Scope *CurScope, SourceLocation UsingLoc, SourceLocation NamespcLoc, CXXScopeSpec &SS, SourceLocation IdentLoc, IdentifierInfo *NamespcName, const ParsedAttributesView &AttrList)
 
void PushUsingDirective (Scope *S, UsingDirectiveDecl *UDir)
 
DeclActOnNamespaceAliasDef (Scope *CurScope, SourceLocation NamespaceLoc, SourceLocation AliasLoc, IdentifierInfo *Alias, CXXScopeSpec &SS, SourceLocation IdentLoc, IdentifierInfo *Ident)
 
void HideUsingShadowDecl (Scope *S, UsingShadowDecl *Shadow)
 Hides a using shadow declaration. More...
 
bool CheckUsingShadowDecl (UsingDecl *UD, NamedDecl *Target, const LookupResult &PreviousDecls, UsingShadowDecl *&PrevShadow)
 Determines whether to create a using shadow decl for a particular decl, given the set of decls existing prior to this using lookup. More...
 
UsingShadowDeclBuildUsingShadowDecl (Scope *S, UsingDecl *UD, NamedDecl *Target, UsingShadowDecl *PrevDecl)
 Builds a shadow declaration corresponding to a 'using' declaration. More...
 
bool CheckUsingDeclRedeclaration (SourceLocation UsingLoc, bool HasTypenameKeyword, const CXXScopeSpec &SS, SourceLocation NameLoc, const LookupResult &Previous)
 Checks that the given using declaration is not an invalid redeclaration. More...
 
bool CheckUsingDeclQualifier (SourceLocation UsingLoc, bool HasTypename, const CXXScopeSpec &SS, const DeclarationNameInfo &NameInfo, SourceLocation NameLoc)
 Checks that the given nested-name qualifier used in a using decl in the current context is appropriately related to the current scope. More...
 
NamedDeclBuildUsingDeclaration (Scope *S, AccessSpecifier AS, SourceLocation UsingLoc, bool HasTypenameKeyword, SourceLocation TypenameLoc, CXXScopeSpec &SS, DeclarationNameInfo NameInfo, SourceLocation EllipsisLoc, const ParsedAttributesView &AttrList, bool IsInstantiation)
 Builds a using declaration. More...
 
NamedDeclBuildUsingPackDecl (NamedDecl *InstantiatedFrom, ArrayRef< NamedDecl *> Expansions)
 
bool CheckInheritingConstructorUsingDecl (UsingDecl *UD)
 Additional checks for a using declaration referring to a constructor name. More...
 
CXXConstructorDeclfindInheritingConstructor (SourceLocation Loc, CXXConstructorDecl *BaseCtor, ConstructorUsingShadowDecl *DerivedShadow)
 Given a derived-class using shadow declaration for a constructor and the correspnding base class constructor, find or create the implicit synthesized derived class constructor to use for this initialization. More...
 
DeclActOnUsingDeclaration (Scope *CurScope, AccessSpecifier AS, SourceLocation UsingLoc, SourceLocation TypenameLoc, CXXScopeSpec &SS, UnqualifiedId &Name, SourceLocation EllipsisLoc, const ParsedAttributesView &AttrList)
 
DeclActOnAliasDeclaration (Scope *CurScope, AccessSpecifier AS, MultiTemplateParamsArg TemplateParams, SourceLocation UsingLoc, UnqualifiedId &Name, const ParsedAttributesView &AttrList, TypeResult Type, Decl *DeclFromDeclSpec)
 
ExprResult BuildCXXConstructExpr (SourceLocation ConstructLoc, QualType DeclInitType, NamedDecl *FoundDecl, CXXConstructorDecl *Constructor, MultiExprArg Exprs, bool HadMultipleCandidates, bool IsListInitialization, bool IsStdInitListInitialization, bool RequiresZeroInit, unsigned ConstructKind, SourceRange ParenRange)
 BuildCXXConstructExpr - Creates a complete call to a constructor, including handling of its default argument expressions. More...
 
ExprResult BuildCXXConstructExpr (SourceLocation ConstructLoc, QualType DeclInitType, CXXConstructorDecl *Constructor, bool Elidable, MultiExprArg Exprs, bool HadMultipleCandidates, bool IsListInitialization, bool IsStdInitListInitialization, bool RequiresZeroInit, unsigned ConstructKind, SourceRange ParenRange)
 Build a CXXConstructExpr whose constructor has already been resolved if it denotes an inherited constructor. More...
 
ExprResult BuildCXXConstructExpr (SourceLocation ConstructLoc, QualType DeclInitType, NamedDecl *FoundDecl, CXXConstructorDecl *Constructor, bool Elidable, MultiExprArg Exprs, bool HadMultipleCandidates, bool IsListInitialization, bool IsStdInitListInitialization, bool RequiresZeroInit, unsigned ConstructKind, SourceRange ParenRange)
 
ExprResult BuildCXXDefaultInitExpr (SourceLocation Loc, FieldDecl *Field)
 
bool CheckCXXDefaultArgExpr (SourceLocation CallLoc, FunctionDecl *FD, ParmVarDecl *Param)
 Instantiate or parse a C++ default argument expression as necessary. More...
 
ExprResult BuildCXXDefaultArgExpr (SourceLocation CallLoc, FunctionDecl *FD, ParmVarDecl *Param)
 BuildCXXDefaultArgExpr - Creates a CXXDefaultArgExpr, instantiating the default expr if needed. More...
 
void FinalizeVarWithDestructor (VarDecl *VD, const RecordType *DeclInitType)
 FinalizeVarWithDestructor - Prepare for calling destructor on the constructed variable. More...
 
ImplicitExceptionSpecification ComputeDefaultedDefaultCtorExceptionSpec (SourceLocation Loc, CXXMethodDecl *MD)
 Determine what sort of exception specification a defaulted copy constructor of a class will have. More...
 
ImplicitExceptionSpecification ComputeDefaultedCopyCtorExceptionSpec (CXXMethodDecl *MD)
 Determine what sort of exception specification a defaulted default constructor of a class will have, and whether the parameter will be const. More...
 
ImplicitExceptionSpecification ComputeDefaultedCopyAssignmentExceptionSpec (CXXMethodDecl *MD)
 Determine what sort of exception specification a defautled copy assignment operator of a class will have, and whether the parameter will be const. More...
 
ImplicitExceptionSpecification ComputeDefaultedMoveCtorExceptionSpec (CXXMethodDecl *MD)
 Determine what sort of exception specification a defaulted move constructor of a class will have. More...
 
ImplicitExceptionSpecification ComputeDefaultedMoveAssignmentExceptionSpec (CXXMethodDecl *MD)
 Determine what sort of exception specification a defaulted move assignment operator of a class will have. More...
 
ImplicitExceptionSpecification ComputeDefaultedDtorExceptionSpec (CXXMethodDecl *MD)
 Determine what sort of exception specification a defaulted destructor of a class will have. More...
 
ImplicitExceptionSpecification ComputeInheritingCtorExceptionSpec (SourceLocation Loc, CXXConstructorDecl *CD)
 Determine what sort of exception specification an inheriting constructor of a class will have. More...
 
void EvaluateImplicitExceptionSpec (SourceLocation Loc, CXXMethodDecl *MD)
 Evaluate the implicit exception specification for a defaulted special member function. More...
 
ExprResult ActOnNoexceptSpec (SourceLocation NoexceptLoc, Expr *NoexceptExpr, ExceptionSpecificationType &EST)
 Check the given noexcept-specifier, convert its expression, and compute the appropriate ExceptionSpecificationType. More...
 
void checkExceptionSpecification (bool IsTopLevel, ExceptionSpecificationType EST, ArrayRef< ParsedType > DynamicExceptions, ArrayRef< SourceRange > DynamicExceptionRanges, Expr *NoexceptExpr, SmallVectorImpl< QualType > &Exceptions, FunctionProtoType::ExceptionSpecInfo &ESI)
 Check the given exception-specification and update the exception specification information with the results. More...
 
bool isLibstdcxxEagerExceptionSpecHack (const Declarator &D)
 Determine if we're in a case where we need to (incorrectly) eagerly parse an exception specification to work around a libstdc++ bug. More...
 
void actOnDelayedExceptionSpecification (Decl *Method, ExceptionSpecificationType EST, SourceRange SpecificationRange, ArrayRef< ParsedType > DynamicExceptions, ArrayRef< SourceRange > DynamicExceptionRanges, Expr *NoexceptExpr)
 Add an exception-specification to the given member function (or member function template). More...
 
bool ShouldDeleteSpecialMember (CXXMethodDecl *MD, CXXSpecialMember CSM, InheritedConstructorInfo *ICI=nullptr, bool Diagnose=false)
 Determine if a special member function should have a deleted definition when it is defaulted. More...
 
CXXConstructorDeclDeclareImplicitDefaultConstructor (CXXRecordDecl *ClassDecl)
 Declare the implicit default constructor for the given class. More...
 
void DefineImplicitDefaultConstructor (SourceLocation CurrentLocation, CXXConstructorDecl *Constructor)
 DefineImplicitDefaultConstructor - Checks for feasibility of defining this constructor as the default constructor. More...
 
CXXDestructorDeclDeclareImplicitDestructor (CXXRecordDecl *ClassDecl)
 Declare the implicit destructor for the given class. More...
 
void DefineImplicitDestructor (SourceLocation CurrentLocation, CXXDestructorDecl *Destructor)
 DefineImplicitDestructor - Checks for feasibility of defining this destructor as the default destructor. More...
 
void AdjustDestructorExceptionSpec (CXXRecordDecl *ClassDecl, CXXDestructorDecl *Destructor)
 Build an exception spec for destructors that don't have one. More...
 
void DefineInheritingConstructor (SourceLocation UseLoc, CXXConstructorDecl *Constructor)
 Define the specified inheriting constructor. More...
 
CXXConstructorDeclDeclareImplicitCopyConstructor (CXXRecordDecl *ClassDecl)
 Declare the implicit copy constructor for the given class. More...
 
void DefineImplicitCopyConstructor (SourceLocation CurrentLocation, CXXConstructorDecl *Constructor)
 DefineImplicitCopyConstructor - Checks for feasibility of defining this constructor as the copy constructor. More...
 
CXXConstructorDeclDeclareImplicitMoveConstructor (CXXRecordDecl *ClassDecl)
 Declare the implicit move constructor for the given class. More...
 
void DefineImplicitMoveConstructor (SourceLocation CurrentLocation, CXXConstructorDecl *Constructor)
 DefineImplicitMoveConstructor - Checks for feasibility of defining this constructor as the move constructor. More...
 
CXXMethodDeclDeclareImplicitCopyAssignment (CXXRecordDecl *ClassDecl)
 Declare the implicit copy assignment operator for the given class. More...
 
void DefineImplicitCopyAssignment (SourceLocation CurrentLocation, CXXMethodDecl *MethodDecl)
 Defines an implicitly-declared copy assignment operator. More...
 
CXXMethodDeclDeclareImplicitMoveAssignment (CXXRecordDecl *ClassDecl)
 Declare the implicit move assignment operator for the given class. More...
 
void DefineImplicitMoveAssignment (SourceLocation CurrentLocation, CXXMethodDecl *MethodDecl)
 Defines an implicitly-declared move assignment operator. More...
 
void ForceDeclarationOfImplicitMembers (CXXRecordDecl *Class)
 Force the declaration of any implicitly-declared members of this class. More...
 
void CheckImplicitSpecialMemberDeclaration (Scope *S, FunctionDecl *FD)
 Check a completed declaration of an implicit special member. More...
 
bool isImplicitlyDeleted (FunctionDecl *FD)
 Determine whether the given function is an implicitly-deleted special member function. More...
 
bool checkThisInStaticMemberFunctionType (CXXMethodDecl *Method)
 Check whether 'this' shows up in the type of a static member function after the (naturally empty) cv-qualifier-seq would be. More...
 
bool checkThisInStaticMemberFunctionExceptionSpec (CXXMethodDecl *Method)
 Whether this' shows up in the exception specification of a static member function. More...
 
bool checkThisInStaticMemberFunctionAttributes (CXXMethodDecl *Method)
 Check whether 'this' shows up in the attributes of the given static member function. More...
 
ExprResult MaybeBindToTemporary (Expr *E)
 MaybeBindToTemporary - If the passed in expression has a record type with a non-trivial destructor, this will return CXXBindTemporaryExpr. More...
 
bool CompleteConstructorCall (CXXConstructorDecl *Constructor, MultiExprArg ArgsPtr, SourceLocation Loc, SmallVectorImpl< Expr *> &ConvertedArgs, bool AllowExplicit=false, bool IsListInitialization=false)
 Given a constructor and the set of arguments provided for the constructor, convert the arguments and add any required default arguments to form a proper call to this constructor. More...
 
ParsedType getInheritingConstructorName (CXXScopeSpec &SS, SourceLocation NameLoc, IdentifierInfo &Name)
 Handle the result of the special case name lookup for inheriting constructor declarations. More...
 
ParsedType getConstructorName (IdentifierInfo &II, SourceLocation NameLoc, Scope *S, CXXScopeSpec &SS, bool EnteringContext)
 
ParsedType getDestructorName (SourceLocation TildeLoc, IdentifierInfo &II, SourceLocation NameLoc, Scope *S, CXXScopeSpec &SS, ParsedType ObjectType, bool EnteringContext)
 
ParsedType getDestructorTypeForDecltype (const DeclSpec &DS, ParsedType ObjectType)
 
void CheckCompatibleReinterpretCast (QualType SrcType, QualType DestType, bool IsDereference, SourceRange Range)
 
ExprResult ActOnCXXNamedCast (SourceLocation OpLoc, tok::TokenKind Kind, SourceLocation LAngleBracketLoc, Declarator &D, SourceLocation RAngleBracketLoc, SourceLocation LParenLoc, Expr *E, SourceLocation RParenLoc)
 ActOnCXXNamedCast - Parse {dynamic,static,reinterpret,const}_cast's. More...
 
ExprResult BuildCXXNamedCast (SourceLocation OpLoc, tok::TokenKind Kind, TypeSourceInfo *Ty, Expr *E, SourceRange AngleBrackets, SourceRange Parens)
 
ExprResult BuildCXXTypeId (QualType TypeInfoType, SourceLocation TypeidLoc, TypeSourceInfo *Operand, SourceLocation RParenLoc)
 Build a C++ typeid expression with a type operand. More...
 
ExprResult BuildCXXTypeId (QualType TypeInfoType, SourceLocation TypeidLoc, Expr *Operand, SourceLocation RParenLoc)
 Build a C++ typeid expression with an expression operand. More...
 
ExprResult ActOnCXXTypeid (SourceLocation OpLoc, SourceLocation LParenLoc, bool isType, void *TyOrExpr, SourceLocation RParenLoc)
 ActOnCXXTypeid - Parse typeid( something ). More...
 
ExprResult BuildCXXUuidof (QualType TypeInfoType, SourceLocation TypeidLoc, TypeSourceInfo *Operand, SourceLocation RParenLoc)
 Build a Microsoft __uuidof expression with a type operand. More...
 
ExprResult BuildCXXUuidof (QualType TypeInfoType, SourceLocation TypeidLoc, Expr *Operand, SourceLocation RParenLoc)
 Build a Microsoft __uuidof expression with an expression operand. More...
 
ExprResult ActOnCXXUuidof (SourceLocation OpLoc, SourceLocation LParenLoc, bool isType, void *TyOrExpr, SourceLocation RParenLoc)
 ActOnCXXUuidof - Parse __uuidof( something ). More...
 
ExprResult ActOnCXXFoldExpr (SourceLocation LParenLoc, Expr *LHS, tok::TokenKind Operator, SourceLocation EllipsisLoc, Expr *RHS, SourceLocation RParenLoc)
 Handle a C++1z fold-expression: ( expr op ... op expr ). More...
 
ExprResult BuildCXXFoldExpr (SourceLocation LParenLoc, Expr *LHS, BinaryOperatorKind Operator, SourceLocation EllipsisLoc, Expr *RHS, SourceLocation RParenLoc)
 
ExprResult BuildEmptyCXXFoldExpr (SourceLocation EllipsisLoc, BinaryOperatorKind Operator)
 
ExprResult ActOnCXXThis (SourceLocation loc)
 
QualType getCurrentThisType ()
 Try to retrieve the type of the 'this' pointer. More...
 
bool CheckCXXThisCapture (SourceLocation Loc, bool Explicit=false, bool BuildAndDiagnose=true, const unsigned *const FunctionScopeIndexToStopAt=nullptr, bool ByCopy=false)
 Make sure the value of 'this' is actually available in the current context, if it is a potentially evaluated context. More...
 
bool isThisOutsideMemberFunctionBody (QualType BaseType)
 Determine whether the given type is the type of *this that is used outside of the body of a member function for a type that is currently being defined. More...
 
ExprResult ActOnCXXBoolLiteral (SourceLocation OpLoc, tok::TokenKind Kind)
 ActOnCXXBoolLiteral - Parse {true,false} literals. More...
 
ExprResult ActOnObjCBoolLiteral (SourceLocation OpLoc, tok::TokenKind Kind)
 ActOnObjCBoolLiteral - Parse {__objc_yes,__objc_no} literals. More...
 
ExprResult ActOnObjCAvailabilityCheckExpr (llvm::ArrayRef< AvailabilitySpec > AvailSpecs, SourceLocation AtLoc, SourceLocation RParen)
 
ExprResult ActOnCXXNullPtrLiteral (SourceLocation Loc)
 ActOnCXXNullPtrLiteral - Parse 'nullptr'. More...
 
ExprResult ActOnCXXThrow (Scope *S, SourceLocation OpLoc, Expr *expr)
 ActOnCXXThrow - Parse throw expressions. More...
 
ExprResult BuildCXXThrow (SourceLocation OpLoc, Expr *Ex, bool IsThrownVarInScope)
 
bool CheckCXXThrowOperand (SourceLocation ThrowLoc, QualType ThrowTy, Expr *E)
 CheckCXXThrowOperand - Validate the operand of a throw. More...
 
ExprResult ActOnCXXTypeConstructExpr (ParsedType TypeRep, SourceLocation LParenOrBraceLoc, MultiExprArg Exprs, SourceLocation RParenOrBraceLoc, bool ListInitialization)
 ActOnCXXTypeConstructExpr - Parse construction of a specified type. More...
 
ExprResult BuildCXXTypeConstructExpr (TypeSourceInfo *Type, SourceLocation LParenLoc, MultiExprArg Exprs, SourceLocation RParenLoc, bool ListInitialization)
 
ExprResult ActOnCXXNew (SourceLocation StartLoc, bool UseGlobal, SourceLocation PlacementLParen, MultiExprArg PlacementArgs, SourceLocation PlacementRParen, SourceRange TypeIdParens, Declarator &D, Expr *Initializer)
 ActOnCXXNew - Parsed a C++ 'new' expression. More...
 
ExprResult BuildCXXNew (SourceRange Range, bool UseGlobal, SourceLocation PlacementLParen, MultiExprArg PlacementArgs, SourceLocation PlacementRParen, SourceRange TypeIdParens, QualType AllocType, TypeSourceInfo *AllocTypeInfo, Expr *ArraySize, SourceRange DirectInitRange, Expr *Initializer)
 
bool CheckAllocatedType (QualType AllocType, SourceLocation Loc, SourceRange R)
 Checks that a type is suitable as the allocated type in a new-expression. More...
 
bool FindAllocationFunctions (SourceLocation StartLoc, SourceRange Range, AllocationFunctionScope NewScope, AllocationFunctionScope DeleteScope, QualType AllocType, bool IsArray, bool &PassAlignment, MultiExprArg PlaceArgs, FunctionDecl *&OperatorNew, FunctionDecl *&OperatorDelete, bool Diagnose=true)
 Finds the overloads of operator new and delete that are appropriate for the allocation. More...
 
void DeclareGlobalNewDelete ()
 DeclareGlobalNewDelete - Declare the global forms of operator new and delete. More...
 
void DeclareGlobalAllocationFunction (DeclarationName Name, QualType Return, ArrayRef< QualType > Params)
 DeclareGlobalAllocationFunction - Declares a single implicit global allocation function if it doesn't already exist. More...
 
bool FindDeallocationFunction (SourceLocation StartLoc, CXXRecordDecl *RD, DeclarationName Name, FunctionDecl *&Operator, bool Diagnose=true)
 
FunctionDeclFindUsualDeallocationFunction (SourceLocation StartLoc, bool CanProvideSize, bool Overaligned, DeclarationName Name)
 
FunctionDeclFindDeallocationFunctionForDestructor (SourceLocation StartLoc, CXXRecordDecl *RD)
 
ExprResult ActOnCXXDelete (SourceLocation StartLoc, bool UseGlobal, bool ArrayForm, Expr *Operand)
 ActOnCXXDelete - Parsed a C++ 'delete' expression. More...
 
void CheckVirtualDtorCall (CXXDestructorDecl *dtor, SourceLocation Loc, bool IsDelete, bool CallCanBeVirtual, bool WarnOnNonAbstractTypes, SourceLocation DtorLoc)
 
ExprResult ActOnNoexceptExpr (SourceLocation KeyLoc, SourceLocation LParen, Expr *Operand, SourceLocation RParen)
 
ExprResult BuildCXXNoexceptExpr (SourceLocation KeyLoc, Expr *Operand, SourceLocation RParen)
 
ExprResult ActOnTypeTrait (TypeTrait Kind, SourceLocation KWLoc, ArrayRef< ParsedType > Args, SourceLocation RParenLoc)
 Parsed one of the type trait support pseudo-functions. More...
 
ExprResult BuildTypeTrait (TypeTrait Kind, SourceLocation KWLoc, ArrayRef< TypeSourceInfo *> Args, SourceLocation RParenLoc)
 
ExprResult ActOnArrayTypeTrait (ArrayTypeTrait ATT, SourceLocation KWLoc, ParsedType LhsTy, Expr *DimExpr, SourceLocation RParen)
 ActOnArrayTypeTrait - Parsed one of the binary type trait support pseudo-functions. More...
 
ExprResult BuildArrayTypeTrait (ArrayTypeTrait ATT, SourceLocation KWLoc, TypeSourceInfo *TSInfo, Expr *DimExpr, SourceLocation RParen)
 
ExprResult ActOnExpressionTrait (ExpressionTrait OET, SourceLocation KWLoc, Expr *Queried, SourceLocation RParen)
 ActOnExpressionTrait - Parsed one of the unary type trait support pseudo-functions. More...
 
ExprResult BuildExpressionTrait (ExpressionTrait OET, SourceLocation KWLoc, Expr *Queried, SourceLocation RParen)
 
ExprResult ActOnStartCXXMemberReference (Scope *S, Expr *Base, SourceLocation OpLoc, tok::TokenKind OpKind, ParsedType &ObjectType, bool &MayBePseudoDestructor)
 
ExprResult BuildPseudoDestructorExpr (Expr *Base, SourceLocation OpLoc, tok::TokenKind OpKind, const CXXScopeSpec &SS, TypeSourceInfo *ScopeType, SourceLocation CCLoc, SourceLocation TildeLoc, PseudoDestructorTypeStorage DestroyedType)
 
ExprResult ActOnPseudoDestructorExpr (Scope *S, Expr *Base, SourceLocation OpLoc, tok::TokenKind OpKind, CXXScopeSpec &SS, UnqualifiedId &FirstTypeName, SourceLocation CCLoc, SourceLocation TildeLoc, UnqualifiedId &SecondTypeName)
 
ExprResult ActOnPseudoDestructorExpr (Scope *S, Expr *Base, SourceLocation OpLoc, tok::TokenKind OpKind, SourceLocation TildeLoc, const DeclSpec &DS)
 
ExprMaybeCreateExprWithCleanups (Expr *SubExpr)
 MaybeCreateExprWithCleanups - If the current full-expression requires any cleanups, surround it with a ExprWithCleanups node. More...
 
StmtMaybeCreateStmtWithCleanups (Stmt *SubStmt)
 
ExprResult MaybeCreateExprWithCleanups (ExprResult SubExpr)
 
MaterializeTemporaryExprCreateMaterializeTemporaryExpr (QualType T, Expr *Temporary, bool BoundToLvalueReference)
 
ExprResult ActOnFinishFullExpr (Expr *Expr)
 
ExprResult ActOnFinishFullExpr (Expr *Expr, SourceLocation CC, bool DiscardedValue=false, bool IsConstexpr=false, bool IsLambdaInitCaptureInitializer=false)
 
StmtResult ActOnFinishFullStmt (Stmt *Stmt)
 
bool RequireCompleteDeclContext (CXXScopeSpec &SS, DeclContext *DC)
 Require that the context specified by SS be complete. More...
 
DeclContextcomputeDeclContext (QualType T)
 Compute the DeclContext that is associated with the given type. More...
 
DeclContextcomputeDeclContext (const CXXScopeSpec &SS, bool EnteringContext=false)
 Compute the DeclContext that is associated with the given scope specifier. More...
 
bool isDependentScopeSpecifier (const CXXScopeSpec &SS)
 
CXXRecordDeclgetCurrentInstantiationOf (NestedNameSpecifier *NNS)
 If the given nested name specifier refers to the current instantiation, return the declaration that corresponds to that current instantiation (C++0x [temp.dep.type]p1). More...
 
bool ActOnCXXGlobalScopeSpecifier (SourceLocation CCLoc, CXXScopeSpec &SS)
 The parser has parsed a global nested-name-specifier '::'. More...
 
bool ActOnSuperScopeSpecifier (SourceLocation SuperLoc, SourceLocation ColonColonLoc, CXXScopeSpec &SS)
 The parser has parsed a '__super' nested-name-specifier. More...
 
bool isAcceptableNestedNameSpecifier (const NamedDecl *SD, bool *CanCorrect=nullptr)
 Determines whether the given declaration is an valid acceptable result for name lookup of a nested-name-specifier. More...
 
NamedDeclFindFirstQualifierInScope (Scope *S, NestedNameSpecifier *NNS)
 If the given nested-name-specifier begins with a bare identifier (e.g., Base::), perform name lookup for that identifier as a nested-name-specifier within the given scope, and return the result of that name lookup. More...
 
bool isNonTypeNestedNameSpecifier (Scope *S, CXXScopeSpec &SS, NestedNameSpecInfo &IdInfo)
 
bool BuildCXXNestedNameSpecifier (Scope *S, NestedNameSpecInfo &IdInfo, bool EnteringContext, CXXScopeSpec &SS, NamedDecl *ScopeLookupResult, bool ErrorRecoveryLookup, bool *IsCorrectedToColon=nullptr, bool OnlyNamespace=false)
 Build a new nested-name-specifier for "identifier::", as described by ActOnCXXNestedNameSpecifier. More...
 
bool ActOnCXXNestedNameSpecifier (Scope *S, NestedNameSpecInfo &IdInfo, bool EnteringContext, CXXScopeSpec &SS, bool ErrorRecoveryLookup=false, bool *IsCorrectedToColon=nullptr, bool OnlyNamespace=false)
 The parser has parsed a nested-name-specifier 'identifier::'. More...
 
ExprResult ActOnDecltypeExpression (Expr *E)
 Process the expression contained within a decltype. More...
 
bool ActOnCXXNestedNameSpecifierDecltype (CXXScopeSpec &SS, const DeclSpec &DS, SourceLocation ColonColonLoc)
 
bool IsInvalidUnlessNestedName (Scope *S, CXXScopeSpec &SS, NestedNameSpecInfo &IdInfo, bool EnteringContext)
 IsInvalidUnlessNestedName - This method is used for error recovery purposes to determine whether the specified identifier is only valid as a nested name specifier, for example a namespace name. More...
 
bool ActOnCXXNestedNameSpecifier (Scope *S, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, TemplateTy TemplateName, SourceLocation TemplateNameLoc, SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgs, SourceLocation RAngleLoc, SourceLocation CCLoc, bool EnteringContext)
 The parser has parsed a nested-name-specifier 'template[opt] template-name < template-args >::'. More...
 
void * SaveNestedNameSpecifierAnnotation (CXXScopeSpec &SS)
 Given a C++ nested-name-specifier, produce an annotation value that the parser can use later to reconstruct the given nested-name-specifier. More...
 
void RestoreNestedNameSpecifierAnnotation (void *Annotation, SourceRange AnnotationRange, CXXScopeSpec &SS)
 Given an annotation pointer for a nested-name-specifier, restore the nested-name-specifier structure. More...
 
bool ShouldEnterDeclaratorScope (Scope *S, const CXXScopeSpec &SS)
 
bool ActOnCXXEnterDeclaratorScope (Scope *S, CXXScopeSpec &SS)
 ActOnCXXEnterDeclaratorScope - Called when a C++ scope specifier (global scope or nested-name-specifier) is parsed, part of a declarator-id. More...
 
void ActOnCXXExitDeclaratorScope (Scope *S, const CXXScopeSpec &SS)
 ActOnCXXExitDeclaratorScope - Called when a declarator that previously invoked ActOnCXXEnterDeclaratorScope(), is finished. More...
 
void ActOnCXXEnterDeclInitializer (Scope *S, Decl *Dcl)
 ActOnCXXEnterDeclInitializer - Invoked when we are about to parse an initializer for the declaration 'Dcl'. More...
 
void ActOnCXXExitDeclInitializer (Scope *S, Decl *Dcl)
 ActOnCXXExitDeclInitializer - Invoked after we are finished parsing an initializer for the declaration 'Dcl'. More...
 
CXXRecordDeclcreateLambdaClosureType (SourceRange IntroducerRange, TypeSourceInfo *Info, bool KnownDependent, LambdaCaptureDefault CaptureDefault)
 Create a new lambda closure type. More...
 
CXXMethodDeclstartLambdaDefinition (CXXRecordDecl *Class, SourceRange IntroducerRange, TypeSourceInfo *MethodType, SourceLocation EndLoc, ArrayRef< ParmVarDecl *> Params, bool IsConstexprSpecified)
 Start the definition of a lambda expression. More...
 
void buildLambdaScope (sema::LambdaScopeInfo *LSI, CXXMethodDecl *CallOperator, SourceRange IntroducerRange, LambdaCaptureDefault CaptureDefault, SourceLocation CaptureDefaultLoc, bool ExplicitParams, bool ExplicitResultType, bool Mutable)
 Endow the lambda scope info with the relevant properties. More...
 
ParsedType actOnLambdaInitCaptureInitialization (SourceLocation Loc, bool ByRef, IdentifierInfo *Id, LambdaCaptureInitKind InitKind, Expr *&Init)
 Perform initialization analysis of the init-capture and perform any implicit conversions such as an lvalue-to-rvalue conversion if not being used to initialize a reference. More...
 
QualType buildLambdaInitCaptureInitialization (SourceLocation Loc, bool ByRef, IdentifierInfo *Id, bool DirectInit, Expr *&Init)
 
VarDeclcreateLambdaInitCaptureVarDecl (SourceLocation Loc, QualType InitCaptureType, IdentifierInfo *Id, unsigned InitStyle, Expr *Init)
 Create a dummy variable within the declcontext of the lambda's call operator, for name lookup purposes for a lambda init capture. More...
 
FieldDeclbuildInitCaptureField (sema::LambdaScopeInfo *LSI, VarDecl *Var)
 Build the implicit field for an init-capture. More...
 
void finishLambdaExplicitCaptures (sema::LambdaScopeInfo *LSI)
 Note that we have finished the explicit captures for the given lambda. More...
 
void addLambdaParameters (CXXMethodDecl *CallOperator, Scope *CurScope)
 Introduce the lambda parameters into scope. More...
 
void deduceClosureReturnType (sema::CapturingScopeInfo &CSI)
 Deduce a block or lambda's return type based on the return statements present in the body. More...
 
void ActOnStartOfLambdaDefinition (LambdaIntroducer &Intro, Declarator &ParamInfo, Scope *CurScope)
 ActOnStartOfLambdaDefinition - This is called just before we start parsing the body of a lambda; it analyzes the explicit captures and arguments, and sets up various data-structures for the body of the lambda. More...
 
void ActOnLambdaError (SourceLocation StartLoc, Scope *CurScope, bool IsInstantiation=false)
 ActOnLambdaError - If there is an error parsing a lambda, this callback is invoked to pop the information about the lambda. More...
 
ExprResult ActOnLambdaExpr (SourceLocation StartLoc, Stmt *Body, Scope *CurScope)
 ActOnLambdaExpr - This is called when the body of a lambda expression was successfully completed. More...
 
bool CaptureHasSideEffects (const sema::Capture &From)
 Does copying/destroying the captured variable have side effects? More...
 
bool DiagnoseUnusedLambdaCapture (SourceRange CaptureRange, const sema::Capture &From)
 Diagnose if an explicit lambda capture is unused. More...
 
ExprResult BuildLambdaExpr (SourceLocation StartLoc, SourceLocation EndLoc, sema::LambdaScopeInfo *LSI)
 Complete a lambda-expression having processed and attached the lambda body. More...
 
QualType getLambdaConversionFunctionResultType (const FunctionProtoType *CallOpType)
 Get the return type to use for a lambda's conversion function(s) to function pointer type, given the type of the call operator. More...
 
void DefineImplicitLambdaToFunctionPointerConversion (SourceLocation CurrentLoc, CXXConversionDecl *Conv)
 Define the "body" of the conversion from a lambda object to a function pointer. More...
 
void DefineImplicitLambdaToBlockPointerConversion (SourceLocation CurrentLoc, CXXConversionDecl *Conv)
 Define the "body" of the conversion from a lambda object to a block pointer. More...
 
ExprResult BuildBlockForLambdaConversion (SourceLocation CurrentLocation, SourceLocation ConvLocation, CXXConversionDecl *Conv, Expr *Src)
 
ExprResult ParseObjCStringLiteral (SourceLocation *AtLocs, ArrayRef< Expr *> Strings)
 
ExprResult BuildObjCStringLiteral (SourceLocation AtLoc, StringLiteral *S)
 
ExprResult BuildCXXMemberCallExpr (Expr *Exp, NamedDecl *FoundDecl, CXXConversionDecl *Method, bool HadMultipleCandidates)
 
DeclActOnStartLinkageSpecification (Scope *S, SourceLocation ExternLoc, Expr *LangStr, SourceLocation LBraceLoc)
 ActOnStartLinkageSpecification - Parsed the beginning of a C++ linkage specification, including the language and (if present) the '{'. More...
 
DeclActOnFinishLinkageSpecification (Scope *S, Decl *LinkageSpec, SourceLocation RBraceLoc)
 ActOnFinishLinkageSpecification - Complete the definition of the C++ linkage specification LinkageSpec. More...
 
CXXRecordDeclgetCurrentClass (Scope *S, const CXXScopeSpec *SS)
 Get the class that is directly named by the current context. More...
 
bool isCurrentClassName (const IdentifierInfo &II, Scope *S, const CXXScopeSpec *SS=nullptr)
 isCurrentClassName - Determine whether the identifier II is the name of the class type currently being defined. More...
 
bool isCurrentClassNameTypo (IdentifierInfo *&II, const CXXScopeSpec *SS)
 Determine whether the identifier II is a typo for the name of the class type currently being defined. More...
 
bool ActOnAccessSpecifier (AccessSpecifier Access, SourceLocation ASLoc, SourceLocation ColonLoc, const ParsedAttributesView &Attrs)
 ActOnAccessSpecifier - Parsed an access specifier followed by a colon. More...
 
NamedDeclActOnCXXMemberDeclarator (Scope *S, AccessSpecifier AS, Declarator &D, MultiTemplateParamsArg TemplateParameterLists, Expr *BitfieldWidth, const VirtSpecifiers &VS, InClassInitStyle InitStyle)
 ActOnCXXMemberDeclarator - This is invoked when a C++ class member declarator is parsed. More...
 
void ActOnStartCXXInClassMemberInitializer ()
 Enter a new C++ default initializer scope. More...
 
void ActOnFinishCXXInClassMemberInitializer (Decl *VarDecl, SourceLocation EqualLoc, Expr *Init)
 This is invoked after parsing an in-class initializer for a non-static C++ class member, and after instantiating an in-class initializer in a class template. More...
 
MemInitResult ActOnMemInitializer (Decl *ConstructorD, Scope *S, CXXScopeSpec &SS, IdentifierInfo *MemberOrBase, ParsedType TemplateTypeTy, const DeclSpec &DS, SourceLocation IdLoc, SourceLocation LParenLoc, ArrayRef< Expr *> Args, SourceLocation RParenLoc, SourceLocation EllipsisLoc)
 Handle a C++ member initializer using parentheses syntax. More...
 
MemInitResult ActOnMemInitializer (Decl *ConstructorD, Scope *S, CXXScopeSpec &SS, IdentifierInfo *MemberOrBase, ParsedType TemplateTypeTy, const DeclSpec &DS, SourceLocation IdLoc, Expr *InitList, SourceLocation EllipsisLoc)
 Handle a C++ member initializer using braced-init-list syntax. More...
 
MemInitResult BuildMemInitializer (Decl *ConstructorD, Scope *S, CXXScopeSpec &SS, IdentifierInfo *MemberOrBase, ParsedType TemplateTypeTy, const DeclSpec &DS, SourceLocation IdLoc, Expr *Init, SourceLocation EllipsisLoc)
 Handle a C++ member initializer. More...
 
MemInitResult BuildMemberInitializer (ValueDecl *Member, Expr *Init, SourceLocation IdLoc)
 
MemInitResult BuildBaseInitializer (QualType BaseType, TypeSourceInfo *BaseTInfo, Expr *Init, CXXRecordDecl *ClassDecl, SourceLocation EllipsisLoc)
 
MemInitResult BuildDelegatingInitializer (TypeSourceInfo *TInfo, Expr *Init, CXXRecordDecl *ClassDecl)
 
bool SetDelegatingInitializer (CXXConstructorDecl *Constructor, CXXCtorInitializer *Initializer)
 
bool SetCtorInitializers (CXXConstructorDecl *Constructor, bool AnyErrors, ArrayRef< CXXCtorInitializer *> Initializers=None)
 
void SetIvarInitializers (ObjCImplementationDecl *ObjCImplementation)
 SetIvarInitializers - This routine builds initialization ASTs for the Objective-C implementation whose ivars need be initialized. More...
 
void MarkBaseAndMemberDestructorsReferenced (SourceLocation Loc, CXXRecordDecl *Record)
 MarkBaseAndMemberDestructorsReferenced - Given a record decl, mark all the non-trivial destructors of its members and bases as referenced. More...
 
void LoadExternalVTableUses ()
 Load any externally-stored vtable uses. More...
 
void MarkVTableUsed (SourceLocation Loc, CXXRecordDecl *Class, bool DefinitionRequired=false)
 Note that the vtable for the given class was used at the given location. More...
 
void MarkVirtualMemberExceptionSpecsNeeded (SourceLocation Loc, const CXXRecordDecl *RD)
 Mark the exception specifications of all virtual member functions in the given class as needed. More...
 
void MarkVirtualMembersReferenced (SourceLocation Loc, const CXXRecordDecl *RD)
 MarkVirtualMembersReferenced - Will mark all members of the given CXXRecordDecl referenced. More...
 
bool DefineUsedVTables ()
 Define all of the vtables that have been used in this translation unit and reference any virtual members used by those vtables. More...
 
void AddImplicitlyDeclaredMembersToClass (CXXRecordDecl *ClassDecl)
 AddImplicitlyDeclaredMembersToClass - Adds any implicitly-declared special functions, such as the default constructor, copy constructor, or destructor, to the given C++ class (C++ [special]p1). More...
 
void ActOnMemInitializers (Decl *ConstructorDecl, SourceLocation ColonLoc, ArrayRef< CXXCtorInitializer *> MemInits, bool AnyErrors)
 ActOnMemInitializers - Handle the member initializers for a constructor. More...
 
void checkClassLevelDLLAttribute (CXXRecordDecl *Class)
 Check class-level dllimport/dllexport attribute. More...
 
void checkClassLevelCodeSegAttribute (CXXRecordDecl *Class)
 
void referenceDLLExportedClassMethods ()
 
void propagateDLLAttrToBaseClassTemplate (CXXRecordDecl *Class, Attr *ClassAttr, ClassTemplateSpecializationDecl *BaseTemplateSpec, SourceLocation BaseLoc)
 Perform propagation of DLL attributes from a derived class to a templated base class for MS compatibility. More...
 
void CheckCompletedCXXClass (CXXRecordDecl *Record)
 Perform semantic checks on a class definition that has been completing, introducing implicitly-declared members, checking for abstract types, etc. More...
 
void checkIllFormedTrivialABIStruct (CXXRecordDecl &RD)
 Check that the C++ class annoated with "trivial_abi" satisfies all the conditions that are needed for the attribute to have an effect. More...
 
void ActOnFinishCXXMemberSpecification (Scope *S, SourceLocation RLoc, Decl *TagDecl, SourceLocation LBrac, SourceLocation RBrac, const ParsedAttributesView &AttrList)
 
void ActOnFinishCXXMemberDecls ()
 Perform any semantic analysis which needs to be delayed until all pending class member declarations have been parsed. More...
 
void ActOnFinishCXXNonNestedClass (Decl *D)
 
void ActOnReenterCXXMethodParameter (Scope *S, ParmVarDecl *Param)
 This is used to implement the constant expression evaluation part of the attribute enable_if extension. More...
 
unsigned ActOnReenterTemplateScope (Scope *S, Decl *Template)
 
void ActOnStartDelayedMemberDeclarations (Scope *S, Decl *Record)
 
void ActOnStartDelayedCXXMethodDeclaration (Scope *S, Decl *Method)
 ActOnStartDelayedCXXMethodDeclaration - We have completed parsing a top-level (non-nested) C++ class, and we are now parsing those parts of the given Method declaration that could not be parsed earlier (C++ [class.mem]p2), such as default arguments. More...
 
void ActOnDelayedCXXMethodParameter (Scope *S, Decl *Param)
 ActOnDelayedCXXMethodParameter - We've already started a delayed C++ method declaration. More...
 
void ActOnFinishDelayedMemberDeclarations (Scope *S, Decl *Record)
 
void ActOnFinishDelayedCXXMethodDeclaration (Scope *S, Decl *Method)
 ActOnFinishDelayedCXXMethodDeclaration - We have finished processing the delayed method declaration for Method. More...
 
void ActOnFinishDelayedMemberInitializers (Decl *Record)
 
void MarkAsLateParsedTemplate (FunctionDecl *FD, Decl *FnD, CachedTokens &Toks)
 
void UnmarkAsLateParsedTemplate (FunctionDecl *FD)
 
bool IsInsideALocalClassWithinATemplateFunction ()
 
DeclActOnStaticAssertDeclaration (SourceLocation StaticAssertLoc, Expr *AssertExpr, Expr *AssertMessageExpr, SourceLocation RParenLoc)
 
DeclBuildStaticAssertDeclaration (SourceLocation StaticAssertLoc, Expr *AssertExpr, StringLiteral *AssertMessageExpr, SourceLocation RParenLoc, bool Failed)
 
FriendDeclCheckFriendTypeDecl (SourceLocation LocStart, SourceLocation FriendLoc, TypeSourceInfo *TSInfo)
 Perform semantic analysis of the given friend type declaration. More...
 
DeclActOnFriendTypeDecl (Scope *S, const DeclSpec &DS, MultiTemplateParamsArg TemplateParams)
 Handle a friend type declaration. More...
 
NamedDeclActOnFriendFunctionDecl (Scope *S, Declarator &D, MultiTemplateParamsArg TemplateParams)
 
QualType CheckConstructorDeclarator (Declarator &D, QualType R, StorageClass &SC)
 CheckConstructorDeclarator - Called by ActOnDeclarator to check the well-formedness of the constructor declarator D with type R. More...
 
void CheckConstructor (CXXConstructorDecl *Constructor)
 CheckConstructor - Checks a fully-formed constructor for well-formedness, issuing any diagnostics required. More...
 
QualType CheckDestructorDeclarator (Declarator &D, QualType R, StorageClass &SC)
 CheckDestructorDeclarator - Called by ActOnDeclarator to check the well-formednes of the destructor declarator D with type R. More...
 
bool CheckDestructor (CXXDestructorDecl *Destructor)
 CheckDestructor - Checks a fully-formed destructor definition for well-formedness, issuing any diagnostics required. More...
 
void CheckConversionDeclarator (Declarator &D, QualType &R, StorageClass &SC)
 CheckConversionDeclarator - Called by ActOnDeclarator to check the well-formednes of the conversion function declarator D with type R. More...
 
DeclActOnConversionDeclarator (CXXConversionDecl *Conversion)
 ActOnConversionDeclarator - Called by ActOnDeclarator to complete the declaration of the given C++ conversion function. More...
 
void CheckDeductionGuideDeclarator (Declarator &D, QualType &R, StorageClass &SC)
 Check the validity of a declarator that we parsed for a deduction-guide. More...
 
void CheckDeductionGuideTemplate (FunctionTemplateDecl *TD)
 
void CheckExplicitlyDefaultedSpecialMember (CXXMethodDecl *MD)
 
void CheckExplicitlyDefaultedMemberExceptionSpec (CXXMethodDecl *MD, const FunctionProtoType *T)
 Check whether the exception specification provided for an explicitly-defaulted special member matches the exception specification that would have been generated for an implicit special member, per C++11 [dcl.fct.def.default]p2. More...
 
void CheckDelayedMemberExceptionSpecs ()
 
CXXBaseSpecifierCheckBaseSpecifier (CXXRecordDecl *Class, SourceRange SpecifierRange, bool Virtual, AccessSpecifier Access, TypeSourceInfo *TInfo, SourceLocation EllipsisLoc)
 ActOnBaseSpecifier - Parsed a base specifier. More...
 
BaseResult ActOnBaseSpecifier (Decl *classdecl, SourceRange SpecifierRange, ParsedAttributes &Attrs, bool Virtual, AccessSpecifier Access, ParsedType basetype, SourceLocation BaseLoc, SourceLocation EllipsisLoc)
 ActOnBaseSpecifier - Parsed a base specifier. More...
 
bool AttachBaseSpecifiers (CXXRecordDecl *Class, MutableArrayRef< CXXBaseSpecifier *> Bases)
 Performs the actual work of attaching the given base class specifiers to a C++ class. More...
 
void ActOnBaseSpecifiers (Decl *ClassDecl, MutableArrayRef< CXXBaseSpecifier *> Bases)
 ActOnBaseSpecifiers - Attach the given base specifiers to the class, after checking whether there are any duplicate base classes. More...
 
bool IsDerivedFrom (SourceLocation Loc, QualType Derived, QualType Base)
 Determine whether the type Derived is a C++ class that is derived from the type Base. More...
 
bool IsDerivedFrom (SourceLocation Loc, QualType Derived, QualType Base, CXXBasePaths &Paths)
 Determine whether the type Derived is a C++ class that is derived from the type Base. More...
 
void BuildBasePathArray (const CXXBasePaths &Paths, CXXCastPath &BasePath)
 
bool CheckDerivedToBaseConversion (QualType Derived, QualType Base, SourceLocation Loc, SourceRange Range, CXXCastPath *BasePath=nullptr, bool IgnoreAccess=false)
 
bool CheckDerivedToBaseConversion (QualType Derived, QualType Base, unsigned InaccessibleBaseID, unsigned AmbigiousBaseConvID, SourceLocation Loc, SourceRange Range, DeclarationName Name, CXXCastPath *BasePath, bool IgnoreAccess=false)
 CheckDerivedToBaseConversion - Check whether the Derived-to-Base conversion (where Derived and Base are class types) is well-formed, meaning that the conversion is unambiguous (and that all of the base classes are accessible). More...
 
std::string getAmbiguousPathsDisplayString (CXXBasePaths &Paths)
 Builds a string representing ambiguous paths from a specific derived class to different subobjects of the same base class. More...
 
bool CheckOverridingFunctionAttributes (const CXXMethodDecl *New, const CXXMethodDecl *Old)
 
bool CheckOverridingFunctionReturnType (const CXXMethodDecl *New, const CXXMethodDecl *Old)
 CheckOverridingFunctionReturnType - Checks whether the return types are covariant, according to C++ [class.virtual]p5. More...
 
bool CheckOverridingFunctionExceptionSpec (const CXXMethodDecl *New, const CXXMethodDecl *Old)
 CheckOverridingFunctionExceptionSpec - Checks whether the exception spec is a subset of base spec. More...
 
bool CheckPureMethod (CXXMethodDecl *Method, SourceRange InitRange)
 Mark the given method pure. More...
 
void CheckOverrideControl (NamedDecl *D)
 CheckOverrideControl - Check C++11 override control semantics. More...
 
void DiagnoseAbsenceOfOverrideControl (NamedDecl *D)
 DiagnoseAbsenceOfOverrideControl - Diagnose if 'override' keyword was not used in the declaration of an overriding method. More...
 
bool CheckIfOverriddenFunctionIsMarkedFinal (const CXXMethodDecl *New, const CXXMethodDecl *Old)
 CheckForFunctionMarkedFinal - Checks whether a virtual member function overrides a virtual member function marked 'final', according to C++11 [class.virtual]p4. More...
 
bool SetMemberAccessSpecifier (NamedDecl *MemberDecl, NamedDecl *PrevMemberDecl, AccessSpecifier LexicalAS)
 SetMemberAccessSpecifier - Set the access specifier of a member. More...
 
AccessResult CheckUnresolvedMemberAccess (UnresolvedMemberExpr *E, DeclAccessPair FoundDecl)
 Perform access-control checking on a previously-unresolved member access which has now been resolved to a member. More...
 
AccessResult CheckUnresolvedLookupAccess (UnresolvedLookupExpr *E, DeclAccessPair FoundDecl)
 
AccessResult CheckAllocationAccess (SourceLocation OperatorLoc, SourceRange PlacementRange, CXXRecordDecl *NamingClass, DeclAccessPair FoundDecl, bool Diagnose=true)
 Checks access to an overloaded operator new or delete. More...
 
AccessResult CheckConstructorAccess (SourceLocation Loc, CXXConstructorDecl *D, DeclAccessPair FoundDecl, const InitializedEntity &Entity, bool IsCopyBindingRefToTemp=false)
 Checks access to a constructor. More...
 
AccessResult CheckConstructorAccess (SourceLocation Loc, CXXConstructorDecl *D, DeclAccessPair FoundDecl, const InitializedEntity &Entity, const PartialDiagnostic &PDiag)
 Checks access to a constructor. More...
 
AccessResult CheckDestructorAccess (SourceLocation Loc, CXXDestructorDecl *Dtor, const PartialDiagnostic &PDiag, QualType objectType=QualType())
 
AccessResult CheckFriendAccess (NamedDecl *D)
 Checks access to the target of a friend declaration. More...
 
AccessResult CheckMemberAccess (SourceLocation UseLoc, CXXRecordDecl *NamingClass, DeclAccessPair Found)
 Checks access to a member. More...
 
AccessResult CheckMemberOperatorAccess (SourceLocation Loc, Expr *ObjectExpr, Expr *ArgExpr, DeclAccessPair FoundDecl)
 Checks access to an overloaded member operator, including conversion operators. More...
 
AccessResult CheckAddressOfMemberAccess (Expr *OvlExpr, DeclAccessPair FoundDecl)
 
AccessResult CheckBaseClassAccess (SourceLocation AccessLoc, QualType Base, QualType Derived, const CXXBasePath &Path, unsigned DiagID, bool ForceCheck=false, bool ForceUnprivileged=false)
 Checks access for a hierarchy conversion. More...
 
void CheckLookupAccess (const LookupResult &R)
 Checks access to all the declarations in the given result set. More...
 
bool IsSimplyAccessible (NamedDecl *decl, DeclContext *Ctx)
 Checks access to Target from the given class. More...
 
bool isSpecialMemberAccessibleForDeletion (CXXMethodDecl *decl, AccessSpecifier access, QualType objectType)
 Is the given special member function accessible for the purposes of deciding whether to define a special member function as deleted? More...
 
void HandleDependentAccessCheck (const DependentDiagnostic &DD, const MultiLevelTemplateArgumentList &TemplateArgs)
 
void PerformDependentDiagnostics (const DeclContext *Pattern, const MultiLevelTemplateArgumentList &TemplateArgs)
 
void HandleDelayedAccessCheck (sema::DelayedDiagnostic &DD, Decl *Ctx)
 
bool isAbstractType (SourceLocation Loc, QualType T)
 
bool RequireNonAbstractType (SourceLocation Loc, QualType T, TypeDiagnoser &Diagnoser)
 
template<typename... Ts>
bool RequireNonAbstractType (SourceLocation Loc, QualType T, unsigned DiagID, const Ts &...Args)
 
void DiagnoseAbstractType (const CXXRecordDecl *RD)
 
bool CheckOverloadedOperatorDeclaration (FunctionDecl *FnDecl)
 CheckOverloadedOperatorDeclaration - Check whether the declaration of this overloaded operator is well-formed. More...
 
bool CheckLiteralOperatorDeclaration (FunctionDecl *FnDecl)
 CheckLiteralOperatorDeclaration - Check whether the declaration of this literal operator function is well-formed. More...
 
void FilterAcceptableTemplateNames (LookupResult &R, bool AllowFunctionTemplates=true)
 
bool hasAnyAcceptableTemplateNames (LookupResult &R, bool AllowFunctionTemplates=true)
 
bool LookupTemplateName (LookupResult &R, Scope *S, CXXScopeSpec &SS, QualType ObjectType, bool EnteringContext, bool &MemberOfUnknownSpecialization, SourceLocation TemplateKWLoc=SourceLocation())
 
TemplateNameKind isTemplateName (Scope *S, CXXScopeSpec &SS, bool hasTemplateKeyword, const UnqualifiedId &Name, ParsedType ObjectType, bool EnteringContext, TemplateTy &Template, bool &MemberOfUnknownSpecialization)
 
bool isDeductionGuideName (Scope *S, const IdentifierInfo &Name, SourceLocation NameLoc, ParsedTemplateTy *Template=nullptr)
 Determine whether a particular identifier might be the name in a C++1z deduction-guide declaration. More...
 
bool DiagnoseUnknownTemplateName (const IdentifierInfo &II, SourceLocation IILoc, Scope *S, const CXXScopeSpec *SS, TemplateTy &SuggestedTemplate, TemplateNameKind &SuggestedKind)
 
bool DiagnoseUninstantiableTemplate (SourceLocation PointOfInstantiation, NamedDecl *Instantiation, bool InstantiatedFromMember, const NamedDecl *Pattern, const NamedDecl *PatternDef, TemplateSpecializationKind TSK, bool Complain=true)
 Determine whether we would be unable to instantiate this template (because it either has no definition, or is in the process of being instantiated). More...
 
void DiagnoseTemplateParameterShadow (SourceLocation Loc, Decl *PrevDecl)
 DiagnoseTemplateParameterShadow - Produce a diagnostic complaining that the template parameter 'PrevDecl' is being shadowed by a new declaration at location Loc. More...
 
TemplateDeclAdjustDeclIfTemplate (Decl *&Decl)
 AdjustDeclIfTemplate - If the given decl happens to be a template, reset the parameter D to reference the templated declaration and return a pointer to the template declaration. More...
 
NamedDeclActOnTypeParameter (Scope *S, bool Typename, SourceLocation EllipsisLoc, SourceLocation KeyLoc, IdentifierInfo *ParamName, SourceLocation ParamNameLoc, unsigned Depth, unsigned Position, SourceLocation EqualLoc, ParsedType DefaultArg)
 ActOnTypeParameter - Called when a C++ template type parameter (e.g., "typename T") has been parsed. More...
 
QualType CheckNonTypeTemplateParameterType (TypeSourceInfo *&TSI, SourceLocation Loc)
 Check that the type of a non-type template parameter is well-formed. More...
 
QualType CheckNonTypeTemplateParameterType (QualType T, SourceLocation Loc)
 
NamedDeclActOnNonTypeTemplateParameter (Scope *S, Declarator &D, unsigned Depth, unsigned Position, SourceLocation EqualLoc, Expr *DefaultArg)
 
NamedDeclActOnTemplateTemplateParameter (Scope *S, SourceLocation TmpLoc, TemplateParameterList *Params, SourceLocation EllipsisLoc, IdentifierInfo *ParamName, SourceLocation ParamNameLoc, unsigned Depth, unsigned Position, SourceLocation EqualLoc, ParsedTemplateArgument DefaultArg)
 ActOnTemplateTemplateParameter - Called when a C++ template template parameter (e.g. More...
 
TemplateParameterListActOnTemplateParameterList (unsigned Depth, SourceLocation ExportLoc, SourceLocation TemplateLoc, SourceLocation LAngleLoc, ArrayRef< NamedDecl *> Params, SourceLocation RAngleLoc, Expr *RequiresClause)
 ActOnTemplateParameterList - Builds a TemplateParameterList, optionally constrained by RequiresClause, that contains the template parameters in Params. More...
 
bool CheckTemplateParameterList (TemplateParameterList *NewParams, TemplateParameterList *OldParams, TemplateParamListContext TPC)
 Checks the validity of a template parameter list, possibly considering the template parameter list from a previous declaration. More...
 
TemplateParameterListMatchTemplateParametersToScopeSpecifier (SourceLocation DeclStartLoc, SourceLocation DeclLoc, const CXXScopeSpec &SS, TemplateIdAnnotation *TemplateId, ArrayRef< TemplateParameterList *> ParamLists, bool IsFriend, bool &IsMemberSpecialization, bool &Invalid)
 Match the given template parameter lists to the given scope specifier, returning the template parameter list that applies to the name. More...
 
DeclResult CheckClassTemplate (Scope *S, unsigned TagSpec, TagUseKind TUK, SourceLocation KWLoc, CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc, const ParsedAttributesView &Attr, TemplateParameterList *TemplateParams, AccessSpecifier AS, SourceLocation ModulePrivateLoc, SourceLocation FriendLoc, unsigned NumOuterTemplateParamLists, TemplateParameterList **OuterTemplateParamLists, SkipBodyInfo *SkipBody=nullptr)
 
TemplateArgumentLoc getTrivialTemplateArgumentLoc (const TemplateArgument &Arg, QualType NTTPType, SourceLocation Loc)
 Allocate a TemplateArgumentLoc where all locations have been initialized to the given location. More...
 
void translateTemplateArguments (const ASTTemplateArgsPtr &In, TemplateArgumentListInfo &Out)
 Translates template arguments as provided by the parser into template arguments used by semantic analysis. More...
 
ParsedTemplateArgument ActOnTemplateTypeArgument (TypeResult ParsedType)
 Convert a parsed type into a parsed template argument. More...
 
void NoteAllFoundTemplates (TemplateName Name)
 
QualType CheckTemplateIdType (TemplateName Template, SourceLocation TemplateLoc, TemplateArgumentListInfo &TemplateArgs)
 
TypeResult ActOnTemplateIdType (CXXScopeSpec &SS, SourceLocation TemplateKWLoc, TemplateTy Template, IdentifierInfo *TemplateII, SourceLocation TemplateIILoc, SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgs, SourceLocation RAngleLoc, bool IsCtorOrDtorName=false, bool IsClassName=false)
 
TypeResult ActOnTagTemplateIdType (TagUseKind TUK, TypeSpecifierType TagSpec, SourceLocation TagLoc, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, TemplateTy TemplateD, SourceLocation TemplateLoc, SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgsIn, SourceLocation RAngleLoc)
 Parsed an elaborated-type-specifier that refers to a template-id, such as class T::template apply<U>. More...
 
DeclResult ActOnVarTemplateSpecialization (Scope *S, Declarator &D, TypeSourceInfo *DI, SourceLocation TemplateKWLoc, TemplateParameterList *TemplateParams, StorageClass SC, bool IsPartialSpecialization)
 
DeclResult CheckVarTemplateId (VarTemplateDecl *Template, SourceLocation TemplateLoc, SourceLocation TemplateNameLoc, const TemplateArgumentListInfo &TemplateArgs)
 
ExprResult CheckVarTemplateId (const CXXScopeSpec &SS, const DeclarationNameInfo &NameInfo, VarTemplateDecl *Template, SourceLocation TemplateLoc, const TemplateArgumentListInfo *TemplateArgs)
 
void diagnoseMissingTemplateArguments (TemplateName Name, SourceLocation Loc)
 
ExprResult BuildTemplateIdExpr (const CXXScopeSpec &SS, SourceLocation TemplateKWLoc, LookupResult &R, bool RequiresADL, const TemplateArgumentListInfo *TemplateArgs)
 
ExprResult BuildQualifiedTemplateIdExpr (CXXScopeSpec &SS, SourceLocation TemplateKWLoc, const DeclarationNameInfo &NameInfo, const TemplateArgumentListInfo *TemplateArgs)
 
TemplateNameKind ActOnDependentTemplateName (Scope *S, CXXScopeSpec &SS, SourceLocation TemplateKWLoc, const UnqualifiedId &Name, ParsedType ObjectType, bool EnteringContext, TemplateTy &Template, bool AllowInjectedClassName=false)
 Form a dependent template name. More...
 
DeclResult ActOnClassTemplateSpecialization (Scope *S, unsigned TagSpec, TagUseKind TUK, SourceLocation KWLoc, SourceLocation ModulePrivateLoc, TemplateIdAnnotation &TemplateId, const ParsedAttributesView &Attr, MultiTemplateParamsArg TemplateParameterLists, SkipBodyInfo *SkipBody=nullptr)
 
bool CheckTemplatePartialSpecializationArgs (SourceLocation Loc, TemplateDecl *PrimaryTemplate, unsigned NumExplicitArgs, ArrayRef< TemplateArgument > Args)
 Check the non-type template arguments of a class template partial specialization according to C++ [temp.class.spec]p9. More...
 
void CheckTemplatePartialSpecialization (ClassTemplatePartialSpecializationDecl *Partial)
 
void CheckTemplatePartialSpecialization (VarTemplatePartialSpecializationDecl *Partial)
 
DeclActOnTemplateDeclarator (Scope *S, MultiTemplateParamsArg TemplateParameterLists, Declarator &D)
 
bool CheckSpecializationInstantiationRedecl (SourceLocation NewLoc, TemplateSpecializationKind NewTSK, NamedDecl *PrevDecl, TemplateSpecializationKind PrevTSK, SourceLocation PrevPtOfInstantiation, bool &SuppressNew)
 Diagnose cases where we have an explicit template specialization before/after an explicit template instantiation, producing diagnostics for those cases where they are required and determining whether the new specialization/instantiation will have any effect. More...
 
bool CheckDependentFunctionTemplateSpecialization (FunctionDecl *FD, const TemplateArgumentListInfo &ExplicitTemplateArgs, LookupResult &Previous)
 Perform semantic analysis for the given dependent function template specialization. More...
 
bool CheckFunctionTemplateSpecialization (FunctionDecl *FD, TemplateArgumentListInfo *ExplicitTemplateArgs, LookupResult &Previous)
 Perform semantic analysis for the given function template specialization. More...
 
bool CheckMemberSpecialization (NamedDecl *Member, LookupResult &Previous)
 Perform semantic analysis for the given non-template member specialization. More...
 
void CompleteMemberSpecialization (NamedDecl *Member, LookupResult &Previous)
 
DeclResult ActOnExplicitInstantiation (Scope *S, SourceLocation ExternLoc, SourceLocation TemplateLoc, unsigned TagSpec, SourceLocation KWLoc, const CXXScopeSpec &SS, TemplateTy Template, SourceLocation TemplateNameLoc, SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgs, SourceLocation RAngleLoc, const ParsedAttributesView &Attr)
 
DeclResult ActOnExplicitInstantiation (Scope *S, SourceLocation ExternLoc, SourceLocation TemplateLoc, unsigned TagSpec, SourceLocation KWLoc, CXXScopeSpec &SS, IdentifierInfo *Name, SourceLocation NameLoc, const ParsedAttributesView &Attr)
 
DeclResult ActOnExplicitInstantiation (Scope *S, SourceLocation ExternLoc, SourceLocation TemplateLoc, Declarator &D)
 
TemplateArgumentLoc SubstDefaultTemplateArgumentIfAvailable (TemplateDecl *Template, SourceLocation TemplateLoc, SourceLocation RAngleLoc, Decl *Param, SmallVectorImpl< TemplateArgument > &Converted, bool &HasDefaultArg)
 If the given template parameter has a default template argument, substitute into that default template argument and return the corresponding template argument. More...
 
bool CheckTemplateArgument (NamedDecl *Param, TemplateArgumentLoc &Arg, NamedDecl *Template, SourceLocation TemplateLoc, SourceLocation RAngleLoc, unsigned ArgumentPackIndex, SmallVectorImpl< TemplateArgument > &Converted, CheckTemplateArgumentKind CTAK=CTAK_Specified)
 Check that the given template argument corresponds to the given template parameter. More...
 
bool CheckTemplateArgumentList (TemplateDecl *Template, SourceLocation TemplateLoc, TemplateArgumentListInfo &TemplateArgs, bool PartialTemplateArgs, SmallVectorImpl< TemplateArgument > &Converted, bool UpdateArgsWithConversions=true)
 Check that the given template arguments can be be provided to the given template, converting the arguments along the way. More...
 
bool CheckTemplateTypeArgument (TemplateTypeParmDecl *Param, TemplateArgumentLoc &Arg, SmallVectorImpl< TemplateArgument > &Converted)
 
bool CheckTemplateArgument (TemplateTypeParmDecl *Param, TypeSourceInfo *Arg)
 Check a template argument against its corresponding template type parameter. More...
 
ExprResult CheckTemplateArgument (NonTypeTemplateParmDecl *Param, QualType InstantiatedParamType, Expr *Arg, TemplateArgument &Converted, CheckTemplateArgumentKind CTAK=CTAK_Specified)
 Check a template argument against its corresponding non-type template parameter. More...
 
bool CheckTemplateTemplateArgument (TemplateParameterList *Params, TemplateArgumentLoc &Arg)
 Check a template argument against its corresponding template template parameter. More...
 
ExprResult BuildExpressionFromDeclTemplateArgument (const TemplateArgument &Arg, QualType ParamType, SourceLocation Loc)
 Given a non-type template argument that refers to a declaration and the type of its corresponding non-type template parameter, produce an expression that properly refers to that declaration. More...
 
ExprResult BuildExpressionFromIntegralTemplateArgument (const TemplateArgument &Arg, SourceLocation Loc)
 Construct a new expression that refers to the given integral template argument with the given source-location information. More...
 
bool TemplateParameterListsAreEqual (TemplateParameterList *New, TemplateParameterList *Old, bool Complain, TemplateParameterListEqualKind Kind, SourceLocation TemplateArgLoc=SourceLocation())
 Determine whether the given template parameter lists are equivalent. More...
 
bool CheckTemplateDeclScope (Scope *S, TemplateParameterList *TemplateParams)
 Check whether a template can be declared within this scope. More...
 
TypeResult ActOnTypenameType (Scope *S, SourceLocation TypenameLoc, const CXXScopeSpec &SS, const IdentifierInfo &II, SourceLocation IdLoc)
 Called when the parser has parsed a C++ typename specifier, e.g., "typename T::type". More...
 
TypeResult ActOnTypenameType (Scope *S, SourceLocation TypenameLoc, const CXXScopeSpec &SS, SourceLocation TemplateLoc, TemplateTy TemplateName, IdentifierInfo *TemplateII, SourceLocation TemplateIILoc, SourceLocation LAngleLoc, ASTTemplateArgsPtr TemplateArgs, SourceLocation RAngleLoc)
 Called when the parser has parsed a C++ typename specifier that ends in a template-id, e.g., "typename MetaFun::template apply<T1, T2>". More...
 
QualType CheckTypenameType (ElaboratedTypeKeyword Keyword, SourceLocation KeywordLoc, NestedNameSpecifierLoc QualifierLoc, const IdentifierInfo &II, SourceLocation IILoc)
 Build the type that describes a C++ typename specifier, e.g., "typename T::type". More...
 
TypeSourceInfoRebuildTypeInCurrentInstantiation (TypeSourceInfo *T, SourceLocation Loc, DeclarationName Name)
 Rebuilds a type within the context of the current instantiation. More...
 
bool RebuildNestedNameSpecifierInCurrentInstantiation (CXXScopeSpec &SS)
 
ExprResult RebuildExprInCurrentInstantiation (Expr *E)
 
bool RebuildTemplateParamsInCurrentInstantiation (TemplateParameterList *Params)
 Rebuild the template parameters now that we know we're in a current instantiation. More...
 
std::string getTemplateArgumentBindingsText (const TemplateParameterList *Params, const TemplateArgumentList &Args)
 Produces a formatted string that describes the binding of template parameters to template arguments. More...
 
std::string getTemplateArgumentBindingsText (const TemplateParameterList *Params, const TemplateArgument *Args, unsigned NumArgs)
 
bool isUnexpandedParameterPackPermitted ()
 Determine whether an unexpanded parameter pack might be permitted in this location. More...
 
bool DiagnoseUnexpandedParameterPacks (SourceLocation Loc, UnexpandedParameterPackContext UPPC, ArrayRef< UnexpandedParameterPack > Unexpanded)
 Diagnose unexpanded parameter packs. More...
 
bool DiagnoseUnexpandedParameterPack (SourceLocation Loc, TypeSourceInfo *T, UnexpandedParameterPackContext UPPC)
 If the given type contains an unexpanded parameter pack, diagnose the error. More...
 
bool DiagnoseUnexpandedParameterPack (Expr *E, UnexpandedParameterPackContext UPPC=UPPC_Expression)
 If the given expression contains an unexpanded parameter pack, diagnose the error. More...
 
bool DiagnoseUnexpandedParameterPack (const CXXScopeSpec &SS, UnexpandedParameterPackContext UPPC)
 If the given nested-name-specifier contains an unexpanded parameter pack, diagnose the error. More...
 
bool DiagnoseUnexpandedParameterPack (const DeclarationNameInfo &NameInfo, UnexpandedParameterPackContext UPPC)
 If the given name contains an unexpanded parameter pack, diagnose the error. More...
 
bool DiagnoseUnexpandedParameterPack (SourceLocation Loc, TemplateName Template, UnexpandedParameterPackContext UPPC)
 If the given template name contains an unexpanded parameter pack, diagnose the error. More...
 
bool DiagnoseUnexpandedParameterPack (TemplateArgumentLoc Arg, UnexpandedParameterPackContext UPPC)
 If the given template argument contains an unexpanded parameter pack, diagnose the error. More...
 
void collectUnexpandedParameterPacks (TemplateArgument Arg, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given template argument. More...
 
void collectUnexpandedParameterPacks (TemplateArgumentLoc Arg, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given template argument. More...
 
void collectUnexpandedParameterPacks (QualType T, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given type. More...
 
void collectUnexpandedParameterPacks (TypeLoc TL, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given type. More...
 
void collectUnexpandedParameterPacks (NestedNameSpecifierLoc NNS, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given nested-name-specifier. More...
 
void collectUnexpandedParameterPacks (const DeclarationNameInfo &NameInfo, SmallVectorImpl< UnexpandedParameterPack > &Unexpanded)
 Collect the set of unexpanded parameter packs within the given name. More...
 
ParsedTemplateArgument ActOnPackExpansion (const ParsedTemplateArgument &Arg, SourceLocation EllipsisLoc)
 Invoked when parsing a template argument followed by an ellipsis, which creates a pack expansion. More...
 
TypeResult ActOnPackExpansion (ParsedType Type, SourceLocation EllipsisLoc)
 Invoked when parsing a type followed by an ellipsis, which creates a pack expansion. More...
 
TypeSourceInfoCheckPackExpansion (TypeSourceInfo *Pattern, SourceLocation EllipsisLoc, Optional< unsigned > NumExpansions)
 Construct a pack expansion type from the pattern of the pack expansion. More...
 
QualType CheckPackExpansion (QualType Pattern, SourceRange PatternRange, SourceLocation EllipsisLoc, Optional< unsigned > NumExpansions)
 Construct a pack expansion type from the pattern of the pack expansion. More...
 
ExprResult ActOnPackExpansion (Expr *Pattern, SourceLocation EllipsisLoc)
 Invoked when parsing an expression followed by an ellipsis, which creates a pack expansion. More...
 
ExprResult CheckPackExpansion (Expr *Pattern, SourceLocation EllipsisLoc, Optional< unsigned > NumExpansions)
 Invoked when parsing an expression followed by an ellipsis, which creates a pack expansion. More...
 
bool CheckParameterPacksForExpansion (SourceLocation EllipsisLoc, SourceRange PatternRange, ArrayRef< UnexpandedParameterPack > Unexpanded, const MultiLevelTemplateArgumentList &TemplateArgs, bool &ShouldExpand, bool &RetainExpansion, Optional< unsigned > &NumExpansions)
 Determine whether we could expand a pack expansion with the given set of parameter packs into separate arguments by repeatedly transforming the pattern. More...
 
Optional< unsigned > getNumArgumentsInExpansion (QualType T, const MultiLevelTemplateArgumentList &TemplateArgs)
 Determine the number of arguments in the given pack expansion type. More...
 
bool containsUnexpandedParameterPacks (Declarator &D)
 Determine whether the given declarator contains any unexpanded parameter packs. More...
 
TemplateArgumentLoc getTemplateArgumentPackExpansionPattern (TemplateArgumentLoc OrigLoc, SourceLocation &Ellipsis, Optional< unsigned > &NumExpansions) const
 Returns the pattern of the pack expansion for a template argument. More...
 
Optional< unsigned > getFullyPackExpandedSize (TemplateArgument Arg)
 Given a template argument that contains an unexpanded parameter pack, but which has already been substituted, attempt to determine the number of elements that will be produced once this argument is fully-expanded. More...
 
QualType adjustCCAndNoReturn (QualType ArgFunctionType, QualType FunctionType, bool AdjustExceptionSpec=false)
 Adjust the type ArgFunctionType to match the calling convention, noreturn, and optionally the exception specification of FunctionType. More...
 
TemplateDeductionResult DeduceTemplateArguments (ClassTemplatePartialSpecializationDecl *Partial, const TemplateArgumentList &TemplateArgs, sema::TemplateDeductionInfo &Info)
 Perform template argument deduction to determine whether the given template arguments match the given class template partial specialization per C++ [temp.class.spec.match]. More...
 
TemplateDeductionResult DeduceTemplateArguments (VarTemplatePartialSpecializationDecl *Partial, const TemplateArgumentList &TemplateArgs, sema::TemplateDeductionInfo &Info)
 Perform template argument deduction to determine whether the given template arguments match the given variable template partial specialization per C++ [temp.class.spec.match]. More...
 
TemplateDeductionResult SubstituteExplicitTemplateArguments (FunctionTemplateDecl *FunctionTemplate, TemplateArgumentListInfo &ExplicitTemplateArgs, SmallVectorImpl< DeducedTemplateArgument > &Deduced, SmallVectorImpl< QualType > &ParamTypes, QualType *FunctionType, sema::TemplateDeductionInfo &Info)
 Substitute the explicitly-provided template arguments into the given function template according to C++ [temp.arg.explicit]. More...
 
TemplateDeductionResult FinishTemplateArgumentDeduction (FunctionTemplateDecl *FunctionTemplate, SmallVectorImpl< DeducedTemplateArgument > &Deduced, unsigned NumExplicitlySpecified, FunctionDecl *&Specialization, sema::TemplateDeductionInfo &Info, SmallVectorImpl< OriginalCallArg > const *OriginalCallArgs=nullptr, bool PartialOverloading=false, llvm::function_ref< bool()> CheckNonDependent=[]{ return false;})
 Finish template argument deduction for a function template, checking the deduced template arguments for completeness and forming the function template specialization. More...
 
TemplateDeductionResult DeduceTemplateArguments (FunctionTemplateDecl *FunctionTemplate, TemplateArgumentListInfo *ExplicitTemplateArgs, ArrayRef< Expr *> Args, FunctionDecl *&Specialization, sema::TemplateDeductionInfo &Info, bool PartialOverloading, llvm::function_ref< bool(ArrayRef< QualType >)> CheckNonDependent)
 Perform template argument deduction from a function call (C++ [temp.deduct.call]). More...
 
TemplateDeductionResult DeduceTemplateArguments (FunctionTemplateDecl *FunctionTemplate, TemplateArgumentListInfo *ExplicitTemplateArgs, QualType ArgFunctionType, FunctionDecl *&Specialization, sema::TemplateDeductionInfo &Info, bool IsAddressOfFunction=false)
 Deduce template arguments when taking the address of a function template (C++ [temp.deduct.funcaddr]) or matching a specialization to a template. More...
 
TemplateDeductionResult DeduceTemplateArguments (FunctionTemplateDecl *FunctionTemplate, QualType ToType, CXXConversionDecl *&Specialization, sema::TemplateDeductionInfo &Info)
 Deduce template arguments for a templated conversion function (C++ [temp.deduct.conv]) and, if successful, produce a conversion function template specialization. More...
 
TemplateDeductionResult DeduceTemplateArguments (FunctionTemplateDecl *FunctionTemplate, TemplateArgumentListInfo *ExplicitTemplateArgs, FunctionDecl *&Specialization, sema::TemplateDeductionInfo &Info, bool IsAddressOfFunction=false)
 Deduce template arguments for a function template when there is nothing to deduce against (C++0x [temp.arg.explicit]p3). More...
 
QualType SubstAutoType (QualType TypeWithAuto, QualType Replacement)
 Substitute Replacement for auto in TypeWithAuto. More...
 
TypeSourceInfoSubstAutoTypeSourceInfo (TypeSourceInfo *TypeWithAuto, QualType Replacement)
 Substitute Replacement for auto in TypeWithAuto. More...
 
QualType ReplaceAutoType (QualType TypeWithAuto, QualType Replacement)
 Completely replace the auto in TypeWithAuto by Replacement. More...
 
DeduceAutoResult DeduceAutoType (TypeSourceInfo *AutoType, Expr *&Initializer, QualType &Result, Optional< unsigned > DependentDeductionDepth=None)
 
DeduceAutoResult DeduceAutoType (TypeLoc AutoTypeLoc, Expr *&Initializer, QualType &Result, Optional< unsigned > DependentDeductionDepth=None)
 Deduce the type for an auto type-specifier (C++11 [dcl.spec.auto]p6) More...
 
void DiagnoseAutoDeductionFailure (VarDecl *VDecl, Expr *Init)
 
bool DeduceReturnType (FunctionDecl *FD, SourceLocation Loc, bool Diagnose=true)
 
void DeclareImplicitDeductionGuides (TemplateDecl *Template, SourceLocation Loc)
 Declare implicit deduction guides for a class template if we've not already done so. More...
 
QualType DeduceTemplateSpecializationFromInitializer (TypeSourceInfo *TInfo, const InitializedEntity &Entity, const InitializationKind &Kind, MultiExprArg Init)
 
QualType deduceVarTypeFromInitializer (VarDecl *VDecl, DeclarationName Name, QualType Type, TypeSourceInfo *TSI, SourceRange Range, bool DirectInit, Expr *Init)
 
TypeLoc getReturnTypeLoc (FunctionDecl *FD) const
 
bool DeduceFunctionTypeFromReturnExpr (FunctionDecl *FD, SourceLocation ReturnLoc, Expr *&RetExpr, AutoType *AT)
 Deduce the return type for a function from a returned expression, per C++1y [dcl.spec.auto]p6. More...
 
FunctionTemplateDeclgetMoreSpecializedTemplate (FunctionTemplateDecl *FT1, FunctionTemplateDecl *FT2, SourceLocation Loc, TemplatePartialOrderingContext TPOC, unsigned NumCallArguments1, unsigned NumCallArguments2)
 Returns the more specialized function template according to the rules of function template partial ordering (C++ [temp.func.order]). More...
 
UnresolvedSetIterator getMostSpecialized (UnresolvedSetIterator SBegin, UnresolvedSetIterator SEnd, TemplateSpecCandidateSet &FailedCandidates, SourceLocation Loc, const PartialDiagnostic &NoneDiag, const PartialDiagnostic &AmbigDiag, const PartialDiagnostic &CandidateDiag, bool Complain=true, QualType TargetType=QualType())
 Retrieve the most specialized of the given function template specializations. More...
 
ClassTemplatePartialSpecializationDeclgetMoreSpecializedPartialSpecialization (ClassTemplatePartialSpecializationDecl *PS1, ClassTemplatePartialSpecializationDecl *PS2, SourceLocation Loc)
 Returns the more specialized class template partial specialization according to the rules of partial ordering of class template partial specializations (C++ [temp.class.order]). More...
 
bool isMoreSpecializedThanPrimary (ClassTemplatePartialSpecializationDecl *T, sema::TemplateDeductionInfo &Info)
 
VarTemplatePartialSpecializationDeclgetMoreSpecializedPartialSpecialization (VarTemplatePartialSpecializationDecl *PS1, VarTemplatePartialSpecializationDecl *PS2, SourceLocation Loc)
 
bool isMoreSpecializedThanPrimary (VarTemplatePartialSpecializationDecl *T, sema::TemplateDeductionInfo &Info)
 
bool isTemplateTemplateParameterAtLeastAsSpecializedAs (TemplateParameterList *P, TemplateDecl *AArg, SourceLocation Loc)
 
void MarkUsedTemplateParameters (const TemplateArgumentList &TemplateArgs, bool OnlyDeduced, unsigned Depth, llvm::SmallBitVector &Used)
 Mark which template parameters can be deduced from a given template argument list. More...
 
void MarkDeducedTemplateParameters (const FunctionTemplateDecl *FunctionTemplate, llvm::SmallBitVector &Deduced)
 
MultiLevelTemplateArgumentList getTemplateInstantiationArgs (NamedDecl *D, const TemplateArgumentList *Innermost=nullptr, bool RelativeToPrimary=false, const FunctionDecl *Pattern=nullptr)
 Retrieve the template argument list(s) that should be used to instantiate the definition of the given declaration. More...
 
llvm::DenseSet< Module * > & getLookupModules ()
 Get the set of additional modules that should be checked during name lookup. More...
 
void pushCodeSynthesisContext (CodeSynthesisContext Ctx)
 
void popCodeSynthesisContext ()
 
bool inTemplateInstantiation () const
 Determine whether we are currently performing template instantiation. More...
 
void PrintContextStack ()
 
void PrintInstantiationStack ()
 Prints the current instantiation stack through a series of notes. More...
 
void PrintPragmaAttributeInstantiationPoint ()
 
Optional< sema::TemplateDeductionInfo * > isSFINAEContext () const
 Determines whether we are currently in a context where template argument substitution failures are not considered errors. More...
 
bool isUnevaluatedContext () const
 Determines whether we are currently in a context that is not evaluated as per C++ [expr] p5. More...
 
void PerformPendingInstantiations (bool LocalOnly=false)
 Performs template instantiation for all implicit template instantiations we have seen until this point. More...
 
TypeSourceInfoSubstType (TypeSourceInfo *T, const MultiLevelTemplateArgumentList &TemplateArgs, SourceLocation Loc, DeclarationName Entity, bool AllowDeducedTST=false)
 Perform substitution on the type T with a given set of template arguments. More...
 
QualType SubstType (QualType T, const MultiLevelTemplateArgumentList &TemplateArgs, SourceLocation Loc, DeclarationName Entity)
 Deprecated form of the above. More...
 
TypeSourceInfoSubstType (TypeLoc TL, const MultiLevelTemplateArgumentList &TemplateArgs, SourceLocation Loc, DeclarationName Entity)
 
TypeSourceInfoSubstFunctionDeclType (TypeSourceInfo *T, const MultiLevelTemplateArgumentList &TemplateArgs, SourceLocation Loc, DeclarationName Entity, CXXRecordDecl *ThisContext, unsigned ThisTypeQuals)
 A form of SubstType intended specifically for instantiating the type of a FunctionDecl. More...
 
void SubstExceptionSpec (FunctionDecl *New, const FunctionProtoType *Proto, const MultiLevelTemplateArgumentList &Args)
 
bool SubstExceptionSpec (SourceLocation Loc, FunctionProtoType::ExceptionSpecInfo &ESI, SmallVectorImpl< QualType > &ExceptionStorage, const MultiLevelTemplateArgumentList &Args)
 
ParmVarDeclSubstParmVarDecl (ParmVarDecl *D, const MultiLevelTemplateArgumentList &TemplateArgs, int indexAdjustment, Optional< unsigned > NumExpansions, bool ExpectParameterPack)
 
bool SubstParmTypes (SourceLocation Loc, ArrayRef< ParmVarDecl *> Params, const FunctionProtoType::ExtParameterInfo *ExtParamInfos, const MultiLevelTemplateArgumentList &TemplateArgs, SmallVectorImpl< QualType > &ParamTypes, SmallVectorImpl< ParmVarDecl *> *OutParams, ExtParameterInfoBuilder &ParamInfos)
 Substitute the given template arguments into the given set of parameters, producing the set of parameter types that would be generated from such a substitution. More...
 
ExprResult SubstExpr (Expr *E, const MultiLevelTemplateArgumentList &TemplateArgs)
 
bool SubstExprs (ArrayRef< Expr *> Exprs, bool IsCall, const MultiLevelTemplateArgumentList &TemplateArgs, SmallVectorImpl< Expr *> &Outputs)
 Substitute the given template arguments into a list of expressions, expanding pack expansions if required. More...
 
StmtResult SubstStmt (Stmt *S, const MultiLevelTemplateArgumentList &TemplateArgs)
 
TemplateParameterListSubstTemplateParams (TemplateParameterList *Params, DeclContext *Owner, const MultiLevelTemplateArgumentList &TemplateArgs)
 
DeclSubstDecl (Decl *D, DeclContext *Owner, const MultiLevelTemplateArgumentList &TemplateArgs)
 
ExprResult SubstInitializer (Expr *E, const MultiLevelTemplateArgumentList &TemplateArgs, bool CXXDirectInit)
 
bool SubstBaseSpecifiers (CXXRecordDecl *Instantiation, CXXRecordDecl *Pattern, const MultiLevelTemplateArgumentList &TemplateArgs)
 Perform substitution on the base class specifiers of the given class template specialization. More...
 
bool InstantiateClass (SourceLocation PointOfInstantiation, CXXRecordDecl *Instantiation, CXXRecordDecl *Pattern, const MultiLevelTemplateArgumentList &TemplateArgs, TemplateSpecializationKind TSK, bool Complain=true)
 Instantiate the definition of a class from a given pattern. More...
 
bool InstantiateEnum (SourceLocation PointOfInstantiation, EnumDecl *Instantiation, EnumDecl *Pattern, const MultiLevelTemplateArgumentList &TemplateArgs, TemplateSpecializationKind TSK)
 Instantiate the definition of an enum from a given pattern. More...
 
bool InstantiateInClassInitializer (SourceLocation PointOfInstantiation, FieldDecl *Instantiation, FieldDecl *Pattern, const MultiLevelTemplateArgumentList &TemplateArgs)
 Instantiate the definition of a field from the given pattern. More...
 
void InstantiateAttrs (const MultiLevelTemplateArgumentList &TemplateArgs, const Decl *Pattern, Decl *Inst, LateInstantiatedAttrVec *LateAttrs=nullptr, LocalInstantiationScope *OuterMostScope=nullptr)
 
void InstantiateAttrsForDecl (const MultiLevelTemplateArgumentList &TemplateArgs, const Decl *Pattern, Decl *Inst, LateInstantiatedAttrVec *LateAttrs=nullptr, LocalInstantiationScope *OuterMostScope=nullptr)
 
bool usesPartialOrExplicitSpecialization (SourceLocation Loc, ClassTemplateSpecializationDecl *ClassTemplateSpec)
 
bool InstantiateClassTemplateSpecialization (SourceLocation PointOfInstantiation, ClassTemplateSpecializationDecl *ClassTemplateSpec, TemplateSpecializationKind TSK, bool Complain=true)
 
void InstantiateClassMembers (SourceLocation PointOfInstantiation, CXXRecordDecl *Instantiation, const MultiLevelTemplateArgumentList &TemplateArgs, TemplateSpecializationKind TSK)
 Instantiates the definitions of all of the member of the given class, which is an instantiation of a class template or a member class of a template. More...
 
void InstantiateClassTemplateSpecializationMembers (SourceLocation PointOfInstantiation, ClassTemplateSpecializationDecl *ClassTemplateSpec, TemplateSpecializationKind TSK)
 Instantiate the definitions of all of the members of the given class template specialization, which was named as part of an explicit instantiation. More...
 
NestedNameSpecifierLoc SubstNestedNameSpecifierLoc (NestedNameSpecifierLoc NNS, const MultiLevelTemplateArgumentList &TemplateArgs)
 
DeclarationNameInfo SubstDeclarationNameInfo (const DeclarationNameInfo &NameInfo, const MultiLevelTemplateArgumentList &TemplateArgs)
 Do template substitution on declaration name info. More...
 
TemplateName SubstTemplateName (NestedNameSpecifierLoc QualifierLoc, TemplateName Name, SourceLocation Loc, const MultiLevelTemplateArgumentList &TemplateArgs)
 
bool Subst (const TemplateArgumentLoc *Args, unsigned NumArgs, TemplateArgumentListInfo &Result, const MultiLevelTemplateArgumentList &TemplateArgs)
 
void InstantiateExceptionSpec (SourceLocation PointOfInstantiation, FunctionDecl *Function)
 
FunctionDeclInstantiateFunctionDeclaration (FunctionTemplateDecl *FTD, const TemplateArgumentList *Args, SourceLocation Loc)
 Instantiate (or find existing instantiation of) a function template with a given set of template arguments. More...
 
void InstantiateFunctionDefinition (SourceLocation PointOfInstantiation, FunctionDecl *Function, bool Recursive=false, bool DefinitionRequired=false, bool AtEndOfTU=false)
 Instantiate the definition of the given function from its template. More...
 
VarTemplateSpecializationDeclBuildVarTemplateInstantiation (VarTemplateDecl *VarTemplate, VarDecl *FromVar, const TemplateArgumentList &TemplateArgList, const TemplateArgumentListInfo &TemplateArgsInfo, SmallVectorImpl< TemplateArgument > &Converted, SourceLocation PointOfInstantiation, void *InsertPos, LateInstantiatedAttrVec *LateAttrs=nullptr, LocalInstantiationScope *StartingScope=nullptr)
 
VarTemplateSpecializationDeclCompleteVarTemplateSpecializationDecl (VarTemplateSpecializationDecl *VarSpec, VarDecl *PatternDecl, const MultiLevelTemplateArgumentList &TemplateArgs)
 Instantiates a variable template specialization by completing it with appropriate type information and initializer. More...
 
void BuildVariableInstantiation (VarDecl *NewVar, VarDecl *OldVar, const MultiLevelTemplateArgumentList &TemplateArgs, LateInstantiatedAttrVec *LateAttrs, DeclContext *Owner, LocalInstantiationScope *StartingScope, bool InstantiatingVarTemplate=false)
 BuildVariableInstantiation - Used after a new variable has been created. More...
 
void InstantiateVariableInitializer (VarDecl *Var, VarDecl *OldVar, const MultiLevelTemplateArgumentList &TemplateArgs)
 Instantiate the initializer of a variable. More...
 
void InstantiateVariableDefinition (SourceLocation PointOfInstantiation, VarDecl *Var, bool Recursive=false, bool DefinitionRequired=false, bool AtEndOfTU=false)
 Instantiate the definition of the given variable from its template. More...
 
void InstantiateMemInitializers (CXXConstructorDecl *New, const CXXConstructorDecl *Tmpl, const MultiLevelTemplateArgumentList &TemplateArgs)
 
NamedDeclFindInstantiatedDecl (SourceLocation Loc, NamedDecl *D, const MultiLevelTemplateArgumentList &TemplateArgs, bool FindingInstantiatedContext=false)
 Find the instantiation of the given declaration within the current instantiation. More...
 
DeclContextFindInstantiatedContext (SourceLocation Loc, DeclContext *DC, const MultiLevelTemplateArgumentList &TemplateArgs)
 Finds the instantiation of the given declaration context within the current instantiation. More...
 
ObjCContainerKind getObjCContainerKind () const
 
DeclResult actOnObjCTypeParam (Scope *S, ObjCTypeParamVariance variance, SourceLocation varianceLoc, unsigned index, IdentifierInfo *paramName, SourceLocation paramLoc, SourceLocation colonLoc, ParsedType typeBound)
 
ObjCTypeParamListactOnObjCTypeParamList (Scope *S, SourceLocation lAngleLoc, ArrayRef< Decl *> typeParams, SourceLocation rAngleLoc)
 
void popObjCTypeParamList (Scope *S, ObjCTypeParamList *typeParamList)
 
DeclActOnStartClassInterface (Scope *S, SourceLocation AtInterfaceLoc, IdentifierInfo *ClassName, SourceLocation ClassLoc, ObjCTypeParamList *typeParamList, IdentifierInfo *SuperName, SourceLocation SuperLoc, ArrayRef< ParsedType > SuperTypeArgs, SourceRange SuperTypeArgsRange, Decl *const *ProtoRefs, unsigned NumProtoRefs, const SourceLocation *ProtoLocs, SourceLocation EndProtoLoc, const ParsedAttributesView &AttrList)
 
void ActOnSuperClassOfClassInterface (Scope *S, SourceLocation AtInterfaceLoc, ObjCInterfaceDecl *IDecl, IdentifierInfo *ClassName, SourceLocation ClassLoc, IdentifierInfo *SuperName, SourceLocation SuperLoc, ArrayRef< ParsedType > SuperTypeArgs, SourceRange SuperTypeArgsRange)
 
void ActOnTypedefedProtocols (SmallVectorImpl< Decl *> &ProtocolRefs, SmallVectorImpl< SourceLocation > &ProtocolLocs, IdentifierInfo *SuperName, SourceLocation SuperLoc)
 ActOnTypedefedProtocols - this action finds protocol list as part of the typedef'ed use for a qualified super class and adds them to the list of the protocols. More...
 
DeclActOnCompatibilityAlias (SourceLocation AtCompatibilityAliasLoc, IdentifierInfo *AliasName, SourceLocation AliasLocation, IdentifierInfo *ClassName, SourceLocation ClassLocation)
 ActOnCompatibilityAlias - this action is called after complete parsing of a @compatibility_alias declaration. More...
 
bool CheckForwardProtocolDeclarationForCircularDependency (IdentifierInfo *PName, SourceLocation &PLoc, SourceLocation PrevLoc, const ObjCList< ObjCProtocolDecl > &PList)
 
DeclActOnStartProtocolInterface (SourceLocation AtProtoInterfaceLoc, IdentifierInfo *ProtocolName, SourceLocation ProtocolLoc, Decl *const *ProtoRefNames, unsigned NumProtoRefs, const SourceLocation *ProtoLocs, SourceLocation EndProtoLoc, const ParsedAttributesView &AttrList)
 
DeclActOnStartCategoryInterface (SourceLocation AtInterfaceLoc, IdentifierInfo *ClassName, SourceLocation ClassLoc, ObjCTypeParamList *typeParamList, IdentifierInfo *CategoryName, SourceLocation CategoryLoc, Decl *const *ProtoRefs, unsigned NumProtoRefs, const SourceLocation *ProtoLocs, SourceLocation EndProtoLoc, const ParsedAttributesView &AttrList)
 
DeclActOnStartClassImplementation (SourceLocation AtClassImplLoc, IdentifierInfo *ClassName, SourceLocation ClassLoc, IdentifierInfo *SuperClassname, SourceLocation SuperClassLoc)
 
DeclActOnStartCategoryImplementation (SourceLocation AtCatImplLoc, IdentifierInfo *ClassName, SourceLocation ClassLoc, IdentifierInfo *CatName, SourceLocation CatLoc)
 ActOnStartCategoryImplementation - Perform semantic checks on the category implementation declaration and build an ObjCCategoryImplDecl object. More...
 
DeclGroupPtrTy ActOnFinishObjCImplementation (Decl *ObjCImpDecl, ArrayRef< Decl *> Decls)
 
DeclGroupPtrTy ActOnForwardClassDeclaration (SourceLocation Loc, IdentifierInfo **IdentList, SourceLocation *IdentLocs, ArrayRef< ObjCTypeParamList *> TypeParamLists, unsigned NumElts)
 
DeclGroupPtrTy ActOnForwardProtocolDeclaration (SourceLocation AtProtoclLoc, ArrayRef< IdentifierLocPair > IdentList, const ParsedAttributesView &attrList)
 ActOnForwardProtocolDeclaration - Handle @protocol foo;. More...
 
void FindProtocolDeclaration (bool WarnOnDeclarations, bool ForObjCContainer, ArrayRef< IdentifierLocPair > ProtocolId, SmallVectorImpl< Decl *> &Protocols)
 FindProtocolDeclaration - This routine looks up protocols and issues an error if they are not declared. More...
 
void DiagnoseTypeArgsAndProtocols (IdentifierInfo *ProtocolId, SourceLocation ProtocolLoc, IdentifierInfo *TypeArgId, SourceLocation TypeArgLoc, bool SelectProtocolFirst=false)
 
void actOnObjCTypeArgsOrProtocolQualifiers (Scope *S, ParsedType baseType, SourceLocation lAngleLoc, ArrayRef< IdentifierInfo *> identifiers, ArrayRef< SourceLocation > identifierLocs, SourceLocation rAngleLoc, SourceLocation &typeArgsLAngleLoc, SmallVectorImpl< ParsedType > &typeArgs, SourceLocation &typeArgsRAngleLoc, SourceLocation &protocolLAngleLoc, SmallVectorImpl< Decl *> &protocols, SourceLocation &protocolRAngleLoc, bool warnOnIncompleteProtocols)
 Given a list of identifiers (and their locations), resolve the names to either Objective-C protocol qualifiers or type arguments, as appropriate. More...
 
TypeResult actOnObjCProtocolQualifierType (SourceLocation lAngleLoc, ArrayRef< Decl *> protocols, ArrayRef< SourceLocation > protocolLocs, SourceLocation rAngleLoc)
 Build a an Objective-C protocol-qualified 'id' type where no base type was specified. More...
 
TypeResult actOnObjCTypeArgsAndProtocolQualifiers (Scope *S, SourceLocation Loc, ParsedType BaseType, SourceLocation TypeArgsLAngleLoc, ArrayRef< ParsedType > TypeArgs, SourceLocation TypeArgsRAngleLoc, SourceLocation ProtocolLAngleLoc, ArrayRef< Decl *> Protocols, ArrayRef< SourceLocation > ProtocolLocs, SourceLocation ProtocolRAngleLoc)
 Build a specialized and/or protocol-qualified Objective-C type. More...
 
QualType BuildObjCTypeParamType (const ObjCTypeParamDecl *Decl, SourceLocation ProtocolLAngleLoc, ArrayRef< ObjCProtocolDecl *> Protocols, ArrayRef< SourceLocation > ProtocolLocs, SourceLocation ProtocolRAngleLoc, bool FailOnError=false)
 Build an Objective-C type parameter type. More...
 
QualType BuildObjCObjectType (QualType BaseType, SourceLocation Loc, SourceLocation TypeArgsLAngleLoc, ArrayRef< TypeSourceInfo *> TypeArgs, SourceLocation TypeArgsRAngleLoc, SourceLocation ProtocolLAngleLoc, ArrayRef< ObjCProtocolDecl *> Protocols, ArrayRef< SourceLocation > ProtocolLocs, SourceLocation ProtocolRAngleLoc, bool FailOnError=false)
 Build an Objective-C object pointer type. More...
 
bool checkObjCKindOfType (QualType &type, SourceLocation loc)
 Check the application of the Objective-C '__kindof' qualifier to the given type. More...
 
void CheckObjCPropertyAttributes (Decl *PropertyPtrTy, SourceLocation Loc, unsigned &Attributes, bool propertyInPrimaryClass)
 Ensure attributes are consistent with type. More...
 
void ProcessPropertyDecl (ObjCPropertyDecl *property)
 Process the specified property declaration and create decls for the setters and getters as needed. More...
 
void DiagnosePropertyMismatch (ObjCPropertyDecl *Property, ObjCPropertyDecl *SuperProperty, const IdentifierInfo *Name, bool OverridingProtocolProperty)
 DiagnosePropertyMismatch - Compares two properties for their attributes and types and warns on a variety of inconsistencies. More...
 
void DiagnoseClassExtensionDupMethods (ObjCCategoryDecl *CAT, ObjCInterfaceDecl *ID)
 DiagnoseClassExtensionDupMethods - Check for duplicate declaration of a class method in its extension. More...
 
DeclActOnAtEnd (Scope *S, SourceRange AtEnd, ArrayRef< Decl *> allMethods=None, ArrayRef< DeclGroupPtrTy > allTUVars=None)
 
DeclActOnProperty (Scope *S, SourceLocation AtLoc, SourceLocation LParenLoc, FieldDeclarator &FD, ObjCDeclSpec &ODS, Selector GetterSel, Selector SetterSel, tok::ObjCKeywordKind MethodImplKind, DeclContext *lexicalDC=nullptr)
 
DeclActOnPropertyImplDecl (Scope *S, SourceLocation AtLoc, SourceLocation PropertyLoc, bool ImplKind, IdentifierInfo *PropertyId, IdentifierInfo *PropertyIvar, SourceLocation PropertyIvarLoc, ObjCPropertyQueryKind QueryKind)
 ActOnPropertyImplDecl - This routine performs semantic checks and builds the AST node for a property implementation declaration; declared as @synthesize or @dynamic. More...
 
DeclActOnMethodDeclaration (Scope *S, SourceLocation BeginLoc, SourceLocation EndLoc, tok::TokenKind MethodType, ObjCDeclSpec &ReturnQT, ParsedType ReturnType, ArrayRef< SourceLocation > SelectorLocs, Selector Sel, ObjCArgInfo *ArgInfo, DeclaratorChunk::ParamInfo *CParamInfo, unsigned CNumArgs, const ParsedAttributesView &AttrList, tok::ObjCKeywordKind MethodImplKind, bool isVariadic, bool MethodDefinition)
 
bool CheckARCMethodDecl (ObjCMethodDecl *method)
 Check a method declaration for compatibility with the Objective-C ARC conventions. More...
 
bool inferObjCARCLifetime (ValueDecl *decl)
 
bool ConversionToObjCStringLiteralCheck (QualType DstType, Expr *&SrcExpr, bool Diagnose=true)
 
bool checkInitMethod (ObjCMethodDecl *method, QualType receiverTypeIfCall)
 Check whether the given method, which must be in the 'init' family, is a valid member of that family. More...
 
void CheckObjCMethodOverride (ObjCMethodDecl *NewMethod, const ObjCMethodDecl *Overridden)
 Check whether the given new method is a valid override of the given overridden method, and set any properties that should be inherited. More...
 
void CheckObjCMethodOverrides (ObjCMethodDecl *ObjCMethod, ObjCInterfaceDecl *CurrentClass, ResultTypeCompatibilityKind RTC)
 
void ActOnPragmaClangSection (SourceLocation PragmaLoc, PragmaClangSectionAction Action, PragmaClangSectionKind SecKind, StringRef SecName)
 ActOnPragmaClangSection - Called on well formed #pragma clang section. More...
 
void ActOnPragmaOptionsAlign (PragmaOptionsAlignKind Kind, SourceLocation PragmaLoc)
 ActOnPragmaOptionsAlign - Called on well formed #pragma options align. More...
 
void ActOnPragmaPack (SourceLocation PragmaLoc, PragmaMsStackAction Action, StringRef SlotLabel, Expr *Alignment)
 ActOnPragmaPack - Called on well formed #pragma pack(...). More...
 
void DiagnoseNonDefaultPragmaPack (PragmaPackDiagnoseKind Kind, SourceLocation IncludeLoc)
 
void DiagnoseUnterminatedPragmaPack ()
 
void ActOnPragmaMSStruct (PragmaMSStructKind Kind)
 ActOnPragmaMSStruct - Called on well formed #pragma ms_struct [on|off]. More...
 
void ActOnPragmaMSComment (SourceLocation CommentLoc, PragmaMSCommentKind Kind, StringRef Arg)
 ActOnPragmaMSComment - Called on well formed #pragma comment(kind, "arg"). More...
 
void ActOnPragmaMSPointersToMembers (LangOptions::PragmaMSPointersToMembersKind Kind, SourceLocation PragmaLoc)
 ActOnPragmaMSPointersToMembers - called on well formed #pragma pointers_to_members(representation method[, general purpose representation]). More...
 
void ActOnPragmaMSVtorDisp (PragmaMsStackAction Action, SourceLocation PragmaLoc, MSVtorDispAttr::Mode Value)
 Called on well formed #pragma vtordisp(). More...
 
bool UnifySection (StringRef SectionName, int SectionFlags, DeclaratorDecl *TheDecl)
 
bool UnifySection (StringRef SectionName, int SectionFlags, SourceLocation PragmaSectionLocation)
 
void ActOnPragmaMSSeg (SourceLocation PragmaLocation, PragmaMsStackAction Action, llvm::StringRef StackSlotLabel, StringLiteral *SegmentName, llvm::StringRef PragmaName)
 Called on well formed #pragma bss_seg/data_seg/const_seg/code_seg. More...
 
void ActOnPragmaMSSection (SourceLocation PragmaLocation, int SectionFlags, StringLiteral *SegmentName)
 Called on well formed #pragma section(). More...
 
void ActOnPragmaMSInitSeg (SourceLocation PragmaLocation, StringLiteral *SegmentName)
 Called on well-formed #pragma init_seg(). More...
 
void ActOnPragmaDump (Scope *S, SourceLocation Loc, IdentifierInfo *II)
 Called on #pragma clang __debug dump II. More...
 
void ActOnPragmaDetectMismatch (SourceLocation Loc, StringRef Name, StringRef Value)
 ActOnPragmaDetectMismatch - Call on well-formed #pragma detect_mismatch. More...
 
void ActOnPragmaUnused (const Token &Identifier, Scope *curScope, SourceLocation PragmaLoc)
 ActOnPragmaUnused - Called on well-formed '#pragma unused'. More...
 
void ActOnPragmaVisibility (const IdentifierInfo *VisType, SourceLocation PragmaLoc)
 ActOnPragmaVisibility - Called on well formed #pragma GCC visibility... . More...
 
NamedDeclDeclClonePragmaWeak (NamedDecl *ND, IdentifierInfo *II, SourceLocation Loc)
 DeclClonePragmaWeak - clone existing decl (maybe definition), #pragma weak needs a non-definition decl and source may not have one. More...
 
void DeclApplyPragmaWeak (Scope *S, NamedDecl *ND, WeakInfo &W)
 DeclApplyPragmaWeak - A declaration (maybe definition) needs #pragma weak applied to it, possibly with an alias. More...
 
void ActOnPragmaWeakID (IdentifierInfo *WeakName, SourceLocation PragmaLoc, SourceLocation WeakNameLoc)
 ActOnPragmaWeakID - Called on well formed #pragma weak ident. More...
 
void ActOnPragmaRedefineExtname (IdentifierInfo *WeakName, IdentifierInfo *AliasName, SourceLocation PragmaLoc, SourceLocation WeakNameLoc, SourceLocation AliasNameLoc)
 ActOnPragmaRedefineExtname - Called on well formed #pragma redefine_extname oldname newname. More...
 
void ActOnPragmaWeakAlias (IdentifierInfo *WeakName, IdentifierInfo *AliasName, SourceLocation PragmaLoc, SourceLocation WeakNameLoc, SourceLocation AliasNameLoc)
 ActOnPragmaWeakAlias - Called on well formed #pragma weak ident = ident. More...
 
void ActOnPragmaFPContract (LangOptions::FPContractModeKind FPC)
 ActOnPragmaFPContract - Called on well formed #pragma {STDC,OPENCL} FP_CONTRACT and #pragma clang fp contract. More...
 
void AddAlignmentAttributesForRecord (RecordDecl *RD)
 AddAlignmentAttributesForRecord - Adds any needed alignment attributes to a the record decl, to handle '#pragma pack' and '#pragma options align'. More...
 
void AddMsStructLayoutForRecord (RecordDecl *RD)
 AddMsStructLayoutForRecord - Adds ms_struct layout attribute to record. More...
 
void FreePackedContext ()
 FreePackedContext - Deallocate and null out PackContext. More...
 
void PushNamespaceVisibilityAttr (const VisibilityAttr *Attr, SourceLocation Loc)
 PushNamespaceVisibilityAttr - Note that we've entered a namespace with a visibility attribute. More...
 
void AddPushedVisibilityAttribute (Decl *RD)
 AddPushedVisibilityAttribute - If '#pragma GCC visibility' was used, add an appropriate visibility attribute. More...
 
void PopPragmaVisibility (bool IsNamespaceEnd, SourceLocation EndLoc)
 PopPragmaVisibility - Pop the top element of the visibility stack; used for '#pragma GCC visibility' and visibility attributes on namespaces. More...
 
void FreeVisContext ()
 FreeVisContext - Deallocate and null out VisContext. More...
 
void AddCFAuditedAttribute (Decl *D)
 AddCFAuditedAttribute - Check whether we're currently within '#pragma clang arc_cf_code_audited' and, if so, consider adding the appropriate attribute. More...
 
void ActOnPragmaAttributePush (ParsedAttr &Attribute, SourceLocation PragmaLoc, attr::ParsedSubjectMatchRuleSet Rules)
 Called on well-formed '#pragma clang attribute push'. More...
 
void ActOnPragmaAttributePop (SourceLocation PragmaLoc)
 Called on well-formed '#pragma clang attribute pop'. More...
 
void AddPragmaAttributes (Scope *S, Decl *D)
 Adds the attributes that have been specified using the '#pragma clang attribute push' directives to the given declaration. More...
 
void DiagnoseUnterminatedPragmaAttribute ()
 
void ActOnPragmaOptimize (bool On, SourceLocation PragmaLoc)
 Called on well formed #pragma clang optimize. More...
 
SourceLocation getOptimizeOffPragmaLocation () const
 Get the location for the currently active "\#pragma clang optimize off". If this location is invalid, then the state of the pragma is "on". More...
 
void AddRangeBasedOptnone (FunctionDecl *FD)
 Only called on function definitions; if there is a pragma in scope with the effect of a range-based optnone, consider marking the function with attribute optnone. More...
 
void AddOptnoneAttributeIfNoConflicts (FunctionDecl *FD, SourceLocation Loc)
 Adds the 'optnone' attribute to the function declaration if there are no conflicts; Loc represents the location causing the 'optnone' attribute to be added (usually because of a pragma). More...
 
void AddAlignedAttr (SourceRange AttrRange, Decl *D, Expr *E, unsigned SpellingListIndex, bool IsPackExpansion)
 AddAlignedAttr - Adds an aligned attribute to a particular declaration. More...
 
void AddAlignedAttr (SourceRange AttrRange, Decl *D, TypeSourceInfo *T, unsigned SpellingListIndex, bool IsPackExpansion)
 
void AddAssumeAlignedAttr (SourceRange AttrRange, Decl *D, Expr *E, Expr *OE, unsigned SpellingListIndex)
 AddAssumeAlignedAttr - Adds an assume_aligned attribute to a particular declaration. More...
 
void AddAllocAlignAttr (SourceRange AttrRange, Decl *D, Expr *ParamExpr, unsigned SpellingListIndex)
 AddAllocAlignAttr - Adds an alloc_align attribute to a particular declaration. More...
 
void AddAlignValueAttr (SourceRange AttrRange, Decl *D, Expr *E, unsigned SpellingListIndex)
 AddAlignValueAttr - Adds an align_value attribute to a particular declaration. More...
 
void AddLaunchBoundsAttr (SourceRange AttrRange, Decl *D, Expr *MaxThreads, Expr *MinBlocks, unsigned SpellingListIndex)
 AddLaunchBoundsAttr - Adds a launch_bounds attribute to a particular declaration. More...
 
void AddModeAttr (SourceRange AttrRange, Decl *D, IdentifierInfo *Name, unsigned SpellingListIndex, bool InInstantiation=false)
 AddModeAttr - Adds a mode attribute to a particular declaration. More...
 
void AddParameterABIAttr (SourceRange AttrRange, Decl *D, ParameterABI ABI, unsigned SpellingListIndex)
 
void AddNSConsumedAttr (SourceRange AttrRange, Decl *D, unsigned SpellingListIndex, bool isNSConsumed, bool isTemplateInstantiation)
 
bool checkNSReturnsRetainedReturnType (SourceLocation loc, QualType type)
 
bool ActOnCoroutineBodyStart (Scope *S, SourceLocation KwLoc, StringRef Keyword)
 
ExprResult ActOnCoawaitExpr (Scope *S, SourceLocation KwLoc, Expr *E)
 
ExprResult ActOnCoyieldExpr (Scope *S, SourceLocation KwLoc, Expr *E)
 
StmtResult ActOnCoreturnStmt (Scope *S, SourceLocation KwLoc, Expr *E)
 
ExprResult BuildResolvedCoawaitExpr (SourceLocation KwLoc, Expr *E, bool IsImplicit=false)
 
ExprResult BuildUnresolvedCoawaitExpr (SourceLocation KwLoc, Expr *E, UnresolvedLookupExpr *Lookup)
 
ExprResult BuildCoyieldExpr (SourceLocation KwLoc, Expr *E)
 
StmtResult BuildCoreturnStmt (SourceLocation KwLoc, Expr *E, bool IsImplicit=false)
 
StmtResult BuildCoroutineBodyStmt (CoroutineBodyStmt::CtorArgs)
 
bool buildCoroutineParameterMoves (SourceLocation Loc)
 
VarDeclbuildCoroutinePromise (SourceLocation Loc)
 
void CheckCompletedCoroutineBody (FunctionDecl *FD, Stmt *&Body)
 
ClassTemplateDecllookupCoroutineTraits (SourceLocation KwLoc, SourceLocation FuncLoc)
 
llvm::StringRef getCurrentOpenCLExtension () const
 
void setCurrentOpenCLExtension (llvm::StringRef Ext)
 
void setOpenCLExtensionForType (QualType T, llvm::StringRef Exts)
 Set OpenCL extensions for a type which can only be used when these OpenCL extensions are enabled. More...
 
void setOpenCLExtensionForDecl (Decl *FD, llvm::StringRef Exts)
 Set OpenCL extensions for a declaration which can only be used when these OpenCL extensions are enabled. More...
 
void setCurrentOpenCLExtensionForType (QualType T)
 Set current OpenCL extensions for a type which can only be used when these OpenCL extensions are enabled. More...
 
void setCurrentOpenCLExtensionForDecl (Decl *FD)
 Set current OpenCL extensions for a declaration which can only be used when these OpenCL extensions are enabled. More...
 
bool isOpenCLDisabledDecl (Decl *FD)
 
bool checkOpenCLDisabledTypeDeclSpec (const DeclSpec &DS, QualType T)
 Check if type T corresponding to declaration specifier DS is disabled due to required OpenCL extensions being disabled. More...
 
bool checkOpenCLDisabledDecl (const NamedDecl &D, const Expr &E)
 Check if declaration D used by expression E is disabled due to required OpenCL extensions being disabled. More...
 
bool isOpenMPCapturedByRef (const ValueDecl *D, unsigned Level) const
 Return true if the provided declaration VD should be captured by reference. More...
 
VarDeclisOpenMPCapturedDecl (ValueDecl *D) const
 Check if the specified variable is used in one of the private clauses (private, firstprivate, lastprivate, reduction etc.) in OpenMP constructs. More...
 
ExprResult getOpenMPCapturedExpr (VarDecl *Capture, ExprValueKind VK, ExprObjectKind OK, SourceLocation Loc)
 
bool isOpenMPPrivateDecl (const ValueDecl *D, unsigned Level) const
 Check if the specified variable is used in 'private' clause. More...
 
void setOpenMPCaptureKind (FieldDecl *FD, const ValueDecl *D, unsigned Level)
 Sets OpenMP capture kind (OMPC_private, OMPC_firstprivate, OMPC_map etc.) for FD based on DSA for the provided corresponding captured declaration D. More...
 
bool isOpenMPTargetCapturedDecl (const ValueDecl *D, unsigned Level) const
 Check if the specified variable is captured by 'target' directive. More...
 
ExprResult PerformOpenMPImplicitIntegerConversion (SourceLocation OpLoc, Expr *Op)
 
void StartOpenMPDSABlock (OpenMPDirectiveKind K, const DeclarationNameInfo &DirName, Scope *CurScope, SourceLocation Loc)
 Called on start of new data sharing attribute block. More...
 
void StartOpenMPClause (OpenMPClauseKind K)
 Start analysis of clauses. More...
 
void EndOpenMPClause ()
 End analysis of clauses. More...
 
void EndOpenMPDSABlock (Stmt *CurDirective)
 Called on end of data sharing attribute block. More...
 
void ActOnOpenMPLoopInitialization (SourceLocation ForLoc, Stmt *Init)
 Check if the current region is an OpenMP loop region and if it is, mark loop control variable, used in Init for loop initialization, as private by default. More...
 
ExprResult ActOnOpenMPIdExpression (Scope *CurScope, CXXScopeSpec &ScopeSpec, const DeclarationNameInfo &Id)
 Called on correct id-expression from the '#pragma omp threadprivate'. More...
 
DeclGroupPtrTy ActOnOpenMPThreadprivateDirective (SourceLocation Loc, ArrayRef< Expr *> VarList)
 Called on well-formed '#pragma omp threadprivate'. More...
 
OMPThreadPrivateDeclCheckOMPThreadPrivateDecl (SourceLocation Loc, ArrayRef< Expr *> VarList)
 Builds a new OpenMPThreadPrivateDecl and checks its correctness. More...
 
QualType ActOnOpenMPDeclareReductionType (SourceLocation TyLoc, TypeResult ParsedType)
 Check if the specified type is allowed to be used in 'omp declare reduction' construct. More...
 
DeclGroupPtrTy ActOnOpenMPDeclareReductionDirectiveStart (Scope *S, DeclContext *DC, DeclarationName Name, ArrayRef< std::pair< QualType, SourceLocation >> ReductionTypes, AccessSpecifier AS, Decl *PrevDeclInScope=nullptr)
 Called on start of '#pragma omp declare reduction'. More...
 
void ActOnOpenMPDeclareReductionCombinerStart (Scope *S, Decl *D)
 Initialize declare reduction construct initializer. More...
 
void ActOnOpenMPDeclareReductionCombinerEnd (Decl *D, Expr *Combiner)
 Finish current declare reduction construct initializer. More...
 
VarDeclActOnOpenMPDeclareReductionInitializerStart (Scope *S, Decl *D)
 Initialize declare reduction construct initializer. More...
 
void ActOnOpenMPDeclareReductionInitializerEnd (Decl *D, Expr *Initializer, VarDecl *OmpPrivParm)
 Finish current declare reduction construct initializer. More...
 
DeclGroupPtrTy ActOnOpenMPDeclareReductionDirectiveEnd (Scope *S, DeclGroupPtrTy DeclReductions, bool IsValid)
 Called at the end of '#pragma omp declare reduction'. More...
 
bool ActOnStartOpenMPDeclareTargetDirective (SourceLocation Loc)
 Called on the start of target region i.e. '#pragma omp declare target'. More...
 
void ActOnFinishOpenMPDeclareTargetDirective ()
 Called at the end of target region i.e. '#pragme omp end declare target'. More...
 
void ActOnOpenMPDeclareTargetName (Scope *CurScope, CXXScopeSpec &ScopeSpec, const DeclarationNameInfo &Id, OMPDeclareTargetDeclAttr::MapTypeTy MT, NamedDeclSetType &SameDirectiveDecls)
 Called on correct id-expression from the '#pragma omp declare target'. More...
 
void checkDeclIsAllowedInOpenMPTarget (Expr *E, Decl *D, SourceLocation IdLoc=SourceLocation())
 Check declaration inside target region. More...
 
bool isInOpenMPDeclareTargetContext () const
 Return true inside OpenMP declare target region. More...
 
bool isInOpenMPTargetExecutionDirective () const
 Return true inside OpenMP target region. More...
 
bool shouldDiagnoseTargetSupportFromOpenMP () const
 Return true if (un)supported features for the current target should be diagnosed if OpenMP (offloading) is enabled. More...
 
void ActOnOpenMPRegionStart (OpenMPDirectiveKind DKind, Scope *CurScope)
 Initialization of captured region for OpenMP region. More...
 
StmtResult ActOnOpenMPRegionEnd (StmtResult S, ArrayRef< OMPClause *> Clauses)
 End of OpenMP region. More...
 
StmtResult ActOnOpenMPExecutableDirective (OpenMPDirectiveKind Kind, const DeclarationNameInfo &DirName, OpenMPDirectiveKind CancelRegion, ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 
StmtResult ActOnOpenMPParallelDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp parallel' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPSectionsDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp sections' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPSectionDirective (Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp section' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPSingleDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp single' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPMasterDirective (Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp master' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPCriticalDirective (const DeclarationNameInfo &DirName, ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp critical' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPParallelForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp parallel for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPParallelForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp parallel for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPParallelSectionsDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp parallel sections' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTaskDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp task' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTaskyieldDirective (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp taskyield'. More...
 
StmtResult ActOnOpenMPBarrierDirective (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp barrier'. More...
 
StmtResult ActOnOpenMPTaskwaitDirective (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp taskwait'. More...
 
StmtResult ActOnOpenMPTaskgroupDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp taskgroup'. More...
 
StmtResult ActOnOpenMPFlushDirective (ArrayRef< OMPClause *> Clauses, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp flush'. More...
 
StmtResult ActOnOpenMPOrderedDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp ordered' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPAtomicDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp atomic' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp target' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetDataDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp target data' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetEnterDataDirective (ArrayRef< OMPClause *> Clauses, SourceLocation StartLoc, SourceLocation EndLoc, Stmt *AStmt)
 Called on well-formed '#pragma omp target enter data' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetExitDataDirective (ArrayRef< OMPClause *> Clauses, SourceLocation StartLoc, SourceLocation EndLoc, Stmt *AStmt)
 Called on well-formed '#pragma omp target exit data' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetParallelDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp target parallel' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetParallelForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target parallel for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTeamsDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp teams' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPCancellationPointDirective (SourceLocation StartLoc, SourceLocation EndLoc, OpenMPDirectiveKind CancelRegion)
 Called on well-formed '#pragma omp cancellation point'. More...
 
StmtResult ActOnOpenMPCancelDirective (ArrayRef< OMPClause *> Clauses, SourceLocation StartLoc, SourceLocation EndLoc, OpenMPDirectiveKind CancelRegion)
 Called on well-formed '#pragma omp cancel'. More...
 
StmtResult ActOnOpenMPTaskLoopDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp taskloop' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTaskLoopSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp taskloop simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPDistributeDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp distribute' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetUpdateDirective (ArrayRef< OMPClause *> Clauses, SourceLocation StartLoc, SourceLocation EndLoc, Stmt *AStmt)
 Called on well-formed '#pragma omp target update'. More...
 
StmtResult ActOnOpenMPDistributeParallelForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp distribute parallel for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPDistributeParallelForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp distribute parallel for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPDistributeSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp distribute simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetParallelForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target parallel for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTeamsDistributeDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp teams distribute' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTeamsDistributeSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp teams distribute simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTeamsDistributeParallelForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp teams distribute parallel for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTeamsDistributeParallelForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp teams distribute parallel for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetTeamsDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed '#pragma omp target teams' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetTeamsDistributeDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target teams distribute' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetTeamsDistributeParallelForDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target teams distribute parallel for' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetTeamsDistributeParallelForSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target teams distribute parallel for simd' after parsing of the associated statement. More...
 
StmtResult ActOnOpenMPTargetTeamsDistributeSimdDirective (ArrayRef< OMPClause *> Clauses, Stmt *AStmt, SourceLocation StartLoc, SourceLocation EndLoc, VarsWithInheritedDSAType &VarsWithImplicitDSA)
 Called on well-formed '#pragma omp target teams distribute simd' after parsing of the associated statement. More...
 
bool CheckOpenMPLinearModifier (OpenMPLinearClauseKind LinKind, SourceLocation LinLoc)
 Checks correctness of linear modifiers. More...
 
bool CheckOpenMPLinearDecl (const ValueDecl *D, SourceLocation ELoc, OpenMPLinearClauseKind LinKind, QualType Type)
 Checks that the specified declaration matches requirements for the linear decls. More...
 
DeclGroupPtrTy ActOnOpenMPDeclareSimdDirective (DeclGroupPtrTy DG, OMPDeclareSimdDeclAttr::BranchStateTy BS, Expr *Simdlen, ArrayRef< Expr *> Uniforms, ArrayRef< Expr *> Aligneds, ArrayRef< Expr *> Alignments, ArrayRef< Expr *> Linears, ArrayRef< unsigned > LinModifiers, ArrayRef< Expr *> Steps, SourceRange SR)
 Called on well-formed '#pragma omp declare simd' after parsing of the associated method/function. More...
 
OMPClauseActOnOpenMPSingleExprClause (OpenMPClauseKind Kind, Expr *Expr, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 
OMPClauseActOnOpenMPIfClause (OpenMPDirectiveKind NameModifier, Expr *Condition, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation NameModifierLoc, SourceLocation ColonLoc, SourceLocation EndLoc)
 Called on well-formed 'if' clause. More...
 
OMPClauseActOnOpenMPFinalClause (Expr *Condition, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'final' clause. More...
 
OMPClauseActOnOpenMPNumThreadsClause (Expr *NumThreads, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'num_threads' clause. More...
 
OMPClauseActOnOpenMPSafelenClause (Expr *Length, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'safelen' clause. More...
 
OMPClauseActOnOpenMPSimdlenClause (Expr *Length, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'simdlen' clause. More...
 
OMPClauseActOnOpenMPCollapseClause (Expr *NumForLoops, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'collapse' clause. More...
 
OMPClauseActOnOpenMPOrderedClause (SourceLocation StartLoc, SourceLocation EndLoc, SourceLocation LParenLoc=SourceLocation(), Expr *NumForLoops=nullptr)
 Called on well-formed 'ordered' clause. More...
 
OMPClauseActOnOpenMPGrainsizeClause (Expr *Size, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'grainsize' clause. More...
 
OMPClauseActOnOpenMPNumTasksClause (Expr *NumTasks, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'num_tasks' clause. More...
 
OMPClauseActOnOpenMPHintClause (Expr *Hint, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'hint' clause. More...
 
OMPClauseActOnOpenMPSimpleClause (OpenMPClauseKind Kind, unsigned Argument, SourceLocation ArgumentLoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 
OMPClauseActOnOpenMPDefaultClause (OpenMPDefaultClauseKind Kind, SourceLocation KindLoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'default' clause. More...
 
OMPClauseActOnOpenMPProcBindClause (OpenMPProcBindClauseKind Kind, SourceLocation KindLoc, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'proc_bind' clause. More...
 
OMPClauseActOnOpenMPSingleExprWithArgClause (OpenMPClauseKind Kind, ArrayRef< unsigned > Arguments, Expr *Expr, SourceLocation StartLoc, SourceLocation LParenLoc, ArrayRef< SourceLocation > ArgumentsLoc, SourceLocation DelimLoc, SourceLocation EndLoc)
 
OMPClauseActOnOpenMPScheduleClause (OpenMPScheduleClauseModifier M1, OpenMPScheduleClauseModifier M2, OpenMPScheduleClauseKind Kind, Expr *ChunkSize, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation M1Loc, SourceLocation M2Loc, SourceLocation KindLoc, SourceLocation CommaLoc, SourceLocation EndLoc)
 Called on well-formed 'schedule' clause. More...
 
OMPClauseActOnOpenMPClause (OpenMPClauseKind Kind, SourceLocation StartLoc, SourceLocation EndLoc)
 
OMPClauseActOnOpenMPNowaitClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'nowait' clause. More...
 
OMPClauseActOnOpenMPUntiedClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'untied' clause. More...
 
OMPClauseActOnOpenMPMergeableClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'mergeable' clause. More...
 
OMPClauseActOnOpenMPReadClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'read' clause. More...
 
OMPClauseActOnOpenMPWriteClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'write' clause. More...
 
OMPClauseActOnOpenMPUpdateClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'update' clause. More...
 
OMPClauseActOnOpenMPCaptureClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'capture' clause. More...
 
OMPClauseActOnOpenMPSeqCstClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'seq_cst' clause. More...
 
OMPClauseActOnOpenMPThreadsClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'threads' clause. More...
 
OMPClauseActOnOpenMPSIMDClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'simd' clause. More...
 
OMPClauseActOnOpenMPNogroupClause (SourceLocation StartLoc, SourceLocation EndLoc)
 Called on well-formed 'nogroup' clause. More...
 
OMPClauseActOnOpenMPVarListClause (OpenMPClauseKind Kind, ArrayRef< Expr *> Vars, Expr *TailExpr, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, CXXScopeSpec &ReductionIdScopeSpec, const DeclarationNameInfo &ReductionId, OpenMPDependClauseKind DepKind, OpenMPLinearClauseKind LinKind, OpenMPMapClauseKind MapTypeModifier, OpenMPMapClauseKind MapType, bool IsMapTypeImplicit, SourceLocation DepLinMapLoc)
 
OMPClauseActOnOpenMPPrivateClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'private' clause. More...
 
OMPClauseActOnOpenMPFirstprivateClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'firstprivate' clause. More...
 
OMPClauseActOnOpenMPLastprivateClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'lastprivate' clause. More...
 
OMPClauseActOnOpenMPSharedClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'shared' clause. More...
 
OMPClauseActOnOpenMPReductionClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, CXXScopeSpec &ReductionIdScopeSpec, const DeclarationNameInfo &ReductionId, ArrayRef< Expr *> UnresolvedReductions=llvm::None)
 Called on well-formed 'reduction' clause. More...
 
OMPClauseActOnOpenMPTaskReductionClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, CXXScopeSpec &ReductionIdScopeSpec, const DeclarationNameInfo &ReductionId, ArrayRef< Expr *> UnresolvedReductions=llvm::None)
 Called on well-formed 'task_reduction' clause. More...
 
OMPClauseActOnOpenMPInReductionClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc, CXXScopeSpec &ReductionIdScopeSpec, const DeclarationNameInfo &ReductionId, ArrayRef< Expr *> UnresolvedReductions=llvm::None)
 Called on well-formed 'in_reduction' clause. More...
 
OMPClauseActOnOpenMPLinearClause (ArrayRef< Expr *> VarList, Expr *Step, SourceLocation StartLoc, SourceLocation LParenLoc, OpenMPLinearClauseKind LinKind, SourceLocation LinLoc, SourceLocation ColonLoc, SourceLocation EndLoc)
 Called on well-formed 'linear' clause. More...
 
OMPClauseActOnOpenMPAlignedClause (ArrayRef< Expr *> VarList, Expr *Alignment, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation ColonLoc, SourceLocation EndLoc)
 Called on well-formed 'aligned' clause. More...
 
OMPClauseActOnOpenMPCopyinClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'copyin' clause. More...
 
OMPClauseActOnOpenMPCopyprivateClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'copyprivate' clause. More...
 
OMPClauseActOnOpenMPFlushClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'flush' pseudo clause. More...
 
OMPClauseActOnOpenMPDependClause (OpenMPDependClauseKind DepKind, SourceLocation DepLoc, SourceLocation ColonLoc, ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'depend' clause. More...
 
OMPClauseActOnOpenMPDeviceClause (Expr *Device, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'device' clause. More...
 
OMPClauseActOnOpenMPMapClause (OpenMPMapClauseKind MapTypeModifier, OpenMPMapClauseKind MapType, bool IsMapTypeImplicit, SourceLocation MapLoc, SourceLocation ColonLoc, ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'map' clause. More...
 
OMPClauseActOnOpenMPNumTeamsClause (Expr *NumTeams, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'num_teams' clause. More...
 
OMPClauseActOnOpenMPThreadLimitClause (Expr *ThreadLimit, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'thread_limit' clause. More...
 
OMPClauseActOnOpenMPPriorityClause (Expr *Priority, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'priority' clause. More...
 
OMPClauseActOnOpenMPDistScheduleClause (OpenMPDistScheduleClauseKind Kind, Expr *ChunkSize, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation KindLoc, SourceLocation CommaLoc, SourceLocation EndLoc)
 Called on well-formed 'dist_schedule' clause. More...
 
OMPClauseActOnOpenMPDefaultmapClause (OpenMPDefaultmapClauseModifier M, OpenMPDefaultmapClauseKind Kind, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation MLoc, SourceLocation KindLoc, SourceLocation EndLoc)
 Called on well-formed 'defaultmap' clause. More...
 
OMPClauseActOnOpenMPToClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'to' clause. More...
 
OMPClauseActOnOpenMPFromClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'from' clause. More...
 
OMPClauseActOnOpenMPUseDevicePtrClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'use_device_ptr' clause. More...
 
OMPClauseActOnOpenMPIsDevicePtrClause (ArrayRef< Expr *> VarList, SourceLocation StartLoc, SourceLocation LParenLoc, SourceLocation EndLoc)
 Called on well-formed 'is_device_ptr' clause. More...
 
ExprResult ImpCastExprToType (Expr *E, QualType Type, CastKind CK, ExprValueKind VK=VK_RValue, const CXXCastPath *BasePath=nullptr, CheckedConversionKind CCK=CCK_ImplicitConversion)
 ImpCastExprToType - If Expr is not of type 'Type', insert an implicit cast. More...
 
ExprResult IgnoredValueConversions (Expr *E)
 IgnoredValueConversions - Given that an expression's result is syntactically ignored, perform any conversions that are required. More...
 
ExprResult UsualUnaryConversions (Expr *E)
 UsualUnaryConversions - Performs various conversions that are common to most operators (C99 6.3). More...
 
ExprResult CallExprUnaryConversions (Expr *E)
 CallExprUnaryConversions - a special case of an unary conversion performed on a function designator of a call expression. More...
 
ExprResult DefaultFunctionArrayConversion (Expr *E, bool Diagnose=true)
 DefaultFunctionArrayConversion (C99 6.3.2.1p3, C99 6.3.2.1p4). More...
 
ExprResult DefaultFunctionArrayLvalueConversion (Expr *E, bool Diagnose=true)
 
ExprResult DefaultLvalueConversion (Expr *E)
 
ExprResult DefaultArgumentPromotion (Expr *E)
 DefaultArgumentPromotion (C99 6.5.2.2p6). More...
 
ExprResult TemporaryMaterializationConversion (Expr *E)
 If E is a prvalue denoting an unmaterialized temporary, materialize it as an xvalue. More...
 
VariadicCallType getVariadicCallType (FunctionDecl *FDecl, const FunctionProtoType *Proto, Expr *Fn)
 
VarArgKind isValidVarArgType (const QualType &Ty)
 Determine the degree of POD-ness for an expression. More...
 
void checkVariadicArgument (const Expr *E, VariadicCallType CT)
 Check to see if the given expression is a valid argument to a variadic function, issuing a diagnostic if not. More...
 
bool hasCStrMethod (const Expr *E)
 Check to see if a given expression could have '.c_str()' called on it. More...
 
bool GatherArgumentsForCall (SourceLocation CallLoc, FunctionDecl *FDecl, const FunctionProtoType *Proto, unsigned FirstParam, ArrayRef< Expr *> Args, SmallVectorImpl< Expr *> &AllArgs, VariadicCallType CallType=VariadicDoesNotApply, bool AllowExplicit=false, bool IsListInitialization=false)
 GatherArgumentsForCall - Collector argument expressions for various form of call prototypes. More...
 
ExprResult DefaultVariadicArgumentPromotion (Expr *E, VariadicCallType CT, FunctionDecl *FDecl)
 DefaultVariadicArgumentPromotion - Like DefaultArgumentPromotion, but will create a trap if the resulting type is not a POD type. More...
 
QualType UsualArithmeticConversions (ExprResult &LHS, ExprResult &RHS, bool IsCompAssign=false)
 UsualArithmeticConversions - Performs various conversions that are common to binary operators (C99 6.3.1.8). More...
 
bool DiagnoseAssignmentResult (AssignConvertType ConvTy, SourceLocation Loc, QualType DstType, QualType SrcType, Expr *SrcExpr, AssignmentAction Action, bool *Complained=nullptr)
 DiagnoseAssignmentResult - Emit a diagnostic, if required, for the assignment conversion type specified by ConvTy. More...
 
bool IsValueInFlagEnum (const EnumDecl *ED, const llvm::APInt &Val, bool AllowMask) const
 IsValueInFlagEnum - Determine if a value is allowed as part of a flag enum. More...
 
void DiagnoseAssignmentEnum (QualType DstType, QualType SrcType, Expr *SrcExpr)
 DiagnoseAssignmentEnum - Warn if assignment to enum is a constant integer not in the range of enum values. More...
 
AssignConvertType CheckAssignmentConstraints (SourceLocation Loc, QualType LHSType, QualType RHSType)
 CheckAssignmentConstraints - Perform type checking for assignment, argument passing, variable initialization, and function return values. More...
 
AssignConvertType CheckAssignmentConstraints (QualType LHSType, ExprResult &RHS, CastKind &Kind, bool ConvertRHS=true)
 Check assignment constraints and optionally prepare for a conversion of the RHS to the LHS type. More...
 
AssignConvertType CheckSingleAssignmentConstraints (QualType LHSType, ExprResult &RHS, bool Diagnose=true, bool DiagnoseCFAudited=false, bool ConvertRHS=true)
 Check assignment constraints for an assignment of RHS to LHSType. More...
 
AssignConvertType CheckTransparentUnionArgumentConstraints (QualType ArgType, ExprResult &RHS)
 
bool IsStringLiteralToNonConstPointerConversion (Expr *From, QualType ToType)
 Helper function to determine whether this is the (deprecated) C++ conversion from a string literal to a pointer to non-const char or non-const wchar_t (for narrow and wide string literals, respectively). More...
 
bool CheckExceptionSpecCompatibility (Expr *From, QualType ToType)
 
ExprResult PerformImplicitConversion (Expr *From, QualType ToType, AssignmentAction Action, bool AllowExplicit=false)
 PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType. More...
 
ExprResult PerformImplicitConversion (Expr *From, QualType ToType, AssignmentAction Action, bool AllowExplicit, ImplicitConversionSequence &ICS)
 
ExprResult PerformImplicitConversion (Expr *From, QualType ToType, const ImplicitConversionSequence &ICS, AssignmentAction Action, CheckedConversionKind CCK=CCK_ImplicitConversion)
 PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType using the pre-computed implicit conversion sequence ICS. More...
 
ExprResult PerformImplicitConversion (Expr *From, QualType ToType, const StandardConversionSequence &SCS, AssignmentAction Action, CheckedConversionKind CCK)
 PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType by following the standard conversion sequence SCS. More...
 
QualType InvalidOperands (SourceLocation Loc, ExprResult &LHS, ExprResult &RHS)
 the following "Check" methods will return a valid/converted QualType or a null QualType (indicating an error diagnostic was issued). More...
 
QualType InvalidLogicalVectorOperands (SourceLocation Loc, ExprResult &LHS, ExprResult &RHS)
 
QualType CheckPointerToMemberOperands (ExprResult &LHS, ExprResult &RHS, ExprValueKind &VK, SourceLocation OpLoc, bool isIndirect)
 
QualType CheckMultiplyDivideOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, bool IsCompAssign, bool IsDivide)
 
QualType CheckRemainderOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, bool IsCompAssign=false)
 
QualType CheckAdditionOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc, QualType *CompLHSTy=nullptr)
 
QualType CheckSubtractionOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, QualType *CompLHSTy=nullptr)
 
QualType CheckShiftOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc, bool IsCompAssign=false)
 
QualType CheckCompareOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc)
 
QualType CheckBitwiseOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc)
 
QualType CheckLogicalOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc)
 
QualType CheckAssignmentOperands (Expr *LHSExpr, ExprResult &RHS, SourceLocation Loc, QualType CompoundType)
 
ExprResult checkPseudoObjectIncDec (Scope *S, SourceLocation OpLoc, UnaryOperatorKind Opcode, Expr *Op)
 Check an increment or decrement of a pseudo-object expression. More...
 
ExprResult checkPseudoObjectAssignment (Scope *S, SourceLocation OpLoc, BinaryOperatorKind Opcode, Expr *LHS, Expr *RHS)
 
ExprResult checkPseudoObjectRValue (Expr *E)
 
ExprrecreateSyntacticForm (PseudoObjectExpr *E)
 Given a pseudo-object expression, recreate what it looks like syntactically without the attendant OpaqueValueExprs. More...
 
QualType CheckConditionalOperands (ExprResult &Cond, ExprResult &LHS, ExprResult &RHS, ExprValueKind &VK, ExprObjectKind &OK, SourceLocation QuestionLoc)
 Note that LHS is not null here, even if this is the gnu "x ?: y" extension. More...
 
QualType CXXCheckConditionalOperands (ExprResult &cond, ExprResult &lhs, ExprResult &rhs, ExprValueKind &VK, ExprObjectKind &OK, SourceLocation questionLoc)
 Check the operands of ?: under C++ semantics. More...
 
QualType FindCompositePointerType (SourceLocation Loc, Expr *&E1, Expr *&E2, bool ConvertArgs=true)
 Find a merged pointer type and convert the two expressions to it. More...
 
QualType FindCompositePointerType (SourceLocation Loc, ExprResult &E1, ExprResult &E2, bool ConvertArgs=true)
 
QualType FindCompositeObjCPointerType (ExprResult &LHS, ExprResult &RHS, SourceLocation QuestionLoc)
 FindCompositeObjCPointerType - Helper method to find composite type of two objective-c pointer types of the two input expressions. More...
 
bool DiagnoseConditionalForNull (Expr *LHSExpr, Expr *RHSExpr, SourceLocation QuestionLoc)
 Emit a specialized diagnostic when one expression is a null pointer constant and the other is not a pointer. More...
 
void DiagnoseAlwaysNonNullPointer (Expr *E, Expr::NullPointerConstantKind NullType, bool IsEqual, SourceRange Range)
 Diagnose pointers that are always non-null. More...
 
QualType CheckVectorOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, bool IsCompAssign, bool AllowBothBool, bool AllowBoolConversion)
 type checking for vector binary operators. More...
 
QualType GetSignedVectorType (QualType V)
 
QualType CheckVectorCompareOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc, BinaryOperatorKind Opc)
 CheckVectorCompareOperands - vector comparisons are a clang extension that operates on extended vector types. More...
 
QualType CheckVectorLogicalOperands (ExprResult &LHS, ExprResult &RHS, SourceLocation Loc)
 
bool areLaxCompatibleVectorTypes (QualType srcType, QualType destType)
 Are the two types lax-compatible vector types? That is, given that one of them is a vector, do they have equal storage sizes, where the storage size is the number of elements times the element size? More...
 
bool isLaxVectorConversion (QualType srcType, QualType destType)
 Is this a legal conversion between two types, one of which is known to be a vector type? More...
 
bool CheckForConstantInitializer (Expr *e, QualType t)
 type checking declaration initializers (C99 6.7.8) More...
 
ReferenceCompareResult CompareReferenceRelationship (SourceLocation Loc, QualType T1, QualType T2, bool &DerivedToBase, bool &ObjCConversion, bool &ObjCLifetimeConversion)
 CompareReferenceRelationship - Compare the two types T1 and T2 to determine whether they are reference-related, reference-compatible, reference-compatible with added qualification, or incompatible, for use in C++ initialization by reference (C++ [dcl.ref.init]p4). More...
 
ExprResult checkUnknownAnyCast (SourceRange TypeRange, QualType CastType, Expr *CastExpr, CastKind &CastKind, ExprValueKind &VK, CXXCastPath &Path)
 Check a cast of an unknown-any type. More...
 
ExprResult forceUnknownAnyToType (Expr *E, QualType ToType)
 Force an expression with unknown-type to an expression of the given type. More...
 
ExprResult checkUnknownAnyArg (SourceLocation callLoc, Expr *result, QualType &paramType)
 Type-check an expression that's being passed to an __unknown_anytype parameter. More...
 
bool CheckVectorCast (SourceRange R, QualType VectorTy, QualType Ty, CastKind &Kind)
 
ExprResult prepareVectorSplat (QualType VectorTy, Expr *SplattedExpr)
 Prepare SplattedExpr for a vector splat operation, adding implicit casts if necessary. More...
 
ExprResult CheckExtVectorCast (SourceRange R, QualType DestTy, Expr *CastExpr, CastKind &Kind)
 
ExprResult BuildCXXFunctionalCastExpr (TypeSourceInfo *TInfo, QualType Type, SourceLocation LParenLoc, Expr *CastExpr, SourceLocation RParenLoc)
 
void checkRetainCycles (ObjCMessageExpr *msg)
 checkRetainCycles - Check whether an Objective-C message send might create an obvious retain cycle. More...
 
void checkRetainCycles (Expr *receiver, Expr *argument)
 Check a property assign to see if it's likely to cause a retain cycle. More...
 
void checkRetainCycles (VarDecl *Var, Expr *Init)
 
bool checkUnsafeAssigns (SourceLocation Loc, QualType LHS, Expr *RHS)
 checkUnsafeAssigns - Check whether +1 expr is being assigned to weak/__unsafe_unretained type. More...
 
void checkUnsafeExprAssigns (SourceLocation Loc, Expr *LHS, Expr *RHS)
 checkUnsafeExprAssigns - Check whether +1 expr is being assigned to weak/__unsafe_unretained expression. More...
 
ConditionResult ActOnCondition (Scope *S, SourceLocation Loc, Expr *SubExpr, ConditionKind CK)
 
ConditionResult ActOnConditionVariable (Decl *ConditionVar, SourceLocation StmtLoc, ConditionKind CK)
 
DeclResult ActOnCXXConditionDeclaration (Scope *S, Declarator &D)
 ActOnCXXConditionDeclarationExpr - Parsed a condition declaration of a C++ if/switch/while/for statement. More...
 
ExprResult CheckConditionVariable (VarDecl *ConditionVar, SourceLocation StmtLoc, ConditionKind CK)
 Check the use of the given variable as a C++ condition in an if, while, do-while, or switch statement. More...
 
ExprResult CheckSwitchCondition (SourceLocation SwitchLoc, Expr *Cond)
 
ExprResult CheckBooleanCondition (SourceLocation Loc, Expr *E, bool IsConstexpr=false)
 CheckBooleanCondition - Diagnose problems involving the use of the given expression as a boolean condition (e.g. More...
 
void DiagnoseAssignmentAsCondition (Expr *E)
 DiagnoseAssignmentAsCondition - Given that an expression is being used as a boolean condition, warn if it's an assignment. More...
 
void DiagnoseEqualityWithExtraParens (ParenExpr *ParenE)
 Redundant parentheses over an equality comparison can indicate that the user intended an assignment used as condition. More...
 
ExprResult CheckCXXBooleanCondition (Expr *CondExpr, bool IsConstexpr=false)
 CheckCXXBooleanCondition - Returns true if conversion to bool is invalid. More...
 
void ConvertIntegerToTypeWarnOnOverflow (llvm::APSInt &OldVal, unsigned NewWidth, bool NewSign, SourceLocation Loc, unsigned DiagID)
 ConvertIntegerToTypeWarnOnOverflow - Convert the specified APInt to have the specified width and sign. More...
 
bool CheckObjCDeclScope (Decl *D)
 Checks that the Objective-C declaration is declared in the global scope. More...
 
ExprResult VerifyIntegerConstantExpression (Expr *E, llvm::APSInt *Result, VerifyICEDiagnoser &Diagnoser, bool AllowFold=true)
 VerifyIntegerConstantExpression - Verifies that an expression is an ICE, and reports the appropriate diagnostics. More...
 
ExprResult VerifyIntegerConstantExpression (Expr *E, llvm::APSInt *Result, unsigned DiagID, bool AllowFold=true)
 
ExprResult VerifyIntegerConstantExpression (Expr *E, llvm::APSInt *Result=nullptr)
 
ExprResult VerifyBitField (SourceLocation FieldLoc, IdentifierInfo *FieldName, QualType FieldTy, bool IsMsStruct, Expr *BitWidth, bool *ZeroWidth=nullptr)
 VerifyBitField - verifies that a bit field expression is an ICE and has the correct width, and that the field type is valid. More...
 
void PushForceCUDAHostDevice ()
 Increments our count of the number of times we've seen a pragma forcing functions to be host device. More...
 
bool PopForceCUDAHostDevice ()
 Decrements our count of the number of times we've seen a pragma forcing functions to be host device. More...
 
CUDADiagBuilder CUDADiagIfDeviceCode (SourceLocation Loc, unsigned DiagID)
 Creates a CUDADiagBuilder that emits the diagnostic if the current context is "used as device code". More...
 
CUDADiagBuilder CUDADiagIfHostCode (SourceLocation Loc, unsigned DiagID)
 Creates a CUDADiagBuilder that emits the diagnostic if the current context is "used as host code". More...
 
CUDAFunctionTarget IdentifyCUDATarget (const FunctionDecl *D, bool IgnoreImplicitHDAttr=false)
 Determines whether the given function is a CUDA device/host/kernel/etc. More...
 
CUDAFunctionTarget IdentifyCUDATarget (const ParsedAttributesView &Attrs)
 
CUDAFunctionTarget CurrentCUDATarget ()
 Gets the CUDA target for the current context. More...
 
CUDAFunctionPreference IdentifyCUDAPreference (const FunctionDecl *Caller, const FunctionDecl *Callee)
 Identifies relative preference of a given Caller/Callee combination, based on their host/device attributes. More...
 
bool IsAllowedCUDACall (const FunctionDecl *Caller, const FunctionDecl *Callee)
 Determines whether Caller may invoke Callee, based on their CUDA host/device attributes. More...
 
void maybeAddCUDAHostDeviceAttrs (FunctionDecl *FD, const LookupResult &Previous)
 May add implicit CUDAHostAttr and CUDADeviceAttr attributes to FD, depending on FD and the current compilation settings. More...
 
bool CheckCUDACall (SourceLocation Loc, FunctionDecl *Callee)
 Check whether we're allowed to call Callee from the current context. More...
 
void CUDASetLambdaAttrs (CXXMethodDecl *Method)
 Set device or host device attributes on the given lambda operator() method. More...
 
void EraseUnwantedCUDAMatches (const FunctionDecl *Caller, SmallVectorImpl< std::pair< DeclAccessPair, FunctionDecl *>> &Matches)
 Finds a function in Matches with highest calling priority from Caller context and erases all functions with lower calling priority. More...
 
bool inferCUDATargetForImplicitSpecialMember (CXXRecordDecl *ClassDecl, CXXSpecialMember CSM, CXXMethodDecl *MemberDecl, bool ConstRHS, bool Diagnose)
 Given a implicit special member, infer its CUDA target from the calls it needs to make to underlying base/field special members. More...
 
bool isEmptyCudaConstructor (SourceLocation Loc, CXXConstructorDecl *CD)
 
bool isEmptyCudaDestructor (SourceLocation Loc, CXXDestructorDecl *CD)
 
void checkAllowedCUDAInitializer (VarDecl *VD)
 
void checkCUDATargetOverload (FunctionDecl *NewFD, const LookupResult &Previous)
 Check whether NewFD is a valid overload for CUDA. More...
 
void inheritCUDATargetAttrs (FunctionDecl *FD, const FunctionTemplateDecl &TD)
 Copies target attributes from the template TD to the function FD. More...
 
SourceLocation getLocationOfStringLiteralByte (const StringLiteral *SL, unsigned ByteNo) const
 
ExprResult SemaBuiltinShuffleVector (CallExpr *TheCall)
 SemaBuiltinShuffleVector - Handle __builtin_shufflevector. More...
 
ExprResult SemaConvertVectorExpr (Expr *E, TypeSourceInfo *TInfo, SourceLocation BuiltinLoc, SourceLocation RParenLoc)
 SemaConvertVectorExpr - Handle __builtin_convertvector. More...
 
bool FormatStringHasSArg (const StringLiteral *FExpr)
 
void CheckFloatComparison (SourceLocation Loc, Expr *LHS, Expr *RHS)
 Check for comparisons of floating point operands using != and ==. More...
 
void RegisterTypeTagForDatatype (const IdentifierInfo *ArgumentKind, uint64_t MagicValue, QualType Type, bool LayoutCompatible, bool MustBeNull)
 Register a magic integral constant to be used as a type tag. More...
 
IdentifierInfogetNullabilityKeyword (NullabilityKind nullability)
 Retrieve the keyword associated. More...
 
IdentifierInfogetNSErrorIdent ()
 Retrieve the identifier "NSError". More...
 
ScopegetCurScope () const
 Retrieve the parser's current scope. More...
 
void incrementMSManglingNumber () const
 
IdentifierInfogetSuperIdentifier () const
 
IdentifierInfogetFloat128Identifier () const
 
DeclgetObjCDeclContext () const
 
DeclContextgetCurLexicalContext () const
 
const DeclContextgetCurObjCLexicalContext () const
 
void DiagnoseMisalignedMembers ()
 Diagnoses the current set of gathered accesses. More...
 
void DiscardMisalignedMemberAddress (const Type *T, Expr *E)
 This function checks if the expression is in the sef of potentially misaligned members and it is converted to some pointer type T with lower or equal alignment requirements. More...
 
void RefersToMemberWithReducedAlignment (Expr *E, llvm::function_ref< void(Expr *, RecordDecl *, FieldDecl *, CharUnits)> Action)
 This function calls Action when it determines that E designates a misaligned member due to the packed attribute. More...
 
bool isSelfExpr (Expr *RExpr)
 Private Helper predicate to check for 'self'. More...
 
bool isSelfExpr (Expr *RExpr, const ObjCMethodDecl *Method)
 
ExprResult BuildObjCNumericLiteral (SourceLocation AtLoc, Expr *Number)
 BuildObjCNumericLiteral - builds an ObjCBoxedExpr AST node for the numeric literal expression. More...
 
ExprResult ActOnObjCBoolLiteral (SourceLocation AtLoc, SourceLocation ValueLoc, bool Value)
 
ExprResult BuildObjCArrayLiteral (SourceRange SR, MultiExprArg Elements)
 
ExprResult BuildObjCBoxedExpr (SourceRange SR, Expr *ValueExpr)
 BuildObjCBoxedExpr - builds an ObjCBoxedExpr AST node for the '@' prefixed parenthesized expression. More...
 
ExprResult BuildObjCSubscriptExpression (SourceLocation RB, Expr *BaseExpr, Expr *IndexExpr, ObjCMethodDecl *getterMethod, ObjCMethodDecl *setterMethod)
 Build an ObjC subscript pseudo-object expression, given that that's supported by the runtime. More...
 
ExprResult BuildObjCDictionaryLiteral (SourceRange SR, MutableArrayRef< ObjCDictionaryElement > Elements)
 
ExprResult BuildObjCEncodeExpression (SourceLocation AtLoc, TypeSourceInfo *EncodedTypeInfo, SourceLocation RParenLoc)
 
ExprResult ParseObjCEncodeExpression (SourceLocation AtLoc, SourceLocation EncodeLoc, SourceLocation LParenLoc, ParsedType Ty, SourceLocation RParenLoc)
 
ExprResult ParseObjCSelectorExpression (Selector Sel, SourceLocation AtLoc, SourceLocation SelLoc, SourceLocation LParenLoc, SourceLocation RParenLoc, bool WarnMultipleSelectors)
 ParseObjCSelectorExpression - Build selector expression for @selector. More...
 
ExprResult ParseObjCProtocolExpression (IdentifierInfo *ProtocolName, SourceLocation AtLoc, SourceLocation ProtoLoc, SourceLocation LParenLoc, SourceLocation ProtoIdLoc, SourceLocation RParenLoc)
 ParseObjCProtocolExpression - Build protocol expression for @protocol. More...
 
ObjCMethodDeclLookupMethodInQualifiedType (Selector Sel, const ObjCObjectPointerType *OPT, bool IsInstance)
 LookupMethodInQualifiedType - Lookups up a method in protocol qualifier list of a qualified objective pointer type. More...
 
ObjCMethodDeclLookupMethodInObjectType (Selector Sel, QualType Ty, bool IsInstance)
 LookupMethodInType - Look up a method in an ObjCObjectType. More...
 
ExprResult HandleExprPropertyRefExpr (const ObjCObjectPointerType *OPT, Expr *BaseExpr, SourceLocation OpLoc, DeclarationName MemberName, SourceLocation MemberLoc, SourceLocation SuperLoc, QualType SuperType, bool Super)
 HandleExprPropertyRefExpr - Handle foo.bar where foo is a pointer to an objective C interface. More...
 
ExprResult ActOnClassPropertyRefExpr (IdentifierInfo &receiverName, IdentifierInfo &propertyName, SourceLocation receiverNameLoc, SourceLocation propertyNameLoc)
 
ObjCMethodDecltryCaptureObjCSelf (SourceLocation Loc)
 Try to capture an implicit reference to 'self'. More...
 
ObjCMessageKind getObjCMessageKind (Scope *S, IdentifierInfo *Name, SourceLocation NameLoc, bool IsSuper, bool HasTrailingDot, ParsedType &ReceiverType)
 
ExprResult ActOnSuperMessage (Scope *S, SourceLocation SuperLoc, Selector Sel, SourceLocation LBracLoc, ArrayRef< SourceLocation > SelectorLocs, SourceLocation RBracLoc, MultiExprArg Args)
 
ExprResult BuildClassMessage (TypeSourceInfo *ReceiverTypeInfo, QualType ReceiverType, SourceLocation SuperLoc, Selector Sel, ObjCMethodDecl *Method, SourceLocation LBracLoc, ArrayRef< SourceLocation > SelectorLocs, SourceLocation RBracLoc, MultiExprArg Args, bool isImplicit=false)
 Build an Objective-C class message expression. More...
 
ExprResult BuildClassMessageImplicit (QualType ReceiverType, bool isSuperReceiver, SourceLocation Loc, Selector Sel, ObjCMethodDecl *Method, MultiExprArg Args)
 
ExprResult ActOnClassMessage (Scope *S, ParsedType Receiver, Selector Sel, SourceLocation LBracLoc, ArrayRef< SourceLocation > SelectorLocs, SourceLocation RBracLoc, MultiExprArg Args)
 
ExprResult BuildInstanceMessage (Expr *Receiver, QualType ReceiverType, SourceLocation SuperLoc, Selector Sel, ObjCMethodDecl *Method, SourceLocation LBracLoc, ArrayRef< SourceLocation > SelectorLocs, SourceLocation RBracLoc, MultiExprArg Args, bool isImplicit=false)
 Build an Objective-C instance message expression. More...
 
ExprResult BuildInstanceMessageImplicit (Expr *Receiver, QualType ReceiverType, SourceLocation Loc, Selector Sel, ObjCMethodDecl *Method, MultiExprArg Args)
 
ExprResult ActOnInstanceMessage (Scope *S, Expr *Receiver, Selector Sel, SourceLocation LBracLoc, ArrayRef< SourceLocation > SelectorLocs, SourceLocation RBracLoc, MultiExprArg Args)
 
ExprResult BuildObjCBridgedCast (SourceLocation LParenLoc, ObjCBridgeCastKind Kind, SourceLocation BridgeKeywordLoc, TypeSourceInfo *TSInfo, Expr *SubExpr)
 
ExprResult ActOnObjCBridgedCast (Scope *S, SourceLocation LParenLoc, ObjCBridgeCastKind Kind, SourceLocation BridgeKeywordLoc, ParsedType Type, SourceLocation RParenLoc, Expr *SubExpr)
 
void CheckTollFreeBridgeCast (QualType castType, Expr *castExpr)
 
void CheckObjCBridgeRelatedCast (QualType castType, Expr *castExpr)
 
bool CheckTollFreeBridgeStaticCast (QualType castType, Expr *castExpr, CastKind &Kind)
 
bool checkObjCBridgeRelatedComponents (SourceLocation Loc, QualType DestType, QualType SrcType, ObjCInterfaceDecl *&RelatedClass, ObjCMethodDecl *&ClassMethod, ObjCMethodDecl *&InstanceMethod, TypedefNameDecl *&TDNDecl, bool CfToNs, bool Diagnose=true)
 
bool CheckObjCBridgeRelatedConversions (SourceLocation Loc, QualType DestType, QualType SrcType, Expr *&SrcExpr, bool Diagnose=true)
 
ARCConversionResult CheckObjCConversion (SourceRange castRange, QualType castType, Expr *&op, CheckedConversionKind CCK, bool Diagnose=true, bool DiagnoseCFAudited=false, BinaryOperatorKind Opc=BO_PtrMemD)
 Checks for invalid conversions and casts between retainable pointers and other pointer kinds for ARC and Weak. More...
 
ExprstripARCUnbridgedCast (Expr *e)
 stripARCUnbridgedCast - Given an expression of ARCUnbridgedCast type, remove the placeholder cast. More...
 
void diagnoseARCUnbridgedCast (Expr *e)
 Given that we saw an expression with the ARCUnbridgedCastTy placeholder type, complain bitterly. More...
 
bool CheckObjCARCUnavailableWeakConversion (QualType castType, QualType ExprType)
 
bool CheckMessageArgumentTypes (QualType ReceiverType, MultiExprArg Args, Selector Sel, ArrayRef< SourceLocation > SelectorLocs, ObjCMethodDecl *Method, bool isClassMessage, bool isSuperMessage, SourceLocation lbrac, SourceLocation rbrac, SourceRange RecRange, QualType &ReturnType, ExprValueKind &VK)
 CheckMessageArgumentTypes - Check types in an Obj-C message send. More...
 
QualType getMessageSendResultType (QualType ReceiverType, ObjCMethodDecl *Method, bool isClassMessage, bool isSuperMessage)
 Determine the result of a message send expression based on the type of the receiver, the method expected to receive the message, and the form of the message send. More...
 
void EmitRelatedResultTypeNote (const Expr *E)
 If the given expression involves a message send to a method with a related result type, emit a note describing what happened. More...
 
void EmitRelatedResultTypeNoteForReturn (QualType destType)
 Given that we had incompatible pointer types in a return statement, check whether we're in a method with a related result type, and if so, emit a note describing what happened. More...
 

Static Public Member Functions

static QualType GetTypeFromParser (ParsedType Ty, TypeSourceInfo **TInfo=nullptr)
 
static int getPrintable (int I)
 
static unsigned getPrintable (unsigned I)
 
static bool getPrintable (bool B)
 
static const char * getPrintable (const char *S)
 
static StringRef getPrintable (StringRef S)
 
static const std::string & getPrintable (const std::string &S)
 
static const IdentifierInfogetPrintable (const IdentifierInfo *II)
 
static DeclarationName getPrintable (DeclarationName N)
 
static QualType getPrintable (QualType T)
 
static SourceRange getPrintable (SourceRange R)
 
static SourceRange getPrintable (SourceLocation L)
 
static SourceRange getPrintable (const Expr *E)
 
static SourceRange getPrintable (TypeLoc TL)
 
static bool adjustContextForLocalExternDecl (DeclContext *&DC)
 Adjust the DeclContext for a function or variable that might be a function-local external declaration. More...
 
static PrintingPolicy getPrintingPolicy (const ASTContext &Ctx, const Preprocessor &PP)
 Retrieve a suitable printing policy for diagnostics. More...
 
static ScopegetScopeForDeclContext (Scope *S, DeclContext *DC)
 Finds the scope corresponding to the given decl context, if it happens to be an enclosing scope. More...
 
static void MarkDeducedTemplateParameters (ASTContext &Ctx, const FunctionTemplateDecl *FunctionTemplate, llvm::SmallBitVector &Deduced)
 Marks all of the template parameters that will be deduced by a call to the given function template. More...
 
static int getOpenMPCaptureLevels (OpenMPDirectiveKind Kind)
 Return the number of captured regions created for an OpenMP directive. More...
 
static bool isCast (CheckedConversionKind CCK)
 
static CastKind ScalarTypeToBooleanCastKind (QualType ScalarTy)
 ScalarTypeToBooleanCastKind - Returns the cast kind corresponding to the conversion from scalar type ScalarTy to the Boolean type. More...
 
static ConditionResult ConditionError ()
 
static FormatStringType GetFormatStringType (const FormatAttr *Format)
 
static bool GetFormatNSStringIdx (const FormatAttr *Format, unsigned &Idx)
 
static bool TooManyArguments (size_t NumParams, size_t NumArgs, bool PartialOverloading=false)
 To be used for checking whether the arguments being passed to function exceeds the number of parameters expected for it. More...
 

Public Attributes

OpenCLOptions OpenCLFeatures
 
FPOptions FPFeatures
 
const LangOptionsLangOpts
 
PreprocessorPP
 
ASTContextContext
 
ASTConsumerConsumer
 
DiagnosticsEngineDiags
 
SourceManagerSourceMgr
 
bool CollectStats
 Flag indicating whether or not to collect detailed statistics. More...
 
CodeCompleteConsumerCodeCompleter
 Code-completion consumer. More...
 
DeclContextCurContext
 CurContext - This is the current declaration context of parsing. More...
 
DeclContextOriginalLexicalContext
 Generally null except when we temporarily switch decl contexts, like in. More...
 
DeclarationName VAListTagName
 VAListTagName - The declaration name corresponding to __va_list_tag. More...
 
bool MSStructPragmaOn
 
LangOptions::PragmaMSPointersToMembersKind MSPointerToMemberRepresentationMethod
 Controls member pointer representation format under the MS ABI. More...
 
SmallVector< Scope *, 2 > CurrentSEHFinally
 Stack of active SEH __finally scopes. Can be empty. More...
 
SourceLocation ImplicitMSInheritanceAttrLoc
 Source location for newly created implicit MSInheritanceAttrs. More...
 
PragmaClangSection PragmaClangBSSSection
 
PragmaClangSection PragmaClangDataSection
 
PragmaClangSection PragmaClangRodataSection
 
PragmaClangSection PragmaClangTextSection
 
PragmaStack< MSVtorDispAttr::Mode > VtorDispStack
 Whether to insert vtordisps prior to virtual bases in the Microsoft C++ ABI. More...
 
PragmaStack< unsigned > PackStack
 
SmallVector< PackIncludeState, 8 > PackIncludeStack
 
PragmaStack< StringLiteral * > DataSegStack
 
PragmaStack< StringLiteral * > BSSSegStack
 
PragmaStack< StringLiteral * > ConstSegStack
 
PragmaStack< StringLiteral * > CodeSegStack
 
FileNullabilityMap NullabilityMap
 A mapping that describes the nullability we've seen in each header file. More...
 
StringLiteralCurInitSeg
 Last section used with #pragma init_seg. More...
 
SourceLocation CurInitSegLoc
 
void * VisContext
 VisContext - Manages the stack for #pragma GCC visibility. More...
 
SmallVector< PragmaAttributeEntry, 2 > PragmaAttributeStack
 
const DeclPragmaAttributeCurrentTargetDecl
 The declaration that is currently receiving an attribute from the #pragma attribute stack. More...
 
SourceLocation OptimizeOffPragmaLocation
 This represents the last location of a "#pragma clang optimize off" directive if such a directive has not been closed by an "on" yet. More...
 
bool IsBuildingRecoveryCallExpr
 Flag indicating if Sema is building a recovery call expression. More...
 
CleanupInfo Cleanup
 Used to control the generation of ExprWithCleanups. More...
 
SmallVector< BlockDecl *, 8 > ExprCleanupObjects
 ExprCleanupObjects - This is the stack of objects requiring cleanup that are created by the current full expression. More...
 
llvm::SmallPtrSet< Expr *, 2 > MaybeODRUseExprs
 Store a list of either DeclRefExprs or MemberExprs that contain a reference to a variable (constant) that may or may not be odr-used in this Expr, and we won't know until all lvalue-to-rvalue and discarded value conversions have been applied to all subexpressions of the enclosing full expression. More...
 
std::unique_ptr< sema::FunctionScopeInfoPreallocatedFunctionScope
 
SmallVector< sema::FunctionScopeInfo *, 4 > FunctionScopes
 Stack containing information about each of the nested function, block, and method scopes that are currently active. More...
 
ExtVectorDeclsType ExtVectorDecls
 ExtVectorDecls - This is a list all the extended vector types. More...
 
std::unique_ptr< CXXFieldCollectorFieldCollector
 FieldCollector - Collects CXXFieldDecls during parsing of C++ classes. More...
 
NamedDeclSetType UnusedPrivateFields
 Set containing all declared private fields that are not used. More...
 
llvm::SmallSetVector< const TypedefNameDecl *, 4 > UnusedLocalTypedefNameCandidates
 Set containing all typedefs that are likely unused. More...
 
llvm::MapVector< FieldDecl *, DeleteLocsDeleteExprs
 
std::unique_ptr< RecordDeclSetTyPureVirtualClassDiagSet
 PureVirtualClassDiagSet - a set of class declarations which we have emitted a list of pure virtual functions. More...
 
llvm::SmallPtrSet< const Decl *, 4 > ParsingInitForAutoVars
 ParsingInitForAutoVars - a set of declarations with auto types for which we are currently parsing the initializer. More...
 
TentativeDefinitionsType TentativeDefinitions
 All the tentative definitions encountered in the TU. More...
 
UnusedFileScopedDeclsType UnusedFileScopedDecls
 The set of file scoped decls seen so far that have not been used and must warn if not used. More...
 
DelegatingCtorDeclsType DelegatingCtorDecls
 All the delegating constructors seen so far in the file, used for cycle detection at the end of the TU. More...
 
SmallVector< std::pair< const CXXMethodDecl *, const CXXMethodDecl * >, 2 > DelayedExceptionSpecChecks
 All the overriding functions seen during a class definition that had their exception spec checks delayed, plus the overridden function. More...
 
SmallVector< std::pair< CXXMethodDecl *, const FunctionProtoType * >, 2 > DelayedDefaultedMemberExceptionSpecs
 All the members seen during a class definition which were both explicitly defaulted and had explicitly-specified exception specifications, along with the function type containing their user-specified exception specification. More...
 
LateParsedTemplateMapT LateParsedTemplateMap
 
LateTemplateParserCBLateTemplateParser
 
LateTemplateParserCleanupCBLateTemplateParserCleanup
 
void * OpaqueParser
 
class clang::Sema::DelayedDiagnostics DelayedDiagnostics
 
llvm::MapVector< IdentifierInfo *, WeakInfoWeakUndeclaredIdentifiers
 WeakUndeclaredIdentifiers - Identifiers contained in #pragma weak before declared. More...
 
llvm::DenseMap< IdentifierInfo *, AsmLabelAttr * > ExtnameUndeclaredIdentifiers
 ExtnameUndeclaredIdentifiers - Identifiers contained in #pragma redefine_extname before declared. More...
 
SmallVector< Decl *, 2 > WeakTopLevelDecl
 WeakTopLevelDecl - Translation-unit scoped declarations generated by #pragma weak during processing of other Decls. More...
 
IdentifierResolver IdResolver
 
ScopeTUScope
 Translation Unit Scope - useful to Objective-C actions that need to lookup file scope declarations in the "ordinary" C decl namespace. More...
 
LazyDeclPtr StdNamespace
 The C++ "std" namespace, where the standard library resides. More...
 
LazyDeclPtr StdBadAlloc
 The C++ "std::bad_alloc" class, which is defined by the C++ standard library. More...
 
LazyDeclPtr StdAlignValT
 The C++ "std::align_val_t" enum class, which is defined by the C++ standard library. More...
 
NamespaceDeclStdExperimentalNamespaceCache
 The C++ "std::experimental" namespace, where the experimental parts of the standard library resides. More...
 
ClassTemplateDeclStdInitializerList
 The C++ "std::initializer_list" template, which is defined in <initializer_list>. More...
 
ClassTemplateDeclStdCoroutineTraitsCache
 The C++ "std::coroutine_traits" template, which is defined in <coroutine_traits> More...
 
RecordDeclCXXTypeInfoDecl
 The C++ "type_info" declaration, which is defined in <typeinfo>. More...
 
RecordDeclMSVCGuidDecl
 The MSVC "_GUID" struct, which is defined in MSVC header files. More...
 
std::unique_ptr< NSAPINSAPIObj
 Caches identifiers/selectors for NSFoundation APIs. More...
 
ObjCInterfaceDeclNSNumberDecl
 The declaration of the Objective-C NSNumber class. More...
 
ObjCInterfaceDeclNSValueDecl
 The declaration of the Objective-C NSValue class. More...
 
QualType NSNumberPointer
 Pointer to NSNumber type (NSNumber *). More...
 
QualType NSValuePointer
 Pointer to NSValue type (NSValue *). More...
 
ObjCMethodDeclNSNumberLiteralMethods [NSAPI::NumNSNumberLiteralMethods]
 The Objective-C NSNumber methods used to create NSNumber literals. More...
 
ObjCInterfaceDeclNSStringDecl
 The declaration of the Objective-C NSString class. More...
 
QualType NSStringPointer
 Pointer to NSString type (NSString *). More...
 
ObjCMethodDeclStringWithUTF8StringMethod
 The declaration of the stringWithUTF8String: method. More...
 
ObjCMethodDeclValueWithBytesObjCTypeMethod
 The declaration of the valueWithBytes:objCType: method. More...
 
ObjCInterfaceDeclNSArrayDecl
 The declaration of the Objective-C NSArray class. More...
 
ObjCMethodDeclArrayWithObjectsMethod
 The declaration of the arrayWithObjects:count: method. More...
 
ObjCInterfaceDeclNSDictionaryDecl
 The declaration of the Objective-C NSDictionary class. More...
 
ObjCMethodDeclDictionaryWithObjectsMethod
 The declaration of the dictionaryWithObjects:forKeys:count: method. More...
 
QualType QIDNSCopying
 id<NSCopying> type. More...
 
Selector RespondsToSelectorSel
 will hold 'respondsToSelector:' More...
 
bool GlobalNewDeleteDeclared
 A flag to remember whether the implicit forms of operator new and delete have been declared. More...
 
bool AllowAbstractFieldReference
 A flag to indicate that we're in a context that permits abstract references to fields. More...
 
SmallVector< ExpressionEvaluationContextRecord, 8 > ExprEvalContexts
 A stack of expression evaluation contexts. More...
 
llvm::FoldingSet< SpecialMemberOverloadResultEntrySpecialMemberCache
 A cache of special member function overload resolution results for C++ records. More...
 
llvm::DenseMap< const EnumDecl *, llvm::APInt > FlagBitsCache
 A cache of the flags available in enumerations with the flag_bits attribute. More...
 
TranslationUnitKind TUKind
 The kind of translation unit we are processing. More...
 
llvm::BumpPtrAllocator BumpAlloc
 
unsigned NumSFINAEErrors
 The number of SFINAE diagnostics that have been trapped. More...
 
UnparsedDefaultArgInstantiationsMap UnparsedDefaultArgInstantiations
 A mapping from parameters with unparsed default arguments to the set of instantiations of each parameter. More...
 
llvm::DenseMap< ParmVarDecl *, SourceLocationUnparsedDefaultArgLocs
 
llvm::MapVector< NamedDecl *, SourceLocationUndefinedButUsed
 UndefinedInternals - all the used, undefined objects which require a definition in this translation unit. More...
 
GlobalMethodPool MethodPool
 Method Pool - allows efficient lookup when typechecking messages to "id". More...
 
llvm::MapVector< Selector, SourceLocationReferencedSelectors
 Method selectors used in a @selector expression. More...
 
llvm::SmallPtrSet< SpecialMemberDecl, 4 > SpecialMembersBeingDeclared
 The C++ special members which we are currently in the process of declaring. More...
 
llvm::SmallPtrSet< const NamedDecl *, 4 > TypoCorrectedFunctionDefinitions
 The function definitions which were renamed as part of typo-correction to match their respective declarations. More...
 
llvm::SmallVector< QualType, 4 > CurrentParameterCopyTypes
 Stack of types that correspond to the parameter entities that are currently being copy-initialized. More...
 
QualType CXXThisTypeOverride
 When non-NULL, the C++ 'this' expression is allowed despite the current context not being a non-static member function. More...
 
SmallVector< VTableUse, 16 > VTableUses
 The list of vtables that are required but have not yet been materialized. More...
 
llvm::DenseMap< CXXRecordDecl *, boolVTablesUsed
 The set of classes whose vtables have been used within this translation unit, and a bit that will be true if the vtable is required to be emitted (otherwise, it should be emitted only if needed by code generation). More...
 
bool AccessCheckingSFINAE
 When true, access checking violations are treated as SFINAE failures rather than hard errors. More...
 
SmallVector< CodeSynthesisContext, 16 > CodeSynthesisContexts
 List of active code synthesis contexts. More...
 
llvm::DenseSet< std::pair< Decl *, unsigned > > InstantiatingSpecializations
 Specializations whose definitions are currently being instantiated. More...
 
llvm::DenseSet< QualTypeInstantiatedNonDependentTypes
 Non-dependent types used in templates that have already been instantiated by some template instantiation. More...
 
SmallVector< Module *, 16 > CodeSynthesisContextLookupModules
 Extra modules inspected when performing a lookup during a template instantiation. More...
 
llvm::DenseSet< Module * > LookupModulesCache
 Cache of additional modules that should be used for name lookup within the current template instantiation. More...
 
llvm::DenseMap< NamedDecl *, NamedDecl * > VisibleNamespaceCache
 Map from the most recent declaration of a namespace to the most recent visible declaration of that namespace. More...
 
bool InNonInstantiationSFINAEContext
 Whether we are in a SFINAE context that is not associated with template instantiation. More...
 
unsigned NonInstantiationEntries
 The number of CodeSynthesisContexts that are not template instantiations and, therefore, should not be counted as part of the instantiation depth. More...
 
unsigned LastEmittedCodeSynthesisContextDepth = 0
 The depth of the context stack at the point when the most recent error or warning was produced. More...
 
std::vector< std::unique_ptr< TemplateInstantiationCallback > > TemplateInstCallbacks
 The template instantiation callbacks to trace or track instantiations (objects can be chained). More...
 
int ArgumentPackSubstitutionIndex
 The current index into pack expansion arguments that will be used for substitution of parameter packs. More...
 
SuppressedDiagnosticsMap SuppressedDiagnostics
 
LocalInstantiationScopeCurrentInstantiationScope
 The current instantiation scope used to store local variables. More...
 
bool DisableTypoCorrection
 Tracks whether we are in a context where typo correction is disabled. More...
 
unsigned TyposCorrected
 The number of typos corrected by CorrectTypo. More...
 
IdentifierSourceLocations TypoCorrectionFailures
 A cache containing identifiers for which typo correction failed and their locations, so that repeated attempts to correct an identifier in a given location are ignored if typo correction already failed for it. More...
 
sema::AnalysisBasedWarnings AnalysisWarnings
 Worker object for performing CFG-based warnings. More...
 
threadSafety::BeforeSetThreadSafetyDeclCache
 
std::deque< PendingImplicitInstantiationPendingInstantiations
 The queue of implicit template instantiations that are required but have not yet been performed. More...
 
SmallVector< PendingImplicitInstantiation, 1 > LateParsedInstantiations
 Queue of implicit template instantiations that cannot be performed eagerly. More...
 
std::deque< PendingImplicitInstantiationPendingLocalImplicitInstantiations
 The queue of implicit template instantiations that are required and must be performed within the current local scope. More...
 
llvm::DenseMap< CanonicalDeclPtr< FunctionDecl >, std::vector< PartialDiagnosticAt > > CUDADeferredDiags
 Diagnostics that are emitted only if we discover that the given function must be codegen'ed. More...
 
llvm::DenseSet< FunctionDeclAndLocLocsWithCUDACallDiags
 FunctionDecls and SourceLocations for which CheckCUDACall has emitted a (maybe deferred) "bad call" diagnostic. More...
 
llvm::DenseMap< CanonicalDeclPtr< FunctionDecl >, FunctionDeclAndLocCUDAKnownEmittedFns
 An inverse call graph, mapping known-emitted functions to one of their known-emitted callers (plus the location of the call). More...
 
llvm::DenseMap< CanonicalDeclPtr< FunctionDecl >, llvm::MapVector< CanonicalDeclPtr< FunctionDecl >, SourceLocation > > CUDACallGraph
 A partial call graph maintained during CUDA compilation to support deferred diagnostics. More...
 
RecordDeclCFError = nullptr
 The struct behind the CFErrorRef pointer. More...
 
SmallVector< CXXRecordDecl *, 4 > DelayedDllExportClasses
 

Static Public Attributes

static const unsigned kMac68kAlignmentSentinel = ~0U
 

Friends

class ArgumentPackSubstitutionRAII
 
class Parser
 
class InitializationSequence
 
class ASTReader
 
class ASTDeclReader
 
class ASTWriter
 

Name lookup

These routines provide name lookup that is used during semantic analysis to resolve the various kinds of names (identifiers, overloaded operator names, constructor names, etc.) into zero or more declarations within a particular scope.

The major entry points are LookupName, which performs unqualified name lookup, and LookupQualifiedName, which performs qualified name lookup.

All name lookup is performed based on some specific criteria, which specify what names will be visible to name lookup and how far name lookup should work. These criteria are important both for capturing language semantics (certain lookups will ignore certain names, for example) and for performance, since name lookup is often a bottleneck in the compilation of C++. Name lookup criteria is specified via the LookupCriteria enumeration.

The results of name lookup can vary based on the kind of name lookup performed, the current language, and the translation unit. In C, for example, name lookup will either return nothing (no entity found) or a single declaration. In C++, name lookup can additionally refer to a set of overloaded functions or result in an ambiguity. All of the possible results of name lookup are captured by the LookupResult class, which provides the ability to distinguish among them.

enum  LookupNameKind {
  LookupOrdinaryName = 0, LookupTagName, LookupLabel, LookupMemberName,
  LookupOperatorName, LookupNestedNameSpecifierName, LookupNamespaceName, LookupUsingDeclName,
  LookupRedeclarationWithLinkage, LookupLocalFriendName, LookupObjCProtocolName, LookupObjCImplicitSelfParam,
  LookupOMPReductionName, LookupAnyName
}
 Describes the kind of name lookup to perform. More...
 
enum  RedeclarationKind { NotForRedeclaration = 0, ForVisibleRedeclaration, ForExternalRedeclaration }
 Specifies whether (or how) name lookup is being performed for a redeclaration (vs. More...
 
enum  LiteralOperatorLookupResult {
  LOLR_Error, LOLR_ErrorNoDiagnostic, LOLR_Cooked, LOLR_Raw,
  LOLR_Template, LOLR_StringTemplate
}
 The possible outcomes of name lookup for a literal operator. More...
 
enum  CorrectTypoKind { CTK_NonError, CTK_ErrorRecovery }
 
typedef std::function< void(const TypoCorrection &)> TypoDiagnosticGenerator
 
typedef std::function< ExprResult(Sema &, TypoExpr *, TypoCorrection)> TypoRecoveryCallback
 
RedeclarationKind forRedeclarationInCurContext ()
 
SpecialMemberOverloadResult LookupSpecialMember (CXXRecordDecl *D, CXXSpecialMember SM, bool ConstArg, bool VolatileArg, bool RValueThis, bool ConstThis, bool VolatileThis)
 
const TypoExprState & getTypoExprState (TypoExpr *TE) const
 
void clearDelayedTypo (TypoExpr *TE)
 Clears the state of the given TypoExpr. More...
 
NamedDeclLookupSingleName (Scope *S, DeclarationName Name, SourceLocation Loc, LookupNameKind NameKind, RedeclarationKind Redecl=NotForRedeclaration)
 Look up a name, looking for a single declaration. More...
 
bool LookupName (LookupResult &R, Scope *S, bool AllowBuiltinCreation=false)
 Perform unqualified name lookup starting from a given scope. More...
 
bool LookupQualifiedName (LookupResult &R, DeclContext *LookupCtx, bool InUnqualifiedLookup=false)
 Perform qualified name lookup into a given context. More...
 
bool LookupQualifiedName (LookupResult &R, DeclContext *LookupCtx, CXXScopeSpec &SS)
 Performs qualified name lookup or special type of lookup for "__super::" scope specifier. More...
 
bool LookupParsedName (LookupResult &R, Scope *S, CXXScopeSpec *SS, bool AllowBuiltinCreation=false, bool EnteringContext=false)
 Performs name lookup for a name that was parsed in the source code, and may contain a C++ scope specifier. More...
 
ObjCProtocolDeclLookupProtocol (IdentifierInfo *II, SourceLocation IdLoc, RedeclarationKind Redecl=NotForRedeclaration)
 Find the protocol with the given name, if any. More...
 
bool LookupInSuper (LookupResult &R, CXXRecordDecl *Class)
 Perform qualified name lookup into all base classes of the given class. More...
 
void LookupOverloadedOperatorName (OverloadedOperatorKind Op, Scope *S, QualType T1, QualType T2, UnresolvedSetImpl &Functions)
 
LabelDeclLookupOrCreateLabel (IdentifierInfo *II, SourceLocation IdentLoc, SourceLocation GnuLabelLoc=SourceLocation())
 LookupOrCreateLabel - Do a name lookup of a label with the specified name. More...
 
DeclContextLookupResult LookupConstructors (CXXRecordDecl *Class)
 Look up the constructors for the given class. More...
 
CXXConstructorDeclLookupDefaultConstructor (CXXRecordDecl *Class)
 Look up the default constructor for the given class. More...
 
CXXConstructorDeclLookupCopyingConstructor (CXXRecordDecl *Class, unsigned Quals)
 Look up the copying constructor for the given class. More...
 
CXXMethodDeclLookupCopyingAssignment (CXXRecordDecl *Class, unsigned Quals, bool RValueThis, unsigned ThisQuals)
 Look up the copying assignment operator for the given class. More...
 
CXXConstructorDeclLookupMovingConstructor (CXXRecordDecl *Class, unsigned Quals)
 Look up the moving constructor for the given class. More...
 
CXXMethodDeclLookupMovingAssignment (CXXRecordDecl *Class, unsigned Quals, bool RValueThis, unsigned ThisQuals)
 Look up the moving assignment operator for the given class. More...
 
CXXDestructorDeclLookupDestructor (CXXRecordDecl *Class)
 Look for the destructor of the given class. More...
 
bool checkLiteralOperatorId (const CXXScopeSpec &SS, const UnqualifiedId &Id)
 
LiteralOperatorLookupResult LookupLiteralOperator (Scope *S, LookupResult &R, ArrayRef< QualType > ArgTys, bool AllowRaw, bool AllowTemplate, bool AllowStringTemplate, bool DiagnoseMissing)
 LookupLiteralOperator - Determine which literal operator should be used for a user-defined literal, per C++11 [lex.ext]. More...
 
bool isKnownName (StringRef name)
 
void ArgumentDependentLookup (DeclarationName Name, SourceLocation Loc, ArrayRef< Expr *> Args, ADLResult &Functions)
 
void LookupVisibleDecls (Scope *S, LookupNameKind Kind, VisibleDeclConsumer &Consumer, bool IncludeGlobalScope=true, bool LoadExternal=true)
 
void LookupVisibleDecls (DeclContext *Ctx, LookupNameKind Kind, VisibleDeclConsumer &Consumer, bool IncludeGlobalScope=true, bool IncludeDependentBases=false, bool LoadExternal=true)
 
TypoCorrection CorrectTypo (const DeclarationNameInfo &Typo, Sema::LookupNameKind LookupKind, Scope *S, CXXScopeSpec *SS, std::unique_ptr< CorrectionCandidateCallback > CCC, CorrectTypoKind Mode, DeclContext *MemberContext=nullptr, bool EnteringContext=false, const ObjCObjectPointerType *OPT=nullptr, bool RecordFailure=true)
 Try to "correct" a typo in the source code by finding visible declarations whose names are similar to the name that was present in the source code. More...
 
TypoExprCorrectTypoDelayed (const DeclarationNameInfo &Typo, Sema::LookupNameKind LookupKind, Scope *S, CXXScopeSpec *SS, std::unique_ptr< CorrectionCandidateCallback > CCC, TypoDiagnosticGenerator TDG, TypoRecoveryCallback TRC, CorrectTypoKind Mode, DeclContext *MemberContext=nullptr, bool EnteringContext=false, const ObjCObjectPointerType *OPT=nullptr)
 Try to "correct" a typo in the source code by finding visible declarations whose names are similar to the name that was present in the source code. More...
 
ExprResult CorrectDelayedTyposInExpr (Expr *E, VarDecl *InitDecl=nullptr, llvm::function_ref< ExprResult(Expr *)> Filter=[](Expr *E) -> ExprResult { return E;})
 Process any TypoExprs in the given Expr and its children, generating diagnostics as appropriate and returning a new Expr if there were typos that were all successfully corrected and ExprError if one or more typos could not be corrected. More...
 
ExprResult CorrectDelayedTyposInExpr (Expr *E, llvm::function_ref< ExprResult(Expr *)> Filter)
 
ExprResult CorrectDelayedTyposInExpr (ExprResult ER, VarDecl *InitDecl=nullptr, llvm::function_ref< ExprResult(Expr *)> Filter=[](Expr *E) -> ExprResult { return E;})
 
ExprResult CorrectDelayedTyposInExpr (ExprResult ER, llvm::function_ref< ExprResult(Expr *)> Filter)
 
void diagnoseTypo (const TypoCorrection &Correction, const PartialDiagnostic &TypoDiag, bool ErrorRecovery=true)
 
void diagnoseTypo (const TypoCorrection &Correction, const PartialDiagnostic &TypoDiag, const PartialDiagnostic &PrevNote, bool ErrorRecovery=true)
 Diagnose a successfully-corrected typo. More...
 
void MarkTypoCorrectedFunctionDefinition (const NamedDecl *F)
 
void FindAssociatedClassesAndNamespaces (SourceLocation InstantiationLoc, ArrayRef< Expr *> Args, AssociatedNamespaceSet &AssociatedNamespaces, AssociatedClassSet &AssociatedClasses)
 Find the associated classes and namespaces for argument-dependent lookup for a call with the given set of arguments. More...
 
void FilterLookupForScope (LookupResult &R, DeclContext *Ctx, Scope *S, bool ConsiderLinkage, bool AllowInlineNamespace)
 Filters out lookup results that don't fall within the given scope as determined by isDeclInScope. More...
 
bool CheckRedeclarationModuleOwnership (NamedDecl *New, NamedDecl *Old)
 We've determined that New is a redeclaration of Old. More...
 
void DiagnoseAmbiguousLookup (LookupResult &Result)
 Produce a diagnostic describing the ambiguity that resulted from name lookup. More...
 

Code completion

enum  ParserCompletionContext {
  PCC_Namespace, PCC_Class, PCC_ObjCInterface, PCC_ObjCImplementation,
  PCC_ObjCInstanceVariableList, PCC_Template, PCC_MemberTemplate, PCC_Expression,
  PCC_Statement, PCC_ForInit, PCC_Condition, PCC_RecoveryInFunction,
  PCC_Type, PCC_ParenthesizedExpression, PCC_LocalDeclarationSpecifiers
}
 Describes the context in which code completion occurs. More...
 
void CodeCompleteModuleImport (SourceLocation ImportLoc, ModuleIdPath Path)
 
void CodeCompleteOrdinaryName (Scope *S, ParserCompletionContext CompletionContext)
 
void CodeCompleteDeclSpec (Scope *S, DeclSpec &DS, bool AllowNonIdentifiers, bool AllowNestedNameSpecifiers)
 
void CodeCompleteExpression (Scope *S, const CodeCompleteExpressionData &Data)
 Perform code-completion in an expression context when we know what type we're looking for. More...
 
void CodeCompleteMemberReferenceExpr (Scope *S, Expr *Base, Expr *OtherOpBase, SourceLocation OpLoc, bool IsArrow, bool IsBaseExprStatement)
 
void CodeCompletePostfixExpression (Scope *S, ExprResult LHS)
 
void CodeCompleteTag (Scope *S, unsigned TagSpec)
 
void CodeCompleteTypeQualifiers (DeclSpec &DS)
 
void CodeCompleteFunctionQualifiers (DeclSpec &DS, Declarator &D, const VirtSpecifiers *VS=nullptr)
 
void CodeCompleteBracketDeclarator (Scope *S)
 
void CodeCompleteCase (Scope *S)
 
void CodeCompleteCall (Scope *S, Expr *Fn, ArrayRef< Expr *> Args)
 
void CodeCompleteConstructor (Scope *S, QualType Type, SourceLocation Loc, ArrayRef< Expr *> Args)
 
void CodeCompleteInitializer (Scope *S, Decl *D)
 
void CodeCompleteReturn (Scope *S)
 
void CodeCompleteAfterIf (Scope *S)
 
void CodeCompleteAssignmentRHS (Scope *S, Expr *LHS)
 
void CodeCompleteQualifiedId (Scope *S, CXXScopeSpec &SS, bool EnteringContext)
 
void CodeCompleteUsing (Scope *S)
 
void CodeCompleteUsingDirective (Scope *S)
 
void CodeCompleteNamespaceDecl (Scope *S)
 
void CodeCompleteNamespaceAliasDecl (Scope *S)
 
void CodeCompleteOperatorName (Scope *S)
 
void CodeCompleteConstructorInitializer (Decl *Constructor, ArrayRef< CXXCtorInitializer *> Initializers)
 
void CodeCompleteLambdaIntroducer (Scope *S, LambdaIntroducer &Intro, bool AfterAmpersand)
 
void CodeCompleteObjCAtDirective (Scope *S)
 
void CodeCompleteObjCAtVisibility (Scope *S)
 
void CodeCompleteObjCAtStatement (Scope *S)
 
void CodeCompleteObjCAtExpression (Scope *S)
 
void CodeCompleteObjCPropertyFlags (Scope *S, ObjCDeclSpec &ODS)
 
void CodeCompleteObjCPropertyGetter (Scope *S)
 
void CodeCompleteObjCPropertySetter (Scope *S)
 
void CodeCompleteObjCPassingType (Scope *S, ObjCDeclSpec &DS, bool IsParameter)
 
void CodeCompleteObjCMessageReceiver (Scope *S)
 
void CodeCompleteObjCSuperMessage (Scope *S, SourceLocation SuperLoc, ArrayRef< IdentifierInfo *> SelIdents, bool AtArgumentExpression)
 
void CodeCompleteObjCClassMessage (Scope *S, ParsedType Receiver, ArrayRef< IdentifierInfo *> SelIdents, bool AtArgumentExpression, bool IsSuper=false)
 
void CodeCompleteObjCInstanceMessage (Scope *S, Expr *Receiver, ArrayRef< IdentifierInfo *> SelIdents, bool AtArgumentExpression, ObjCInterfaceDecl *Super=nullptr)
 
void CodeCompleteObjCForCollection (Scope *S, DeclGroupPtrTy IterationVar)
 
void CodeCompleteObjCSelector (Scope *S, ArrayRef< IdentifierInfo *> SelIdents)
 
void CodeCompleteObjCProtocolReferences (ArrayRef< IdentifierLocPair > Protocols)
 
void CodeCompleteObjCProtocolDecl (Scope *S)
 
void CodeCompleteObjCInterfaceDecl (Scope *S)
 
void CodeCompleteObjCSuperclass (Scope *S, IdentifierInfo *ClassName, SourceLocation ClassNameLoc)
 
void CodeCompleteObjCImplementationDecl (Scope *S)
 
void CodeCompleteObjCInterfaceCategory (Scope *S, IdentifierInfo *ClassName, SourceLocation ClassNameLoc)
 
void CodeCompleteObjCImplementationCategory (Scope *S, IdentifierInfo *ClassName, SourceLocation ClassNameLoc)
 
void CodeCompleteObjCPropertyDefinition (Scope *S)
 
void CodeCompleteObjCPropertySynthesizeIvar (Scope *S, IdentifierInfo *PropertyName)
 
void CodeCompleteObjCMethodDecl (Scope *S, Optional< bool > IsInstanceMethod, ParsedType ReturnType)
 
void CodeCompleteObjCMethodDeclSelector (Scope *S, bool IsInstanceMethod, bool AtParameterName, ParsedType ReturnType, ArrayRef< IdentifierInfo *> SelIdents)
 
void CodeCompleteObjCClassPropertyRefExpr (Scope *S, IdentifierInfo &ClassName, SourceLocation ClassNameLoc, bool IsBaseExprStatement)
 
void CodeCompletePreprocessorDirective (bool InConditional)
 
void CodeCompleteInPreprocessorConditionalExclusion (Scope *S)
 
void CodeCompletePreprocessorMacroName (bool IsDefinition)
 
void CodeCompletePreprocessorExpression ()
 
void CodeCompletePreprocessorMacroArgument (Scope *S, IdentifierInfo *Macro, MacroInfo *MacroInfo, unsigned Argument)
 
void CodeCompleteNaturalLanguage ()
 
void CodeCompleteAvailabilityPlatformName ()
 
void GatherGlobalCodeCompletions (CodeCompletionAllocator &Allocator, CodeCompletionTUInfo &CCTUInfo, SmallVectorImpl< CodeCompletionResult > &Results)
 

Detailed Description

Sema - This implements semantic analysis and AST building for C.

Definition at line 277 of file Sema.h.

Member Typedef Documentation

◆ AssociatedClassSet

Definition at line 2715 of file Sema.h.

◆ AssociatedNamespaceSet

Definition at line 2714 of file Sema.h.

◆ CapturedParamNameType

typedef std::pair<StringRef, QualType> clang::Sema::CapturedParamNameType

Definition at line 3818 of file Sema.h.

◆ DeclGroupPtrTy

Definition at line 310 of file Sema.h.

◆ DelegatingCtorDeclsType

Definition at line 601 of file Sema.h.

◆ DeleteExprLoc

Delete-expressions to be analyzed at the end of translation unit.

This list contains class members, and locations of delete-expressions that could not be proven as to whether they mismatch with new-expression used in initializer of the field.

Definition at line 566 of file Sema.h.

◆ DeleteLocs

Definition at line 567 of file Sema.h.

◆ ExtVectorDeclsType

Definition at line 542 of file Sema.h.

◆ GlobalMethodPool

Definition at line 1125 of file Sema.h.

◆ GlobalMethods

Definition at line 1124 of file Sema.h.

◆ IdentifierSourceLocations

Definition at line 7584 of file Sema.h.

◆ LateInstantiatedAttrVec

Definition at line 7812 of file Sema.h.

◆ LateParsedTemplateMapT

typedef llvm::MapVector<const FunctionDecl *, std::unique_ptr<LateParsedTemplate> > clang::Sema::LateParsedTemplateMapT

Definition at line 625 of file Sema.h.

◆ LateTemplateParserCB

typedef void clang::Sema::LateTemplateParserCB(void *P, LateParsedTemplate &LPT)

Callback to the parser to parse templated functions when needed.

Definition at line 629 of file Sema.h.

◆ LateTemplateParserCleanupCB

typedef void clang::Sema::LateTemplateParserCleanupCB(void *P)

Definition at line 630 of file Sema.h.

◆ NamedDeclSetType

Definition at line 552 of file Sema.h.

◆ ParsingClassState

Definition at line 3973 of file Sema.h.

◆ ParsingDeclState

Definition at line 649 of file Sema.h.

◆ PendingImplicitInstantiation

An entity for which implicit template instantiation is required.

The source location associated with the declaration is the first place in the source code where the declaration was "used". It is not necessarily the point of instantiation (which will be either before or after the namespace-scope declaration that triggered this implicit instantiation), However, it is the location that diagnostics should generally refer to, because users will need to know what code triggered the instantiation.

Definition at line 7603 of file Sema.h.

◆ ProcessingContextState

Definition at line 650 of file Sema.h.

◆ RecordDeclSetTy

typedef llvm::SmallPtrSet<const CXXRecordDecl*, 8> clang::Sema::RecordDeclSetTy

Definition at line 570 of file Sema.h.

◆ SelectorSet

typedef llvm::SmallPtrSet<Selector, 8> clang::Sema::SelectorSet

Definition at line 3424 of file Sema.h.

◆ SkippedDefinitionContext

Definition at line 2281 of file Sema.h.

◆ SpecialMemberDecl

typedef llvm::PointerIntPair<CXXRecordDecl *, 3, CXXSpecialMember> clang::Sema::SpecialMemberDecl

Definition at line 1151 of file Sema.h.

◆ SrcLocSet

typedef llvm::SmallSet<SourceLocation, 2> clang::Sema::SrcLocSet

Definition at line 7583 of file Sema.h.

◆ SuppressedDiagnosticsMap

For each declaration that involved template argument deduction, the set of diagnostics that were suppressed during that template argument deduction.

FIXME: Serialize this structure to the AST file.

Definition at line 7338 of file Sema.h.

◆ TemplateTy

Definition at line 311 of file Sema.h.

◆ TentativeDefinitionsType

Definition at line 586 of file Sema.h.

◆ TypeTagMagicValue

typedef std::pair<const IdentifierInfo *, uint64_t> clang::Sema::TypeTagMagicValue

A pair of ArgumentKind identifier and magic value.

This uniquely identifies the magic value.

Definition at line 10555 of file Sema.h.

◆ TypeTy

Definition at line 312 of file Sema.h.

◆ TypoDiagnosticGenerator

typedef std::function<void(const TypoCorrection &)> clang::Sema::TypoDiagnosticGenerator

Definition at line 3115 of file Sema.h.

◆ TypoRecoveryCallback

Definition at line 3117 of file Sema.h.

◆ UnparsedDefaultArgInstantiationsMap

typedef llvm::DenseMap<ParmVarDecl *, llvm::TinyPtrVector<ParmVarDecl *> > clang::Sema::UnparsedDefaultArgInstantiationsMap

Definition at line 1091 of file Sema.h.

◆ UnusedFileScopedDeclsType

Definition at line 593 of file Sema.h.

◆ VarsWithInheritedDSAType

using clang::Sema::VarsWithInheritedDSAType = llvm::SmallDenseMap<const ValueDecl *, const Expr *, 4>

Definition at line 8787 of file Sema.h.

◆ VTableUse

The list of classes whose vtables have been used within this translation unit, and the source locations at which the first use occurred.

Definition at line 5812 of file Sema.h.

Member Enumeration Documentation

◆ AbstractDiagSelID

Enumerator
AbstractNone 
AbstractReturnType 
AbstractParamType 
AbstractVariableType 
AbstractFieldType 
AbstractIvarType 
AbstractSynthesizedIvarType 
AbstractArrayType 

Definition at line 6076 of file Sema.h.

◆ AccessResult

Enumerator
AR_accessible 
AR_inaccessible 
AR_dependent 
AR_delayed 

Definition at line 6009 of file Sema.h.

◆ AllocationFunctionScope

The scope in which to find allocation functions.

Enumerator
AFS_Global 

Only look for allocation functions in the global scope.

AFS_Class 

Only look for allocation functions in the scope of the allocated class.

AFS_Both 

Look for allocation functions in both the global scope and in the scope of the allocated class.

Definition at line 5192 of file Sema.h.

◆ ARCConversionResult

Enumerator
ACR_okay 
ACR_unbridged 
ACR_error 

Definition at line 9729 of file Sema.h.

◆ AssignConvertType

AssignConvertType - All of the 'assignment' semantic checks return this enum to indicate whether the assignment was allowed.

These checks are done for simple assignments, as well as initialization, return from function, argument passing, etc. The query is phrased in terms of a source and destination type.

Enumerator
Compatible 

Compatible - the types are compatible according to the standard.

PointerToInt 

PointerToInt - The assignment converts a pointer to an int, which we accept as an extension.

IntToPointer 

IntToPointer - The assignment converts an int to a pointer, which we accept as an extension.

FunctionVoidPointer 

FunctionVoidPointer - The assignment is between a function pointer and void*, which the standard doesn't allow, but we accept as an extension.

IncompatiblePointer 

IncompatiblePointer - The assignment is between two pointers types that are not compatible, but we accept them as an extension.

IncompatiblePointerSign 

IncompatiblePointerSign - The assignment is between two pointers types which point to integers which have a different sign, but are otherwise identical.

This is a subset of the above, but broken out because it's by far the most common case of incompatible pointers.

CompatiblePointerDiscardsQualifiers 

CompatiblePointerDiscardsQualifiers - The assignment discards c/v/r qualifiers, which we accept as an extension.

IncompatiblePointerDiscardsQualifiers 

IncompatiblePointerDiscardsQualifiers - The assignment discards qualifiers that we don't permit to be discarded, like address spaces.

IncompatibleNestedPointerQualifiers 

IncompatibleNestedPointerQualifiers - The assignment is between two nested pointer types, and the qualifiers other than the first two levels differ e.g.

char ** -> const char **, but we accept them as an extension.

IncompatibleVectors 

IncompatibleVectors - The assignment is between two vector types that have the same size, which we accept as an extension.

IntToBlockPointer 

IntToBlockPointer - The assignment converts an int to a block pointer.

We disallow this.

IncompatibleBlockPointer 

IncompatibleBlockPointer - The assignment is between two block pointers types that are not compatible.

IncompatibleObjCQualifiedId 

IncompatibleObjCQualifiedId - The assignment is between a qualified id type and something else (that is incompatible with it).

For example, "id <XXX>" = "Foo *", where "Foo *" doesn't implement the XXX protocol.

IncompatibleObjCWeakRef 

IncompatibleObjCWeakRef - Assigning a weak-unavailable object to an object with __weak qualifier.

Incompatible 

Incompatible - We reject this conversion outright, it is invalid to represent it in the AST.

Definition at line 9428 of file Sema.h.

◆ AssignmentAction

Enumerator
AA_Assigning 
AA_Passing 
AA_Returning 
AA_Converting 
AA_Initializing 
AA_Sending 
AA_Casting 
AA_Passing_CFAudited 

Definition at line 2483 of file Sema.h.

◆ AvailabilityMergeKind

Describes the kind of merge to perform for availability attributes (including "deprecated", "unavailable", and "availability").

Enumerator
AMK_None 

Don't merge availability attributes at all.

AMK_Redeclaration 

Merge availability attributes for a redeclaration, which requires an exact match.

AMK_Override 

Merge availability attributes for an override, which requires an exact match or a weakening of constraints.

AMK_ProtocolImplementation 

Merge availability attributes for an implementation of a protocol requirement.

Definition at line 2403 of file Sema.h.

◆ BuildForRangeKind

Enumerator
BFRK_Build 

Initial building of a for-range statement.

BFRK_Rebuild 

Instantiation or recovery rebuild of a for-range statement.

Don't attempt any typo-correction.

BFRK_Check 

Determining whether a for-range statement could be built.

Avoid any unnecessary or irreversible actions.

Definition at line 3780 of file Sema.h.

◆ CCEKind

Contexts in which a converted constant expression is required.

Enumerator
CCEK_CaseValue 

Expression in a case label.

CCEK_Enumerator 

Enumerator value with fixed underlying type.

CCEK_TemplateArg 

Value of a non-type template parameter.

CCEK_NewExpr 

Constant expression in a noptr-new-declarator.

CCEK_ConstexprIf 

Condition in a constexpr if statement.

Definition at line 2597 of file Sema.h.

◆ CheckedConversionKind

The kind of conversion being performed.

Enumerator
CCK_ImplicitConversion 

An implicit conversion.

CCK_CStyleCast 

A C-style cast.

CCK_FunctionalCast 

A functional-style cast.

CCK_OtherCast 

A cast other than a C-style cast.

CCK_ForBuiltinOverloadedOp 

A conversion for an operand of a builtin overloaded operator.

Definition at line 9297 of file Sema.h.

◆ CheckTemplateArgumentKind

Specifies the context in which a particular template argument is being checked.

Enumerator
CTAK_Specified 

The template argument was specified in the code or was instantiated with some deduced template arguments.

CTAK_Deduced 

The template argument was deduced via template argument deduction.

CTAK_DeducedFromArrayBound 

The template argument was deduced from an array bound via template argument deduction.

Definition at line 6361 of file Sema.h.

◆ ConditionKind

Enumerator
Boolean 

A boolean condition, from 'if', 'while', 'for', or 'do'.

ConstexprIf 

A constant boolean condition from 'if constexpr'.

Switch 

An integral condition for a 'switch' statement.

Definition at line 9824 of file Sema.h.

◆ CopyElisionSemanticsKind

Enumerator
CES_Strict 
CES_AllowParameters 
CES_AllowDifferentTypes 
CES_AllowExceptionVariables 
CES_FormerDefault 
CES_Default 
CES_AsIfByStdMove 

Definition at line 3828 of file Sema.h.

◆ CorrectTypoKind

Enumerator
CTK_NonError 
CTK_ErrorRecovery 

Definition at line 3232 of file Sema.h.

◆ CUDAFunctionPreference

Enumerator
CFP_Never 
CFP_WrongSide 
CFP_HostDevice 
CFP_SameSide 
CFP_Native 

Definition at line 10083 of file Sema.h.

◆ CUDAFunctionTarget

Enumerator
CFT_Device 
CFT_Global 
CFT_Host 
CFT_HostDevice 
CFT_InvalidTarget 

Definition at line 10059 of file Sema.h.

◆ CXXSpecialMember

Kinds of C++ special members.

Enumerator
CXXDefaultConstructor 
CXXCopyConstructor 
CXXMoveConstructor 
CXXCopyAssignment 
CXXMoveAssignment 
CXXDestructor 
CXXInvalid 

Definition at line 1140 of file Sema.h.

◆ DeduceAutoResult

Result type of DeduceAutoType.

Enumerator
DAR_Succeeded 
DAR_Failed 
DAR_FailedAlreadyDiagnosed 

Definition at line 7036 of file Sema.h.

◆ ExpressionEvaluationContext

Describes how the expressions currently being parsed are evaluated at run-time, if at all.

Enumerator
Unevaluated 

The current expression and its subexpressions occur within an unevaluated operand (C++11 [expr]p7), such as the subexpression of sizeof, where the type of the expression may be significant but no code will be generated to evaluate the value of the expression at run time.

UnevaluatedList 

The current expression occurs within a braced-init-list within an unevaluated operand.

This is mostly like a regular unevaluated context, except that we still instantiate constexpr functions that are referenced here so that we can perform narrowing checks correctly.

DiscardedStatement 

The current expression occurs within a discarded statement.

This behaves largely similarly to an unevaluated operand in preventing definitions from being required, but not in other ways.

UnevaluatedAbstract 

The current expression occurs within an unevaluated operand that unconditionally permits abstract references to fields, such as a SIZE operator in MS-style inline assembly.

ConstantEvaluated 

The current context is "potentially evaluated" in C++11 terms, but the expression is evaluated at compile-time (like the values of cases in a switch statement).

PotentiallyEvaluated 

The current expression is potentially evaluated at run time, which means that code may be generated to evaluate the value of the expression at run time.

PotentiallyEvaluatedIfUsed 

The current expression is potentially evaluated, but any declarations referenced inside that expression are only used if in fact the current expression is used.

This value is used when parsing default function arguments, for which we would like to provide diagnostics (e.g., passing non-POD arguments through varargs) but do not want to mark declarations as "referenced" until the default argument is used.

Definition at line 895 of file Sema.h.

◆ FormatStringType

Enumerator
FST_Scanf 
FST_Printf 
FST_NSString 
FST_Strftime 
FST_Strfmon 
FST_Kprintf 
FST_FreeBSDKPrintf 
FST_OSTrace 
FST_OSLog 
FST_Unknown 

Definition at line 10445 of file Sema.h.

◆ ForRangeStatus

Enumerator
FRS_Success 
FRS_NoViableFunction 
FRS_DiagnosticIssued 

Definition at line 2915 of file Sema.h.

◆ IfExistsResult

Describes the result of an "if-exists" condition check.

Enumerator
IER_Exists 

The symbol exists.

IER_DoesNotExist 

The symbol does not exist.

IER_Dependent 

The name is a dependent name, so the results will differ from one instantiation to the next.

IER_Error 

An error occurred.

Definition at line 4492 of file Sema.h.

◆ LiteralOperatorLookupResult

The possible outcomes of name lookup for a literal operator.

Enumerator
LOLR_Error 

The lookup resulted in an error.

LOLR_ErrorNoDiagnostic 

The lookup found no match but no diagnostic was issued.

LOLR_Cooked 

The lookup found a single 'cooked' literal operator, which expects a normal literal to be built and passed to it.

LOLR_Raw 

The lookup found a single 'raw' literal operator, which expects a string literal containing the spelling of the literal token.

LOLR_Template 

The lookup found an overload set of literal operator templates, which expect the characters of the spelling of the literal token to be passed as a non-type template argument pack.

LOLR_StringTemplate 

The lookup found an overload set of literal operator templates, which expect the character type and characters of the spelling of the string literal token to be passed as template arguments.

Definition at line 3086 of file Sema.h.

◆ LookupNameKind

Describes the kind of name lookup to perform.

Enumerator
LookupOrdinaryName 

Ordinary name lookup, which finds ordinary names (functions, variables, typedefs, etc.) in C and most kinds of names (functions, variables, members, types, etc.) in C++.

LookupTagName 

Tag name lookup, which finds the names of enums, classes, structs, and unions.

LookupLabel 

Label name lookup.

LookupMemberName 

Member name lookup, which finds the names of class/struct/union members.

LookupOperatorName 

Look up of an operator name (e.g., operator+) for use with operator overloading.

This lookup is similar to ordinary name lookup, but will ignore any declarations that are class members.

LookupNestedNameSpecifierName 

Look up of a name that precedes the '::' scope resolution operator in C++.

This lookup completely ignores operator, object, function, and enumerator names (C++ [basic.lookup.qual]p1).

LookupNamespaceName 

Look up a namespace name within a C++ using directive or namespace alias definition, ignoring non-namespace names (C++ [basic.lookup.udir]p1).

LookupUsingDeclName 

Look up all declarations in a scope with the given name, including resolved using declarations.

This is appropriate for checking redeclarations for a using declaration.

LookupRedeclarationWithLinkage 

Look up an ordinary name that is going to be redeclared as a name with linkage.

This lookup ignores any declarations that are outside of the current scope unless they have linkage. See C99 6.2.2p4-5 and C++ [basic.link]p6.

LookupLocalFriendName 

Look up a friend of a local class.

This lookup does not look outside the innermost non-class scope. See C++11 [class.friend]p11.

LookupObjCProtocolName 

Look up the name of an Objective-C protocol.

LookupObjCImplicitSelfParam 

Look up implicit 'self' parameter of an objective-c method.

LookupOMPReductionName 

Look up the name of an OpenMP user-defined reduction operation.

LookupAnyName 

Look up any declaration with any name.

Definition at line 3012 of file Sema.h.

◆ MethodMatchStrategy

Enumerator
MMS_loose 
MMS_strict 

Definition at line 3521 of file Sema.h.

◆ MissingImportKind

Kinds of missing import.

Note, the values of these enumerators correspond to select values in diagnostics.

Enumerator
Declaration 
Definition 
DefaultArgument 
ExplicitSpecialization 
PartialSpecialization 

Definition at line 2103 of file Sema.h.

◆ ModuleDeclKind

Enumerator
Interface 

'export module X;'

Implementation 

'module X;'

Partition 

'module partition X;'

Definition at line 2060 of file Sema.h.

◆ NameClassificationKind

Describes the result of the name lookup and resolution performed by ClassifyName().

Enumerator
NC_Unknown 
NC_Error 
NC_Keyword 
NC_Type 
NC_Expression 
NC_NestedNameSpecifier 
NC_TypeTemplate 
NC_VarTemplate 
NC_FunctionTemplate 

Definition at line 1712 of file Sema.h.

◆ NonTagKind

Common ways to introduce type names without a tag for use in diagnostics.

Keep in sync with err_tag_reference_non_tag.

Enumerator
NTK_NonStruct 
NTK_NonClass 
NTK_NonUnion 
NTK_NonEnum 
NTK_Typedef 
NTK_TypeAlias 
NTK_Template 
NTK_TypeAliasTemplate 
NTK_TemplateTemplateArgument 

Definition at line 2165 of file Sema.h.

◆ ObjCContainerKind

Enumerator
OCK_None 
OCK_Interface 
OCK_Protocol 
OCK_Category 
OCK_ClassExtension 
OCK_Implementation 
OCK_CategoryImplementation 

Definition at line 7906 of file Sema.h.

◆ ObjCLiteralKind

Enumerator
LK_Array 
LK_Dictionary 
LK_Numeric 
LK_Boxed 
LK_String 
LK_Block 
LK_None 

Definition at line 2696 of file Sema.h.

◆ ObjCMessageKind

Describes the kind of message expression indicated by a message send that starts with an identifier.

Enumerator
ObjCSuperMessage 

The message is sent to 'super'.

ObjCInstanceMessage 

The message is an instance message.

ObjCClassMessage 

The message is a class message, and the identifier is a type name.

Definition at line 8182 of file Sema.h.

◆ ObjCSpecialMethodKind

Enumerator
OSMK_None 
OSMK_Alloc 
OSMK_New 
OSMK_Copy 
OSMK_RetainingInit 
OSMK_NonRetainingInit 

Definition at line 8120 of file Sema.h.

◆ ObjCSubscriptKind

Enumerator
OS_Array 
OS_Dictionary 
OS_Error 

Definition at line 2687 of file Sema.h.

◆ OverloadKind

C++ Overloading.

Enumerator
Ovl_Overload 

This is a legitimate overload: the existing declarations are functions or function templates with different signatures.

Ovl_Match 

This is not an overload because the signature exactly matches an existing declaration.

Ovl_NonFunction 

This is not an overload because the lookup results contain a non-function.

Definition at line 2495 of file Sema.h.

◆ ParserCompletionContext

Describes the context in which code completion occurs.

Enumerator
PCC_Namespace 

Code completion occurs at top-level or namespace context.

PCC_Class 

Code completion occurs within a class, struct, or union.

PCC_ObjCInterface 

Code completion occurs within an Objective-C interface, protocol, or category.

PCC_ObjCImplementation 

Code completion occurs within an Objective-C implementation or category implementation.

PCC_ObjCInstanceVariableList 

Code completion occurs within the list of instance variables in an Objective-C interface, protocol, category, or implementation.

PCC_Template 

Code completion occurs following one or more template headers.

PCC_MemberTemplate 

Code completion occurs following one or more template headers within a class.

PCC_Expression 

Code completion occurs within an expression.

PCC_Statement 

Code completion occurs within a statement, which may also be an expression or a declaration.

PCC_ForInit 

Code completion occurs at the beginning of the initialization statement (or expression) in a for loop.

PCC_Condition 

Code completion occurs within the condition of an if, while, switch, or for statement.

PCC_RecoveryInFunction 

Code completion occurs within the body of a function on a recovery path, where we do not have a specific handle on our position in the grammar.

PCC_Type 

Code completion occurs where only a type is permitted.

PCC_ParenthesizedExpression 

Code completion occurs in a parenthesized expression, which might also be a type cast.

PCC_LocalDeclarationSpecifiers 

Code completion occurs within a sequence of declaration specifiers within a function, method, or block.

Definition at line 10193 of file Sema.h.

◆ PragmaClangSectionAction

Enumerator
PCSA_Set 
PCSA_Clear 

Definition at line 362 of file Sema.h.

◆ PragmaClangSectionKind

pragma clang section kind

Enumerator
PCSK_Invalid 
PCSK_BSS 
PCSK_Data 
PCSK_Rodata 
PCSK_Text 

Definition at line 354 of file Sema.h.

◆ PragmaMsStackAction

Enumerator
PSK_Reset 
PSK_Set 
PSK_Push 
PSK_Pop 
PSK_Show 
PSK_Push_Set 
PSK_Pop_Set 

Definition at line 382 of file Sema.h.

◆ PragmaOptionsAlignKind

Enumerator
POAK_Native 
POAK_Natural 
POAK_Packed 
POAK_Power 
POAK_Mac68k 
POAK_Reset 

Definition at line 8312 of file Sema.h.

◆ PragmaPackDiagnoseKind

Enumerator
NonDefaultStateAtInclude 
ChangedStateAtExit 

Definition at line 8334 of file Sema.h.

◆ PragmaSectionKind

Enumerator
PSK_DataSeg 
PSK_BSSSeg 
PSK_ConstSeg 
PSK_CodeSeg 

Definition at line 8363 of file Sema.h.

◆ RedeclarationKind

Specifies whether (or how) name lookup is being performed for a redeclaration (vs.

a reference).

Enumerator
NotForRedeclaration 

The lookup is a reference to this name that is not for the purpose of redeclaring the name.

ForVisibleRedeclaration 

The lookup results will be used for redeclaration of a name, if an entity by that name already exists and is visible.

ForExternalRedeclaration 

The lookup results will be used for redeclaration of a name with external linkage; non-visible lookup results with external linkage may also be found.

Definition at line 3061 of file Sema.h.

◆ ReferenceCompareResult

ReferenceCompareResult - Expresses the result of comparing two types (cv1 T1 and cv2 T2) to determine their compatibility for the purposes of initialization by reference (C++ [dcl.init.ref]p4).

Enumerator
Ref_Incompatible 

Ref_Incompatible - The two types are incompatible, so direct reference binding is not possible.

Ref_Related 

Ref_Related - The two types are reference-related, which means that their unqualified forms (T1 and T2) are either the same or T1 is a base class of T2.

Ref_Compatible 

Ref_Compatible - The two types are reference-compatible.

Definition at line 9674 of file Sema.h.

◆ ResultTypeCompatibilityKind

Describes the compatibility of a result type with its method.

Enumerator
RTC_Compatible 
RTC_Incompatible 
RTC_Unknown 

Definition at line 8302 of file Sema.h.

◆ ReuseLambdaContextDecl_t

Enumerator
ReuseLambdaContextDecl 

Definition at line 4015 of file Sema.h.

◆ TagUseKind

Enumerator
TUK_Reference 
TUK_Declaration 
TUK_Definition 
TUK_Friend 

Definition at line 2186 of file Sema.h.

◆ TemplateDeductionResult

Describes the result of template argument deduction.

The TemplateDeductionResult enumeration describes the result of template argument deduction, as returned from DeduceTemplateArguments(). The separate TemplateDeductionInfo structure provides additional information about the results of template argument deduction, e.g., the deduced template argument list (if successful) or the specific template parameters or deduced arguments that were involved in the failure.

Enumerator
TDK_Success 

Template argument deduction was successful.

TDK_Invalid 

The declaration was invalid; do nothing.

TDK_InstantiationDepth 

Template argument deduction exceeded the maximum template instantiation depth (which has already been diagnosed).

TDK_Incomplete 

Template argument deduction did not deduce a value for every template parameter.

TDK_IncompletePack 

Template argument deduction did not deduce a value for every expansion of an expanded template parameter pack.

TDK_Inconsistent 

Template argument deduction produced inconsistent deduced values for the given template parameter.

TDK_Underqualified 

Template argument deduction failed due to inconsistent cv-qualifiers on a template parameter type that would otherwise be deduced, e.g., we tried to deduce T in "const T" but were given a non-const "X".

TDK_SubstitutionFailure 

Substitution of the deduced template argument values resulted in an error.

TDK_DeducedMismatch 

After substituting deduced template arguments, a dependent parameter type did not match the corresponding argument.

TDK_DeducedMismatchNested 

After substituting deduced template arguments, an element of a dependent parameter type did not match the corresponding element of the corresponding argument (when deducing from an initializer list).

TDK_NonDeducedMismatch 

A non-depnedent component of the parameter did not match the corresponding component of the argument.

TDK_TooManyArguments 

When performing template argument deduction for a function template, there were too many call arguments.

TDK_TooFewArguments 

When performing template argument deduction for a function template, there were too few call arguments.

TDK_InvalidExplicitArguments 

The explicitly-specified template arguments were not valid template arguments for the given template.

TDK_NonDependentConversionFailure 

Checking non-dependent argument conversions failed.

TDK_MiscellaneousDeductionFailure 

Deduction failed; that's all we know.

TDK_CUDATargetMismatch 

CUDA Target attributes do not match.

Definition at line 6905 of file Sema.h.

◆ TemplateNameKindForDiagnostics

Describes the detailed kind of a template name. Used in diagnostics.

Enumerator
ClassTemplate 
FunctionTemplate 
VarTemplate 
AliasTemplate 
TemplateTemplateParam 
DependentTemplate 

Definition at line 1832 of file Sema.h.

◆ TemplateParameterListEqualKind

Enumeration describing how template parameter lists are compared for equality.

Enumerator
TPL_TemplateMatch 

We are matching the template parameter lists of two templates that might be redeclarations.

template<typename T> struct X;
template<typename T> struct X;
TPL_TemplateTemplateParmMatch 

We are matching the template parameter lists of two template template parameters as part of matching the template parameter lists of two templates that might be redeclarations.

template<template<int I> class TT> struct X;
template<template<int Value> class Other> struct X;
TPL_TemplateTemplateArgumentMatch 

We are matching the template parameter lists of a template template argument against the template parameter lists of a template template parameter.

template<template<int Value> class Metafun> struct X;
template<int Value> struct integer_c;
X<integer_c> xic;

Definition at line 6439 of file Sema.h.

◆ TemplateParamListContext

The context in which we are checking a template parameter list.

Enumerator
TPC_ClassTemplate 
TPC_VarTemplate 
TPC_FunctionTemplate 
TPC_ClassTemplateMember 
TPC_FriendClassTemplate 
TPC_FriendFunctionTemplate 
TPC_FriendFunctionTemplateDefinition 
TPC_TypeAliasTemplate 

Definition at line 6192 of file Sema.h.

◆ TrivialABIHandling

Enumerator
TAH_IgnoreTrivialABI 

The triviality of a method unaffected by "trivial_abi".

TAH_ConsiderTrivialABI 

The triviality of a method affected by "trivial_abi".

Definition at line 2247 of file Sema.h.

◆ TryCaptureKind

Enumerator
TryCapture_Implicit 
TryCapture_ExplicitByVal 
TryCapture_ExplicitByRef 

Definition at line 4051 of file Sema.h.

◆ UnexpandedParameterPackContext

The context in which an unexpanded parameter pack is being diagnosed.

Note that the values of this enumeration line up with the first argument to the err_unexpanded_parameter_pack diagnostic.

Enumerator
UPPC_Expression 

An arbitrary expression.

UPPC_BaseType 

The base type of a class type.

UPPC_DeclarationType 

The type of an arbitrary declaration.

UPPC_DataMemberType 

The type of a data member.

UPPC_BitFieldWidth 

The size of a bit-field.

UPPC_StaticAssertExpression 

The expression in a static assertion.

UPPC_FixedUnderlyingType 

The fixed underlying type of an enumeration.

UPPC_EnumeratorValue 

The enumerator value.

UPPC_UsingDeclaration 

A using declaration.

UPPC_FriendDeclaration 

A friend declaration.

UPPC_DeclarationQualifier 

A declaration qualifier.

UPPC_Initializer 

An initializer.

UPPC_DefaultArgument 

A default argument.

UPPC_NonTypeTemplateParameterType 

The type of a non-type template parameter.

UPPC_ExceptionType 

The type of an exception.

UPPC_PartialSpecialization 

Partial specialization.

UPPC_IfExists 

Microsoft __if_exists.

UPPC_IfNotExists 

Microsoft __if_not_exists.

UPPC_Lambda 

Lambda expression.

UPPC_Block 

Block expression,.

Definition at line 6555 of file Sema.h.

◆ VarArgKind

Enumerator
VAK_Valid 
VAK_ValidInCXX11 
VAK_Undefined 
VAK_MSVCUndefined 
VAK_Invalid 

Definition at line 9382 of file Sema.h.

◆ VariadicCallType

Enumerator
VariadicFunction 
VariadicBlock 
VariadicMethod 
VariadicConstructor 
VariadicDoesNotApply 

Definition at line 9368 of file Sema.h.

Constructor & Destructor Documentation

◆ Sema()

Sema::Sema ( Preprocessor pp,
ASTContext ctxt,
ASTConsumer consumer,
TranslationUnitKind  TUKind = TU_Complete,
CodeCompleteConsumer CompletionConsumer = nullptr 
)

Definition at line 117 of file Sema.cpp.

◆ ~Sema()

Sema::~Sema ( )

Member Function Documentation

◆ ActOnAbortSEHFinallyBlock()

void Sema::ActOnAbortSEHFinallyBlock ( )

Definition at line 4084 of file SemaStmt.cpp.

◆ ActOnAccessSpecifier()

bool Sema::ActOnAccessSpecifier ( AccessSpecifier  Access,
SourceLocation  ASLoc,
SourceLocation  ColonLoc,
const ParsedAttributesView Attrs 
)

ActOnAccessSpecifier - Parsed an access specifier followed by a colon.

Definition at line 2702 of file SemaDeclCXX.cpp.

References clang::AS_none, and clang::AccessSpecDecl::Create().

◆ ActOnAddrLabel()

ExprResult Sema::ActOnAddrLabel ( SourceLocation  OpLoc,
SourceLocation  LabLoc,
LabelDecl TheDecl 
)

ActOnAddrLabel - Parse the GNU address of label extension: "&&foo".

Definition at line 12910 of file SemaExpr.cpp.

References clang::Decl::markUsed().

◆ ActOnAliasDeclaration()

Decl * Sema::ActOnAliasDeclaration ( Scope CurScope,
AccessSpecifier  AS,
MultiTemplateParamsArg  TemplateParams,
SourceLocation  UsingLoc,
UnqualifiedId Name,
const ParsedAttributesView AttrList,
TypeResult  Type,
Decl DeclFromDeclSpec 
)

Definition at line 10375 of file SemaDeclCXX.cpp.

◆ ActOnArraySubscriptExpr()

ExprResult Sema::ActOnArraySubscriptExpr ( Scope S,
Expr Base,
SourceLocation  LLoc,
Expr Idx,
SourceLocation  RLoc 
)

Definition at line 4169 of file SemaExpr.cpp.

◆ ActOnArrayTypeTrait()

ExprResult Sema::ActOnArrayTypeTrait ( ArrayTypeTrait  ATT,
SourceLocation  KWLoc,
ParsedType  LhsTy,
Expr DimExpr,
SourceLocation  RParen 
)

ActOnArrayTypeTrait - Parsed one of the binary type trait support pseudo-functions.

Definition at line 5230 of file SemaExprCXX.cpp.

References BuildArrayTypeTrait(), Context, clang::ASTContext::getTrivialTypeSourceInfo(), and GetTypeFromParser().

Referenced by TypeTraitArity().

◆ ActOnAsTypeExpr()

ExprResult Sema::ActOnAsTypeExpr ( Expr E,
ParsedType  ParsedDestTy,
SourceLocation  BuiltinLoc,
SourceLocation  RParenLoc 
)

__builtin_astype(...)

ActOnAsTypeExpr - create a new asType (bitcast) from the arguments.

__builtin_astype( value, dst type )

Definition at line 5452 of file SemaExpr.cpp.

◆ ActOnAtEnd()

Decl * Sema::ActOnAtEnd ( Scope S,
SourceRange  AtEnd,
ArrayRef< Decl *>  allMethods = None,
ArrayRef< DeclGroupPtrTy allTUVars = None 
)

Check for instance method of the same name with incompatible types

The following allows us to typecheck messages to "id".

Check for class method of the same name with incompatible types

Definition at line 3875 of file SemaDeclObjC.cpp.

◆ ActOnAttributedStmt()

StmtResult Sema::ActOnAttributedStmt ( SourceLocation  AttrLoc,
ArrayRef< const Attr *>  Attrs,
Stmt SubStmt 
)

◆ ActOnBaseSpecifier()

BaseResult Sema::ActOnBaseSpecifier ( Decl classdecl,
SourceRange  SpecifierRange,
ParsedAttributes Attributes,
bool  Virtual,
AccessSpecifier  Access,
ParsedType  basetype,
SourceLocation  BaseLoc,
SourceLocation  EllipsisLoc 
)

ActOnBaseSpecifier - Parsed a base specifier.

A base specifier is one entry in the base class list of a class specifier, for example: class foo : public bar, virtual private baz { 'public bar' and 'virtual private baz' are each base-specifiers.

Definition at line 2298 of file SemaDeclCXX.cpp.

References Diag(), clang::SourceRange::getBegin(), clang::ParsedAttr::IgnoredAttribute, clang::SourceLocation::isInvalid(), clang::Decl::setInvalidDecl(), clang::CXXRecordDecl::setIsParsingBaseSpecifiers(), and clang::ParsedAttr::UnknownAttribute.

◆ ActOnBaseSpecifiers()

void Sema::ActOnBaseSpecifiers ( Decl ClassDecl,
MutableArrayRef< CXXBaseSpecifier *>  Bases 
)

ActOnBaseSpecifiers - Attach the given base specifiers to the class, after checking whether there are any duplicate base classes.

Definition at line 2478 of file SemaDeclCXX.cpp.

◆ ActOnBinOp()

ExprResult Sema::ActOnBinOp ( Scope S,
SourceLocation  TokLoc,
tok::TokenKind  Kind,
Expr LHSExpr,
Expr RHSExpr 
)

Definition at line 12444 of file SemaExpr.cpp.

References DiagnoseBinOpPrecedence().

Referenced by clang::Parser::ParseConstraintExpression().

◆ ActOnBlockArguments()

void Sema::ActOnBlockArguments ( SourceLocation  CaretLoc,
Declarator ParamInfo,
Scope CurScope 
)

ActOnBlockArguments - This callback allows processing of block arguments.

If there are no arguments, this is still invoked.

Definition at line 13281 of file SemaExpr.cpp.

References clang::BlockLiteralContext, clang::Declarator::getContext(), clang::Declarator::getIdentifier(), clang::TypeSourceInfo::getType(), clang::FunctionProtoType::ExtProtoInfo::HasTrailingReturn, clang::DeclSpec::TQ_const, and clang::FunctionProtoType::ExtProtoInfo::TypeQuals.

◆ ActOnBlockError()

void Sema::ActOnBlockError ( SourceLocation  CaretLoc,
Scope CurScope 
)

ActOnBlockError - If there is an error parsing a block, this callback is invoked to pop the information about the block from the action impl.

Definition at line 13398 of file SemaExpr.cpp.

◆ ActOnBlockStart()

void Sema::ActOnBlockStart ( SourceLocation  CaretLoc,
Scope CurScope 
)

ActOnBlockStart - This callback is invoked when a block literal is started.

Definition at line 13253 of file SemaExpr.cpp.

References clang::BlockDecl::Create().

◆ ActOnBlockStmtExpr()

ExprResult Sema::ActOnBlockStmtExpr ( SourceLocation  CaretLoc,
Stmt Body,
Scope CurScope 
)

ActOnBlockStmtExpr - This is called when the body of a block statement literal was successfully completed.

^(int x){...}

Definition at line 13410 of file SemaExpr.cpp.

References Diag(), and clang::sema::CapturingScopeInfo::HasImplicitReturnType.

◆ ActOnBreakStmt()

StmtResult Sema::ActOnBreakStmt ( SourceLocation  BreakLoc,
Scope CurScope 
)

Definition at line 2831 of file SemaStmt.cpp.

◆ ActOnBuiltinOffsetOf()

ExprResult Sema::ActOnBuiltinOffsetOf ( Scope S,
SourceLocation  BuiltinLoc,
SourceLocation  TypeLoc,
ParsedType  ParsedArgTy,
ArrayRef< OffsetOfComponent Components,
SourceLocation  RParenLoc 
)

Definition at line 13190 of file SemaExpr.cpp.

◆ ActOnCallExpr()

ExprResult Sema::ActOnCallExpr ( Scope Scope,
Expr Fn,
SourceLocation  LParenLoc,
MultiExprArg  ArgExprs,
SourceLocation  RParenLoc,
Expr ExecConfig = nullptr,
bool  IsExecConfig = false 
)

ActOnCallExpr - Handle a call to Fn with the specified array of arguments.

This provides the location of the left/right parens and a list of comma locations.

Definition at line 5304 of file SemaExpr.cpp.

References checkArgsForPlaceholders(), clang::frontend::CPlusPlus, clang::FixItHint::CreateRemoval(), Diag(), clang::ExprError(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Stmt::getLocStart(), and clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

Referenced by buildMemcpyForAssignmentOp(), and BuildRecoveryCallExpr().

◆ ActOnCapScopeReturnStmt()

StmtResult Sema::ActOnCapScopeReturnStmt ( SourceLocation  ReturnLoc,
Expr RetValExp 
)

◆ ActOnCapturedRegionEnd()

StmtResult Sema::ActOnCapturedRegionEnd ( Stmt S)

Definition at line 4283 of file SemaStmt.cpp.

◆ ActOnCapturedRegionError()

void Sema::ActOnCapturedRegionError ( )

◆ ActOnCapturedRegionStart() [1/2]

void Sema::ActOnCapturedRegionStart ( SourceLocation  Loc,
Scope CurScope,
CapturedRegionKind  Kind,
unsigned  NumParams 
)

Definition at line 4180 of file SemaStmt.cpp.

References clang::CapturedDecl::castToDeclContext().

◆ ActOnCapturedRegionStart() [2/2]

void Sema::ActOnCapturedRegionStart ( SourceLocation  Loc,
Scope CurScope,
CapturedRegionKind  Kind,
ArrayRef< CapturedParamNameType Params 
)

Definition at line 4209 of file SemaStmt.cpp.

References clang::CapturedDecl::castToDeclContext().

◆ ActOnCaseExpr()

ExprResult Sema::ActOnCaseExpr ( SourceLocation  CaseLoc,
ExprResult  Val 
)

◆ ActOnCaseStmt()

StmtResult Sema::ActOnCaseStmt ( SourceLocation  CaseLoc,
ExprResult  LHS,
SourceLocation  DotDotDotLoc,
ExprResult  RHS,
SourceLocation  ColonLoc 
)

◆ ActOnCaseStmtBody()

void Sema::ActOnCaseStmtBody ( Stmt CaseStmt,
Stmt SubStmt 
)

ActOnCaseStmtBody - This installs a statement as the body of a case.

Definition at line 472 of file SemaStmt.cpp.

References clang::ast_matchers::caseStmt, and clang::CaseStmt::setSubStmt().

◆ ActOnCastExpr()

ExprResult Sema::ActOnCastExpr ( Scope S,
SourceLocation  LParenLoc,
Declarator D,
ParsedType Ty,
SourceLocation  RParenLoc,
Expr CastExpr 
)

◆ ActOnCharacterConstant()

ExprResult Sema::ActOnCharacterConstant ( const Token Tok,
Scope UDLScope = nullptr 
)

◆ ActOnChooseExpr()

ExprResult Sema::ActOnChooseExpr ( SourceLocation  BuiltinLoc,
Expr CondExpr,
Expr LHSExpr,
Expr RHSExpr,
SourceLocation  RPLoc 
)

◆ ActOnClassMessage()

ExprResult Sema::ActOnClassMessage ( Scope S,
ParsedType  Receiver,
Selector  Sel,
SourceLocation  LBracLoc,
ArrayRef< SourceLocation SelectorLocs,
SourceLocation  RBracLoc,
MultiExprArg  Args 
)

Definition at line 2544 of file SemaExprObjC.cpp.

References clang::ExprError(), and clang::QualType::isNull().

◆ ActOnClassPropertyRefExpr()

ExprResult Sema::ActOnClassPropertyRefExpr ( IdentifierInfo receiverName,
IdentifierInfo propertyName,
SourceLocation  receiverNameLoc,
SourceLocation  propertyNameLoc 
)

◆ ActOnClassTemplateSpecialization()

DeclResult Sema::ActOnClassTemplateSpecialization ( Scope S,
unsigned  TagSpec,
TagUseKind  TUK,
SourceLocation  KWLoc,
SourceLocation  ModulePrivateLoc,
TemplateIdAnnotation TemplateId,
const ParsedAttributesView Attr,
MultiTemplateParamsArg  TemplateParameterLists,
SkipBodyInfo SkipBody = nullptr 
)

◆ ActOnCoawaitExpr()

ExprResult Sema::ActOnCoawaitExpr ( Scope S,
SourceLocation  KwLoc,
Expr E 
)

Definition at line 673 of file SemaCoroutine.cpp.

Referenced by BuildNonArrayForRange().

◆ ActOnComment()

void Sema::ActOnComment ( SourceRange  Comment)

◆ ActOnCompatibilityAlias()

Decl * Sema::ActOnCompatibilityAlias ( SourceLocation  AtLoc,
IdentifierInfo AliasName,
SourceLocation  AliasLocation,
IdentifierInfo ClassName,
SourceLocation  ClassLocation 
)

ActOnCompatibilityAlias - this action is called after complete parsing of a @compatibility_alias declaration.

It sets up the alias relationships.

Definition at line 1126 of file SemaDeclObjC.cpp.

References CheckObjCDeclScope(), Context, clang::ObjCCompatibleAliasDecl::Create(), CurContext, Diag(), forRedeclarationInCurContext(), clang::Type::getAs(), clang::ObjCObjectType::getInterface(), clang::Decl::getLocation(), clang::Type::isObjCObjectType(), LookupOrdinaryName, LookupSingleName(), PushOnScopeChains(), and TUScope.

◆ ActOnCompoundLiteral()

ExprResult Sema::ActOnCompoundLiteral ( SourceLocation  LParenLoc,
ParsedType  Ty,
SourceLocation  RParenLoc,
Expr InitExpr 
)

Definition at line 5695 of file SemaExpr.cpp.

◆ ActOnCompoundStmt()

StmtResult Sema::ActOnCompoundStmt ( SourceLocation  L,
SourceLocation  R,
ArrayRef< Stmt *>  Elts,
bool  isStmtExpr 
)

◆ ActOnCondition()

Sema::ConditionResult Sema::ActOnCondition ( Scope S,
SourceLocation  Loc,
Expr SubExpr,
ConditionKind  CK 
)

Definition at line 15807 of file SemaExpr.cpp.

◆ ActOnConditionalOp()

ExprResult Sema::ActOnConditionalOp ( SourceLocation  QuestionLoc,
SourceLocation  ColonLoc,
Expr CondExpr,
Expr LHSExpr,
Expr RHSExpr 
)

◆ ActOnConditionVariable()

Sema::ConditionResult Sema::ActOnConditionVariable ( Decl ConditionVar,
SourceLocation  StmtLoc,
ConditionKind  CK 
)

◆ ActOnConstantExpression()

ExprResult Sema::ActOnConstantExpression ( ExprResult  Res)

◆ ActOnContinueStmt()

StmtResult Sema::ActOnContinueStmt ( SourceLocation  ContinueLoc,
Scope CurScope 
)

Definition at line 2819 of file SemaStmt.cpp.

◆ ActOnConversionDeclarator()

Decl * Sema::ActOnConversionDeclarator ( CXXConversionDecl Conversion)

ActOnConversionDeclarator - Called by ActOnDeclarator to complete the declaration of the given C++ conversion function.

This routine is responsible for recording the conversion function in the C++ class, if possible.

Definition at line 8495 of file SemaDeclCXX.cpp.

References clang::Decl::getDeclContext().

◆ ActOnConvertVectorExpr()

ExprResult Sema::ActOnConvertVectorExpr ( Expr E,
ParsedType  ParsedDestTy,
SourceLocation  BuiltinLoc,
SourceLocation  RParenLoc 
)

__builtin_convertvector(...)

ActOnConvertVectorExpr - create a new convert-vector expression from the provided arguments.

__builtin_convertvector( value, dst type )

Definition at line 5473 of file SemaExpr.cpp.

◆ ActOnCoreturnStmt()

StmtResult Sema::ActOnCoreturnStmt ( Scope S,
SourceLocation  KwLoc,
Expr E 
)

Definition at line 823 of file SemaCoroutine.cpp.

◆ ActOnCoroutineBodyStart()

bool Sema::ActOnCoroutineBodyStart ( Scope S,
SourceLocation  KwLoc,
StringRef  Keyword 
)

Definition at line 623 of file SemaCoroutine.cpp.

References checkCoroutineContext().

◆ ActOnCoyieldExpr()

ExprResult Sema::ActOnCoyieldExpr ( Scope S,
SourceLocation  KwLoc,
Expr E 
)

Definition at line 770 of file SemaCoroutine.cpp.

◆ ActOnCUDAExecConfigExpr()

ExprResult Sema::ActOnCUDAExecConfigExpr ( Scope S,
SourceLocation  LLLLoc,
MultiExprArg  ExecConfig,
SourceLocation  GGGLoc 
)

Definition at line 40 of file SemaCUDA.cpp.

◆ ActOnCXXBoolLiteral()

ExprResult Sema::ActOnCXXBoolLiteral ( SourceLocation  OpLoc,
tok::TokenKind  Kind 
)

ActOnCXXBoolLiteral - Parse {true,false} literals.

Definition at line 699 of file SemaExprCXX.cpp.

Referenced by clang::Sema::ImplicitExceptionSpecification::getExceptionSpec().

◆ ActOnCXXCatchBlock()

StmtResult Sema::ActOnCXXCatchBlock ( SourceLocation  CatchLoc,
Decl ExDecl,
Stmt HandlerBlock 
)

ActOnCXXCatchBlock - Takes an exception declaration and a handler block and creates a proper catch handler from them.

Definition at line 3815 of file SemaStmt.cpp.

◆ ActOnCXXConditionDeclaration()

DeclResult Sema::ActOnCXXConditionDeclaration ( Scope S,
Declarator D 
)

ActOnCXXConditionDeclarationExpr - Parsed a condition declaration of a C++ if/switch/while/for statement.

e.g: "if (int x = f()) {...}"

Definition at line 14785 of file SemaDeclCXX.cpp.

References Diag(), clang::Declarator::getDeclSpec(), clang::Declarator::getSourceRange(), clang::DeclSpec::getStorageClassSpec(), and clang::DeclSpec::SCS_typedef.

◆ ActOnCXXDelete()

ExprResult Sema::ActOnCXXDelete ( SourceLocation  StartLoc,
bool  UseGlobal,
bool  ArrayForm,
Expr ExE 
)

ActOnCXXDelete - Parsed a C++ 'delete' expression.

ActOnCXXDelete - Parsed a C++ 'delete' expression (C++ 5.3.5), as in:

::delete ptr;

or

delete [] ptr;

Definition at line 3200 of file SemaExprCXX.cpp.

References AA_Passing, clang::AS_public, CheckDestructorAccess(), CheckVirtualDtorCall(), Context, clang::FixItHint::CreateInsertion(), clang::ASTContext::DeclarationNames, clang::Default, DefaultLvalueConversion(), Diag(), diagnoseUnavailableAlignedAllocation(), DiagnoseUseOfDecl(), doesUsualArrayDeleteWantSize(), clang::ExprError(), FindDeallocationFunction(), FindUsualDeallocationFunction(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::QualType::getAddressSpace(), clang::Qualifiers::getAddressSpaceAttributePrintValue(), clang::Type::getAs(), clang::ASTContext::getBaseElementType(), clang::DeclarationNameTable::getCXXOperatorName(), clang::CXXRecordDecl::getDestructor(), getLangOpts(), clang::Decl::getLocation(), getLocForEndOfToken(), clang::FunctionDecl::getParamDecl(), clang::Type::getPointeeType(), clang::ASTContext::getPointerType(), clang::ASTContext::getQualifiedType(), clang::QualType::getQualifiers(), clang::ValueDecl::getType(), clang::QualType::getUnqualifiedType(), clang::Qualifiers::hasCVRQualifiers(), clang::CXXRecordDecl::hasIrrelevantDestructor(), hasNewExtendedAlignment(), ImpCastExprToType(), clang::Type::isArrayType(), isCompleteType(), clang::Type::isDependentType(), clang::QualType::isDestructedType(), clang::Type::isFunctionType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), isSFINAEContext(), clang::Type::isVoidType(), LookupDestructor(), clang::DeclAccessPair::make(), MarkFunctionReferenced(), clang::ast_matchers::match(), PDiag(), PerformContextualImplicitConversion(), PerformImplicitConversion(), clang::Qualifiers::removeCVRQualifiers(), RequireCompleteType(), clang::Result, and clang::ASTContext::VoidTy.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ ActOnCXXEnterDeclaratorScope()

bool Sema::ActOnCXXEnterDeclaratorScope ( Scope S,
CXXScopeSpec SS 
)

ActOnCXXEnterDeclaratorScope - Called when a C++ scope specifier (global scope or nested-name-specifier) is parsed, part of a declarator-id.

After this method is called, according to [C++ 3.4.3p3], names should be looked up in the declarator-id's scope, until the declarator is parsed and ActOnCXXExitDeclaratorScope is called. The 'SS' should be a non-empty valid CXXScopeSpec.

Definition at line 1056 of file SemaCXXScopeSpec.cpp.

◆ ActOnCXXEnterDeclInitializer()

void Sema::ActOnCXXEnterDeclInitializer ( Scope S,
Decl D 
)

ActOnCXXEnterDeclInitializer - Invoked when we are about to parse an initializer for the declaration 'Dcl'.

Invoked when we are about to parse an initializer for the declaration 'Dcl'.

After this method is called, according to [C++ 3.4.1p13], if 'Dcl' is a static data member of class X, names should be looked up in the scope of class X.

After this method is called, according to [C++ 3.4.1p13], if 'Dcl' is a static data member of class X, names should be looked up in the scope of class X. If the declaration had a scope specifier, a scope will have been created and passed in for this purpose. Otherwise, S will be null.

Definition at line 14749 of file SemaDeclCXX.cpp.

References clang::Decl::getDeclContext(), clang::Decl::isInvalidDecl(), isNonlocalVariable(), and clang::Decl::isOutOfLine().

◆ ActOnCXXExitDeclaratorScope()

void Sema::ActOnCXXExitDeclaratorScope ( Scope S,
const CXXScopeSpec SS 
)

ActOnCXXExitDeclaratorScope - Called when a declarator that previously invoked ActOnCXXEnterDeclaratorScope(), is finished.

'SS' is the same CXXScopeSpec that was passed to ActOnCXXEnterDeclaratorScope as well. Used to indicate that names should revert to being looked up in the defining scope.

Definition at line 1083 of file SemaCXXScopeSpec.cpp.

◆ ActOnCXXExitDeclInitializer()

void Sema::ActOnCXXExitDeclInitializer ( Scope S,
Decl Dcl 
)

ActOnCXXExitDeclInitializer - Invoked after we are finished parsing an initializer for the declaration 'Dcl'.

Invoked after we are finished parsing an initializer for the declaration D.

Definition at line 14770 of file SemaDeclCXX.cpp.

References clang::Decl::isInvalidDecl(), isNonlocalVariable(), and clang::Decl::isOutOfLine().

◆ ActOnCXXFoldExpr()

ExprResult Sema::ActOnCXXFoldExpr ( SourceLocation  LParenLoc,
Expr LHS,
tok::TokenKind  Operator,
SourceLocation  EllipsisLoc,
Expr RHS,
SourceLocation  RParenLoc 
)

Handle a C++1z fold-expression: ( expr op ... op expr ).

Definition at line 1133 of file SemaTemplateVariadic.cpp.

References CheckFoldOperand(), clang::Expr::containsUnexpandedParameterPack(), Diag(), and clang::Stmt::getSourceRange().

◆ ActOnCXXForRangeDecl()

void Sema::ActOnCXXForRangeDecl ( Decl D)

◆ ActOnCXXForRangeIdentifier()

StmtResult Sema::ActOnCXXForRangeIdentifier ( Scope S,
SourceLocation  IdentLoc,
IdentifierInfo Ident,
ParsedAttributes Attrs,
SourceLocation  AttrEnd 
)

Definition at line 11664 of file SemaDecl.cpp.

◆ ActOnCXXForRangeStmt()

StmtResult Sema::ActOnCXXForRangeStmt ( Scope S,
SourceLocation  ForLoc,
SourceLocation  CoawaitLoc,
Stmt First,
SourceLocation  ColonLoc,
Expr Range,
SourceLocation  RParenLoc,
BuildForRangeKind  Kind 
)

ActOnCXXForRangeStmt - Check and build a C++11 for-range statement.

C++11 [stmt.ranged]: A range-based for statement is equivalent to

{ auto && __range = range-init; for ( auto __begin = begin-expr, __end = end-expr; __begin != __end; ++__begin ) { for-range-declaration = *__begin; statement } }

The body of the loop is not available yet, since it cannot be analysed until we have determined the type of the for-range-declaration.

Definition at line 2054 of file SemaStmt.cpp.

◆ ActOnCXXGlobalScopeSpecifier()

bool Sema::ActOnCXXGlobalScopeSpecifier ( SourceLocation  CCLoc,
CXXScopeSpec SS 
)

The parser has parsed a global nested-name-specifier '::'.

Parameters
CCLocThe location of the '::'.
SSThe nested-name-specifier, which will be updated in-place to reflect the parsed nested-name-specifier.
Returns
true if an error occurred, false otherwise.

Definition at line 271 of file SemaCXXScopeSpec.cpp.

References Context, and clang::CXXScopeSpec::MakeGlobal().

◆ ActOnCXXMemberDeclarator()

NamedDecl * Sema::ActOnCXXMemberDeclarator ( Scope S,
AccessSpecifier  AS,
Declarator D,
MultiTemplateParamsArg  TemplateParameterLists,
Expr BW,
const VirtSpecifiers VS,
InClassInitStyle  InitStyle 
)

ActOnCXXMemberDeclarator - This is invoked when a C++ class member declarator is parsed.

'AS' is the access specifier, 'BW' specifies the bitfield width if there is one, 'InitExpr' specifies the initializer if one has been parsed, and 'InitStyle' is set if an in-class initializer is present (but parsing it has been deferred).

Definition at line 2898 of file SemaDeclCXX.cpp.

References clang::Declarator::getDeclSpec().

◆ ActOnCXXNamedCast()

ExprResult Sema::ActOnCXXNamedCast ( SourceLocation  OpLoc,
tok::TokenKind  Kind,
SourceLocation  LAngleBracketLoc,
Declarator D,
SourceLocation  RAngleBracketLoc,
SourceLocation  LParenLoc,
Expr E,
SourceLocation  RParenLoc 
)

ActOnCXXNamedCast - Parse {dynamic,static,reinterpret,const}_cast's.

Definition at line 232 of file SemaCast.cpp.

Referenced by addConstexprToLambdaDeclSpecifier().

◆ ActOnCXXNestedNameSpecifier() [1/2]

bool Sema::ActOnCXXNestedNameSpecifier ( Scope S,
NestedNameSpecInfo IdInfo,
bool  EnteringContext,
CXXScopeSpec SS,
bool  ErrorRecoveryLookup = false,
bool IsCorrectedToColon = nullptr,
bool  OnlyNamespace = false 
)

The parser has parsed a nested-name-specifier 'identifier::'.

Parameters
SThe scope in which this nested-name-specifier occurs.
IdInfoParser information about an identifier in the nested-name-spec.
EnteringContextWhether we're entering the context nominated by this nested-name-specifier.
SSThe nested-name-specifier, which is both an input parameter (the nested-name-specifier before this type) and an output parameter (containing the full nested-name-specifier, including this new type).
ErrorRecoveryLookupIf true, then this method is called to improve error recovery. In this case do not emit error message.
IsCorrectedToColonIf not null, suggestions to replace '::' -> ':' are allowed. The bool value pointed by this parameter is set to 'true' if the identifier is treated as if it was followed by ':', not '::'.
OnlyNamespaceIf true, only considers namespaces in lookup.
Returns
true if an error occurred, false otherwise.

Definition at line 827 of file SemaCXXScopeSpec.cpp.

◆ ActOnCXXNestedNameSpecifier() [2/2]

bool Sema::ActOnCXXNestedNameSpecifier ( Scope S,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
TemplateTy  TemplateName,
SourceLocation  TemplateNameLoc,
SourceLocation  LAngleLoc,
ASTTemplateArgsPtr  TemplateArgs,
SourceLocation  RAngleLoc,
SourceLocation  CCLoc,
bool  EnteringContext 
)

The parser has parsed a nested-name-specifier 'template[opt] template-name < template-args >::'.

Parameters
SThe scope in which this nested-name-specifier occurs.
SSThe nested-name-specifier, which is both an input parameter (the nested-name-specifier before this type) and an output parameter (containing the full nested-name-specifier, including this new type).
TemplateKWLocthe location of the 'template' keyword, if any.
TemplateNamethe template name.
TemplateNameLocThe location of the template name.
LAngleLocThe location of the opening angle bracket ('<').
TemplateArgsThe template arguments.
RAngleLocThe location of the closing angle bracket ('>').
CCLocThe location of the '::'.
EnteringContextWhether we're entering the context of the nested-name-specifier.
Returns
true if an error occurred, false otherwise.

Definition at line 882 of file SemaCXXScopeSpec.cpp.

◆ ActOnCXXNestedNameSpecifierDecltype()

bool Sema::ActOnCXXNestedNameSpecifierDecltype ( CXXScopeSpec SS,
const DeclSpec DS,
SourceLocation  ColonColonLoc 
)

◆ ActOnCXXNew()

ExprResult Sema::ActOnCXXNew ( SourceLocation  StartLoc,
bool  UseGlobal,
SourceLocation  PlacementLParen,
MultiExprArg  PlacementArgs,
SourceLocation  PlacementRParen,
SourceRange  TypeIdParens,
Declarator D,
Expr Initializer 
)

ActOnCXXNew - Parsed a C++ 'new' expression.

Parsed a C++ 'new' expression (C++ 5.3.4).

E.g.:

new (memory) int[size][4]

or

::new Foo(23, "hello")
Parameters
StartLocThe first location of the expression.
UseGlobalTrue if 'new' was prefixed with '::'.
PlacementLParenOpening paren of the placement arguments.
PlacementArgsPlacement new arguments.
PlacementRParenClosing paren of the placement arguments.
TypeIdParensIf the type is in parens, the source range.
DThe type to be allocated, as well as array dimensions.
InitializerThe initializing expression or initializer-list, or null if there is none.

Definition at line 1636 of file SemaExprCXX.cpp.

References clang::DeclaratorChunk::Arr, clang::DeclaratorChunk::Array, Diag(), clang::Declarator::DropFirstTypeObject(), clang::ExprError(), clang::Declarator::getDeclSpec(), clang::Declarator::getNumTypeObjects(), clang::Declarator::getSourceRange(), clang::Declarator::getTypeObject(), clang::DeclSpec::hasAutoTypeSpec(), clang::DeclaratorChunk::ArrayTypeInfo::hasStatic, clang::DeclaratorChunk::Kind, clang::DeclaratorChunk::Loc, and clang::DeclaratorChunk::ArrayTypeInfo::NumElts.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ ActOnCXXNullPtrLiteral()

ExprResult Sema::ActOnCXXNullPtrLiteral ( SourceLocation  Loc)

ActOnCXXNullPtrLiteral - Parse 'nullptr'.

Definition at line 708 of file SemaExprCXX.cpp.

◆ ActOnCXXThis()

ExprResult Sema::ActOnCXXThis ( SourceLocation  loc)

C++ 9.3.2: In the body of a non-static member function, the keyword this is a non-lvalue expression whose value is the address of the object for which the function is called.

Definition at line 1284 of file SemaExprCXX.cpp.

References CheckCXXThisCapture(), Context, Diag(), getCurrentThisType(), and clang::QualType::isNull().

◆ ActOnCXXThrow()

ExprResult Sema::ActOnCXXThrow ( Scope S,
SourceLocation  OpLoc,
Expr expr 
)

ActOnCXXThrow - Parse throw expressions.

Definition at line 714 of file SemaExprCXX.cpp.

◆ ActOnCXXTryBlock()

StmtResult Sema::ActOnCXXTryBlock ( SourceLocation  TryLoc,
Stmt TryBlock,
ArrayRef< Stmt *>  Handlers 
)

ActOnCXXTryBlock - Takes a try compound-statement and a number of handlers and creates a try statement from them.

Definition at line 3932 of file SemaStmt.cpp.

References Diag(), clang::sema::FunctionScopeInfo::FirstSEHTryLoc, clang::CXXCatchStmt::getExceptionDecl(), clang::CXXCatchStmt::getLocStart(), clang::Decl::isInvalidDecl(), clang::SourceLocation::isValid(), and clang::StmtError().

◆ ActOnCXXTypeConstructExpr()

ExprResult Sema::ActOnCXXTypeConstructExpr ( ParsedType  TypeRep,
SourceLocation  LParenOrBraceLoc,
MultiExprArg  exprs,
SourceLocation  RParenOrBraceLoc,
bool  ListInitialization 
)

ActOnCXXTypeConstructExpr - Parse construction of a specified type.

Parse construction of a specified type.

Can be interpreted either as function-style casting ("int(x)") or class type construction ("ClassType(x,y,z)") or creation of a value-initialized type ("int()").

Definition at line 1313 of file SemaExprCXX.cpp.

References BuildCXXTypeConstructExpr(), Context, CorrectDelayedTyposInExpr(), clang::ExprError(), clang::ASTContext::getTrivialTypeSourceInfo(), GetTypeFromParser(), and clang::Result.

◆ ActOnCXXTypeid()

ExprResult Sema::ActOnCXXTypeid ( SourceLocation  OpLoc,
SourceLocation  LParenLoc,
bool  isType,
void *  TyOrExpr,
SourceLocation  RParenLoc 
)

ActOnCXXTypeid - Parse typeid( something ).

ActOnCXXTypeidOfType - Parse typeid( type-id ) or typeid (expression);.

Definition at line 531 of file SemaExprCXX.cpp.

References Diag(), clang::ExprError(), and clang::LookupResult::getAsSingle().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ ActOnCXXUuidof()

ExprResult Sema::ActOnCXXUuidof ( SourceLocation  OpLoc,
SourceLocation  LParenLoc,
bool  isType,
void *  TyOrExpr,
SourceLocation  RParenLoc 
)

ActOnCXXUuidof - Parse __uuidof( something ).

ActOnCXXUuidof - Parse __uuidof( type-id ) or __uuidof (expression);.

Definition at line 665 of file SemaExprCXX.cpp.

Referenced by addConstexprToLambdaDeclSpecifier().

◆ ActOnDeclarator()

Decl * Sema::ActOnDeclarator ( Scope S,
Declarator D 
)

Definition at line 5205 of file SemaDecl.cpp.

◆ ActOnDeclStmt()

StmtResult Sema::ActOnDeclStmt ( DeclGroupPtrTy  Decl,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

◆ ActOnDecltypeExpression()

ExprResult Sema::ActOnDecltypeExpression ( Expr E)

Process the expression contained within a decltype.

For such expressions, certain semantic checks on temporaries are delayed until this point, and are omitted for the 'topmost' call in the decltype expression. If the topmost call bound a temporary, strip that temporary off the expression.

Definition at line 6519 of file SemaExprCXX.cpp.

References ActOnParenExpr(), Context, clang::Sema::ExpressionEvaluationContextRecord::EK_Decltype, clang::ExprError(), ExprEvalContexts, clang::ActionResult< PtrTy, CompressInvalid >::get(), and clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ ActOnDecompositionDeclarator()

NamedDecl * Sema::ActOnDecompositionDeclarator ( Scope S,
Declarator D,
MultiTemplateParamsArg  TemplateParamLists 
)

Definition at line 688 of file SemaDeclCXX.cpp.

◆ ActOnDefaultCtorInitializers()

void Sema::ActOnDefaultCtorInitializers ( Decl CDtorDecl)

Definition at line 5222 of file SemaDeclCXX.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnDefaultStmt()

StmtResult Sema::ActOnDefaultStmt ( SourceLocation  DefaultLoc,
SourceLocation  ColonLoc,
Stmt SubStmt,
Scope CurScope 
)

Definition at line 480 of file SemaStmt.cpp.

References Diag().

◆ ActOnDefs()

void Sema::ActOnDefs ( Scope S,
Decl TagD,
SourceLocation  DeclStart,
IdentifierInfo ClassName,
SmallVectorImpl< Decl *> &  Decls 
)

Called whenever @defs(ClassName) is encountered in the source.

Inserts the instance variables of ClassName into Decls.

Definition at line 4791 of file SemaDeclObjC.cpp.

◆ ActOnDelayedCXXMethodParameter()

void Sema::ActOnDelayedCXXMethodParameter ( Scope S,
Decl ParamD 
)

ActOnDelayedCXXMethodParameter - We've already started a delayed C++ method declaration.

We're (re-)introducing the given function parameter into scope for use in parsing later parts of the method declaration. For example, we could see an ActOnParamDefaultArgument event for this parameter.

Definition at line 7983 of file SemaDeclCXX.cpp.

References clang::Scope::AddDecl(), clang::NamedDecl::getDeclName(), clang::ParmVarDecl::hasUnparsedDefaultArg(), and clang::ParmVarDecl::setDefaultArg().

◆ actOnDelayedExceptionSpecification()

void Sema::actOnDelayedExceptionSpecification ( Decl Method,
ExceptionSpecificationType  EST,
SourceRange  SpecificationRange,
ArrayRef< ParsedType DynamicExceptions,
ArrayRef< SourceRange DynamicExceptionRanges,
Expr NoexceptExpr 
)

Add an exception-specification to the given member function (or member function template).

The exception-specification was parsed after the method itself was declared.

Definition at line 15336 of file SemaDeclCXX.cpp.

◆ ActOnDependentIdExpression()

ExprResult Sema::ActOnDependentIdExpression ( const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
const DeclarationNameInfo NameInfo,
bool  isAddressOfOperand,
const TemplateArgumentListInfo TemplateArgs 
)

ActOnDependentIdExpression - Handle a dependent id-expression that was just parsed.

This is only possible with an explicit scope specifier naming a dependent type.

Definition at line 603 of file SemaTemplate.cpp.

References clang::CXXScopeSpec::getScopeRep().

◆ ActOnDependentMemberExpr()

ExprResult Sema::ActOnDependentMemberExpr ( Expr Base,
QualType  BaseType,
bool  IsArrow,
SourceLocation  OpLoc,
const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
NamedDecl FirstQualifierInScope,
const DeclarationNameInfo NameInfo,
const TemplateArgumentListInfo TemplateArgs 
)

◆ ActOnDependentTag()

TypeResult Sema::ActOnDependentTag ( Scope S,
unsigned  TagSpec,
TagUseKind  TUK,
const CXXScopeSpec SS,
IdentifierInfo Name,
SourceLocation  TagLoc,
SourceLocation  NameLoc 
)

Definition at line 9376 of file SemaTemplate.cpp.

◆ ActOnDependentTemplateName()

TemplateNameKind Sema::ActOnDependentTemplateName ( Scope S,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
const UnqualifiedId Name,
ParsedType  ObjectType,
bool  EnteringContext,
TemplateTy Result,
bool  AllowInjectedClassName = false 
)

Form a dependent template name.

This action forms a dependent template name given the template name and its (presumably dependent) scope specifier. For example, given "MetaFun::template apply", the scope specifier SS will be "MetaFun::", TemplateKWLoc contains the location of the "template" keyword, and "apply" is the Name.

Definition at line 4173 of file SemaTemplate.cpp.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ ActOnDesignatedInitializer()

ExprResult Sema::ActOnDesignatedInitializer ( Designation Desig,
SourceLocation  Loc,
bool  GNUSyntax,
ExprResult  Init 
)

◆ ActOnDocumentableDecl()

void Sema::ActOnDocumentableDecl ( Decl D)

Should be called on all declarations that might have attached documentation comments.

Definition at line 12239 of file SemaDecl.cpp.

◆ ActOnDocumentableDecls()

void Sema::ActOnDocumentableDecls ( ArrayRef< Decl *>  Group)

Definition at line 12243 of file SemaDecl.cpp.

◆ ActOnDoStmt()

StmtResult Sema::ActOnDoStmt ( SourceLocation  DoLoc,
Stmt Body,
SourceLocation  WhileLoc,
SourceLocation  CondLParen,
Expr Cond,
SourceLocation  CondRParen 
)

◆ ActOnDuplicateDefinition()

bool Sema::ActOnDuplicateDefinition ( DeclSpec DS,
Decl Prev,
SkipBodyInfo SkipBody 
)

Perform ODR-like check for C/ObjC when merging tag types from modules.

Differently from C++, actually parse the body and reject / error out in case of a structural mismatch.

Definition at line 14830 of file SemaDecl.cpp.

References clang::Sema::SkipBodyInfo::New, and clang::Sema::SkipBodyInfo::Previous.

◆ ActOnEmptyDeclaration()

Decl * Sema::ActOnEmptyDeclaration ( Scope S,
const ParsedAttributesView AttrList,
SourceLocation  SemiLoc 
)

Handle a C++11 empty-declaration and attribute-declaration.

Definition at line 13536 of file SemaDeclCXX.cpp.

References clang::EmptyDecl::Create().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnEndOfTranslationUnit()

void Sema::ActOnEndOfTranslationUnit ( )

ActOnEndOfTranslationUnit - This is called at the very end of the translation unit when EOF is reached and all but the top-level scope is popped.

Definition at line 855 of file Sema.cpp.

References clang::LazyVector< T, Source, Loader, LoadedStorage, LocalStorage >::begin(), CheckDelayedMemberExceptionSpecs(), CheckDelegatingCtorCycles(), checkUndefinedButUsed(), clang::LangOptions::CMK_ModuleInterface, DefineUsedVTables(), DelayedDefaultedMemberExceptionSpecs, DelayedDllExportClasses, DelayedExceptionSpecChecks, Diag(), DiagnoseUnterminatedPragmaAttribute(), DiagnoseUnterminatedPragmaPack(), DiagnoseUseOfUnimplementedSelectors(), Diags, clang::LazyVector< T, Source, Loader, LoadedStorage, LocalStorage >::end(), clang::LazyVector< T, Source, Loader, LoadedStorage, LocalStorage >::erase(), clang::ExpectedVariableOrFunction, clang::Preprocessor::getCurrentModule(), clang::Sema::DelayedDiagnostics::getCurrentPool(), clang::Preprocessor::getHeaderSearchInfo(), getLangOpts(), clang::HeaderSearch::getModuleMap(), getSourceManager(), clang::DiagnosticsEngine::hasErrorOccurred(), clang::Preprocessor::isCodeCompletionEnabled(), clang::DiagnosticsEngine::isIgnored(), clang::Preprocessor::isIncrementalProcessingEnabled(), LangOpts, LateParsedInstantiations, LateTemplateParserCleanup, LoadExternalWeakUndeclaredIdentifiers(), LookupOrdinaryName, LookupSingleName(), clang::Module::ModuleInterfaceUnit, OpaqueParser, PendingInstantiations, PerformPendingInstantiations(), PP, clang::ExternalSemaSource::ReadPendingInstantiations(), clang::ExternalSemaSource::ReadUndefinedButUsed(), ShouldRemoveFromUnused(), clang::TU_Module, clang::TU_Prefix, TUKind, TUScope, UndefinedButUsed, UnusedFileScopedDecls, and WeakUndeclaredIdentifiers.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnEnumBody()

void Sema::ActOnEnumBody ( SourceLocation  EnumLoc,
SourceRange  BraceRange,
Decl EnumDecl,
ArrayRef< Decl *>  Elements,
Scope S,
const ParsedAttributesView Attr 
)

◆ ActOnEnumConstant()

Decl * Sema::ActOnEnumConstant ( Scope S,
Decl EnumDecl,
Decl LastEnumConstant,
SourceLocation  IdLoc,
IdentifierInfo Id,
const ParsedAttributesView Attrs,
SourceLocation  EqualLoc,
Expr Val 
)

Definition at line 16278 of file SemaDecl.cpp.

◆ ActOnExceptionDeclarator()

Decl * Sema::ActOnExceptionDeclarator ( Scope S,
Declarator D 
)

ActOnExceptionDeclarator - Parsed the exception-declarator in a C++ catch handler.

Definition at line 13678 of file SemaDeclCXX.cpp.

References clang::Declarator::getIdentifierLoc(), and clang::Declarator::isInvalidType().

◆ ActOnExitFunctionContext()

void Sema::ActOnExitFunctionContext ( )

Definition at line 1310 of file SemaDecl.cpp.

◆ ActOnExplicitInstantiation() [1/3]

DeclResult Sema::ActOnExplicitInstantiation ( Scope S,
SourceLocation  ExternLoc,
SourceLocation  TemplateLoc,
unsigned  TagSpec,
SourceLocation  KWLoc,
const CXXScopeSpec SS,
TemplateTy  Template,
SourceLocation  TemplateNameLoc,
SourceLocation  LAngleLoc,
ASTTemplateArgsPtr  TemplateArgs,
SourceLocation  RAngleLoc,
const ParsedAttributesView Attr 
)

Definition at line 8583 of file SemaTemplate.cpp.

◆ ActOnExplicitInstantiation() [2/3]

DeclResult Sema::ActOnExplicitInstantiation ( Scope S,
SourceLocation  ExternLoc,
SourceLocation  TemplateLoc,
unsigned  TagSpec,
SourceLocation  KWLoc,
CXXScopeSpec SS,
IdentifierInfo Name,
SourceLocation  NameLoc,
const ParsedAttributesView Attr 
)

Definition at line 8864 of file SemaTemplate.cpp.

◆ ActOnExplicitInstantiation() [3/3]

DeclResult Sema::ActOnExplicitInstantiation ( Scope S,
SourceLocation  ExternLoc,
SourceLocation  TemplateLoc,
Declarator D 
)

Definition at line 8983 of file SemaTemplate.cpp.

◆ ActOnExpressionTrait()

ExprResult Sema::ActOnExpressionTrait ( ExpressionTrait  OET,
SourceLocation  KWLoc,
Expr Queried,
SourceLocation  RParen 
)

ActOnExpressionTrait - Parsed one of the unary type trait support pseudo-functions.

Definition at line 5319 of file SemaExprCXX.cpp.

References BuildExpressionTrait(), clang::ExprError(), and clang::Result.

Referenced by TypeTraitArity().

◆ ActOnExprStmt()

StmtResult Sema::ActOnExprStmt ( ExprResult  Arg)

◆ ActOnExprStmtError()

StmtResult Sema::ActOnExprStmtError ( )

Definition at line 63 of file SemaStmt.cpp.

References clang::StmtError().

◆ ActOnField()

Decl * Sema::ActOnField ( Scope S,
Decl TagD,
SourceLocation  DeclStart,
Declarator D,
Expr BitfieldWidth 
)

ActOnField - Each field of a C struct/union is passed into this in order to create a FieldDecl object for it.

Definition at line 15044 of file SemaDecl.cpp.

◆ ActOnFields()

void Sema::ActOnFields ( Scope S,
SourceLocation  RecLoc,
Decl TagDecl,
ArrayRef< Decl *>  Fields,
SourceLocation  LBrac,
SourceLocation  RBrac,
const ParsedAttributesView AttrList 
)

A field cannot be an Objective-c object

Definition at line 15581 of file SemaDecl.cpp.

Referenced by InstantiateClass().

◆ ActOnFileScopeAsmDecl()

Decl * Sema::ActOnFileScopeAsmDecl ( Expr expr,
SourceLocation  AsmLoc,
SourceLocation  RParenLoc 
)

◆ ActOnFinishCXXInClassMemberInitializer()

void Sema::ActOnFinishCXXInClassMemberInitializer ( Decl D,
SourceLocation  InitLoc,
Expr InitExpr 
)

◆ ActOnFinishCXXMemberDecls()

void Sema::ActOnFinishCXXMemberDecls ( )

Perform any semantic analysis which needs to be delayed until all pending class member declarations have been parsed.

Definition at line 11165 of file SemaDeclCXX.cpp.

References checkForMultipleExportedDefaultConstructors().

◆ ActOnFinishCXXMemberSpecification()

void Sema::ActOnFinishCXXMemberSpecification ( Scope S,
SourceLocation  RLoc,
Decl TagDecl,
SourceLocation  LBrac,
SourceLocation  RBrac,
const ParsedAttributesView AttrList 
)

Definition at line 7789 of file SemaDeclCXX.cpp.

References Diag().

◆ ActOnFinishCXXNonNestedClass()

void Sema::ActOnFinishCXXNonNestedClass ( Decl D)

Definition at line 11177 of file SemaDeclCXX.cpp.

Referenced by InstantiateClass().

◆ ActOnFinishDelayedAttribute()

void Sema::ActOnFinishDelayedAttribute ( Scope S,
Decl D,
ParsedAttributes Attrs 
)

ActOnFinishDelayedAttribute - Invoked when we have finished parsing an attribute for which parsing is delayed.

When we finish delayed parsing of an attribute, we must attach it to the relevant Decl.

Definition at line 13302 of file SemaDecl.cpp.

◆ ActOnFinishDelayedCXXMethodDeclaration()

void Sema::ActOnFinishDelayedCXXMethodDeclaration ( Scope S,
Decl MethodD 
)

ActOnFinishDelayedCXXMethodDeclaration - We have finished processing the delayed method declaration for Method.

The method declaration is now considered finished. There may be a separate ActOnStartOfFunctionDef action later (not necessarily immediately!) for this method, if it was also defined inside the class body.

Definition at line 8005 of file SemaDeclCXX.cpp.

References clang::Decl::isInvalidDecl().

◆ ActOnFinishDelayedMemberDeclarations()

void Sema::ActOnFinishDelayedMemberDeclarations ( Scope S,
Decl Record 
)

Definition at line 7950 of file SemaDeclCXX.cpp.

◆ ActOnFinishDelayedMemberInitializers()

void Sema::ActOnFinishDelayedMemberInitializers ( Decl Record)

Definition at line 10882 of file SemaDeclCXX.cpp.

◆ ActOnFinishExportDecl()

Decl * Sema::ActOnFinishExportDecl ( Scope S,
Decl ExportDecl,
SourceLocation  RBraceLoc 
)

Complete the definition of an export declaration.

Definition at line 17123 of file SemaDecl.cpp.

◆ ActOnFinishFullExpr() [1/2]

ExprResult clang::Sema::ActOnFinishFullExpr ( Expr Expr)
inline

Definition at line 5317 of file Sema.h.

References getCurrentInstantiationOf(), and clang::Expr::getExprLoc().

Referenced by checkOpenMPLoop(), and FinishOpenMPLinearClause().

◆ ActOnFinishFullExpr() [2/2]

ExprResult Sema::ActOnFinishFullExpr ( Expr Expr,
SourceLocation  CC,
bool  DiscardedValue = false,
bool  IsConstexpr = false,
bool  IsLambdaInitCaptureInitializer = false 
)

◆ ActOnFinishFullStmt()

StmtResult Sema::ActOnFinishFullStmt ( Stmt Stmt)

Definition at line 7868 of file SemaExprCXX.cpp.

References MaybeCreateStmtWithCleanups(), and clang::StmtError().

◆ ActOnFinishFunctionBody() [1/2]

Decl * Sema::ActOnFinishFunctionBody ( Decl Decl,
Stmt Body 
)

Definition at line 12989 of file SemaDecl.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnFinishFunctionBody() [2/2]

Decl * Sema::ActOnFinishFunctionBody ( Decl Decl,
Stmt Body,
bool  IsInstantiation 
)

◆ ActOnFinishInlineFunctionDef()

void Sema::ActOnFinishInlineFunctionDef ( FunctionDecl D)

Definition at line 12584 of file SemaDecl.cpp.

◆ ActOnFinishKNRParamDeclarations()

void Sema::ActOnFinishKNRParamDeclarations ( Scope S,
Declarator D,
SourceLocation  LocAfterDecls 
)

Definition at line 12535 of file SemaDecl.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnFinishLinkageSpecification()

Decl * Sema::ActOnFinishLinkageSpecification ( Scope S,
Decl LinkageSpec,
SourceLocation  RBraceLoc 
)

ActOnFinishLinkageSpecification - Complete the definition of the C++ linkage specification LinkageSpec.

If RBraceLoc is valid, it's the position of the closing '}' brace in a linkage specification that uses braces.

Definition at line 13525 of file SemaDeclCXX.cpp.

References clang::SourceLocation::isValid(), and clang::LinkageSpecDecl::setRBraceLoc().

◆ ActOnFinishNamespaceDef()

void Sema::ActOnFinishNamespaceDef ( Decl Dcl,
SourceLocation  RBrace 
)

ActOnFinishNamespaceDef - This callback is called after a namespace is exited.

Decl is the DeclTy returned by ActOnStartNamespaceDef.

Definition at line 8882 of file SemaDeclCXX.cpp.

References clang::Decl::hasAttr(), and clang::NamespaceDecl::setRBraceLoc().

◆ ActOnFinishObjCImplementation()

Sema::DeclGroupPtrTy Sema::ActOnFinishObjCImplementation ( Decl ObjCImpDecl,
ArrayRef< Decl *>  Decls 
)

◆ ActOnFinishOfCompoundStmt()

void Sema::ActOnFinishOfCompoundStmt ( )

Definition at line 344 of file SemaStmt.cpp.

◆ ActOnFinishOpenMPDeclareTargetDirective()

void Sema::ActOnFinishOpenMPDeclareTargetDirective ( )

Called at the end of target region i.e. '#pragme omp end declare target'.

Definition at line 12963 of file SemaOpenMP.cpp.

◆ ActOnFinishSEHFinallyBlock()

StmtResult Sema::ActOnFinishSEHFinallyBlock ( SourceLocation  Loc,
Stmt Block 
)

Definition at line 4088 of file SemaStmt.cpp.

References clang::SEHFinallyStmt::Create().

◆ ActOnFinishSwitchStmt()

StmtResult Sema::ActOnFinishSwitchStmt ( SourceLocation  SwitchLoc,
Stmt Switch,
Stmt Body 
)

◆ ActOnForEachDeclStmt()

void Sema::ActOnForEachDeclStmt ( DeclGroupPtrTy  Decl)

◆ ActOnForEachLValueExpr()

StmtResult Sema::ActOnForEachLValueExpr ( Expr E)

In an Objective C collection iteration statement: for (x in y) x can be an arbitrary l-value expression.

Bind it up as a full-expression.

Definition at line 1775 of file SemaStmt.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), and clang::StmtError().

◆ ActOnForStmt()

StmtResult Sema::ActOnForStmt ( SourceLocation  ForLoc,
SourceLocation  LParenLoc,
Stmt First,
ConditionResult  Second,
FullExprArg  Third,
SourceLocation  RParenLoc,
Stmt Body 
)

◆ ActOnForwardClassDeclaration()

Sema::DeclGroupPtrTy Sema::ActOnForwardClassDeclaration ( SourceLocation  Loc,
IdentifierInfo **  IdentList,
SourceLocation IdentLocs,
ArrayRef< ObjCTypeParamList *>  TypeParamLists,
unsigned  NumElts 
)

◆ ActOnForwardProtocolDeclaration()

Sema::DeclGroupPtrTy Sema::ActOnForwardProtocolDeclaration ( SourceLocation  AtProtoclLoc,
ArrayRef< IdentifierLocPair IdentList,
const ParsedAttributesView attrList 
)

◆ ActOnFriendFunctionDecl()

NamedDecl * Sema::ActOnFriendFunctionDecl ( Scope S,
Declarator D,
MultiTemplateParamsArg  TemplateParams 
)

◆ ActOnFriendTypeDecl()

Decl * Sema::ActOnFriendTypeDecl ( Scope S,
const DeclSpec DS,
MultiTemplateParamsArg  TempParams 
)

Handle a friend type declaration.

This works in tandem with ActOnTag.

Notes on friend class templates:

We generally treat friend class declarations as if they were declaring a class. So, for example, the elaborated type specifier in a friend declaration is required to obey the restrictions of a class-head (i.e. no typedefs in the scope chain), template parameters are required to match up with simple template-ids, &c. However, unlike when declaring a template specialization, it's okay to refer to a template specialization without an empty template parameter declaration, e.g. friend class A<T>::B<unsigned>; We permit this as a special case; if there are any template parameters present at all, require proper matching, i.e. template <> template <class T> friend class A<int>::B;

Definition at line 14013 of file SemaDeclCXX.cpp.

References clang::FriendTemplateDecl::Create(), Diag(), clang::DeclSpec::getLocStart(), clang::DeclSpec::getSourceRange(), clang::DeclSpec::getStorageClassSpec(), clang::TypeSourceInfo::getType(), clang::Type::isElaboratedTypeSpecifier(), clang::DeclSpec::isFriendSpecified(), clang::MemberContext, and clang::DeclSpec::SCS_unspecified.

◆ ActOnFunctionDeclarator()

NamedDecl * Sema::ActOnFunctionDeclarator ( Scope S,
Declarator D,
DeclContext DC,
TypeSourceInfo TInfo,
LookupResult Previous,
MultiTemplateParamsArg  TemplateParamLists,
bool AddToScope 
)

Definition at line 8340 of file SemaDecl.cpp.

◆ ActOnGCCAsmStmt()

StmtResult Sema::ActOnGCCAsmStmt ( SourceLocation  AsmLoc,
bool  IsSimple,
bool  IsVolatile,
unsigned  NumOutputs,
unsigned  NumInputs,
IdentifierInfo **  Names,
MultiExprArg  Constraints,
MultiExprArg  Exprs,
Expr AsmString,
MultiExprArg  Clobbers,
SourceLocation  RParenLoc 
)

◆ ActOnGenericSelectionExpr()

ExprResult Sema::ActOnGenericSelectionExpr ( SourceLocation  KeyLoc,
SourceLocation  DefaultLoc,
SourceLocation  RParenLoc,
Expr ControllingExpr,
ArrayRef< ParsedType ArgTypes,
ArrayRef< Expr *>  ArgExprs 
)

Definition at line 1306 of file SemaExpr.cpp.

◆ ActOnGNUNullExpr()

ExprResult Sema::ActOnGNUNullExpr ( SourceLocation  TokenLoc)

Definition at line 13644 of file SemaExpr.cpp.

◆ ActOnGotoStmt()

StmtResult Sema::ActOnGotoStmt ( SourceLocation  GotoLoc,
SourceLocation  LabelLoc,
LabelDecl TheDecl 
)

Definition at line 2775 of file SemaStmt.cpp.

References clang::Decl::markUsed().

◆ ActOnIdExpression()

ExprResult Sema::ActOnIdExpression ( Scope S,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
UnqualifiedId Id,
bool  HasTrailingLParen,
bool  IsAddressOfOperand,
std::unique_ptr< CorrectionCandidateCallback CCC = nullptr,
bool  IsInlineAsmIdentifier = false,
Token KeywordReplacement = nullptr 
)

◆ ActOnIfStmt()

StmtResult Sema::ActOnIfStmt ( SourceLocation  IfLoc,
bool  IsConstexpr,
Stmt InitStmt,
ConditionResult  Cond,
Stmt ThenVal,
SourceLocation  ElseLoc,
Stmt ElseVal 
)

Definition at line 541 of file SemaStmt.cpp.

References clang::Sema::ConditionResult::isInvalid().

◆ ActOnIndirectGotoStmt()

StmtResult Sema::ActOnIndirectGotoStmt ( SourceLocation  GotoLoc,
SourceLocation  StarLoc,
Expr DestExp 
)

Definition at line 2784 of file SemaStmt.cpp.

References clang::Expr::getType(), and clang::Expr::isTypeDependent().

◆ ActOnInitializerError()

void Sema::ActOnInitializerError ( Decl D)

ActOnInitializerError - Given that there was an error parsing an initializer for the given declaration, try to return to some form of sanity.

Definition at line 11353 of file SemaDecl.cpp.

References clang::Decl::getLocation(), clang::ValueDecl::getType(), clang::Type::isDependentType(), clang::Decl::isInvalidDecl(), and clang::Decl::setInvalidDecl().

◆ ActOnInitList()

ExprResult Sema::ActOnInitList ( SourceLocation  LBraceLoc,
MultiExprArg  InitArgList,
SourceLocation  RBraceLoc 
)

◆ ActOnInstanceMessage()

ExprResult Sema::ActOnInstanceMessage ( Scope S,
Expr Receiver,
Selector  Sel,
SourceLocation  LBracLoc,
ArrayRef< SourceLocation SelectorLocs,
SourceLocation  RBracLoc,
MultiExprArg  Args 
)

◆ ActOnIntegerConstant()

ExprResult Sema::ActOnIntegerConstant ( SourceLocation  Loc,
uint64_t  Val 
)

Definition at line 3153 of file SemaExpr.cpp.

Referenced by checkOpenMPLoop(), and FinishOpenMPLinearClause().

◆ ActOnIvar()

Decl * Sema::ActOnIvar ( Scope S,
SourceLocation  DeclStart,
Declarator D,
Expr BitfieldWidth,
tok::ObjCKeywordKind  Visibility 
)

ActOnIvar - Each ivar field of an objective-c class is passed into this in order to create an IvarDecl object for it.

Definition at line 15433 of file SemaDecl.cpp.

◆ ActOnLabelStmt()

StmtResult Sema::ActOnLabelStmt ( SourceLocation  IdentLoc,
LabelDecl TheDecl,
SourceLocation  ColonLoc,
Stmt SubStmt 
)

◆ ActOnLambdaError()

void Sema::ActOnLambdaError ( SourceLocation  StartLoc,
Scope CurScope,
bool  IsInstantiation = false 
)

ActOnLambdaError - If there is an error parsing a lambda, this callback is invoked to pop the information about the lambda.

Definition at line 1164 of file SemaLambda.cpp.

References clang::RecordDecl::fields(), clang::Decl::getLocation(), clang::sema::LambdaScopeInfo::Lambda, and clang::Decl::setInvalidDecl().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ ActOnLambdaExpr()

ExprResult Sema::ActOnLambdaExpr ( SourceLocation  StartLoc,
Stmt Body,
Scope CurScope 
)

ActOnLambdaExpr - This is called when the body of a lambda expression was successfully completed.

Definition at line 1441 of file SemaLambda.cpp.

References clang::sema::LambdaScopeInfo::CallOperator, and clang::Stmt::getLocEnd().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ actOnLambdaInitCaptureInitialization()

ParsedType clang::Sema::actOnLambdaInitCaptureInitialization ( SourceLocation  Loc,
bool  ByRef,
IdentifierInfo Id,
LambdaCaptureInitKind  InitKind,
Expr *&  Init 
)
inline

Perform initialization analysis of the init-capture and perform any implicit conversions such as an lvalue-to-rvalue conversion if not being used to initialize a reference.

Definition at line 5561 of file Sema.h.

◆ ActOnLastBitfield()

void Sema::ActOnLastBitfield ( SourceLocation  DeclLoc,
SmallVectorImpl< Decl *> &  AllIvarDecls 
)

ActOnLastBitfield - This routine handles synthesized bitfields rules for class and class extensions.

For every class @interface and class extension @interface, if the last ivar is a bitfield of any type, then add an implicit char :0 ivar to the end of that interface.

Definition at line 15547 of file SemaDecl.cpp.

References clang::FieldDecl::isBitField(), and clang::FieldDecl::isZeroLengthBitField().

◆ ActOnMemberAccessExpr()

ExprResult Sema::ActOnMemberAccessExpr ( Scope S,
Expr Base,
SourceLocation  OpLoc,
tok::TokenKind  OpKind,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
UnqualifiedId Id,
Decl ObjCImpDecl 
)

The main callback when the parser finds something like expression .

[nested-name-specifier] identifier expression -> [nested-name-specifier] identifier where 'identifier' encompasses a fairly broad spectrum of possibilities, including destructor and operator references.

Parameters
OpKindeither tok::arrow or tok::period
ObjCImpDeclthe current Objective-C @implementation decl; this is an ugly hack around the fact that Objective-C @implementations aren't properly put in the context chain

Definition at line 1668 of file SemaExprMember.cpp.

References Diag(), clang::ExprError(), clang::SourceRange::getBegin(), clang::UnqualifiedId::getKind(), clang::UnqualifiedId::getSourceRange(), clang::IK_ConstructorName, clang::CXXScopeSpec::isInvalid(), and clang::CXXScopeSpec::isSet().

◆ ActOnMemInitializer() [1/2]

MemInitResult Sema::ActOnMemInitializer ( Decl ConstructorD,
Scope S,
CXXScopeSpec SS,
IdentifierInfo MemberOrBase,
ParsedType  TemplateTypeTy,
const DeclSpec DS,
SourceLocation  IdLoc,
SourceLocation  LParenLoc,
ArrayRef< Expr *>  Args,
SourceLocation  RParenLoc,
SourceLocation  EllipsisLoc 
)

Handle a C++ member initializer using parentheses syntax.

Definition at line 3729 of file SemaDeclCXX.cpp.

◆ ActOnMemInitializer() [2/2]

MemInitResult Sema::ActOnMemInitializer ( Decl ConstructorD,
Scope S,
CXXScopeSpec SS,
IdentifierInfo MemberOrBase,
ParsedType  TemplateTypeTy,
const DeclSpec DS,
SourceLocation  IdLoc,
Expr InitList,
SourceLocation  EllipsisLoc 
)

Handle a C++ member initializer using braced-init-list syntax.

Definition at line 3713 of file SemaDeclCXX.cpp.

◆ ActOnMemInitializers()

void Sema::ActOnMemInitializers ( Decl ConstructorDecl,
SourceLocation  ColonLoc,
ArrayRef< CXXCtorInitializer *>  MemInits,
bool  AnyErrors 
)

ActOnMemInitializers - Handle the member initializers for a constructor.

Definition at line 5031 of file SemaDeclCXX.cpp.

References Diag(), GetKeyForMember(), clang::CXXCtorInitializer::isAnyMemberInitializer(), and clang::CXXCtorInitializer::setSourceOrder().

◆ ActOnMethodDeclaration()

Decl * Sema::ActOnMethodDeclaration ( Scope S,
SourceLocation  BeginLoc,
SourceLocation  EndLoc,
tok::TokenKind  MethodType,
ObjCDeclSpec ReturnQT,
ParsedType  ReturnType,
ArrayRef< SourceLocation SelectorLocs,
Selector  Sel,
ObjCArgInfo ArgInfo,
DeclaratorChunk::ParamInfo CParamInfo,
unsigned  CNumArgs,
const ParsedAttributesView AttrList,
tok::ObjCKeywordKind  MethodImplKind,
bool  isVariadic,
bool  MethodDefinition 
)

Definition at line 4520 of file SemaDeclObjC.cpp.

◆ ActOnModuleBegin()

void Sema::ActOnModuleBegin ( SourceLocation  DirectiveLoc,
Module Mod 
)

The parsed has entered a submodule.

Definition at line 17013 of file SemaDecl.cpp.

References checkModuleImportContext(), clang::Decl::Visible, and clang::Decl::VisibleWhenImported.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnModuleDecl()

Sema::DeclGroupPtrTy Sema::ActOnModuleDecl ( SourceLocation  StartLoc,
SourceLocation  ModuleLoc,
ModuleDeclKind  MDK,
ModuleIdPath  Path 
)

The parser has processed a module-declaration that begins the definition of a module interface or implementation.

Definition at line 16804 of file SemaDecl.cpp.

References clang::Module::AllVisible, clang::LangOptions::CMK_ModuleInterface, clang::LangOptions::CMK_ModuleMap, clang::LangOptions::CMK_None, clang::FixItHint::CreateInsertion(), Diag(), and clang::Module::ModuleInterfaceUnit.

◆ ActOnModuleEnd()

void Sema::ActOnModuleEnd ( SourceLocation  DirectiveLoc,
Module Mod 
)

The parser has left a submodule.

Definition at line 17037 of file SemaDecl.cpp.

References clang::Decl::Unowned.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnModuleImport()

DeclResult Sema::ActOnModuleImport ( SourceLocation  AtLoc,
SourceLocation  ImportLoc,
ModuleIdPath  Path 
)

The parser has processed a module import declaration.

Parameters
AtLocThe location of the '@' symbol, if any.
ImportLocThe location of the 'import' keyword.
PathThe module access path.

Definition at line 16928 of file SemaDecl.cpp.

References clang::Module::AllVisible, checkModuleImportContext(), Diag(), clang::Module::getFullModuleName(), and clang::Module::getTopLevelModuleName().

◆ ActOnModuleInclude()

void Sema::ActOnModuleInclude ( SourceLocation  DirectiveLoc,
Module Mod 
)

The parser has processed a module import translated from a #include or similar preprocessing directive.

Definition at line 16979 of file SemaDecl.cpp.

References checkModuleImportContext().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnMSAsmStmt()

StmtResult Sema::ActOnMSAsmStmt ( SourceLocation  AsmLoc,
SourceLocation  LBraceLoc,
ArrayRef< Token AsmToks,
StringRef  AsmString,
unsigned  NumOutputs,
unsigned  NumInputs,
ArrayRef< StringRef >  Constraints,
ArrayRef< StringRef >  Clobbers,
ArrayRef< Expr *>  Exprs,
SourceLocation  EndLoc 
)

Definition at line 787 of file SemaStmtAsm.cpp.

◆ ActOnMSDependentExistsStmt()

StmtResult Sema::ActOnMSDependentExistsStmt ( SourceLocation  KeywordLoc,
bool  IsIfExists,
CXXScopeSpec SS,
UnqualifiedId Name,
Stmt Nested 
)

Definition at line 4118 of file SemaStmt.cpp.

◆ ActOnMSVCUnknownTypeName()

ParsedType Sema::ActOnMSVCUnknownTypeName ( const IdentifierInfo II,
SourceLocation  NameLoc,
bool  IsTemplateTypeArg 
)

Attempt to behave like MSVC in situations where lookup of an unqualified type name has failed in a dependent context.

In these situations, we automatically form a DependentTypeName that will retry lookup in a related scope during instantiation.

Definition at line 552 of file SemaDecl.cpp.

References synthesizeCurrentNestedNameSpecifier().

◆ ActOnNamespaceAliasDef()

Decl * Sema::ActOnNamespaceAliasDef ( Scope CurScope,
SourceLocation  NamespaceLoc,
SourceLocation  AliasLoc,
IdentifierInfo Alias,
CXXScopeSpec SS,
SourceLocation  IdentLoc,
IdentifierInfo Ident 
)

◆ ActOnNoexceptExpr()

ExprResult Sema::ActOnNoexceptExpr ( SourceLocation  KeyLoc,
SourceLocation  LParen,
Expr Operand,
SourceLocation  RParen 
)

Definition at line 7205 of file SemaExprCXX.cpp.

References BuildCXXNoexceptExpr().

◆ ActOnNoexceptSpec()

ExprResult clang::Sema::ActOnNoexceptSpec ( SourceLocation  NoexceptLoc,
Expr NoexceptExpr,
ExceptionSpecificationType EST 
)

◆ ActOnNonTypeTemplateParameter()

NamedDecl * Sema::ActOnNonTypeTemplateParameter ( Scope S,
Declarator D,
unsigned  Depth,
unsigned  Position,
SourceLocation  EqualLoc,
Expr DefaultArg 
)

Definition at line 1037 of file SemaTemplate.cpp.

◆ ActOnNullStmt()

StmtResult Sema::ActOnNullStmt ( SourceLocation  SemiLoc,
bool  HasLeadingEmptyMacro = false 
)

Definition at line 68 of file SemaStmt.cpp.

◆ ActOnNumericConstant()

ExprResult Sema::ActOnNumericConstant ( const Token Tok,
Scope UDLScope = nullptr 
)

◆ ActOnObjCAtCatchStmt()

StmtResult Sema::ActOnObjCAtCatchStmt ( SourceLocation  AtLoc,
SourceLocation  RParen,
Decl Parm,
Stmt Body 
)

Definition at line 3696 of file SemaStmt.cpp.

References clang::Decl::isInvalidDecl(), and clang::StmtError().

◆ ActOnObjCAtFinallyStmt()

StmtResult Sema::ActOnObjCAtFinallyStmt ( SourceLocation  AtLoc,
Stmt Body 
)

Definition at line 3707 of file SemaStmt.cpp.

◆ ActOnObjCAtSynchronizedOperand()

ExprResult Sema::ActOnObjCAtSynchronizedOperand ( SourceLocation  atLoc,
Expr operand 
)

◆ ActOnObjCAtSynchronizedStmt()

StmtResult Sema::ActOnObjCAtSynchronizedStmt ( SourceLocation  AtLoc,
Expr SynchExpr,
Stmt SynchBody 
)

Definition at line 3805 of file SemaStmt.cpp.

◆ ActOnObjCAtThrowStmt()

StmtResult Sema::ActOnObjCAtThrowStmt ( SourceLocation  AtLoc,
Expr Throw,
Scope CurScope 
)

◆ ActOnObjCAtTryStmt()

StmtResult Sema::ActOnObjCAtTryStmt ( SourceLocation  AtLoc,
Stmt Try,
MultiStmtArg  Catch,
Stmt Finally 
)

Definition at line 3712 of file SemaStmt.cpp.

References clang::ObjCAtTryStmt::Create(), and Diag().

◆ ActOnObjCAutoreleasePoolStmt()

StmtResult Sema::ActOnObjCAutoreleasePoolStmt ( SourceLocation  AtLoc,
Stmt Body 
)

Definition at line 3823 of file SemaStmt.cpp.

◆ ActOnObjCAvailabilityCheckExpr()

ExprResult Sema::ActOnObjCAvailabilityCheckExpr ( llvm::ArrayRef< AvailabilitySpec AvailSpecs,
SourceLocation  AtLoc,
SourceLocation  RParen 
)

Definition at line 16499 of file SemaExpr.cpp.

◆ ActOnObjCBoolLiteral() [1/2]

ExprResult Sema::ActOnObjCBoolLiteral ( SourceLocation  OpLoc,
tok::TokenKind  Kind 
)

ActOnObjCBoolLiteral - Parse {__objc_yes,__objc_no} literals.

Definition at line 16480 of file SemaExpr.cpp.

◆ ActOnObjCBoolLiteral() [2/2]

ExprResult Sema::ActOnObjCBoolLiteral ( SourceLocation  AtLoc,
SourceLocation  ValueLoc,
bool  Value 
)

Definition at line 365 of file SemaExprObjC.cpp.

◆ ActOnObjCBridgedCast()

ExprResult Sema::ActOnObjCBridgedCast ( Scope S,
SourceLocation  LParenLoc,
ObjCBridgeCastKind  Kind,
SourceLocation  BridgeKeywordLoc,
ParsedType  Type,
SourceLocation  RParenLoc,
Expr SubExpr 
)

Definition at line 4488 of file SemaExprObjC.cpp.

References clang::OBC_Bridge.

◆ ActOnObjCContainerFinishDefinition()

void Sema::ActOnObjCContainerFinishDefinition ( )

Definition at line 14916 of file SemaDecl.cpp.

◆ ActOnObjCContainerStartDefinition()

Decl * Sema::ActOnObjCContainerStartDefinition ( Decl IDecl)

◆ ActOnObjCExceptionDecl()

Decl * Sema::ActOnObjCExceptionDecl ( Scope S,
Declarator D 
)

Definition at line 4878 of file SemaDeclObjC.cpp.

◆ ActOnObjCForCollectionStmt()

StmtResult Sema::ActOnObjCForCollectionStmt ( SourceLocation  ForColLoc,
Stmt First,
Expr collection,
SourceLocation  RParenLoc 
)

◆ ActOnObjCInstanceType()

ParsedType Sema::ActOnObjCInstanceType ( SourceLocation  Loc)

The parser has parsed the context-sensitive type 'instancetype' in an Objective-C message declaration.

Return the appropriate type.

Definition at line 5722 of file SemaType.cpp.

◆ actOnObjCProtocolQualifierType()

TypeResult Sema::actOnObjCProtocolQualifierType ( SourceLocation  lAngleLoc,
ArrayRef< Decl *>  protocols,
ArrayRef< SourceLocation protocolLocs,
SourceLocation  rAngleLoc 
)

Build a an Objective-C protocol-qualified 'id' type where no base type was specified.

Definition at line 1017 of file SemaType.cpp.

References clang::Result.

◆ ActOnObjCReenterContainerContext()

void Sema::ActOnObjCReenterContainerContext ( DeclContext DC)

Definition at line 14927 of file SemaDecl.cpp.

Referenced by clang::Parser::getTypeAnnotation().

◆ ActOnObjCTemporaryExitContainerContext()

void Sema::ActOnObjCTemporaryExitContainerContext ( DeclContext DC)

Invoked when we must temporarily exit the objective-c container scope for parsing/looking-up C constructs.

Must be followed by a call to

See also
ActOnObjCReenterContainerContext

Definition at line 14921 of file SemaDecl.cpp.

Referenced by clang::Parser::getTypeAnnotation().

◆ actOnObjCTypeArgsAndProtocolQualifiers()

TypeResult Sema::actOnObjCTypeArgsAndProtocolQualifiers ( Scope S,
SourceLocation  Loc,
ParsedType  BaseType,
SourceLocation  TypeArgsLAngleLoc,
ArrayRef< ParsedType TypeArgs,
SourceLocation  TypeArgsRAngleLoc,
SourceLocation  ProtocolLAngleLoc,
ArrayRef< Decl *>  Protocols,
ArrayRef< SourceLocation ProtocolLocs,
SourceLocation  ProtocolRAngleLoc 
)

Build a specialized and/or protocol-qualified Objective-C type.

Definition at line 1056 of file SemaType.cpp.

◆ actOnObjCTypeArgsOrProtocolQualifiers()

void Sema::actOnObjCTypeArgsOrProtocolQualifiers ( Scope S,
ParsedType  baseType,
SourceLocation  lAngleLoc,
ArrayRef< IdentifierInfo *>  identifiers,
ArrayRef< SourceLocation identifierLocs,
SourceLocation  rAngleLoc,
SourceLocation typeArgsLAngleLoc,
SmallVectorImpl< ParsedType > &  typeArgs,
SourceLocation typeArgsRAngleLoc,
SourceLocation protocolLAngleLoc,
SmallVectorImpl< Decl *> &  protocols,
SourceLocation protocolRAngleLoc,
bool  warnOnIncompleteProtocols 
)

Given a list of identifiers (and their locations), resolve the names to either Objective-C protocol qualifiers or type arguments, as appropriate.

Definition at line 1395 of file SemaDeclObjC.cpp.

◆ actOnObjCTypeParam()

DeclResult Sema::actOnObjCTypeParam ( Scope S,
ObjCTypeParamVariance  variance,
SourceLocation  varianceLoc,
unsigned  index,
IdentifierInfo paramName,
SourceLocation  paramLoc,
SourceLocation  colonLoc,
ParsedType  typeBound 
)

Definition at line 660 of file SemaDeclObjC.cpp.

◆ actOnObjCTypeParamList()

ObjCTypeParamList * Sema::actOnObjCTypeParamList ( Scope S,
SourceLocation  lAngleLoc,
ArrayRef< Decl *>  typeParams,
SourceLocation  rAngleLoc 
)

Definition at line 763 of file SemaDeclObjC.cpp.

◆ ActOnOMPArraySectionExpr()

ExprResult Sema::ActOnOMPArraySectionExpr ( Expr Base,
SourceLocation  LBLoc,
Expr LowerBound,
SourceLocation  ColonLoc,
Expr Length,
SourceLocation  RBLoc 
)

◆ ActOnOpenMPAlignedClause()

OMPClause * Sema::ActOnOpenMPAlignedClause ( ArrayRef< Expr *>  VarList,
Expr Alignment,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPAtomicDirective()

StmtResult Sema::ActOnOpenMPAtomicDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPBarrierDirective()

StmtResult Sema::ActOnOpenMPBarrierDirective ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp barrier'.

Definition at line 5842 of file SemaOpenMP.cpp.

References clang::OMPBarrierDirective::Create().

◆ ActOnOpenMPCancelDirective()

StmtResult Sema::ActOnOpenMPCancelDirective ( ArrayRef< OMPClause *>  Clauses,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
OpenMPDirectiveKind  CancelRegion 
)

Called on well-formed '#pragma omp cancel'.

Definition at line 6956 of file SemaOpenMP.cpp.

References clang::OMPCancelDirective::Create(), Diag(), DSAStack, and clang::StmtError().

◆ ActOnOpenMPCancellationPointDirective()

StmtResult Sema::ActOnOpenMPCancellationPointDirective ( SourceLocation  StartLoc,
SourceLocation  EndLoc,
OpenMPDirectiveKind  CancelRegion 
)

Called on well-formed '#pragma omp cancellation point'.

Definition at line 6941 of file SemaOpenMP.cpp.

References clang::OMPCancellationPointDirective::Create(), Diag(), DSAStack, and clang::StmtError().

◆ ActOnOpenMPCaptureClause()

OMPClause * Sema::ActOnOpenMPCaptureClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'capture' clause.

Definition at line 9165 of file SemaOpenMP.cpp.

◆ ActOnOpenMPClause()

OMPClause * Sema::ActOnOpenMPClause ( OpenMPClauseKind  Kind,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPCollapseClause()

OMPClause * Sema::ActOnOpenMPCollapseClause ( Expr NumForLoops,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'collapse' clause.

Definition at line 8673 of file SemaOpenMP.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ ActOnOpenMPCopyinClause()

OMPClause * Sema::ActOnOpenMPCopyinClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'copyin' clause.

Definition at line 11325 of file SemaOpenMP.cpp.

References Diag(), DSAStack, clang::getOpenMPClauseName(), and clang::getOpenMPDirectiveName().

◆ ActOnOpenMPCopyprivateClause()

OMPClause * Sema::ActOnOpenMPCopyprivateClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPCriticalDirective()

StmtResult Sema::ActOnOpenMPCriticalDirective ( const DeclarationNameInfo DirName,
ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp critical' after parsing of the associated statement.

Definition at line 5632 of file SemaOpenMP.cpp.

References clang::C, Diag(), clang::Expr::EvaluateKnownConstInt(), clang::DeclarationNameInfo::getName(), clang::Expr::isInstantiationDependent(), clang::Expr::isTypeDependent(), clang::Expr::isValueDependent(), and clang::StmtError().

◆ ActOnOpenMPDeclareReductionCombinerEnd()

void Sema::ActOnOpenMPDeclareReductionCombinerEnd ( Decl D,
Expr Combiner 
)

Finish current declare reduction construct initializer.

Definition at line 12654 of file SemaOpenMP.cpp.

◆ ActOnOpenMPDeclareReductionCombinerStart()

void Sema::ActOnOpenMPDeclareReductionCombinerStart ( Scope S,
Decl D 
)

Initialize declare reduction construct initializer.

Definition at line 12612 of file SemaOpenMP.cpp.

References buildVarDecl(), and clang::Decl::getLocation().

◆ ActOnOpenMPDeclareReductionDirectiveEnd()

Sema::DeclGroupPtrTy Sema::ActOnOpenMPDeclareReductionDirectiveEnd ( Scope S,
DeclGroupPtrTy  DeclReductions,
bool  IsValid 
)

Called at the end of '#pragma omp declare reduction'.

Definition at line 12731 of file SemaOpenMP.cpp.

References clang::OpaquePtr< PtrTy >::get(), and clang::Decl::setInvalidDecl().

◆ ActOnOpenMPDeclareReductionDirectiveStart()

Sema::DeclGroupPtrTy Sema::ActOnOpenMPDeclareReductionDirectiveStart ( Scope S,
DeclContext DC,
DeclarationName  Name,
ArrayRef< std::pair< QualType, SourceLocation >>  ReductionTypes,
AccessSpecifier  AS,
Decl PrevDeclInScope = nullptr 
)

Called on start of '#pragma omp declare reduction'.

Definition at line 12530 of file SemaOpenMP.cpp.

◆ ActOnOpenMPDeclareReductionInitializerEnd()

void Sema::ActOnOpenMPDeclareReductionInitializerEnd ( Decl D,
Expr Initializer,
VarDecl OmpPrivParm 
)

◆ ActOnOpenMPDeclareReductionInitializerStart()

VarDecl * Sema::ActOnOpenMPDeclareReductionInitializerStart ( Scope S,
Decl D 
)

Initialize declare reduction construct initializer.

Returns
omp_priv variable.

Definition at line 12668 of file SemaOpenMP.cpp.

References buildVarDecl(), and clang::Decl::getLocation().

◆ ActOnOpenMPDeclareReductionType()

QualType Sema::ActOnOpenMPDeclareReductionType ( SourceLocation  TyLoc,
TypeResult  ParsedType 
)

Check if the specified type is allowed to be used in 'omp declare reduction' construct.

Definition at line 12498 of file SemaOpenMP.cpp.

References Diag(), clang::ActionResult< PtrTy, CompressInvalid >::get(), and clang::ActionResult< PtrTy, CompressInvalid >::isUsable().

◆ ActOnOpenMPDeclareSimdDirective()

Sema::DeclGroupPtrTy Sema::ActOnOpenMPDeclareSimdDirective ( DeclGroupPtrTy  DG,
OMPDeclareSimdDeclAttr::BranchStateTy  BS,
Expr Simdlen,
ArrayRef< Expr *>  Uniforms,
ArrayRef< Expr *>  Aligneds,
ArrayRef< Expr *>  Alignments,
ArrayRef< Expr *>  Linears,
ArrayRef< unsigned >  LinModifiers,
ArrayRef< Expr *>  Steps,
SourceRange  SR 
)

Called on well-formed '#pragma omp declare simd' after parsing of the associated method/function.

Definition at line 3399 of file SemaOpenMP.cpp.

References Diag(), clang::OpaquePtr< PtrTy >::get(), clang::SourceRange::getBegin(), getCanonicalDecl(), clang::Decl::getCanonicalDecl(), clang::Decl::getLocation(), and clang::Expr::IgnoreParenImpCasts().

◆ ActOnOpenMPDeclareTargetName()

void Sema::ActOnOpenMPDeclareTargetName ( Scope CurScope,
CXXScopeSpec ScopeSpec,
const DeclarationNameInfo Id,
OMPDeclareTargetDeclAttr::MapTypeTy  MT,
NamedDeclSetType SameDirectiveDecls 
)

◆ ActOnOpenMPDefaultClause()

OMPClause * Sema::ActOnOpenMPDefaultClause ( OpenMPDefaultClauseKind  Kind,
SourceLocation  KindLoc,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'default' clause.

Definition at line 8806 of file SemaOpenMP.cpp.

References Diag(), DSAStack, getListOfPossibleValues(), clang::getOpenMPClauseName(), and clang::OMPC_DEFAULT_unknown.

◆ ActOnOpenMPDefaultmapClause()

OMPClause * Sema::ActOnOpenMPDefaultmapClause ( OpenMPDefaultmapClauseModifier  M,
OpenMPDefaultmapClauseKind  Kind,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  MLoc,
SourceLocation  KindLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'defaultmap' clause.

Definition at line 12913 of file SemaOpenMP.cpp.

References Diag(), DSAStack, clang::getOpenMPClauseName(), and clang::getOpenMPSimpleClauseTypeName().

◆ ActOnOpenMPDependClause()

OMPClause * Sema::ActOnOpenMPDependClause ( OpenMPDependClauseKind  DepKind,
SourceLocation  DepLoc,
SourceLocation  ColonLoc,
ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'depend' clause.

Definition at line 11544 of file SemaOpenMP.cpp.

References Diag(), DSAStack, getListOfPossibleValues(), clang::getOpenMPClauseName(), and clang::OMPC_DEPEND_unknown.

◆ ActOnOpenMPDeviceClause()

OMPClause * Sema::ActOnOpenMPDeviceClause ( Expr Device,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'device' clause.

Definition at line 11708 of file SemaOpenMP.cpp.

References buildPreInits(), DSAStack, getOpenMPCaptureRegionForClause(), isNonNegativeIntegerValue(), and clang::OMPD_unknown.

◆ ActOnOpenMPDistributeDirective()

StmtResult Sema::ActOnOpenMPDistributeDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

Called on well-formed '#pragma omp distribute' after parsing of the associated statement.

Definition at line 7109 of file SemaOpenMP.cpp.

References clang::OMPLoopDirective::HelperExprs::builtAll(), checkOpenMPLoop(), clang::OMPDistributeDirective::Create(), DSAStack, getCollapseNumberExpr(), and clang::StmtError().

◆ ActOnOpenMPDistributeParallelForDirective()

StmtResult Sema::ActOnOpenMPDistributeParallelForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPDistributeParallelForSimdDirective()

StmtResult Sema::ActOnOpenMPDistributeParallelForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPDistributeSimdDirective()

StmtResult Sema::ActOnOpenMPDistributeSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPDistScheduleClause()

OMPClause * Sema::ActOnOpenMPDistScheduleClause ( OpenMPDistScheduleClauseKind  Kind,
Expr ChunkSize,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  KindLoc,
SourceLocation  CommaLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPExecutableDirective()

StmtResult Sema::ActOnOpenMPExecutableDirective ( OpenMPDirectiveKind  Kind,
const DeclarationNameInfo DirName,
OpenMPDirectiveKind  CancelRegion,
ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPFinalClause()

OMPClause * Sema::ActOnOpenMPFinalClause ( Expr Condition,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPFirstprivateClause()

OMPClause * Sema::ActOnOpenMPFirstprivateClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'firstprivate' clause.

Definition at line 9524 of file SemaOpenMP.cpp.

References DSAStack, clang::QualType::getNonReferenceType(), getPrivateItem(), clang::ValueDecl::getType(), Inits, and clang::SourceLocation::isInvalid().

◆ ActOnOpenMPFlushClause()

OMPClause * Sema::ActOnOpenMPFlushClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'flush' pseudo clause.

Definition at line 11533 of file SemaOpenMP.cpp.

References OMPFlushClause::Create().

◆ ActOnOpenMPFlushDirective()

StmtResult Sema::ActOnOpenMPFlushDirective ( ArrayRef< OMPClause *>  Clauses,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp flush'.

Definition at line 5868 of file SemaOpenMP.cpp.

References clang::OMPFlushDirective::Create().

◆ ActOnOpenMPForDirective()

StmtResult Sema::ActOnOpenMPForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPForSimdDirective()

StmtResult Sema::ActOnOpenMPForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPFromClause()

OMPClause * Sema::ActOnOpenMPFromClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'from' clause.

Definition at line 13177 of file SemaOpenMP.cpp.

References checkMappableExpressionList(), OMPFromClause::Create(), and DSAStack.

◆ ActOnOpenMPGrainsizeClause()

OMPClause * Sema::ActOnOpenMPGrainsizeClause ( Expr Size,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'grainsize' clause.

Definition at line 12814 of file SemaOpenMP.cpp.

References isNonNegativeIntegerValue().

◆ ActOnOpenMPHintClause()

OMPClause * Sema::ActOnOpenMPHintClause ( Expr Hint,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'hint' clause.

Definition at line 12846 of file SemaOpenMP.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ ActOnOpenMPIdExpression()

ExprResult Sema::ActOnOpenMPIdExpression ( Scope CurScope,
CXXScopeSpec ScopeSpec,
const DeclarationNameInfo Id 
)

◆ ActOnOpenMPIfClause()

OMPClause * Sema::ActOnOpenMPIfClause ( OpenMPDirectiveKind  NameModifier,
Expr Condition,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  NameModifierLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPInReductionClause()

OMPClause * Sema::ActOnOpenMPInReductionClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc,
CXXScopeSpec ReductionIdScopeSpec,
const DeclarationNameInfo ReductionId,
ArrayRef< Expr *>  UnresolvedReductions = llvm::None 
)

Called on well-formed 'in_reduction' clause.

Definition at line 10941 of file SemaOpenMP.cpp.

References actOnOMPReductionKindClause(), clang::OMPInReductionClause::Create(), and DSAStack.

◆ ActOnOpenMPIsDevicePtrClause()

OMPClause * Sema::ActOnOpenMPIsDevicePtrClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPLastprivateClause()

OMPClause * Sema::ActOnOpenMPLastprivateClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPLinearClause()

OMPClause * Sema::ActOnOpenMPLinearClause ( ArrayRef< Expr *>  VarList,
Expr Step,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
OpenMPLinearClauseKind  LinKind,
SourceLocation  LinLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPLoopInitialization()

void Sema::ActOnOpenMPLoopInitialization ( SourceLocation  ForLoc,
Stmt Init 
)

Check if the current region is an OpenMP loop region and if it is, mark loop control variable, used in Init for loop initialization, as private by default.

Parameters
InitFirst part of the for loop.

Definition at line 4411 of file SemaOpenMP.cpp.

References buildCapture(), DSAStack, clang::DeclRefExpr::getDecl(), and clang::isOpenMPLoopDirective().

◆ ActOnOpenMPMapClause()

OMPClause * Sema::ActOnOpenMPMapClause ( OpenMPMapClauseKind  MapTypeModifier,
OpenMPMapClauseKind  MapType,
bool  IsMapTypeImplicit,
SourceLocation  MapLoc,
SourceLocation  ColonLoc,
ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'map' clause.

Definition at line 12481 of file SemaOpenMP.cpp.

References checkMappableExpressionList(), OMPMapClause::Create(), and DSAStack.

◆ ActOnOpenMPMasterDirective()

StmtResult Sema::ActOnOpenMPMasterDirective ( Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp master' after parsing of the associated statement.

Definition at line 5619 of file SemaOpenMP.cpp.

References clang::OMPMasterDirective::Create(), and clang::StmtError().

◆ ActOnOpenMPMergeableClause()

OMPClause * Sema::ActOnOpenMPMergeableClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'mergeable' clause.

Definition at line 9145 of file SemaOpenMP.cpp.

◆ ActOnOpenMPNogroupClause()

OMPClause * Sema::ActOnOpenMPNogroupClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'nogroup' clause.

Definition at line 9185 of file SemaOpenMP.cpp.

◆ ActOnOpenMPNowaitClause()

OMPClause * Sema::ActOnOpenMPNowaitClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'nowait' clause.

Definition at line 9134 of file SemaOpenMP.cpp.

References DSAStack.

◆ ActOnOpenMPNumTasksClause()

OMPClause * Sema::ActOnOpenMPNumTasksClause ( Expr NumTasks,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'num_tasks' clause.

Definition at line 12830 of file SemaOpenMP.cpp.

References isNonNegativeIntegerValue().

◆ ActOnOpenMPNumTeamsClause()

OMPClause * Sema::ActOnOpenMPNumTeamsClause ( Expr NumTeams,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'num_teams' clause.

Definition at line 12745 of file SemaOpenMP.cpp.

References buildPreInits(), DSAStack, getOpenMPCaptureRegionForClause(), isNonNegativeIntegerValue(), and clang::OMPD_unknown.

◆ ActOnOpenMPNumThreadsClause()

OMPClause * Sema::ActOnOpenMPNumThreadsClause ( Expr NumThreads,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'num_threads' clause.

Definition at line 8589 of file SemaOpenMP.cpp.

References buildPreInits(), DSAStack, getOpenMPCaptureRegionForClause(), isNonNegativeIntegerValue(), and clang::OMPD_unknown.

◆ ActOnOpenMPOrderedClause()

OMPClause * Sema::ActOnOpenMPOrderedClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc,
SourceLocation  LParenLoc = SourceLocation(),
Expr NumForLoops = nullptr 
)

◆ ActOnOpenMPOrderedDirective()

StmtResult Sema::ActOnOpenMPOrderedDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp ordered' after parsing of the associated statement.

Definition at line 5875 of file SemaOpenMP.cpp.

References clang::C, clang::OMPOrderedDirective::Create(), Diag(), DSAStack, clang::OMPClause::getLocStart(), clang::getOpenMPClauseName(), clang::getOpenMPDirectiveName(), clang::isOpenMPSimdDirective(), and clang::StmtError().

◆ ActOnOpenMPParallelDirective()

StmtResult Sema::ActOnOpenMPParallelDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp parallel' after parsing of the associated statement.

Definition at line 3645 of file SemaOpenMP.cpp.

References clang::OMPParallelDirective::Create(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPParallelForDirective()

StmtResult Sema::ActOnOpenMPParallelForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPParallelForSimdDirective()

StmtResult Sema::ActOnOpenMPParallelForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPParallelSectionsDirective()

StmtResult Sema::ActOnOpenMPParallelSectionsDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp parallel sections' after parsing of the associated statement.

Definition at line 5779 of file SemaOpenMP.cpp.

References clang::C, clang::OMPParallelSectionsDirective::Create(), Diag(), DSAStack, clang::CapturedStmt::getCapturedStmt(), clang::Stmt::getLocStart(), and clang::StmtError().

◆ ActOnOpenMPPriorityClause()

OMPClause * Sema::ActOnOpenMPPriorityClause ( Expr Priority,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'priority' clause.

Definition at line 12799 of file SemaOpenMP.cpp.

References isNonNegativeIntegerValue().

◆ ActOnOpenMPPrivateClause()

OMPClause * Sema::ActOnOpenMPPrivateClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPProcBindClause()

OMPClause * Sema::ActOnOpenMPProcBindClause ( OpenMPProcBindClauseKind  Kind,
SourceLocation  KindLoc,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'proc_bind' clause.

Definition at line 8835 of file SemaOpenMP.cpp.

References Diag(), getListOfPossibleValues(), clang::getOpenMPClauseName(), and clang::OMPC_PROC_BIND_unknown.

◆ ActOnOpenMPReadClause()

OMPClause * Sema::ActOnOpenMPReadClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'read' clause.

Definition at line 9150 of file SemaOpenMP.cpp.

◆ ActOnOpenMPReductionClause()

OMPClause * Sema::ActOnOpenMPReductionClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc,
CXXScopeSpec ReductionIdScopeSpec,
const DeclarationNameInfo ReductionId,
ArrayRef< Expr *>  UnresolvedReductions = llvm::None 
)

Called on well-formed 'reduction' clause.

Definition at line 10901 of file SemaOpenMP.cpp.

References actOnOMPReductionKindClause(), clang::OMPReductionClause::Create(), and DSAStack.

◆ ActOnOpenMPRegionEnd()

StmtResult Sema::ActOnOpenMPRegionEnd ( StmtResult  S,
ArrayRef< OMPClause *>  Clauses 
)

◆ ActOnOpenMPRegionStart()

void Sema::ActOnOpenMPRegionStart ( OpenMPDirectiveKind  DKind,
Scope CurScope 
)

Initialization of captured region for OpenMP region.

Definition at line 2204 of file SemaOpenMP.cpp.

◆ ActOnOpenMPSafelenClause()

OMPClause * Sema::ActOnOpenMPSafelenClause ( Expr Length,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'safelen' clause.

Definition at line 8647 of file SemaOpenMP.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ ActOnOpenMPScheduleClause()

OMPClause * Sema::ActOnOpenMPScheduleClause ( OpenMPScheduleClauseModifier  M1,
OpenMPScheduleClauseModifier  M2,
OpenMPScheduleClauseKind  Kind,
Expr ChunkSize,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  M1Loc,
SourceLocation  M2Loc,
SourceLocation  KindLoc,
SourceLocation  CommaLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPSectionDirective()

StmtResult Sema::ActOnOpenMPSectionDirective ( Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp section' after parsing of the associated statement.

Definition at line 5573 of file SemaOpenMP.cpp.

References clang::OMPSectionDirective::Create(), DSAStack, and clang::StmtError().

◆ ActOnOpenMPSectionsDirective()

StmtResult Sema::ActOnOpenMPSectionsDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp sections' after parsing of the associated statement.

Definition at line 5535 of file SemaOpenMP.cpp.

References clang::C, clang::OMPSectionsDirective::Create(), Diag(), DSAStack, clang::CapturedStmt::getCapturedStmt(), clang::Stmt::getLocStart(), and clang::StmtError().

◆ ActOnOpenMPSeqCstClause()

OMPClause * Sema::ActOnOpenMPSeqCstClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'seq_cst' clause.

Definition at line 9170 of file SemaOpenMP.cpp.

◆ ActOnOpenMPSharedClause()

OMPClause * Sema::ActOnOpenMPSharedClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPSIMDClause()

OMPClause * Sema::ActOnOpenMPSIMDClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'simd' clause.

Definition at line 9180 of file SemaOpenMP.cpp.

◆ ActOnOpenMPSimdDirective()

StmtResult Sema::ActOnOpenMPSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPSimdlenClause()

OMPClause * Sema::ActOnOpenMPSimdlenClause ( Expr Length,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'simdlen' clause.

Definition at line 8660 of file SemaOpenMP.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ ActOnOpenMPSimpleClause()

OMPClause * Sema::ActOnOpenMPSimpleClause ( OpenMPClauseKind  Kind,
unsigned  Argument,
SourceLocation  ArgumentLoc,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPSingleDirective()

StmtResult Sema::ActOnOpenMPSingleDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp single' after parsing of the associated statement.

Definition at line 5588 of file SemaOpenMP.cpp.

References clang::OMPSingleDirective::Create(), Diag(), clang::OMPClause::getClauseKind(), clang::OMPClause::getLocStart(), and clang::StmtError().

◆ ActOnOpenMPSingleExprClause()

OMPClause * Sema::ActOnOpenMPSingleExprClause ( OpenMPClauseKind  Kind,
Expr Expr,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPSingleExprWithArgClause()

OMPClause * Sema::ActOnOpenMPSingleExprWithArgClause ( OpenMPClauseKind  Kind,
ArrayRef< unsigned >  Arguments,
Expr Expr,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
ArrayRef< SourceLocation ArgumentsLoc,
SourceLocation  DelimLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPTargetDataDirective()

StmtResult Sema::ActOnOpenMPTargetDataDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp target data' after parsing of the associated statement.

Definition at line 6788 of file SemaOpenMP.cpp.

References clang::OMPTargetDataDirective::Create(), Diag(), clang::getOpenMPDirectiveName(), hasClauses(), and clang::StmtError().

◆ ActOnOpenMPTargetDirective()

StmtResult Sema::ActOnOpenMPTargetDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp target' after parsing of the associated statement.

Definition at line 6627 of file SemaOpenMP.cpp.

References DSAStack, clang::CapturedStmt::getCapturedDecl(), clang::CapturedStmt::getCapturedStmt(), clang::Stmt::IgnoreContainers(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTargetEnterDataDirective()

StmtResult Sema::ActOnOpenMPTargetEnterDataDirective ( ArrayRef< OMPClause *>  Clauses,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
Stmt AStmt 
)

Called on well-formed '#pragma omp target enter data' after parsing of the associated statement.

Definition at line 6813 of file SemaOpenMP.cpp.

References clang::OMPTargetEnterDataDirective::Create(), Diag(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedStmt::getCapturedStmt(), clang::getOpenMPDirectiveName(), hasClauses(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTargetExitDataDirective()

StmtResult Sema::ActOnOpenMPTargetExitDataDirective ( ArrayRef< OMPClause *>  Clauses,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
Stmt AStmt 
)

Called on well-formed '#pragma omp target exit data' after parsing of the associated statement.

Definition at line 6850 of file SemaOpenMP.cpp.

References clang::OMPTargetExitDataDirective::Create(), Diag(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedStmt::getCapturedStmt(), clang::getOpenMPDirectiveName(), hasClauses(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTargetParallelDirective()

StmtResult Sema::ActOnOpenMPTargetParallelDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp target parallel' after parsing of the associated statement.

Definition at line 6691 of file SemaOpenMP.cpp.

References clang::OMPTargetParallelDirective::Create(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedStmt::getCapturedStmt(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTargetParallelForDirective()

StmtResult Sema::ActOnOpenMPTargetParallelForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetParallelForSimdDirective()

StmtResult Sema::ActOnOpenMPTargetParallelForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetSimdDirective()

StmtResult Sema::ActOnOpenMPTargetSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetTeamsDirective()

StmtResult Sema::ActOnOpenMPTargetTeamsDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp target teams' after parsing of the associated statement.

Definition at line 7620 of file SemaOpenMP.cpp.

References clang::OMPTargetTeamsDirective::Create(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedStmt::getCapturedStmt(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTargetTeamsDistributeDirective()

StmtResult Sema::ActOnOpenMPTargetTeamsDistributeDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetTeamsDistributeParallelForDirective()

StmtResult Sema::ActOnOpenMPTargetTeamsDistributeParallelForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetTeamsDistributeParallelForSimdDirective()

StmtResult Sema::ActOnOpenMPTargetTeamsDistributeParallelForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetTeamsDistributeSimdDirective()

StmtResult Sema::ActOnOpenMPTargetTeamsDistributeSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTargetUpdateDirective()

StmtResult Sema::ActOnOpenMPTargetUpdateDirective ( ArrayRef< OMPClause *>  Clauses,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
Stmt AStmt 
)

◆ ActOnOpenMPTaskDirective()

StmtResult Sema::ActOnOpenMPTaskDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp task' after parsing of the associated statement.

Definition at line 5817 of file SemaOpenMP.cpp.

References clang::OMPTaskDirective::Create(), clang::CapturedStmt::getCapturedDecl(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTaskgroupDirective()

StmtResult Sema::ActOnOpenMPTaskgroupDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp taskgroup'.

Definition at line 5852 of file SemaOpenMP.cpp.

References clang::OMPTaskgroupDirective::Create(), and clang::StmtError().

◆ ActOnOpenMPTaskLoopDirective()

StmtResult Sema::ActOnOpenMPTaskLoopDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTaskLoopSimdDirective()

StmtResult Sema::ActOnOpenMPTaskLoopSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTaskReductionClause()

OMPClause * Sema::ActOnOpenMPTaskReductionClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc,
CXXScopeSpec ReductionIdScopeSpec,
const DeclarationNameInfo ReductionId,
ArrayRef< Expr *>  UnresolvedReductions = llvm::None 
)

Called on well-formed 'task_reduction' clause.

Definition at line 10921 of file SemaOpenMP.cpp.

References actOnOMPReductionKindClause(), clang::OMPTaskReductionClause::Create(), and DSAStack.

◆ ActOnOpenMPTaskwaitDirective()

StmtResult Sema::ActOnOpenMPTaskwaitDirective ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp taskwait'.

Definition at line 5847 of file SemaOpenMP.cpp.

References clang::OMPTaskwaitDirective::Create().

◆ ActOnOpenMPTaskyieldDirective()

StmtResult Sema::ActOnOpenMPTaskyieldDirective ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp taskyield'.

Definition at line 5837 of file SemaOpenMP.cpp.

References clang::OMPTaskyieldDirective::Create().

◆ ActOnOpenMPTeamsDirective()

StmtResult Sema::ActOnOpenMPTeamsDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed '#pragma omp teams' after parsing of the associated statement.

Definition at line 6919 of file SemaOpenMP.cpp.

References clang::OMPTeamsDirective::Create(), DSAStack, clang::CapturedStmt::getCapturedDecl(), clang::CapturedDecl::setNothrow(), and clang::StmtError().

◆ ActOnOpenMPTeamsDistributeDirective()

StmtResult Sema::ActOnOpenMPTeamsDistributeDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTeamsDistributeParallelForDirective()

StmtResult Sema::ActOnOpenMPTeamsDistributeParallelForDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTeamsDistributeParallelForSimdDirective()

StmtResult Sema::ActOnOpenMPTeamsDistributeParallelForSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPTeamsDistributeSimdDirective()

StmtResult Sema::ActOnOpenMPTeamsDistributeSimdDirective ( ArrayRef< OMPClause *>  Clauses,
Stmt AStmt,
SourceLocation  StartLoc,
SourceLocation  EndLoc,
VarsWithInheritedDSAType VarsWithImplicitDSA 
)

◆ ActOnOpenMPThreadLimitClause()

OMPClause * Sema::ActOnOpenMPThreadLimitClause ( Expr ThreadLimit,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'thread_limit' clause.

Definition at line 12772 of file SemaOpenMP.cpp.

References buildPreInits(), DSAStack, getOpenMPCaptureRegionForClause(), isNonNegativeIntegerValue(), and clang::OMPD_unknown.

◆ ActOnOpenMPThreadprivateDirective()

Sema::DeclGroupPtrTy Sema::ActOnOpenMPThreadprivateDirective ( SourceLocation  Loc,
ArrayRef< Expr *>  VarList 
)

Called on well-formed '#pragma omp threadprivate'.

Definition at line 1773 of file SemaOpenMP.cpp.

References clang::Stmt::children(), Diag(), clang::DeclRefExpr::getDecl(), clang::DeclRefExpr::getLocStart(), and clang::Stmt::getSourceRange().

◆ ActOnOpenMPThreadsClause()

OMPClause * Sema::ActOnOpenMPThreadsClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'threads' clause.

Definition at line 9175 of file SemaOpenMP.cpp.

◆ ActOnOpenMPToClause()

OMPClause * Sema::ActOnOpenMPToClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'to' clause.

Definition at line 13163 of file SemaOpenMP.cpp.

References checkMappableExpressionList(), OMPToClause::Create(), and DSAStack.

◆ ActOnOpenMPUntiedClause()

OMPClause * Sema::ActOnOpenMPUntiedClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'untied' clause.

Definition at line 9140 of file SemaOpenMP.cpp.

◆ ActOnOpenMPUpdateClause()

OMPClause * Sema::ActOnOpenMPUpdateClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'update' clause.

Definition at line 9160 of file SemaOpenMP.cpp.

◆ ActOnOpenMPUseDevicePtrClause()

OMPClause * Sema::ActOnOpenMPUseDevicePtrClause ( ArrayRef< Expr *>  VarList,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  EndLoc 
)

◆ ActOnOpenMPVarListClause()

OMPClause * Sema::ActOnOpenMPVarListClause ( OpenMPClauseKind  Kind,
ArrayRef< Expr *>  Vars,
Expr TailExpr,
SourceLocation  StartLoc,
SourceLocation  LParenLoc,
SourceLocation  ColonLoc,
SourceLocation  EndLoc,
CXXScopeSpec ReductionIdScopeSpec,
const DeclarationNameInfo ReductionId,
OpenMPDependClauseKind  DepKind,
OpenMPLinearClauseKind  LinKind,
OpenMPMapClauseKind  MapTypeModifier,
OpenMPMapClauseKind  MapType,
bool  IsMapTypeImplicit,
SourceLocation  DepLinMapLoc 
)

◆ ActOnOpenMPWriteClause()

OMPClause * Sema::ActOnOpenMPWriteClause ( SourceLocation  StartLoc,
SourceLocation  EndLoc 
)

Called on well-formed 'write' clause.

Definition at line 9155 of file SemaOpenMP.cpp.

◆ ActOnPackExpansion() [1/3]

ParsedTemplateArgument Sema::ActOnPackExpansion ( const ParsedTemplateArgument Arg,
SourceLocation  EllipsisLoc 
)

◆ ActOnPackExpansion() [2/3]

TypeResult Sema::ActOnPackExpansion ( ParsedType  Type,
SourceLocation  EllipsisLoc 
)

Invoked when parsing a type followed by an ellipsis, which creates a pack expansion.

Parameters
TypeThe type preceding the ellipsis, which will become the pattern of the pack expansion.
EllipsisLocThe location of the ellipsis.

Definition at line 555 of file SemaTemplateVariadic.cpp.

References clang::TypeSourceInfo::getType(), and clang::None.

◆ ActOnPackExpansion() [3/3]

ExprResult Sema::ActOnPackExpansion ( Expr Pattern,
SourceLocation  EllipsisLoc 
)

Invoked when parsing an expression followed by an ellipsis, which creates a pack expansion.

Parameters
PatternThe expression preceding the ellipsis, which will become the pattern of the pack expansion.
EllipsisLocThe location of the ellipsis.

Definition at line 603 of file SemaTemplateVariadic.cpp.

References clang::None.

◆ ActOnParamDeclarator()

Decl * Sema::ActOnParamDeclarator ( Scope S,
Declarator D 
)

ActOnParamDeclarator - Called from Parser::ParseFunctionDeclarator() to introduce parameters into function prototype scope.

Definition at line 12286 of file SemaDecl.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnParamDefaultArgument()

void Sema::ActOnParamDefaultArgument ( Decl param,
SourceLocation  EqualLoc,
Expr DefaultArg 
)

ActOnParamDefaultArgument - Check whether the default argument provided for a function parameter is well-formed.

If so, attach it to the parameter declaration.

Definition at line 299 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus, Diag(), clang::Stmt::getSourceRange(), clang::ParmVarDecl::isParameterPack(), and clang::Decl::setInvalidDecl().

◆ ActOnParamDefaultArgumentError()

void Sema::ActOnParamDefaultArgumentError ( Decl param,
SourceLocation  EqualLoc 
)

ActOnParamDefaultArgumentError - Parsing or semantic analysis of the default argument for the parameter param failed.

Definition at line 357 of file SemaDeclCXX.cpp.

References clang::ParmVarDecl::setDefaultArg(), and clang::Decl::setInvalidDecl().

◆ ActOnParamUnparsedDefaultArgument()

void Sema::ActOnParamUnparsedDefaultArgument ( Decl param,
SourceLocation  EqualLoc,
SourceLocation  ArgLoc 
)

ActOnParamUnparsedDefaultArgument - We've seen a default argument for a function parameter, but we can't parse it yet because we're inside a class definition.

Note that this default argument will be parsed later.

Definition at line 344 of file SemaDeclCXX.cpp.

References clang::ParmVarDecl::setUnparsedDefaultArg().

◆ ActOnParenExpr()

ExprResult Sema::ActOnParenExpr ( SourceLocation  L,
SourceLocation  R,
Expr E 
)

Definition at line 3558 of file SemaExpr.cpp.

Referenced by ActOnDecltypeExpression(), buildCounterUpdate(), and TypeTraitArity().

◆ ActOnParenListExpr()

ExprResult Sema::ActOnParenListExpr ( SourceLocation  L,
SourceLocation  R,
MultiExprArg  Val 
)

◆ ActOnPopScope()

void Sema::ActOnPopScope ( SourceLocation  Loc,
Scope S 
)

Scope actions.

Definition at line 1800 of file SemaDecl.cpp.

Referenced by clang::Parser::ExitScope().

◆ ActOnPostfixUnaryOp()

ExprResult Sema::ActOnPostfixUnaryOp ( Scope S,
SourceLocation  OpLoc,
tok::TokenKind  Kind,
Expr Input 
)

Definition at line 4127 of file SemaExpr.cpp.

◆ ActOnPragmaAttributePop()

void Sema::ActOnPragmaAttributePop ( SourceLocation  PragmaLoc)

◆ ActOnPragmaAttributePush()

void Sema::ActOnPragmaAttributePush ( ParsedAttr Attribute,
SourceLocation  PragmaLoc,
attr::ParsedSubjectMatchRuleSet  Rules 
)

◆ ActOnPragmaClangSection()

void Sema::ActOnPragmaClangSection ( SourceLocation  PragmaLoc,
PragmaClangSectionAction  Action,
PragmaClangSectionKind  SecKind,
StringRef  SecName 
)

◆ ActOnPragmaDetectMismatch()

void Sema::ActOnPragmaDetectMismatch ( SourceLocation  Loc,
StringRef  Name,
StringRef  Value 
)

ActOnPragmaDetectMismatch - Call on well-formed #pragma detect_mismatch.

Definition at line 283 of file SemaAttr.cpp.

◆ ActOnPragmaDump()

void Sema::ActOnPragmaDump ( Scope S,
SourceLocation  Loc,
IdentifierInfo II 
)

Called on #pragma clang __debug dump II.

Definition at line 5223 of file SemaLookup.cpp.

◆ ActOnPragmaFPContract()

void Sema::ActOnPragmaFPContract ( LangOptions::FPContractModeKind  FPC)

ActOnPragmaFPContract - Called on well formed #pragma {STDC,OPENCL} FP_CONTRACT and #pragma clang fp contract.

Definition at line 762 of file SemaAttr.cpp.

References clang::LangOptions::FPC_Fast, clang::LangOptions::FPC_Off, clang::LangOptions::FPC_On, FPFeatures, clang::FPOptions::setAllowFPContractAcrossStatement(), clang::FPOptions::setAllowFPContractWithinStatement(), and clang::FPOptions::setDisallowFPContract().

◆ ActOnPragmaMSComment()

void Sema::ActOnPragmaMSComment ( SourceLocation  CommentLoc,
PragmaMSCommentKind  Kind,
StringRef  Arg 
)

ActOnPragmaMSComment - Called on well formed #pragma comment(kind, "arg").

Definition at line 275 of file SemaAttr.cpp.

References clang::DeclContext::addDecl(), Consumer, Context, clang::PragmaCommentDecl::Create(), clang::ASTContext::getTranslationUnitDecl(), and clang::ASTConsumer::HandleTopLevelDecl().

◆ ActOnPragmaMSInitSeg()

void Sema::ActOnPragmaMSInitSeg ( SourceLocation  PragmaLocation,
StringLiteral SegmentName 
)

Called on well-formed #pragma init_seg().

Definition at line 419 of file SemaAttr.cpp.

References CurInitSeg, CurInitSegLoc, and clang::StringLiteral::getString().

◆ ActOnPragmaMSPointersToMembers()

void Sema::ActOnPragmaMSPointersToMembers ( LangOptions::PragmaMSPointersToMembersKind  Kind,
SourceLocation  PragmaLoc 
)

ActOnPragmaMSPointersToMembers - called on well formed #pragma pointers_to_members(representation method[, general purpose representation]).

Definition at line 291 of file SemaAttr.cpp.

References ImplicitMSInheritanceAttrLoc, and MSPointerToMemberRepresentationMethod.

◆ ActOnPragmaMSSection()

void Sema::ActOnPragmaMSSection ( SourceLocation  PragmaLocation,
int  SectionFlags,
StringLiteral SegmentName 
)

Called on well formed #pragma section().

Called on well formed #pragma bss_seg().

Definition at line 414 of file SemaAttr.cpp.

References clang::StringLiteral::getString(), and UnifySection().

◆ ActOnPragmaMSSeg()

void Sema::ActOnPragmaMSSeg ( SourceLocation  PragmaLocation,
PragmaMsStackAction  Action,
llvm::StringRef  StackSlotLabel,
StringLiteral SegmentName,
llvm::StringRef  PragmaName 
)

Called on well formed #pragma bss_seg/data_seg/const_seg/code_seg.

Called on well formed #pragma bss_seg().

Definition at line 393 of file SemaAttr.cpp.

◆ ActOnPragmaMSStruct()

void Sema::ActOnPragmaMSStruct ( PragmaMSStructKind  Kind)

ActOnPragmaMSStruct - Called on well formed #pragma ms_struct [on|off].

Definition at line 271 of file SemaAttr.cpp.

References MSStructPragmaOn, and clang::PMSST_ON.

◆ ActOnPragmaMSVtorDisp()

void Sema::ActOnPragmaMSVtorDisp ( PragmaMsStackAction  Action,
SourceLocation  PragmaLoc,
MSVtorDispAttr::Mode  Value 
)

Called on well formed #pragma vtordisp().

Definition at line 298 of file SemaAttr.cpp.

References clang::Sema::PragmaStack< ValueType >::Act(), Diag(), PSK_Pop, clang::Sema::PragmaStack< ValueType >::Stack, and VtorDispStack.

◆ ActOnPragmaOptimize()

void Sema::ActOnPragmaOptimize ( bool  On,
SourceLocation  PragmaLoc 
)

Called on well formed #pragma clang optimize.

Definition at line 682 of file SemaAttr.cpp.

References OptimizeOffPragmaLocation.

◆ ActOnPragmaOptionsAlign()

void Sema::ActOnPragmaOptionsAlign ( PragmaOptionsAlignKind  Kind,
SourceLocation  PragmaLoc 
)

◆ ActOnPragmaPack()

void Sema::ActOnPragmaPack ( SourceLocation  PragmaLoc,
PragmaMsStackAction  Action,
StringRef  SlotLabel,
Expr Alignment 
)

◆ ActOnPragmaRedefineExtname()

void Sema::ActOnPragmaRedefineExtname ( IdentifierInfo WeakName,
IdentifierInfo AliasName,
SourceLocation  PragmaLoc,
SourceLocation  WeakNameLoc,
SourceLocation  AliasNameLoc 
)

ActOnPragmaRedefineExtname - Called on well formed #pragma redefine_extname oldname newname.

Definition at line 17135 of file SemaDecl.cpp.

◆ ActOnPragmaUnused()

void Sema::ActOnPragmaUnused ( const Token Identifier,
Scope curScope,
SourceLocation  PragmaLoc 
)

ActOnPragmaUnused - Called on well-formed '#pragma unused'.

Definition at line 428 of file SemaAttr.cpp.

◆ ActOnPragmaVisibility()

void Sema::ActOnPragmaVisibility ( const IdentifierInfo VisType,
SourceLocation  PragmaLoc 
)

ActOnPragmaVisibility - Called on well formed #pragma GCC visibility... .

Definition at line 747 of file SemaAttr.cpp.

References Diag(), clang::IdentifierInfo::getName(), PopPragmaVisibility(), and PushPragmaVisibility().

◆ ActOnPragmaWeakAlias()

void Sema::ActOnPragmaWeakAlias ( IdentifierInfo WeakName,
IdentifierInfo AliasName,
SourceLocation  PragmaLoc,
SourceLocation  WeakNameLoc,
SourceLocation  AliasNameLoc 
)

ActOnPragmaWeakAlias - Called on well formed #pragma weak ident = ident.

Definition at line 17174 of file SemaDecl.cpp.

◆ ActOnPragmaWeakID()

void Sema::ActOnPragmaWeakID ( IdentifierInfo WeakName,
SourceLocation  PragmaLoc,
SourceLocation  WeakNameLoc 
)

ActOnPragmaWeakID - Called on well formed #pragma weak ident.

Definition at line 17160 of file SemaDecl.cpp.

◆ ActOnPredefinedExpr()

ExprResult Sema::ActOnPredefinedExpr ( SourceLocation  Loc,
tok::TokenKind  Kind 
)

◆ ActOnProperty()

Decl * Sema::ActOnProperty ( Scope S,
SourceLocation  AtLoc,
SourceLocation  LParenLoc,
FieldDeclarator FD,
ObjCDeclSpec ODS,
Selector  GetterSel,
Selector  SetterSel,
tok::ObjCKeywordKind  MethodImplKind,
DeclContext lexicalDC = nullptr 
)

Definition at line 178 of file SemaObjCProperty.cpp.

◆ ActOnPropertyImplDecl()

Decl * Sema::ActOnPropertyImplDecl ( Scope S,
SourceLocation  AtLoc,
SourceLocation  PropertyLoc,
bool  ImplKind,
IdentifierInfo PropertyId,
IdentifierInfo PropertyIvar,
SourceLocation  PropertyIvarLoc,
ObjCPropertyQueryKind  QueryKind 
)

ActOnPropertyImplDecl - This routine performs semantic checks and builds the AST node for a property implementation declaration; declared as @synthesize or @dynamic.

Definition at line 1045 of file SemaObjCProperty.cpp.

◆ ActOnPseudoDestructorExpr() [1/2]

ExprResult Sema::ActOnPseudoDestructorExpr ( Scope S,
Expr Base,
SourceLocation  OpLoc,
tok::TokenKind  OpKind,
CXXScopeSpec SS,
UnqualifiedId FirstTypeName,
SourceLocation  CCLoc,
SourceLocation  TildeLoc,
UnqualifiedId SecondTypeName 
)

◆ ActOnPseudoDestructorExpr() [2/2]

ExprResult Sema::ActOnPseudoDestructorExpr ( Scope S,
Expr Base,
SourceLocation  OpLoc,
tok::TokenKind  OpKind,
SourceLocation  TildeLoc,
const DeclSpec DS 
)

◆ ActOnPureSpecifier()

void Sema::ActOnPureSpecifier ( Decl D,
SourceLocation  PureSpecLoc 
)

◆ ActOnReenterCXXMethodParameter()

void Sema::ActOnReenterCXXMethodParameter ( Scope S,
ParmVarDecl Param 
)

This is used to implement the constant expression evaluation part of the attribute enable_if extension.

There is nothing in standard C++ which would require reentering parameters.

Definition at line 7958 of file SemaDeclCXX.cpp.

References clang::Scope::AddDecl(), and clang::NamedDecl::getDeclName().

◆ ActOnReenterFunctionContext()

void Sema::ActOnReenterFunctionContext ( Scope S,
Decl D 
)

Push the parameters of D, which must be a function, into scope.

Definition at line 1286 of file SemaDecl.cpp.

◆ ActOnReenterTemplateScope()

unsigned Sema::ActOnReenterTemplateScope ( Scope S,
Decl Template 
)

◆ ActOnReturnStmt()

StmtResult Sema::ActOnReturnStmt ( SourceLocation  ReturnLoc,
Expr RetValExp,
Scope CurScope 
)

◆ ActOnSEHExceptBlock()

StmtResult Sema::ActOnSEHExceptBlock ( SourceLocation  Loc,
Expr FilterExpr,
Stmt Block 
)

◆ ActOnSEHLeaveStmt()

StmtResult Sema::ActOnSEHLeaveStmt ( SourceLocation  Loc,
Scope CurScope 
)

◆ ActOnSEHTryBlock()

StmtResult Sema::ActOnSEHTryBlock ( bool  IsCXXTry,
SourceLocation  TryLoc,
Stmt TryBlock,
Stmt Handler 
)

◆ ActOnSizeofParameterPackExpr()

ExprResult Sema::ActOnSizeofParameterPackExpr ( Scope S,
SourceLocation  OpLoc,
IdentifierInfo Name,
SourceLocation  NameLoc,
SourceLocation  RParenLoc 
)

Called when an expression computing the size of a parameter pack is parsed.

template<typename ...Types> struct count {
static const unsigned value = sizeof...(Types);
};
Parameters
OpLocThe location of the "sizeof" keyword.
NameThe name of the parameter pack whose size will be determined.
NameLocThe source location of the name of the parameter pack.
RParenLocThe location of the closing parentheses.

Definition at line 952 of file SemaTemplateVariadic.cpp.

◆ ActOnSkippedFunctionBody()

Decl * Sema::ActOnSkippedFunctionBody ( Decl Decl)

Definition at line 12979 of file SemaDecl.cpp.

References clang::Decl::getAsFunction().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ActOnStartCategoryImplementation()

Decl * Sema::ActOnStartCategoryImplementation ( SourceLocation  AtCatImplLoc,
IdentifierInfo ClassName,
SourceLocation  ClassLoc,
IdentifierInfo CatName,
SourceLocation  CatLoc 
)

◆ ActOnStartCategoryInterface()

Decl * Sema::ActOnStartCategoryInterface ( SourceLocation  AtInterfaceLoc,
IdentifierInfo ClassName,
SourceLocation  ClassLoc,
ObjCTypeParamList typeParamList,
IdentifierInfo CategoryName,
SourceLocation  CategoryLoc,
Decl *const *  ProtoRefs,
unsigned  NumProtoRefs,
const SourceLocation ProtoLocs,
SourceLocation  EndProtoLoc,
const ParsedAttributesView AttrList 
)

◆ ActOnStartClassImplementation()

Decl * Sema::ActOnStartClassImplementation ( SourceLocation  AtClassImplLoc,
IdentifierInfo ClassName,
SourceLocation  ClassLoc,
IdentifierInfo SuperClassname,
SourceLocation  SuperClassLoc 
)

◆ ActOnStartClassInterface()

Decl * Sema::ActOnStartClassInterface ( Scope S,
SourceLocation  AtInterfaceLoc,
IdentifierInfo ClassName,
SourceLocation  ClassLoc,
ObjCTypeParamList typeParamList,
IdentifierInfo SuperName,
SourceLocation  SuperLoc,
ArrayRef< ParsedType SuperTypeArgs,
SourceRange  SuperTypeArgsRange,
Decl *const *  ProtoRefs,
unsigned  NumProtoRefs,
const SourceLocation ProtoLocs,
SourceLocation  EndProtoLoc,
const ParsedAttributesView AttrList 
)

Definition at line 969 of file SemaDeclObjC.cpp.

◆ ActOnStartCXXInClassMemberInitializer()

void Sema::ActOnStartCXXInClassMemberInitializer ( )

Enter a new C++ default initializer scope.

After calling this, the caller must call ActOnFinishCXXInClassMemberInitializer, even if parsing or instantiating the initializer failed.

Definition at line 3603 of file SemaDeclCXX.cpp.

Referenced by InstantiateInClassInitializer().

◆ ActOnStartCXXMemberDeclarations()

void Sema::ActOnStartCXXMemberDeclarations ( Scope S,
Decl TagDecl,
SourceLocation  FinalLoc,
bool  IsFinalSpelledSealed,
SourceLocation  LBraceLoc 
)

ActOnStartCXXMemberDeclarations - Invoked when we have parsed a C++ record definition's base-specifiers clause and are starting its member declarations.

Definition at line 14850 of file SemaDecl.cpp.

◆ ActOnStartCXXMemberReference()

ExprResult Sema::ActOnStartCXXMemberReference ( Scope S,
Expr Base,
SourceLocation  OpLoc,
tok::TokenKind  OpKind,
ParsedType ObjectType,
bool MayBePseudoDestructor 
)

◆ ActOnStartDelayedCXXMethodDeclaration()

void Sema::ActOnStartDelayedCXXMethodDeclaration ( Scope S,
Decl MethodD 
)

ActOnStartDelayedCXXMethodDeclaration - We have completed parsing a top-level (non-nested) C++ class, and we are now parsing those parts of the given Method declaration that could not be parsed earlier (C++ [class.mem]p2), such as default arguments.

This action should enter the scope of the given Method declaration as if we had just parsed the qualified method name. However, it should not bring the parameters into scope; that will be performed by ActOnDelayedCXXMethodParameter.

Definition at line 7975 of file SemaDeclCXX.cpp.

◆ ActOnStartDelayedMemberDeclarations()

void Sema::ActOnStartDelayedMemberDeclarations ( Scope S,
Decl Record 
)

Definition at line 7943 of file SemaDeclCXX.cpp.

◆ ActOnStartExportDecl()

Decl * Sema::ActOnStartExportDecl ( Scope S,
SourceLocation  ExportLoc,
SourceLocation  LBraceLoc 
)

We have parsed the start of an export declaration, including the '{' (if present).

Definition at line 17098 of file SemaDecl.cpp.

◆ ActOnStartLinkageSpecification()

Decl * Sema::ActOnStartLinkageSpecification ( Scope S,
SourceLocation  ExternLoc,
Expr LangStr,
SourceLocation  LBraceLoc 
)

ActOnStartLinkageSpecification - Parsed the beginning of a C++ linkage specification, including the language and (if present) the '{'.

ExternLoc is the location of the 'extern', Lang is the language string literal. LBraceLoc, if valid, provides the location of the '{' brace. Otherwise, this linkage specification does not have any braces.

Definition at line 13489 of file SemaDeclCXX.cpp.

References clang::LinkageSpecDecl::Create(), Diag(), clang::Expr::getExprLoc(), clang::Stmt::getSourceRange(), clang::StringLiteral::getString(), clang::StringLiteral::isAscii(), clang::LinkageSpecDecl::lang_c, and clang::LinkageSpecDecl::lang_cxx.

◆ ActOnStartNamespaceDef()

Decl * Sema::ActOnStartNamespaceDef ( Scope NamespcScope,
SourceLocation  InlineLoc,
SourceLocation  NamespaceLoc,
SourceLocation  IdentLoc,
IdentifierInfo II,
SourceLocation  LBrace,
const ParsedAttributesView AttrList,
UsingDirectiveDecl *&  UD 
)

◆ ActOnStartOfCompoundStmt()

void Sema::ActOnStartOfCompoundStmt ( bool  IsStmtExpr)

Definition at line 340 of file SemaStmt.cpp.

Referenced by clang::Sema::CompoundScopeRAII::CompoundScopeRAII().

◆ ActOnStartOfFunctionDef() [1/2]

Decl * Sema::ActOnStartOfFunctionDef ( Scope S,
Declarator D,
MultiTemplateParamsArg  TemplateParamLists,
SkipBodyInfo SkipBody = nullptr 
)

◆ ActOnStartOfFunctionDef() [2/2]

Decl * Sema::ActOnStartOfFunctionDef ( Scope S,
Decl D,
SkipBodyInfo SkipBody = nullptr 
)

◆ ActOnStartOfLambdaDefinition()

void Sema::ActOnStartOfLambdaDefinition ( LambdaIntroducer Intro,
Declarator ParamInfo,
Scope CurScope 
)

ActOnStartOfLambdaDefinition - This is called just before we start parsing the body of a lambda; it analyzes the explicit captures and arguments, and sets up various data-structures for the body of the lambda.

Definition at line 830 of file SemaLambda.cpp.

References clang::Declarator::getNumTypeObjects(), and clang::Scope::getTemplateParamParent().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ ActOnStartOfObjCMethodDef()

void Sema::ActOnStartOfObjCMethodDef ( Scope FnBodyScope,
Decl D 
)

ActOnStartOfObjCMethodDef - This routine sets up parameters; invisible and user declared, in the method definition's AST.

Definition at line 362 of file SemaDeclObjC.cpp.

References CheckParmsForFunctionDef(), Context, clang::ObjCMethodDecl::createImplicitParams(), clang::declaresSameEntity(), Diag(), DiagnoseObjCImplementedDeprecations(), clang::LangOptions::GCOnly, clang::ObjCMethodDecl::getClassInterface(), clang::ObjCMethodDecl::getCmdDecl(), clang::TypoCorrection::getCorrectionDeclAs(), getCurFunction(), getCurMethodDecl(), clang::Decl::getDeclContext(), clang::ASTContext::getLangOpts(), getLangOpts(), clang::Decl::getLocation(), clang::ObjCMethodDecl::getMethodFamily(), clang::ObjCMethodDecl::getReturnType(), clang::ObjCMethodDecl::getSelector(), clang::ObjCMethodDecl::getSelfDecl(), clang::ObjCInterfaceDecl::getSuperClass(), clang::Decl::hasAttr(), HasExplicitOwnershipAttr(), clang::Type::isDependentType(), clang::ObjCMethodDecl::isDesignatedInitializerForTheInterface(), clang::ObjCMethodDecl::isInstanceMethod(), clang::Decl::isInvalidDecl(), clang::Type::isVoidType(), clang::LangOptions::NonGC, clang::sema::FunctionScopeInfo::ObjCIsDesignatedInit, clang::sema::FunctionScopeInfo::ObjCIsSecondaryInit, clang::sema::FunctionScopeInfo::ObjCShouldCallSuper, clang::sema::FunctionScopeInfo::ObjCWarnForNoDesignatedInitChain, clang::sema::FunctionScopeInfo::ObjCWarnForNoInitDelegation, clang::OMF_alloc, clang::OMF_autorelease, clang::OMF_copy, clang::OMF_dealloc, clang::OMF_finalize, clang::OMF_init, clang::OMF_initialize, clang::OMF_mutableCopy, clang::OMF_new, clang::OMF_None, clang::OMF_performSelector, clang::OMF_release, clang::OMF_retain, clang::OMF_retainCount, clang::OMF_self, clang::ObjCMethodDecl::parameters(), PushDeclContext(), PushFunctionScope(), PushOnScopeChains(), RequireCompleteType(), and clang::Decl::setInvalidDecl().

◆ ActOnStartOfSwitchStmt()

StmtResult Sema::ActOnStartOfSwitchStmt ( SourceLocation  SwitchLoc,
Stmt InitStmt,
ConditionResult  Cond 
)

◆ ActOnStartOfTranslationUnit()

void Sema::ActOnStartOfTranslationUnit ( )

◆ ActOnStartOpenMPDeclareTargetDirective()

bool Sema::ActOnStartOpenMPDeclareTargetDirective ( SourceLocation  Loc)

Called on the start of target region i.e. '#pragma omp declare target'.

Definition at line 12942 of file SemaOpenMP.cpp.

References Diag(), clang::DeclContext::isExternCContext(), clang::DeclContext::isExternCXXContext(), and clang::DeclContext::isFileContext().

◆ ActOnStartProtocolInterface()

Decl * Sema::ActOnStartProtocolInterface ( SourceLocation  AtProtoInterfaceLoc,
IdentifierInfo ProtocolName,
SourceLocation  ProtocolLoc,
Decl *const *  ProtoRefNames,
unsigned  NumProtoRefs,
const SourceLocation ProtoLocs,
SourceLocation  EndProtoLoc,
const ParsedAttributesView AttrList 
)

◆ ActOnStartSEHFinallyBlock()

void Sema::ActOnStartSEHFinallyBlock ( )

Definition at line 4080 of file SemaStmt.cpp.

◆ ActOnStartStmtExpr()

void Sema::ActOnStartStmtExpr ( )

Definition at line 12941 of file SemaExpr.cpp.

◆ ActOnStaticAssertDeclaration()

Decl * Sema::ActOnStaticAssertDeclaration ( SourceLocation  StaticAssertLoc,
Expr AssertExpr,
Expr AssertMessageExpr,
SourceLocation  RParenLoc 
)

Definition at line 13731 of file SemaDeclCXX.cpp.

◆ ActOnStmtExpr()

ExprResult Sema::ActOnStmtExpr ( SourceLocation  LPLoc,
Stmt SubStmt,
SourceLocation  RPLoc 
)

Definition at line 12954 of file SemaExpr.cpp.

◆ ActOnStmtExprError()

void Sema::ActOnStmtExprError ( )

Definition at line 12945 of file SemaExpr.cpp.

◆ ActOnStringLiteral()

ExprResult Sema::ActOnStringLiteral ( ArrayRef< Token StringToks,
Scope UDLScope = nullptr 
)

ActOnStringLiteral - The specified tokens were lexed as pasted string fragments (e.g.

"foo" "bar" L"baz").

"foo" "bar" L"baz"). The result string has to handle string concatenation ([C99 5.1.1.2, translation phase #6]), so it may come from multiple tokens. However, the common case is that StringToks points to one string.

Definition at line 1522 of file SemaExpr.cpp.

References clang::ExprError(), and clang::format::Tok.

◆ ActOnSuperClassOfClassInterface()

void Sema::ActOnSuperClassOfClassInterface ( Scope S,
SourceLocation  AtInterfaceLoc,
ObjCInterfaceDecl IDecl,
IdentifierInfo ClassName,
SourceLocation  ClassLoc,
IdentifierInfo SuperName,
SourceLocation  SuperLoc,
ArrayRef< ParsedType SuperTypeArgs,
SourceRange  SuperTypeArgsRange 
)

Definition at line 535 of file SemaDeclObjC.cpp.

Referenced by diagnoseUseOfProtocols().

◆ ActOnSuperMessage()

ExprResult Sema::ActOnSuperMessage ( Scope S,
SourceLocation  SuperLoc,
Selector  Sel,
SourceLocation  LBracLoc,
ArrayRef< SourceLocation SelectorLocs,
SourceLocation  RBracLoc,
MultiExprArg  Args 
)

Definition at line 2174 of file SemaExprObjC.cpp.

◆ ActOnSuperScopeSpecifier()

bool Sema::ActOnSuperScopeSpecifier ( SourceLocation  SuperLoc,
SourceLocation  ColonColonLoc,
CXXScopeSpec SS 
)

The parser has parsed a '__super' nested-name-specifier.

Parameters
SuperLocThe location of the '__super' keyword.
ColonColonLocThe location of the '::'.
SSThe nested-name-specifier, which will be updated in-place to reflect the parsed nested-name-specifier.
Returns
true if an error occurred, false otherwise.

Definition at line 277 of file SemaCXXScopeSpec.cpp.

◆ ActOnTag()

Decl * Sema::ActOnTag ( Scope S,
unsigned  TagSpec,
TagUseKind  TUK,
SourceLocation  KWLoc,
CXXScopeSpec SS,
IdentifierInfo Name,
SourceLocation  NameLoc,
const ParsedAttributesView Attrs,
AccessSpecifier  AS,
SourceLocation  ModulePrivateLoc,
MultiTemplateParamsArg  TemplateParameterLists,
bool OwnedDecl,
bool IsDependent,
SourceLocation  ScopedEnumKWLoc,
bool  ScopedEnumUsesClassTag,
TypeResult  UnderlyingType,
bool  IsTypeSpecifier,
bool  IsTemplateParamOrArg,
SkipBodyInfo SkipBody = nullptr 
)

This is invoked when we see 'struct foo' or 'struct {'.

In the former case, Name will be non-null. In the later case, Name will be null. TagSpec indicates what kind of tag this is. TUK indicates whether this is a reference/declaration/definition of a tag.

Parameters
IsTypeSpecifiertrue if this is a type-specifier (or trailing-type-specifier) other than one in an alias-declaration.
SkipBodyIf non-null, will be set to indicate if the caller should skip the definition of this tag and treat it as if it were a declaration.

Create a new tag decl in C/ObjC. Since the ODR-like semantics for ObjC/C implemented asks for structural equivalence checking, the returned decl here is passed back to the parser, allowing the tag body to be parsed.

Definition at line 13887 of file SemaDecl.cpp.

◆ ActOnTagDefinitionError()

void Sema::ActOnTagDefinitionError ( Scope S,
Decl TagDecl 
)

ActOnTagDefinitionError - Invoked when there was an unrecoverable error parsing the definition of a tag.

Definition at line 14932 of file SemaDecl.cpp.

◆ ActOnTagFinishDefinition()

void Sema::ActOnTagFinishDefinition ( Scope S,
Decl TagDecl,
SourceRange  BraceRange 
)

ActOnTagFinishDefinition - Invoked once we have finished parsing the definition of a tag (enumeration, class, struct, or union).

Definition at line 14887 of file SemaDecl.cpp.

◆ ActOnTagFinishSkippedDefinition()

void Sema::ActOnTagFinishSkippedDefinition ( SkippedDefinitionContext  Context)

Definition at line 1237 of file SemaDecl.cpp.

◆ ActOnTagStartDefinition()

void Sema::ActOnTagStartDefinition ( Scope S,
Decl TagDecl 
)

ActOnTagStartDefinition - Invoked when we have entered the scope of a tag's definition (e.g., for an enumeration, class, struct, or union).

Definition at line 14816 of file SemaDecl.cpp.

◆ ActOnTagStartSkippedDefinition()

Sema::SkippedDefinitionContext Sema::ActOnTagStartSkippedDefinition ( Scope S,
Decl TD 
)

Invoked when we enter a tag definition that we're skipping.

Definition at line 1223 of file SemaDecl.cpp.

◆ ActOnTagTemplateIdType()

TypeResult Sema::ActOnTagTemplateIdType ( TagUseKind  TUK,
TypeSpecifierType  TagSpec,
SourceLocation  TagLoc,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
TemplateTy  TemplateD,
SourceLocation  TemplateLoc,
SourceLocation  LAngleLoc,
ASTTemplateArgsPtr  TemplateArgsIn,
SourceLocation  RAngleLoc 
)

Parsed an elaborated-type-specifier that refers to a template-id, such as class T::template apply<U>.

Definition at line 3389 of file SemaTemplate.cpp.

References clang::OpaquePtr< PtrTy >::get(), clang::TemplateName::getAsDependentTemplateName(), clang::TypeWithKeyword::getKeywordForTagTypeKind(), and clang::TypeWithKeyword::getTagTypeKindForTypeSpec().

◆ ActOnTemplateDeclarator()

Decl * Sema::ActOnTemplateDeclarator ( Scope S,
MultiTemplateParamsArg  TemplateParameterLists,
Declarator D 
)

Definition at line 7773 of file SemaTemplate.cpp.

◆ ActOnTemplatedFriendTag()

Decl * Sema::ActOnTemplatedFriendTag ( Scope S,
SourceLocation  FriendLoc,
unsigned  TagSpec,
SourceLocation  TagLoc,
CXXScopeSpec SS,
IdentifierInfo Name,
SourceLocation  NameLoc,
const ParsedAttributesView Attr,
MultiTemplateParamsArg  TempParamLists 
)

Handle a friend tag declaration where the scope specifier was templated.

Definition at line 13879 of file SemaDeclCXX.cpp.

◆ ActOnTemplateIdType()

TypeResult Sema::ActOnTemplateIdType ( CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
TemplateTy  Template,
IdentifierInfo TemplateII,
SourceLocation  TemplateIILoc,
SourceLocation  LAngleLoc,
ASTTemplateArgsPtr  TemplateArgs,
SourceLocation  RAngleLoc,
bool  IsCtorOrDtorName = false,
bool  IsClassName = false 
)

◆ ActOnTemplateParameterList()

TemplateParameterList * Sema::ActOnTemplateParameterList ( unsigned  Depth,
SourceLocation  ExportLoc,
SourceLocation  TemplateLoc,
SourceLocation  LAngleLoc,
ArrayRef< NamedDecl *>  Params,
SourceLocation  RAngleLoc,
Expr RequiresClause 
)

ActOnTemplateParameterList - Builds a TemplateParameterList, optionally constrained by RequiresClause, that contains the template parameters in Params.

Definition at line 1245 of file SemaTemplate.cpp.

References clang::TemplateParameterList::Create(), Diag(), and clang::SourceLocation::isValid().

◆ ActOnTemplateTemplateParameter()

NamedDecl * Sema::ActOnTemplateTemplateParameter ( Scope S,
SourceLocation  TmpLoc,
TemplateParameterList Params,
SourceLocation  EllipsisLoc,
IdentifierInfo Name,
SourceLocation  NameLoc,
unsigned  Depth,
unsigned  Position,
SourceLocation  EqualLoc,
ParsedTemplateArgument  Default 
)

ActOnTemplateTemplateParameter - Called when a C++ template template parameter (e.g.

T in template <template <typename> class T> class array) has been parsed. S is the current scope.

Definition at line 1168 of file SemaTemplate.cpp.

◆ ActOnTemplateTypeArgument()

ParsedTemplateArgument Sema::ActOnTemplateTypeArgument ( TypeResult  ParsedType)

Convert a parsed type into a parsed template argument.

This is mostly trivial, except that we may have parsed a C++17 deduced class template specialization type, in which case we should form a template template argument instead of a type template argument.

Definition at line 852 of file SemaTemplate.cpp.

References clang::CXXScopeSpec::Adopt(), clang::frontend::CPlusPlus17, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::TypeLoc::getAs(), clang::TypeSourceInfo::getTypeLoc(), and clang::QualType::isNull().

◆ ActOnTranslationUnitScope()

void Sema::ActOnTranslationUnitScope ( Scope S)

Definition at line 69 of file Sema.cpp.

Referenced by clang::Parser::Initialize().

◆ ActOnTypedefDeclarator()

NamedDecl * Sema::ActOnTypedefDeclarator ( Scope S,
Declarator D,
DeclContext DC,
TypeSourceInfo TInfo,
LookupResult Previous 
)

Definition at line 5719 of file SemaDecl.cpp.

◆ ActOnTypedefedProtocols()

void Sema::ActOnTypedefedProtocols ( SmallVectorImpl< Decl *> &  ProtocolRefs,
SmallVectorImpl< SourceLocation > &  ProtocolLocs,
IdentifierInfo SuperName,
SourceLocation  SuperLoc 
)

ActOnTypedefedProtocols - this action finds protocol list as part of the typedef'ed use for a qualified super class and adds them to the list of the protocols.

Definition at line 1099 of file SemaDeclObjC.cpp.

References clang::Type::getAs(), clang::Type::isObjCObjectType(), LookupOrdinaryName, LookupSingleName(), and TUScope.

◆ ActOnTypedefNameDecl()

NamedDecl * Sema::ActOnTypedefNameDecl ( Scope S,
DeclContext DC,
TypedefNameDecl NewTD,
LookupResult Previous,
bool Redeclaration 
)

ActOnTypedefNameDecl - Perform semantic checking for a declaration which declares a typedef-name, either using the 'typedef' type specifier or via a C++0x [dcl.typedef]p2 alias-declaration: 'using T = A;'.

Definition at line 5806 of file SemaDecl.cpp.

◆ ActOnTypeName()

TypeResult Sema::ActOnTypeName ( Scope S,
Declarator D 
)

◆ ActOnTypenameType() [1/2]

TypeResult Sema::ActOnTypenameType ( Scope S,
SourceLocation  TypenameLoc,
const CXXScopeSpec SS,
const IdentifierInfo II,
SourceLocation  IdLoc 
)

Called when the parser has parsed a C++ typename specifier, e.g., "typename T::type".

Parameters
SThe scope in which this typename type occurs.
TypenameLocthe location of the 'typename' keyword
SSthe nested-name-specifier following the typename (e.g., 'T::').
IIthe identifier we're retrieving (e.g., 'type' in the example).
IdLocthe location of the identifier.

Definition at line 9408 of file SemaTemplate.cpp.

References clang::FixItHint::CreateRemoval(), Diag(), clang::Scope::getTemplateParamParent(), clang::CXXScopeSpec::getWithLocInContext(), clang::CXXScopeSpec::isInvalid(), and clang::SourceLocation::isValid().

Referenced by clang::Parser::TryAnnotateTypeOrScopeToken().

◆ ActOnTypenameType() [2/2]

TypeResult Sema::ActOnTypenameType ( Scope S,
SourceLocation  TypenameLoc,
const CXXScopeSpec SS,
SourceLocation  TemplateLoc,
TemplateTy  TemplateName,
IdentifierInfo TemplateII,
SourceLocation  TemplateIILoc,
SourceLocation  LAngleLoc,
ASTTemplateArgsPtr  TemplateArgs,
SourceLocation  RAngleLoc 
)

Called when the parser has parsed a C++ typename specifier that ends in a template-id, e.g., "typename MetaFun::template apply<T1, T2>".

Parameters
SThe scope in which this typename type occurs.
TypenameLocthe location of the 'typename' keyword
SSthe nested-name-specifier following the typename (e.g., 'T::').
TemplateLocthe location of the 'template' keyword, if any.
TemplateNameThe template name.
TemplateIIThe identifier used to name the template.
TemplateIILocThe location of the template name.
LAngleLocThe location of the opening angle bracket ('<').
TemplateArgsThe template arguments.
RAngleLocThe location of the closing angle bracket ('>').

Definition at line 9444 of file SemaTemplate.cpp.

References clang::FixItHint::CreateRemoval(), Diag(), clang::OpaquePtr< PtrTy >::get(), clang::TemplateName::getAsDependentTemplateName(), clang::CXXScopeSpec::getScopeRep(), clang::Scope::getTemplateParamParent(), and clang::SourceLocation::isValid().

◆ ActOnTypeParameter()

NamedDecl * Sema::ActOnTypeParameter ( Scope S,
bool  Typename,
SourceLocation  EllipsisLoc,
SourceLocation  KeyLoc,
IdentifierInfo ParamName,
SourceLocation  ParamNameLoc,
unsigned  Depth,
unsigned  Position,
SourceLocation  EqualLoc,
ParsedType  DefaultArg 
)

ActOnTypeParameter - Called when a C++ template type parameter (e.g., "typename T") has been parsed.

Typename specifies whether the keyword "typename" was used to declare the type parameter (otherwise, "class" was used), and KeyLoc is the location of the "class" or "typename" keyword. ParamName is the name of the parameter (NULL indicates an unnamed template parameter) and ParamNameLoc is the location of the parameter name (if any). If the type parameter has a default argument, it will be added later via ActOnTypeParameterDefault.

Definition at line 907 of file SemaTemplate.cpp.

◆ ActOnTypeTrait()

ExprResult Sema::ActOnTypeTrait ( TypeTrait  Kind,
SourceLocation  KWLoc,
ArrayRef< ParsedType Args,
SourceLocation  RParenLoc 
)

Parsed one of the type trait support pseudo-functions.

Definition at line 5017 of file SemaExprCXX.cpp.

Referenced by TypeTraitArity().

◆ ActOnUnaryExprOrTypeTraitExpr()

ExprResult Sema::ActOnUnaryExprOrTypeTraitExpr ( SourceLocation  OpLoc,
UnaryExprOrTypeTrait  ExprKind,
bool  IsType,
void *  TyOrEx,
SourceRange  ArgRange 
)

ActOnUnaryExprOrTypeTraitExpr - Handle sizeof(type) and sizeof expr and the same for alignof and __alignof Note that the ArgRange is invalid if isType is false.

Definition at line 4073 of file SemaExpr.cpp.

References clang::ExprError(), and clang::OpaquePtr< QualType >::getFromOpaquePtr().

◆ ActOnUnaryOp()

ExprResult Sema::ActOnUnaryOp ( Scope S,
SourceLocation  OpLoc,
tok::TokenKind  Op,
Expr Input 
)

Definition at line 12904 of file SemaExpr.cpp.

References ConvertTokenKindToUnaryOpcode().

Referenced by clang::Parser::ParseExpression().

◆ ActOnUninitializedDecl()

void Sema::ActOnUninitializedDecl ( Decl dcl)

◆ ActOnUsingDeclaration()

Decl * Sema::ActOnUsingDeclaration ( Scope CurScope,
AccessSpecifier  AS,
SourceLocation  UsingLoc,
SourceLocation  TypenameLoc,
CXXScopeSpec SS,
UnqualifiedId Name,
SourceLocation  EllipsisLoc,
const ParsedAttributesView AttrList 
)

Definition at line 9343 of file SemaDeclCXX.cpp.

◆ ActOnUsingDirective()

Decl * Sema::ActOnUsingDirective ( Scope CurScope,
SourceLocation  UsingLoc,
SourceLocation  NamespcLoc,
CXXScopeSpec SS,
SourceLocation  IdentLoc,
IdentifierInfo NamespcName,
const ParsedAttributesView AttrList 
)

◆ ActOnVAArg()

ExprResult Sema::ActOnVAArg ( SourceLocation  BuiltinLoc,
Expr E,
ParsedType  Ty,
SourceLocation  RPLoc 
)

Definition at line 13529 of file SemaExpr.cpp.

◆ ActOnVariableDeclarator()

NamedDecl * Sema::ActOnVariableDeclarator ( Scope S,
Declarator D,
DeclContext DC,
TypeSourceInfo TInfo,
LookupResult Previous,
MultiTemplateParamsArg  TemplateParamLists,
bool AddToScope,
ArrayRef< BindingDecl *>  Bindings = None 
)

Definition at line 6294 of file SemaDecl.cpp.

◆ ActOnVarTemplateSpecialization()

DeclResult Sema::ActOnVarTemplateSpecialization ( Scope S,
Declarator D,
TypeSourceInfo DI,
SourceLocation  TemplateKWLoc,
TemplateParameterList TemplateParams,
StorageClass  SC,
bool  IsPartialSpecialization 
)

◆ ActOnWhileStmt()

StmtResult Sema::ActOnWhileStmt ( SourceLocation  WhileLoc,
ConditionResult  Cond,
Stmt Body 
)

◆ AddAlignedAttr() [1/2]

void Sema::AddAlignedAttr ( SourceRange  AttrRange,
Decl D,
Expr E,
unsigned  SpellingListIndex,
bool  IsPackExpansion 
)

AddAlignedAttr - Adds an aligned attribute to a particular declaration.

Definition at line 3541 of file SemaDeclAttr.cpp.

◆ AddAlignedAttr() [2/2]

void Sema::AddAlignedAttr ( SourceRange  AttrRange,
Decl D,
TypeSourceInfo T,
unsigned  SpellingListIndex,
bool  IsPackExpansion 
)

Definition at line 3655 of file SemaDeclAttr.cpp.

◆ AddAlignmentAttributesForRecord()

void Sema::AddAlignmentAttributesForRecord ( RecordDecl RD)

AddAlignmentAttributesForRecord - Adds any needed alignment attributes to a the record decl, to handle '#pragma pack' and '#pragma options align'.

Definition at line 51 of file SemaAttr.cpp.

References clang::Decl::addAttr(), Context, clang::Sema::PragmaStack< ValueType >::CurrentPragmaLocation, clang::Sema::PragmaStack< ValueType >::CurrentValue, kMac68kAlignmentSentinel, PackIncludeStack, and PackStack.

◆ AddAlignValueAttr()

void Sema::AddAlignValueAttr ( SourceRange  AttrRange,
Decl D,
Expr E,
unsigned  SpellingListIndex 
)

AddAlignValueAttr - Adds an align_value attribute to a particular declaration.

Definition at line 3468 of file SemaDeclAttr.cpp.

◆ AddAllocAlignAttr()

void Sema::AddAllocAlignAttr ( SourceRange  AttrRange,
Decl D,
Expr ParamExpr,
unsigned  SpellingListIndex 
)

AddAllocAlignAttr - Adds an alloc_align attribute to a particular declaration.

Definition at line 1560 of file SemaDeclAttr.cpp.

References getFunctionOrMethodResultType().

◆ AddAnyMethodToGlobalPool()

void Sema::AddAnyMethodToGlobalPool ( Decl D)

AddAnyMethodToGlobalPool - Add any method, instance or factory to global pool.

Definition at line 329 of file SemaDeclObjC.cpp.

References AddFactoryMethodToGlobalPool(), AddInstanceMethodToGlobalPool(), and clang::ObjCMethodDecl::isInstanceMethod().

◆ AddArgumentDependentLookupCandidates()

void Sema::AddArgumentDependentLookupCandidates ( DeclarationName  Name,
SourceLocation  Loc,
ArrayRef< Expr *>  Args,
TemplateArgumentListInfo ExplicitTemplateArgs,
OverloadCandidateSet CandidateSet,
bool  PartialOverloading = false 
)

Add function candidates found via argument-dependent lookup to the set of overloading candidates.

This routine performs argument-dependent name lookup based on the given function name (which may also be an operator name) and adds all of the overload candidates found by ADL to the overload candidate set (C++ [basic.lookup.argdep]).

Definition at line 8899 of file SemaOverload.cpp.

◆ AddAssumeAlignedAttr()

void Sema::AddAssumeAlignedAttr ( SourceRange  AttrRange,
Decl D,
Expr E,
Expr OE,
unsigned  SpellingListIndex 
)

AddAssumeAlignedAttr - Adds an assume_aligned attribute to a particular declaration.

Definition at line 1509 of file SemaDeclAttr.cpp.

◆ AddBuiltinCandidate()

void Sema::AddBuiltinCandidate ( QualType ParamTys,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  IsAssignmentOperator = false,
unsigned  NumContextualBoolArguments = 0 
)

AddBuiltinCandidate - Add a candidate for a built-in operator.

ResultTy and ParamTys are the result and parameter types of the built-in candidate, respectively. Args and NumArgs are the arguments being passed to the candidate. IsAssignmentOperator should be true when this built-in candidate is an assignment operator. NumContextualBoolArguments is the number of arguments (at the beginning of the argument list) that will be contextually converted to bool.

Definition at line 7263 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::addCandidate(), clang::AS_none, clang::OverloadCandidate::BuiltinParamTypes, clang::OverloadCandidate::ExplicitCallArguments, clang::OverloadCandidate::FoundDecl, clang::OverloadCandidate::Function, clang::OverloadCandidate::IgnoreObjectArgument, clang::OverloadCandidate::IsSurrogate, clang::DeclAccessPair::make(), Unevaluated, and clang::OverloadCandidate::Viable.

◆ AddBuiltinOperatorCandidates()

void Sema::AddBuiltinOperatorCandidates ( OverloadedOperatorKind  Op,
SourceLocation  OpLoc,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet 
)

AddBuiltinOperatorCandidates - Add the appropriate built-in operator overloads to the candidate set (C++ [over.built]), based on the operator Op and the arguments given.

For example, if the operator is a binary '+', this routine might add "int operator+(int, int)" to cover integer addition.

Definition at line 8703 of file SemaOverload.cpp.

References clang::Qualifiers::addConst(), and CollectVRQualifiers().

Referenced by FindConditionalOverload().

◆ AddCFAuditedAttribute()

void Sema::AddCFAuditedAttribute ( Decl D)

◆ AddConversionCandidate()

void Sema::AddConversionCandidate ( CXXConversionDecl Conversion,
DeclAccessPair  FoundDecl,
CXXRecordDecl ActingContext,
Expr From,
QualType  ToType,
OverloadCandidateSet CandidateSet,
bool  AllowObjCConversionOnExplicit,
bool  AllowResultConversion = true 
)

AddConversionCandidate - Add a C++ conversion function as a candidate in the candidate set (C++ [over.match.conv], C++ [over.match.copy]).

From is the expression we're converting from, and ToType is the type that we're eventually trying to convert to (which may or may not be the same type as the type that the conversion function produces).

Definition at line 6874 of file SemaOverload.cpp.

◆ addExternalSource()

void Sema::addExternalSource ( ExternalSemaSource E)

Registers an external source.

If an external source already exists, creates a multiplex external source and appends to it.

Parameters
[in]E- A non-null external sema source.

Definition at line 403 of file Sema.cpp.

◆ AddFactoryMethodToGlobalPool()

void clang::Sema::AddFactoryMethodToGlobalPool ( ObjCMethodDecl Method,
bool  impl = false 
)
inline

AddFactoryMethodToGlobalPool - Same as above, but for factory methods.

Definition at line 3611 of file Sema.h.

Referenced by AddAnyMethodToGlobalPool(), and ProcessPropertyDecl().

◆ AddFunctionCandidates()

void Sema::AddFunctionCandidates ( const UnresolvedSetImpl Fns,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
TemplateArgumentListInfo ExplicitTemplateArgs = nullptr,
bool  SuppressUserConversions = false,
bool  PartialOverloading = false,
bool  FirstArgumentIsBase = false 
)

Add all of the function declarations in the given function set to the overload candidate set.

Definition at line 6408 of file SemaOverload.cpp.

References clang::UnresolvedSetImpl::begin().

◆ AddImplicitlyDeclaredMembersToClass()

void Sema::AddImplicitlyDeclaredMembersToClass ( CXXRecordDecl ClassDecl)

AddImplicitlyDeclaredMembersToClass - Adds any implicitly-declared special functions, such as the default constructor, copy constructor, or destructor, to the given C++ class (C++ [special]p1).

This routine can only be executed just before the definition of the class is complete.

Definition at line 7818 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::hasInheritedConstructor(), clang::CXXRecordDecl::needsImplicitCopyConstructor(), clang::CXXRecordDecl::needsImplicitDefaultConstructor(), clang::CXXRecordDecl::needsOverloadResolutionForCopyConstructor(), clang::ASTContext::NumImplicitCopyConstructors, and clang::ASTContext::NumImplicitDefaultConstructors.

◆ addImplicitTypedef()

void Sema::addImplicitTypedef ( StringRef  Name,
QualType  T 
)

Definition at line 180 of file Sema.cpp.

Referenced by Initialize().

◆ AddInitializerToDecl()

void Sema::AddInitializerToDecl ( Decl RealDecl,
Expr Init,
bool  DirectInit 
)

◆ AddInstanceMethodToGlobalPool()

void clang::Sema::AddInstanceMethodToGlobalPool ( ObjCMethodDecl Method,
bool  impl = false 
)
inline

AddInstanceMethodToGlobalPool - All instance methods in a translation unit are added to a global pool.

This allows us to efficiently associate a selector with a method declaraation for purposes of typechecking messages sent to "id" (where the class of the object is unknown).

Definition at line 3606 of file Sema.h.

Referenced by AddAnyMethodToGlobalPool(), and ProcessPropertyDecl().

◆ AddKnownFunctionAttributes()

void Sema::AddKnownFunctionAttributes ( FunctionDecl FD)

Adds any function attributes that we know a priori based on the declaration of this function.

These attributes can apply both to implicitly-declared builtins (like __builtin___printf_chk) or to library-declared functions like NSLog or printf.

We need to check for duplicate attributes both here and where user-written attributes are applied to declarations.

Definition at line 13439 of file SemaDecl.cpp.

References clang::FunctionDecl::getBuiltinID(), and clang::Decl::isInvalidDecl().

◆ addLambdaParameters()

void Sema::addLambdaParameters ( CXXMethodDecl CallOperator,
Scope CurScope 
)

Introduce the lambda parameters into scope.

Definition at line 496 of file SemaLambda.cpp.

References clang::NamedDecl::getIdentifier(), clang::FunctionDecl::getNumParams(), and clang::FunctionDecl::getParamDecl().

◆ AddLaunchBoundsAttr()

void Sema::AddLaunchBoundsAttr ( SourceRange  AttrRange,
Decl D,
Expr MaxThreads,
Expr MinBlocks,
unsigned  SpellingListIndex 
)

AddLaunchBoundsAttr - Adds a launch_bounds attribute to a particular declaration.

Definition at line 4530 of file SemaDeclAttr.cpp.

◆ AddMemberOperatorCandidates()

void Sema::AddMemberOperatorCandidates ( OverloadedOperatorKind  Op,
SourceLocation  OpLoc,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
SourceRange  OpRange = SourceRange() 
)

Add overload candidates for overloaded operators that are member functions.

Add the overloaded operator candidates that are member functions for the operator Op that was used in an operator expression such as "x Op y". , Args/NumArgs provides the operator arguments, and CandidateSet will store the added overload candidates. (C++ [over.match.oper]).

Definition at line 7212 of file SemaOverload.cpp.

◆ AddMethodCandidate() [1/2]

void Sema::AddMethodCandidate ( DeclAccessPair  FoundDecl,
QualType  ObjectType,
Expr::Classification  ObjectClassification,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  SuppressUserConversions = false 
)

AddMethodCandidate - Adds a named decl (which is some kind of method) as a method candidate to the given overload set.

Definition at line 6472 of file SemaOverload.cpp.

References clang::DeclAccessPair::getDecl(), and clang::Decl::getDeclContext().

◆ AddMethodCandidate() [2/2]

void Sema::AddMethodCandidate ( CXXMethodDecl Method,
DeclAccessPair  FoundDecl,
CXXRecordDecl ActingContext,
QualType  ObjectType,
Expr::Classification  ObjectClassification,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  SuppressUserConversions = false,
bool  PartialOverloading = false,
ConversionSequenceList  EarlyConversions = None 
)

AddMethodCandidate - Adds the given C++ member function to the set of candidate functions, using the given function call arguments and the object argument (Object).

For example, in a call o.f(a1,a2), Object will contain o and Args will contain both a1 and a2. If SuppressUserConversions, then don't allow user-defined conversions via constructors or conversion operators.

Definition at line 6506 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::addCandidate(), clang::OverloadCandidate::FoundDecl, clang::Type::getAs(), clang::ValueDecl::getType(), clang::FunctionDecl::isDefaulted(), clang::FunctionDecl::isDeleted(), clang::CXXMethodDecl::isMoveAssignmentOperator(), clang::OverloadCandidateSet::isNewCandidate(), and Unevaluated.

◆ AddMethodTemplateCandidate()

void Sema::AddMethodTemplateCandidate ( FunctionTemplateDecl MethodTmpl,
DeclAccessPair  FoundDecl,
CXXRecordDecl ActingContext,
TemplateArgumentListInfo ExplicitTemplateArgs,
QualType  ObjectType,
Expr::Classification  ObjectClassification,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  SuppressUserConversions = false,
bool  PartialOverloading = false 
)

Add a C++ member function template as a candidate to the candidate set, using template argument deduction to produce an appropriate member function template specialization.

Definition at line 6644 of file SemaOverload.cpp.

◆ addMethodToGlobalList()

void Sema::addMethodToGlobalList ( ObjCMethodList List,
ObjCMethodDecl Method 
)

Add the given method to the list of globally-known methods.

Definition at line 3265 of file SemaDeclObjC.cpp.

Referenced by updateOutOfDateSelector().

◆ AddModeAttr()

void Sema::AddModeAttr ( SourceRange  AttrRange,
Decl D,
IdentifierInfo Name,
unsigned  SpellingListIndex,
bool  InInstantiation = false 
)

AddModeAttr - Adds a mode attribute to a particular declaration.

Definition at line 3807 of file SemaDeclAttr.cpp.

◆ AddMsStructLayoutForRecord()

void Sema::AddMsStructLayoutForRecord ( RecordDecl RD)

AddMsStructLayoutForRecord - Adds ms_struct layout attribute to record.

Definition at line 77 of file SemaAttr.cpp.

References clang::Decl::addAttr(), Context, clang::Sema::PragmaStack< ValueType >::CurrentValue, getLangOpts(), MSStructPragmaOn, and VtorDispStack.

◆ AddNSConsumedAttr()

void Sema::AddNSConsumedAttr ( SourceRange  AttrRange,
Decl D,
unsigned  SpellingListIndex,
bool  isNSConsumed,
bool  isTemplateInstantiation 
)

◆ AddOptnoneAttributeIfNoConflicts()

void Sema::AddOptnoneAttributeIfNoConflicts ( FunctionDecl FD,
SourceLocation  Loc 
)

Adds the 'optnone' attribute to the function declaration if there are no conflicts; Loc represents the location causing the 'optnone' attribute to be added (usually because of a pragma).

Definition at line 696 of file SemaAttr.cpp.

References clang::Decl::addAttr(), Context, and clang::Decl::hasAttr().

Referenced by AddRangeBasedOptnone().

◆ AddOverloadCandidate()

void Sema::AddOverloadCandidate ( FunctionDecl Function,
DeclAccessPair  FoundDecl,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  SuppressUserConversions = false,
bool  PartialOverloading = false,
bool  AllowExplicit = false,
ConversionSequenceList  EarlyConversions = None 
)

AddOverloadCandidate - Adds the given function to the set of candidate functions, using the given function call arguments.

If SuppressUserConversions, then don't allow user-defined conversions via constructors or conversion operators.

Parameters
PartialOverloadingtrue if we are performing "partial" overloading based on an incomplete set of function arguments. This feature is used by code completion.

Definition at line 5929 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::CSK_Operator, clang::Type::getAs(), clang::FunctionDecl::getDescribedFunctionTemplate(), clang::OverloadCandidateSet::getKind(), clang::ValueDecl::getType(), IsAcceptableNonMemberOperatorCandidate(), clang::OverloadCandidateSet::isNewCandidate(), and clang::Expr::Classification::makeSimpleLValue().

Referenced by IsInitializerListConstructorConversion(), IsUserDefinedConversion(), resolveAllocationOverload(), resolveBuiltinNewDeleteOverload(), ResolveConstructorOverload(), TryRefInitWithConversionFunction(), and TryUserDefinedConversion().

◆ AddOverloadedCallCandidates()

void Sema::AddOverloadedCallCandidates ( UnresolvedLookupExpr ULE,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  PartialOverloading = false 
)

Add the overload candidates named by callee and/or found by argument dependent lookup to the given overload set.

Definition at line 11636 of file SemaOverload.cpp.

References clang::UnresolvedLookupExpr::requiresADL().

◆ AddOverriddenMethods()

bool Sema::AddOverriddenMethods ( CXXRecordDecl DC,
CXXMethodDecl MD 
)

AddOverriddenMethods - See if a method overrides any in the base classes, and if so, check that it's a valid override and remember it.

Definition at line 7638 of file SemaDecl.cpp.

◆ AddParameterABIAttr()

void Sema::AddParameterABIAttr ( SourceRange  AttrRange,
Decl D,
ParameterABI  ABI,
unsigned  SpellingListIndex 
)

◆ AddPragmaAttributes()

void Sema::AddPragmaAttributes ( Scope S,
Decl D 
)

Adds the attributes that have been specified using the '#pragma clang attribute push' directives to the given declaration.

Definition at line 644 of file SemaAttr.cpp.

References clang::ParsedAttributesView::addAtStart(), clang::ParsedAttr::appliesToDecl(), PragmaAttributeCurrentTargetDecl, PragmaAttributeStack, and ProcessDeclAttributeList().

Referenced by ActOnForwardProtocolDeclaration(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), and ActOnStartProtocolInterface().

◆ AddPushedVisibilityAttribute()

void Sema::AddPushedVisibilityAttribute ( Decl RD)

AddPushedVisibilityAttribute - If '#pragma GCC visibility' was used, add an appropriate visibility attribute.

Definition at line 713 of file SemaAttr.cpp.

References clang::NamedDecl::getExplicitVisibility(), VisContext, and clang::NamedDecl::VisibilityForValue.

◆ AddRangeBasedOptnone()

void Sema::AddRangeBasedOptnone ( FunctionDecl FD)

Only called on function definitions; if there is a pragma in scope with the effect of a range-based optnone, consider marking the function with attribute optnone.

Definition at line 689 of file SemaAttr.cpp.

References AddOptnoneAttributeIfNoConflicts(), clang::SourceLocation::isValid(), and OptimizeOffPragmaLocation.

◆ AddSurrogateCandidate()

void Sema::AddSurrogateCandidate ( CXXConversionDecl Conversion,
DeclAccessPair  FoundDecl,
CXXRecordDecl ActingContext,
const FunctionProtoType Proto,
Expr Object,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet 
)

AddSurrogateCandidate - Adds a "surrogate" candidate function that converts the given Object to a function pointer via the conversion function Conversion, and then attempts to call it with the given arguments (C++ [over.call.object]p2-4).

Proto is the type of function that we'll eventually be calling.

Definition at line 7099 of file SemaOverload.cpp.

◆ AddTemplateConversionCandidate()

void Sema::AddTemplateConversionCandidate ( FunctionTemplateDecl FunctionTemplate,
DeclAccessPair  FoundDecl,
CXXRecordDecl ActingDC,
Expr From,
QualType  ToType,
OverloadCandidateSet CandidateSet,
bool  AllowObjCConversionOnExplicit,
bool  AllowResultConversion = true 
)

Adds a conversion function template specialization candidate to the overload set, using template argument deduction to deduce the template arguments of the conversion function template from the type that we are converting to (C++ [temp.deduct.conv]).

Definition at line 7055 of file SemaOverload.cpp.

◆ AddTemplateOverloadCandidate()

void Sema::AddTemplateOverloadCandidate ( FunctionTemplateDecl FunctionTemplate,
DeclAccessPair  FoundDecl,
TemplateArgumentListInfo ExplicitTemplateArgs,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
bool  SuppressUserConversions = false,
bool  PartialOverloading = false 
)

Add a C++ function template specialization as a candidate in the candidate set, using template argument deduction to produce an appropriate function template specialization.

Definition at line 6712 of file SemaOverload.cpp.

Referenced by IsInitializerListConstructorConversion(), IsUserDefinedConversion(), resolveAllocationOverload(), resolveBuiltinNewDeleteOverload(), ResolveConstructorOverload(), TryRefInitWithConversionFunction(), and TryUserDefinedConversion().

◆ adjustCCAndNoReturn()

QualType Sema::adjustCCAndNoReturn ( QualType  ArgFunctionType,
QualType  FunctionType,
bool  AdjustExceptionSpec = false 
)

Adjust the type ArgFunctionType to match the calling convention, noreturn, and optionally the exception specification of FunctionType.

Deduction often wants to ignore these properties when matching function types.

Definition at line 3948 of file SemaTemplateDeduction.cpp.

References clang::Type::castAs(), clang::FunctionProtoType::ExtProtoInfo::ExceptionSpec, clang::Type::getAs(), clang::FunctionType::getCallConv(), clang::FunctionProtoType::getExtProtoInfo(), clang::FunctionType::getNoReturnAttr(), clang::FunctionProtoType::hasExceptionSpec(), and clang::QualType::isNull().

◆ adjustContextForLocalExternDecl()

bool Sema::adjustContextForLocalExternDecl ( DeclContext *&  DC)
static

◆ AdjustDeclIfTemplate()

TemplateDecl * Sema::AdjustDeclIfTemplate ( Decl *&  D)

AdjustDeclIfTemplate - If the given decl happens to be a template, reset the parameter D to reference the templated declaration and return a pointer to the template declaration.

Otherwise, do nothing to D and return null.

Definition at line 776 of file SemaTemplate.cpp.

◆ AdjustDestructorExceptionSpec()

void Sema::AdjustDestructorExceptionSpec ( CXXRecordDecl ClassDecl,
CXXDestructorDecl Destructor 
)

Build an exception spec for destructors that don't have one.

C++11 says that user-defined destructors with no exception spec get one that looks as if the destructor was implicitly declared.

Definition at line 11192 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus11, clang::EST_Unevaluated, clang::FunctionProtoType::ExtProtoInfo::ExceptionSpec, clang::FunctionProtoType::getExtProtoInfo(), clang::ValueDecl::getType(), clang::FunctionProtoType::hasExceptionSpec(), clang::ValueDecl::setType(), clang::FunctionProtoType::ExceptionSpecInfo::SourceDecl, and clang::FunctionProtoType::ExceptionSpecInfo::Type.

◆ adjustMemberFunctionCC()

void Sema::adjustMemberFunctionCC ( QualType T,
bool  IsStatic,
bool  IsCtorOrDtor,
SourceLocation  Loc 
)

Adjust the calling convention of a method to be the ABI default if it wasn't specified explicitly.

This handles method types formed from function type typedefs and typename template arguments.

Definition at line 6858 of file SemaType.cpp.

References clang::FunctionType::getCallConv().

◆ areLaxCompatibleVectorTypes()

bool Sema::areLaxCompatibleVectorTypes ( QualType  srcTy,
QualType  destTy 
)

Are the two types lax-compatible vector types? That is, given that one of them is a vector, do they have equal storage sizes, where the storage size is the number of elements times the element size?

This will also return false if either of the types is neither a vector nor a real type.

Definition at line 6027 of file SemaExpr.cpp.

References breakDownVectorType(), clang::Type::isExtVectorType(), clang::Type::isScalarType(), and clang::Type::isVectorType().

Referenced by TryReinterpretCast().

◆ AreMultipleMethodsInGlobalPool()

bool Sema::AreMultipleMethodsInGlobalPool ( Selector  Sel,
ObjCMethodDecl BestMethod,
SourceRange  R,
bool  receiverIdOrClass,
SmallVectorImpl< ObjCMethodDecl *> &  Methods 
)

◆ ArgumentDependentLookup()

void Sema::ArgumentDependentLookup ( DeclarationName  Name,
SourceLocation  Loc,
ArrayRef< Expr *>  Args,
ADLResult Functions 
)

Definition at line 3306 of file SemaLookup.cpp.

◆ AtomicPropertySetterGetterRules()

void Sema::AtomicPropertySetterGetterRules ( ObjCImplDecl IMPDecl,
ObjCInterfaceDecl IDecl 
)

AtomicPropertySetterGetterRules - This routine enforces the rule (via warning) when atomic property has one but not the other user-declared setter or getter.

Definition at line 2113 of file SemaObjCProperty.cpp.

References getLangOpts(), clang::ObjCInterfaceDecl::known_extensions(), clang::LangOptions::NonGC, and clang::ObjCContainerDecl::properties().

◆ AttachBaseSpecifiers()

bool Sema::AttachBaseSpecifiers ( CXXRecordDecl Class,
MutableArrayRef< CXXBaseSpecifier *>  Bases 
)

Performs the actual work of attaching the given base class specifiers to a C++ class.

Definition at line 2370 of file SemaDeclCXX.cpp.

◆ BuildAddressSpaceAttr()

QualType Sema::BuildAddressSpaceAttr ( QualType T,
Expr AddrSpace,
SourceLocation  AttrLoc 
)

BuildAddressSpaceAttr - Builds a DependentAddressSpaceType if an expression is uninstantiated.

If instantiated it will apply the appropriate address space to the type. This function allows dependent template variables to be used in conjunction with the address_space attribute

Definition at line 5736 of file SemaType.cpp.

References clang::Expr::isIntegerConstantExpr(), and clang::Expr::isValueDependent().

Referenced by HandleAddressSpaceTypeAttribute().

◆ BuildAnonymousStructOrUnion()

Decl * Sema::BuildAnonymousStructOrUnion ( Scope S,
DeclSpec DS,
AccessSpecifier  AS,
RecordDecl Record,
const PrintingPolicy Policy 
)

BuildAnonymousStructOrUnion - Handle the declaration of an anonymous structure or union.

Anonymous unions are a C++ feature (C++ [class.union]) and a C11 feature; anonymous structures are a C11 feature and GNU C++ extension.

Definition at line 4634 of file SemaDecl.cpp.

◆ BuildAnonymousStructUnionMemberReference()

ExprResult Sema::BuildAnonymousStructUnionMemberReference ( const CXXScopeSpec SS,
SourceLocation  nameLoc,
IndirectFieldDecl indirectField,
DeclAccessPair  FoundDecl = DeclAccessPair::make(nullptr, AS_none),
Expr baseObjectExpr = nullptr,
SourceLocation  opLoc = SourceLocation() 
)

◆ BuildArrayType()

QualType Sema::BuildArrayType ( QualType  T,
ArrayType::ArraySizeModifier  ASM,
Expr ArraySize,
unsigned  Quals,
SourceRange  Brackets,
DeclarationName  Entity 
)

Build an array type.

Parameters
TThe type of each element in the array.
ASMC99 array size modifier (e.g., '*', 'static').
ArraySizeExpression describing the size of the array.
BracketsThe range from the opening '[' to the closing ']'.
EntityThe name of the entity that involves the array type, if known.
Returns
A suitable array type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 2036 of file SemaType.cpp.

References clang::frontend::CPlusPlus, Diag(), clang::SourceRange::getBegin(), getPrintableNameForEntity(), clang::Type::isIncompleteArrayType(), clang::Type::isReferenceType(), and clang::Type::isVoidType().

◆ BuildArrayTypeTrait()

ExprResult Sema::BuildArrayTypeTrait ( ArrayTypeTrait  ATT,
SourceLocation  KWLoc,
TypeSourceInfo TSInfo,
Expr DimExpr,
SourceLocation  RParen 
)

◆ BuildAtomicType()

QualType Sema::BuildAtomicType ( QualType  T,
SourceLocation  Loc 
)

◆ BuildBaseInitializer()

MemInitResult Sema::BuildBaseInitializer ( QualType  BaseType,
TypeSourceInfo BaseTInfo,
Expr Init,
CXXRecordDecl ClassDecl,
SourceLocation  EllipsisLoc 
)

◆ BuildBasePathArray()

void Sema::BuildBasePathArray ( const CXXBasePaths Paths,
CXXCastPath BasePath 
)

Definition at line 2554 of file SemaDeclCXX.cpp.

◆ BuildBinOp()

ExprResult Sema::BuildBinOp ( Scope S,
SourceLocation  OpLoc,
BinaryOperatorKind  Opc,
Expr LHSExpr,
Expr RHSExpr 
)

◆ BuildBlockForLambdaConversion()

ExprResult Sema::BuildBlockForLambdaConversion ( SourceLocation  CurrentLocation,
SourceLocation  ConvLocation,
CXXConversionDecl Conv,
Expr Src 
)

◆ BuildBlockPointerType()

QualType Sema::BuildBlockPointerType ( QualType  T,
SourceLocation  Loc,
DeclarationName  Entity 
)

Build a block pointer type.

Parameters
TThe type to which we'll be building a block pointer.
LocThe source location, used for diagnostics.
EntityThe name of the entity that involves the block pointer type, if known.
Returns
A suitable block pointer type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 2529 of file SemaType.cpp.

References checkQualifiedFunction(), Diag(), and clang::Type::isFunctionType().

◆ BuildBuiltinOffsetOf()

ExprResult Sema::BuildBuiltinOffsetOf ( SourceLocation  BuiltinLoc,
TypeSourceInfo TInfo,
ArrayRef< OffsetOfComponent Components,
SourceLocation  RParenLoc 
)

__builtin_offsetof(type, a.b[123][456].c)

Definition at line 13027 of file SemaExpr.cpp.

◆ BuildCallToMemberFunction()

ExprResult Sema::BuildCallToMemberFunction ( Scope S,
Expr MemExprE,
SourceLocation  LParenLoc,
MultiExprArg  Args,
SourceLocation  RParenLoc 
)

BuildCallToMemberFunction - Build a call to a member function.

MemExpr is the expression that refers to the member function (and includes the object parameter), Args/NumArgs are the arguments to the function call (not including the object parameter). The caller needs to validate that the member expression refers to a non-static member function or an overloaded member function.

Definition at line 12797 of file SemaOverload.cpp.

References clang::Expr::getType().

◆ BuildCallToObjectOfClassType()

ExprResult Sema::BuildCallToObjectOfClassType ( Scope S,
Expr Obj,
SourceLocation  LParenLoc,
MultiExprArg  Args,
SourceLocation  RParenLoc 
)

BuildCallToObjectOfClassType - Build a call to an object of class type (C++ [over.call.object]), which can end up invoking an overloaded function call operator (operator()) or performing a user-defined conversion on the object argument.

Definition at line 13078 of file SemaOverload.cpp.

References checkArgPlaceholdersForOverload(), checkPlaceholderForOverload(), clang::OverloadCandidateSet::CSK_Operator, clang::ExprError(), and clang::ActionResult< PtrTy, CompressInvalid >::get().

◆ BuildClassMessage()

ExprResult Sema::BuildClassMessage ( TypeSourceInfo ReceiverTypeInfo,
QualType  ReceiverType,
SourceLocation  SuperLoc,
Selector  Sel,
ObjCMethodDecl Method,
SourceLocation  LBracLoc,
ArrayRef< SourceLocation SelectorLocs,
SourceLocation  RBracLoc,
MultiExprArg  ArgsIn,
bool  isImplicit = false 
)

Build an Objective-C class message expression.

This routine takes care of both normal class messages and class messages to the superclass.

Parameters
ReceiverTypeInfoType source information that describes the receiver of this message. This may be NULL, in which case we are sending to the superclass and SuperLoc must be a valid source location.
ReceiverTypeThe type of the object receiving the message. When ReceiverTypeInfo is non-NULL, this is the same type as that refers to. For a superclass send, this is the type of the superclass.
SuperLocThe location of the "super" keyword in a superclass message.
SelThe selector to which the message is being sent.
MethodThe method that this class message is invoking, if already known.
LBracLocThe location of the opening square bracket ']'.
RBracLocThe location of the closing square bracket ']'.
ArgsInThe message arguments.

Definition at line 2399 of file SemaExprObjC.cpp.

References clang::ObjCMessageExpr::Create(), clang::FixItHint::CreateInsertion(), Diag(), clang::SourceRange::getBegin(), clang::TypeLoc::getSourceRange(), clang::TypeSourceInfo::getTypeLoc(), clang::Type::isDependentType(), clang::SourceLocation::isInvalid(), and clang::SourceLocation::isValid().

Referenced by clang::TreeTransform< Derived >::RebuildObjCMessageExpr().

◆ BuildClassMessageImplicit()

ExprResult Sema::BuildClassMessageImplicit ( QualType  ReceiverType,
bool  isSuperReceiver,
SourceLocation  Loc,
Selector  Sel,
ObjCMethodDecl Method,
MultiExprArg  Args 
)

Definition at line 2225 of file SemaExprObjC.cpp.

References clang::QualType::isNull().

Referenced by LookupMethodInReceiverType().

◆ BuildCompoundLiteralExpr()

ExprResult Sema::BuildCompoundLiteralExpr ( SourceLocation  LParenLoc,
TypeSourceInfo TInfo,
SourceLocation  RParenLoc,
Expr LiteralExpr 
)

Definition at line 5709 of file SemaExpr.cpp.

References clang::TypeSourceInfo::getType(), and clang::Type::isArrayType().

◆ BuildCoreturnStmt()

StmtResult Sema::BuildCoreturnStmt ( SourceLocation  KwLoc,
Expr E,
bool  IsImplicit = false 
)

Definition at line 831 of file SemaCoroutine.cpp.

◆ BuildCoroutineBodyStmt()

StmtResult Sema::BuildCoroutineBodyStmt ( CoroutineBodyStmt::CtorArgs  Args)

Definition at line 1523 of file SemaCoroutine.cpp.

References clang::CoroutineBodyStmt::Create().

◆ buildCoroutineParameterMoves()

bool Sema::buildCoroutineParameterMoves ( SourceLocation  Loc)

◆ buildCoroutinePromise()

VarDecl * Sema::buildCoroutinePromise ( SourceLocation  Loc)

Definition at line 504 of file SemaCoroutine.cpp.

◆ BuildCoyieldExpr()

ExprResult Sema::BuildCoyieldExpr ( SourceLocation  KwLoc,
Expr E 
)

Definition at line 789 of file SemaCoroutine.cpp.

◆ BuildCStyleCastExpr()

ExprResult Sema::BuildCStyleCastExpr ( SourceLocation  LParenLoc,
TypeSourceInfo Ty,
SourceLocation  RParenLoc,
Expr Op 
)

◆ BuildCXXConstructExpr() [1/3]

ExprResult Sema::BuildCXXConstructExpr ( SourceLocation  ConstructLoc,
QualType  DeclInitType,
NamedDecl FoundDecl,
CXXConstructorDecl Constructor,
MultiExprArg  Exprs,
bool  HadMultipleCandidates,
bool  IsListInitialization,
bool  IsStdInitListInitialization,
bool  RequiresZeroInit,
unsigned  ConstructKind,
SourceRange  ParenRange 
)

BuildCXXConstructExpr - Creates a complete call to a constructor, including handling of its default argument expressions.

Parameters
ConstructKind- a CXXConstructExpr::ConstructionKind

Definition at line 12736 of file SemaDeclCXX.cpp.

Referenced by clang::InitializationSequence::Perform(), PerformConstructorInitialization(), and PerformImplicitConversion().

◆ BuildCXXConstructExpr() [2/3]

ExprResult Sema::BuildCXXConstructExpr ( SourceLocation  ConstructLoc,
QualType  DeclInitType,
CXXConstructorDecl Constructor,
bool  Elidable,
MultiExprArg  ExprArgs,
bool  HadMultipleCandidates,
bool  IsListInitialization,
bool  IsStdInitListInitialization,
bool  RequiresZeroInit,
unsigned  ConstructKind,
SourceRange  ParenRange 
)

Build a CXXConstructExpr whose constructor has already been resolved if it denotes an inherited constructor.

BuildCXXConstructExpr - Creates a complete call to a constructor, including handling of its default argument expressions.

Definition at line 12800 of file SemaDeclCXX.cpp.

References clang::CXXConstructExpr::Create(), clang::declaresSameEntity(), clang::ExprError(), clang::Type::getAsCXXRecordDecl(), clang::Type::getBaseElementTypeUnsafe(), and clang::CXXMethodDecl::getParent().

◆ BuildCXXConstructExpr() [3/3]

ExprResult Sema::BuildCXXConstructExpr ( SourceLocation  ConstructLoc,
QualType  DeclInitType,
NamedDecl FoundDecl,
CXXConstructorDecl Constructor,
bool  Elidable,
MultiExprArg  Exprs,
bool  HadMultipleCandidates,
bool  IsListInitialization,
bool  IsStdInitListInitialization,
bool  RequiresZeroInit,
unsigned  ConstructKind,
SourceRange  ParenRange 
)

Definition at line 12774 of file SemaDeclCXX.cpp.

◆ BuildCXXDefaultArgExpr()

ExprResult Sema::BuildCXXDefaultArgExpr ( SourceLocation  CallLoc,
FunctionDecl FD,
ParmVarDecl Param 
)

BuildCXXDefaultArgExpr - Creates a CXXDefaultArgExpr, instantiating the default expr if needed.

Definition at line 4675 of file SemaExpr.cpp.

References clang::CXXDefaultArgExpr::Create(), and clang::ExprError().

◆ BuildCXXDefaultInitExpr()

ExprResult Sema::BuildCXXDefaultInitExpr ( SourceLocation  Loc,
FieldDecl Field 
)

◆ BuildCXXFoldExpr()

ExprResult Sema::BuildCXXFoldExpr ( SourceLocation  LParenLoc,
Expr LHS,
BinaryOperatorKind  Operator,
SourceLocation  EllipsisLoc,
Expr RHS,
SourceLocation  RParenLoc 
)

Definition at line 1178 of file SemaTemplateVariadic.cpp.

◆ BuildCXXForRangeStmt()

StmtResult Sema::BuildCXXForRangeStmt ( SourceLocation  ForLoc,
SourceLocation  CoawaitLoc,
SourceLocation  ColonLoc,
Stmt RangeDecl,
Stmt Begin,
Stmt End,
Expr Cond,
Expr Inc,
Stmt LoopVarDecl,
SourceLocation  RParenLoc,
BuildForRangeKind  Kind 
)

BuildCXXForRangeStmt - Build or instantiate a C++11 for-range statement.

Definition at line 2266 of file SemaStmt.cpp.

◆ BuildCXXFunctionalCastExpr()

ExprResult Sema::BuildCXXFunctionalCastExpr ( TypeSourceInfo TInfo,
QualType  Type,
SourceLocation  LParenLoc,
Expr CastExpr,
SourceLocation  RParenLoc 
)

◆ BuildCXXMemberCallExpr()

ExprResult Sema::BuildCXXMemberCallExpr ( Expr Exp,
NamedDecl FoundDecl,
CXXConversionDecl Method,
bool  HadMultipleCandidates 
)

◆ BuildCXXNamedCast()

ExprResult Sema::BuildCXXNamedCast ( SourceLocation  OpLoc,
tok::TokenKind  Kind,
TypeSourceInfo Ty,
Expr E,
SourceRange  AngleBrackets,
SourceRange  Parens 
)

Definition at line 255 of file SemaCast.cpp.

Referenced by CastForMoving().

◆ BuildCXXNestedNameSpecifier()

bool Sema::BuildCXXNestedNameSpecifier ( Scope S,
NestedNameSpecInfo IdInfo,
bool  EnteringContext,
CXXScopeSpec SS,
NamedDecl ScopeLookupResult,
bool  ErrorRecoveryLookup,
bool IsCorrectedToColon = nullptr,
bool  OnlyNamespace = false 
)

Build a new nested-name-specifier for "identifier::", as described by ActOnCXXNestedNameSpecifier.

Parameters
SScope in which the nested-name-specifier occurs.
IdInfoParser information about an identifier in the nested-name-spec.
EnteringContextIf true, enter the context specified by the nested-name-specifier.
SSOptional nested name specifier preceding the identifier.
ScopeLookupResultProvides the result of name lookup within the scope of the nested-name-specifier that was computed at template definition time.
ErrorRecoveryLookupSpecifies if the method is called to improve error recovery and what kind of recovery is performed.
IsCorrectedToColonIf not null, suggestion of replace '::' -> ':' are allowed. The bool value pointed by this parameter is set to 'true' if the identifier is treated as if it was followed by ':', not '::'.
OnlyNamespaceIf true, only considers namespaces in lookup.

This routine differs only slightly from ActOnCXXNestedNameSpecifier, in that it contains an extra parameter ScopeLookupResult, which provides the result of name lookup within the scope of the nested-name-specifier that was computed at template definition time.

If ErrorRecoveryLookup is true, then this call is used to improve error recovery. This means that it should not emit diagnostics, it should just return true on failure. It also means it should only return a valid scope if it knows that the result is correct. It should not return in a dependent context, for example. Nor will it extend SS with the scope specifier.

Definition at line 477 of file SemaCXXScopeSpec.cpp.

◆ BuildCXXNew()

ExprResult Sema::BuildCXXNew ( SourceRange  Range,
bool  UseGlobal,
SourceLocation  PlacementLParen,
MultiExprArg  PlacementArgs,
SourceLocation  PlacementRParen,
SourceRange  TypeIdParens,
QualType  AllocType,
TypeSourceInfo AllocTypeInfo,
Expr ArraySize,
SourceRange  DirectInitRange,
Expr Initializer 
)

◆ BuildCXXNoexceptExpr()

ExprResult Sema::BuildCXXNoexceptExpr ( SourceLocation  KeyLoc,
Expr Operand,
SourceLocation  RParen 
)

◆ BuildCXXThrow()

ExprResult Sema::BuildCXXThrow ( SourceLocation  OpLoc,
Expr Ex,
bool  IsThrownVarInScope 
)

Definition at line 750 of file SemaExprCXX.cpp.

References Diag(), and clang::Expr::isTypeDependent().

◆ BuildCXXTypeConstructExpr()

ExprResult Sema::BuildCXXTypeConstructExpr ( TypeSourceInfo Type,
SourceLocation  LParenLoc,
MultiExprArg  Exprs,
SourceLocation  RParenLoc,
bool  ListInitialization 
)

◆ BuildCXXTypeId() [1/2]

ExprResult Sema::BuildCXXTypeId ( QualType  TypeInfoType,
SourceLocation  TypeidLoc,
TypeSourceInfo Operand,
SourceLocation  RParenLoc 
)

Build a C++ typeid expression with a type operand.

Definition at line 437 of file SemaExprCXX.cpp.

◆ BuildCXXTypeId() [2/2]

ExprResult Sema::BuildCXXTypeId ( QualType  TypeInfoType,
SourceLocation  TypeidLoc,
Expr Operand,
SourceLocation  RParenLoc 
)

Build a C++ typeid expression with an expression operand.

Definition at line 462 of file SemaExprCXX.cpp.

◆ BuildCXXUuidof() [1/2]

ExprResult Sema::BuildCXXUuidof ( QualType  TypeInfoType,
SourceLocation  TypeidLoc,
TypeSourceInfo Operand,
SourceLocation  RParenLoc 
)

Build a Microsoft __uuidof expression with a type operand.

Definition at line 620 of file SemaExprCXX.cpp.

References Diag(), clang::ExprError(), clang::TypeSourceInfo::getType(), getUuidAttrOfType(), and clang::Type::isDependentType().

◆ BuildCXXUuidof() [2/2]

ExprResult Sema::BuildCXXUuidof ( QualType  TypeInfoType,
SourceLocation  TypeidLoc,
Expr Operand,
SourceLocation  RParenLoc 
)

Build a Microsoft __uuidof expression with an expression operand.

Definition at line 640 of file SemaExprCXX.cpp.

◆ BuildDeclarationNameExpr() [1/2]

ExprResult Sema::BuildDeclarationNameExpr ( const CXXScopeSpec SS,
LookupResult R,
bool  NeedsADL,
bool  AcceptInvalidDecl = false 
)

◆ BuildDeclarationNameExpr() [2/2]

ExprResult Sema::BuildDeclarationNameExpr ( const CXXScopeSpec SS,
const DeclarationNameInfo NameInfo,
NamedDecl D,
NamedDecl FoundD = nullptr,
const TemplateArgumentListInfo TemplateArgs = nullptr,
bool  AcceptInvalidDecl = false 
)

◆ BuildDeclaratorGroup()

Sema::DeclGroupPtrTy Sema::BuildDeclaratorGroup ( MutableArrayRef< Decl *>  Group)

BuildDeclaratorGroup - convert a list of declarations into a declaration group, performing any necessary semantic checking.

Definition at line 12201 of file SemaDecl.cpp.

References clang::Type::getContainedDeducedType(), clang::DeducedType::getDeducedType(), clang::ValueDecl::getType(), clang::Decl::isInvalidDecl(), and clang::QualType::isNull().

Referenced by ActOnFinishObjCImplementation(), ActOnForwardClassDeclaration(), ActOnForwardProtocolDeclaration(), and clang::Parser::ParseTopLevelDecl().

◆ BuildDeclRefExpr() [1/2]

ExprResult Sema::BuildDeclRefExpr ( ValueDecl D,
QualType  Ty,
ExprValueKind  VK,
SourceLocation  Loc,
const CXXScopeSpec SS = nullptr 
)

◆ BuildDeclRefExpr() [2/2]

ExprResult Sema::BuildDeclRefExpr ( ValueDecl D,
QualType  Ty,
ExprValueKind  VK,
const DeclarationNameInfo NameInfo,
const CXXScopeSpec SS = nullptr,
NamedDecl FoundD = nullptr,
const TemplateArgumentListInfo TemplateArgs = nullptr 
)

BuildDeclRefExpr - Build an expression that references a declaration that does not require a closure capture.

Definition at line 1653 of file SemaExpr.cpp.

References clang::DeclarationNameInfo::getLoc().

◆ BuildDecltypeType()

QualType Sema::BuildDecltypeType ( Expr E,
SourceLocation  Loc,
bool  AsUnevaluated = true 
)

If AsUnevaluated is false, E is treated as though it were an evaluated context, such as when building a type for decltype(auto).

Definition at line 8035 of file SemaType.cpp.

Referenced by ActOnCXXNestedNameSpecifierDecltype(), and ActOnPseudoDestructorExpr().

◆ BuildDelegatingInitializer()

MemInitResult Sema::BuildDelegatingInitializer ( TypeSourceInfo TInfo,
Expr Init,
CXXRecordDecl ClassDecl 
)

◆ BuildDependentDeclRefExpr()

ExprResult Sema::BuildDependentDeclRefExpr ( const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
const DeclarationNameInfo NameInfo,
const TemplateArgumentListInfo TemplateArgs 
)

Definition at line 647 of file SemaTemplate.cpp.

References clang::DependentScopeDeclRefExpr::Create().

◆ BuildEmptyCXXFoldExpr()

ExprResult Sema::BuildEmptyCXXFoldExpr ( SourceLocation  EllipsisLoc,
BinaryOperatorKind  Operator 
)

Definition at line 1186 of file SemaTemplateVariadic.cpp.

◆ BuildExceptionDeclaration()

VarDecl * Sema::BuildExceptionDeclaration ( Scope S,
TypeSourceInfo TInfo,
SourceLocation  StartLoc,
SourceLocation  Loc,
IdentifierInfo Name 
)

Perform semantic analysis for the variable declaration that occurs within a C++ catch clause, returning the newly-created variable.

Definition at line 13551 of file SemaDeclCXX.cpp.

◆ BuildExpressionFromDeclTemplateArgument()

ExprResult Sema::BuildExpressionFromDeclTemplateArgument ( const TemplateArgument Arg,
QualType  ParamType,
SourceLocation  Loc 
)

Given a non-type template argument that refers to a declaration and the type of its corresponding non-type template parameter, produce an expression that properly refers to that declaration.

Definition at line 6709 of file SemaTemplate.cpp.

References clang::Type::isArrayType().

◆ BuildExpressionFromIntegralTemplateArgument()

ExprResult Sema::BuildExpressionFromIntegralTemplateArgument ( const TemplateArgument Arg,
SourceLocation  Loc 
)

Construct a new expression that refers to the given integral template argument with the given source-location information.

This routine takes care of the mapping from an integral template argument (which may have any integral type) to the appropriate literal value.

Definition at line 6835 of file SemaTemplate.cpp.

References clang::Type::getAs(), clang::TemplateArgument::getIntegralType(), clang::TemplateArgument::getKind(), and clang::TemplateArgument::Integral.

◆ BuildExpressionTrait()

ExprResult Sema::BuildExpressionTrait ( ExpressionTrait  OET,
SourceLocation  KWLoc,
Expr Queried,
SourceLocation  RParen 
)

◆ BuildExtVectorType()

QualType Sema::BuildExtVectorType ( QualType  T,
Expr ArraySize,
SourceLocation  AttrLoc 
)

◆ BuildFieldReferenceExpr()

ExprResult Sema::BuildFieldReferenceExpr ( Expr BaseExpr,
bool  IsArrow,
SourceLocation  OpLoc,
const CXXScopeSpec SS,
FieldDecl Field,
DeclAccessPair  FoundDecl,
const DeclarationNameInfo MemberNameInfo 
)

Definition at line 1717 of file SemaExprMember.cpp.

◆ BuildForRangeBeginEndCall()

Sema::ForRangeStatus Sema::BuildForRangeBeginEndCall ( SourceLocation  Loc,
SourceLocation  RangeLoc,
const DeclarationNameInfo NameInfo,
LookupResult MemberLookup,
OverloadCandidateSet CandidateSet,
Expr Range,
ExprResult CallExpr 
)

Build a call to 'begin' or 'end' for a C++11 for-range statement.

If the given LookupResult is non-empty, it is assumed to describe a member which will be invoked. Otherwise, the function will be found via argument dependent lookup. CallExpr is set to a valid expression and FRS_Success returned on success, otherwise CallExpr is set to ExprError() and some non-success value is returned.

Definition at line 13557 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::clear(), clang::OverloadCandidateSet::CSK_Normal, clang::LookupResult::empty(), and clang::Expr::getType().

Referenced by BuildNonArrayForRange().

◆ BuildFunctionType()

QualType Sema::BuildFunctionType ( QualType  T,
MutableArrayRef< QualType ParamTypes,
SourceLocation  Loc,
DeclarationName  Entity,
const FunctionProtoType::ExtProtoInfo EPI 
)

Build a function type.

This routine checks the function type according to C++ rules and under the assumption that the result type and parameter types have just been instantiated from a template. It therefore duplicates some of the behavior of GetTypeForDeclarator, but in a much simpler form that is only suitable for this narrow use case.

Parameters
TThe return type of the function.
ParamTypesThe parameter types of the function. This array will be modified to account for adjustments to the types of the function parameters.
LocThe location of the entity whose type involves this function type or, if there is no such entity, the location of the type that will have function type.
EntityThe name of the entity that involves the function type, if known.
EPIExtra information about the function type. Usually this will be taken from an existing function with the same prototype.
Returns
A suitable function type, if there are no errors. The unqualified type will always be a FunctionProtoType. Otherwise, returns a NULL type.

Definition at line 2429 of file SemaType.cpp.

◆ BuildIfStmt()

StmtResult Sema::BuildIfStmt ( SourceLocation  IfLoc,
bool  IsConstexpr,
Stmt InitStmt,
ConditionResult  Cond,
Stmt ThenVal,
SourceLocation  ElseLoc,
Stmt ElseVal 
)

◆ BuildImplicitMemberExpr()

ExprResult Sema::BuildImplicitMemberExpr ( const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
LookupResult R,
const TemplateArgumentListInfo TemplateArgs,
bool  IsKnownInstance,
const Scope S 
)

Builds an implicit member access expression.

The current context is known to be an instance method, and the given unqualified lookup set is known to contain only instance members, at least one of which is from an appropriate type.

Definition at line 1794 of file SemaExprMember.cpp.

References clang::LookupResult::empty(), clang::SourceRange::getBegin(), clang::LookupResult::getNameLoc(), clang::CXXScopeSpec::getRange(), clang::LookupResult::isAmbiguous(), clang::QualType::isNull(), and clang::SourceRange::isValid().

◆ buildInitCaptureField()

FieldDecl * Sema::buildInitCaptureField ( sema::LambdaScopeInfo LSI,
VarDecl Var 
)

Build the implicit field for an init-capture.

Definition at line 815 of file SemaLambda.cpp.

References clang::FieldDecl::Create().

◆ BuildInstanceMessage()

ExprResult Sema::BuildInstanceMessage ( Expr Receiver,
QualType  ReceiverType,
SourceLocation  SuperLoc,
Selector  Sel,
ObjCMethodDecl Method,
SourceLocation  LBracLoc,
ArrayRef< SourceLocation SelectorLocs,
SourceLocation  RBracLoc,
MultiExprArg  ArgsIn,
bool  isImplicit = false 
)

Build an Objective-C instance message expression.

This routine takes care of both normal instance messages and instance messages to the superclass instance.

Parameters
ReceiverThe expression that computes the object that will receive this message. This may be empty, in which case we are sending to the superclass instance and SuperLoc must be a valid source location.
ReceiverTypeThe (static) type of the object receiving the message. When a Receiver expression is provided, this is the same type as that expression. For a superclass instance send, this is a pointer to the type of the superclass.
SuperLocThe location of the "super" keyword in a superclass instance message.
SelThe selector to which the message is being sent.
MethodThe method that this instance message is invoking, if already known.
LBracLocThe location of the opening square bracket ']'.
RBracLocThe location of the closing square bracket ']'.
ArgsInThe message arguments.

Definition at line 2623 of file SemaExprObjC.cpp.

References clang::FixItHint::CreateInsertion(), Diag(), clang::Stmt::getLocStart(), clang::Stmt::getSourceRange(), clang::Expr::getType(), clang::Expr::hasPlaceholderType(), clang::SourceLocation::isInvalid(), and clang::SourceLocation::isValid().

Referenced by clang::TreeTransform< Derived >::RebuildObjCMessageExpr().

◆ BuildInstanceMessageImplicit()

ExprResult Sema::BuildInstanceMessageImplicit ( Expr Receiver,
QualType  ReceiverType,
SourceLocation  Loc,
Selector  Sel,
ObjCMethodDecl Method,
MultiExprArg  Args 
)

Definition at line 2565 of file SemaExprObjC.cpp.

Referenced by LookupMethodInReceiverType().

◆ BuildLambdaExpr()

ExprResult Sema::BuildLambdaExpr ( SourceLocation  StartLoc,
SourceLocation  EndLoc,
sema::LambdaScopeInfo LSI 
)

◆ buildLambdaInitCaptureInitialization()

QualType Sema::buildLambdaInitCaptureInitialization ( SourceLocation  Loc,
bool  ByRef,
IdentifierInfo Id,
bool  DirectInit,
Expr *&  Init 
)

Definition at line 731 of file SemaLambda.cpp.

◆ buildLambdaScope()

void Sema::buildLambdaScope ( sema::LambdaScopeInfo LSI,
CXXMethodDecl CallOperator,
SourceRange  IntroducerRange,
LambdaCaptureDefault  CaptureDefault,
SourceLocation  CaptureDefaultLoc,
bool  ExplicitParams,
bool  ExplicitResultType,
bool  Mutable 
)

◆ BuildLiteralOperatorCall()

ExprResult Sema::BuildLiteralOperatorCall ( LookupResult R,
DeclarationNameInfo SuffixInfo,
ArrayRef< Expr *>  Args,
SourceLocation  LitEndLoc,
TemplateArgumentListInfo TemplateArgs = nullptr 
)

◆ BuildMemberInitializer()

MemInitResult Sema::BuildMemberInitializer ( ValueDecl Member,
Expr Init,
SourceLocation  IdLoc 
)

◆ BuildMemberPointerType()

QualType Sema::BuildMemberPointerType ( QualType  T,
QualType  Class,
SourceLocation  Loc,
DeclarationName  Entity 
)

Build a member pointer type T Class::*.

Parameters
Tthe type to which the member pointer refers.
Classthe class type into which the member pointer points.
Locthe location where this type begins
Entitythe name of the entity that will have this member pointer type
Returns
a member pointer type, if successful, or a NULL type if there was an error.

Definition at line 2478 of file SemaType.cpp.

References clang::DeclarationName::CXXConstructorName, clang::DeclarationName::CXXDestructorName, Diag(), clang::DeclarationName::getNameKind(), getPrintableNameForEntity(), clang::Type::isDependentType(), clang::Type::isFunctionType(), clang::Type::isRecordType(), clang::Type::isReferenceType(), and clang::Type::isVoidType().

◆ BuildMemberReferenceExpr() [1/2]

ExprResult Sema::BuildMemberReferenceExpr ( Expr Base,
QualType  BaseType,
SourceLocation  OpLoc,
bool  IsArrow,
CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
NamedDecl FirstQualifierInScope,
const DeclarationNameInfo NameInfo,
const TemplateArgumentListInfo TemplateArgs,
const Scope S,
ActOnMemberAccessExtraArgs ExtraArgs = nullptr 
)

◆ BuildMemberReferenceExpr() [2/2]

ExprResult Sema::BuildMemberReferenceExpr ( Expr Base,
QualType  BaseType,
SourceLocation  OpLoc,
bool  IsArrow,
const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
NamedDecl FirstQualifierInScope,
LookupResult R,
const TemplateArgumentListInfo TemplateArgs,
const Scope S,
bool  SuppressQualifierCheck = false,
ActOnMemberAccessExtraArgs ExtraArgs = nullptr 
)

◆ BuildMemInitializer()

MemInitResult Sema::BuildMemInitializer ( Decl ConstructorD,
Scope S,
CXXScopeSpec SS,
IdentifierInfo MemberOrBase,
ParsedType  TemplateTypeTy,
const DeclSpec DS,
SourceLocation  IdLoc,
Expr Init,
SourceLocation  EllipsisLoc 
)

◆ BuildMicrosoftCAnonymousStruct()

Decl * Sema::BuildMicrosoftCAnonymousStruct ( Scope S,
DeclSpec DS,
RecordDecl Record 
)

BuildMicrosoftCAnonymousStruct - Handle the declaration of an Microsoft C anonymous structure.

Ref: http://msdn.microsoft.com/en-us/library/z2cx9y4f.aspx Example:

struct A { int a; }; struct B { struct A; int b; };

void foo() { B var; var.a = 3; }

Definition at line 4903 of file SemaDecl.cpp.

◆ BuildModuleInclude()

void Sema::BuildModuleInclude ( SourceLocation  DirectiveLoc,
Module Mod 
)

◆ BuildMSDependentExistsStmt()

StmtResult Sema::BuildMSDependentExistsStmt ( SourceLocation  KeywordLoc,
bool  IsIfExists,
NestedNameSpecifierLoc  QualifierLoc,
DeclarationNameInfo  NameInfo,
Stmt Nested 
)

Definition at line 4106 of file SemaStmt.cpp.

◆ BuildObjCArrayLiteral()

ExprResult Sema::BuildObjCArrayLiteral ( SourceRange  SR,
MultiExprArg  Elements 
)

◆ BuildObjCAtThrowStmt()

StmtResult Sema::BuildObjCAtThrowStmt ( SourceLocation  AtLoc,
Expr Throw 
)

◆ BuildObjCBoxedExpr()

ExprResult Sema::BuildObjCBoxedExpr ( SourceRange  SR,
Expr ValueExpr 
)

BuildObjCBoxedExpr - builds an ObjCBoxedExpr AST node for the '@' prefixed parenthesized expression.

The type of the expression will either be "NSNumber *", "NSString *" or "NSValue *" depending on the type of ValueType, which is allowed to be a built-in numeric type, "char *", "const char *" or C structure with attribute 'objc_boxable'.

Definition at line 499 of file SemaExprObjC.cpp.

References clang::Expr::isTypeDependent().

◆ BuildObjCBridgedCast()

ExprResult Sema::BuildObjCBridgedCast ( SourceLocation  LParenLoc,
ObjCBridgeCastKind  Kind,
SourceLocation  BridgeKeywordLoc,
TypeSourceInfo TSInfo,
Expr SubExpr 
)

◆ BuildObjCDictionaryLiteral()

ExprResult Sema::BuildObjCDictionaryLiteral ( SourceRange  SR,
MutableArrayRef< ObjCDictionaryElement Elements 
)

◆ BuildObjCEncodeExpression()

ExprResult Sema::BuildObjCEncodeExpression ( SourceLocation  AtLoc,
TypeSourceInfo EncodedTypeInfo,
SourceLocation  RParenLoc 
)

◆ BuildObjCExceptionDecl()

VarDecl * Sema::BuildObjCExceptionDecl ( TypeSourceInfo TInfo,
QualType  ExceptionType,
SourceLocation  StartLoc,
SourceLocation  IdLoc,
IdentifierInfo Id,
bool  Invalid = false 
)

◆ BuildObjCNumericLiteral()

ExprResult Sema::BuildObjCNumericLiteral ( SourceLocation  AtLoc,
Expr Number 
)

BuildObjCNumericLiteral - builds an ObjCBoxedExpr AST node for the numeric literal expression.

Type of the expression will be "NSNumber *" or "id" if NSNumber is unavailable.

Type of the expression will be "NSNumber *".

Definition at line 314 of file SemaExprObjC.cpp.

References clang::CharacterLiteral::Ascii, clang::Expr::getType(), and clang::CharacterLiteral::UTF8.

Referenced by CheckObjCCollectionLiteralElement().

◆ BuildObjCObjectType()

QualType Sema::BuildObjCObjectType ( QualType  BaseType,
SourceLocation  Loc,
SourceLocation  TypeArgsLAngleLoc,
ArrayRef< TypeSourceInfo *>  TypeArgs,
SourceLocation  TypeArgsRAngleLoc,
SourceLocation  ProtocolLAngleLoc,
ArrayRef< ObjCProtocolDecl *>  Protocols,
ArrayRef< SourceLocation ProtocolLocs,
SourceLocation  ProtocolRAngleLoc,
bool  FailOnError = false 
)

Build an Objective-C object pointer type.

Definition at line 981 of file SemaType.cpp.

References applyObjCTypeArgs(), clang::QualType::isNull(), and clang::Result.

◆ BuildObjCStringLiteral()

ExprResult Sema::BuildObjCStringLiteral ( SourceLocation  AtLoc,
StringLiteral S 
)

Definition at line 80 of file SemaExprObjC.cpp.

Referenced by CheckObjCCollectionLiteralElement().

◆ BuildObjCSubscriptExpression()

ExprResult Sema::BuildObjCSubscriptExpression ( SourceLocation  RB,
Expr BaseExpr,
Expr IndexExpr,
ObjCMethodDecl getterMethod,
ObjCMethodDecl setterMethod 
)

Build an ObjC subscript pseudo-object expression, given that that's supported by the runtime.

Definition at line 742 of file SemaExprObjC.cpp.

References clang::ExprError(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), and clang::Expr::isTypeDependent().

◆ BuildObjCTypeParamType()

QualType Sema::BuildObjCTypeParamType ( const ObjCTypeParamDecl Decl,
SourceLocation  ProtocolLAngleLoc,
ArrayRef< ObjCProtocolDecl *>  Protocols,
ArrayRef< SourceLocation ProtocolLocs,
SourceLocation  ProtocolRAngleLoc,
bool  FailOnError = false 
)

Build an Objective-C type parameter type.

Definition at line 958 of file SemaType.cpp.

References clang::TypeDecl::getTypeForDecl(), and clang::Result.

◆ BuildOverloadedArrowExpr()

ExprResult Sema::BuildOverloadedArrowExpr ( Scope S,
Expr Base,
SourceLocation  OpLoc,
bool NoArrowOperatorFound = nullptr 
)

BuildOverloadedArrowExpr - Build a call to an overloaded operator-> (if one exists), where Base is an expression of class type and Member is the name of the member we're trying to find.

Definition at line 13360 of file SemaOverload.cpp.

References checkPlaceholderForOverload(), clang::ExprError(), clang::Expr::getExprLoc(), clang::Expr::getType(), and clang::Type::isRecordType().

Referenced by ActOnStartCXXMemberReference().

◆ BuildOverloadedCallExpr()

ExprResult Sema::BuildOverloadedCallExpr ( Scope S,
Expr Fn,
UnresolvedLookupExpr ULE,
SourceLocation  LParenLoc,
MultiExprArg  Args,
SourceLocation  RParenLoc,
Expr ExecConfig,
bool  AllowTypoCorrection = true,
bool  CalleesAddressIsTaken = false 
)

BuildOverloadedCallExpr - Given the call expression that calls Fn (which eventually refers to the declaration Func) and the call arguments Args/NumArgs, attempt to resolve the function call down to a specific function.

If overload resolution succeeds, returns the call expression produced by overload resolution. Otherwise, emits diagnostics and returns ExprError.

Definition at line 12096 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::CSK_Normal, FinishOverloadedCallExpr(), clang::Expr::getExprLoc(), clang::Stmt::getLocStart(), and markUnaddressableCandidatesUnviable().

◆ buildOverloadedCallSet()

bool Sema::buildOverloadedCallSet ( Scope S,
Expr Fn,
UnresolvedLookupExpr ULE,
MultiExprArg  Args,
SourceLocation  RParenLoc,
OverloadCandidateSet CandidateSet,
ExprResult Result 
)

◆ BuildParenType()

QualType Sema::BuildParenType ( QualType  T)

Build a paren type including T.

Definition at line 1764 of file SemaType.cpp.

Referenced by clang::TreeTransform< Derived >::RebuildParenType().

◆ BuildParmVarDeclForTypedef()

ParmVarDecl * Sema::BuildParmVarDeclForTypedef ( DeclContext DC,
SourceLocation  Loc,
QualType  T 
)

Synthesizes a variable for a parameter arising from a typedef.

Definition at line 12413 of file SemaDecl.cpp.

References clang::ParmVarDecl::Create().

◆ BuildPointerType()

QualType Sema::BuildPointerType ( QualType  T,
SourceLocation  Loc,
DeclarationName  Entity 
)

Build a pointer type.

Parameters
TThe type to which we'll be building a pointer.
LocThe location of the entity whose type involves this pointer type or, if there is no such entity, the location of the type that will have pointer type.
EntityThe name of the entity that involves the pointer type, if known.
Returns
A suitable pointer type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 1886 of file SemaType.cpp.

References checkQualifiedFunction(), Diag(), getPrintableNameForEntity(), inferARCLifetimeForPointee(), clang::Type::isFunctionType(), clang::Type::isObjCObjectType(), and clang::Type::isReferenceType().

◆ BuildPossibleImplicitMemberExpr()

ExprResult Sema::BuildPossibleImplicitMemberExpr ( const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
LookupResult R,
const TemplateArgumentListInfo TemplateArgs,
const Scope S 
)

Builds an expression which might be an implicit member expression.

Definition at line 236 of file SemaExprMember.cpp.

Referenced by attemptRecovery(), and BuildRecoveryCallExpr().

◆ BuildPredefinedExpr()

ExprResult Sema::BuildPredefinedExpr ( SourceLocation  Loc,
PredefinedExpr::IdentType  IT 
)

Definition at line 3028 of file SemaExpr.cpp.

References Diag().

◆ BuildPseudoDestructorExpr()

ExprResult Sema::BuildPseudoDestructorExpr ( Expr Base,
SourceLocation  OpLoc,
tok::TokenKind  OpKind,
const CXXScopeSpec SS,
TypeSourceInfo ScopeType,
SourceLocation  CCLoc,
SourceLocation  TildeLoc,
PseudoDestructorTypeStorage  DestroyedType 
)

◆ BuildQualifiedDeclarationNameExpr()

ExprResult Sema::BuildQualifiedDeclarationNameExpr ( CXXScopeSpec SS,
const DeclarationNameInfo NameInfo,
bool  IsAddressOfOperand,
const Scope S,
TypeSourceInfo **  RecoveryTSI = nullptr 
)

◆ BuildQualifiedTemplateIdExpr()

ExprResult Sema::BuildQualifiedTemplateIdExpr ( CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
const DeclarationNameInfo NameInfo,
const TemplateArgumentListInfo TemplateArgs 
)

◆ BuildQualifiedType() [1/2]

QualType Sema::BuildQualifiedType ( QualType  T,
SourceLocation  Loc,
Qualifiers  Qs,
const DeclSpec DS = nullptr 
)

◆ BuildQualifiedType() [2/2]

QualType Sema::BuildQualifiedType ( QualType  T,
SourceLocation  Loc,
unsigned  CVRA,
const DeclSpec DS = nullptr 
)

◆ BuildReadPipeType()

QualType Sema::BuildReadPipeType ( QualType  T,
SourceLocation  Loc 
)

Build a Read-only Pipe type.

Parameters
TThe type to which we'll be building a Pipe.
LocWe do not use it for now.
Returns
A suitable pipe type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 1983 of file SemaType.cpp.

◆ BuildReferenceType()

QualType Sema::BuildReferenceType ( QualType  T,
bool  SpelledAsLValue,
SourceLocation  Loc,
DeclarationName  Entity 
)

Build a reference type.

Parameters
TThe type to which we'll be building a reference.
LocThe location of the entity whose type involves this reference type or, if there is no such entity, the location of the type that will have reference type.
EntityThe name of the entity that involves the reference type, if known.
Returns
A suitable reference type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 1926 of file SemaType.cpp.

Referenced by CastForMoving().

◆ BuildResolvedCallExpr()

ExprResult Sema::BuildResolvedCallExpr ( Expr Fn,
NamedDecl NDecl,
SourceLocation  LParenLoc,
ArrayRef< Expr *>  Args,
SourceLocation  RParenLoc,
Expr Config = nullptr,
bool  IsExecConfig = false 
)

BuildResolvedCallExpr - Build a call to a resolved expression, i.e.

an expression not of OverloadTy. The expression should unary-convert to an expression of function-pointer or block-pointer type.

Parameters
NDeclthe declaration being called, if available

Definition at line 5488 of file SemaExpr.cpp.

References Diag(), clang::ExprError(), clang::FunctionDecl::getBuiltinID(), clang::Expr::getExprLoc(), and clang::Decl::hasAttr().

Referenced by FinishOverloadedCallExpr().

◆ BuildResolvedCoawaitExpr()

ExprResult Sema::BuildResolvedCoawaitExpr ( SourceLocation  KwLoc,
Expr E,
bool  IsImplicit = false 
)

Definition at line 729 of file SemaCoroutine.cpp.

◆ BuildReturnStmt()

StmtResult Sema::BuildReturnStmt ( SourceLocation  ReturnLoc,
Expr RetValExp 
)

Definition at line 3461 of file SemaStmt.cpp.

References Diag(), clang::Stmt::getSourceRange(), and clang::StmtError().

◆ BuildStaticAssertDeclaration()

Decl * Sema::BuildStaticAssertDeclaration ( SourceLocation  StaticAssertLoc,
Expr AssertExpr,
StringLiteral AssertMessageExpr,
SourceLocation  RParenLoc,
bool  Failed 
)

◆ BuildStdInitializerList()

QualType Sema::BuildStdInitializerList ( QualType  Element,
SourceLocation  Loc 
)

Looks for the std::initializer_list template and instantiates it with Element, or emits an error if it's not found.

Returns
The instantiated template, or null on error.

Definition at line 9160 of file SemaDeclCXX.cpp.

References clang::TemplateArgumentListInfo::addArgument(), and LookupStdInitializerList().

◆ BuildTemplateIdExpr()

ExprResult Sema::BuildTemplateIdExpr ( const CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
LookupResult R,
bool  RequiresADL,
const TemplateArgumentListInfo TemplateArgs 
)

◆ BuildTypeofExprType()

QualType Sema::BuildTypeofExprType ( Expr E,
SourceLocation  Loc 
)

Definition at line 7949 of file SemaType.cpp.

◆ BuildTypeTrait()

ExprResult Sema::BuildTypeTrait ( TypeTrait  Kind,
SourceLocation  KWLoc,
ArrayRef< TypeSourceInfo *>  Args,
SourceLocation  RParenLoc 
)

◆ BuildUnaryOp()

ExprResult Sema::BuildUnaryOp ( Scope S,
SourceLocation  OpLoc,
UnaryOperatorKind  Opc,
Expr Input 
)

◆ BuildUnaryTransformType()

QualType Sema::BuildUnaryTransformType ( QualType  BaseType,
UnaryTransformType::UTTKind  UKind,
SourceLocation  Loc 
)

◆ BuildUnresolvedCoawaitExpr()

ExprResult Sema::BuildUnresolvedCoawaitExpr ( SourceLocation  KwLoc,
Expr E,
UnresolvedLookupExpr Lookup 
)

Definition at line 691 of file SemaCoroutine.cpp.

◆ BuildUsingDeclaration()

NamedDecl * Sema::BuildUsingDeclaration ( Scope S,
AccessSpecifier  AS,
SourceLocation  UsingLoc,
bool  HasTypenameKeyword,
SourceLocation  TypenameLoc,
CXXScopeSpec SS,
DeclarationNameInfo  NameInfo,
SourceLocation  EllipsisLoc,
const ParsedAttributesView AttrList,
bool  IsInstantiation 
)

Builds a using declaration.

Parameters
IsInstantiation- Whether this call arises from an instantiation of an unresolved using declaration. We treat the lookup differently for these declarations.

Definition at line 9805 of file SemaDeclCXX.cpp.

References clang::DeclarationName::CXXConstructorName, clang::DeclarationNameInfo::getLoc(), clang::CXXScopeSpec::isInvalid(), and clang::DeclarationNameInfo::setName().

◆ BuildUsingPackDecl()

NamedDecl * Sema::BuildUsingPackDecl ( NamedDecl InstantiatedFrom,
ArrayRef< NamedDecl *>  Expansions 
)

Definition at line 10064 of file SemaDeclCXX.cpp.

References clang::UsingPackDecl::Create().

◆ BuildUsingShadowDecl()

UsingShadowDecl * Sema::BuildUsingShadowDecl ( Scope S,
UsingDecl UD,
NamedDecl Target,
UsingShadowDecl PrevDecl 
)

Builds a shadow declaration corresponding to a 'using' declaration.

Definition at line 9614 of file SemaDeclCXX.cpp.

References clang::ConstructorUsingShadowDecl::Create(), clang::NestedNameSpecifier::getAsRecordDecl(), clang::UsingDecl::getQualifier(), isVirtualDirectBase(), and MultiVersioning::Target.

◆ BuildVAArgExpr()

ExprResult Sema::BuildVAArgExpr ( SourceLocation  BuiltinLoc,
Expr E,
TypeSourceInfo TInfo,
SourceLocation  RPLoc 
)

Definition at line 13536 of file SemaExpr.cpp.

◆ BuildVariableInstantiation()

void Sema::BuildVariableInstantiation ( VarDecl NewVar,
VarDecl OldVar,
const MultiLevelTemplateArgumentList TemplateArgs,
LateInstantiatedAttrVec LateAttrs,
DeclContext Owner,
LocalInstantiationScope StartingScope,
bool  InstantiatingVarTemplate = false 
)

BuildVariableInstantiation - Used after a new variable has been created.

Sets basic variable data and decides whether to postpone the variable instantiation.

Definition at line 4069 of file SemaTemplateInstantiateDecl.cpp.

References clang::DeclContext::addHiddenDecl(), ForExternalRedeclaration, clang::Decl::getAccess(), clang::Decl::getDeclContext(), clang::NamedDecl::getDeclName(), clang::VarDecl::getInitStyle(), clang::Decl::getLexicalDeclContext(), clang::Decl::getLocation(), clang::Redeclarable< decl_type >::getPreviousDecl(), clang::VarDecl::getTSCSpec(), clang::NamedDecl::hasLinkage(), clang::VarDecl::isConstexpr(), clang::VarDecl::isCXXForRangeDecl(), clang::DeclContext::isDependentContext(), clang::DeclContext::isFunctionOrMethod(), clang::VarDecl::isInitCapture(), clang::Decl::isLocalExternDecl(), clang::VarDecl::isObjCForDecl(), clang::VarDecl::isOutOfLine(), clang::VarDecl::isPreviousDeclInSameBlockScope(), clang::Decl::isReferenced(), clang::VarDecl::isStaticDataMember(), clang::Decl::isUsed(), LookupOrdinaryName, LookupRedeclarationWithLinkage, clang::DeclContext::makeDeclVisibleInContext(), Previous, clang::Decl::setAccess(), clang::VarDecl::setConstexpr(), clang::VarDecl::setCXXForRangeDecl(), clang::VarDecl::setInitCapture(), clang::VarDecl::setInitStyle(), clang::VarDecl::setInstantiationOfStaticDataMember(), clang::Decl::setIsUsed(), clang::Decl::setLexicalDeclContext(), clang::Decl::setLocalExternDecl(), clang::VarDecl::setObjCForDecl(), clang::VarDecl::setPreviousDeclInSameBlockScope(), clang::Decl::setReferenced(), clang::VarDecl::setTSCSpec(), and clang::TSK_ImplicitInstantiation.

Referenced by clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization(), clang::TemplateDeclInstantiator::VisitVarDecl(), and clang::TemplateDeclInstantiator::VisitVarTemplateSpecializationDecl().

◆ BuildVarTemplateInstantiation()

VarTemplateSpecializationDecl * Sema::BuildVarTemplateInstantiation ( VarTemplateDecl VarTemplate,
VarDecl FromVar,
const TemplateArgumentList TemplateArgList,
const TemplateArgumentListInfo TemplateArgsInfo,
SmallVectorImpl< TemplateArgument > &  Converted,
SourceLocation  PointOfInstantiation,
void *  InsertPos,
LateInstantiatedAttrVec LateAttrs = nullptr,
LocalInstantiationScope StartingScope = nullptr 
)

◆ BuildVectorLiteral()

ExprResult Sema::BuildVectorLiteral ( SourceLocation  LParenLoc,
SourceLocation  RParenLoc,
Expr E,
TypeSourceInfo TInfo 
)

Build an altivec or OpenCL literal.

Definition at line 6224 of file SemaExpr.cpp.

◆ BuildVectorType()

QualType Sema::BuildVectorType ( QualType  T,
Expr VecSize,
SourceLocation  AttrLoc 
)

◆ BuildWritePipeType()

QualType Sema::BuildWritePipeType ( QualType  T,
SourceLocation  Loc 
)

Build a Write-only Pipe type.

Parameters
TThe type to which we'll be building a Pipe.
LocWe do not use it for now.
Returns
A suitable pipe type, if there are no errors. Otherwise, returns a NULL type.

Definition at line 1995 of file SemaType.cpp.

◆ CallExprUnaryConversions()

ExprResult Sema::CallExprUnaryConversions ( Expr E)

CallExprUnaryConversions - a special case of an unary conversion performed on a function designator of a call expression.

Definition at line 640 of file SemaExpr.cpp.

◆ canDelayFunctionBody()

bool Sema::canDelayFunctionBody ( const Declarator D)

Determine whether we can delay parsing the body of a function or function template until it is used, assuming we don't care about emitting code for that function.

This will be false if we may need the body of the function in the middle of parsing an expression (where it's impractical to switch to parsing a different function), for instance, if it's constexpr in C++11 or has an 'auto' return type in C++14. These cases are essentially bugs.

Definition at line 12937 of file SemaDecl.cpp.

References clang::DeclaratorChunk::Function, clang::Declarator::getDeclSpec(), clang::Declarator::getNumTypeObjects(), clang::Declarator::getTypeObject(), clang::DeclSpec::hasAutoTypeSpec(), clang::DeclSpec::isConstexprSpecified(), clang::QualType::isNull(), and clang::Type::isUndeducedType().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ CanPerformCopyInitialization()

bool Sema::CanPerformCopyInitialization ( const InitializedEntity Entity,
ExprResult  Init 
)

◆ canSkipFunctionBody()

bool Sema::canSkipFunctionBody ( Decl D)

Determine whether we can skip parsing the body of a function definition, assuming we don't care about analyzing its body or emitting code for that function.

This will be false only if we may need the body of the function in order to parse the rest of the program (for instance, if it is constexpr in C++11 or has an 'auto' return type in C++14).

Definition at line 12961 of file SemaDecl.cpp.

References clang::Decl::getAsFunction().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ canThrow()

CanThrowResult clang::Sema::canThrow ( const Expr E)

Definition at line 1036 of file SemaExceptionSpec.cpp.

Referenced by BuildCXXNoexceptExpr(), and EvaluateBinaryTypeTrait().

◆ CanUseDecl()

bool Sema::CanUseDecl ( NamedDecl D,
bool  TreatUnavailableAsInvalid 
)

Determine whether the use of this declaration is valid, without emitting diagnostics.

Definition at line 53 of file SemaExpr.cpp.

References clang::AR_Unavailable, and clang::Decl::getAvailability().

Referenced by canRecoverDotPseudoDestructorCallsOnPointerObjects().

◆ CaptureHasSideEffects()

bool Sema::CaptureHasSideEffects ( const sema::Capture From)

Does copying/destroying the captured variable have side effects?

Definition at line 1464 of file SemaLambda.cpp.

References clang::sema::Capture::getInitExpr(), clang::Expr::HasSideEffects(), and clang::sema::Capture::isVLATypeCapture().

◆ CheckAdditionOperands()

QualType Sema::CheckAdditionOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc,
QualType CompLHSTy = nullptr 
)

◆ checkAddressOfFunctionIsAvailable()

bool Sema::checkAddressOfFunctionIsAvailable ( const FunctionDecl Function,
bool  Complain = false,
SourceLocation  Loc = SourceLocation() 
)

Returns whether the given function's address can be taken or not, optionally emitting a diagnostic if the address can't be taken.

Returns false if taking the address of the function is illegal.

Definition at line 9544 of file SemaOverload.cpp.

References checkAddressOfFunctionIsAvailable().

Referenced by FinishOverloadedCallExpr(), IsStandardConversion(), and clang::InitializationSequence::Perform().

◆ CheckAddressOfMemberAccess()

Sema::AccessResult Sema::CheckAddressOfMemberAccess ( Expr OvlExpr,
DeclAccessPair  FoundDecl 
)

◆ CheckAddressOfOperand()

QualType Sema::CheckAddressOfOperand ( ExprResult OrigOp,
SourceLocation  OpLoc 
)

CheckAddressOfOperand - The operand of & must be either a function designator or an lvalue designating an object.

If it is an lvalue, the object cannot be declared with storage class register or be a bit field. Note: The usual conversions are not applied to the operand of the & operator (C99 6.3.2.1p[2-4]), and its result is never an lvalue. In C++, the operand might be an overloaded function name, in which case we allow the '&' but retain the overloaded-function type.

Definition at line 11483 of file SemaExpr.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get().

◆ CheckAlignasUnderalignment()

void Sema::CheckAlignasUnderalignment ( Decl D)

Definition at line 3665 of file SemaDeclAttr.cpp.

References clang::Decl::hasAttrs().

Referenced by clang::TemplateDeclInstantiator::VisitVarDecl().

◆ CheckAllocatedType()

bool Sema::CheckAllocatedType ( QualType  AllocType,
SourceLocation  Loc,
SourceRange  R 
)

◆ CheckAllocationAccess()

Sema::AccessResult Sema::CheckAllocationAccess ( SourceLocation  OperatorLoc,
SourceRange  PlacementRange,
CXXRecordDecl NamingClass,
DeclAccessPair  FoundDecl,
bool  Diagnose = true 
)

Checks access to an overloaded operator new or delete.

Definition at line 1697 of file SemaAccess.cpp.

References AR_accessible, clang::AS_public, and clang::DeclAccessPair::getAccess().

Referenced by resolveAllocationOverload().

◆ checkAllowedCUDAInitializer()

void Sema::checkAllowedCUDAInitializer ( VarDecl VD)

◆ CheckARCMethodDecl()

bool Sema::CheckARCMethodDecl ( ObjCMethodDecl method)

◆ CheckAssignmentConstraints() [1/2]

Sema::AssignConvertType Sema::CheckAssignmentConstraints ( SourceLocation  Loc,
QualType  LHSType,
QualType  RHSType 
)

CheckAssignmentConstraints - Perform type checking for assignment, argument passing, variable initialization, and function return values.

C99 6.5.16.

Definition at line 7601 of file SemaExpr.cpp.

References clang::VK_RValue.

Referenced by DiagnosePropertyAccessorMismatch().

◆ CheckAssignmentConstraints() [2/2]

Sema::AssignConvertType Sema::CheckAssignmentConstraints ( QualType  LHSType,
ExprResult RHS,
CastKind Kind,
bool  ConvertRHS = true 
)

Check assignment constraints and optionally prepare for a conversion of the RHS to the LHS type.

CheckAssignmentConstraints (C99 6.5.16) - This routine currently has code to accommodate several GCC extensions when type checking pointers.

The conversion is prepared for if ConvertRHS is true.

Here are some objectionable examples that GCC considers warnings:

int a, *pint; short *pshort; struct foo *pfoo;

pint = pshort; // warning: assignment from incompatible pointer type a = pint; // warning: assignment makes integer from pointer without a cast pint = a; // warning: assignment makes pointer from integer without a cast pint = pfoo; // warning: assignment from incompatible pointer type

As a result, the code for dealing with pointers is more complex than the C99 spec dictates.

Sets 'Kind' for any result kind except Incompatible.

Definition at line 7640 of file SemaExpr.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get().

◆ CheckAssignmentOperands()

QualType Sema::CheckAssignmentOperands ( Expr LHSExpr,
ExprResult RHS,
SourceLocation  Loc,
QualType  CompoundType 
)

◆ CheckAttrNoArgs()

bool Sema::CheckAttrNoArgs ( const ParsedAttr CurrAttr)

Definition at line 1948 of file SemaDeclAttr.cpp.

References checkAttributeNumArgs(), and clang::ParsedAttr::setInvalid().

Referenced by handleFunctionTypeAttr().

◆ CheckAttrTarget()

bool Sema::CheckAttrTarget ( const ParsedAttr CurrAttr)

Definition at line 1957 of file SemaDeclAttr.cpp.

References clang::ParsedAttr::existsInTarget().

Referenced by handleFunctionTypeAttr().

◆ CheckBaseClassAccess()

Sema::AccessResult Sema::CheckBaseClassAccess ( SourceLocation  AccessLoc,
QualType  Base,
QualType  Derived,
const CXXBasePath Path,
unsigned  DiagID,
bool  ForceCheck = false,
bool  ForceUnprivileged = false 
)

Checks access for a hierarchy conversion.

Parameters
ForceChecktrue if this check should be performed even if access control is disabled; some things rely on this for semantics
ForceUnprivilegedtrue if this check should proceed as if the context had no special privileges

Definition at line 1809 of file SemaAccess.cpp.

References clang::CXXBasePath::Access, AR_accessible, clang::AS_public, and clang::Type::getAs().

◆ CheckBaseSpecifier()

CXXBaseSpecifier * Sema::CheckBaseSpecifier ( CXXRecordDecl Class,
SourceRange  SpecifierRange,
bool  Virtual,
AccessSpecifier  Access,
TypeSourceInfo TInfo,
SourceLocation  EllipsisLoc 
)

◆ CheckBitwiseOperands()

QualType Sema::CheckBitwiseOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc 
)
inline

◆ CheckBooleanCondition()

ExprResult Sema::CheckBooleanCondition ( SourceLocation  Loc,
Expr E,
bool  IsConstexpr = false 
)

CheckBooleanCondition - Diagnose problems involving the use of the given expression as a boolean condition (e.g.

in an if statement). Also performs the standard function and array decays, possibly changing the input variable.

Parameters
Loc- A location associated with the condition, e.g. the 'if' keyword.
Returns
true iff there were any errors

Definition at line 15776 of file SemaExpr.cpp.

Referenced by ActOnNoexceptSpec(), and CheckConditionVariable().

◆ CheckCallingConvAttr()

bool Sema::CheckCallingConvAttr ( const ParsedAttr attr,
CallingConv CC,
const FunctionDecl FD = nullptr 
)

◆ CheckCallReturnType()

bool Sema::CheckCallReturnType ( QualType  ReturnType,
SourceLocation  Loc,
CallExpr CE,
FunctionDecl FD 
)

CheckCallReturnType - Checks that a call expression's return type is complete.

Returns true on failure. The location passed in is the location that best represents the call.

Definition at line 15648 of file SemaExpr.cpp.

References clang::Type::isIncompleteType(), and clang::Type::isVoidType().

◆ CheckCaseExpression()

bool Sema::CheckCaseExpression ( Expr E)

◆ CheckCastAlign()

void Sema::CheckCastAlign ( Expr Op,
QualType  T,
SourceRange  TRange 
)

CheckCastAlign - Implements -Wcast-align, which warns when a pointer cast increases the alignment requirements.

Definition at line 12017 of file SemaChecking.cpp.

References clang::Type::getAs(), clang::SourceRange::getBegin(), clang::PointerType::getPointeeType(), clang::Expr::getType(), clang::Type::isDependentType(), and clang::Type::isIncompleteType().

◆ CheckCategoryVsClassMethodMatches()

void Sema::CheckCategoryVsClassMethodMatches ( ObjCCategoryImplDecl CatIMPDecl)

CheckCategoryVsClassMethodMatches - Checks that methods implemented in category matches with those implemented in its primary class and warns each time an exact match is found.

Definition at line 2895 of file SemaDeclObjC.cpp.

References clang::ObjCCategoryImplDecl::getCategoryDecl(), clang::ObjCCategoryDecl::getClassInterface(), and clang::ObjCInterfaceDecl::getSuperClass().

◆ checkClassLevelCodeSegAttribute()

void Sema::checkClassLevelCodeSegAttribute ( CXXRecordDecl Class)

Definition at line 5581 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::methods().

◆ checkClassLevelDLLAttribute()

void Sema::checkClassLevelDLLAttribute ( CXXRecordDecl Class)

Check class-level dllimport/dllexport attribute.

The caller must ensure that referenceDLLExportedClassMethods is called some point later when all outer classes of Class are complete.

Definition at line 5592 of file SemaDeclCXX.cpp.

References clang::getDLLAttr().

Referenced by dllExportImportClassTemplateSpecialization().

◆ CheckClassTemplate()

DeclResult Sema::CheckClassTemplate ( Scope S,
unsigned  TagSpec,
TagUseKind  TUK,
SourceLocation  KWLoc,
CXXScopeSpec SS,
IdentifierInfo Name,
SourceLocation  NameLoc,
const ParsedAttributesView Attr,
TemplateParameterList TemplateParams,
AccessSpecifier  AS,
SourceLocation  ModulePrivateLoc,
SourceLocation  FriendLoc,
unsigned  NumOuterTemplateParamLists,
TemplateParameterList **  OuterTemplateParamLists,
SkipBodyInfo SkipBody = nullptr 
)

Definition at line 1266 of file SemaTemplate.cpp.

◆ CheckCompareOperands()

QualType Sema::CheckCompareOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc 
)

Definition at line 10028 of file SemaExpr.cpp.

References clang::BinaryOperator::isRelationalOp().

◆ CheckComparisonCategoryType()

QualType Sema::CheckComparisonCategoryType ( ComparisonCategoryType  Kind,
SourceLocation  Loc 
)

Lookup the specified comparison category types in the standard library, an check the VarDecls possibly returned by the operator<=> builtins for that type.

Returns
The type of the comparison category type corresponding to the specified Kind, or a null type if an error occurs

Definition at line 8952 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus.

Referenced by checkArithmeticOrEnumeralThreeWayCompare().

◆ CheckCompatibleReinterpretCast()

void Sema::CheckCompatibleReinterpretCast ( QualType  SrcType,
QualType  DestType,
bool  IsDereference,
SourceRange  Range 
)

◆ CheckCompletedCoroutineBody()

void Sema::CheckCompletedCoroutineBody ( FunctionDecl FD,
Stmt *&  Body 
)

◆ CheckCompletedCXXClass()

void Sema::CheckCompletedCXXClass ( CXXRecordDecl Record)

◆ CheckCompleteDecompositionDeclaration()

void Sema::CheckCompleteDecompositionDeclaration ( DecompositionDecl DD)

◆ CheckCompleteVariableDeclaration()

void Sema::CheckCompleteVariableDeclaration ( VarDecl VD)

◆ CheckConditionalOperands()

QualType Sema::CheckConditionalOperands ( ExprResult Cond,
ExprResult LHS,
ExprResult RHS,
ExprValueKind VK,
ExprObjectKind OK,
SourceLocation  QuestionLoc 
)

◆ CheckConditionVariable()

ExprResult Sema::CheckConditionVariable ( VarDecl ConditionVar,
SourceLocation  StmtLoc,
ConditionKind  CK 
)

◆ CheckConflictingOverridingMethod()

void Sema::CheckConflictingOverridingMethod ( ObjCMethodDecl Method,
ObjCMethodDecl Overridden,
bool  IsProtocolMethodDecl 
)

◆ CheckConstexprFunctionBody()

bool Sema::CheckConstexprFunctionBody ( const FunctionDecl Dcl,
Stmt Body 
)

Check the body for the given constexpr function declaration only contains the permitted types of statement.

C++11 [dcl.constexpr]p3,p4.

Returns
true if the body is OK, false if we have diagnosed a problem.

Definition at line 1927 of file SemaDeclCXX.cpp.

References clang::CompoundStmt::body(), CheckConstexprFunctionStmt(), Diag(), clang::Decl::getLocation(), clang::Stmt::getLocStart(), clang::CXXRecordDecl::getNumVBases(), clang::CXXRecordDecl::hasVariantMembers(), and clang::TagDecl::isUnion().

◆ CheckConstexprFunctionDecl()

bool Sema::CheckConstexprFunctionDecl ( const FunctionDecl FD)

◆ CheckConstructor()

void Sema::CheckConstructor ( CXXConstructorDecl Constructor)

CheckConstructor - Checks a fully-formed constructor for well-formedness, issuing any diagnostics required.

Returns true if the constructor declarator is invalid.

Definition at line 8105 of file SemaDeclCXX.cpp.

References clang::Decl::getDeclContext(), clang::FunctionDecl::getNumParams(), clang::FunctionDecl::getParamDecl(), clang::FunctionDecl::getTemplateSpecializationKind(), clang::ValueDecl::getType(), clang::ParmVarDecl::hasDefaultArg(), clang::Decl::isInvalidDecl(), clang::Decl::setInvalidDecl(), and clang::TSK_ImplicitInstantiation.

◆ CheckConstructorAccess() [1/2]

Sema::AccessResult Sema::CheckConstructorAccess ( SourceLocation  Loc,
CXXConstructorDecl D,
DeclAccessPair  FoundDecl,
const InitializedEntity Entity,
bool  IsCopyBindingRefToTemp = false 
)

◆ CheckConstructorAccess() [2/2]

Sema::AccessResult Sema::CheckConstructorAccess ( SourceLocation  Loc,
CXXConstructorDecl D,
DeclAccessPair  FoundDecl,
const InitializedEntity Entity,
const PartialDiagnostic PDiag 
)

◆ CheckConstructorDeclarator()

QualType Sema::CheckConstructorDeclarator ( Declarator D,
QualType  R,
StorageClass SC 
)

◆ CheckConversionDeclarator()

void Sema::CheckConversionDeclarator ( Declarator D,
QualType R,
StorageClass SC 
)

CheckConversionDeclarator - Called by ActOnDeclarator to check the well-formednes of the conversion function declarator D with type R.

If there are any errors in the declarator, this routine will emit diagnostics and return true. Otherwise, it will return false. Either way, the type R will be updated to reflect a well-formed type for the conversion operator.

Definition at line 8329 of file SemaDeclCXX.cpp.

References clang::frontend::After, clang::DeclaratorChunk::Array, clang::DeclaratorChunk::BlockPointer, clang::UnqualifiedId::ConversionFunctionId, clang::frontend::CPlusPlus11, clang::FixItHint::CreateInsertion(), clang::FixItHint::CreateInsertionFromRange(), clang::FixItHint::CreateRemoval(), Diag(), extendLeft(), extendRight(), clang::DeclaratorChunk::FunctionTypeInfo::freeParams(), clang::DeclaratorChunk::Function, clang::Type::getAs(), clang::SourceRange::getBegin(), clang::Declarator::getDeclSpec(), clang::Declarator::getFunctionTypeInfo(), clang::Declarator::getIdentifierLoc(), clang::TypeLoc::getLocEnd(), clang::Declarator::getName(), clang::FunctionProtoType::getNumParams(), clang::FunctionType::getReturnType(), clang::TypeLoc::getSourceRange(), clang::UnqualifiedId::getSourceRange(), clang::DeclSpec::getStorageClassSpecLoc(), clang::CharSourceRange::getTokenRange(), clang::TypeSourceInfo::getTypeLoc(), clang::Type::isArrayType(), clang::Type::isDependentType(), clang::Declarator::isInvalidType(), clang::SourceRange::isValid(), clang::FunctionProtoType::isVariadic(), clang::DeclaratorChunk::MemberPointer, clang::DeclaratorChunk::Paren, clang::DeclaratorChunk::Pipe, clang::DeclaratorChunk::Pointer, clang::DeclaratorChunk::Reference, clang::SC_None, clang::SC_Static, clang::Declarator::setInvalidType(), and clang::Declarator::type_objects().

◆ CheckConvertedConstantExpression() [1/2]

ExprResult Sema::CheckConvertedConstantExpression ( Expr From,
QualType  T,
llvm::APSInt &  Value,
CCEKind  CCE 
)

◆ CheckConvertedConstantExpression() [2/2]

ExprResult Sema::CheckConvertedConstantExpression ( Expr From,
QualType  T,
APValue Value,
CCEKind  CCE 
)

Definition at line 5468 of file SemaOverload.cpp.

References CheckConvertedConstantExpression().

◆ CheckCUDACall()

bool Sema::CheckCUDACall ( SourceLocation  Loc,
FunctionDecl Callee 
)

Check whether we're allowed to call Callee from the current context.

  • If the call is never allowed in a semantically-correct program (CFP_Never), emits an error and returns false.
  • If the call is allowed in semantically-correct programs, but only if it's never codegen'ed (CFP_WrongSide), creates a deferred diagnostic to be emitted if and when the caller is codegen'ed, and returns true.

    Will only create deferred diagnostics for a given SourceLocation once, so you can safely call this multiple times without generating duplicate deferred errors.

  • Otherwise, returns true without emitting any diagnostics.

Definition at line 836 of file SemaCUDA.cpp.

References CFP_Never, CFP_WrongSide, CFT_Global, CUDACallGraph, clang::Sema::CUDADiagBuilder::CUDADiagBuilder(), CurContext, getLangOpts(), clang::Decl::getLocation(), IdentifyCUDAPreference(), IdentifyCUDATarget(), IsKnownEmitted(), clang::Sema::CUDADiagBuilder::K_Deferred, clang::Sema::CUDADiagBuilder::K_Immediate, clang::Sema::CUDADiagBuilder::K_ImmediateWithCallStack, clang::Sema::CUDADiagBuilder::K_Nop, LocsWithCUDACallDiags, and MarkKnownEmitted().

◆ checkCUDATargetOverload()

void Sema::checkCUDATargetOverload ( FunctionDecl NewFD,
const LookupResult Previous 
)

Check whether NewFD is a valid overload for CUDA.

Emits diagnostics and invalidates NewFD if not.

Definition at line 915 of file SemaCUDA.cpp.

References CFT_Global, CFT_HostDevice, Diag(), clang::Decl::getAsFunction(), clang::NamedDecl::getDeclName(), getLangOpts(), clang::Decl::getLocation(), IdentifyCUDATarget(), IsOverload(), and clang::Decl::setInvalidDecl().

◆ CheckCXXBooleanCondition()

ExprResult Sema::CheckCXXBooleanCondition ( Expr CondExpr,
bool  IsConstexpr = false 
)

CheckCXXBooleanCondition - Returns true if conversion to bool is invalid.

CheckCXXBooleanCondition - Returns true if a conversion to bool is invalid.

Definition at line 3644 of file SemaExprCXX.cpp.

References clang::ASTContext::BoolTy, CCEK_ConstexprIf, CheckConvertedConstantExpression(), Context, clang::Expr::isValueDependent(), and PerformContextuallyConvertToBool().

Referenced by CXXCheckConditionalOperands().

◆ CheckCXXDefaultArgExpr()

bool Sema::CheckCXXDefaultArgExpr ( SourceLocation  CallLoc,
FunctionDecl FD,
ParmVarDecl Param 
)

◆ CheckCXXDefaultArguments()

void Sema::CheckCXXDefaultArguments ( FunctionDecl FD)

CheckCXXDefaultArguments - Verify that the default arguments for a function declaration are well-formed according to C++ [dcl.fct.default].

Definition at line 1505 of file SemaDeclCXX.cpp.

References Diag(), clang::NamedDecl::getIdentifier(), clang::Decl::getLocation(), clang::FunctionDecl::getNumParams(), clang::FunctionDecl::getParamDecl(), clang::ParmVarDecl::hasDefaultArg(), clang::Decl::isInvalidDecl(), clang::ParmVarDecl::isParameterPack(), and clang::ParmVarDecl::setDefaultArg().

◆ CheckCXXThisCapture()

bool Sema::CheckCXXThisCapture ( SourceLocation  Loc,
bool  Explicit = false,
bool  BuildAndDiagnose = true,
const unsigned *const  FunctionScopeIndexToStopAt = nullptr,
bool  ByCopy = false 
)

Make sure the value of 'this' is actually available in the current context, if it is a potentially evaluated context.

Parameters
LocThe location at which the capture of 'this' occurs.
ExplicitWhether 'this' is explicitly captured in a lambda capture list.
FunctionScopeIndexToStopAtIf non-null, it points to the index of the FunctionScopeInfo stack beyond which we do not attempt to capture. This is useful when enclosing lambdas must speculatively capture 'this' that may or may not be used in certain specializations of a nested generic lambda (depending on whether the name resolves to a non-static member function or a static function).
Returns
returns 'true' if failed, 'false' if success.

Definition at line 1168 of file SemaExprCXX.cpp.

References clang::sema::CapturingScopeInfo::addThisCapture(), clang::sema::LambdaScopeInfo::CallOperator, captureThis(), Context, Diag(), FunctionScopes, getCurrentThisType(), clang::sema::CapturingScopeInfo::ImpCap_Block, clang::sema::CapturingScopeInfo::ImpCap_CapturedRegion, clang::sema::CapturingScopeInfo::ImpCap_LambdaByref, clang::sema::CapturingScopeInfo::ImpCap_LambdaByval, clang::isGenericLambdaCallOperatorSpecialization(), and isUnevaluatedContext().

Referenced by ActOnCXXThis(), and tryImplicitlyCaptureThisIfImplicitMemberFunctionAccessWithDependentArgs().

◆ CheckCXXThrowOperand()

bool Sema::CheckCXXThrowOperand ( SourceLocation  ThrowLoc,
QualType  ThrowTy,
Expr E 
)

CheckCXXThrowOperand - Validate the operand of a throw.

Definition at line 857 of file SemaExprCXX.cpp.

◆ checkDeclIsAllowedInOpenMPTarget()

void Sema::checkDeclIsAllowedInOpenMPTarget ( Expr E,
Decl D,
SourceLocation  IdLoc = SourceLocation() 
)

◆ CheckDeductionGuideDeclarator()

void Sema::CheckDeductionGuideDeclarator ( Declarator D,
QualType R,
StorageClass SC 
)

◆ CheckDeductionGuideTemplate()

void Sema::CheckDeductionGuideTemplate ( FunctionTemplateDecl TD)

Definition at line 3651 of file SemaTemplate.cpp.

References clang::TemplateDecl::getTemplateParameters().

◆ CheckDelayedMemberExceptionSpecs()

void Sema::CheckDelayedMemberExceptionSpecs ( )

Definition at line 6630 of file SemaDeclCXX.cpp.

Referenced by ActOnEndOfTranslationUnit().

◆ CheckDelegatingCtorCycles()

void Sema::CheckDelegatingCtorCycles ( )

Definition at line 15138 of file SemaDeclCXX.cpp.

Referenced by ActOnEndOfTranslationUnit().

◆ CheckDependentFunctionTemplateSpecialization()

bool Sema::CheckDependentFunctionTemplateSpecialization ( FunctionDecl FD,
const TemplateArgumentListInfo ExplicitTemplateArgs,
LookupResult Previous 
)

Perform semantic analysis for the given dependent function template specialization.

The only possible way to get a dependent function template specialization is with a friend declaration, like so:

template \<class T> void foo(T);
template \<class T> class A {
friend void foo<>(T);
};

There really isn't any useful analysis we can do here, so we just store the information.

Definition at line 8009 of file SemaTemplate.cpp.

References Diag(), clang::LookupResult::Filter::done(), clang::LookupResult::empty(), clang::LookupResult::Filter::erase(), clang::Decl::getDeclContext(), clang::Decl::getLocation(), clang::DeclContext::getRedeclContext(), clang::NamedDecl::getUnderlyingDecl(), clang::LookupResult::Filter::hasNext(), clang::DeclContext::InEnclosingNamespaceSetOf(), clang::LookupResult::makeFilter(), clang::LookupResult::Filter::next(), P, and clang::FunctionDecl::setDependentTemplateSpecialization().

◆ CheckDerivedToBaseConversion() [1/2]

bool Sema::CheckDerivedToBaseConversion ( QualType  Derived,
QualType  Base,
SourceLocation  Loc,
SourceRange  Range,
CXXCastPath BasePath = nullptr,
bool  IgnoreAccess = false 
)

◆ CheckDerivedToBaseConversion() [2/2]

bool Sema::CheckDerivedToBaseConversion ( QualType  Derived,
QualType  Base,
unsigned  InaccessibleBaseID,
unsigned  AmbigiousBaseConvID,
SourceLocation  Loc,
SourceRange  Range,
DeclarationName  Name,
CXXCastPath BasePath,
bool  IgnoreAccess = false 
)

CheckDerivedToBaseConversion - Check whether the Derived-to-Base conversion (where Derived and Base are class types) is well-formed, meaning that the conversion is unambiguous (and that all of the base classes are accessible).

Returns true and emits a diagnostic if the code is ill-formed, returns false otherwise. Loc is the location where this routine should point to if there is an error, and Range is the source range to highlight if there is an error.

If either InaccessibleBaseID or AmbigiousBaseConvID are 0, then the diagnostic for the respective type of error will be suppressed, but the check for ill-formed code will still be performed.

Definition at line 2573 of file SemaDeclCXX.cpp.

◆ CheckDestructor()

bool Sema::CheckDestructor ( CXXDestructorDecl Destructor)

◆ CheckDestructorAccess()

Sema::AccessResult Sema::CheckDestructorAccess ( SourceLocation  Loc,
CXXDestructorDecl Dtor,
const PartialDiagnostic PDiag,
QualType  objectType = QualType() 
)

◆ CheckDestructorDeclarator()

QualType Sema::CheckDestructorDeclarator ( Declarator D,
QualType  R,
StorageClass SC 
)

CheckDestructorDeclarator - Called by ActOnDeclarator to check the well-formednes of the destructor declarator D with type R.

If there are any errors in the declarator, this routine will emit diagnostics and set the declarator to invalid. Even if this happens, will be updated to reflect a well-formed type for the destructor and returned.

Definition at line 8196 of file SemaDeclCXX.cpp.

References clang::Qualifiers::Const, clang::FixItHint::CreateRemoval(), clang::UnqualifiedId::DestructorName, Diag(), clang::DeclaratorChunk::FunctionTypeInfo::freeParams(), clang::FTIHasNonVoidParameters(), clang::Type::getAs(), clang::DeclSpec::getAtomicSpecLoc(), clang::DeclSpec::getConstSpecLoc(), clang::Declarator::getDeclSpec(), clang::FunctionProtoType::getExtProtoInfo(), clang::Declarator::getFunctionTypeInfo(), clang::Declarator::getIdentifierLoc(), clang::Declarator::getName(), clang::DeclaratorChunk::FunctionTypeInfo::getRefQualifierLoc(), clang::DeclSpec::getRestrictSpecLoc(), clang::DeclSpec::getStorageClassSpecLoc(), clang::DeclSpec::getTypeQualifiers(), clang::DeclSpec::getTypeSpecTypeLoc(), clang::DeclSpec::getVolatileSpecLoc(), clang::DeclaratorChunk::FunctionTypeInfo::hasRefQualifier(), clang::DeclSpec::hasTypeSpecifier(), clang::Declarator::isInvalidType(), clang::DeclaratorChunk::FunctionTypeInfo::isVariadic, clang::DeclaratorChunk::FunctionTypeInfo::RefQualifierIsLValueRef, clang::Qualifiers::Restrict, clang::RQ_None, clang::SC_None, clang::SC_Static, clang::Declarator::setInvalidType(), clang::DeclaratorChunk::FunctionTypeInfo::TypeQuals, clang::FunctionProtoType::ExtProtoInfo::Variadic, and clang::Qualifiers::Volatile.

◆ CheckDistantExceptionSpec()

bool clang::Sema::CheckDistantExceptionSpec ( QualType  T)

CheckDistantExceptionSpec - Check if the given type is a pointer or pointer to member to a function with an exception specification.

This means that it is invalid to add another level of indirection.

Definition at line 168 of file SemaExceptionSpec.cpp.

References clang::frontend::CPlusPlus17, clang::Type::getAs(), getLangOpts(), clang::Type::getPointeeType(), and clang::FunctionProtoType::hasExceptionSpec().

◆ CheckEnableIf()

EnableIfAttr * Sema::CheckEnableIf ( FunctionDecl Function,
ArrayRef< Expr *>  Args,
bool  MissingImplicitThis = false 
)

Check the enable_if expressions on the given function.

Returns the first failing attribute, or NULL if they were all successful.

Definition at line 6307 of file SemaOverload.cpp.

References convertArgsForAvailabilityChecks(), and getOrderedEnableIfAttrs().

Referenced by checkDirectCallValidity().

◆ CheckEnumConstant()

EnumConstantDecl * Sema::CheckEnumConstant ( EnumDecl Enum,
EnumConstantDecl LastEnumConst,
SourceLocation  IdLoc,
IdentifierInfo Id,
Expr val 
)

◆ CheckEnumRedeclaration()

bool Sema::CheckEnumRedeclaration ( SourceLocation  EnumLoc,
bool  IsScoped,
QualType  EnumUnderlyingTy,
bool  IsFixed,
const EnumDecl Prev 
)

Check whether this is a valid redeclaration of a previous enumeration.

Returns
true if the redeclaration was invalid.

Definition at line 13640 of file SemaDecl.cpp.

References Diag(), clang::EnumDecl::getIntegerType(), clang::Decl::getLocation(), clang::Type::isDependentType(), clang::EnumDecl::isFixed(), and clang::EnumDecl::isScoped().

◆ CheckEnumUnderlyingType()

bool Sema::CheckEnumUnderlyingType ( TypeSourceInfo TI)

Check that this is a valid underlying type for an enum declaration.

Definition at line 13623 of file SemaDecl.cpp.

References Diag(), clang::Type::getAs(), clang::TypeLoc::getBeginLoc(), clang::TypeSourceInfo::getType(), clang::TypeSourceInfo::getTypeLoc(), and clang::Type::isDependentType().

◆ CheckEquivalentExceptionSpec() [1/3]

bool clang::Sema::CheckEquivalentExceptionSpec ( FunctionDecl Old,
FunctionDecl New 
)

◆ CheckEquivalentExceptionSpec() [2/3]

bool clang::Sema::CheckEquivalentExceptionSpec ( const FunctionProtoType Old,
SourceLocation  OldLoc,
const FunctionProtoType New,
SourceLocation  NewLoc 
)

CheckEquivalentExceptionSpec - Check if the two types have equivalent exception specifications.

Exception specifications are equivalent if they allow exactly the same set of exception types. It does not matter how that is achieved. See C++ [except.spec]p2.

Definition at line 441 of file SemaExceptionSpec.cpp.

References clang::CheckEquivalentExceptionSpecImpl(), getLangOpts(), PDiag(), and clang::Result.

◆ CheckEquivalentExceptionSpec() [3/3]

bool clang::Sema::CheckEquivalentExceptionSpec ( const PartialDiagnostic DiagID,
const PartialDiagnostic NoteID,
const FunctionProtoType Old,
SourceLocation  OldLoc,
const FunctionProtoType New,
SourceLocation  NewLoc 
)

◆ CheckExceptionSpecCompatibility()

bool clang::Sema::CheckExceptionSpecCompatibility ( Expr From,
QualType  ToType 
)

◆ checkExceptionSpecification()

void Sema::checkExceptionSpecification ( bool  IsTopLevel,
ExceptionSpecificationType  EST,
ArrayRef< ParsedType DynamicExceptions,
ArrayRef< SourceRange DynamicExceptionRanges,
Expr NoexceptExpr,
SmallVectorImpl< QualType > &  Exceptions,
FunctionProtoType::ExceptionSpecInfo ESI 
)

◆ CheckExceptionSpecSubset()

bool clang::Sema::CheckExceptionSpecSubset ( const PartialDiagnostic DiagID,
const PartialDiagnostic NestedDiagID,
const PartialDiagnostic NoteID,
const FunctionProtoType Superset,
SourceLocation  SuperLoc,
const FunctionProtoType Subset,
SourceLocation  SubLoc 
)

◆ CheckExplicitlyDefaultedMemberExceptionSpec()

void Sema::CheckExplicitlyDefaultedMemberExceptionSpec ( CXXMethodDecl MD,
const FunctionProtoType SpecifiedType 
)

Check whether the exception specification provided for an explicitly-defaulted special member matches the exception specification that would have been generated for an implicit special member, per C++11 [dcl.fct.def.default]p2.

Definition at line 6605 of file SemaDeclCXX.cpp.

References clang::Type::castAs(), clang::EST_Unparsed, clang::FunctionProtoType::getExceptionSpecType(), clang::TypeSourceInfo::getType(), and clang::DeclaratorDecl::getTypeSourceInfo().

◆ CheckExplicitlyDefaultedSpecialMember()

void Sema::CheckExplicitlyDefaultedSpecialMember ( CXXMethodDecl MD)

◆ CheckExtraCXXDefaultArguments()

void Sema::CheckExtraCXXDefaultArguments ( Declarator D)

◆ CheckExtVectorCast()

ExprResult Sema::CheckExtVectorCast ( SourceRange  R,
QualType  DestTy,
Expr CastExpr,
CastKind Kind 
)

Definition at line 6115 of file SemaExpr.cpp.

References clang::Expr::getType(), and clang::Type::isExtVectorType().

Referenced by DiagnoseBadFunctionCast().

◆ CheckFieldDecl()

FieldDecl * Sema::CheckFieldDecl ( DeclarationName  Name,
QualType  T,
TypeSourceInfo TInfo,
RecordDecl Record,
SourceLocation  Loc,
bool  Mutable,
Expr BitWidth,
InClassInitStyle  InitStyle,
SourceLocation  TSSL,
AccessSpecifier  AS,
NamedDecl PrevDecl,
Declarator D = nullptr 
)

Build a new FieldDecl and check its well-formedness.

This routine builds a new FieldDecl given the fields name, type, record, etc. PrevDecl should refer to any previous declaration with the same name and in the same scope as the field to be created.

Returns
a new FieldDecl.
Todo:
The Declarator argument is a hack. It will be removed once

Definition at line 15175 of file SemaDecl.cpp.

Referenced by clang::TemplateDeclInstantiator::VisitVarDecl().

◆ CheckFloatComparison()

void Sema::CheckFloatComparison ( SourceLocation  Loc,
Expr LHS,
Expr RHS 
)

◆ CheckForConstantInitializer()

bool Sema::CheckForConstantInitializer ( Expr e,
QualType  t 
)

type checking declaration initializers (C99 6.7.8)

Definition at line 10408 of file SemaDecl.cpp.

References clang::Expr::isConstantInitializer().

◆ CheckForFunctionRedefinition()

void Sema::CheckForFunctionRedefinition ( FunctionDecl FD,
const FunctionDecl EffectiveDefinition = nullptr,
SkipBodyInfo SkipBody = nullptr 
)

◆ CheckForwardProtocolDeclarationForCircularDependency()

bool Sema::CheckForwardProtocolDeclarationForCircularDependency ( IdentifierInfo PName,
SourceLocation PLoc,
SourceLocation  PrevLoc,
const ObjCList< ObjCProtocolDecl > &  PList 
)

Definition at line 1174 of file SemaDeclObjC.cpp.

Referenced by ActOnStartProtocolInterface().

◆ CheckFriendAccess()

Sema::AccessResult Sema::CheckFriendAccess ( NamedDecl D)

Checks access to the target of a friend declaration.

Definition at line 1754 of file SemaAccess.cpp.

References AR_accessible, clang::AS_public, clang::Decl::getAccess(), and clang::Decl::getAsFunction().

◆ CheckFriendTypeDecl()

FriendDecl * Sema::CheckFriendTypeDecl ( SourceLocation  LocStart,
SourceLocation  FriendLoc,
TypeSourceInfo TSInfo 
)

◆ CheckFunctionDeclaration()

bool Sema::CheckFunctionDeclaration ( Scope S,
FunctionDecl NewFD,
LookupResult Previous,
bool  IsMemberSpecialization 
)

Perform semantic checking of a new function declaration.

Performs semantic analysis of the new function declaration NewFD. This routine performs all semantic checking that does not require the actual declarator involved in the declaration, and is used both for the declaration of functions as they are parsed (called via ActOnDeclarator) and for the declaration of functions that have been instantiated via C++ template instantiation (called via InstantiateDecl).

Parameters
IsMemberSpecializationwhether this new function declaration is a member specialization (that replaces any definition provided by the previous declaration).

This sets NewFD->isInvalidDecl() to true if there was an error.

Returns
true if the function declaration is a redeclaration.

Definition at line 9899 of file SemaDecl.cpp.

◆ CheckFunctionReturnType()

bool Sema::CheckFunctionReturnType ( QualType  T,
SourceLocation  Loc 
)

◆ CheckFunctionTemplateSpecialization()

bool Sema::CheckFunctionTemplateSpecialization ( FunctionDecl FD,
TemplateArgumentListInfo ExplicitTemplateArgs,
LookupResult Previous 
)

Perform semantic analysis for the given function template specialization.

This routine performs all of the semantic analysis required for an explicit function template specialization. On successful completion, the function declaration FD will become a function template specialization.

Parameters
FDthe function declaration, which will be updated to become a function template specialization.
ExplicitTemplateArgsthe explicitly-provided template arguments, if any. Note that this may be valid info even when 0 arguments are explicitly provided as in, e.g., void sort<>(char*, char*); as it anyway contains info on the angle brackets locations.
Previousthe set of declarations that may be specialized by this function specialization.

Definition at line 8068 of file SemaTemplate.cpp.

References clang::Decl::getDeclContext(), clang::Decl::getLocation(), and clang::DeclContext::getRedeclContext().

◆ CheckIfOverriddenFunctionIsMarkedFinal()

bool Sema::CheckIfOverriddenFunctionIsMarkedFinal ( const CXXMethodDecl New,
const CXXMethodDecl Old 
)

CheckForFunctionMarkedFinal - Checks whether a virtual member function overrides a virtual member function marked 'final', according to C++11 [class.virtual]p4.

CheckIfOverriddenFunctionIsMarkedFinal - Checks whether a virtual member function overrides a virtual member function marked 'final', according to C++11 [class.virtual]p4.

Definition at line 2809 of file SemaDeclCXX.cpp.

References Diag(), clang::Decl::getAttr(), clang::NamedDecl::getDeclName(), and clang::Decl::getLocation().

◆ checkIllFormedTrivialABIStruct()

void Sema::checkIllFormedTrivialABIStruct ( CXXRecordDecl RD)

◆ CheckImplementationIvars()

void Sema::CheckImplementationIvars ( ObjCImplementationDecl ImpDecl,
ObjCIvarDecl **  Fields,
unsigned  nIvars,
SourceLocation  Loc 
)

◆ CheckImplicitSpecialMemberDeclaration()

void Sema::CheckImplicitSpecialMemberDeclaration ( Scope S,
FunctionDecl FD 
)

Check a completed declaration of an implicit special member.

Definition at line 10762 of file SemaDeclCXX.cpp.

◆ CheckInheritingConstructorUsingDecl()

bool Sema::CheckInheritingConstructorUsingDecl ( UsingDecl UD)

◆ checkInitializerLifetime()

void Sema::checkInitializerLifetime ( const InitializedEntity Entity,
Expr Init 
)

◆ checkInitMethod()

bool Sema::checkInitMethod ( ObjCMethodDecl method,
QualType  receiverTypeIfCall 
)

Check whether the given method, which must be in the 'init' family, is a valid member of that family.

Parameters
receiverTypeIfCall- if null, check this as if declaring it; if non-null, check this as if making a call to it with the given receiver type
Returns
true to indicate that there was an error and appropriate actions were taken

Definition at line 42 of file SemaDeclObjC.cpp.

References clang::Decl::addAttr(), clang::Type::castAs(), Context, Diag(), clang::ObjCMethodDecl::getClassInterface(), clang::Decl::getDeclContext(), clang::ObjCObjectType::getInterface(), clang::Decl::getLocation(), getObjectType(), clang::ObjCMethodDecl::getReturnType(), getSourceManager(), clang::ObjCInterfaceDecl::hasDefinition(), clang::SourceManager::isInSystemHeader(), clang::Decl::isInvalidDecl(), clang::QualType::isNull(), clang::ObjCObjectType::isObjCClass(), clang::ObjCObjectType::isObjCId(), clang::ObjCInterfaceDecl::isSuperClassOf(), and clang::Decl::setInvalidDecl().

Referenced by CheckARCMethodDecl().

◆ CheckLiteralKind()

Sema::ObjCLiteralKind Sema::CheckLiteralKind ( Expr FromE)

◆ CheckLiteralOperatorDeclaration()

bool Sema::CheckLiteralOperatorDeclaration ( FunctionDecl FnDecl)

◆ checkLiteralOperatorId()

bool Sema::checkLiteralOperatorId ( const CXXScopeSpec SS,
const UnqualifiedId Id 
)

Definition at line 407 of file SemaExprCXX.cpp.

◆ CheckLogicalOperands()

QualType Sema::CheckLogicalOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc 
)
inline

◆ CheckLookupAccess()

void Sema::CheckLookupAccess ( const LookupResult R)

Checks access to all the declarations in the given result set.

Definition at line 1844 of file SemaAccess.cpp.

References clang::LookupResult::getNamingClass().

Referenced by clang::LookupResult::setFindLocalExtern().

◆ CheckLoopHintExpr()

bool Sema::CheckLoopHintExpr ( Expr E,
SourceLocation  Loc 
)

Definition at line 3191 of file SemaExpr.cpp.

◆ CheckMain()

void Sema::CheckMain ( FunctionDecl FD,
const DeclSpec D 
)

◆ CheckMemberAccess()

Sema::AccessResult Sema::CheckMemberAccess ( SourceLocation  UseLoc,
CXXRecordDecl NamingClass,
DeclAccessPair  Found 
)

Checks access to a member.

Definition at line 1717 of file SemaAccess.cpp.

References AR_accessible, clang::AS_public, and clang::DeclAccessPair::getAccess().

◆ CheckMemberOperatorAccess()

Sema::AccessResult Sema::CheckMemberOperatorAccess ( SourceLocation  OpLoc,
Expr ObjectExpr,
Expr ArgExpr,
DeclAccessPair  Found 
)

Checks access to an overloaded member operator, including conversion operators.

Definition at line 1733 of file SemaAccess.cpp.

References AR_accessible, clang::AS_public, clang::Type::castAs(), clang::DeclAccessPair::getAccess(), clang::RecordType::getDecl(), and clang::Expr::getType().

Referenced by diagnoseNoViableConversion(), clang::InitializationSequence::Perform(), and recordConversion().

◆ CheckMemberPointerConversion()

bool Sema::CheckMemberPointerConversion ( Expr From,
QualType  ToType,
CastKind Kind,
CXXCastPath BasePath,
bool  IgnoreBaseAccess 
)

CheckMemberPointerConversion - Check the member pointer conversion from the expression From to the type ToType.

This routine checks for ambiguous or virtual or inaccessible base-to-derived member pointer conversions for which IsMemberPointerConversion has already returned true. It returns true and produces a diagnostic if there was an error, or returns false otherwise.

Definition at line 3001 of file SemaOverload.cpp.

References clang::Type::getAs(), clang::Expr::getType(), and clang::Expr::isNullPointerConstant().

Referenced by PerformImplicitConversion().

◆ CheckMemberSpecialization()

bool Sema::CheckMemberSpecialization ( NamedDecl Member,
LookupResult Previous 
)

Perform semantic analysis for the given non-template member specialization.

This routine performs all of the semantic analysis required for an explicit member function specialization. On successful completion, the function declaration FD will become a member function specialization.

Parameters
Memberthe member declaration, which will be updated to become a specialization.
Previousthe set of declarations, one of which may be specialized by this function specialization; the set will be modified to contain the redeclared member.

Definition at line 8288 of file SemaTemplate.cpp.

References clang::LookupResult::empty().

◆ CheckMessageArgumentTypes()

bool Sema::CheckMessageArgumentTypes ( QualType  ReceiverType,
MultiExprArg  Args,
Selector  Sel,
ArrayRef< SourceLocation SelectorLocs,
ObjCMethodDecl Method,
bool  isClassMessage,
bool  isSuperMessage,
SourceLocation  lbrac,
SourceLocation  rbrac,
SourceRange  RecRange,
QualType ReturnType,
ExprValueKind VK 
)

◆ CheckMicrosoftIfExistsSymbol() [1/2]

Sema::IfExistsResult Sema::CheckMicrosoftIfExistsSymbol ( Scope S,
CXXScopeSpec SS,
const DeclarationNameInfo TargetNameInfo 
)

◆ CheckMicrosoftIfExistsSymbol() [2/2]

Sema::IfExistsResult Sema::CheckMicrosoftIfExistsSymbol ( Scope S,
SourceLocation  KeywordLoc,
bool  IsIfExists,
CXXScopeSpec SS,
UnqualifiedId Name 
)

Definition at line 7910 of file SemaExprCXX.cpp.

◆ checkMSInheritanceAttrOnDefinition()

bool Sema::checkMSInheritanceAttrOnDefinition ( CXXRecordDecl RD,
SourceRange  Range,
bool  BestCase,
MSInheritanceAttr::Spelling  SemanticSpelling 
)

◆ CheckMSVCRTEntryPoint()

void Sema::CheckMSVCRTEntryPoint ( FunctionDecl FD)

◆ CheckMultiplyDivideOperands()

QualType Sema::CheckMultiplyDivideOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
bool  IsCompAssign,
bool  IsDivide 
)

◆ CheckNonDependentConversions()

bool Sema::CheckNonDependentConversions ( FunctionTemplateDecl FunctionTemplate,
ArrayRef< QualType ParamTypes,
ArrayRef< Expr *>  Args,
OverloadCandidateSet CandidateSet,
ConversionSequenceList Conversions,
bool  SuppressUserConversions,
CXXRecordDecl ActingContext = nullptr,
QualType  ObjectType = QualType(),
Expr::Classification  ObjectClassification = {} 
)

Check that implicit conversion sequences can be formed for each argument whose corresponding parameter has a non-dependent type, per DR1391's [temp.deduct.call]p10.

Definition at line 6774 of file SemaOverload.cpp.

References clang::OverloadCandidateSet::allocateConversionSequences(), clang::OverloadCandidateSet::getLocation(), clang::FunctionTemplateDecl::getTemplatedDecl(), clang::QualType::isNull(), TryObjectArgumentInitialization(), and Unevaluated.

◆ CheckNontrivialField()

bool Sema::CheckNontrivialField ( FieldDecl FD)

◆ CheckNonTypeTemplateParameterType() [1/2]

QualType Sema::CheckNonTypeTemplateParameterType ( TypeSourceInfo *&  TSI,
SourceLocation  Loc 
)

Check that the type of a non-type template parameter is well-formed.

Returns
the (possibly-promoted) parameter type if valid; otherwise, produces a diagnostic and returns a NULL type.

Definition at line 974 of file SemaTemplate.cpp.

References clang::TypeSourceInfo::getType(), and clang::Type::isUndeducedType().

◆ CheckNonTypeTemplateParameterType() [2/2]

QualType Sema::CheckNonTypeTemplateParameterType ( QualType  T,
SourceLocation  Loc 
)

◆ checkNSReturnsRetainedReturnType()

bool Sema::checkNSReturnsRetainedReturnType ( SourceLocation  loc,
QualType  type 
)

Definition at line 4692 of file SemaDeclAttr.cpp.

References Diag(), and isValidSubjectOfNSReturnsRetainedAttribute().

Referenced by handleFunctionTypeAttr().

◆ checkNullabilityTypeSpecifier()

bool Sema::checkNullabilityTypeSpecifier ( QualType type,
NullabilityKind  nullability,
SourceLocation  nullabilityLoc,
bool  isContextSensitive,
bool  allowArrayTypes 
)

Check whether a nullability type specifier can be added to the given type.

Parameters
typeThe type to which the nullability specifier will be added. On success, this type will be updated appropriately.
nullabilityThe nullability specifier to add.
nullabilityLocThe location of the nullability specifier.
isContextSensitiveWhether this nullability specifier was written as a context-sensitive keyword (in an Objective-C method) or an Objective-C property attribute, rather than as an underscored type specifier.
allowArrayTypesWhether to accept nullability specifiers on an array type (e.g., because it will decay to a pointer).
Returns
true if nullability cannot be applied, false otherwise.

Definition at line 6370 of file SemaType.cpp.

References clang::FixItHint::CreateRemoval(), Diag(), clang::Type::getNullability(), clang::QualType::getTypePtr(), recordNullabilitySeen(), and clang::ast_matchers::type.

◆ CheckObjCARCUnavailableWeakConversion()

bool Sema::CheckObjCARCUnavailableWeakConversion ( QualType  castType,
QualType  ExprType 
)

Definition at line 4323 of file SemaExprObjC.cpp.

Referenced by DiagnoseBadFunctionCast(), and PerformImplicitConversion().

◆ CheckObjCBridgeRelatedCast()

void Sema::CheckObjCBridgeRelatedCast ( QualType  castType,
Expr castExpr 
)

◆ checkObjCBridgeRelatedComponents()

bool Sema::checkObjCBridgeRelatedComponents ( SourceLocation  Loc,
QualType  DestType,
QualType  SrcType,
ObjCInterfaceDecl *&  RelatedClass,
ObjCMethodDecl *&  ClassMethod,
ObjCMethodDecl *&  InstanceMethod,
TypedefNameDecl *&  TDNDecl,
bool  CfToNs,
bool  Diagnose = true 
)

◆ CheckObjCBridgeRelatedConversions()

bool Sema::CheckObjCBridgeRelatedConversions ( SourceLocation  Loc,
QualType  DestType,
QualType  SrcType,
Expr *&  SrcExpr,
bool  Diagnose = true 
)

◆ CheckObjCConversion()

Sema::ARCConversionResult Sema::CheckObjCConversion ( SourceRange  castRange,
QualType  castType,
Expr *&  op,
CheckedConversionKind  CCK,
bool  Diagnose = true,
bool  DiagnoseCFAudited = false,
BinaryOperatorKind  Opc = BO_PtrMemD 
)

◆ CheckObjCDeclScope()

bool Sema::CheckObjCDeclScope ( Decl D)

Checks that the Objective-C declaration is declared in the global scope.

Emits an error and marks the declaration as invalid if it's not declared in the global scope.

Definition at line 4772 of file SemaDeclObjC.cpp.

References CurContext, Diag(), getCurLexicalContext(), clang::Decl::getLocation(), clang::DeclContext::getRedeclContext(), and clang::Decl::setInvalidDecl().

Referenced by ActOnCompatibilityAlias(), ActOnForwardClassDeclaration(), ActOnForwardProtocolDeclaration(), ActOnStartCategoryImplementation(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), and ActOnStartProtocolInterface().

◆ CheckObjCForCollectionOperand()

ExprResult Sema::CheckObjCForCollectionOperand ( SourceLocation  forLoc,
Expr collection 
)

◆ checkObjCKindOfType()

bool Sema::checkObjCKindOfType ( QualType type,
SourceLocation  loc 
)

Check the application of the Objective-C '__kindof' qualifier to the given type.

Definition at line 6467 of file SemaType.cpp.

◆ CheckObjCMethodOverride()

void Sema::CheckObjCMethodOverride ( ObjCMethodDecl NewMethod,
const ObjCMethodDecl Overridden 
)

◆ CheckObjCMethodOverrides()

void Sema::CheckObjCMethodOverrides ( ObjCMethodDecl ObjCMethod,
ObjCInterfaceDecl CurrentClass,
ResultTypeCompatibilityKind  RTC 
)

◆ CheckObjCPropertyAttributes()

void Sema::CheckObjCPropertyAttributes ( Decl PropertyPtrTy,
SourceLocation  Loc,
unsigned &  Attributes,
bool  propertyInPrimaryClass 
)

◆ CheckOMPThreadPrivateDecl()

OMPThreadPrivateDecl * Sema::CheckOMPThreadPrivateDecl ( SourceLocation  Loc,
ArrayRef< Expr *>  VarList 
)

Builds a new OpenMPThreadPrivateDecl and checks its correctness.

Definition at line 1813 of file SemaOpenMP.cpp.

◆ checkOpenCLDisabledDecl()

bool Sema::checkOpenCLDisabledDecl ( const NamedDecl D,
const Expr E 
)

Check if declaration D used by expression E is disabled due to required OpenCL extensions being disabled.

If so, emit diagnostics.

Returns
true if type is disabled.

Definition at line 1900 of file Sema.cpp.

References clang::NamedDecl::getIdentifier(), clang::Stmt::getLocStart(), and clang::Decl::getSourceRange().

◆ checkOpenCLDisabledTypeDeclSpec()

bool Sema::checkOpenCLDisabledTypeDeclSpec ( const DeclSpec DS,
QualType  T 
)

Check if type T corresponding to declaration specifier DS is disabled due to required OpenCL extensions being disabled.

If so, emit diagnostics.

Returns
true if type is disabled.

Definition at line 1884 of file Sema.cpp.

References clang::QualType::getCanonicalType(), clang::QualType::getTypePtr(), and clang::DeclSpec::getTypeSpecTypeLoc().

◆ CheckOpenMPLinearDecl()

bool Sema::CheckOpenMPLinearDecl ( const ValueDecl D,
SourceLocation  ELoc,
OpenMPLinearClauseKind  LinKind,
QualType  Type 
)

Checks that the specified declaration matches requirements for the linear decls.

Definition at line 10971 of file SemaOpenMP.cpp.

References Diag(), clang::QualType::getNonReferenceType(), clang::getOpenMPSimpleClauseTypeName(), clang::QualType::isConstant(), and clang::Type::isReferenceType().

◆ CheckOpenMPLinearModifier()

bool Sema::CheckOpenMPLinearModifier ( OpenMPLinearClauseKind  LinKind,
SourceLocation  LinLoc 
)

Checks correctness of linear modifiers.

Definition at line 10961 of file SemaOpenMP.cpp.

References Diag(), and clang::OMPC_LINEAR_unknown.

Referenced by parseDeclareSimdClauses().

◆ CheckOverload()

Sema::OverloadKind Sema::CheckOverload ( Scope S,
FunctionDecl New,
const LookupResult Old,
NamedDecl *&  Match,
bool  NewIsUsingDecl 
)

Determine whether the given New declaration is an overload of the declarations in Old.

This routine returns Ovl_Match or Ovl_NonFunction if New and Old cannot be overloaded, e.g., if New has the same signature as some function in Old (C++ 1.3.10) or if the Old declarations aren't functions (or function templates) at all. When it does return Ovl_Match or Ovl_NonFunction, MatchedDecl will point to the decl that New cannot be overloaded with. This decl may be a UsingShadowDecl on top of the underlying declaration.

Example: Given the following input:

void f(int, float); // #1 void f(int, int); // #2 int f(int, int); // #3

When we process #1, there is no previous declaration of "f", so IsOverload will not be used.

When we process #2, Old contains only the FunctionDecl for #1. By comparing the parameter types, we see that #1 and #2 are overloaded (since they have different signatures), so this routine returns Ovl_Overload; MatchedDecl is unchanged.

When we process #3, Old is an overload set containing #1 and #2. We compare the signatures of #3 to #1 (they're overloaded, so we do nothing) and then #3 to #2. Since the signatures of #3 and #2 are identical (return types of functions are not part of the signature), IsOverload returns Ovl_Match and MatchedDecl will be set to point to the FunctionDecl for #2.

'NewIsUsingShadowDecl' indicates that 'New' is being introduced into a class by a using declaration. The rules for whether to hide shadow declarations ignore some properties which otherwise figure into a function template's signature.

Definition at line 966 of file SemaOverload.cpp.

◆ CheckOverloadedOperatorDeclaration()

bool Sema::CheckOverloadedOperatorDeclaration ( FunctionDecl FnDecl)

◆ CheckOverrideControl()

void Sema::CheckOverrideControl ( NamedDecl D)

◆ CheckOverridingFunctionAttributes()

bool Sema::CheckOverridingFunctionAttributes ( const CXXMethodDecl New,
const CXXMethodDecl Old 
)

◆ CheckOverridingFunctionExceptionSpec()

bool clang::Sema::CheckOverridingFunctionExceptionSpec ( const CXXMethodDecl New,
const CXXMethodDecl Old 
)

◆ CheckOverridingFunctionReturnType()

bool Sema::CheckOverridingFunctionReturnType ( const CXXMethodDecl New,
const CXXMethodDecl Old 
)

CheckOverridingFunctionReturnType - Checks whether the return types are covariant, according to C++ [class.virtual]p5.

Both types must be pointers or references to classes.

Definition at line 14597 of file SemaDeclCXX.cpp.

References clang::Type::getAs(), and clang::ValueDecl::getType().

◆ CheckPackExpansion() [1/3]

TypeSourceInfo * Sema::CheckPackExpansion ( TypeSourceInfo Pattern,
SourceLocation  EllipsisLoc,
Optional< unsigned >  NumExpansions 
)

◆ CheckPackExpansion() [2/3]

QualType Sema::CheckPackExpansion ( QualType  Pattern,
SourceRange  PatternRange,
SourceLocation  EllipsisLoc,
Optional< unsigned >  NumExpansions 
)

Construct a pack expansion type from the pattern of the pack expansion.

Definition at line 587 of file SemaTemplateVariadic.cpp.

References clang::Type::containsUnexpandedParameterPack(), and Diag().

◆ CheckPackExpansion() [3/3]

ExprResult Sema::CheckPackExpansion ( Expr Pattern,
SourceLocation  EllipsisLoc,
Optional< unsigned >  NumExpansions 
)

Invoked when parsing an expression followed by an ellipsis, which creates a pack expansion.

Parameters
PatternThe expression preceding the ellipsis, which will become the pattern of the pack expansion.
EllipsisLocThe location of the ellipsis.

Definition at line 607 of file SemaTemplateVariadic.cpp.

References clang::Expr::containsUnexpandedParameterPack(), Diag(), clang::ExprError(), and clang::Stmt::getSourceRange().

◆ CheckParameter()

ParmVarDecl * Sema::CheckParameter ( DeclContext DC,
SourceLocation  StartLoc,
SourceLocation  NameLoc,
IdentifierInfo Name,
QualType  T,
TypeSourceInfo TSInfo,
StorageClass  SC 
)

Definition at line 12468 of file SemaDecl.cpp.

Referenced by SubstParmVarDecl().

◆ CheckParameterPacksForExpansion()

bool Sema::CheckParameterPacksForExpansion ( SourceLocation  EllipsisLoc,
SourceRange  PatternRange,
ArrayRef< UnexpandedParameterPack Unexpanded,
const MultiLevelTemplateArgumentList TemplateArgs,
bool ShouldExpand,
bool RetainExpansion,
Optional< unsigned > &  NumExpansions 
)

Determine whether we could expand a pack expansion with the given set of parameter packs into separate arguments by repeatedly transforming the pattern.

Parameters
EllipsisLocThe location of the ellipsis that identifies the pack expansion.
PatternRangeThe source range that covers the entire pattern of the pack expansion.
UnexpandedThe set of unexpanded parameter packs within the pattern.
ShouldExpandWill be set to true if the transformer should expand the corresponding pack expansions into separate arguments. When set, NumExpansions must also be set.
RetainExpansionWhether the caller should add an unexpanded pack expansion after all of the expanded arguments. This is used when extending explicitly-specified template argument packs per C++0x [temp.arg.explicit]p9.
NumExpansionsThe number of separate arguments that will be in the expanded form of the corresponding pack expansion. This is both an input and an output parameter, which can be set by the caller if the number of expansions is known a priori (e.g., due to a prior substitution) and will be set by the callee when the number of expansions is known. The callee must set this value when ShouldExpand is true; it may set this value in other cases.
Returns
true if an error occurred (e.g., because the parameter packs are to be instantiated with arguments of different lengths), false otherwise. If false, ShouldExpand (and possibly NumExpansions) must be set.

Definition at line 627 of file SemaTemplateVariadic.cpp.

References Depth.

Referenced by SubstBaseSpecifiers().

◆ CheckParamExceptionSpec()

bool clang::Sema::CheckParamExceptionSpec ( const PartialDiagnostic DiagID,
const PartialDiagnostic NoteID,
const FunctionProtoType Target,
SourceLocation  TargetLoc,
const FunctionProtoType Source,
SourceLocation  SourceLoc 
)

CheckParamExceptionSpec - Check if the parameter and return types of the two functions have equivalent exception specs.

This is part of the assignment and override compatibility check. We do not check the parameters of parameter function pointers recursively, as no sane programmer would even be able to write such a function type.

Definition at line 830 of file SemaExceptionSpec.cpp.

References clang::CheckSpecForTypesEquivalent(), clang::FunctionProtoType::getNumParams(), clang::FunctionType::getReturnType(), and PDiag().

Referenced by CheckExceptionSpecSubset().

◆ CheckParmsForFunctionDef()

bool Sema::CheckParmsForFunctionDef ( ArrayRef< ParmVarDecl *>  Parameters,
bool  CheckParameterNames 
)

Helpers for dealing with blocks and functions.

CheckParmsForFunctionDef - Check that the parameters of the given function are appropriate for the definition of a function.

This takes care of any checks that cannot be performed on the declaration itself, e.g., that the types of each of the function parameters are complete.

Definition at line 11939 of file SemaChecking.cpp.

References Diag(), diagnoseArrayStarInParamType(), clang::Decl::getLocation(), and clang::Attr::getSpelling().

Referenced by ActOnStartOfObjCMethodDef().

◆ checkPartialSpecializationVisibility()

void Sema::checkPartialSpecializationVisibility ( SourceLocation  Loc,
NamedDecl Spec 
)

We've found a use of a template specialization that would select a partial specialization.

Check whether a template partial specialization that we've discovered is hidden, and produce suitable diagnostics if so.

Check that the partial specialization is visible, and diagnose if not.

Definition at line 10094 of file SemaTemplate.cpp.

References clang::Decl::getLocation().

◆ CheckPlaceholderExpr()

ExprResult Sema::CheckPlaceholderExpr ( Expr E)

◆ CheckPointerConversion()

bool Sema::CheckPointerConversion ( Expr From,
QualType  ToType,
CastKind Kind,
CXXCastPath BasePath,
bool  IgnoreBaseAccess,
bool  Diagnose = true 
)

CheckPointerConversion - Check the pointer conversion from the expression From to the type ToType.

This routine checks for ambiguous or inaccessible derived-to-base pointer conversions for which IsPointerConversion has already returned true. It returns true and produces a diagnostic if there was an error, or returns false otherwise.

Definition at line 2873 of file SemaOverload.cpp.

References clang::Expr::getType(), clang::Type::isAnyPointerType(), and clang::Expr::isNullPointerConstant().

Referenced by PerformImplicitConversion().

◆ CheckPointerToMemberOperands()

QualType Sema::CheckPointerToMemberOperands ( ExprResult LHS,
ExprResult RHS,
ExprValueKind VK,
SourceLocation  OpLoc,
bool  isIndirect 
)

◆ checkPseudoObjectAssignment()

ExprResult Sema::checkPseudoObjectAssignment ( Scope S,
SourceLocation  OpLoc,
BinaryOperatorKind  Opcode,
Expr LHS,
Expr RHS 
)

Definition at line 1591 of file SemaPseudoObject.cpp.

References clang::Expr::isTypeDependent().

◆ checkPseudoObjectIncDec()

ExprResult Sema::checkPseudoObjectIncDec ( Scope S,
SourceLocation  OpLoc,
UnaryOperatorKind  Opcode,
Expr Op 
)

Check an increment or decrement of a pseudo-object expression.

Definition at line 1562 of file SemaPseudoObject.cpp.

References clang::Expr::isTypeDependent().

◆ checkPseudoObjectRValue()

ExprResult Sema::checkPseudoObjectRValue ( Expr E)

Definition at line 1537 of file SemaPseudoObject.cpp.

References clang::Expr::IgnoreParens().

◆ CheckPureMethod()

bool Sema::CheckPureMethod ( CXXMethodDecl Method,
SourceRange  InitRange 
)

◆ CheckQualifiedMemberReference()

bool Sema::CheckQualifiedMemberReference ( Expr BaseExpr,
QualType  BaseType,
const CXXScopeSpec SS,
const LookupResult R 
)

Definition at line 550 of file SemaExprMember.cpp.

References clang::Type::isDependentType().

◆ CheckRedeclarationModuleOwnership()

bool Sema::CheckRedeclarationModuleOwnership ( NamedDecl New,
NamedDecl Old 
)

◆ CheckRegparmAttr()

bool Sema::CheckRegparmAttr ( const ParsedAttr AL,
unsigned &  numParams 
)

Checks a regparm attribute, returning true if it is ill-formed and otherwise setting numParams to the appropriate value.

Definition at line 4455 of file SemaDeclAttr.cpp.

References checkAttributeNumArgs(), checkUInt32Argument(), clang::ParsedAttr::getArgAsExpr(), clang::ParsedAttr::isInvalid(), and clang::ParsedAttr::setInvalid().

Referenced by handleFunctionTypeAttr().

◆ CheckRemainderOperands()

QualType Sema::CheckRemainderOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
bool  IsCompAssign = false 
)

◆ checkRetainCycles() [1/3]

void Sema::checkRetainCycles ( ObjCMessageExpr msg)

◆ checkRetainCycles() [2/3]

void Sema::checkRetainCycles ( Expr receiver,
Expr argument 
)

Check a property assign to see if it's likely to cause a retain cycle.

Definition at line 12728 of file SemaChecking.cpp.

References diagnoseRetainCycle(), findCapturingExpr(), and findRetainCycleOwner().

◆ checkRetainCycles() [3/3]

void Sema::checkRetainCycles ( VarDecl Var,
Expr Init 
)

◆ checkSectionName()

bool Sema::checkSectionName ( SourceLocation  LiteralLoc,
StringRef  Str 
)

Definition at line 2891 of file SemaDeclAttr.cpp.

◆ CheckShadow() [1/2]

void Sema::CheckShadow ( NamedDecl D,
NamedDecl ShadowedDecl,
const LookupResult R 
)

Diagnose variable or built-in function shadowing.

Implements -Wshadow.

This method is called whenever a VarDecl is added to a "useful" scope.

Parameters
ShadowedDeclthe declaration that is shadowed by the given variable
Rthe lookup of the name

Definition at line 7046 of file SemaDecl.cpp.

References clang::Decl::getDeclContext().

◆ CheckShadow() [2/2]

void Sema::CheckShadow ( Scope S,
VarDecl D 
)

Check -Wshadow without the advantage of a previous lookup.

Definition at line 7169 of file SemaDecl.cpp.

◆ CheckShadowingDeclModification()

void Sema::CheckShadowingDeclModification ( Expr E,
SourceLocation  Loc 
)

Warn if 'E', which is an expression that is about to be modified, refers to a shadowing declaration.

Check if 'E', which is an expression that is about to be modified, refers to a constructor parameter that shadows a field.

Definition at line 7182 of file SemaDecl.cpp.

◆ CheckShiftOperands()

QualType Sema::CheckShiftOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc,
bool  IsCompAssign = false 
)

◆ CheckSingleAssignmentConstraints()

Sema::AssignConvertType Sema::CheckSingleAssignmentConstraints ( QualType  LHSType,
ExprResult RHS,
bool  Diagnose = true,
bool  DiagnoseCFAudited = false,
bool  ConvertRHS = true 
)

Check assignment constraints for an assignment of RHS to LHSType.

Parameters
LHSTypeThe destination type for the assignment.
RHSThe source expression for the assignment.
DiagnoseIf true, diagnostics may be produced when checking for assignability. If a diagnostic is produced, RHS will be set to ExprError(). Note that this function may still return without producing a diagnostic, even for an invalid assignment.
DiagnoseCFAuditedIf true, the target is a function parameter in an audited Core Foundation API and does not need to be checked for ARC retain issues.
ConvertRHSIf true, RHS will be updated to model the conversions necessary to perform the assignment. If false, Diagnose must also be false.

Definition at line 8018 of file SemaExpr.cpp.

References clang::frontend::CPlusPlus, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::QualType::getUnqualifiedType(), clang::Type::isAtomicType(), clang::ImplicitConversionSequence::isFailure(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Type::isRecordType(), and TryImplicitConversion().

Referenced by checkObjCCollectionLiteralElement(), IsStandardConversion(), and LookupMethodInReceiverType().

◆ CheckSpecializationInstantiationRedecl()

bool Sema::CheckSpecializationInstantiationRedecl ( SourceLocation  NewLoc,
TemplateSpecializationKind  NewTSK,
NamedDecl PrevDecl,
TemplateSpecializationKind  PrevTSK,
SourceLocation  PrevPointOfInstantiation,
bool HasNoEffect 
)

Diagnose cases where we have an explicit template specialization before/after an explicit template instantiation, producing diagnostics for those cases where they are required and determining whether the new specialization/instantiation will have any effect.

Parameters
NewLocthe location of the new explicit specialization or instantiation.
NewTSKthe kind of the new explicit specialization or instantiation.
PrevDeclthe previous declaration of the entity.
PrevTSKthe kind of the old explicit specialization or instantiatin.
PrevPointOfInstantiationif valid, indicates where the previus declaration was instantiated (either implicitly or explicitly).
HasNoEffectwill be set to true to indicate that the new specialization or instantiation has no effect and should be ignored.
Returns
true if there was an error that should prevent the introduction of the new declaration into the AST, false otherwise.

Definition at line 7831 of file SemaTemplate.cpp.

References Diag(), DiagLocForExplicitInstantiation(), clang::Decl::getLocation(), clang::Decl::getPreviousDecl(), getTemplateSpecializationKind(), clang::SourceLocation::isInvalid(), clang::SourceLocation::isValid(), StripImplicitInstantiation(), clang::TSK_ExplicitInstantiationDeclaration, clang::TSK_ExplicitInstantiationDefinition, clang::TSK_ExplicitSpecialization, clang::TSK_ImplicitInstantiation, and clang::TSK_Undeclared.

Referenced by InstantiateClassMembers().

◆ checkSpecializationVisibility()

void Sema::checkSpecializationVisibility ( SourceLocation  Loc,
NamedDecl Spec 
)

We've found a use of a templated declaration that would trigger an implicit instantiation.

Check that any relevant explicit specializations and partial specializations are visible, and diagnose if not.

Definition at line 10085 of file SemaTemplate.cpp.

◆ CheckSpecifiedExceptionType()

bool clang::Sema::CheckSpecifiedExceptionType ( QualType T,
SourceRange  Range 
)

CheckSpecifiedExceptionType - Check if the given type is valid in an exception specification.

Incomplete types, or pointers to incomplete types other than void are not allowed.

Parameters
[in,out]TThe exception type. This will be decayed to a pointer type when the input is an array or a function type.

Definition at line 108 of file SemaExceptionSpec.cpp.

References Context, Diag(), clang::ASTContext::getArrayDecayedType(), clang::Type::getAs(), clang::SourceRange::getBegin(), getLangOpts(), clang::Type::getPointeeType(), clang::ASTContext::getPointerType(), clang::Type::isArrayType(), clang::Type::isFunctionType(), clang::Type::isRecordType(), clang::Type::isVoidType(), and RequireCompleteType().

◆ CheckStaticArrayArgument()

void Sema::CheckStaticArrayArgument ( SourceLocation  CallLoc,
ParmVarDecl Param,
const Expr ArgExpr 
)

CheckStaticArrayArgument - If the given argument corresponds to a static array parameter, check that it is non-null, and that if it is formed by array-to-pointer decay, the underlying array is sufficiently large.

C99 6.7.5.3p7: If the keyword static also appears within the [ and ] of the array type derivation, then for each call to the function, the value of the corresponding actual argument shall provide access to the first element of an array with at least as many elements as specified by the size expression.

Definition at line 5007 of file SemaExpr.cpp.

References clang::frontend::CPlusPlus, and clang::ParmVarDecl::getOriginalType().

◆ checkStringLiteralArgumentAttr()

bool Sema::checkStringLiteralArgumentAttr ( const ParsedAttr AL,
unsigned  ArgNum,
StringRef &  Str,
SourceLocation ArgLocation = nullptr 
)

Check if the argument ArgNum of Attr is a ASCII string literal.

If not emit an error and return false. If the argument is an identifier it will emit an error with a fixit hint and treat it as if it was a string literal.

Definition at line 355 of file SemaDeclAttr.cpp.

References clang::AANT_ArgumentString, clang::FixItHint::CreateInsertion(), Diag(), clang::ParsedAttr::getArgAsExpr(), clang::ParsedAttr::getArgAsIdent(), clang::Stmt::getLocStart(), clang::IdentifierInfo::getName(), clang::ParsedAttr::getName(), clang::IdentifierLoc::Ident, clang::Expr::IgnoreParenCasts(), clang::ParsedAttr::isArgIdent(), and clang::IdentifierLoc::Loc.

◆ CheckSubscriptingKind()

Sema::ObjCSubscriptKind Sema::CheckSubscriptingKind ( Expr FromE)

◆ CheckSubtractionOperands()

QualType Sema::CheckSubtractionOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
QualType CompLHSTy = nullptr 
)

◆ CheckSwitchCondition()

ExprResult Sema::CheckSwitchCondition ( SourceLocation  SwitchLoc,
Expr Cond 
)

Definition at line 643 of file SemaStmt.cpp.

Referenced by CheckConditionVariable().

◆ checkTargetAttr()

bool Sema::checkTargetAttr ( SourceLocation  LiteralLoc,
StringRef  Str 
)

Definition at line 2981 of file SemaDeclAttr.cpp.

References Diag(), and clang::driver::options::Unsupported.

◆ CheckTemplateArgument() [1/3]

bool Sema::CheckTemplateArgument ( NamedDecl Param,
TemplateArgumentLoc Arg,
NamedDecl Template,
SourceLocation  TemplateLoc,
SourceLocation  RAngleLoc,
unsigned  ArgumentPackIndex,
SmallVectorImpl< TemplateArgument > &  Converted,
CheckTemplateArgumentKind  CTAK = CTAK_Specified 
)

Check that the given template argument corresponds to the given template parameter.

Parameters
ParamThe template parameter against which the argument will be checked.
ArgThe template argument, which may be updated due to conversions.
TemplateThe template in which the template argument resides.
TemplateLocThe location of the template name for the template whose argument list we're matching.
RAngleLocThe location of the right angle bracket ('>') that closes the template argument list.
ArgumentPackIndexThe index into the argument pack where this argument will be placed. Only valid if the parameter is a parameter pack.
ConvertedThe checked, converted argument will be added to the end of this small vector.
CTAKDescribes how we arrived at this particular template argument: explicitly written, deduced, etc.
Returns
true on error, false otherwise.

Definition at line 4691 of file SemaTemplate.cpp.

References clang::CXXScopeSpec::Adopt(), clang::TemplateArgument::Declaration, clang::TemplateArgument::Expression, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::TemplateArgumentLoc::getArgument(), clang::TemplateName::getAsDependentTemplateName(), clang::TemplateArgument::getAsExpr(), clang::TemplateArgument::getAsTemplateOrTemplatePattern(), clang::Decl::getDeclContext(), clang::TemplateArgument::getKind(), clang::TemplateArgumentLoc::getTemplateNameLoc(), clang::TemplateArgumentLoc::getTemplateQualifierLoc(), clang::TemplateArgument::Integral, clang::DeclContext::isDependentContext(), clang::Type::isDependentType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Sema::InstantiatingTemplate::isInvalid(), clang::QualType::isNull(), clang::TemplateArgument::Null, clang::TemplateArgument::NullPtr, clang::TemplateArgumentList::OnStack, clang::TemplateArgument::Template, and clang::TemplateArgument::TemplateExpansion.

Referenced by ConvertDeducedTemplateArgument().

◆ CheckTemplateArgument() [2/3]

bool Sema::CheckTemplateArgument ( TemplateTypeParmDecl Param,
TypeSourceInfo ArgInfo 
)

Check a template argument against its corresponding template type parameter.

This routine implements the semantics of C++ [temp.arg.type]. It returns true if an error occurred, and false otherwise.

Definition at line 5516 of file SemaTemplate.cpp.

References Diag(), clang::SourceRange::getBegin(), clang::TypeLoc::getSourceRange(), clang::TypeSourceInfo::getType(), clang::TypeSourceInfo::getTypeLoc(), and clang::Type::isVariablyModifiedType().

◆ CheckTemplateArgument() [3/3]

ExprResult Sema::CheckTemplateArgument ( NonTypeTemplateParmDecl Param,
QualType  ParamType,
Expr Arg,
TemplateArgument Converted,
CheckTemplateArgumentKind  CTAK = CTAK_Specified 
)

Check a template argument against its corresponding non-type template parameter.

This routine implements the semantics of C++ [temp.arg.nontype]. If an error occurred, it returns ExprError(); otherwise, it returns the converted template argument. ParamType is the type of the non-type template parameter after it has been instantiated.

Definition at line 6126 of file SemaTemplate.cpp.

References clang::frontend::CPlusPlus17, Depth, clang::TemplateParmPosition::getDepth(), clang::Stmt::getLocStart(), clang::Expr::isTypeDependent(), and clang::Type::isUndeducedType().

◆ CheckTemplateArgumentList()

bool Sema::CheckTemplateArgumentList ( TemplateDecl Template,
SourceLocation  TemplateLoc,
TemplateArgumentListInfo TemplateArgs,
bool  PartialTemplateArgs,
SmallVectorImpl< TemplateArgument > &  Converted,
bool  UpdateArgsWithConversions = true 
)

Check that the given template arguments can be be provided to the given template, converting the arguments along the way.

Check that the given template argument list is well-formed for specializing the given template.

Parameters
TemplateThe template to which the template arguments are being provided.
TemplateLocThe location of the template name in the source.
TemplateArgsThe list of template arguments. If the template is a template template parameter, this function may extend the set of template arguments to also include substituted, defaulted template arguments.
PartialTemplateArgsTrue if the list of template arguments is intentionally partial, e.g., because we're checking just the initial set of template arguments.
ConvertedWill receive the converted, canonicalized template arguments.
UpdateArgsWithConversionsIf true, update TemplateArgs to contain the converted forms of the template arguments as written. Otherwise, TemplateArgs will not be modified.
Returns
true if an error occurred, false otherwise.

Definition at line 4993 of file SemaTemplate.cpp.

References clang::TemplateParameterList::begin(), clang::TemplateArgument::CreatePackCopy(), clang::TemplateParameterList::end(), getExpandedPackSize(), clang::NamedDecl::getMostRecentDecl(), clang::TemplateArgumentListInfo::getRAngleLoc(), and clang::TemplateArgumentListInfo::size().

Referenced by clang::TemplateDeclInstantiator::InstantiateClassTemplatePartialSpecialization(), clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization(), and clang::TemplateDeclInstantiator::VisitVarTemplateSpecializationDecl().

◆ CheckTemplateDeclScope()

bool Sema::CheckTemplateDeclScope ( Scope S,
TemplateParameterList TemplateParams 
)

◆ CheckTemplateIdType()

QualType Sema::CheckTemplateIdType ( TemplateName  Template,
SourceLocation  TemplateLoc,
TemplateArgumentListInfo TemplateArgs 
)

Definition at line 3089 of file SemaTemplate.cpp.

Referenced by lookupStdTypeTraitMember().

◆ CheckTemplateParameterList()

bool Sema::CheckTemplateParameterList ( TemplateParameterList NewParams,
TemplateParameterList OldParams,
TemplateParamListContext  TPC 
)

Checks the validity of a template parameter list, possibly considering the template parameter list from a previous declaration.

If an "old" template parameter list is provided, it must be equivalent (per TemplateParameterListsAreEqual) to the "new" template parameter list.

Parameters
NewParamsTemplate parameter list for a new template declaration. This template parameter list will be updated with any default arguments that are carried through from the previous template parameter list.
OldParamsIf provided, template parameter list from a previous declaration of the same template. Default template arguments will be merged from the old template parameter list to the new template parameter list.
TPCDescribes the context in which we are checking the given template parameter list.
Returns
true if an error occurred, false otherwise.

Definition at line 2156 of file SemaTemplate.cpp.

References clang::TemplateParameterList::begin(), DiagnoseDefaultTemplateArgument(), clang::TemplateParameterList::end(), clang::TemplateTypeParmDecl::getDefaultArgumentLoc(), clang::TemplateTypeParmDecl::hasDefaultArgument(), and hasVisibleDefaultArgument().

Referenced by clang::TemplateDeclInstantiator::InstantiateEnumDefinition().

◆ CheckTemplatePartialSpecialization() [1/2]

void Sema::CheckTemplatePartialSpecialization ( ClassTemplatePartialSpecializationDecl Partial)

◆ CheckTemplatePartialSpecialization() [2/2]

void Sema::CheckTemplatePartialSpecialization ( VarTemplatePartialSpecializationDecl Partial)

Definition at line 3646 of file SemaTemplate.cpp.

References checkTemplatePartialSpecialization().

◆ CheckTemplatePartialSpecializationArgs()

bool Sema::CheckTemplatePartialSpecializationArgs ( SourceLocation  TemplateNameLoc,
TemplateDecl PrimaryTemplate,
unsigned  NumExplicit,
ArrayRef< TemplateArgument TemplateArgs 
)

Check the non-type template arguments of a class template partial specialization according to C++ [temp.class.spec]p9.

Parameters
TemplateNameLocthe location of the template name.
PrimaryTemplatethe template parameters of the primary class template.
NumExplicitthe number of explicitly-specified template arguments.
TemplateArgsthe template arguments of the class template partial specialization.
Returns
true if there was an error, false otherwise.

Definition at line 7384 of file SemaTemplate.cpp.

References clang::Decl::getDeclContext(), clang::TemplateDecl::getTemplateParameters(), and clang::DeclContext::isDependentContext().

Referenced by clang::TemplateDeclInstantiator::InstantiateClassTemplatePartialSpecialization(), and clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization().

◆ CheckTemplateTemplateArgument()

bool Sema::CheckTemplateTemplateArgument ( TemplateParameterList Params,
TemplateArgumentLoc Arg 
)

Check a template argument against its corresponding template template parameter.

This routine implements the semantics of C++ [temp.arg.template]. It returns true if an error occurred, and false otherwise.

Definition at line 6642 of file SemaTemplate.cpp.

◆ CheckTemplateTypeArgument()

bool Sema::CheckTemplateTypeArgument ( TemplateTypeParmDecl Param,
TemplateArgumentLoc Arg,
SmallVectorImpl< TemplateArgument > &  Converted 
)

◆ checkThisInStaticMemberFunctionAttributes()

bool Sema::checkThisInStaticMemberFunctionAttributes ( CXXMethodDecl Method)

Check whether 'this' shows up in the attributes of the given static member function.

Returns
true if an error occurred.

Definition at line 15240 of file SemaDeclCXX.cpp.

◆ checkThisInStaticMemberFunctionExceptionSpec()

bool Sema::checkThisInStaticMemberFunctionExceptionSpec ( CXXMethodDecl Method)

Whether this' shows up in the exception specification of a static member function.

Definition at line 15199 of file SemaDeclCXX.cpp.

References clang::TypeLoc::getAs(), clang::TypeSourceInfo::getTypeLoc(), clang::InheritingConcreteTypeLoc< Base, Derived, TypeClass >::getTypePtr(), and clang::DeclaratorDecl::getTypeSourceInfo().

◆ checkThisInStaticMemberFunctionType()

bool Sema::checkThisInStaticMemberFunctionType ( CXXMethodDecl Method)

Check whether 'this' shows up in the type of a static member function after the (naturally empty) cv-qualifier-seq would be.

Returns
true if an error occurred.

Definition at line 15167 of file SemaDeclCXX.cpp.

References clang::TypeLoc::getAs(), clang::TypeSourceInfo::getTypeLoc(), clang::InheritingConcreteTypeLoc< Base, Derived, TypeClass >::getTypePtr(), and clang::DeclaratorDecl::getTypeSourceInfo().

◆ CheckTollFreeBridgeCast()

void Sema::CheckTollFreeBridgeCast ( QualType  castType,
Expr castExpr 
)

◆ CheckTollFreeBridgeStaticCast()

bool Sema::CheckTollFreeBridgeStaticCast ( QualType  castType,
Expr castExpr,
CastKind Kind 
)

◆ CheckTransparentUnionArgumentConstraints()

Sema::AssignConvertType Sema::CheckTransparentUnionArgumentConstraints ( QualType  ArgType,
ExprResult RHS 
)

◆ CheckTypedefForVariablyModifiedType()

void Sema::CheckTypedefForVariablyModifiedType ( Scope S,
TypedefNameDecl D 
)

Definition at line 5766 of file SemaDecl.cpp.

◆ CheckTypenameType()

QualType Sema::CheckTypenameType ( ElaboratedTypeKeyword  Keyword,
SourceLocation  KeywordLoc,
NestedNameSpecifierLoc  QualifierLoc,
const IdentifierInfo II,
SourceLocation  IILoc 
)

Build the type that describes a C++ typename specifier, e.g., "typename T::type".

Definition at line 9579 of file SemaTemplate.cpp.

References clang::CXXScopeSpec::Adopt(), clang::NestedNameSpecifierLoc::getNestedNameSpecifier(), and clang::NestedNameSpecifier::isDependent().

Referenced by clang::TreeTransform< Derived >::RebuildDependentNameType().

◆ CheckUnaryExprOrTypeTraitOperand() [1/2]

bool Sema::CheckUnaryExprOrTypeTraitOperand ( Expr E,
UnaryExprOrTypeTrait  ExprKind 
)

Check the constraints on expression operands to unary type expression and type traits.

Completes any types necessary and validates the constraints on the operand expression. The logic mostly mirrors the type-based overload, but may modify the expression as it completes the type for that expression through template instantiation, etc.

Definition at line 3651 of file SemaExpr.cpp.

◆ CheckUnaryExprOrTypeTraitOperand() [2/2]

bool Sema::CheckUnaryExprOrTypeTraitOperand ( QualType  ExprType,
SourceLocation  OpLoc,
SourceRange  ExprRange,
UnaryExprOrTypeTrait  ExprKind 
)

Check the constraints on operands to unary expression and type traits.

This will complete any types necessary, and validate the various constraints on those operands.

The UsualUnaryConversions() function is not called by this routine. C99 6.3.2.1p[2-4] all state: Except when it is the operand of the sizeof operator ...

C++ [expr.sizeof]p4 The lvalue-to-rvalue, array-to-pointer, and function-to-pointer standard conversions are not applied to the operand of sizeof.

This policy is followed for all of the unary trait expressions.

Definition at line 3743 of file SemaExpr.cpp.

References clang::Type::getAs(), clang::Type::getPointeeType(), clang::Type::isDependentType(), clang::UETT_AlignOf, and clang::UETT_OpenMPRequiredSimdAlign.

◆ checkUnknownAnyArg()

ExprResult Sema::checkUnknownAnyArg ( SourceLocation  callLoc,
Expr result,
QualType paramType 
)

◆ checkUnknownAnyCast()

ExprResult Sema::checkUnknownAnyCast ( SourceRange  TypeRange,
QualType  CastType,
Expr CastExpr,
CastKind CastKind,
ExprValueKind VK,
CXXCastPath Path 
)

◆ CheckUnresolvedLookupAccess()

Sema::AccessResult Sema::CheckUnresolvedLookupAccess ( UnresolvedLookupExpr E,
DeclAccessPair  FoundDecl 
)

Definition at line 1532 of file SemaAccess.cpp.

Referenced by FinishOverloadedCallExpr().

◆ CheckUnresolvedMemberAccess()

Sema::AccessResult Sema::CheckUnresolvedMemberAccess ( UnresolvedMemberExpr E,
DeclAccessPair  Found 
)

Perform access-control checking on a previously-unresolved member access which has now been resolved to a member.

Definition at line 1548 of file SemaAccess.cpp.

◆ checkUnsafeAssigns()

bool Sema::checkUnsafeAssigns ( SourceLocation  Loc,
QualType  LHS,
Expr RHS 
)

checkUnsafeAssigns - Check whether +1 expr is being assigned to weak/__unsafe_unretained type.

Definition at line 12794 of file SemaChecking.cpp.

References checkUnsafeAssignObject(), clang::QualType::getObjCLifetime(), clang::Qualifiers::OCL_ExplicitNone, and clang::Qualifiers::OCL_Weak.

◆ checkUnsafeExprAssigns()

void Sema::checkUnsafeExprAssigns ( SourceLocation  Loc,
Expr LHS,
Expr RHS 
)

◆ checkUnusedDeclAttributes()

void Sema::checkUnusedDeclAttributes ( Declarator D)

checkUnusedDeclAttributes - Given a declarator which is not being used to build a declaration, complain about any decl attributes which might be lying around on it.

Definition at line 6722 of file SemaDeclAttr.cpp.

References checkUnusedDeclAttributes(), clang::DeclSpec::getAttributes(), clang::Declarator::getAttributes(), clang::DeclaratorChunk::getAttrs(), clang::Declarator::getDeclSpec(), clang::Declarator::getNumTypeObjects(), and clang::Declarator::getTypeObject().

◆ CheckUsingDeclQualifier()

bool Sema::CheckUsingDeclQualifier ( SourceLocation  UsingLoc,
bool  HasTypename,
const CXXScopeSpec SS,
const DeclarationNameInfo NameInfo,
SourceLocation  NameLoc 
)

◆ CheckUsingDeclRedeclaration()

bool Sema::CheckUsingDeclRedeclaration ( SourceLocation  UsingLoc,
bool  HasTypenameKeyword,
const CXXScopeSpec SS,
SourceLocation  NameLoc,
const LookupResult Prev 
)

Checks that the given using declaration is not an invalid redeclaration.

Note that this is checking only for the using decl itself, not for any ill-formedness among the UsingShadowDecls.

Definition at line 10108 of file SemaDeclCXX.cpp.

References Diag(), clang::CXXScopeSpec::getScopeRep(), and clang::NestedNameSpecifier::isDependent().

◆ CheckUsingShadowDecl()

bool Sema::CheckUsingShadowDecl ( UsingDecl Using,
NamedDecl Orig,
const LookupResult Previous,
UsingShadowDecl *&  PrevShadow 
)

◆ checkVarDeclRedefinition()

bool Sema::checkVarDeclRedefinition ( VarDecl Old,
VarDecl New 
)

◆ CheckVariableDeclaration()

bool Sema::CheckVariableDeclaration ( VarDecl NewVD,
LookupResult Previous 
)

Perform semantic checking on a newly-created variable declaration.

This routine performs all of the type-checking required for a variable declaration once it has been built. It is used both to check variables after they have been parsed and their declarators have been translated into a declaration, and to check variables that have been instantiated from a template.

Sets NewVD->isInvalidDecl() if an error was encountered.

Returns true if the variable declaration is a redeclaration.

Definition at line 7557 of file SemaDecl.cpp.

References checkForConflictWithNonVisibleExternC(), clang::LookupResult::empty(), clang::Decl::isInvalidDecl(), and clang::LookupResult::setShadowed().

◆ CheckVariableDeclarationType()

void Sema::CheckVariableDeclarationType ( VarDecl NewVD)

◆ checkVariadicArgument()

void Sema::checkVariadicArgument ( const Expr E,
VariadicCallType  CT 
)

Check to see if the given expression is a valid argument to a variadic function, issuing a diagnostic if not.

Definition at line 813 of file SemaExpr.cpp.

◆ CheckVarTemplateId() [1/2]

DeclResult Sema::CheckVarTemplateId ( VarTemplateDecl Template,
SourceLocation  TemplateLoc,
SourceLocation  TemplateNameLoc,
const TemplateArgumentListInfo TemplateArgs 
)

◆ CheckVarTemplateId() [2/2]

ExprResult Sema::CheckVarTemplateId ( const CXXScopeSpec SS,
const DeclarationNameInfo NameInfo,
VarTemplateDecl Template,
SourceLocation  TemplateLoc,
const TemplateArgumentListInfo TemplateArgs 
)

◆ CheckVecStepExpr()

bool Sema::CheckVecStepExpr ( Expr E)

Definition at line 3848 of file SemaExpr.cpp.

◆ CheckVectorCast()

bool Sema::CheckVectorCast ( SourceRange  R,
QualType  VectorTy,
QualType  Ty,
CastKind Kind 
)

Definition at line 6062 of file SemaExpr.cpp.

References clang::Type::isIntegralType(), and clang::Type::isVectorType().

Referenced by DiagnoseBadFunctionCast().

◆ CheckVectorCompareOperands()

QualType Sema::CheckVectorCompareOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
BinaryOperatorKind  Opc 
)

CheckVectorCompareOperands - vector comparisons are a clang extension that operates on extended vector types.

Instead of producing an IntTy result, like a scalar comparison, a vector comparison produces a vector of integer types.

Definition at line 10501 of file SemaExpr.cpp.

References clang::VectorType::AltiVecVector, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Type::getAs(), clang::VectorType::getVectorKind(), and clang::QualType::isNull().

◆ CheckVectorLogicalOperands()

QualType Sema::CheckVectorLogicalOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc 
)

◆ CheckVectorOperands()

QualType Sema::CheckVectorOperands ( ExprResult LHS,
ExprResult RHS,
SourceLocation  Loc,
bool  IsCompAssign,
bool  AllowBothBool,
bool  AllowBoolConversion 
)

◆ CheckVirtualDtorCall()

void Sema::CheckVirtualDtorCall ( CXXDestructorDecl dtor,
SourceLocation  Loc,
bool  IsDelete,
bool  CallCanBeVirtual,
bool  WarnOnNonAbstractTypes,
SourceLocation  DtorLoc 
)

◆ ClassifyName()

Sema::NameClassification Sema::ClassifyName ( Scope S,
CXXScopeSpec SS,
IdentifierInfo *&  Name,
SourceLocation  NameLoc,
const Token NextToken,
bool  IsAddressOfOperand,
std::unique_ptr< CorrectionCandidateCallback CCC = nullptr 
)

Perform name lookup on the given name, classifying it based on the results of name lookup and the following token.

This routine is used by the parser to resolve identifiers and help direct parsing. When the identifier cannot be found, this routine will attempt to correct the typo and classify based on the resulting name.

Parameters
SThe scope in which we're performing name lookup.
SSThe nested-name-specifier that precedes the name.
NameThe identifier. If typo correction finds an alternative name, this pointer parameter will be updated accordingly.
NameLocThe location of the identifier.
NextTokenThe token following the identifier. Used to help disambiguate the name.
IsAddressOfOperandTrue if this name is the operand of a unary address of ('&') expression, assuming it is classified as an expression.
CCCThe correction callback, if typo correction is desired.

Definition at line 845 of file SemaDecl.cpp.

◆ CleanupVarDeclMarking()

void Sema::CleanupVarDeclMarking ( )

Definition at line 15228 of file SemaExpr.cpp.

Referenced by MaybeCreateExprWithCleanups(), and MaybeCreateStmtWithCleanups().

◆ clearDelayedTypo()

void Sema::clearDelayedTypo ( TypoExpr TE)

Clears the state of the given TypoExpr.

Definition at line 5219 of file SemaLookup.cpp.

◆ CodeCompleteAfterIf()

void Sema::CodeCompleteAfterIf ( Scope S)

Definition at line 4624 of file SemaCodeComplete.cpp.

◆ CodeCompleteAssignmentRHS()

void Sema::CodeCompleteAssignmentRHS ( Scope S,
Expr LHS 
)

Definition at line 4685 of file SemaCodeComplete.cpp.

Referenced by clang::Parser::ParseConstraintExpression().

◆ CodeCompleteAvailabilityPlatformName()

void Sema::CodeCompleteAvailabilityPlatformName ( )

Definition at line 7993 of file SemaCodeComplete.cpp.

◆ CodeCompleteBracketDeclarator()

void Sema::CodeCompleteBracketDeclarator ( Scope S)

Definition at line 4285 of file SemaCodeComplete.cpp.

◆ CodeCompleteCall()

void Sema::CodeCompleteCall ( Scope S,
Expr Fn,
ArrayRef< Expr *>  Args 
)

◆ CodeCompleteCase()

void Sema::CodeCompleteCase ( Scope S)

◆ CodeCompleteConstructor()

void Sema::CodeCompleteConstructor ( Scope S,
QualType  Type,
SourceLocation  Loc,
ArrayRef< Expr *>  Args 
)

◆ CodeCompleteConstructorInitializer()

void Sema::CodeCompleteConstructorInitializer ( Decl Constructor,
ArrayRef< CXXCtorInitializer *>  Initializers 
)

Definition at line 4898 of file SemaCodeComplete.cpp.

◆ CodeCompleteDeclSpec()

void Sema::CodeCompleteDeclSpec ( Scope S,
DeclSpec DS,
bool  AllowNonIdentifiers,
bool  AllowNestedNameSpecifiers 
)

Definition at line 3625 of file SemaCodeComplete.cpp.

◆ CodeCompleteExpression()

void Sema::CodeCompleteExpression ( Scope S,
const CodeCompleteExpressionData Data 
)

Perform code-completion in an expression context when we know what type we're looking for.

Definition at line 3706 of file SemaCodeComplete.cpp.

Referenced by CodeCompleteOverloadResults().

◆ CodeCompleteFunctionQualifiers()

void Sema::CodeCompleteFunctionQualifiers ( DeclSpec DS,
Declarator D,
const VirtSpecifiers VS = nullptr 
)

Definition at line 4263 of file SemaCodeComplete.cpp.

◆ CodeCompleteInitializer()

void Sema::CodeCompleteInitializer ( Scope S,
Decl D 
)

Definition at line 4598 of file SemaCodeComplete.cpp.

References clang::ValueDecl::getType().

◆ CodeCompleteInPreprocessorConditionalExclusion()

void Sema::CodeCompleteInPreprocessorConditionalExclusion ( Scope S)

◆ CodeCompleteLambdaIntroducer()

void Sema::CodeCompleteLambdaIntroducer ( Scope S,
LambdaIntroducer Intro,
bool  AfterAmpersand 
)

Definition at line 5022 of file SemaCodeComplete.cpp.

◆ CodeCompleteMemberReferenceExpr()

void Sema::CodeCompleteMemberReferenceExpr ( Scope S,
Expr Base,
Expr OtherOpBase,
SourceLocation  OpLoc,
bool  IsArrow,
bool  IsBaseExprStatement 
)

◆ CodeCompleteModuleImport()

void Sema::CodeCompleteModuleImport ( SourceLocation  ImportLoc,
ModuleIdPath  Path 
)

Definition at line 3479 of file SemaCodeComplete.cpp.

◆ CodeCompleteNamespaceAliasDecl()

void Sema::CodeCompleteNamespaceAliasDecl ( Scope S)

Definition at line 4848 of file SemaCodeComplete.cpp.

◆ CodeCompleteNamespaceDecl()

void Sema::CodeCompleteNamespaceDecl ( Scope S)

Definition at line 4800 of file SemaCodeComplete.cpp.

References clang::Scope::getEntity(), and clang::Scope::getParent().

◆ CodeCompleteNaturalLanguage()

void Sema::CodeCompleteNaturalLanguage ( )

◆ CodeCompleteObjCAtDirective()

void Sema::CodeCompleteObjCAtDirective ( Scope S)

Definition at line 5164 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCAtExpression()

void Sema::CodeCompleteObjCAtExpression ( Scope S)

Definition at line 5325 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCAtStatement()

void Sema::CodeCompleteObjCAtStatement ( Scope S)

Definition at line 5313 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCAtVisibility()

void Sema::CodeCompleteObjCAtVisibility ( Scope S)

Definition at line 5302 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCClassMessage()

void Sema::CodeCompleteObjCClassMessage ( Scope S,
ParsedType  Receiver,
ArrayRef< IdentifierInfo *>  SelIdents,
bool  AtArgumentExpression,
bool  IsSuper = false 
)

Definition at line 6123 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCClassPropertyRefExpr()

void Sema::CodeCompleteObjCClassPropertyRefExpr ( Scope S,
IdentifierInfo ClassName,
SourceLocation  ClassNameLoc,
bool  IsBaseExprStatement 
)

◆ CodeCompleteObjCForCollection()

void Sema::CodeCompleteObjCForCollection ( Scope S,
DeclGroupPtrTy  IterationVar 
)

◆ CodeCompleteObjCImplementationCategory()

void Sema::CodeCompleteObjCImplementationCategory ( Scope S,
IdentifierInfo ClassName,
SourceLocation  ClassNameLoc 
)

Definition at line 6568 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCImplementationDecl()

void Sema::CodeCompleteObjCImplementationDecl ( Scope S)

Definition at line 6516 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCInstanceMessage()

void Sema::CodeCompleteObjCInstanceMessage ( Scope S,
Expr Receiver,
ArrayRef< IdentifierInfo *>  SelIdents,
bool  AtArgumentExpression,
ObjCInterfaceDecl Super = nullptr 
)

◆ CodeCompleteObjCInterfaceCategory()

void Sema::CodeCompleteObjCInterfaceCategory ( Scope S,
IdentifierInfo ClassName,
SourceLocation  ClassNameLoc 
)

Definition at line 6534 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCInterfaceDecl()

void Sema::CodeCompleteObjCInterfaceDecl ( Scope S)

Definition at line 6473 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCMessageReceiver()

void Sema::CodeCompleteObjCMessageReceiver ( Scope S)

Definition at line 5911 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCMethodDecl()

void Sema::CodeCompleteObjCMethodDecl ( Scope S,
Optional< bool IsInstanceMethod,
ParsedType  ReturnType 
)

◆ CodeCompleteObjCMethodDeclSelector()

void Sema::CodeCompleteObjCMethodDeclSelector ( Scope S,
bool  IsInstanceMethod,
bool  AtParameterName,
ParsedType  ReturnType,
ArrayRef< IdentifierInfo *>  SelIdents 
)

Definition at line 7672 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCPassingType()

void Sema::CodeCompleteObjCPassingType ( Scope S,
ObjCDeclSpec DS,
bool  IsParameter 
)

Definition at line 5642 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCPropertyDefinition()

void Sema::CodeCompleteObjCPropertyDefinition ( Scope S)

Definition at line 6609 of file SemaCodeComplete.cpp.

References clang::CodeCompletionContext::CCC_Other.

◆ CodeCompleteObjCPropertyFlags()

void Sema::CodeCompleteObjCPropertyFlags ( Scope S,
ObjCDeclSpec ODS 
)

◆ CodeCompleteObjCPropertyGetter()

void Sema::CodeCompleteObjCPropertyGetter ( Scope S)

Definition at line 5588 of file SemaCodeComplete.cpp.

References Category.

◆ CodeCompleteObjCPropertySetter()

void Sema::CodeCompleteObjCPropertySetter ( Scope S)

Definition at line 5614 of file SemaCodeComplete.cpp.

References Category.

◆ CodeCompleteObjCPropertySynthesizeIvar()

void Sema::CodeCompleteObjCPropertySynthesizeIvar ( Scope S,
IdentifierInfo PropertyName 
)

Definition at line 6648 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCProtocolDecl()

void Sema::CodeCompleteObjCProtocolDecl ( Scope S)

Definition at line 6436 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCProtocolReferences()

void Sema::CodeCompleteObjCProtocolReferences ( ArrayRef< IdentifierLocPair Protocols)

Definition at line 6408 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCSelector()

void Sema::CodeCompleteObjCSelector ( Scope S,
ArrayRef< IdentifierInfo *>  SelIdents 
)

Definition at line 6334 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCSuperclass()

void Sema::CodeCompleteObjCSuperclass ( Scope S,
IdentifierInfo ClassName,
SourceLocation  ClassNameLoc 
)

Definition at line 6491 of file SemaCodeComplete.cpp.

◆ CodeCompleteObjCSuperMessage()

void Sema::CodeCompleteObjCSuperMessage ( Scope S,
SourceLocation  SuperLoc,
ArrayRef< IdentifierInfo *>  SelIdents,
bool  AtArgumentExpression 
)

Definition at line 5948 of file SemaCodeComplete.cpp.

References clang::ObjCInterfaceDecl::getSuperClass().

◆ CodeCompleteOperatorName()

void Sema::CodeCompleteOperatorName ( Scope S)

Definition at line 4866 of file SemaCodeComplete.cpp.

◆ CodeCompleteOrdinaryName()

void Sema::CodeCompleteOrdinaryName ( Scope S,
ParserCompletionContext  CompletionContext 
)

◆ CodeCompletePostfixExpression()

void Sema::CodeCompletePostfixExpression ( Scope S,
ExprResult  LHS 
)

Definition at line 3755 of file SemaCodeComplete.cpp.

◆ CodeCompletePreprocessorDirective()

void Sema::CodeCompletePreprocessorDirective ( bool  InConditional)

Definition at line 7760 of file SemaCodeComplete.cpp.

◆ CodeCompletePreprocessorExpression()

void Sema::CodeCompletePreprocessorExpression ( )

Definition at line 7952 of file SemaCodeComplete.cpp.

◆ CodeCompletePreprocessorMacroArgument()

void Sema::CodeCompletePreprocessorMacroArgument ( Scope S,
IdentifierInfo Macro,
MacroInfo MacroInfo,
unsigned  Argument 
)

Definition at line 7976 of file SemaCodeComplete.cpp.

◆ CodeCompletePreprocessorMacroName()

void Sema::CodeCompletePreprocessorMacroName ( bool  IsDefinition)

Definition at line 7924 of file SemaCodeComplete.cpp.

◆ CodeCompleteQualifiedId()

void Sema::CodeCompleteQualifiedId ( Scope S,
CXXScopeSpec SS,
bool  EnteringContext 
)

◆ CodeCompleteReturn()

void Sema::CodeCompleteReturn ( Scope S)

Definition at line 4608 of file SemaCodeComplete.cpp.

References clang::QualType::isNull().

◆ CodeCompleteTag()

void Sema::CodeCompleteTag ( Scope S,
unsigned  TagSpec 
)

◆ CodeCompleteTypeQualifiers()

void Sema::CodeCompleteTypeQualifiers ( DeclSpec DS)

Definition at line 4251 of file SemaCodeComplete.cpp.

◆ CodeCompleteUsing()

void Sema::CodeCompleteUsing ( Scope S)

Definition at line 4754 of file SemaCodeComplete.cpp.

◆ CodeCompleteUsingDirective()

void Sema::CodeCompleteUsingDirective ( Scope S)

Definition at line 4780 of file SemaCodeComplete.cpp.

◆ CollectIvarsToConstructOrDestruct()

void Sema::CollectIvarsToConstructOrDestruct ( ObjCInterfaceDecl OI,
SmallVectorImpl< ObjCIvarDecl *> &  Ivars 
)

CollectIvarsToConstructOrDestruct - Collect those ivars which require initialization.

Definition at line 4936 of file SemaDeclObjC.cpp.

References clang::ObjCInterfaceDecl::all_declared_ivar_begin(), clang::ASTContext::getBaseElementType(), clang::ObjCIvarDecl::getNextIvar(), and clang::Type::isRecordType().

◆ CollectMultipleMethodsInGlobalPool()

bool Sema::CollectMultipleMethodsInGlobalPool ( Selector  Sel,
SmallVectorImpl< ObjCMethodDecl *> &  Methods,
bool  InstanceFirst,
bool  CheckTheOther,
const ObjCObjectType TypeBound = nullptr 
)

We first select the type of the method: Instance or Factory, then collect all methods with that type.

  • Returns instance or factory methods in global method pool for given selector. It checks the desired kind first, if none is found, and parameter checkTheOther is set, it then checks the other kind. If no such method or only one method is found, function returns false; otherwise, it returns true.

Definition at line 3455 of file SemaDeclObjC.cpp.

References FilterMethodsByTypeBound(), clang::ObjCMethodList::getNext(), MethodPool, and ReadMethodPool().

◆ collectUnexpandedParameterPacks() [1/6]

void Sema::collectUnexpandedParameterPacks ( TemplateArgument  Arg,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given template argument.

Parameters
ArgThe template argument that will be traversed to find unexpanded parameter packs.

Definition at line 478 of file SemaTemplateVariadic.cpp.

Referenced by SubstBaseSpecifiers().

◆ collectUnexpandedParameterPacks() [2/6]

void Sema::collectUnexpandedParameterPacks ( TemplateArgumentLoc  Arg,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given template argument.

Parameters
ArgThe template argument that will be traversed to find unexpanded parameter packs.

Definition at line 484 of file SemaTemplateVariadic.cpp.

◆ collectUnexpandedParameterPacks() [3/6]

void Sema::collectUnexpandedParameterPacks ( QualType  T,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given type.

Parameters
TThe type that will be traversed to find unexpanded parameter packs.

Definition at line 490 of file SemaTemplateVariadic.cpp.

◆ collectUnexpandedParameterPacks() [4/6]

void Sema::collectUnexpandedParameterPacks ( TypeLoc  TL,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given type.

Parameters
TLThe type that will be traversed to find unexpanded parameter packs.

Definition at line 495 of file SemaTemplateVariadic.cpp.

◆ collectUnexpandedParameterPacks() [5/6]

void Sema::collectUnexpandedParameterPacks ( NestedNameSpecifierLoc  NNS,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given nested-name-specifier.

Parameters
NNSThe nested-name-specifier that will be traversed to find unexpanded parameter packs.

Definition at line 500 of file SemaTemplateVariadic.cpp.

◆ collectUnexpandedParameterPacks() [6/6]

void Sema::collectUnexpandedParameterPacks ( const DeclarationNameInfo NameInfo,
SmallVectorImpl< UnexpandedParameterPack > &  Unexpanded 
)

Collect the set of unexpanded parameter packs within the given name.

Parameters
NameInfoThe name that will be traversed to find unexpanded parameter packs.

Definition at line 507 of file SemaTemplateVariadic.cpp.

◆ CompareReferenceRelationship()

Sema::ReferenceCompareResult Sema::CompareReferenceRelationship ( SourceLocation  Loc,
QualType  OrigT1,
QualType  OrigT2,
bool DerivedToBase,
bool ObjCConversion,
bool ObjCLifetimeConversion 
)

CompareReferenceRelationship - Compare the two types T1 and T2 to determine whether they are reference-related, reference-compatible, reference-compatible with added qualification, or incompatible, for use in C++ initialization by reference (C++ [dcl.ref.init]p4).

Neither type can be a reference type, and the first type (T1) is the pointee type of the reference type being initialized.

Definition at line 4247 of file SemaOverload.cpp.

References clang::Type::isReferenceType().

Referenced by CXXCheckConditionalOperands(), TryListConversion(), TryLValueToRValueCast(), TryReferenceInit(), TryReferenceInitializationCore(), TryReferenceListInitialization(), and TryRefInitWithConversionFunction().

◆ CompleteConstructorCall()

bool Sema::CompleteConstructorCall ( CXXConstructorDecl Constructor,
MultiExprArg  ArgsPtr,
SourceLocation  Loc,
SmallVectorImpl< Expr *> &  ConvertedArgs,
bool  AllowExplicit = false,
bool  IsListInitialization = false 
)

Given a constructor and the set of arguments provided for the constructor, convert the arguments and add any required default arguments to form a proper call to this constructor.

Returns
true if an error occurred, false otherwise.

Definition at line 12933 of file SemaDeclCXX.cpp.

References clang::Type::getAs(), clang::FunctionProtoType::getNumParams(), clang::ValueDecl::getType(), and clang::FunctionProtoType::isVariadic().

Referenced by clang::InitializationSequence::Perform(), PerformConstructorInitialization(), and PerformImplicitConversion().

◆ completeExprArrayBound()

void Sema::completeExprArrayBound ( Expr E)

Definition at line 7401 of file SemaType.cpp.

Referenced by AdjustFunctionParmAndArgTypesForDeduction().

◆ CompleteMemberSpecialization()

void Sema::CompleteMemberSpecialization ( NamedDecl Member,
LookupResult Previous 
)

◆ CompleteVarTemplateSpecializationDecl()

VarTemplateSpecializationDecl * Sema::CompleteVarTemplateSpecializationDecl ( VarTemplateSpecializationDecl VarSpec,
VarDecl PatternDecl,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ computeDeclContext() [1/2]

DeclContext * Sema::computeDeclContext ( QualType  T)

Compute the DeclContext that is associated with the given type.

Parameters
Tthe type for which we are attempting to find a DeclContext.
Returns
the declaration context represented by the type T, or NULL if the declaration context cannot be computed (e.g., because it is dependent and not the current instantiation).

Definition at line 54 of file SemaCXXScopeSpec.cpp.

References CurContext, clang::Type::getAs(), getCurrentInstantiationOf(), and clang::Type::isDependentType().

Referenced by ActOnPseudoDestructorExpr(), clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), LookupMemberExprInRecord(), clang::TreeTransform< Derived >::RebuildDependentNameType(), TryNamespaceTypoCorrection(), and clang::TemplateDeclInstantiator::VisitFunctionDecl().

◆ computeDeclContext() [2/2]

DeclContext * Sema::computeDeclContext ( const CXXScopeSpec SS,
bool  EnteringContext = false 
)

Compute the DeclContext that is associated with the given scope specifier.

Parameters
SSthe C++ scope specifier as it appears in the source
EnteringContextwhen true, we will be entering the context of this scope specifier, so we can retrieve the declaration context of a class template or class template partial specialization even if it is not the current instantiation.
Returns
the declaration context represented by the scope specifier SS, or NULL if the declaration context cannot be computed (e.g., because it is dependent and not the current instantiation).

Definition at line 75 of file SemaCXXScopeSpec.cpp.

References Context, diagnoseMissingImport(), clang::Type::getAs(), clang::NestedNameSpecifier::getAsNamespace(), clang::NestedNameSpecifier::getAsNamespaceAlias(), clang::NestedNameSpecifier::getAsRecordDecl(), clang::NestedNameSpecifier::getAsType(), clang::ASTContext::getCanonicalType(), getCurrentInstantiationOf(), clang::TagType::getDecl(), clang::NestedNameSpecifier::getKind(), clang::CXXScopeSpec::getLastQualifierNameLoc(), clang::NamespaceAliasDecl::getNamespace(), clang::CXXScopeSpec::getScopeRep(), clang::ASTContext::getTranslationUnitDecl(), clang::NestedNameSpecifier::Global, clang::ASTContext::hasSameType(), hasVisibleDeclaration(), clang::NestedNameSpecifier::Identifier, clang::NestedNameSpecifier::isDependent(), clang::CXXScopeSpec::isInvalid(), clang::CXXScopeSpec::isSet(), isSFINAEContext(), clang::NestedNameSpecifier::Namespace, clang::NestedNameSpecifier::NamespaceAlias, PartialSpecialization, clang::NestedNameSpecifier::Super, clang::NestedNameSpecifier::TypeSpec, and clang::NestedNameSpecifier::TypeSpecWithTemplate.

◆ ComputeDefaultedCopyAssignmentExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedCopyAssignmentExceptionSpec ( CXXMethodDecl MD)

Determine what sort of exception specification a defautled copy assignment operator of a class will have, and whether the parameter will be const.

◆ ComputeDefaultedCopyCtorExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedCopyCtorExceptionSpec ( CXXMethodDecl MD)

Determine what sort of exception specification a defaulted default constructor of a class will have, and whether the parameter will be const.

◆ ComputeDefaultedDefaultCtorExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedDefaultCtorExceptionSpec ( SourceLocation  Loc,
CXXMethodDecl MD 
)

Determine what sort of exception specification a defaulted copy constructor of a class will have.

◆ ComputeDefaultedDtorExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedDtorExceptionSpec ( CXXMethodDecl MD)

Determine what sort of exception specification a defaulted destructor of a class will have.

◆ ComputeDefaultedMoveAssignmentExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedMoveAssignmentExceptionSpec ( CXXMethodDecl MD)

Determine what sort of exception specification a defaulted move assignment operator of a class will have.

◆ ComputeDefaultedMoveCtorExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeDefaultedMoveCtorExceptionSpec ( CXXMethodDecl MD)

Determine what sort of exception specification a defaulted move constructor of a class will have.

◆ ComputeInheritingCtorExceptionSpec()

ImplicitExceptionSpecification clang::Sema::ComputeInheritingCtorExceptionSpec ( SourceLocation  Loc,
CXXConstructorDecl CD 
)

Determine what sort of exception specification an inheriting constructor of a class will have.

◆ computeNRVO()

void Sema::computeNRVO ( Stmt Body,
sema::FunctionScopeInfo Scope 
)

Given the set of return statements within a function body, compute the variables that are subject to the named return value optimization.

Each of the variables that is subject to the named return value optimization will be marked as NRVO variables in the AST, and any return statement that has a marked NRVO variable as its NRVO candidate can use the named return value optimization.

This function applies a very simplistic algorithm for NRVO: if every return statement in the scope of a variable has the same NRVO candidate, that candidate is an NRVO variable.

Definition at line 12926 of file SemaDecl.cpp.

References clang::sema::FunctionScopeInfo::Returns.

◆ ConditionError()

static ConditionResult clang::Sema::ConditionError ( )
inlinestatic

◆ containsUnexpandedParameterPacks()

bool Sema::containsUnexpandedParameterPacks ( Declarator D)

◆ ConversionToObjCStringLiteralCheck()

bool Sema::ConversionToObjCStringLiteralCheck ( QualType  DstType,
Expr *&  SrcExpr,
bool  Diagnose = true 
)

◆ ConvertArgumentsForCall()

bool Sema::ConvertArgumentsForCall ( CallExpr Call,
Expr Fn,
FunctionDecl FDecl,
const FunctionProtoType Proto,
ArrayRef< Expr *>  Args,
SourceLocation  RParenLoc,
bool  IsExecConfig = false 
)

ConvertArgumentsForCall - Converts the arguments specified in Args/NumArgs to the parameter types of the function FDecl with function prototype Proto.

Call is the call expression itself, and Fn is the function expression. For a C++ member function, this routine does not attempt to convert the object argument. Returns true if the call is ill-formed.

Definition at line 4769 of file SemaExpr.cpp.

References clang::FunctionDecl::getBuiltinID().

◆ ConvertDeclToDeclGroup()

Sema::DeclGroupPtrTy Sema::ConvertDeclToDeclGroup ( Decl Ptr,
Decl OwnedType = nullptr 
)

◆ ConvertIntegerToTypeWarnOnOverflow()

void clang::Sema::ConvertIntegerToTypeWarnOnOverflow ( llvm::APSInt &  OldVal,
unsigned  NewWidth,
bool  NewSign,
SourceLocation  Loc,
unsigned  DiagID 
)

ConvertIntegerToTypeWarnOnOverflow - Convert the specified APInt to have the specified width and sign.

If an overflow occurs, detect it and emit the specified diagnostic.

◆ CorrectDelayedTyposInExpr() [1/4]

ExprResult Sema::CorrectDelayedTyposInExpr ( Expr E,
VarDecl InitDecl = nullptr,
llvm::function_ref< ExprResult(Expr *)>  Filter = [](Expr *E) -> ExprResult { return E; } 
)

Process any TypoExprs in the given Expr and its children, generating diagnostics as appropriate and returning a new Expr if there were typos that were all successfully corrected and ExprError if one or more typos could not be corrected.

Parameters
EThe Expr to check for TypoExprs.
InitDeclA VarDecl to avoid because the Expr being corrected is its initializer.
FilterA function applied to a newly rebuilt Expr to determine if it is an acceptable/usable result from a single combination of typo corrections. As long as the filter returns ExprError, different combinations of corrections will be tried until all are exhausted.

Definition at line 7739 of file SemaExprCXX.cpp.

References ExprEvalContexts, clang::Expr::isInstantiationDependent(), clang::Expr::isTypeDependent(), clang::Expr::isValueDependent(), and clang::Result.

Referenced by ActOnCXXTypeConstructExpr(), ActOnFinishFullExpr(), checkArgsForPlaceholders(), CheckArrayDesignatorSyntax(), CorrectDelayedTyposInBinOp(), FinishForRangeVarDecl(), and clang::Parser::ParseConstraintExpression().

◆ CorrectDelayedTyposInExpr() [2/4]

ExprResult clang::Sema::CorrectDelayedTyposInExpr ( Expr E,
llvm::function_ref< ExprResult(Expr *)>  Filter 
)
inline

Definition at line 3277 of file Sema.h.

◆ CorrectDelayedTyposInExpr() [3/4]

ExprResult clang::Sema::CorrectDelayedTyposInExpr ( ExprResult  ER,
VarDecl InitDecl = nullptr,
llvm::function_ref< ExprResult(Expr *)>  Filter = [](Expr *E) -> ExprResult { return E; } 
)
inline

Definition at line 3283 of file Sema.h.

◆ CorrectDelayedTyposInExpr() [4/4]

ExprResult clang::Sema::CorrectDelayedTyposInExpr ( ExprResult  ER,
llvm::function_ref< ExprResult(Expr *)>  Filter 
)
inline

Definition at line 3290 of file Sema.h.

References checkUnusedDeclAttributes(), and Id.

◆ CorrectTypo()

TypoCorrection Sema::CorrectTypo ( const DeclarationNameInfo TypoName,
Sema::LookupNameKind  LookupKind,
Scope S,
CXXScopeSpec SS,
std::unique_ptr< CorrectionCandidateCallback CCC,
CorrectTypoKind  Mode,
DeclContext MemberContext = nullptr,
bool  EnteringContext = false,
const ObjCObjectPointerType OPT = nullptr,
bool  RecordFailure = true 
)

Try to "correct" a typo in the source code by finding visible declarations whose names are similar to the name that was present in the source code.

Parameters
TypoNamethe DeclarationNameInfo structure that contains the name that was present in the source code along with its location.
LookupKindthe name-lookup criteria used to search for the name.
Sthe scope in which name lookup occurs.
SSthe nested-name-specifier that precedes the name we're looking for, if present.
CCCA CorrectionCandidateCallback object that provides further validation of typo correction candidates. It also provides flags for determining the set of keywords permitted.
MemberContextif non-NULL, the context in which to look for a member access expression.
EnteringContextwhether we're entering the context described by the nested-name-specifier SS.
OPTwhen non-NULL, the search for visible declarations will also walk the protocols in the qualified interfaces of OPT.
Returns
a TypoCorrection containing the corrected name if the typo along with information such as the NamedDecl where the corrected name was declared, and any additional NestedNameSpecifier needed to access it (C++ only). The TypoCorrection is empty if there is no correction.

Definition at line 4739 of file SemaLookup.cpp.

Referenced by ActOnStartClassImplementation(), FindProtocolDeclaration(), LookupMemberExpr(), and TryNamespaceTypoCorrection().

◆ CorrectTypoDelayed()

TypoExpr * Sema::CorrectTypoDelayed ( const DeclarationNameInfo TypoName,
Sema::LookupNameKind  LookupKind,
Scope S,
CXXScopeSpec SS,
std::unique_ptr< CorrectionCandidateCallback CCC,
TypoDiagnosticGenerator  TDG,
TypoRecoveryCallback  TRC,
CorrectTypoKind  Mode,
DeclContext MemberContext = nullptr,
bool  EnteringContext = false,
const ObjCObjectPointerType OPT = nullptr 
)

Try to "correct" a typo in the source code by finding visible declarations whose names are similar to the name that was present in the source code.

Parameters
TypoNamethe DeclarationNameInfo structure that contains the name that was present in the source code along with its location.
LookupKindthe name-lookup criteria used to search for the name.
Sthe scope in which name lookup occurs.
SSthe nested-name-specifier that precedes the name we're looking for, if present.
CCCA CorrectionCandidateCallback object that provides further validation of typo correction candidates. It also provides flags for determining the set of keywords permitted.
TDGA TypoDiagnosticGenerator functor that will be used to print diagnostics when the actual typo correction is attempted.
TRCA TypoRecoveryCallback functor that will be used to build an Expr from a typo correction candidate.
MemberContextif non-NULL, the context in which to look for a member access expression.
EnteringContextwhether we're entering the context described by the nested-name-specifier SS.
OPTwhen non-NULL, the search for visible declarations will also walk the protocols in the qualified interfaces of OPT.
Returns
a new TypoExpr that will later be replaced in the AST with an Expr representing the result of performing typo correction, or nullptr if typo correction is not possible. If nullptr is returned, no diagnostics will be emitted and it is the responsibility of the caller to emit any that are needed.

Definition at line 4875 of file SemaLookup.cpp.

◆ CreateBuiltinArraySubscriptExpr()

ExprResult Sema::CreateBuiltinArraySubscriptExpr ( Expr Base,
SourceLocation  LLoc,
Expr Idx,
SourceLocation  RLoc 
)

◆ CreateBuiltinBinOp()

ExprResult Sema::CreateBuiltinBinOp ( SourceLocation  OpLoc,
BinaryOperatorKind  Opc,
Expr LHSExpr,
Expr RHSExpr 
)

◆ CreateBuiltinUnaryOp()

ExprResult Sema::CreateBuiltinUnaryOp ( SourceLocation  OpLoc,
UnaryOperatorKind  Opc,
Expr InputExpr 
)

◆ CreateCapturedStmtRecordDecl()

RecordDecl * Sema::CreateCapturedStmtRecordDecl ( CapturedDecl *&  CD,
SourceLocation  Loc,
unsigned  NumParams 
)

◆ CreateGenericSelectionExpr()

ExprResult Sema::CreateGenericSelectionExpr ( SourceLocation  KeyLoc,
SourceLocation  DefaultLoc,
SourceLocation  RParenLoc,
Expr ControllingExpr,
ArrayRef< TypeSourceInfo *>  Types,
ArrayRef< Expr *>  Exprs 
)

◆ createImplicitModuleImportForErrorRecovery()

void Sema::createImplicitModuleImportForErrorRecovery ( SourceLocation  Loc,
Module Mod 
)

Create an implicit import of the given module at the given source location, for error recovery, if possible.

This routine is typically used when an entity found by name lookup is actually hidden within a module that we know about but the user has forgotten to import.

Definition at line 17077 of file SemaDecl.cpp.

References clang::DeclContext::addDecl(), clang::Module::AllVisible, clang::ImportDecl::CreateImplicit(), and clang::Decl::getTranslationUnitDecl().

◆ createLambdaClosureType()

CXXRecordDecl * Sema::createLambdaClosureType ( SourceRange  IntroducerRange,
TypeSourceInfo Info,
bool  KnownDependent,
LambdaCaptureDefault  CaptureDefault 
)

◆ createLambdaInitCaptureVarDecl()

VarDecl * Sema::createLambdaInitCaptureVarDecl ( SourceLocation  Loc,
QualType  InitCaptureType,
IdentifierInfo Id,
unsigned  InitStyle,
Expr Init 
)

Create a dummy variable within the declcontext of the lambda's call operator, for name lookup purposes for a lambda init capture.

CodeGen handles emission of lambda captures, ignoring these dummy variables appropriately.

Definition at line 794 of file SemaLambda.cpp.

◆ CreateMaterializeTemporaryExpr()

MaterializeTemporaryExpr * Sema::CreateMaterializeTemporaryExpr ( QualType  T,
Expr Temporary,
bool  BoundToLvalueReference 
)

◆ CreateOverloadedArraySubscriptExpr()

ExprResult Sema::CreateOverloadedArraySubscriptExpr ( SourceLocation  LLoc,
SourceLocation  RLoc,
Expr Base,
Expr Idx 
)

Definition at line 12618 of file SemaOverload.cpp.

◆ CreateOverloadedBinOp()

ExprResult Sema::CreateOverloadedBinOp ( SourceLocation  OpLoc,
BinaryOperatorKind  Opc,
const UnresolvedSetImpl Fns,
Expr LHS,
Expr RHS,
bool  PerformADL = true 
)

Create a binary operation that may resolve to an overloaded operator.

Parameters
OpLocThe location of the operator itself (e.g., '+').
OpcThe BinaryOperatorKind that describes this operator.
FnsThe set of non-member functions that will be considered by overload resolution. The caller needs to build this set based on the context using, e.g., LookupOverloadedOperatorName() and ArgumentDependentLookup(). This set should not contain any member functions; those will be added by CreateOverloadedBinOp().
LHSLeft-hand argument.
RHSRight-hand argument.

Definition at line 12341 of file SemaOverload.cpp.

References clang::BinaryOperator::getOverloadedOperator().

Referenced by BuildOverloadedBinOp().

◆ CreateOverloadedUnaryOp()

ExprResult Sema::CreateOverloadedUnaryOp ( SourceLocation  OpLoc,
UnaryOperatorKind  Opc,
const UnresolvedSetImpl Fns,
Expr Input,
bool  PerformADL = true 
)

Create a unary operation that may resolve to an overloaded operator.

Parameters
OpLocThe location of the operator itself (e.g., '*').
OpcThe UnaryOperatorKind that describes this operator.
FnsThe set of non-member functions that will be considered by overload resolution. The caller needs to build this set based on the context using, e.g., LookupOverloadedOperatorName() and ArgumentDependentLookup(). This set should not contain any member functions; those will be added by CreateOverloadedUnaryOp().
InputThe input argument.

Definition at line 12148 of file SemaOverload.cpp.

References clang::UnaryOperator::getOverloadedOperator(), and clang::OO_None.

◆ CreateParsedType()

ParsedType Sema::CreateParsedType ( QualType  T,
TypeSourceInfo TInfo 
)

Package the given type and TSI into a ParsedType.

Create a LocInfoType to hold the given QualType and TypeSourceInfo.

Definition at line 5674 of file SemaType.cpp.

References clang::Type::getTypeClass(), clang::OpaquePtr< QualType >::make(), and clang::TypeAlignment.

◆ CreatePropertyDecl()

ObjCPropertyDecl * Sema::CreatePropertyDecl ( Scope S,
ObjCContainerDecl CDecl,
SourceLocation  AtLoc,
SourceLocation  LParenLoc,
FieldDeclarator FD,
Selector  GetterSel,
SourceLocation  GetterNameLoc,
Selector  SetterSel,
SourceLocation  SetterNameLoc,
const bool  isReadWrite,
const unsigned  Attributes,
const unsigned  AttributesAsWritten,
QualType  T,
TypeSourceInfo TSI,
tok::ObjCKeywordKind  MethodImplKind,
DeclContext lexicalDC = nullptr 
)

Called by ActOnProperty and HandlePropertyInClassExtension to handle creating the ObjcPropertyDecl for a category or @interface.

Definition at line 565 of file SemaObjCProperty.cpp.

◆ CreateUnaryExprOrTypeTraitExpr() [1/2]

ExprResult Sema::CreateUnaryExprOrTypeTraitExpr ( TypeSourceInfo TInfo,
SourceLocation  OpLoc,
UnaryExprOrTypeTrait  ExprKind,
SourceRange  R 
)

Build a sizeof or alignof expression given a type operand.

Definition at line 3984 of file SemaExpr.cpp.

References clang::ExprError(), clang::Type::getAs(), clang::TypeSourceInfo::getType(), clang::Type::isDependentType(), and clang::Type::isVariablyModifiedType().

◆ CreateUnaryExprOrTypeTraitExpr() [2/2]

ExprResult Sema::CreateUnaryExprOrTypeTraitExpr ( Expr E,
SourceLocation  OpLoc,
UnaryExprOrTypeTrait  ExprKind 
)

Build a sizeof or alignof expression given an expression operand.

Definition at line 4029 of file SemaExpr.cpp.

◆ CUDADiagIfDeviceCode()

Sema::CUDADiagBuilder Sema::CUDADiagIfDeviceCode ( SourceLocation  Loc,
unsigned  DiagID 
)

Creates a CUDADiagBuilder that emits the diagnostic if the current context is "used as device code".

  • If CurContext is a host function, does not emit any diagnostics.
  • If CurContext is a device or global function, emits the diagnostics immediately.
  • If CurContext is a host device function and we are compiling for the device, creates a diagnostic which is emitted if and when we realize that the function will be codegen'ed.

Example usage:

// Variable-length arrays are not allowed in CUDA device code. if (CUDADiagIfDeviceCode(Loc, diag::err_cuda_vla) << CurrentCUDATarget()) return ExprError(); // Otherwise, continue parsing as normal.

Definition at line 696 of file SemaCUDA.cpp.

References CFT_Device, CFT_Global, CFT_HostDevice, clang::Sema::CUDADiagBuilder::CUDADiagBuilder(), CurContext, CurrentCUDATarget(), getLangOpts(), IsKnownEmitted(), clang::Sema::CUDADiagBuilder::K_Deferred, clang::Sema::CUDADiagBuilder::K_Immediate, clang::Sema::CUDADiagBuilder::K_ImmediateWithCallStack, and clang::Sema::CUDADiagBuilder::K_Nop.

◆ CUDADiagIfHostCode()

Sema::CUDADiagBuilder Sema::CUDADiagIfHostCode ( SourceLocation  Loc,
unsigned  DiagID 
)

◆ CUDASetLambdaAttrs()

void Sema::CUDASetLambdaAttrs ( CXXMethodDecl Method)

Set device or host device attributes on the given lambda operator() method.

CUDA lambdas declared inside device or global functions inherit the device attribute. Similarly, lambdas inside host device functions become host device themselves.

Definition at line 899 of file SemaCUDA.cpp.

References clang::Decl::addAttr(), CFT_Device, CFT_Global, CFT_HostDevice, Context, CurContext, getLangOpts(), clang::Decl::hasAttr(), IdentifyCUDATarget(), and MultiVersioning::Target.

◆ CurrentCUDATarget()

CUDAFunctionTarget clang::Sema::CurrentCUDATarget ( )
inline

Gets the CUDA target for the current context.

Definition at line 10077 of file Sema.h.

Referenced by CUDADiagIfDeviceCode(), and CUDADiagIfHostCode().

◆ CXXCheckConditionalOperands()

QualType Sema::CXXCheckConditionalOperands ( ExprResult Cond,
ExprResult LHS,
ExprResult RHS,
ExprValueKind VK,
ExprObjectKind OK,
SourceLocation  QuestionLoc 
)

◆ DeclApplyPragmaWeak()

void Sema::DeclApplyPragmaWeak ( Scope S,
NamedDecl ND,
WeakInfo W 
)

DeclApplyPragmaWeak - A declaration (maybe definition) needs #pragma weak applied to it, possibly with an alias.

Definition at line 6777 of file SemaDeclAttr.cpp.

◆ DeclareGlobalAllocationFunction()

void Sema::DeclareGlobalAllocationFunction ( DeclarationName  Name,
QualType  Return,
ArrayRef< QualType Params 
)

DeclareGlobalAllocationFunction - Declares a single implicit global allocation function if it doesn't already exist.

Definition at line 2748 of file SemaExprCXX.cpp.

Referenced by DeclareGlobalNewDelete().

◆ DeclareGlobalNewDelete()

void Sema::DeclareGlobalNewDelete ( )

DeclareGlobalNewDelete - Declare the global forms of operator new and delete.

These are:

// C++03:
void* operator new(std::size_t) throw(std::bad_alloc);
void* operator new[](std::size_t) throw(std::bad_alloc);
void operator delete(void *) throw();
void operator delete[](void *) throw();
// C++11:
void* operator new(std::size_t);
void* operator new[](std::size_t);
void operator delete(void *) noexcept;
void operator delete[](void *) noexcept;
// C++1y:
void* operator new(std::size_t);
void* operator new[](std::size_t);
void operator delete(void *) noexcept;
void operator delete[](void *) noexcept;
void operator delete(void *, std::size_t) noexcept;
void operator delete[](void *, std::size_t) noexcept;

Note that the placement and nothrow forms of new are not implicitly declared. Their use requires including <new>.

Definition at line 2645 of file SemaExprCXX.cpp.

References Context, clang::frontend::CPlusPlus11, clang::CXXRecordDecl::Create(), clang::EnumDecl::Create(), clang::ASTContext::DeclarationNames, DeclareGlobalAllocationFunction(), clang::IdentifierTable::get(), clang::DeclarationNameTable::getCXXOperatorName(), clang::Preprocessor::getIdentifierTable(), getLangOpts(), getOrCreateStdNamespace(), clang::ASTContext::getPointerType(), clang::ASTContext::getSizeType(), getStdAlignValT(), getStdBadAlloc(), clang::ASTContext::getTypeDeclType(), GlobalNewDeleteDeclared, PP, clang::Decl::setImplicit(), clang::EnumDecl::setIntegerType(), StdAlignValT, StdBadAlloc, clang::TTK_Class, and clang::ASTContext::VoidTy.

Referenced by FindAllocationFunctions(), and resolveBuiltinNewDeleteOverload().

◆ DeclareImplicitCopyAssignment()

CXXMethodDecl * Sema::DeclareImplicitCopyAssignment ( CXXRecordDecl ClassDecl)

Declare the implicit copy assignment operator for the given class.

Parameters
ClassDeclThe class declaration into which the implicit copy assignment operator will be added.
Returns
The implicitly-declared copy assignment operator.

Definition at line 11647 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::needsImplicitCopyAssignment().

◆ DeclareImplicitCopyConstructor()

CXXConstructorDecl * Sema::DeclareImplicitCopyConstructor ( CXXRecordDecl ClassDecl)

Declare the implicit copy constructor for the given class.

Parameters
ClassDeclThe class declaration into which the implicit copy constructor will be added.
Returns
The implicitly-declared copy constructor.

Definition at line 12343 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::needsImplicitCopyConstructor().

◆ DeclareImplicitDeductionGuides()

void Sema::DeclareImplicitDeductionGuides ( TemplateDecl Template,
SourceLocation  Loc 
)

Declare implicit deduction guides for a class template if we've not already done so.

Definition at line 1979 of file SemaTemplate.cpp.

References clang::Decl::getDeclContext(), clang::DeclContext::isDependentContext(), clang::Sema::InstantiatingTemplate::isInvalid(), and clang::DeclContext::lookup().

◆ DeclareImplicitDefaultConstructor()

CXXConstructorDecl * Sema::DeclareImplicitDefaultConstructor ( CXXRecordDecl ClassDecl)

Declare the implicit default constructor for the given class.

Parameters
ClassDeclThe class declaration into which the implicit default constructor will be added.
Returns
The implicitly-declared default constructor.

Definition at line 10777 of file SemaDeclCXX.cpp.

References defaultedSpecialMemberIsConstexpr(), and clang::CXXRecordDecl::needsImplicitDefaultConstructor().

Referenced by findTrivialSpecialMember().

◆ DeclareImplicitDestructor()

CXXDestructorDecl * Sema::DeclareImplicitDestructor ( CXXRecordDecl ClassDecl)

Declare the implicit destructor for the given class.

Parameters
ClassDeclThe class declaration into which the implicit destructor will be added.
Returns
The implicitly-declared destructor.

Definition at line 11058 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::needsImplicitDestructor().

Referenced by findTrivialSpecialMember().

◆ DeclareImplicitMoveAssignment()

CXXMethodDecl * Sema::DeclareImplicitMoveAssignment ( CXXRecordDecl ClassDecl)

Declare the implicit move assignment operator for the given class.

Parameters
ClassDeclThe Class declaration into which the implicit move assignment operator will be added.
Returns
The implicitly-declared move assignment operator, or NULL if it wasn't declared.

Definition at line 11972 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::needsImplicitMoveAssignment().

◆ DeclareImplicitMoveConstructor()

CXXConstructorDecl * Sema::DeclareImplicitMoveConstructor ( CXXRecordDecl ClassDecl)

Declare the implicit move constructor for the given class.

Parameters
ClassDeclThe Class declaration into which the implicit move constructor will be added.
Returns
The implicitly-declared move constructor, or NULL if it wasn't declared.

Definition at line 12479 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::needsImplicitMoveConstructor().

◆ DeclClonePragmaWeak()

NamedDecl * Sema::DeclClonePragmaWeak ( NamedDecl ND,
IdentifierInfo II,
SourceLocation  Loc 
)

DeclClonePragmaWeak - clone existing decl (maybe definition), #pragma weak needs a non-definition decl and source may not have one.

Definition at line 6731 of file SemaDeclAttr.cpp.

References clang::VarDecl::Create(), clang::FunctionDecl::Create(), clang::Type::getAs(), clang::SC_None, clang::DeclaratorDecl::setQualifierInfo(), and clang::ParmVarDecl::setScopeInfo().

◆ DecomposeUnqualifiedId()

void Sema::DecomposeUnqualifiedId ( const UnqualifiedId Id,
TemplateArgumentListInfo Buffer,
DeclarationNameInfo NameInfo,
const TemplateArgumentListInfo *&  TemplateArgs 
)

Decomposes the given name into a DeclarationNameInfo, its location, and possibly a list of template arguments.

If this produces template arguments, it is permitted to call DecomposeTemplateName.

This actually loses a lot of source location information for non-standard name kinds; we should consider preserving that in some way.

Definition at line 1716 of file SemaExpr.cpp.

◆ DeduceAutoType() [1/2]

Sema::DeduceAutoResult Sema::DeduceAutoType ( TypeSourceInfo AutoType,
Expr *&  Initializer,
QualType Result,
Optional< unsigned >  DependentDeductionDepth = None 
)

Definition at line 4355 of file SemaTemplateDeduction.cpp.

References clang::TypeSourceInfo::getTypeLoc().

Referenced by FinishForRangeVarDecl().

◆ DeduceAutoType() [2/2]

Sema::DeduceAutoResult Sema::DeduceAutoType ( TypeLoc  Type,
Expr *&  Init,
QualType Result,
Optional< unsigned >  DependentDeductionDepth = None 
)

Deduce the type for an auto type-specifier (C++11 [dcl.spec.auto]p6)

Note that this is done even if the initializer is dependent. (This is necessary to support partial ordering of templates using 'auto'.) A dependent type will be produced when deducing from a dependent type.

Parameters
Typethe type pattern using the auto type-specifier.
Initthe initializer for the variable whose type is to be deduced.
Resultif type deduction was successful, this will be set to the deduced type.
DependentDeductionDepthSet if we should permit deduction in dependent cases. This is necessary for template partial ordering with 'auto' template parameters. The value specified is the template parameter depth at which we should perform 'auto' deduction.

Definition at line 4401 of file SemaTemplateDeduction.cpp.

References Depth, Diag(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Type::getAs(), clang::Stmt::getLocStart(), clang::Expr::getType(), clang::TypeLoc::getType(), clang::Type::isDependentType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Type::isNonOverloadPlaceholderType(), clang::QualType::isNull(), and clang::Expr::isTypeDependent().

◆ deduceClosureReturnType()

void Sema::deduceClosureReturnType ( sema::CapturingScopeInfo CSI)

◆ DeduceFunctionTypeFromReturnExpr()

bool Sema::DeduceFunctionTypeFromReturnExpr ( FunctionDecl FD,
SourceLocation  ReturnLoc,
Expr *&  RetExpr,
AutoType AT 
)

◆ DeduceReturnType()

bool Sema::DeduceReturnType ( FunctionDecl FD,
SourceLocation  Loc,
bool  Diagnose = true 
)

◆ DeduceTemplateArguments() [1/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( ClassTemplatePartialSpecializationDecl Partial,
const TemplateArgumentList TemplateArgs,
sema::TemplateDeductionInfo Info 
)

Perform template argument deduction to determine whether the given template arguments match the given class template partial specialization per C++ [temp.class.spec.match].

Definition at line 2838 of file SemaTemplateDeduction.cpp.

References DeduceTemplateArguments(), FinishTemplateArgumentDeduction(), clang::ClassTemplateSpecializationDecl::getTemplateArgs(), clang::ClassTemplatePartialSpecializationDecl::getTemplateParameters(), clang::Sema::SFINAETrap::hasErrorOccurred(), clang::Decl::isInvalidDecl(), clang::TemplateParameterList::size(), TDK_SubstitutionFailure, and Unevaluated.

Referenced by LookupDirect().

◆ DeduceTemplateArguments() [2/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( VarTemplatePartialSpecializationDecl Partial,
const TemplateArgumentList TemplateArgs,
sema::TemplateDeductionInfo Info 
)

Perform template argument deduction to determine whether the given template arguments match the given variable template partial specialization per C++ [temp.class.spec.match].

Definition at line 2881 of file SemaTemplateDeduction.cpp.

References DeduceTemplateArguments(), FinishTemplateArgumentDeduction(), clang::VarTemplateSpecializationDecl::getTemplateArgs(), clang::VarTemplatePartialSpecializationDecl::getTemplateParameters(), clang::Sema::SFINAETrap::hasErrorOccurred(), clang::Decl::isInvalidDecl(), clang::TemplateParameterList::size(), TDK_SubstitutionFailure, and Unevaluated.

◆ DeduceTemplateArguments() [3/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( FunctionTemplateDecl FunctionTemplate,
TemplateArgumentListInfo ExplicitTemplateArgs,
ArrayRef< Expr *>  Args,
FunctionDecl *&  Specialization,
sema::TemplateDeductionInfo Info,
bool  PartialOverloading,
llvm::function_ref< bool(ArrayRef< QualType >)>  CheckNonDependent 
)

Perform template argument deduction from a function call (C++ [temp.deduct.call]).

Parameters
FunctionTemplatethe function template for which we are performing template argument deduction.
ExplicitTemplateArgsthe explicit template arguments provided for this call.
Argsthe function call arguments
Specializationif template argument deduction was successful, this will be set to the function template specialization produced by template argument deduction.
Infothe argument will be updated to provide additional information about template argument deduction.
CheckNonDependentA callback to invoke to check conversions for non-dependent parameters, between deduction and substitution, per DR1391. If this returns true, substitution will be skipped and we return TDK_NonDependentConversionFailure. The callback is passed the parameter types (after substituting explicit template arguments).
Returns
the result of template argument deduction.

Definition at line 3794 of file SemaTemplateDeduction.cpp.

References clang::Type::getAs(), getFirstInnerIndex(), clang::FunctionDecl::getMinRequiredArguments(), clang::FunctionDecl::getNumParams(), clang::FunctionTemplateDecl::getTemplatedDecl(), clang::TemplateDecl::getTemplateParameters(), clang::ValueDecl::getType(), clang::Decl::isInvalidDecl(), clang::FunctionProtoType::isTemplateVariadic(), and clang::FunctionProtoType::isVariadic().

◆ DeduceTemplateArguments() [4/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( FunctionTemplateDecl FunctionTemplate,
TemplateArgumentListInfo ExplicitTemplateArgs,
QualType  ArgFunctionType,
FunctionDecl *&  Specialization,
sema::TemplateDeductionInfo Info,
bool  IsAddressOfFunction = false 
)

Deduce template arguments when taking the address of a function template (C++ [temp.deduct.funcaddr]) or matching a specialization to a template.

Parameters
FunctionTemplatethe function template for which we are performing template argument deduction.
ExplicitTemplateArgsthe explicitly-specified template arguments.
ArgFunctionTypethe function type that will be used as the "argument" type (A) when performing template argument deduction from the function template's function type. This type may be NULL, if there is no argument type to compare against, in C++0x [temp.arg.explicit]p3.
Specializationif template argument deduction was successful, this will be set to the function template specialization produced by template argument deduction.
Infothe argument will be updated to provide additional information about template argument deduction.
IsAddressOfFunctionIf true, we are deducing as part of taking the address of a function template per [temp.deduct.funcaddr] and [over.over]. If false, we are looking up a function template specialization based on its signature, per [temp.deduct.decl].
Returns
the result of template argument deduction.

Definition at line 4015 of file SemaTemplateDeduction.cpp.

References clang::Type::getContainedAutoType(), clang::FunctionDecl::getReturnType(), clang::FunctionTemplateDecl::getTemplatedDecl(), clang::TemplateDecl::getTemplateParameters(), clang::ValueDecl::getType(), clang::Decl::isInvalidDecl(), clang::TemplateParameterList::size(), and Unevaluated.

◆ DeduceTemplateArguments() [5/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( FunctionTemplateDecl ConversionTemplate,
QualType  ToType,
CXXConversionDecl *&  Specialization,
sema::TemplateDeductionInfo Info 
)

Deduce template arguments for a templated conversion function (C++ [temp.deduct.conv]) and, if successful, produce a conversion function template specialization.

Definition at line 4133 of file SemaTemplateDeduction.cpp.

References clang::CXXConversionDecl::getConversionType(), clang::FunctionTemplateDecl::getTemplatedDecl(), clang::Decl::isInvalidDecl(), and P.

◆ DeduceTemplateArguments() [6/6]

Sema::TemplateDeductionResult Sema::DeduceTemplateArguments ( FunctionTemplateDecl FunctionTemplate,
TemplateArgumentListInfo ExplicitTemplateArgs,
FunctionDecl *&  Specialization,
sema::TemplateDeductionInfo Info,
bool  IsAddressOfFunction = false 
)

Deduce template arguments for a function template when there is nothing to deduce against (C++0x [temp.arg.explicit]p3).

Parameters
FunctionTemplatethe function template for which we are performing template argument deduction.
ExplicitTemplateArgsthe explicitly-specified template arguments.
Specializationif template argument deduction was successful, this will be set to the function template specialization produced by template argument deduction.
Infothe argument will be updated to provide additional information about template argument deduction.
IsAddressOfFunctionIf true, we are deducing as part of taking the address of a function template in a context where we do not have a target type, per [over.over]. If false, we are looking up a function template specialization based on its signature, which only happens when deducing a function parameter type from an argument that is a template-id naming a function template specialization.
Returns
the result of template argument deduction.

Definition at line 4271 of file SemaTemplateDeduction.cpp.

References Context, DeduceTemplateArguments(), clang::ASTContext::getAutoType(), clang::ASTContext::getDeducedTemplateSpecializationType(), clang::AutoType::getKeyword(), clang::TypeSpecTypeLoc::getNameLoc(), clang::DeducedTemplateSpecializationType::getTemplateName(), clang::InheritingConcreteTypeLoc< Base, Derived, TypeClass >::getTypePtr(), clang::QualType::isNull(), clang::TypeLocBuilder::push(), Replacement, and clang::TypeSpecTypeLoc::setNameLoc().

◆ DeduceTemplateSpecializationFromInitializer()

QualType Sema::DeduceTemplateSpecializationFromInitializer ( TypeSourceInfo TInfo,
const InitializedEntity Entity,
const InitializationKind Kind,
MultiExprArg  Init 
)

◆ DeduceVariableDeclarationType()

bool Sema::DeduceVariableDeclarationType ( VarDecl VDecl,
bool  DirectInit,
Expr Init 
)

◆ deduceVarTypeFromInitializer()

QualType Sema::deduceVarTypeFromInitializer ( VarDecl VDecl,
DeclarationName  Name,
QualType  Type,
TypeSourceInfo TSI,
SourceRange  Range,
bool  DirectInit,
Expr Init 
)

Definition at line 10767 of file SemaDecl.cpp.

◆ DefaultArgumentPromotion()

ExprResult Sema::DefaultArgumentPromotion ( Expr E)

DefaultArgumentPromotion (C99 6.5.2.2p6).

Used for function calls that do not have a prototype. Arguments that have type float or __fp16 are promoted to double. All other argument types are converted by UsualUnaryConversions().

Definition at line 711 of file SemaExpr.cpp.

◆ DefaultFunctionArrayConversion()

ExprResult Sema::DefaultFunctionArrayConversion ( Expr E,
bool  Diagnose = true 
)

DefaultFunctionArrayConversion (C99 6.3.2.1p3, C99 6.3.2.1p4).

Definition at line 419 of file SemaExpr.cpp.

Referenced by IgnoredValueConversions(), isNullPointerValueTemplateArgument(), and LookupMemberExpr().

◆ DefaultFunctionArrayLvalueConversion()

ExprResult Sema::DefaultFunctionArrayLvalueConversion ( Expr E,
bool  Diagnose = true 
)

◆ DefaultLvalueConversion()

ExprResult Sema::DefaultLvalueConversion ( Expr E)

◆ DefaultSynthesizeProperties() [1/2]

void Sema::DefaultSynthesizeProperties ( Scope S,
ObjCImplDecl IMPDecl,
ObjCInterfaceDecl IDecl,
SourceLocation  AtEnd 
)

DefaultSynthesizeProperties - This routine default synthesizes all properties which must be synthesized in the class's @implementation.

Default synthesizes all properties which must be synthesized in class's @implementation.

Definition at line 1834 of file SemaObjCProperty.cpp.

◆ DefaultSynthesizeProperties() [2/2]

void Sema::DefaultSynthesizeProperties ( Scope S,
Decl D,
SourceLocation  AtEnd 
)

Definition at line 1927 of file SemaObjCProperty.cpp.

◆ DefaultVariadicArgumentPromotion()

ExprResult Sema::DefaultVariadicArgumentPromotion ( Expr E,
VariadicCallType  CT,
FunctionDecl FDecl 
)

DefaultVariadicArgumentPromotion - Like DefaultArgumentPromotion, but will create a trap if the resulting type is not a POD type.

Definition at line 862 of file SemaExpr.cpp.

◆ DefineImplicitCopyAssignment()

void Sema::DefineImplicitCopyAssignment ( SourceLocation  CurrentLocation,
CXXMethodDecl MethodDecl 
)

◆ DefineImplicitCopyConstructor()

void Sema::DefineImplicitCopyConstructor ( SourceLocation  CurrentLocation,
CXXConstructorDecl Constructor 
)

◆ DefineImplicitDefaultConstructor()

void Sema::DefineImplicitDefaultConstructor ( SourceLocation  CurrentLocation,
CXXConstructorDecl Constructor 
)

◆ DefineImplicitDestructor()

void Sema::DefineImplicitDestructor ( SourceLocation  CurrentLocation,
CXXDestructorDecl Destructor 
)

◆ DefineImplicitLambdaToBlockPointerConversion()

void Sema::DefineImplicitLambdaToBlockPointerConversion ( SourceLocation  CurrentLoc,
CXXConversionDecl Conv 
)

Define the "body" of the conversion from a lambda object to a block pointer.

This routine doesn't actually define a sensible body; rather, it fills in the initialization expression needed to copy the lambda object into the block, and IR generation actually generates the real body of the block pointer conversion.

Definition at line 12664 of file SemaDeclCXX.cpp.

References clang::ImplicitCastExpr::Create(), clang::Decl::getLocation(), clang::CXXMethodDecl::getParent(), clang::CXXRecordDecl::isGenericLambda(), and clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

◆ DefineImplicitLambdaToFunctionPointerConversion()

void Sema::DefineImplicitLambdaToFunctionPointerConversion ( SourceLocation  CurrentLoc,
CXXConversionDecl Conv 
)

Define the "body" of the conversion from a lambda object to a function pointer.

This routine doesn't actually define a sensible body; rather, it fills in the initialization expression needed to copy the lambda object into the block, and IR generation actually generates the real body of the block pointer conversion.

Definition at line 12606 of file SemaDeclCXX.cpp.

References clang::FunctionDecl::getDescribedFunctionTemplate(), clang::CXXMethodDecl::getParent(), clang::FunctionDecl::getReturnType(), clang::FunctionDecl::getTemplateSpecializationArgs(), clang::Decl::isInvalidDecl(), clang::Type::isUndeducedType(), and clang::Decl::markUsed().

◆ DefineImplicitMoveAssignment()

void Sema::DefineImplicitMoveAssignment ( SourceLocation  CurrentLocation,
CXXMethodDecl MethodDecl 
)

◆ DefineImplicitMoveConstructor()

void Sema::DefineImplicitMoveConstructor ( SourceLocation  CurrentLocation,
CXXConstructorDecl Constructor 
)

◆ DefineInheritingConstructor()

void Sema::DefineInheritingConstructor ( SourceLocation  UseLoc,
CXXConstructorDecl Constructor 
)

◆ DefineUsedVTables()

bool Sema::DefineUsedVTables ( )

Define all of the vtables that have been used in this translation unit and reference any virtual members used by those vtables.

Returns
true if any work was done, false otherwise.

Definition at line 14883 of file SemaDeclCXX.cpp.

Referenced by ActOnEndOfTranslationUnit().

◆ Diag() [1/2]

SemaDiagnosticBuilder clang::Sema::Diag ( SourceLocation  Loc,
unsigned  DiagID 
)
inline

Emit a diagnostic.

Definition at line 1281 of file Sema.h.

References Depth, Diag(), and clang::DiagnosticsEngine::Report().

Referenced by ActOnComment(), ActOnCompatibilityAlias(), ActOnCXXDelete(), ActOnCXXNestedNameSpecifierDecltype(), ActOnCXXNew(), ActOnCXXThis(), ActOnEndOfTranslationUnit(), ActOnForwardClassDeclaration(), ActOnOpenMPThreadprivateDirective(), ActOnPragmaAttributePop(), ActOnPragmaAttributePush(), ActOnPragmaMSVtorDisp(), ActOnPragmaOptionsAlign(), ActOnPragmaPack(), ActOnPragmaVisibility(), ActOnPseudoDestructorExpr(), ActOnStartCategoryImplementation(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), ActOnStartCXXMemberReference(), ActOnStartOfObjCMethodDef(), ActOnStartProtocolInterface(), AnalyzeBitFieldAssignment(), BuildCXXNoexceptExpr(), BuildCXXTypeConstructExpr(), BuildFloatingLiteral(), BuildImplicitMemberInitializer(), BuildNonArrayForRange(), BuildObjCExceptionDecl(), BuildPseudoDestructorExpr(), CheckAllocatedType(), checkAllowedCUDAInitializer(), CheckARCMethodDecl(), checkArithmeticBinOpPointerOperands(), checkArithmeticNull(), CheckArrow(), CheckBuiltinTargetSupport(), checkCancelRegion(), checkCondition(), checkConditionalBlockPointerCompatibility(), checkConditionalPointerCompatibility(), checkConditionalVoidType(), CheckConditionVariable(), CheckConflictingOverridingMethod(), CheckConstexprCtorInitializer(), CheckConstexprDeclStmt(), CheckConvertedConstantExpression(), checkCUDATargetOverload(), CheckCXX98CompatAccessibleCopy(), CheckCXXThisCapture(), CheckDeclInExpr(), checkDeclInTargetContext(), checkDirectCallValidity(), checkEnumComparison(), CheckEquivalentExceptionSpec(), CheckExceptionSpecSubset(), CheckExplicitInstantiationScope(), CheckFallThroughForBody(), checkForMultipleExportedDefaultConstructors(), CheckForReference(), checkFoundationAPI(), checkGrainsizeNumTasksClauses(), CheckIdentityFieldAssignment(), checkIfClauses(), CheckImplementationIvars(), CheckIncrementDecrementOperand(), checkIndirectCopyRestoreSource(), CheckIndirectionOperand(), checkInitMethod(), checkIntToPointerCast(), CheckKeyForObjCARCConversion(), checkLiteralOperatorTemplateParameterList(), checkMapClauseExpressionBase(), checkMapConflicts(), checkMappableExpressionList(), checkMemberDecomposition(), checkMoreSpecializedThanPrimary(), checkMoveAssignmentForRepeatedMove(), CheckMoveOnConstruction(), checkNestingOfRegions(), CheckObjCBridgeCFCast(), CheckObjCBridgeNSCast(), CheckObjCCollectionLiteralElement(), checkObjCCollectionLiteralElement(), CheckObjCDeclScope(), CheckObjCMethodOverride(), checkObjCMethodX86VectorTypes(), checkObjCPointerIntrospection(), CheckObjCPropertyAttributes(), checkOpenCLConditionVector(), checkOpenCLEnqueueIntType(), checkOpenCLEnqueueVariadicArgs(), checkOpenCLPipeArg(), checkOpenCLPipePacketType(), checkOpenMPLoop(), CheckOperatorDeleteDeclaration(), CheckOperatorNewDeclaration(), CheckOperatorNewDeleteDeclarationScope(), CheckOperatorNewDeleteTypes(), checkPointerIntegerMismatch(), CheckPointerToMemberOperands(), checkRecursiveFunction(), checkReductionClauseWithNogroup(), checkScheduleModifiers(), checkSimdlenSafelenSpecified(), CheckSpecifiedExceptionType(), CheckTemplateArgumentAddressOfObjectOrFunction(), CheckTemplateArgumentIsCompatibleWithParameter(), CheckTemplateArgumentPointerToMember(), checkTemplatePartialSpecialization(), CheckTemplateSpecializationScope(), checkTrivialClassMembers(), checkTrivialSubobjectCall(), checkTupleLikeDecomposition(), checkTypeMappable(), checkUnsafeAssignLiteral(), checkUnsafeAssignObject(), checkVAStartABI(), checkVAStartIsInVariadicFunction(), checkVectorResult(), checkVectorShift(), CheckVirtualDtorCall(), clang::Sema::InstantiatingTemplate::Clear(), ConvertDeducedTemplateArgument(), CopyObject(), CXXCheckConditionalOperands(), clang::Sema::BoundTypeDiagnoser< Ts >::diagnose(), DiagnoseAdditionInShift(), diagnoseArithmeticOnFunctionPointer(), diagnoseArithmeticOnNullPointer(), diagnoseArithmeticOnTwoFunctionPointers(), diagnoseArithmeticOnTwoVoidPointers(), diagnoseArithmeticOnVoidPointer(), diagnoseArrayStarInParamType(), diagnoseAutoDeductionFailure(), DiagnoseBadFunctionCast(), DiagnoseBadShiftValues(), DiagnoseBaseOrMemInitializerOrder(), DiagnoseBitwiseOpInBitwiseOp(), DiagnoseBitwisePrecedence(), DiagnoseCallingConvCast(), DiagnoseCastOfObjCSEL(), DiagnoseCastQual(), DiagnoseClassExtensionDupMethods(), DiagnoseConditionalPrecedence(), diagnoseDiagnoseIfAttrsWith(), diagnoseDistinctPointerComparison(), DiagnoseDuplicateIvars(), DiagnoseForRangeConstVariableCopies(), diagnoseFunctionPointerToVoidComparison(), DiagnoseIndirectJumpStmt(), diagnoseInstanceReference(), diagnoseLogicalNotOnLHSofCheck(), DiagnoseMismatchedNewDelete(), diagnoseMissingArgument(), DiagnoseNarrowingInInitList(), DiagnoseNonDefaultPragmaPack(), diagnoseNullableToNonnullConversion(), DiagnoseNullConversion(), diagnoseNullResettableSynthesizedSetters(), diagnoseObjCARCConversion(), diagnoseObjCLiteralComparison(), DiagnoseOwningPropertyGetterSynthesis(), diagnosePointerIncompatibility(), DiagnosePropertyAccessorMismatch(), DiagnosePropertyMismatch(), DiagnoseQualifiedMemberReference(), DiagnoseRecursiveConstFields(), diagnoseRetainCycle(), DiagnoseSelfAssignment(), DiagnoseShiftCompare(), diagnoseStringPlusChar(), diagnoseStringPlusInt(), DiagnoseSwitchLabelsFallthrough(), DiagnoseTemplateParameterListArityMismatch(), DiagnoseTypeArgsAndProtocols(), diagnoseUnavailableAlignedAllocation(), DiagnoseUninitializedReference(), DiagnoseUninitializedUse(), DiagnoseUnterminatedPragmaAttribute(), DiagnoseUnterminatedPragmaPack(), DiagUninitUse(), emitAndClearUnusedLocalTypedefWarnings(), EmitCurrentDiagnostic(), EmitDiagForCXXThrowInNonThrowingFunc(), EmitDiagnosticForLogicalAndInLogicalOr(), emitNullabilityConsistencyWarning(), EvaluateArrayTypeTrait(), FindAllocationFunctions(), FindConditionalOverload(), FindProtocolDeclaration(), FinishForRangeVarDecl(), FinishOpenMPLinearClause(), FinishOverloadedCallExpr(), flushDiagnostics(), getCastAwayConstnessCastKind(), GetDeclSpecTypeForDeclarator(), getFunctionStorageClass(), getPrivateItem(), HandleAddressSpaceTypeAttribute(), HandleExtVectorTypeAttr(), handleFunctionTypeAttr(), handleMSPointerTypeQualifierAttr(), HandleNeonVectorTypeAttr(), handleObjCGCTypeAttr(), handleObjCOwnershipTypeAttr(), HandleOpenCLAccessAttr(), HandleVectorSizeAttr(), inferCUDATargetForImplicitSpecialMember(), clang::Sema::InheritedConstructorInfo::InheritedConstructorInfo(), clang::TemplateDeclInstantiator::InstantiateClassTemplatePartialSpecialization(), clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), InstantiateInClassInitializer(), clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization(), isNonNegativeIntegerValue(), isNullPointerValueTemplateArgument(), clang::sema::AnalysisBasedWarnings::IssueWarnings(), isTupleLike(), LookupMemberExpr(), LookupMemberExprInRecord(), LookupMethodInReceiverType(), LookupStdInitializerList(), lookupStdTypeTraitMember(), MatchTemplateParameterKind(), maybeAddCUDAHostDeviceAttrs(), OpenCLArithmeticConversions(), OpenCLConvertScalarsToVectors(), clang::InitializationSequence::Perform(), PerformImplicitConversion(), PerformOpenMPImplicitIntegerConversion(), PopFunctionScopeInfo(), PopPragmaVisibility(), ProcessPropertyDecl(), clang::TreeTransform< Derived >::RebuildDependentNameType(), ReferenceDllExportedMembers(), reportOriginalDsa(), RequireCompleteDeclContext(), resolveAllocationOverload(), resolveBuiltinNewDeleteOverload(), ResolveExceptionSpec(), SearchForReturnInStmt(), SemaBuiltinCommitRWPipe(), SemaBuiltinCpuIs(), SemaBuiltinCpuSupports(), SemaBuiltinPipePackets(), SemaBuiltinReserveRWPipe(), SemaBuiltinRWPipe(), SemaOpenCLBuiltinEnqueueKernel(), SemaOpenCLBuiltinToAddr(), SubstParmVarDecl(), SuggestInitializationFixit(), SuggestParentheses(), TryReinterpretCast(), TryStaticCast(), UnifySection(), clang::TemplateDeclInstantiator::VisitVarDecl(), clang::TemplateDeclInstantiator::VisitVarTemplateSpecializationDecl(), warnAboutAmbiguousFunction(), warnAboutRedundantParens(), warnBracedScalarInit(), WarnConflictingTypedMethods(), and WarnExactTypedMethods().

◆ Diag() [2/2]

Sema::SemaDiagnosticBuilder Sema::Diag ( SourceLocation  Loc,
const PartialDiagnostic PD 
)

Emit a partial diagnostic.

Definition at line 1312 of file Sema.cpp.

◆ DiagnoseAbsenceOfOverrideControl()

void Sema::DiagnoseAbsenceOfOverrideControl ( NamedDecl D)

◆ DiagnoseAbstractType()

void Sema::DiagnoseAbstractType ( const CXXRecordDecl RD)

◆ DiagnoseAlwaysNonNullPointer()

void Sema::DiagnoseAlwaysNonNullPointer ( Expr E,
Expr::NullPointerConstantKind  NullKind,
bool  IsEqual,
SourceRange  Range 
)

Diagnose pointers that are always non-null.

Parameters
Ethe expression containing the pointer
NullKindNPCK_NotNull if E is a cast to bool, otherwise, E is compared to a null pointer
IsEqualTrue when the comparison is equal to a null pointer
RangeExtra SourceRange to highlight in the diagnostic

Definition at line 11136 of file SemaChecking.cpp.

References CheckForReference(), Diag(), clang::SourceRange::getBegin(), clang::Expr::getExprLoc(), clang::Stmt::getSourceRange(), clang::Expr::IgnoreImpCasts(), IsInAnyMacroBody(), clang::SourceLocation::isMacroID(), clang::Expr::NPCK_NotNull, and SM.

◆ DiagnoseAmbiguousLookup()

void Sema::DiagnoseAmbiguousLookup ( LookupResult Result)

Produce a diagnostic describing the ambiguity that resulted from name lookup.

Parameters
ResultThe result of the ambiguous lookup to be diagnosed.

Definition at line 2345 of file SemaLookup.cpp.

References clang::LookupResult::isAmbiguous().

Referenced by clang::LookupResult::setFindLocalExtern().

◆ diagnoseARCUnbridgedCast()

void Sema::diagnoseARCUnbridgedCast ( Expr e)

Given that we saw an expression with the ARCUnbridgedCastTy placeholder type, complain bitterly.

Definition at line 4251 of file SemaExprObjC.cpp.

References ACTC_retainable, clang::cast(), clang::ast_matchers::castExpr, classifyTypeForARCConversion(), diagnoseObjCARCConversion(), clang::QualType::getNonReferenceType(), clang::Expr::hasPlaceholderType(), and clang::Expr::IgnoreParens().

◆ diagnoseArgDependentDiagnoseIfAttrs()

bool Sema::diagnoseArgDependentDiagnoseIfAttrs ( const FunctionDecl Function,
const Expr ThisArg,
ArrayRef< const Expr *>  Args,
SourceLocation  Loc 
)

Emit diagnostics for the diagnose_if attributes on Function, ignoring any non-ArgDependent DiagnoseIfAttrs.

Argument-dependent diagnose_if attributes should be checked each time a function is used as a direct callee of a function call.

Returns true if any errors were emitted.

Definition at line 6377 of file SemaOverload.cpp.

References diagnoseDiagnoseIfAttrsWith().

◆ diagnoseArgIndependentDiagnoseIfAttrs()

bool Sema::diagnoseArgIndependentDiagnoseIfAttrs ( const NamedDecl ND,
SourceLocation  Loc 
)

Emit diagnostics for the diagnose_if attributes on Function, ignoring any ArgDependent DiagnoseIfAttrs.

Argument-independent diagnose_if attributes should be checked on every use of a function.

Returns true if any errors were emitted.

Definition at line 6395 of file SemaOverload.cpp.

References diagnoseDiagnoseIfAttrsWith().

◆ DiagnoseAssignmentAsCondition()

void Sema::DiagnoseAssignmentAsCondition ( Expr E)

DiagnoseAssignmentAsCondition - Given that an expression is being used as a boolean condition, warn if it's an assignment.

Definition at line 15691 of file SemaExpr.cpp.

◆ DiagnoseAssignmentEnum()

void Sema::DiagnoseAssignmentEnum ( QualType  DstType,
QualType  SrcType,
Expr SrcExpr 
)

DiagnoseAssignmentEnum - Warn if assignment to enum is a constant integer not in the range of enum values.

Definition at line 1224 of file SemaStmt.cpp.

References clang::Type::getAs(), and clang::Expr::getExprLoc().

◆ DiagnoseAssignmentResult()

bool Sema::DiagnoseAssignmentResult ( AssignConvertType  ConvTy,
SourceLocation  Loc,
QualType  DstType,
QualType  SrcType,
Expr SrcExpr,
AssignmentAction  Action,
bool Complained = nullptr 
)

DiagnoseAssignmentResult - Emit a diagnostic, if required, for the assignment conversion type specified by ConvTy.

This returns true if the conversion was invalid or false if the conversion was accepted.

Definition at line 13716 of file SemaExpr.cpp.

References clang::QualType::getUnqualifiedType(), clang::Type::isArrayType(), clang::Type::isFunctionPointerType(), isInvalid(), clang::FixItHint::isNull(), clang::Type::isObjCObjectPointerType(), and clang::ConversionFixItGenerator::tryToFixConversion().

Referenced by LookupMethodInReceiverType(), and PerformImplicitConversion().

◆ DiagnoseAutoDeductionFailure()

void Sema::DiagnoseAutoDeductionFailure ( VarDecl VDecl,
Expr Init 
)

◆ DiagnoseAvailabilityOfDecl()

void Sema::DiagnoseAvailabilityOfDecl ( NamedDecl D,
ArrayRef< SourceLocation Locs,
const ObjCInterfaceDecl UnknownObjCClass,
bool  ObjCPropertyAccess,
bool  AvoidPartialAvailabilityChecks = false 
)

◆ DiagnoseClassExtensionDupMethods()

void Sema::DiagnoseClassExtensionDupMethods ( ObjCCategoryDecl CAT,
ObjCInterfaceDecl ID 
)

DiagnoseClassExtensionDupMethods - Check for duplicate declaration of a class method in its extension.

Definition at line 1736 of file SemaDeclObjC.cpp.

References Diag(), clang::Decl::getLocation(), clang::ObjCMethodDecl::isInstanceMethod(), MatchTwoMethodDeclarations(), and clang::ObjCContainerDecl::methods().

◆ DiagnoseClassNameShadow()

bool Sema::DiagnoseClassNameShadow ( DeclContext DC,
DeclarationNameInfo  NameInfo 
)

DiagnoseClassNameShadow - Implement C++ [class.mem]p13: If T is the name of a class, then each of the following shall have a name different from T:

  • every static data member of class T;
  • every member function of class T
  • every member of class T that is itself a type;
    Returns
    true if the declaration name violates these rules.

Definition at line 5226 of file SemaDecl.cpp.

◆ DiagnoseCommaOperator()

void Sema::DiagnoseCommaOperator ( const Expr LHS,
SourceLocation  Loc 
)

◆ DiagnoseConditionalForNull()

bool Sema::DiagnoseConditionalForNull ( Expr LHSExpr,
Expr RHSExpr,
SourceLocation  QuestionLoc 
)

Emit a specialized diagnostic when one expression is a null pointer constant and the other is not a pointer.

Returns true if a diagnostic is emitted.

Definition at line 6333 of file SemaExpr.cpp.

References clang::Expr::isNullPointerConstant().

Referenced by CXXCheckConditionalOperands(), and FindConditionalOverload().

◆ DiagnoseDuplicateIvars()

void Sema::DiagnoseDuplicateIvars ( ObjCInterfaceDecl ID,
ObjCInterfaceDecl SID 
)

DiagnoseDuplicateIvars - Check for duplicate ivars in the entire class at the start of @implementation.

This becomes necesssary because class extension can add ivars to a class in random order which will not be known until class's @implementation is seen.

Definition at line 3711 of file SemaDeclObjC.cpp.

References Diag(), clang::Decl::getLocation(), clang::ObjCInterfaceDecl::ivars(), and clang::ObjCInterfaceDecl::lookupInstanceVariable().

◆ DiagnoseEmptyLookup()

bool Sema::DiagnoseEmptyLookup ( Scope S,
CXXScopeSpec SS,
LookupResult R,
std::unique_ptr< CorrectionCandidateCallback CCC,
TemplateArgumentListInfo ExplicitTemplateArgs = nullptr,
ArrayRef< Expr *>  Args = None,
TypoExpr **  Out = nullptr 
)

Diagnose an empty lookup.

Returns
false if new lookup candidates were found

Definition at line 1775 of file SemaExpr.cpp.

Referenced by BuildRecoveryCallExpr().

◆ DiagnoseEmptyLoopBody()

void Sema::DiagnoseEmptyLoopBody ( const Stmt S,
const Stmt PossibleBody 
)

Warn if a for/while loop statement S, which is followed by PossibleBody, has a suspicious null statement as a body.

Definition at line 12924 of file SemaChecking.cpp.

References Diag(), clang::Stmt::getLocStart(), clang::NullStmt::getSemiLoc(), and ShouldDiagnoseEmptyStmtBody().

◆ DiagnoseEmptyStmtBody()

void Sema::DiagnoseEmptyStmtBody ( SourceLocation  StmtLoc,
const Stmt Body,
unsigned  DiagID 
)

Emit DiagID if statement located on StmtLoc has a suspicious null statement as a Body, and it is located on the same line.

This helps prevent bugs due to typos, such as: if (condition); do_stuff();

Definition at line 12903 of file SemaChecking.cpp.

References Diag(), clang::NullStmt::getSemiLoc(), and ShouldDiagnoseEmptyStmtBody().

◆ DiagnoseEqualityWithExtraParens()

void Sema::DiagnoseEqualityWithExtraParens ( ParenExpr ParenE)

Redundant parentheses over an equality comparison can indicate that the user intended an assignment used as condition.

Definition at line 15749 of file SemaExpr.cpp.

References clang::ParenExpr::getLocStart(), clang::SourceLocation::isInvalid(), clang::SourceLocation::isMacroID(), and clang::Expr::isTypeDependent().

◆ diagnoseEquivalentInternalLinkageDeclarations()

void Sema::diagnoseEquivalentInternalLinkageDeclarations ( SourceLocation  Loc,
const NamedDecl D,
ArrayRef< const NamedDecl *>  Equiv 
)

◆ diagnoseExprIntendedAsTemplateName()

void Sema::diagnoseExprIntendedAsTemplateName ( Scope S,
ExprResult  TemplateName,
SourceLocation  Less,
SourceLocation  Greater 
)

Definition at line 499 of file SemaTemplate.cpp.

◆ DiagnoseFunctionSpecifiers()

void Sema::DiagnoseFunctionSpecifiers ( const DeclSpec DS)

◆ DiagnoseHiddenVirtualMethods()

void Sema::DiagnoseHiddenVirtualMethods ( CXXMethodDecl MD)

Diagnose methods which overload virtual methods in a base class without overriding any.

Definition at line 7728 of file SemaDeclCXX.cpp.

References Diag(), clang::Decl::getLocation(), and clang::Decl::isInvalidDecl().

◆ diagnoseIgnoredQualifiers()

void Sema::diagnoseIgnoredQualifiers ( unsigned  DiagID,
unsigned  Quals,
SourceLocation  FallbackLoc,
SourceLocation  ConstQualLoc = SourceLocation(),
SourceLocation  VolatileQualLoc = SourceLocation(),
SourceLocation  RestrictQualLoc = SourceLocation(),
SourceLocation  AtomicQualLoc = SourceLocation(),
SourceLocation  UnalignedQualLoc = SourceLocation() 
)

Definition at line 2663 of file SemaType.cpp.

Referenced by diagnoseRedundantReturnTypeQualifiers().

◆ DiagnoseInvalidJumps()

void Sema::DiagnoseInvalidJumps ( Stmt Body)

Definition at line 919 of file JumpDiagnostics.cpp.

◆ DiagnoseMisalignedMembers()

void Sema::DiagnoseMisalignedMembers ( )

Diagnoses the current set of gathered accesses.

This typically happens at full expression level. The set is cleared after emitting the diagnostics.

Definition at line 13491 of file SemaChecking.cpp.

References Diag(), clang::NamedDecl::getName(), and clang::Decl::getSourceRange().

◆ DiagnoseMissingDesignatedInitOverrides()

void Sema::DiagnoseMissingDesignatedInitOverrides ( const ObjCImplementationDecl ImplD,
const ObjCInterfaceDecl IFD 
)

◆ diagnoseMissingImport() [1/2]

void Sema::diagnoseMissingImport ( SourceLocation  Loc,
NamedDecl Decl,
MissingImportKind  MIK,
bool  Recover = true 
)

Diagnose that the specified declaration needs to be visible but isn't, and suggest a module import that would resolve the problem.

Definition at line 5056 of file SemaLookup.cpp.

References getDefinitionToImport(), clang::Decl::getLocation(), and clang::ASTContext::getModulesWithMergedDefinition().

Referenced by computeDeclContext(), diagnoseMissingArgument(), and RequireCompleteDeclContext().

◆ diagnoseMissingImport() [2/2]

void Sema::diagnoseMissingImport ( SourceLocation  Loc,
NamedDecl Decl,
SourceLocation  DeclLoc,
ArrayRef< Module *>  Modules,
MissingImportKind  MIK,
bool  Recover 
)

Definition at line 5086 of file SemaLookup.cpp.

References Diag().

◆ diagnoseMissingTemplateArguments()

void Sema::diagnoseMissingTemplateArguments ( TemplateName  Name,
SourceLocation  Loc 
)

Definition at line 4060 of file SemaTemplate.cpp.

Referenced by getVarTemplateSpecialization().

◆ DiagnoseMultipleMethodInGlobalPool()

void Sema::DiagnoseMultipleMethodInGlobalPool ( SmallVectorImpl< ObjCMethodDecl *> &  Methods,
Selector  Sel,
SourceRange  R,
bool  receiverIdOrClass 
)

◆ DiagnoseMultipleUserDefinedConversion()

bool Sema::DiagnoseMultipleUserDefinedConversion ( Expr From,
QualType  ToType 
)

◆ DiagnoseNonDefaultPragmaPack()

void Sema::DiagnoseNonDefaultPragmaPack ( PragmaPackDiagnoseKind  Kind,
SourceLocation  IncludeLoc 
)

◆ DiagnoseNontrivial()

void Sema::DiagnoseNontrivial ( const CXXRecordDecl RD,
CXXSpecialMember  CSM 
)

Diagnose why the specified class does not have a trivial special member of the given kind.

Definition at line 7458 of file SemaDeclCXX.cpp.

◆ diagnoseNullableToNonnullConversion()

void Sema::diagnoseNullableToNonnullConversion ( QualType  DstType,
QualType  SrcType,
SourceLocation  Loc 
)

Warn if we're implicitly casting from a _Nullable pointer type to a _Nonnull one.

Definition at line 428 of file Sema.cpp.

References Context, Diag(), clang::Type::getNullability(), clang::NonNull, and clang::Nullable.

Referenced by PerformImplicitConversion().

◆ diagnoseNullResettableSynthesizedSetters()

void Sema::diagnoseNullResettableSynthesizedSetters ( const ObjCImplDecl impDecl)

◆ DiagnoseOwningPropertyGetterSynthesis()

void Sema::DiagnoseOwningPropertyGetterSynthesis ( const ObjCImplementationDecl D)

◆ DiagnosePropertyAccessorMismatch()

bool Sema::DiagnosePropertyAccessorMismatch ( ObjCPropertyDecl PD,
ObjCMethodDecl Getter,
SourceLocation  Loc 
)

◆ DiagnosePropertyMismatch()

void Sema::DiagnosePropertyMismatch ( ObjCPropertyDecl Property,
ObjCPropertyDecl SuperProperty,
const IdentifierInfo Name,
bool  OverridingProtocolProperty 
)

◆ diagnoseQualifiedDeclaration()

bool Sema::diagnoseQualifiedDeclaration ( CXXScopeSpec SS,
DeclContext DC,
DeclarationName  Name,
SourceLocation  Loc,
bool  IsTemplateId 
)

Diagnose a declaration whose declarator-id has the given nested-name-specifier.

Parameters
SSThe nested-name-specifier of the declarator-id.
DCThe declaration context to which the nested-name-specifier resolves.
NameThe name of the entity being declared.
LocThe location of the name of the entity being declared.
IsTemplateIdWhether the name is a (simple-)template-id, and thus we're declaring an explicit / partial specialization / instantiation.
Returns
true if we cannot safely recover from this error, false otherwise.

Definition at line 5257 of file SemaDecl.cpp.

◆ DiagnoseReturnInConstructorExceptionHandler()

void Sema::DiagnoseReturnInConstructorExceptionHandler ( CXXTryStmt TryBlock)

Definition at line 14542 of file SemaDeclCXX.cpp.

◆ DiagnoseSelfMove()

void Sema::DiagnoseSelfMove ( const Expr LHSExpr,
const Expr RHSExpr,
SourceLocation  OpLoc 
)

◆ DiagnoseSentinelCalls()

void Sema::DiagnoseSentinelCalls ( NamedDecl D,
SourceLocation  Loc,
ArrayRef< Expr *>  Args 
)

DiagnoseSentinelCalls - This routine checks whether a call or message-send is to a declaration with the sentinel attribute, and if so, it checks that the requirements of the sentinel are satisfied.

Definition at line 318 of file SemaExpr.cpp.

References clang::Type::castAs(), Diag(), clang::Type::getAs(), clang::Decl::getAttr(), clang::NamedDecl::getDeclName(), clang::Decl::getLocation(), clang::Type::getPointeeType(), and clang::Expr::isValueDependent().

◆ DiagnoseShadowingLambdaDecls()

void Sema::DiagnoseShadowingLambdaDecls ( const sema::LambdaScopeInfo LSI)

Diagnose shadowing for variables shadowed in the lambda record LambdaRD when these variables are captured by the lambda.

Definition at line 7150 of file SemaDecl.cpp.

References computeShadowedDeclKind(), Diag(), getCaptureLocation(), clang::Decl::getDeclContext(), clang::Decl::getLocation(), clang::SourceLocation::isInvalid(), and clang::sema::LambdaScopeInfo::ShadowingDecls.

◆ DiagnoseSizeOfParametersAndReturnValue()

void Sema::DiagnoseSizeOfParametersAndReturnValue ( ArrayRef< ParmVarDecl *>  Parameters,
QualType  ReturnTy,
NamedDecl D 
)

Diagnose whether the size of parameters or return value of a function or obj-c method definition is pass-by-value and larger than a specified threshold.

Definition at line 12441 of file SemaDecl.cpp.

References clang::Type::isDependentType(), and clang::QualType::isPODType().

◆ DiagnoseTemplateParameterShadow()

void Sema::DiagnoseTemplateParameterShadow ( SourceLocation  Loc,
Decl PrevDecl 
)

DiagnoseTemplateParameterShadow - Produce a diagnostic complaining that the template parameter 'PrevDecl' is being shadowed by a new declaration at location Loc.

Returns true to indicate that this is an error, and false otherwise.

Definition at line 758 of file SemaTemplate.cpp.

References Diag(), clang::Decl::getLocation(), and clang::Decl::isTemplateParameter().

◆ DiagnoseTypeArgsAndProtocols()

void Sema::DiagnoseTypeArgsAndProtocols ( IdentifierInfo ProtocolId,
SourceLocation  ProtocolLoc,
IdentifierInfo TypeArgId,
SourceLocation  TypeArgLoc,
bool  SelectProtocolFirst = false 
)

Definition at line 1385 of file SemaDeclObjC.cpp.

References Diag().

◆ diagnoseTypo() [1/2]

void Sema::diagnoseTypo ( const TypoCorrection Correction,
const PartialDiagnostic TypoDiag,
bool  ErrorRecovery = true 
)

◆ diagnoseTypo() [2/2]

void Sema::diagnoseTypo ( const TypoCorrection Correction,
const PartialDiagnostic TypoDiag,
const PartialDiagnostic PrevNote,
bool  ErrorRecovery = true 
)

Diagnose a successfully-corrected typo.

Separated from the correction itself to allow external validation of the result, etc.

Parameters
CorrectionThe result of performing typo correction.
TypoDiagThe diagnostic to produce. This will have the corrected string added to it (and usually also a fixit).
PrevNoteA note to use when indicating the location of the entity to which we are correcting. Will have the correction string added to it.
ErrorRecoveryIf true (the default), the caller is going to recover from the typo as if the corrected string had been typed. In this case, PDiag must be an error, and we will attach a fixit to it.

Definition at line 5167 of file SemaLookup.cpp.

References clang::FixItHint::CreateReplacement(), Diag(), clang::TypoCorrection::getAsString(), clang::SourceRange::getBegin(), clang::TypoCorrection::getCorrectionRange(), clang::PartialDiagnostic::getDiagID(), clang::TypoCorrection::getExtraDiagnostics(), clang::TypoCorrection::getFoundDecl(), clang::TypoCorrection::getQuoted(), clang::TypoCorrection::isKeyword(), and clang::TypoCorrection::requiresImport().

◆ DiagnoseUnexpandedParameterPack() [1/6]

bool Sema::DiagnoseUnexpandedParameterPack ( SourceLocation  Loc,
TypeSourceInfo T,
UnexpandedParameterPackContext  UPPC 
)

If the given type contains an unexpanded parameter pack, diagnose the error.

Parameters
LocThe source location where a diagnostc should be emitted.
TThe type that is being checked for unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 368 of file SemaTemplateVariadic.cpp.

References clang::Type::containsUnexpandedParameterPack(), DiagnoseUnexpandedParameterPacks(), clang::TypeSourceInfo::getType(), and clang::TypeSourceInfo::getTypeLoc().

Referenced by ActOnFinishFullExpr().

◆ DiagnoseUnexpandedParameterPack() [2/6]

bool Sema::DiagnoseUnexpandedParameterPack ( Expr E,
UnexpandedParameterPackContext  UPPC = UPPC_Expression 
)

If the given expression contains an unexpanded parameter pack, diagnose the error.

Parameters
EThe expression that is being checked for unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 384 of file SemaTemplateVariadic.cpp.

References clang::Expr::containsUnexpandedParameterPack(), DiagnoseUnexpandedParameterPacks(), and clang::Stmt::getLocStart().

◆ DiagnoseUnexpandedParameterPack() [3/6]

bool Sema::DiagnoseUnexpandedParameterPack ( const CXXScopeSpec SS,
UnexpandedParameterPackContext  UPPC 
)

If the given nested-name-specifier contains an unexpanded parameter pack, diagnose the error.

Parameters
SSThe nested-name-specifier that is being checked for unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 398 of file SemaTemplateVariadic.cpp.

References clang::NestedNameSpecifier::containsUnexpandedParameterPack(), DiagnoseUnexpandedParameterPacks(), clang::SourceRange::getBegin(), clang::CXXScopeSpec::getRange(), and clang::CXXScopeSpec::getScopeRep().

◆ DiagnoseUnexpandedParameterPack() [4/6]

bool Sema::DiagnoseUnexpandedParameterPack ( const DeclarationNameInfo NameInfo,
UnexpandedParameterPackContext  UPPC 
)

◆ DiagnoseUnexpandedParameterPack() [5/6]

bool Sema::DiagnoseUnexpandedParameterPack ( SourceLocation  Loc,
TemplateName  Template,
UnexpandedParameterPackContext  UPPC 
)

If the given template name contains an unexpanded parameter pack, diagnose the error.

Parameters
LocThe location of the template name.
TemplateThe template name that is being checked for unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 451 of file SemaTemplateVariadic.cpp.

References clang::TemplateName::containsUnexpandedParameterPack(), DiagnoseUnexpandedParameterPacks(), and clang::TemplateName::isNull().

◆ DiagnoseUnexpandedParameterPack() [6/6]

bool Sema::DiagnoseUnexpandedParameterPack ( TemplateArgumentLoc  Arg,
UnexpandedParameterPackContext  UPPC 
)

If the given template argument contains an unexpanded parameter pack, diagnose the error.

Parameters
ArgThe template argument that is being checked for unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 465 of file SemaTemplateVariadic.cpp.

References clang::TemplateArgument::containsUnexpandedParameterPack(), DiagnoseUnexpandedParameterPacks(), clang::TemplateArgumentLoc::getArgument(), clang::TemplateArgumentLoc::getLocation(), and clang::TemplateArgument::isNull().

◆ DiagnoseUnexpandedParameterPacks()

bool Sema::DiagnoseUnexpandedParameterPacks ( SourceLocation  Loc,
UnexpandedParameterPackContext  UPPC,
ArrayRef< UnexpandedParameterPack Unexpanded 
)

Diagnose unexpanded parameter packs.

Diagnose all of the unexpanded parameter packs in the given vector.

Parameters
LocThe location at which we should emit the diagnostic.
UPPCThe context in which we are diagnosing unexpanded parameter packs.
Unexpandedthe set of unexpanded parameter packs.
Returns
true if an error occurred, false otherwise.

Definition at line 291 of file SemaTemplateVariadic.cpp.

References clang::sema::FunctionScopeInfo::CompoundScopes.

◆ DiagnoseUnguardedAvailabilityViolations()

void Sema::DiagnoseUnguardedAvailabilityViolations ( Decl FD)

Issue any -Wunguarded-availability warnings in FD.

Definition at line 7799 of file SemaDeclAttr.cpp.

References clang::Decl::getAsFunction().

◆ DiagnoseUnimplementedProperties()

void Sema::DiagnoseUnimplementedProperties ( Scope S,
ObjCImplDecl IMPDecl,
ObjCContainerDecl CDecl,
bool  SynthesizeProperties 
)

DiagnoseUnimplementedProperties - This routine warns on those properties which must be implemented by this implementation.

Definition at line 1977 of file SemaObjCProperty.cpp.

◆ DiagnoseUninstantiableTemplate()

bool Sema::DiagnoseUninstantiableTemplate ( SourceLocation  PointOfInstantiation,
NamedDecl Instantiation,
bool  InstantiatedFromMember,
const NamedDecl Pattern,
const NamedDecl PatternDef,
TemplateSpecializationKind  TSK,
bool  Complain = true 
)

Determine whether we would be unable to instantiate this template (because it either has no definition, or is in the process of being instantiated).

Definition at line 659 of file SemaTemplate.cpp.

References Definition, and clang::Decl::isInvalidDecl().

Referenced by InstantiateClass(), and InstantiateEnum().

◆ DiagnoseUnknownTemplateName()

bool Sema::DiagnoseUnknownTemplateName ( const IdentifierInfo II,
SourceLocation  IILoc,
Scope S,
const CXXScopeSpec SS,
TemplateTy SuggestedTemplate,
TemplateNameKind SuggestedKind 
)

Definition at line 289 of file SemaTemplate.cpp.

◆ DiagnoseUnknownTypeName()

void Sema::DiagnoseUnknownTypeName ( IdentifierInfo *&  II,
SourceLocation  IILoc,
Scope S,
CXXScopeSpec SS,
ParsedType SuggestedType,
bool  IsTemplateName = false 
)

Definition at line 654 of file SemaDecl.cpp.

◆ DiagnoseUnterminatedPragmaAttribute()

void Sema::DiagnoseUnterminatedPragmaAttribute ( )

Definition at line 676 of file SemaAttr.cpp.

References Diag(), and PragmaAttributeStack.

Referenced by ActOnEndOfTranslationUnit().

◆ DiagnoseUnterminatedPragmaPack()

void Sema::DiagnoseUnterminatedPragmaPack ( )

◆ DiagnoseUnusedBackingIvarInAccessor()

void Sema::DiagnoseUnusedBackingIvarInAccessor ( Scope S,
const ObjCImplementationDecl ImplD 
)

DiagnoseUnusedBackingIvarInAccessor - Issue an 'unused' warning if ivar which backs the property is not used in the property's accessor.

Definition at line 5031 of file SemaDeclObjC.cpp.

◆ DiagnoseUnusedDecl()

void Sema::DiagnoseUnusedDecl ( const NamedDecl D)

DiagnoseUnusedDecl - Emit warnings about declarations that are not used unless they are marked attr(unused).

Definition at line 1761 of file SemaDecl.cpp.

References GenerateFixForUnusedDecl(), and ShouldDiagnoseUnusedDecl().

◆ DiagnoseUnusedExprResult()

void Sema::DiagnoseUnusedExprResult ( const Stmt S)

DiagnoseUnusedExprResult - If the statement passed in is an expression whose result is unused, warn.

Definition at line 200 of file SemaStmt.cpp.

Referenced by CheckCommaOperands().

◆ DiagnoseUnusedLambdaCapture()

bool Sema::DiagnoseUnusedLambdaCapture ( SourceRange  CaptureRange,
const sema::Capture From 
)

◆ DiagnoseUnusedNestedTypedefs()

void Sema::DiagnoseUnusedNestedTypedefs ( const RecordDecl D)

◆ DiagnoseUnusedParameters()

void Sema::DiagnoseUnusedParameters ( ArrayRef< ParmVarDecl *>  Parameters)

Diagnose any unused parameters in the given sequence of ParmVarDecl pointers.

Definition at line 12426 of file SemaDecl.cpp.

References Diag(), and clang::Parameter.

◆ DiagnoseUseOfDecl()

bool Sema::DiagnoseUseOfDecl ( NamedDecl D,
ArrayRef< SourceLocation Locs,
const ObjCInterfaceDecl UnknownObjCClass = nullptr,
bool  ObjCPropertyAccess = false,
bool  AvoidPartialAvailabilityChecks = false 
)

Determine whether the use of this declaration is valid, and emit any corresponding diagnostics.

This routine diagnoses various problems with referencing declarations that can occur when using a declaration. For example, it might warn if a deprecated or unavailable declaration is being used, or produce an error (and return true) if a C++0x deleted function is being used.

Returns
true if there was an error (this declaration cannot be referenced), false otherwise.

Definition at line 205 of file SemaExpr.cpp.

References clang::frontend::CPlusPlus, clang::frontend::CPlusPlus14, Diag(), DiagnoseUnusedOfDecl(), diagnoseUseOfInternalDeclInInlineFunction(), clang::ObjCPropertyDecl::findPropertyDecl(), clang::Decl::getCanonicalDecl(), clang::NamedDecl::getDeclName(), and clang::Decl::getLocation().

Referenced by ActOnCXXDelete(), diagnoseUseOfProtocols(), FindProtocolDeclaration(), FinishOverloadedCallExpr(), LookupMemberExpr(), LookupMethodInReceiverType(), clang::InitializationSequence::Perform(), PerformConstructorInitialization(), and PerformImplicitConversion().

◆ DiagnoseUseOfUnimplementedSelectors()

void Sema::DiagnoseUseOfUnimplementedSelectors ( )

Definition at line 4946 of file SemaDeclObjC.cpp.

Referenced by ActOnEndOfTranslationUnit().

◆ diagnoseZeroToNullptrConversion()

void Sema::diagnoseZeroToNullptrConversion ( CastKind  Kind,
const Expr E 
)

Warn when implicitly casting 0 to nullptr.

Definition at line 442 of file Sema.cpp.

◆ DiagRuntimeBehavior()

bool Sema::DiagRuntimeBehavior ( SourceLocation  Loc,
const Stmt Statement,
const PartialDiagnostic PD 
)

Conditionally issue a diagnostic based on the current evaluation context.

Emit a diagnostic that describes an effect on the run-time behavior of the program being compiled.

Parameters
StatementIf Statement is non-null, delay reporting the diagnostic until the function body is parsed, and then do a basic reachability analysis to determine if the statement is reachable. If it is unreachable, the diagnostic will not be emitted.

This routine emits the given diagnostic when the code currently being type-checked is "potentially evaluated", meaning that there is a possibility that the code will actually be executable. Code in sizeof() expressions, code used only during overload resolution, etc., are not potentially evaluated. This routine will suppress such diagnostics or, in the absolutely nutty case of potentially potentially evaluated expressions (C++ typeid), queue the diagnostic to potentially emit it later.

This routine should be used for all diagnostics that describe the run-time behavior of a program, such as passing a non-POD value through an ellipsis. Failure to do so will likely result in spurious diagnostics or failures during overload resolution or within sizeof/alignof/typeof/typeid.

Definition at line 15605 of file SemaExpr.cpp.

References Diag().

Referenced by AnalyzeComparison(), CheckNonNullArgument(), DiagnoseBadDivideOrRemainderValues(), DiagnoseBadShiftValues(), DiagnoseImpCast(), and diagnoseTautologicalComparison().

◆ DiscardCleanupsInEvaluationContext()

void Sema::DiscardCleanupsInEvaluationContext ( )

◆ DiscardMisalignedMemberAddress()

void Sema::DiscardMisalignedMemberAddress ( const Type T,
Expr E 
)

This function checks if the expression is in the sef of potentially misaligned members and it is converted to some pointer type T with lower or equal alignment requirements.

If so it removes it. This is used when we do not want to diagnose such misaligned access (e.g. in conversions to void*).

Definition at line 13504 of file SemaChecking.cpp.

References clang::Expr::IgnoreParens(), clang::Type::isIntegerType(), and clang::Type::isPointerType().

Referenced by clang::InitializationSequence::Perform().

◆ emitAndClearUnusedLocalTypedefWarnings()

void Sema::emitAndClearUnusedLocalTypedefWarnings ( )

◆ EmitCurrentDiagnostic()

void Sema::EmitCurrentDiagnostic ( unsigned  DiagID)

◆ EmitRelatedResultTypeNote()

void Sema::EmitRelatedResultTypeNote ( const Expr E)

If the given expression involves a message send to a method with a related result type, emit a note describing what happened.

Definition at line 1479 of file SemaExprObjC.cpp.

Referenced by emitBadConversionNotes(), and PerformImplicitConversion().

◆ EmitRelatedResultTypeNoteForReturn()

void Sema::EmitRelatedResultTypeNoteForReturn ( QualType  destType)

Given that we had incompatible pointer types in a return statement, check whether we're in a method with a related result type, and if so, emit a note describing what happened.

Definition at line 1450 of file SemaExprObjC.cpp.

References clang::ObjCMethodDecl::hasRelatedResultType().

Referenced by emitBadConversionNotes().

◆ EndOpenMPClause()

void Sema::EndOpenMPClause ( )

End analysis of clauses.

Definition at line 1551 of file SemaOpenMP.cpp.

References DSAStack, and clang::OMPC_unknown.

◆ EndOpenMPDSABlock()

void Sema::EndOpenMPDSABlock ( Stmt CurDirective)

Called on end of data sharing attribute block.

Definition at line 1555 of file SemaOpenMP.cpp.

References buildDeclRefExpr(), buildVarDecl(), clang::C, DSAStack, FinishOpenMPLinearClause(), clang::ValueDecl::getType(), and clang::Decl::isInvalidDecl().

◆ EnterDeclaratorContext()

void Sema::EnterDeclaratorContext ( Scope S,
DeclContext DC 
)

EnterDeclaratorContext - Used when we must lookup names in the context of a declarator's nested name specifier.

Definition at line 1244 of file SemaDecl.cpp.

◆ EraseUnwantedCUDAMatches()

void Sema::EraseUnwantedCUDAMatches ( const FunctionDecl Caller,
SmallVectorImpl< std::pair< DeclAccessPair, FunctionDecl *>> &  Matches 
)

Finds a function in Matches with highest calling priority from Caller context and erases all functions with lower calling priority.

Definition at line 214 of file SemaCUDA.cpp.

◆ EvaluateImplicitExceptionSpec()

void Sema::EvaluateImplicitExceptionSpec ( SourceLocation  Loc,
CXXMethodDecl MD 
)

Evaluate the implicit exception specification for a defaulted special member function.

Definition at line 6412 of file SemaDeclCXX.cpp.

References clang::Type::castAs(), computeImplicitExceptionSpec(), clang::EST_Unevaluated, clang::CXXMethodDecl::getCanonicalDecl(), clang::FunctionProtoType::getExceptionSpecType(), and clang::ValueDecl::getType().

Referenced by ResolveExceptionSpec().

◆ ExitDeclaratorContext()

void Sema::ExitDeclaratorContext ( Scope S)

Definition at line 1273 of file SemaDecl.cpp.

◆ ExtractUnqualifiedFunctionType()

QualType Sema::ExtractUnqualifiedFunctionType ( QualType  PossiblyAFunctionType)

Definition at line 10873 of file SemaOverload.cpp.

References clang::Type::getAs(), and clang::Type::getPointeeType().

Referenced by IsStandardConversion().

◆ FillInlineAsmIdentifierInfo()

void Sema::FillInlineAsmIdentifierInfo ( Expr Res,
llvm::InlineAsmIdentifierInfo &  Info 
)

◆ FilterAcceptableTemplateNames()

void Sema::FilterAcceptableTemplateNames ( LookupResult R,
bool  AllowFunctionTemplates = true 
)

◆ FilterLookupForScope()

void Sema::FilterLookupForScope ( LookupResult R,
DeclContext Ctx,
Scope S,
bool  ConsiderLinkage,
bool  AllowInlineNamespace 
)

Filters out lookup results that don't fall within the given scope as determined by isDeclInScope.

Definition at line 1429 of file SemaDecl.cpp.

◆ FinalizeDeclaration()

void Sema::FinalizeDeclaration ( Decl ThisDecl)

FinalizeDeclaration - called by ParseDeclarationAfterDeclarator to perform any semantic actions necessary after any initializer has been attached.

Definition at line 11945 of file SemaDecl.cpp.

References clang::Decl::addAttr(), clang::Decl::hasAttr(), clang::VarDecl::hasGlobalStorage(), and clang::VarDecl::isThisDeclarationADefinition().

Referenced by FinishForRangeVarDecl().

◆ FinalizeDeclaratorGroup()

Sema::DeclGroupPtrTy Sema::FinalizeDeclaratorGroup ( Scope S,
const DeclSpec DS,
ArrayRef< Decl *>  Group 
)

Definition at line 12130 of file SemaDecl.cpp.

◆ FinalizeVarWithDestructor()

void Sema::FinalizeVarWithDestructor ( VarDecl VD,
const RecordType DeclInitType 
)

◆ FindAllocationFunctions()

bool Sema::FindAllocationFunctions ( SourceLocation  StartLoc,
SourceRange  Range,
AllocationFunctionScope  NewScope,
AllocationFunctionScope  DeleteScope,
QualType  AllocType,
bool  IsArray,
bool PassAlignment,
MultiExprArg  PlaceArgs,
FunctionDecl *&  OperatorNew,
FunctionDecl *&  OperatorDelete,
bool  Diagnose = true 
)

◆ FindAssociatedClassesAndNamespaces()

void Sema::FindAssociatedClassesAndNamespaces ( SourceLocation  InstantiationLoc,
ArrayRef< Expr *>  Args,
AssociatedNamespaceSet AssociatedNamespaces,
AssociatedClassSet AssociatedClasses 
)

Find the associated classes and namespaces for argument-dependent lookup for a call with the given set of arguments.

This routine computes the sets of associated classes and associated namespaces searched by argument-dependent lookup (C++ [basic.lookup.argdep]) for a given set of arguments.

Definition at line 2773 of file SemaLookup.cpp.

References clang::Expr::getType().

◆ FindCompositeObjCPointerType()

QualType Sema::FindCompositeObjCPointerType ( ExprResult LHS,
ExprResult RHS,
SourceLocation  QuestionLoc 
)

FindCompositeObjCPointerType - Helper method to find composite type of two objective-c pointer types of the two input expressions.

Definition at line 6969 of file SemaExpr.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get(), and clang::Type::isObjCClassType().

Referenced by CXXCheckConditionalOperands().

◆ FindCompositePointerType() [1/2]

QualType Sema::FindCompositePointerType ( SourceLocation  Loc,
Expr *&  E1,
Expr *&  E2,
bool  ConvertArgs = true 
)

Find a merged pointer type and convert the two expressions to it.

This finds the composite pointer type (or member pointer type) for E1 and E2 according to C++1z 5p14. It converts both expressions to this type and returns it. It does not emit diagnostics.

Parameters
LocThe location of the operator requiring these two expressions to be converted to the composite pointer type.
ConvertArgsIf false, do not convert E1 and E2 to the target type.

Definition at line 6058 of file SemaExprCXX.cpp.

References Context, clang::frontend::CPlusPlus, clang::FunctionProtoType::ExtProtoInfo::ExceptionSpec, clang::FunctionProtoType::ExtProtoInfo::ExtInfo, clang::Type::getAs(), clang::MemberPointerType::getClass(), clang::QualType::getCVRQualifiers(), clang::ASTContext::getFunctionType(), getLangOpts(), clang::FunctionType::ExtInfo::getNoReturn(), clang::PointerType::getPointeeType(), clang::MemberPointerType::getPointeeType(), clang::Expr::getType(), ImpCastExprToType(), clang::Type::isAnyPointerType(), clang::Type::isMemberPointerType(), clang::Expr::isNullPointerConstant(), clang::Type::isNullPtrType(), mergeExceptionSpecs(), clang::Expr::NPC_ValueDependentIsNull, and clang::FunctionType::ExtInfo::withNoReturn().

Referenced by convertPointersToCompositeType(), and CXXCheckConditionalOperands().

◆ FindCompositePointerType() [2/2]

QualType clang::Sema::FindCompositePointerType ( SourceLocation  Loc,
ExprResult E1,
ExprResult E2,
bool  ConvertArgs = true 
)
inline

Definition at line 9631 of file Sema.h.

References clang::ActionResult< PtrTy, CompressInvalid >::get().

◆ FindDeallocationFunction()

bool Sema::FindDeallocationFunction ( SourceLocation  StartLoc,
CXXRecordDecl RD,
DeclarationName  Name,
FunctionDecl *&  Operator,
bool  Diagnose = true 
)

Definition at line 2867 of file SemaExprCXX.cpp.

Referenced by ActOnCXXDelete().

◆ FindDeallocationFunctionForDestructor()

FunctionDecl * Sema::FindDeallocationFunctionForDestructor ( SourceLocation  StartLoc,
CXXRecordDecl RD 
)

Definition at line 2850 of file SemaExprCXX.cpp.

◆ findFailedBooleanCondition()

std::pair< Expr *, std::string > Sema::findFailedBooleanCondition ( Expr Cond,
bool  AllowTopLevelCond 
)

Find the failed Boolean condition within a given Boolean constant expression, and describe it with a string.

Parameters
AllowTopLevelCondWhether to allow the result to be the complete top-level condition.

Definition at line 3044 of file SemaTemplate.cpp.

References collectConjunctionTerms(), ConstantEvaluated, clang::Expr::IgnoreParenImpCasts(), and lookThroughRangesV3Condition().

◆ FindFirstQualifierInScope()

NamedDecl * Sema::FindFirstQualifierInScope ( Scope S,
NestedNameSpecifier NNS 
)

If the given nested-name-specifier begins with a bare identifier (e.g., Base::), perform name lookup for that identifier as a nested-name-specifier within the given scope, and return the result of that name lookup.

Definition at line 357 of file SemaCXXScopeSpec.cpp.

◆ FindHiddenVirtualMethods()

void Sema::FindHiddenVirtualMethods ( CXXMethodDecl MD,
SmallVectorImpl< CXXMethodDecl *> &  OverloadedMethods 
)

Check if a method overloads virtual methods in a base class without overriding any.

Definition at line 7687 of file SemaDeclCXX.cpp.

References clang::NamedDecl::getDeclName(), and clang::DeclarationName::isIdentifier().

◆ findInheritingConstructor()

CXXConstructorDecl * Sema::findInheritingConstructor ( SourceLocation  Loc,
CXXConstructorDecl BaseCtor,
ConstructorUsingShadowDecl Shadow 
)

Given a derived-class using shadow declaration for a constructor and the correspnding base class constructor, find or create the implicit synthesized derived class constructor to use for this initialization.

Find or create the fake constructor we synthesize to model constructing an object of a derived class via a constructor of a base class.

Definition at line 10890 of file SemaDeclCXX.cpp.

References clang::Decl::getLocation(), and clang::ConstructorUsingShadowDecl::getParent().

Referenced by clang::Sema::InheritedConstructorInfo::findConstructorForBase(), and PerformConstructorInitialization().

◆ FindInstantiatedContext()

DeclContext * Sema::FindInstantiatedContext ( SourceLocation  Loc,
DeclContext DC,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Finds the instantiation of the given declaration context within the current instantiation.

Returns
NULL if there was an error

Definition at line 4855 of file SemaTemplateInstantiateDecl.cpp.

Referenced by clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), and clang::TemplateDeclInstantiator::VisitFunctionDecl().

◆ FindInstantiatedDecl()

NamedDecl * Sema::FindInstantiatedDecl ( SourceLocation  Loc,
NamedDecl D,
const MultiLevelTemplateArgumentList TemplateArgs,
bool  FindingInstantiatedContext = false 
)

Find the instantiation of the given declaration within the current instantiation.

This routine is intended to be used when D is a declaration referenced from within a template, that needs to mapped into the corresponding declaration within an instantiation. For example, given:

template<typename T>
struct X {
enum Kind {
KnownValue = sizeof(T)
};
bool getKind() const { return KnownValue; }
};
template struct X<int>;

In the instantiation of X<int>::getKind(), we need to map the EnumConstantDecl for KnownValue (which refers to X<T>::<Kind>::KnownValue) to its instantiation (X<int>::<Kind>::KnownValue). FindInstantiatedDecl performs this mapping from within the instantiation of X<int>.

Definition at line 4889 of file SemaTemplateInstantiateDecl.cpp.

References clang::TemplateArgumentListInfo::addArgument(), clang::TemplateSpecializationType::anyDependentTemplateArguments(), Diag(), clang::DeclContext::Equals(), clang::Type::getAsCXXRecordDecl(), clang::ClassTemplateDecl::getCanonicalDecl(), clang::Decl::getDeclContext(), clang::MultiLevelTemplateArgumentList::getInnermost(), clang::DeclContext::getParent(), clang::TemplateDecl::getTemplateParameters(), clang::DeclContext::isDependentContext(), clang::DeclContext::isFileContext(), clang::DeclContext::isFunctionOrMethod(), isInstantiationOf(), clang::Decl::isInvalidDecl(), clang::QualType::isNull(), clang::TemplateArgument::Pack, clang::TemplateParameterList::size(), and clang::TSK_ExplicitSpecialization.

Referenced by clang::TemplateDeclInstantiator::InstantiateTypedefNameDecl().

◆ findLocallyScopedExternCDecl()

NamedDecl * Sema::findLocallyScopedExternCDecl ( DeclarationName  Name)

Look for a locally scoped extern "C" declaration by the given name.

Definition at line 5694 of file SemaDecl.cpp.

◆ findMacroSpelling()

bool Sema::findMacroSpelling ( SourceLocation locref,
StringRef  name 
)

Looks through the macro-expansion chain for the given location, looking for a macro expansion with the given name.

If one is found, returns true and sets the location to that expansion loc.

Definition at line 1323 of file Sema.cpp.

References clang::SourceManager::getExpansionLoc(), getPreprocessor(), getSourceManager(), and clang::SourceLocation::isMacroID().

◆ FindProtocolDeclaration()

void Sema::FindProtocolDeclaration ( bool  WarnOnDeclarations,
bool  ForObjCContainer,
ArrayRef< IdentifierLocPair ProtocolId,
SmallVectorImpl< Decl *> &  Protocols 
)

◆ FindUsualDeallocationFunction()

FunctionDecl * Sema::FindUsualDeallocationFunction ( SourceLocation  StartLoc,
bool  CanProvideSize,
bool  Overaligned,
DeclarationName  Name 
)

Definition at line 2831 of file SemaExprCXX.cpp.

Referenced by ActOnCXXDelete().

◆ FinishCXXForRangeStmt()

StmtResult Sema::FinishCXXForRangeStmt ( Stmt S,
Stmt B 
)

FinishCXXForRangeStmt - Attach the body to a C++0x for-range statement.

This is a separate step from ActOnCXXForRangeStmt because analysis of the body cannot be performed until after the type of the range variable is determined.

Definition at line 2757 of file SemaStmt.cpp.

◆ finishLambdaExplicitCaptures()

void Sema::finishLambdaExplicitCaptures ( sema::LambdaScopeInfo LSI)

Note that we have finished the explicit captures for the given lambda.

Definition at line 492 of file SemaLambda.cpp.

References clang::sema::LambdaScopeInfo::finishedExplicitCaptures().

◆ FinishObjCForCollectionStmt()

StmtResult Sema::FinishObjCForCollectionStmt ( Stmt S,
Stmt B 
)

FinishObjCForCollectionStmt - Attach the body to a objective-C foreach statement.

Definition at line 2590 of file SemaStmt.cpp.

◆ FinishTemplateArgumentDeduction()

Sema::TemplateDeductionResult Sema::FinishTemplateArgumentDeduction ( FunctionTemplateDecl FunctionTemplate,
SmallVectorImpl< DeducedTemplateArgument > &  Deduced,
unsigned  NumExplicitlySpecified,
FunctionDecl *&  Specialization,
sema::TemplateDeductionInfo Info,
SmallVectorImpl< OriginalCallArg > const *  OriginalCallArgs = nullptr,
bool  PartialOverloading = false,
llvm::function_ref< bool()>  CheckNonDependent = []{ return false; } 
)

Finish template argument deduction for a function template, checking the deduced template arguments for completeness and forming the function template specialization.

Parameters
OriginalCallArgsIf non-NULL, the original call arguments against which the deduced argument types should be compared.

Definition at line 3302 of file SemaTemplateDeduction.cpp.

References clang::sema::TemplateDeductionInfo::getLocation(), clang::FunctionTemplateDecl::getTemplatedDecl(), and Unevaluated.

◆ FixOverloadedFunctionReference() [1/2]

Expr * Sema::FixOverloadedFunctionReference ( Expr E,
DeclAccessPair  Found,
FunctionDecl Fn 
)

FixOverloadedFunctionReference - E is an expression that refers to a C++ overloaded function (possibly with some parentheses and perhaps a '&' around it).

We have resolved the overloaded function to the function declaration Fn, so patch up the expression E to refer (possibly indirectly) to Fn. Returns the new expr.

Definition at line 13623 of file SemaOverload.cpp.

Referenced by DiagnoseBadFunctionCast(), FinishOverloadedCallExpr(), IsStandardConversion(), clang::InitializationSequence::Perform(), and PerformImplicitConversion().

◆ FixOverloadedFunctionReference() [2/2]

ExprResult Sema::FixOverloadedFunctionReference ( ExprResult  E,
DeclAccessPair  FoundDecl,
FunctionDecl Fn 
)

Definition at line 13815 of file SemaOverload.cpp.

◆ ForceDeclarationOfImplicitMembers()

void Sema::ForceDeclarationOfImplicitMembers ( CXXRecordDecl Class)

◆ forceUnknownAnyToType()

ExprResult Sema::forceUnknownAnyToType ( Expr E,
QualType  ToType 
)

Force an expression with unknown-type to an expression of the given type.

Definition at line 16295 of file SemaExpr.cpp.

Referenced by ActOnFinishFullExpr().

◆ FormatStringHasSArg()

bool Sema::FormatStringHasSArg ( const StringLiteral FExpr)

Definition at line 8107 of file SemaChecking.cpp.

References clang::StringLiteral::getString().

◆ forRedeclarationInCurContext()

RedeclarationKind clang::Sema::forRedeclarationInCurContext ( )
inline

◆ FreePackedContext()

void clang::Sema::FreePackedContext ( )

FreePackedContext - Deallocate and null out PackContext.

◆ FreeVisContext()

void Sema::FreeVisContext ( )

FreeVisContext - Deallocate and null out VisContext.

Definition at line 733 of file SemaAttr.cpp.

References VisContext.

Referenced by ~Sema().

◆ FunctionParamTypesAreEqual()

bool Sema::FunctionParamTypesAreEqual ( const FunctionProtoType OldType,
const FunctionProtoType NewType,
unsigned *  ArgPos = nullptr 
)

FunctionParamTypesAreEqual - This routine checks two function proto types for equality of their argument types.

Caller has already checked that they have same number of arguments. If the parameters are different, ArgPos will have the parameter index of the first different parameter.

Definition at line 2850 of file SemaOverload.cpp.

References clang::FunctionProtoType::param_type_begin().

◆ GatherArgumentsForCall()

bool Sema::GatherArgumentsForCall ( SourceLocation  CallLoc,
FunctionDecl FDecl,
const FunctionProtoType Proto,
unsigned  FirstParam,
ArrayRef< Expr *>  Args,
SmallVectorImpl< Expr *> &  AllArgs,
VariadicCallType  CallType = VariadicDoesNotApply,
bool  AllowExplicit = false,
bool  IsListInitialization = false 
)

GatherArgumentsForCall - Collector argument expressions for various form of call prototypes.

Definition at line 4884 of file SemaExpr.cpp.

References clang::Stmt::getLocStart(), clang::FunctionProtoType::getNumParams(), clang::FunctionDecl::getParamDecl(), clang::FunctionProtoType::getParamType(), and clang::Expr::getType().

◆ GatherGlobalCodeCompletions()

void Sema::GatherGlobalCodeCompletions ( CodeCompletionAllocator Allocator,
CodeCompletionTUInfo CCTUInfo,
SmallVectorImpl< CodeCompletionResult > &  Results 
)

Definition at line 8009 of file SemaCodeComplete.cpp.

◆ getAmbiguousPathsDisplayString()

std::string Sema::getAmbiguousPathsDisplayString ( CXXBasePaths Paths)

Builds a string representing ambiguous paths from a specific derived class to different subobjects of the same base class.

This function builds a string that can be used in error messages to show the different paths that one can take through the inheritance hierarchy to go from the derived class to different subobjects of a base class. The result looks something like this:

struct D -> struct B -> struct A
struct D -> struct C -> struct A

Definition at line 2678 of file SemaDeclCXX.cpp.

◆ getASTConsumer()

ASTConsumer& clang::Sema::getASTConsumer ( ) const
inline

Definition at line 1212 of file Sema.h.

Referenced by getASTMutationListener().

◆ getASTContext()

ASTContext& clang::Sema::getASTContext ( ) const
inline

◆ getASTMutationListener()

ASTMutationListener * Sema::getASTMutationListener ( ) const

◆ getCallingConvAttributedType()

const AttributedType * Sema::getCallingConvAttributedType ( QualType  T) const

Get the outermost AttributedType node that sets a calling convention.

Valid types should not have multiple attributes with different CCs.

Definition at line 2861 of file SemaDecl.cpp.

References clang::Type::getAs(), clang::AttributedType::getModifiedType(), and clang::AttributedType::isCallingConv().

Referenced by handleFunctionTypeAttr().

◆ getCapturedDeclRefType()

QualType Sema::getCapturedDeclRefType ( VarDecl Var,
SourceLocation  Loc 
)

Given a variable, determine the type that a reference to that variable will have in the given scope.

Definition at line 15153 of file SemaExpr.cpp.

◆ getConstructorName()

ParsedType Sema::getConstructorName ( IdentifierInfo II,
SourceLocation  NameLoc,
Scope S,
CXXScopeSpec SS,
bool  EnteringContext 
)

Definition at line 83 of file SemaExprCXX.cpp.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ getContainingDC()

DeclContext * Sema::getContainingDC ( DeclContext DC)

◆ getCopyElisionCandidate()

VarDecl * Sema::getCopyElisionCandidate ( QualType  ReturnType,
Expr E,
CopyElisionSemanticsKind  CESK 
)

Determine whether the given expression is a candidate for copy elision in either a return statement or a throw expression.

Parameters
ReturnTypeIf we're determining the copy elision candidate for a return statement, this is the return type of the function. If we're determining the copy elision candidate for a throw expression, this will be a NULL type.
EThe expression being returned from the function or block, or being thrown.
CESKWhether we allow function parameters or id-expressions that could be moved out of the function to be considered NRVO candidates. C++ prohibits these for NRVO itself, but we re-use this logic to determine whether we should try to move as part of a return or throw (which does allow function parameters).
Returns
The NRVO candidate variable, if the return statement may use the NRVO, or NULL if there is no such candidate.

Definition at line 2864 of file SemaStmt.cpp.

References clang::DeclRefExpr::getDecl(), clang::Expr::IgnoreParens(), and clang::DeclRefExpr::refersToEnclosingVariableOrCapture().

◆ getCurBlock()

BlockScopeInfo * Sema::getCurBlock ( )

Retrieve the current block, if any.

Definition at line 1454 of file Sema.cpp.

References CodeSynthesisContexts, CurContext, and FunctionScopes.

◆ getCurCapturedRegion()

CapturedRegionScopeInfo * Sema::getCurCapturedRegion ( )

Retrieve the current captured region, if any.

Definition at line 1811 of file Sema.cpp.

References FunctionScopes.

◆ getCurCompoundScope()

sema::CompoundScopeInfo & Sema::getCurCompoundScope ( ) const

Definition at line 348 of file SemaStmt.cpp.

◆ getCurFunction()

sema::FunctionScopeInfo* clang::Sema::getCurFunction ( ) const
inline

◆ getCurFunctionDecl()

FunctionDecl * Sema::getCurFunctionDecl ( )

getCurFunctionDecl - If inside of a function body, this returns a pointer to the function decl for the function being parsed.

If we're currently in a 'block', this returns the containing context.

Definition at line 1194 of file Sema.cpp.

References getFunctionLevelDeclContext().

Referenced by checkVAStartABI(), and LookupMemberExpr().

◆ getCurFunctionOrMethodDecl()

NamedDecl * Sema::getCurFunctionOrMethodDecl ( )

getCurFunctionOrMethodDecl - Return the Decl for the current ObjC method or C function we're in, otherwise return null.

If we're currently in a 'block', this returns the containing context.

Definition at line 1206 of file Sema.cpp.

References getFunctionLevelDeclContext().

◆ getCurGenericLambda()

LambdaScopeInfo * Sema::getCurGenericLambda ( )

Retrieve the current generic lambda info, if any.

Definition at line 1505 of file Sema.cpp.

References getCurLambda().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ getCurLambda()

LambdaScopeInfo * Sema::getCurLambda ( bool  IgnoreNonLambdaCapturingScope = false)

Retrieve the current lambda scope info, if any.

Parameters
IgnoreNonLambdaCapturingScopetrue if should find the top-most lambda scope info ignoring all inner capturing scopes that are not lambda scopes.

Definition at line 1481 of file Sema.cpp.

References FunctionScopes.

Referenced by ActOnFinishFullExpr(), getCurGenericLambda(), GetDeclSpecTypeForDeclarator(), RecordParsingTemplateParameterDepth(), and tryImplicitlyCaptureThisIfImplicitMemberFunctionAccessWithDependentArgs().

◆ getCurLexicalContext()

DeclContext* clang::Sema::getCurLexicalContext ( ) const
inline

Definition at line 10629 of file Sema.h.

Referenced by CheckObjCDeclScope(), and LookupMethodInReceiverType().

◆ getCurMethodDecl()

ObjCMethodDecl * Sema::getCurMethodDecl ( )

getCurMethodDecl - If inside of a method body, this returns a pointer to the method decl for the method being parsed.

If we're currently in a 'block', this returns the containing context.

Definition at line 1199 of file Sema.cpp.

References getFunctionLevelDeclContext(), and clang::DeclContext::getParent().

Referenced by ActOnStartOfObjCMethodDef(), AddClassMessageCompletions(), AddSuperSendCompletion(), findRetainCycleOwner(), LookupMemberExpr(), and LookupPotentialTypoResult().

◆ getCurObjCLexicalContext()

const DeclContext* clang::Sema::getCurObjCLexicalContext ( ) const
inline

Definition at line 10633 of file Sema.h.

◆ getCurrentClass()

CXXRecordDecl * Sema::getCurrentClass ( Scope S,
const CXXScopeSpec SS 
)

Get the class that is directly named by the current context.

This is the class for which an unqualified-id in this scope could name a constructor or destructor.

If the scope specifier denotes a class, this will be that class. If the scope specifier is empty, this will be the class whose member-specification we are currently within. Otherwise, there is no such class.

Definition at line 2070 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus, clang::CXXScopeSpec::isInvalid(), and clang::CXXScopeSpec::isNotEmpty().

◆ getCurrentInstantiationOf()

CXXRecordDecl * Sema::getCurrentInstantiationOf ( NestedNameSpecifier NNS)

If the given nested name specifier refers to the current instantiation, return the declaration that corresponds to that current instantiation (C++0x [temp.dep.type]p1).

Parameters
NNSa dependent nested name specifier.

Definition at line 180 of file SemaCXXScopeSpec.cpp.

References clang::frontend::CPlusPlus, CurContext, clang::NestedNameSpecifier::getAsType(), getCurrentInstantiationOf(), getLangOpts(), and clang::NestedNameSpecifier::isDependent().

Referenced by computeDeclContext().

◆ getCurrentMangleNumberContext()

MangleNumberingContext * Sema::getCurrentMangleNumberContext ( const DeclContext DC,
Decl *&  ManglingContextDecl 
)

Compute the mangling number context for a lambda expression or block literal.

Parameters
DC- The DeclContext containing the lambda expression or block literal.
[out]ManglingContextDecl- Returns the ManglingContextDecl associated with the context, if relevant.

Definition at line 281 of file SemaLambda.cpp.

References ContextKind, clang::DeclContext::getLexicalParent(), clang::DeclContext::getParent(), and isInInlineFunction().

◆ getCurrentOpenCLExtension()

llvm::StringRef clang::Sema::getCurrentOpenCLExtension ( ) const
inline

Definition at line 8572 of file Sema.h.

◆ getCurrentThisType()

QualType Sema::getCurrentThisType ( )

Try to retrieve the type of the 'this' pointer.

Returns
The type of 'this', if possible. Otherwise, returns a NULL type.

Definition at line 1061 of file SemaExprCXX.cpp.

Referenced by ActOnCXXThis(), CheckCXXThisCapture(), and getPrivateItem().

◆ getCurScope()

Scope* clang::Sema::getCurScope ( ) const
inline

Retrieve the parser's current scope.

This routine must only be used when it is certain that semantic analysis and the parser are in precisely the same context, which is not the case when, e.g., we are performing any kind of template instantiation. Therefore, the only safe places to use this scope are in the parser itself and in routines directly invoked from the parser and never from template substitution or instantiation.

Definition at line 10618 of file Sema.h.

Referenced by BuildNonArrayForRange(), clang::Parser::getCurScope(), HandleAddressSpaceTypeAttribute(), HandleExtVectorTypeAttr(), HandleVectorSizeAttr(), and warnAboutRedundantParens().

◆ getDeletedOrUnavailableSuffix()

std::string Sema::getDeletedOrUnavailableSuffix ( const FunctionDecl FD)

Retrieve the message suffix that should be added to a diagnostic complaining about the given function being deleted or unavailable.

Definition at line 306 of file SemaExpr.cpp.

References clang::Decl::getAvailability().

Referenced by FinishOverloadedCallExpr(), resolveAllocationOverload(), and resolveBuiltinNewDeleteOverload().

◆ getDestructorName()

ParsedType Sema::getDestructorName ( SourceLocation  TildeLoc,
IdentifierInfo II,
SourceLocation  NameLoc,
Scope S,
CXXScopeSpec SS,
ParsedType  ObjectType,
bool  EnteringContext 
)

Definition at line 133 of file SemaExprCXX.cpp.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ getDestructorTypeForDecltype()

ParsedType Sema::getDestructorTypeForDecltype ( const DeclSpec DS,
ParsedType  ObjectType 
)

◆ getDiagnostics()

DiagnosticsEngine& clang::Sema::getDiagnostics ( ) const
inline

◆ getElaboratedType()

QualType Sema::getElaboratedType ( ElaboratedTypeKeyword  Keyword,
const CXXScopeSpec SS,
QualType  T,
TagDecl OwnedTagDecl = nullptr 
)

Retrieve a version of the type 'T' that is elaborated by Keyword, qualified by the nested-name-specifier contained in SS, and that is (re)declared by OwnedTagDecl, which is nullptr if this is not a (re)declaration.

Definition at line 7933 of file SemaType.cpp.

References clang::ETK_None, clang::CXXScopeSpec::getScopeRep(), clang::QualType::isNull(), and clang::CXXScopeSpec::isValid().

◆ getEnclosingFunction()

FunctionScopeInfo * Sema::getEnclosingFunction ( ) const

Definition at line 1469 of file Sema.cpp.

References FunctionScopes.

◆ getExprRange()

SourceRange Sema::getExprRange ( Expr E) const

Definition at line 410 of file SemaExpr.cpp.

Referenced by clang::Parser::ParseConstraintExpression().

◆ getExternalSource()

ExternalSemaSource* clang::Sema::getExternalSource ( ) const
inline

Definition at line 1214 of file Sema.h.

Referenced by AddClassMessageCompletions().

◆ getFixItZeroInitializerForType()

std::string Sema::getFixItZeroInitializerForType ( QualType  T,
SourceLocation  Loc 
) const

◆ getFixItZeroLiteralForType()

std::string Sema::getFixItZeroLiteralForType ( QualType  T,
SourceLocation  Loc 
) const

Definition at line 220 of file SemaFixItUtils.cpp.

References getScalarZeroExpressionForType().

Referenced by DiagnoseNullConversion().

◆ getFloat128Identifier()

IdentifierInfo * Sema::getFloat128Identifier ( ) const

Definition at line 1796 of file Sema.cpp.

References Context, clang::IdentifierTable::get(), and clang::ASTContext::Idents.

◆ GetFormatNSStringIdx()

bool Sema::GetFormatNSStringIdx ( const FormatAttr *  Format,
unsigned &  Idx 
)
static

Definition at line 3797 of file SemaChecking.cpp.

◆ GetFormatStringType()

Sema::FormatStringType Sema::GetFormatStringType ( const FormatAttr *  Format)
static

◆ getFPOptions()

FPOptions& clang::Sema::getFPOptions ( )
inline

Definition at line 1206 of file Sema.h.

◆ getFullyPackExpandedSize()

Optional< unsigned > Sema::getFullyPackExpandedSize ( TemplateArgument  Arg)

◆ getFunctionLevelDeclContext()

DeclContext * Sema::getFunctionLevelDeclContext ( )

◆ getImplicitCodeSegOrSectionAttrForFunction()

Attr * Sema::getImplicitCodeSegOrSectionAttrForFunction ( const FunctionDecl FD,
bool  IsDefinition 
)

Returns an implicit CodeSegAttr if a __declspec(code_seg) is found on a containing class.

Otherwise it will return implicit SectionAttr if the function is a definition and there is an active value on CodeSegStack (from the current #pragma code-seg value).

Parameters
FDFunction being declared.
IsDefinitionWhether it is a definition or just a declarartion.
Returns
A CodeSegAttr or SectionAttr to apply to the function or nullptr if no attribute should be added.

Definition at line 9326 of file SemaDecl.cpp.

References getImplicitCodeSegAttrFromClass(), and clang::Decl::hasAttr().

◆ getInheritingConstructorName()

ParsedType Sema::getInheritingConstructorName ( CXXScopeSpec SS,
SourceLocation  NameLoc,
IdentifierInfo Name 
)

Handle the result of the special case name lookup for inheriting constructor declarations.

'NS::X::X' and 'NS::X<...>::X' are treated as constructor names in member using declarations, even if 'X' is not the name of the corresponding type.

Definition at line 49 of file SemaExprCXX.cpp.

◆ GetIvarBackingPropertyAccessor()

ObjCIvarDecl * Sema::GetIvarBackingPropertyAccessor ( const ObjCMethodDecl Method,
const ObjCPropertyDecl *&  PDecl 
) const

GetIvarBackingPropertyAccessor - If method is a property setter/getter and it property has a backing ivar, returns this ivar; otherwise, returns NULL.

It also returns ivar's property on success.

Definition at line 4970 of file SemaDeclObjC.cpp.

References clang::ObjCMethodDecl::findPropertyDecl(), clang::ObjCMethodDecl::getClassInterface(), clang::ObjCPropertyDecl::getPropertyIvarDecl(), clang::ObjCMethodDecl::getSelector(), clang::ObjCMethodDecl::isClassMethod(), clang::ObjCMethodDecl::isPropertyAccessor(), and clang::ObjCInterfaceDecl::lookupMethod().

◆ getLambdaConversionFunctionResultType()

QualType Sema::getLambdaConversionFunctionResultType ( const FunctionProtoType CallOpType)

Get the return type to use for a lambda's conversion function(s) to function pointer type, given the type of the call operator.

Definition at line 1187 of file SemaLambda.cpp.

References clang::FunctionProtoType::getExtProtoInfo().

◆ getLangOpts()

const LangOptions& clang::Sema::getLangOpts ( ) const
inline

Definition at line 1204 of file Sema.h.

Referenced by ActOnCXXDelete(), ActOnCXXNestedNameSpecifierDecltype(), ActOnEndOfTranslationUnit(), ActOnFinishFullExpr(), ActOnStartCXXMemberReference(), ActOnStartOfObjCMethodDef(), ActOnStartOfTranslationUnit(), ActOnStartProtocolInterface(), AddCFAuditedAttribute(), addFixitForObjCARCConversion(), AddMsStructLayoutForRecord(), AddRecordMembersCompletionResults(), AnalyzeBitFieldAssignment(), AnalyzeComparison(), AtomicPropertySetterGetterRules(), buildCapture(), buildCaptureDecl(), BuildObjCExceptionDecl(), BuildPseudoDestructorExpr(), canPassInRegisters(), CheckAllocatedType(), checkArithmeticBinOpPointerOperands(), checkArithmeticOpPointerOperand(), checkBlockPointerTypesForAssignment(), CheckBoolLikeConversion(), CheckCommaOperands(), checkCondition(), checkConditionalPointerCompatibility(), CheckConstexprDeclStmt(), CheckConvertedConstantExpression(), CheckCUDACall(), checkCUDATargetOverload(), CheckCXX98CompatAccessibleCopy(), CheckDistantExceptionSpec(), CheckEquivalentExceptionSpec(), CheckExceptionSpecCompatibility(), CheckExceptionSpecSubset(), CheckExplicitInstantiationScope(), CheckFormatString(), CheckIncrementDecrementOperand(), checkIndirectCopyRestoreSource(), CheckIndirectionOperand(), CheckKeyForObjCARCConversion(), CheckObjCCollectionLiteralElement(), CheckObjCMethodOverride(), checkObjCPointerIntrospection(), CheckObjCPropertyAttributes(), CheckOperatorNewDeleteTypes(), CheckOverridingFunctionExceptionSpec(), CheckPointerToMemberOperands(), checkPointerTypesForAssignment(), CheckSpecifiedExceptionType(), CheckTemplateArgumentAddressOfObjectOrFunction(), CheckTemplateArgumentPointerToMember(), CheckTemplateSpecializationScope(), ClassifyImplicitMemberAccess(), clang::Sema::InstantiatingTemplate::Clear(), compareConversionFunctions(), CompareImplicitConversionSequences(), CompareStandardConversionSequences(), completeFunctionType(), CorrectDelayedTyposInBinOp(), CUDADiagIfDeviceCode(), CUDADiagIfHostCode(), CUDASetLambdaAttrs(), DeclareGlobalNewDelete(), DeduceNonTypeTemplateArgument(), defaultedSpecialMemberIsConstexpr(), diagnoseArithmeticOnFunctionPointer(), diagnoseArithmeticOnNullPointer(), diagnoseArithmeticOnTwoFunctionPointers(), diagnoseArithmeticOnTwoVoidPointers(), diagnoseArithmeticOnVoidPointer(), DiagnoseBadFunctionCast(), DiagnoseBadShiftValues(), DiagnoseCallingConvCast(), diagnoseDeprecatedCopyOperation(), DiagnoseMismatchedNewDelete(), DiagnoseNarrowingInInitList(), DiagnoseNullConversion(), DiagnoseOwningPropertyGetterSynthesis(), DiagnoseSwitchLabelsFallthrough(), diagnoseUnavailableAlignedAllocation(), EmitCurrentDiagnostic(), EmitDiagForCXXThrowInNonThrowingFunc(), emitReplacement(), clang::EnterExpressionEvaluationContext::EnterExpressionEvaluationContext(), FindAllocationFunctions(), FindCompositePointerType(), FinishForRangeVarDecl(), clang::FunctionCallFilterCCC::FunctionCallFilterCCC(), getCastAwayConstnessCastKind(), getCCForDeclaratorChunk(), getCurrentInstantiationOf(), GetDeclSpecTypeForDeclarator(), clang::getDeclUsageType(), GetTypeOfFunction(), getUDSuffixLoc(), handleFunctionTypeAttr(), handleObjCOwnershipTypeAttr(), hasNewExtendedAlignment(), hasVisibleMemberSpecialization(), IdentifyCUDAPreference(), IgnoredValueConversions(), clang::Sema::ImplicitExceptionSpecification::ImplicitExceptionSpecification(), clang::TemplateDeclInstantiator::InitFunctionInstantiation(), Initialize(), IsCXX98CompatWarning(), isExternalWithNoLinkageType(), IsKnownEmitted(), isLibstdcxxPointerReturnFalseHack(), isNonPlacementDeallocationFunction(), isNullPointerValueTemplateArgument(), isObjCReceiverType(), isResultTypeOrTemplate(), IsStandardConversion(), clang::sema::AnalysisBasedWarnings::IssueWarnings(), LookupBuiltin(), LookupDirect(), LookupMemberExpr(), LookupMethodInReceiverType(), LookupVisibleDecls(), MatchTwoMethodDeclarations(), maybeAddCUDAHostDeviceAttrs(), MaybeBindToTemporary(), MaybeProduceObjCObject(), mergeExceptionSpecs(), clang::InitializationSequence::Perform(), PerformImplicitConversion(), PopForceCUDAHostDevice(), ProcessPropertyDecl(), PushCapturedRegionScope(), PushForceCUDAHostDevice(), ReferenceDllExportedMembers(), resolveBuiltinNewDeleteOverload(), ResolveConstructorOverload(), shouldIgnoreDueToReservedName(), TryConstructorInitialization(), TryDefaultInitialization(), TryImplicitConversion(), TryListInitialization(), TryNamespaceTypoCorrection(), TryOCLSamplerInitialization(), TryOCLZeroEventInitialization(), TryOCLZeroQueueInitialization(), TryReferenceInit(), TryReferenceInitializationCore(), TryReferenceListInitialization(), TryReinterpretCast(), TryStaticCast(), TryValueInitialization(), tryVectorConvertAndSplat(), clang::TemplateDeclInstantiator::VisitVarDecl(), warnAboutRedundantParens(), and WarnConflictingTypedMethods().

◆ getLocationOfStringLiteralByte()

SourceLocation Sema::getLocationOfStringLiteralByte ( const StringLiteral SL,
unsigned  ByteNo 
) const

Definition at line 102 of file SemaChecking.cpp.

References clang::StringLiteral::getLocationOfByte().

◆ getLocForEndOfToken()

SourceLocation Sema::getLocForEndOfToken ( SourceLocation  Loc,
unsigned  Offset = 0 
)

◆ getLookupModules()

llvm::DenseSet< Module * > & Sema::getLookupModules ( )

Get the set of additional modules that should be checked during name lookup.

A module and its imports become visible when instanting a template defined within it.

Definition at line 1383 of file SemaLookup.cpp.

Referenced by hasVisibleMemberSpecialization().

◆ getMessageSendResultType()

QualType Sema::getMessageSendResultType ( QualType  ReceiverType,
ObjCMethodDecl Method,
bool  isClassMessage,
bool  isSuperMessage 
)

Determine the result of a message send expression based on the type of the receiver, the method expected to receive the message, and the form of the message send.

Definition at line 1346 of file SemaExprObjC.cpp.

References clang::Type::canHaveNullability(), getBaseMessageSendResultType(), and clang::Type::getNullability().

◆ getMismatchingDeleteExpressions()

const llvm::MapVector< FieldDecl *, Sema::DeleteLocs > & Sema::getMismatchingDeleteExpressions ( ) const

Retrieves list of suspicious delete-expressions that will be checked at the end of translation unit.

Definition at line 1819 of file Sema.cpp.

References DeleteExprs.

◆ getModuleLoader()

ModuleLoader & Sema::getModuleLoader ( ) const

Retrieve the module loader associated with the preprocessor.

Definition at line 50 of file Sema.cpp.

◆ getMoreSpecializedPartialSpecialization() [1/2]

Returns the more specialized class template partial specialization according to the rules of partial ordering of class template partial specializations (C++ [temp.class.order]).

Parameters
PS1the first class template partial specialization
PS2the second class template partial specialization
Returns
the more specialized class template partial specialization. If neither partial specialization is more specialized, returns NULL.

Definition at line 5067 of file SemaTemplateDeduction.cpp.

References clang::ClassTemplatePartialSpecializationDecl::getInjectedSpecializationType(), and isAtLeastAsSpecializedAs().

◆ getMoreSpecializedPartialSpecialization() [2/2]

VarTemplatePartialSpecializationDecl * Sema::getMoreSpecializedPartialSpecialization ( VarTemplatePartialSpecializationDecl PS1,
VarTemplatePartialSpecializationDecl PS2,
SourceLocation  Loc 
)

◆ getMoreSpecializedTemplate()

FunctionTemplateDecl * Sema::getMoreSpecializedTemplate ( FunctionTemplateDecl FT1,
FunctionTemplateDecl FT2,
SourceLocation  Loc,
TemplatePartialOrderingContext  TPOC,
unsigned  NumCallArguments1,
unsigned  NumCallArguments2 
)

Returns the more specialized function template according to the rules of function template partial ordering (C++ [temp.func.order]).

Parameters
FT1the first function template
FT2the second function template
TPOCthe context in which we are performing partial ordering of function templates.
NumCallArguments1The number of arguments in the call to FT1, used only when TPOC is TPOC_Call.
NumCallArguments2The number of arguments in the call to FT2, used only when TPOC is TPOC_Call.
Returns
the more specialized function template. If neither template is more specialized, returns NULL.

Definition at line 4858 of file SemaTemplateDeduction.cpp.

References isAtLeastAsSpecializedAs(), and isVariadicFunctionTemplate().

◆ getMostSpecialized()

UnresolvedSetIterator Sema::getMostSpecialized ( UnresolvedSetIterator  SpecBegin,
UnresolvedSetIterator  SpecEnd,
TemplateSpecCandidateSet FailedCandidates,
SourceLocation  Loc,
const PartialDiagnostic NoneDiag,
const PartialDiagnostic AmbigDiag,
const PartialDiagnostic CandidateDiag,
bool  Complain = true,
QualType  TargetType = QualType() 
)

Retrieve the most specialized of the given function template specializations.

Parameters
SpecBeginthe start iterator of the function template specializations that we will be comparing.
SpecEndthe end iterator of the function template specializations, paired with SpecBegin.
Locthe location where the ambiguity or no-specializations diagnostic should occur.
NoneDiagpartial diagnostic used to diagnose cases where there are no matching candidates.
AmbigDiagpartial diagnostic used to diagnose an ambiguity, if one occurs.
CandidateDiagpartial diagnostic used for each function template specialization that is a candidate in the ambiguous ordering. One parameter in this diagnostic should be unbound, which will correspond to the string describing the template arguments for the function template specialization.
Returns
the most specialized function template specialization, if found. Otherwise, returns SpecEnd.

Definition at line 4922 of file SemaTemplateDeduction.cpp.

References Diag(), and clang::TemplateSpecCandidateSet::NoteCandidates().

◆ GetNameForDeclarator()

DeclarationNameInfo Sema::GetNameForDeclarator ( Declarator D)

GetNameForDeclarator - Determine the full declaration name for the given Declarator.

Definition at line 4950 of file SemaDecl.cpp.

References clang::Declarator::getName().

Referenced by CreateNewFunctionDecl().

◆ GetNameFromUnqualifiedId()

DeclarationNameInfo Sema::GetNameFromUnqualifiedId ( const UnqualifiedId Name)

Retrieves the declaration name from a parsed unqualified-id.

Definition at line 4956 of file SemaDecl.cpp.

◆ getNonFieldDeclScope()

Scope * Sema::getNonFieldDeclScope ( Scope S)

getNonFieldDeclScope - Retrieves the innermost scope, starting from S, where a non-field would be declared.

This routine copes with the difference between C and C++ scoping rules in structs and unions. For example, the following code is well-formed in C but ill-formed in C++:

struct S6 {
enum { BAR } e;
};
void test_S6() {
struct S6 a;
a.e = BAR;
}

For the declaration of BAR, this routine will return a different scope. The scope S will be the scope of the unnamed enumeration within S6. In C++, this routine will return the scope associated with S6, because the enumeration's scope is a transparent context but structures can contain non-field names. In C, this routine will return the translation unit scope, since the enumeration's scope is a transparent context and structures cannot contain non-field names.

Definition at line 1903 of file SemaDecl.cpp.

◆ getNonTagTypeDeclKind()

Sema::NonTagKind Sema::getNonTagTypeDeclKind ( const Decl D,
TagTypeKind  TTK 
)

Given a non-tag type declaration, returns an enum useful for indicating what kind of non-tag type this is.

Definition at line 13695 of file SemaDecl.cpp.

References clang::TTK_Class, clang::TTK_Enum, clang::TTK_Interface, clang::TTK_Struct, and clang::TTK_Union.

Referenced by clang::TreeTransform< Derived >::RebuildDependentNameType().

◆ getNSErrorIdent()

IdentifierInfo * Sema::getNSErrorIdent ( )

Retrieve the identifier "NSError".

Definition at line 3429 of file SemaType.cpp.

Referenced by classifyPointerDeclarator().

◆ getNullabilityKeyword()

IdentifierInfo * Sema::getNullabilityKeyword ( NullabilityKind  nullability)

Retrieve the keyword associated.

Definition at line 3408 of file SemaType.cpp.

References clang::NonNull, clang::Nullable, and clang::Unspecified.

Referenced by clang::Parser::getNullabilityKeyword().

◆ getNumArgumentsInExpansion()

Optional< unsigned > Sema::getNumArgumentsInExpansion ( QualType  T,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Determine the number of arguments in the given pack expansion type.

This routine assumes that the number of arguments in the expansion is consistent across all of the unexpanded parameter packs in its pattern.

Returns an empty Optional if the type can't be expanded.

Definition at line 764 of file SemaTemplateVariadic.cpp.

References clang::Result.

Referenced by getPackIndexForParam(), and clang::TemplateDeclInstantiator::SubstFunctionType().

◆ getObjCContainerKind()

Sema::ObjCContainerKind Sema::getObjCContainerKind ( ) const

◆ getObjCDeclContext()

Decl * Sema::getObjCDeclContext ( ) const

Definition at line 17193 of file SemaDecl.cpp.

Referenced by clang::Parser::getObjCDeclContext().

◆ getObjCInterfaceDecl()

ObjCInterfaceDecl * Sema::getObjCInterfaceDecl ( IdentifierInfo *&  Id,
SourceLocation  IdLoc,
bool  DoTypoCorrection = false 
)

Look for an Objective-C class in the translation unit.

Parameters
IdThe name of the Objective-C class we're looking for. If typo-correction fixes this name, the Id will be updated to the fixed name.
IdLocThe location of the name in the translation unit.
DoTypoCorrectionIf true, this routine will attempt typo correction if there is no class with the given name.
Returns
The declaration of the named Objective-C class, or NULL if the class could not be found.

Definition at line 1854 of file SemaDecl.cpp.

References clang::ObjCInterfaceDecl::getDefinition(), and clang::NamedDecl::getIdentifier().

Referenced by ActOnStartCategoryImplementation(), and ActOnStartCategoryInterface().

◆ getObjCMessageKind()

Sema::ObjCMessageKind Sema::getObjCMessageKind ( Scope S,
IdentifierInfo Name,
SourceLocation  NameLoc,
bool  IsSuper,
bool  HasTrailingDot,
ParsedType ReceiverType 
)

Definition at line 2076 of file SemaExprObjC.cpp.

Referenced by CheckArrayDesignatorSyntax().

◆ getOpenCLOptions()

OpenCLOptions& clang::Sema::getOpenCLOptions ( )
inline

Definition at line 1205 of file Sema.h.

Referenced by DiagnoseBadFunctionCast(), and Initialize().

◆ getOpenMPCapturedExpr()

ExprResult Sema::getOpenMPCapturedExpr ( VarDecl Capture,
ExprValueKind  VK,
ExprObjectKind  OK,
SourceLocation  Loc 
)

◆ getOpenMPCaptureLevels()

int Sema::getOpenMPCaptureLevels ( OpenMPDirectiveKind  Kind)
static

Return the number of captured regions created for an OpenMP directive.

Definition at line 2544 of file SemaOpenMP.cpp.

References clang::getOpenMPCaptureRegions().

◆ getOptimizeOffPragmaLocation()

SourceLocation clang::Sema::getOptimizeOffPragmaLocation ( ) const
inline

Get the location for the currently active "\#pragma clang optimize off". If this location is invalid, then the state of the pragma is "on".

Definition at line 8486 of file Sema.h.

References clang::isTemplateInstantiation().

◆ GetOrCreateMSAsmLabel()

LabelDecl * Sema::GetOrCreateMSAsmLabel ( StringRef  ExternalLabelName,
SourceLocation  Location,
bool  AlwaysCreate 
)

Definition at line 805 of file SemaStmtAsm.cpp.

References clang::LabelDecl::isMSAsmLabel(), Label, and clang::Decl::markUsed().

◆ getOrCreateStdNamespace()

NamespaceDecl * Sema::getOrCreateStdNamespace ( )

Retrieve the special "std" namespace, which may require us to implicitly define the namespace.

Definition at line 9051 of file SemaDeclCXX.cpp.

References clang::NamespaceDecl::Create().

Referenced by DeclareGlobalNewDelete().

◆ getOwningModule()

Module* clang::Sema::getOwningModule ( Decl Entity)
inline

Get the module owning an entity.

Definition at line 1553 of file Sema.h.

References clang::Decl::getOwningModule().

Referenced by hasVisibleDefaultArgument(), and hasVisibleMemberSpecialization().

◆ getPreprocessor()

Preprocessor& clang::Sema::getPreprocessor ( ) const
inline

◆ getPrintable() [1/13]

static int clang::Sema::getPrintable ( int  I)
inlinestatic

Definition at line 1491 of file Sema.h.

◆ getPrintable() [2/13]

static unsigned clang::Sema::getPrintable ( unsigned  I)
inlinestatic

Definition at line 1492 of file Sema.h.

◆ getPrintable() [3/13]

static bool clang::Sema::getPrintable ( bool  B)
inlinestatic

Definition at line 1493 of file Sema.h.

◆ getPrintable() [4/13]

static const char* clang::Sema::getPrintable ( const char *  S)
inlinestatic

Definition at line 1494 of file Sema.h.

◆ getPrintable() [5/13]

static StringRef clang::Sema::getPrintable ( StringRef  S)
inlinestatic

Definition at line 1495 of file Sema.h.

◆ getPrintable() [6/13]

static const std::string& clang::Sema::getPrintable ( const std::string &  S)
inlinestatic

Definition at line 1496 of file Sema.h.

◆ getPrintable() [7/13]

static const IdentifierInfo* clang::Sema::getPrintable ( const IdentifierInfo II)
inlinestatic

Definition at line 1497 of file Sema.h.

◆ getPrintable() [8/13]

static DeclarationName clang::Sema::getPrintable ( DeclarationName  N)
inlinestatic

Definition at line 1500 of file Sema.h.

◆ getPrintable() [9/13]

static QualType clang::Sema::getPrintable ( QualType  T)
inlinestatic

Definition at line 1501 of file Sema.h.

◆ getPrintable() [10/13]

static SourceRange clang::Sema::getPrintable ( SourceRange  R)
inlinestatic

Definition at line 1502 of file Sema.h.

◆ getPrintable() [11/13]

static SourceRange clang::Sema::getPrintable ( SourceLocation  L)
inlinestatic

Definition at line 1503 of file Sema.h.

◆ getPrintable() [12/13]

static SourceRange clang::Sema::getPrintable ( const Expr E)
inlinestatic

Definition at line 1504 of file Sema.h.

References clang::Stmt::getSourceRange().

◆ getPrintable() [13/13]

static SourceRange clang::Sema::getPrintable ( TypeLoc  TL)
inlinestatic

Definition at line 1505 of file Sema.h.

References clang::TypeLoc::getSourceRange().

◆ getPrintingPolicy() [1/2]

PrintingPolicy clang::Sema::getPrintingPolicy ( ) const
inline

Retrieve a suitable printing policy for diagnostics.

Definition at line 2136 of file Sema.h.

Referenced by CheckVirtualDtorCall(), diagnoseNoViableConversion(), EmitCurrentDiagnostic(), and PrintInstantiationStack().

◆ getPrintingPolicy() [2/2]

PrintingPolicy Sema::getPrintingPolicy ( const ASTContext Ctx,
const Preprocessor PP 
)
static

Retrieve a suitable printing policy for diagnostics.

Definition at line 52 of file Sema.cpp.

◆ getReturnTypeLoc()

TypeLoc Sema::getReturnTypeLoc ( FunctionDecl FD) const

◆ getScopeForContext()

Scope * Sema::getScopeForContext ( DeclContext Ctx)

Determines the active Scope associated with the given declaration context.

This routine maps a declaration context to the active Scope object that represents that declaration context in the parser. It is typically used from "scope-less" code (e.g., template instantiation, lazy creation of declarations) that injects a name for name-lookup purposes and, therefore, must update the Scope.

Returns
The scope corresponding to the given declaraion context, or NULL if no such scope is open.

Definition at line 1351 of file Sema.cpp.

References clang::DeclContext::getPrimaryContext().

◆ getScopeForDeclContext()

Scope * Sema::getScopeForDeclContext ( Scope S,
DeclContext DC 
)
static

Finds the scope corresponding to the given decl context, if it happens to be an enclosing scope.

Otherwise return NULL.

Definition at line 1412 of file SemaDecl.cpp.

◆ getShadowedDeclaration() [1/2]

NamedDecl * Sema::getShadowedDeclaration ( const TypedefNameDecl D,
const LookupResult R 
)

Return the declaration shadowed by the given typedef D, or null if it doesn't shadow any declaration or shadowing warnings are disabled.

Definition at line 7024 of file SemaDecl.cpp.

References clang::Decl::getDeclContext(), clang::LookupResult::getFoundDecl(), clang::DeclContext::isRecord(), and shouldWarnIfShadowedDecl().

◆ getShadowedDeclaration() [2/2]

NamedDecl * Sema::getShadowedDeclaration ( const VarDecl D,
const LookupResult R 
)

Return the declaration shadowed by the given variable D, or null if it doesn't shadow any declaration or shadowing warnings are disabled.

Definition at line 7007 of file SemaDecl.cpp.

References clang::LookupResult::getFoundDecl(), clang::VarDecl::hasGlobalStorage(), and shouldWarnIfShadowedDecl().

◆ GetSignedVectorType()

QualType Sema::GetSignedVectorType ( QualType  V)

Definition at line 10461 of file SemaExpr.cpp.

References clang::Type::getAs().

◆ getSourceManager()

SourceManager& clang::Sema::getSourceManager ( ) const
inline

◆ getSpecialMember()

Sema::CXXSpecialMember Sema::getSpecialMember ( const CXXMethodDecl MD)

◆ getStdAlignValT()

EnumDecl * Sema::getStdAlignValT ( ) const

◆ getStdBadAlloc()

CXXRecordDecl * Sema::getStdBadAlloc ( ) const

Definition at line 8891 of file SemaDeclCXX.cpp.

Referenced by DeclareGlobalNewDelete().

◆ getStdNamespace()

NamespaceDecl * Sema::getStdNamespace ( ) const

◆ getSuperIdentifier()

IdentifierInfo * Sema::getSuperIdentifier ( ) const

Definition at line 1790 of file Sema.cpp.

References Context, clang::IdentifierTable::get(), and clang::ASTContext::Idents.

◆ getTemplateArgumentBindingsText() [1/2]

std::string Sema::getTemplateArgumentBindingsText ( const TemplateParameterList Params,
const TemplateArgumentList Args 
)

Produces a formatted string that describes the binding of template parameters to template arguments.

Definition at line 9881 of file SemaTemplate.cpp.

References clang::TemplateArgumentList::data(), and clang::TemplateArgumentList::size().

Referenced by PrintInstantiationStack().

◆ getTemplateArgumentBindingsText() [2/2]

std::string Sema::getTemplateArgumentBindingsText ( const TemplateParameterList Params,
const TemplateArgument Args,
unsigned  NumArgs 
)

Definition at line 9887 of file SemaTemplate.cpp.

References clang::TemplateParameterList::size().

◆ getTemplateArgumentPackExpansionPattern()

TemplateArgumentLoc Sema::getTemplateArgumentPackExpansionPattern ( TemplateArgumentLoc  OrigLoc,
SourceLocation Ellipsis,
Optional< unsigned > &  NumExpansions 
) const

Returns the pattern of the pack expansion for a template argument.

Parameters
OrigLocThe template argument to expand.
EllipsisWill be set to the location of the ellipsis.
NumExpansionsWill be set to the number of expansions that will be generated from this pack expansion, if known a priori.

Definition at line 1002 of file SemaTemplateVariadic.cpp.

References clang::TemplateArgumentLoc::getArgument(), clang::TemplateArgument::getKind(), clang::TemplateArgumentLoc::getTypeSourceInfo(), clang::TemplateArgument::isPackExpansion(), and clang::TemplateArgument::Type.

◆ getTemplateInstantiationArgs()

MultiLevelTemplateArgumentList Sema::getTemplateInstantiationArgs ( NamedDecl D,
const TemplateArgumentList Innermost = nullptr,
bool  RelativeToPrimary = false,
const FunctionDecl Pattern = nullptr 
)

Retrieve the template argument list(s) that should be used to instantiate the definition of the given declaration.

Parameters
Dthe declaration for which we are computing template instantiation arguments.
Innermostif non-NULL, the innermost template argument list.
RelativeToPrimarytrue if we should get the template arguments relative to the primary template, even when we're dealing with a specialization. This is only relevant for function template specializations.
PatternIf non-NULL, indicates the pattern from which we will be instantiating the definition of the given declaration, D. This is used to determine the proper set of template instantiation arguments for friend function template specializations.

Definition at line 55 of file SemaTemplateInstantiate.cpp.

References clang::MultiLevelTemplateArgumentList::addOuterTemplateArguments(), clang::Decl::getDeclContext(), clang::VarTemplateSpecializationDecl::getSpecializedTemplateOrPartial(), clang::RedeclarableTemplateDecl::isMemberSpecialization(), clang::DeclContext::isTranslationUnit(), and clang::TSK_ExplicitSpecialization.

Referenced by InstantiateClassTemplateSpecialization(), InstantiateClassTemplateSpecializationMembers(), and RequireCompleteDeclContext().

◆ getTemplateNameKindForDiagnostics()

Sema::TemplateNameKindForDiagnostics Sema::getTemplateNameKindForDiagnostics ( TemplateName  Name)

◆ getTrivialTemplateArgumentLoc()

TemplateArgumentLoc Sema::getTrivialTemplateArgumentLoc ( const TemplateArgument Arg,
QualType  NTTPType,
SourceLocation  Loc 
)

Allocate a TemplateArgumentLoc where all locations have been initialized to the given location.

Parameters
ArgThe template argument we are producing template argument location information for.
NTTPTypeFor a declaration template argument, the type of the non-type template parameter that corresponds to this template argument. Can be null if no type sugar is available to add to the type from the template argument.
LocThe source location to use for the resulting template argument.

Definition at line 2442 of file SemaTemplateDeduction.cpp.

References clang::TemplateArgument::getKind(), clang::TemplateArgument::Null, and clang::TemplateArgument::Type.

Referenced by ConvertDeducedTemplateArgument(), and getTrivialTypeTemplateArgument().

◆ GetTypeForDeclarator()

TypeSourceInfo * Sema::GetTypeForDeclarator ( Declarator D,
Scope S 
)

GetTypeForDeclarator - Convert the type for the specified declarator to Type instances.

The result of this call will never be null, but the associated type may be a null type if there's an unrecoverable error.

Definition at line 5039 of file SemaType.cpp.

References GetDeclSpecTypeForDeclarator(), GetFullTypeForDeclarator(), inferARCWriteback(), clang::Declarator::isPrototypeContext(), and clang::CodeGen::state.

◆ GetTypeForDeclaratorCast()

TypeSourceInfo * Sema::GetTypeForDeclaratorCast ( Declarator D,
QualType  FromTy 
)

Definition at line 5152 of file SemaType.cpp.

References GetDeclSpecTypeForDeclarator(), and clang::CodeGen::state.

◆ GetTypeFromParser()

QualType Sema::GetTypeFromParser ( ParsedType  Ty,
TypeSourceInfo **  TInfo = nullptr 
)
static

◆ getTypeName()

ParsedType Sema::getTypeName ( const IdentifierInfo II,
SourceLocation  NameLoc,
Scope S,
CXXScopeSpec SS = nullptr,
bool  isClassName = false,
bool  HasTrailingDot = false,
ParsedType  ObjectTypePtr = nullptr,
bool  IsCtorOrDtorName = false,
bool  WantNontrivialTypeSourceInfo = false,
bool  IsClassTemplateDeductionContext = true,
IdentifierInfo **  CorrectedII = nullptr 
)

If the identifier refers to a type name within this scope, return the declaration of that type.

This routine performs ordinary name lookup of the identifier II within the given scope, with optional C++ scope specifier SS, to determine whether the name refers to a type. If so, returns an opaque pointer (actually a QualType) corresponding to that type. Otherwise, returns NULL.

Definition at line 277 of file SemaDecl.cpp.

Referenced by ActOnPseudoDestructorExpr(), and clang::Parser::TryAnnotateTypeOrScopeTokenAfterScopeSpec().

◆ GetTypeSourceInfoForDeclarator()

TypeSourceInfo * Sema::GetTypeSourceInfoForDeclarator ( Declarator D,
QualType  T,
TypeSourceInfo ReturnTypeInfo 
)

Create and instantiate a TypeSourceInfo with type source information.

Parameters
TQualType referring to the type as written in source code.
ReturnTypeInfoFor declarators whose return type does not show up in the normal place in the declaration specifiers (such as a C++ conversion function), this pointer will refer to a type source information for that return type.

Definition at line 5620 of file SemaType.cpp.

◆ getTypoExprState()

const Sema::TypoExprState & Sema::getTypoExprState ( TypoExpr TE) const

Definition at line 5212 of file SemaLookup.cpp.

Referenced by attemptRecovery().

◆ getUndefinedButUsed()

void Sema::getUndefinedButUsed ( SmallVectorImpl< std::pair< NamedDecl *, SourceLocation > > &  Undefined)

Obtain a sorted list of functions that are undefined but ODR-used.

Obtains a sorted list of functions and variables that are undefined but ODR-used.

Definition at line 621 of file Sema.cpp.

References clang::VarDecl::DeclarationOnly, clang::Decl::hasAttr(), isExternalWithNoLinkageType(), clang::Decl::isInvalidDecl(), and UndefinedButUsed.

◆ getVariadicCallType()

Sema::VariadicCallType Sema::getVariadicCallType ( FunctionDecl FDecl,
const FunctionProtoType Proto,
Expr Fn 
)

◆ HandleDeclarator()

NamedDecl * Sema::HandleDeclarator ( Scope S,
Declarator D,
MultiTemplateParamsArg  TemplateParameterLists 
)

Definition at line 5340 of file SemaDecl.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ HandleDelayedAccessCheck()

void Sema::HandleDelayedAccessCheck ( sema::DelayedDiagnostic DD,
Decl Ctx 
)

◆ HandleDependentAccessCheck()

void Sema::HandleDependentAccessCheck ( const DependentDiagnostic DD,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ HandleExprEvaluationContextForTypeof()

ExprResult Sema::HandleExprEvaluationContextForTypeof ( Expr E)

Definition at line 14242 of file SemaExpr.cpp.

◆ HandleExprPropertyRefExpr()

ExprResult Sema::HandleExprPropertyRefExpr ( const ObjCObjectPointerType OPT,
Expr BaseExpr,
SourceLocation  OpLoc,
DeclarationName  MemberName,
SourceLocation  MemberLoc,
SourceLocation  SuperLoc,
QualType  SuperType,
bool  Super 
)

◆ HandleField()

FieldDecl * Sema::HandleField ( Scope S,
RecordDecl TagD,
SourceLocation  DeclStart,
Declarator D,
Expr BitfieldWidth,
InClassInitStyle  InitStyle,
AccessSpecifier  AS 
)

HandleField - Analyze a field of a C struct or a C++ data member.

Definition at line 15054 of file SemaDecl.cpp.

◆ HandleFunctionTypeMismatch()

void Sema::HandleFunctionTypeMismatch ( PartialDiagnostic PDiag,
QualType  FromType,
QualType  ToType 
)

HandleFunctionTypeMismatch - Gives diagnostic information for differeing function types.

Catches different number of parameter, mismatch in parameter types, and different return types.

Definition at line 2750 of file SemaOverload.cpp.

References ft_default, clang::Type::getAs(), clang::Type::isMemberPointerType(), and clang::QualType::isNull().

◆ HandleMSProperty()

MSPropertyDecl * Sema::HandleMSProperty ( Scope S,
RecordDecl TagD,
SourceLocation  DeclStart,
Declarator D,
Expr BitfieldWidth,
InClassInitStyle  InitStyle,
AccessSpecifier  AS,
const ParsedAttr MSPropertyAttr 
)

HandleMSProperty - Analyze a __delcspec(property) field of a C++ class.

Definition at line 15375 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus, Diag(), clang::Declarator::getIdentifier(), clang::Declarator::getIdentifierLoc(), clang::TypeSourceInfo::getType(), and clang::Declarator::setInvalidType().

◆ HandlePropertyInClassExtension()

ObjCPropertyDecl * Sema::HandlePropertyInClassExtension ( Scope S,
SourceLocation  AtLoc,
SourceLocation  LParenLoc,
FieldDeclarator FD,
Selector  GetterSel,
SourceLocation  GetterNameLoc,
Selector  SetterSel,
SourceLocation  SetterNameLoc,
const bool  isReadWrite,
unsigned &  Attributes,
const unsigned  AttributesAsWritten,
QualType  T,
TypeSourceInfo TSI,
tok::ObjCKeywordKind  MethodImplKind 
)

Called by ActOnProperty to handle @property declarations in class extensions.

Definition at line 413 of file SemaObjCProperty.cpp.

◆ handlerCanCatch()

bool clang::Sema::handlerCanCatch ( QualType  HandlerType,
QualType  ExceptionType 
)

◆ handleTagNumbering()

void Sema::handleTagNumbering ( const TagDecl Tag,
Scope TagScope 
)

Definition at line 4128 of file SemaDecl.cpp.

◆ hasAnyAcceptableTemplateNames()

bool Sema::hasAnyAcceptableTemplateNames ( LookupResult R,
bool  AllowFunctionTemplates = true 
)

Definition at line 155 of file SemaTemplate.cpp.

◆ hasAnyUnrecoverableErrorsInThisFunction()

bool Sema::hasAnyUnrecoverableErrorsInThisFunction ( ) const

Determine whether any errors occurred within this function/method/ block.

Definition at line 1435 of file Sema.cpp.

References clang::sema::FunctionScopeInfo::ErrorTrap, getCurFunction(), and clang::DiagnosticErrorTrap::hasUnrecoverableErrorOccurred().

◆ hasCStrMethod()

bool Sema::hasCStrMethod ( const Expr E)

Check to see if a given expression could have '.c_str()' called on it.

Check if we could call '.c_str()' on an object.

FIXME: This returns the wrong results in some cases (if cv-qualifiers don't allow the call, or if it would be ambiguous).

Definition at line 7253 of file SemaChecking.cpp.

◆ hasExplicitCallingConv()

bool Sema::hasExplicitCallingConv ( QualType T)

Definition at line 6848 of file SemaType.cpp.

References clang::QualType::IgnoreParens().

◆ hasMergedDefinitionInCurrentModule()

bool Sema::hasMergedDefinitionInCurrentModule ( NamedDecl Def)

◆ hasStructuralCompatLayout()

bool Sema::hasStructuralCompatLayout ( Decl D,
Decl Suggested 
)

Determine if D and Suggested have a structurally compatible layout as described in C11 6.2.7/1.

Definition at line 7510 of file SemaType.cpp.

References clang::Default, clang::Decl::getASTContext(), and clang::StructuralEquivalenceContext::IsEquivalent().

◆ hasVisibleDeclaration()

bool clang::Sema::hasVisibleDeclaration ( const NamedDecl D,
llvm::SmallVectorImpl< Module *> *  Modules = nullptr 
)
inline

Determine whether any declaration of an entity is visible.

Definition at line 1568 of file Sema.h.

Referenced by computeDeclContext().

◆ hasVisibleDeclarationSlow()

bool Sema::hasVisibleDeclarationSlow ( const NamedDecl D,
llvm::SmallVectorImpl< Module *> *  Modules 
)

◆ hasVisibleDefaultArgument()

bool Sema::hasVisibleDefaultArgument ( const NamedDecl D,
llvm::SmallVectorImpl< Module *> *  Modules = nullptr 
)

Determine if the template parameter D has a visible default argument.

Definition at line 1441 of file SemaLookup.cpp.

References hasVisibleDefaultArgument().

Referenced by diagnoseMissingArgument().

◆ hasVisibleDefinition() [1/2]

bool Sema::hasVisibleDefinition ( NamedDecl D,
NamedDecl **  Suggested,
bool  OnlyNeedComplete = false 
)

Determine if D has a visible definition.

Determine whether there is any declaration of D that was ever a definition (perhaps before module merging) and is currently visible.

If not, suggest a declaration that should be made visible to expose the definition.

Parameters
DThe definition of the entity.
SuggestedFilled in with the declaration that should be made visible in order to provide a definition of this entity.
OnlyNeedCompleteIf true, we only need the type to be complete, not defined. This only matters for enums with a fixed underlying type, since in all other cases, a type is complete if and only if it is defined.

Definition at line 7534 of file SemaType.cpp.

Referenced by hasVisibleMemberSpecialization(), and RequireCompleteDeclContext().

◆ hasVisibleDefinition() [2/2]

bool clang::Sema::hasVisibleDefinition ( const NamedDecl D)
inline

Definition at line 1586 of file Sema.h.

References hasVisibleDefaultArgument().

◆ hasVisibleExplicitSpecialization()

bool Sema::hasVisibleExplicitSpecialization ( const NamedDecl D,
llvm::SmallVectorImpl< Module *> *  Modules = nullptr 
)

Determine if there is a visible declaration of D that is an explicit specialization declaration for a specialization of a template.

(For a member specialization, use hasVisibleMemberSpecialization.)

Definition at line 1481 of file SemaLookup.cpp.

References hasVisibleDeclarationImpl(), and clang::TSK_ExplicitSpecialization.

◆ hasVisibleMemberSpecialization()

bool Sema::hasVisibleMemberSpecialization ( const NamedDecl D,
llvm::SmallVectorImpl< Module *> *  Modules = nullptr 
)

◆ hasVisibleMergedDefinition()

bool Sema::hasVisibleMergedDefinition ( NamedDecl Def)

Definition at line 1395 of file SemaLookup.cpp.

Referenced by hasVisibleMemberSpecialization().

◆ HideUsingShadowDecl()

void Sema::HideUsingShadowDecl ( Scope S,
UsingShadowDecl Shadow 
)

Hides a using shadow declaration.

This is required by the current using-decl implementation when a resolvable using declaration in a class is followed by a declaration which would hide or override one or more of the using decl's targets; for example:

struct Base { void foo(int); }; struct Derived : Base { using Base::foo; void foo(int); };

The governing language is C++03 [namespace.udecl]p12:

When a using-declaration brings names from a base class into a derived class scope, member functions in the derived class override and/or hide member functions with the same name and parameter types in a base class (rather than conflicting).

There are two ways to implement this: (1) optimistically create shadow decls when they're not hidden by existing declarations, or (2) don't create any shadow decls (or at least don't make them visible) until we've fully parsed/instantiated the class. The problem with (1) is that we might have to retroactively remove a shadow decl, which requires several O(n) operations because the decl structures are (very reasonably) not designed for removal. (2) avoids this but is very fiddly and phase-dependent.

Definition at line 9684 of file SemaDeclCXX.cpp.

References clang::DeclarationName::CXXConversionFunctionName, clang::Decl::getDeclContext(), clang::NamedDecl::getDeclName(), clang::DeclarationName::getNameKind(), clang::UsingShadowDecl::getUsingDecl(), clang::Scope::RemoveDecl(), clang::DeclContext::removeDecl(), and clang::UsingDecl::removeShadowDecl().

◆ IdentifyCUDAPreference()

Sema::CUDAFunctionPreference Sema::IdentifyCUDAPreference ( const FunctionDecl Caller,
const FunctionDecl Callee 
)

Identifies relative preference of a given Caller/Callee combination, based on their host/device attributes.

Parameters
Callerfunction which needs address of Callee. nullptr in case of global context.
Calleetarget function
Returns
preference value for particular Caller/Callee combination.

Definition at line 163 of file SemaCUDA.cpp.

References CFP_HostDevice, CFP_Native, CFP_Never, CFP_SameSide, CFP_WrongSide, CFT_Device, CFT_Global, CFT_Host, CFT_HostDevice, CFT_InvalidTarget, getLangOpts(), and IdentifyCUDATarget().

Referenced by CheckCUDACall(), and isNonPlacementDeallocationFunction().

◆ IdentifyCUDATarget() [1/2]

Sema::CUDAFunctionTarget Sema::IdentifyCUDATarget ( const FunctionDecl D,
bool  IgnoreImplicitHDAttr = false 
)

Determines whether the given function is a CUDA device/host/kernel/etc.

IdentifyCUDATarget - Determine the CUDA compilation target for this function.

function.

Use this rather than examining the function's attributes yourself – you will get it wrong. Returns CFT_Host if D is null.

Definition at line 107 of file SemaCUDA.cpp.

References CFT_Device, CFT_Global, CFT_Host, CFT_HostDevice, CFT_InvalidTarget, clang::Decl::hasAttr(), and clang::Decl::isImplicit().

Referenced by checkAllowedCUDAInitializer(), CheckCUDACall(), checkCUDATargetOverload(), CUDASetLambdaAttrs(), IdentifyCUDAPreference(), inferCUDATargetForImplicitSpecialMember(), and IsKnownEmitted().

◆ IdentifyCUDATarget() [2/2]

Sema::CUDAFunctionTarget Sema::IdentifyCUDATarget ( const ParsedAttributesView Attrs)

Definition at line 59 of file SemaCUDA.cpp.

References CFT_Device, CFT_Global, CFT_Host, CFT_HostDevice, and CFT_InvalidTarget.

◆ IgnoredValueConversions()

ExprResult Sema::IgnoredValueConversions ( Expr E)

IgnoredValueConversions - Given that an expression's result is syntactically ignored, perform any conversions that are required.

Perform the conversions required for an expression used in a context that ignores the result.

Definition at line 7267 of file SemaExprCXX.cpp.

References CheckPlaceholderExpr(), DefaultFunctionArrayConversion(), clang::ActionResult< PtrTy, CompressInvalid >::get(), getLangOpts(), clang::Expr::getType(), clang::Expr::hasPlaceholderType(), clang::Type::isFunctionType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), and clang::Expr::isRValue().

Referenced by ActOnFinishFullExpr(), CheckCommaOperands(), DiagnoseBadFunctionCast(), and TryReinterpretCast().

◆ ImpCastExprToType()

ExprResult Sema::ImpCastExprToType ( Expr E,
QualType  Ty,
CastKind  Kind,
ExprValueKind  VK = VK_RValue,
const CXXCastPath BasePath = nullptr,
CheckedConversionKind  CCK = CCK_ImplicitConversion 
)

◆ ImplicitlyDefineFunction()

NamedDecl * Sema::ImplicitlyDefineFunction ( SourceLocation  Loc,
IdentifierInfo II,
Scope S 
)

ImplicitlyDefineFunction - An undeclared identifier was used in a function call, forming a call to an implicitly defined function (per C99 6.5.1p2).

Definition at line 13316 of file SemaDecl.cpp.

◆ ImplMethodsVsClassMethods()

void Sema::ImplMethodsVsClassMethods ( Scope S,
ObjCImplDecl IMPDecl,
ObjCContainerDecl IDecl,
bool  IncompleteImpl = false 
)

ImplMethodsVsClassMethods - This is main routine to warn if any method remains unimplemented in the class or category @implementation.

Definition at line 2934 of file SemaDeclObjC.cpp.

◆ incrementMSManglingNumber()

void clang::Sema::incrementMSManglingNumber ( ) const
inline

◆ inferCUDATargetForImplicitSpecialMember()

bool Sema::inferCUDATargetForImplicitSpecialMember ( CXXRecordDecl ClassDecl,
CXXSpecialMember  CSM,
CXXMethodDecl MemberDecl,
bool  ConstRHS,
bool  Diagnose 
)

Given a implicit special member, infer its CUDA target from the calls it needs to make to underlying base/field special members.

Parameters
ClassDeclthe class for which the member is being created.
CSMthe kind of special member.
MemberDeclthe special member itself.
ConstRHStrue if this is a copy operation with a const object on its RHS.
Diagnosetrue if this call should emit diagnostics.
Returns
true if there was an error inferring. The result of this call is implicit CUDA target attribute(s) attached to the member declaration.

Definition at line 266 of file SemaCUDA.cpp.

References clang::Decl::addAttr(), clang::CXXRecordDecl::bases(), CFT_Device, CFT_Host, Context, Diag(), clang::RecordDecl::fields(), clang::Type::getAs(), clang::ASTContext::getBaseElementType(), clang::RecordType::getDecl(), clang::Decl::getLocation(), IdentifyCUDATarget(), clang::CXXRecordDecl::isAbstract(), LookupSpecialMember(), resolveCalleeCUDATargetConflict(), and clang::CXXRecordDecl::vbases().

◆ inferObjCARCLifetime()

bool Sema::inferObjCARCLifetime ( ValueDecl decl)

◆ inheritCUDATargetAttrs()

void Sema::inheritCUDATargetAttrs ( FunctionDecl FD,
const FunctionTemplateDecl TD 
)

Copies target attributes from the template TD to the function FD.

Definition at line 954 of file SemaCUDA.cpp.

References clang::FunctionTemplateDecl::getTemplatedDecl().

◆ Initialize()

void Sema::Initialize ( )

Perform initialization that occurs after the parser has been initialized but before it parses anything.

Definition at line 186 of file Sema.cpp.

References addImplicitTypedef(), clang::OpenCLOptions::addSupport(), clang::IdentifierResolver::begin(), clang::ASTContext::buildImplicitRecord(), Consumer, Context, clang::ASTContext::DoubleTy, clang::OpenCLOptions::enableSupportedCore(), clang::IdentifierResolver::end(), clang::ASTContext::FloatTy, clang::IdentifierTable::get(), clang::ASTContext::getAtomicType(), clang::ASTContext::getCFConstantStringDecl(), clang::ASTContext::getExternalSource(), clang::Preprocessor::getIdentifierInfo(), clang::ASTContext::getInt128Decl(), clang::ASTContext::getIntPtrType(), getLangOpts(), clang::ASTContext::getObjCClassDecl(), clang::ASTContext::getObjCIdDecl(), clang::ASTContext::getObjCProtocolDecl(), clang::ASTContext::getObjCSelDecl(), getOpenCLOptions(), clang::ASTContext::getPointerDiffType(), clang::ASTContext::getSizeType(), clang::TargetInfo::getSupportedOpenCLOpts(), clang::ASTContext::getTargetInfo(), clang::ASTContext::getTypeSize(), clang::ASTContext::getUInt128Decl(), clang::ASTContext::getUIntPtrType(), clang::TargetInfo::hasInt128Type(), Id, clang::ASTContext::Idents, IdResolver, clang::ASTContext::IntTy, clang::ASTContext::LongTy, clang::ASTContext::OCLClkEventTy, clang::ASTContext::OCLEventTy, clang::ASTContext::OCLQueueTy, clang::ASTContext::OCLReserveIDTy, clang::ASTContext::OCLSamplerTy, PP, PushOnScopeChains(), clang::TTK_Class, TUScope, clang::ASTContext::UnsignedIntTy, clang::ASTContext::UnsignedLongTy, and VAListTagName.

Referenced by clang::Parser::Initialize().

◆ InstantiateAttrs()

void Sema::InstantiateAttrs ( const MultiLevelTemplateArgumentList TemplateArgs,
const Decl Pattern,
Decl Inst,
LateInstantiatedAttrVec LateAttrs = nullptr,
LocalInstantiationScope OuterMostScope = nullptr 
)

◆ InstantiateAttrsForDecl()

void Sema::InstantiateAttrsForDecl ( const MultiLevelTemplateArgumentList TemplateArgs,
const Decl Pattern,
Decl Inst,
LateInstantiatedAttrVec LateAttrs = nullptr,
LocalInstantiationScope OuterMostScope = nullptr 
)

◆ InstantiateClass()

bool Sema::InstantiateClass ( SourceLocation  PointOfInstantiation,
CXXRecordDecl Instantiation,
CXXRecordDecl Pattern,
const MultiLevelTemplateArgumentList TemplateArgs,
TemplateSpecializationKind  TSK,
bool  Complain = true 
)

Instantiate the definition of a class from a given pattern.

Parameters
PointOfInstantiationThe point of instantiation within the source code.
Instantiationis the declaration whose definition is being instantiated. This will be either a class template specialization or a member class of a class template specialization.
Patternis the pattern from which the instantiation occurs. This will be either the declaration of a class template or the declaration of a member class of a class template.
TemplateArgsThe template arguments to be substituted into the pattern.
TSKthe kind of implicit or explicit instantiation to perform.
Complainwhether to complain if the class cannot be instantiated due to the lack of a definition.
Returns
true if an error occurred, false otherwise.

Definition at line 1988 of file SemaTemplateInstantiate.cpp.

References ActOnFields(), ActOnFinishCXXNonNestedClass(), CheckCompletedCXXClass(), Context, clang::DeclContext::decls(), DiagnoseUninstantiableTemplate(), clang::TemplateDeclInstantiator::enableLateAttributeInstantiation(), clang::CXXRecordDecl::getDefinition(), clang::CXXRecordDecl::getInstantiatedFromMemberClass(), clang::Decl::getLocation(), clang::CXXRecordDecl::getMemberSpecializationInfo(), clang::TagDecl::getTagKind(), InstantiateAttrs(), clang::Sema::InstantiatingTemplate::isAlreadyInstantiating(), clang::Decl::isDefinedOutsideFunctionOrMethod(), clang::Sema::InstantiatingTemplate::isInvalid(), clang::Decl::isInvalidDecl(), PotentiallyEvaluated, clang::Decl::setInvalidDecl(), clang::MemberSpecializationInfo::setPointOfInstantiation(), clang::TagDecl::setTagKind(), clang::MemberSpecializationInfo::setTemplateSpecializationKind(), clang::CXXRecordDecl::setTemplateSpecializationKind(), clang::Decl::setVisibleDespiteOwningModule(), clang::TagDecl::startDefinition(), SubstBaseSpecifiers(), clang::TSK_ImplicitInstantiation, and clang::declvisitor::Base< Ptr, ImplClass, RetTy >::Visit().

Referenced by InstantiateClassMembers(), and InstantiateClassTemplateSpecialization().

◆ InstantiateClassMembers()

void Sema::InstantiateClassMembers ( SourceLocation  PointOfInstantiation,
CXXRecordDecl Instantiation,
const MultiLevelTemplateArgumentList TemplateArgs,
TemplateSpecializationKind  TSK 
)

◆ InstantiateClassTemplateSpecialization()

bool Sema::InstantiateClassTemplateSpecialization ( SourceLocation  PointOfInstantiation,
ClassTemplateSpecializationDecl ClassTemplateSpec,
TemplateSpecializationKind  TSK,
bool  Complain = true 
)

◆ InstantiateClassTemplateSpecializationMembers()

void Sema::InstantiateClassTemplateSpecializationMembers ( SourceLocation  PointOfInstantiation,
ClassTemplateSpecializationDecl ClassTemplateSpec,
TemplateSpecializationKind  TSK 
)

Instantiate the definitions of all of the members of the given class template specialization, which was named as part of an explicit instantiation.

Definition at line 2756 of file SemaTemplateInstantiate.cpp.

References getTemplateInstantiationArgs(), and InstantiateClassMembers().

◆ InstantiateEnum()

bool Sema::InstantiateEnum ( SourceLocation  PointOfInstantiation,
EnumDecl Instantiation,
EnumDecl Pattern,
const MultiLevelTemplateArgumentList TemplateArgs,
TemplateSpecializationKind  TSK 
)

Instantiate the definition of an enum from a given pattern.

Parameters
PointOfInstantiationThe point of instantiation within the source code.
Instantiationis the declaration whose definition is being instantiated. This will be a member enumeration of a class temploid specialization, or a local enumeration within a function temploid specialization.
PatternThe templated declaration from which the instantiation occurs.
TemplateArgsThe template arguments to be substituted into the pattern.
TSKThe kind of implicit or explicit instantiation to perform.
Returns
true if an error occurred, false otherwise.

Definition at line 2221 of file SemaTemplateInstantiate.cpp.

References Context, DiagnoseUninstantiableTemplate(), clang::EnumDecl::getDefinition(), clang::EnumDecl::getInstantiatedFromMemberEnum(), clang::EnumDecl::getMemberSpecializationInfo(), InstantiateAttrs(), clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), clang::Sema::InstantiatingTemplate::isAlreadyInstantiating(), clang::Sema::InstantiatingTemplate::isInvalid(), clang::Decl::isInvalidDecl(), clang::Sema::ContextRAII::pop(), PotentiallyEvaluated, clang::EnumDecl::setTemplateSpecializationKind(), and clang::Decl::setVisibleDespiteOwningModule().

Referenced by InstantiateClassMembers(), and RequireCompleteDeclContext().

◆ InstantiateExceptionSpec()

void Sema::InstantiateExceptionSpec ( SourceLocation  PointOfInstantiation,
FunctionDecl Function 
)

◆ InstantiateFunctionDeclaration()

FunctionDecl * Sema::InstantiateFunctionDeclaration ( FunctionTemplateDecl FTD,
const TemplateArgumentList Args,
SourceLocation  Loc 
)

Instantiate (or find existing instantiation of) a function template with a given set of template arguments.

Usually this should not be used, and template argument deduction should be used in its place.

Definition at line 3724 of file SemaTemplateInstantiateDecl.cpp.

References clang::TemplateArgumentList::asArray(), clang::DeclContext::getParent(), and clang::FunctionTemplateDecl::getTemplatedDecl().

◆ InstantiateFunctionDefinition()

void Sema::InstantiateFunctionDefinition ( SourceLocation  PointOfInstantiation,
FunctionDecl Function,
bool  Recursive = false,
bool  DefinitionRequired = false,
bool  AtEndOfTU = false 
)

Instantiate the definition of the given function from its template.

Parameters
PointOfInstantiationthe point at which the instantiation was required. Note that this is not precisely a "point of instantiation" for the function, but it's close.
Functionthe already-instantiated declaration of a function template specialization or member function of a class template specialization.
Recursiveif true, recursively instantiates any functions that are required by this instantiation.
DefinitionRequiredif true, then we are performing an explicit instantiation where the body of the function is required. Complain if there is no such body.

Definition at line 3780 of file SemaTemplateInstantiateDecl.cpp.

References Diag(), clang::FunctionDecl::getBody(), clang::FunctionDecl::getClassScopeSpecializationPattern(), clang::Type::getContainedAutoType(), clang::FunctionDecl::getDefinition(), clang::FunctionDecl::getInstantiatedFromMemberFunction(), clang::Decl::getLocation(), clang::DeclaratorDecl::getLocStart(), clang::Redeclarable< decl_type >::getMostRecentDecl(), clang::Decl::getPreviousDecl(), clang::FunctionDecl::getReturnType(), clang::FunctionDecl::getTemplateInstantiationPattern(), clang::FunctionDecl::getTemplateSpecializationKind(), clang::FunctionDecl::hasSkippedBody(), clang::Sema::InstantiatingTemplate::isAlreadyInstantiating(), clang::FunctionDecl::isDefaulted(), clang::FunctionDecl::isDefined(), clang::Decl::isFromASTFile(), clang::FunctionDecl::isInlined(), clang::Sema::InstantiatingTemplate::isInvalid(), clang::Decl::isInvalidDecl(), clang::FunctionDecl::isLateTemplateParsed(), clang::FunctionDecl::setInstantiationIsPending(), clang::Decl::setInvalidDecl(), clang::TSK_ExplicitInstantiationDeclaration, clang::TSK_ExplicitInstantiationDefinition, clang::TSK_ExplicitSpecialization, clang::TSK_ImplicitInstantiation, and clang::FunctionDecl::willHaveBody().

Referenced by InstantiateClassMembers(), isEmptyCudaConstructor(), and isEmptyCudaDestructor().

◆ InstantiateInClassInitializer()

bool Sema::InstantiateInClassInitializer ( SourceLocation  PointOfInstantiation,
FieldDecl Instantiation,
FieldDecl Pattern,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Instantiate the definition of a field from the given pattern.

Parameters
PointOfInstantiationThe point of instantiation within the source code.
Instantiationis the declaration whose definition is being instantiated. This will be a class of a class temploid specialization, or a local enumeration within a function temploid specialization.
PatternThe templated declaration from which the instantiation occurs.
TemplateArgsThe template arguments to be substituted into the pattern.
Returns
true if an error occurred, false otherwise.

Definition at line 2286 of file SemaTemplateInstantiate.cpp.

References ActOnFinishCXXInClassMemberInitializer(), ActOnStartCXXInClassMemberInitializer(), Context, Diag(), getASTMutationListener(), clang::FieldDecl::getInClassInitializer(), clang::FieldDecl::getInClassInitStyle(), clang::Stmt::getLocStart(), clang::DeclContext::getOuterLexicalRecordContext(), clang::FieldDecl::getParent(), clang::FieldDecl::hasInClassInitializer(), clang::Sema::InstantiatingTemplate::isAlreadyInstantiating(), clang::Sema::InstantiatingTemplate::isInvalid(), PotentiallyEvaluated, clang::Decl::setInvalidDecl(), and SubstInitializer().

Referenced by InstantiateClassMembers().

◆ InstantiateMemInitializers()

void Sema::InstantiateMemInitializers ( CXXConstructorDecl New,
const CXXConstructorDecl Tmpl,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ InstantiateVariableDefinition()

void Sema::InstantiateVariableDefinition ( SourceLocation  PointOfInstantiation,
VarDecl Var,
bool  Recursive = false,
bool  DefinitionRequired = false,
bool  AtEndOfTU = false 
)

Instantiate the definition of the given variable from its template.

Parameters
PointOfInstantiationthe point at which the instantiation was required. Note that this is not precisely a "point of instantiation" for the variable, but it's close.
Varthe already-instantiated declaration of a templated variable.
Recursiveif true, recursively instantiates any functions that are required by this instantiation.
DefinitionRequiredif true, then we are performing an explicit instantiation where a definition of the variable is required. Complain if there is no such definition.

Definition at line 4247 of file SemaTemplateInstantiateDecl.cpp.

References clang::TemplateSpecializationType::anyDependentTemplateArguments(), clang::VarTemplatePartialSpecializationDecl::getInstantiatedFromMember(), clang::VarTemplateDecl::getInstantiatedFromMemberTemplate(), clang::VarTemplateSpecializationDecl::getSpecializedTemplate(), clang::VarTemplateSpecializationDecl::getSpecializedTemplateOrPartial(), clang::VarTemplateSpecializationDecl::getTemplateArgsInfo(), clang::VarTemplateDecl::getTemplatedDecl(), clang::VarDecl::hasInit(), clang::Sema::InstantiatingTemplate::isAlreadyInstantiating(), clang::Sema::InstantiatingTemplate::isInvalid(), clang::Decl::isInvalidDecl(), clang::RedeclarableTemplateDecl::isMemberSpecialization(), and clang::VarTemplatePartialSpecializationDecl::isMemberSpecialization().

Referenced by InstantiateClassMembers().

◆ InstantiateVariableInitializer()

void Sema::InstantiateVariableInitializer ( VarDecl Var,
VarDecl OldVar,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ inTemplateInstantiation()

bool clang::Sema::inTemplateInstantiation ( ) const
inline

◆ InvalidLogicalVectorOperands()

QualType Sema::InvalidLogicalVectorOperands ( SourceLocation  Loc,
ExprResult LHS,
ExprResult RHS 
)

◆ InvalidOperands()

QualType Sema::InvalidOperands ( SourceLocation  Loc,
ExprResult LHS,
ExprResult RHS 
)

the following "Check" methods will return a valid/converted QualType or a null QualType (indicating an error diagnostic was issued).

type checking binary operators (subroutines of CreateBuiltinBinOp).

Definition at line 8181 of file SemaExpr.cpp.

References Diag(), and clang::ActionResult< PtrTy, CompressInvalid >::get().

Referenced by checkArithmeticOrEnumeralCompare(), checkArithmeticOrEnumeralThreeWayCompare(), and convertPointersToCompositeType().

◆ isAbstractType()

bool Sema::isAbstractType ( SourceLocation  Loc,
QualType  T 
)

Definition at line 5233 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus.

Referenced by EvaluateBinaryTypeTrait().

◆ isAcceptableNestedNameSpecifier()

bool Sema::isAcceptableNestedNameSpecifier ( const NamedDecl SD,
bool IsExtension = nullptr 
)

Determines whether the given declaration is an valid acceptable result for name lookup of a nested-name-specifier.

Parameters
SDDeclaration checked for nested-name-specifier.
IsExtensionIf not null and the declaration is accepted as an extension, the pointed variable is assigned true.

Definition at line 313 of file SemaCXXScopeSpec.cpp.

References Context, clang::ASTContext::getLangOpts(), clang::ASTContext::getTypeDeclType(), clang::NamedDecl::getUnderlyingDecl(), and clang::Type::isDependentType().

◆ isAcceptableTagRedeclaration()

bool Sema::isAcceptableTagRedeclaration ( const TagDecl Previous,
TagTypeKind  NewTag,
bool  isDefinition,
SourceLocation  NewTagLoc,
const IdentifierInfo Name 
)

Determine whether a tag with a given kind is acceptable as a redeclaration of the given tag declaration.

Returns
true if the new tag kind is acceptable, false otherwise.

Definition at line 13724 of file SemaDecl.cpp.

Referenced by clang::TreeTransform< Derived >::RebuildDependentNameType().

◆ IsAllowedCUDACall()

bool clang::Sema::IsAllowedCUDACall ( const FunctionDecl Caller,
const FunctionDecl Callee 
)
inline

Determines whether Caller may invoke Callee, based on their CUDA host/device attributes.

Returns false if the call is not allowed.

Note: Will return true for CFP_WrongSide calls. These may appear in semantically correct CUDA programs, but only if they're never codegen'ed.

Definition at line 10109 of file Sema.h.

◆ IsBlockPointerConversion()

bool Sema::IsBlockPointerConversion ( QualType  FromType,
QualType  ToType,
QualType ConvertedType 
)

Definition at line 2632 of file SemaOverload.cpp.

References clang::Type::getAs(), and clang::Type::getPointeeType().

Referenced by IsStandardConversion().

◆ isCast()

static bool clang::Sema::isCast ( CheckedConversionKind  CCK)
inlinestatic

Definition at line 9310 of file Sema.h.

References clang::VK_RValue.

Referenced by diagnoseObjCARCConversion(), and PerformImplicitConversion().

◆ isCompleteType()

bool clang::Sema::isCompleteType ( SourceLocation  Loc,
QualType  T 
)
inline

◆ IsComplexPromotion()

bool Sema::IsComplexPromotion ( QualType  FromType,
QualType  ToType 
)

Determine if a conversion is a complex promotion.

A complex promotion is defined as a complex -> complex conversion where the conversion between the underlying real types is a floating-point or integral promotion.

Definition at line 2148 of file SemaOverload.cpp.

References clang::Type::getAs(), and clang::ComplexType::getElementType().

Referenced by IsStandardConversion().

◆ isCopyElisionCandidate()

bool Sema::isCopyElisionCandidate ( QualType  ReturnType,
const VarDecl VD,
CopyElisionSemanticsKind  CESK 
)

◆ isCurrentClassName()

bool Sema::isCurrentClassName ( const IdentifierInfo II,
Scope S,
const CXXScopeSpec SS = nullptr 
)

isCurrentClassName - Determine whether the identifier II is the name of the class type currently being defined.

In the case of nested classes, this will only return true if II is the name of the innermost class.

Definition at line 2088 of file SemaDeclCXX.cpp.

References clang::NamedDecl::getIdentifier().

Referenced by clang::Parser::ParseUnqualifiedId().

◆ isCurrentClassNameTypo()

bool Sema::isCurrentClassNameTypo ( IdentifierInfo *&  II,
const CXXScopeSpec SS 
)

Determine whether the identifier II is a typo for the name of the class type currently being defined.

If so, update it to the identifier that should have been used.

Definition at line 2097 of file SemaDeclCXX.cpp.

References clang::frontend::CPlusPlus, clang::IdentifierInfo::getLength(), clang::IdentifierInfo::getName(), clang::CXXScopeSpec::isInvalid(), and clang::CXXScopeSpec::isSet().

◆ isDeclInScope()

bool Sema::isDeclInScope ( NamedDecl D,
DeclContext Ctx,
Scope S = nullptr,
bool  AllowInlineNamespace = false 
)

isDeclInScope - If 'Ctx' is a function/method, isDeclInScope returns true if 'D' is in Scope 'S', otherwise 'S' is ignored and isDeclInScope returns true if 'D' belongs to the given declaration context.

Parameters
AllowInlineNamespaceIf true, allow the declaration to be in the enclosing namespace set of the context, rather than contained directly within it.

Definition at line 1407 of file SemaDecl.cpp.

◆ isDeductionGuideName()

bool Sema::isDeductionGuideName ( Scope S,
const IdentifierInfo Name,
SourceLocation  NameLoc,
ParsedTemplateTy Template = nullptr 
)

Determine whether a particular identifier might be the name in a C++1z deduction-guide declaration.

Definition at line 256 of file SemaTemplate.cpp.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ isDependentScopeSpecifier()

bool Sema::isDependentScopeSpecifier ( const CXXScopeSpec SS)

◆ IsDerivedFrom() [1/2]

bool Sema::IsDerivedFrom ( SourceLocation  Loc,
QualType  Derived,
QualType  Base 
)

◆ IsDerivedFrom() [2/2]

bool Sema::IsDerivedFrom ( SourceLocation  Loc,
QualType  Derived,
QualType  Base,
CXXBasePaths Paths 
)

Determine whether the type Derived is a C++ class that is derived from the type Base.

Definition at line 2516 of file SemaDeclCXX.cpp.

◆ isEmptyCudaConstructor()

bool Sema::isEmptyCudaConstructor ( SourceLocation  Loc,
CXXConstructorDecl CD 
)

◆ isEmptyCudaDestructor()

bool Sema::isEmptyCudaDestructor ( SourceLocation  Loc,
CXXDestructorDecl CD 
)

◆ isEquivalentInternalLinkageDeclaration()

bool Sema::isEquivalentInternalLinkageDeclaration ( const NamedDecl A,
const NamedDecl B 
)

Determine if A and B are equivalent internal linkage declarations from different modules, and thus an ambiguity error can be downgraded to an extension warning.

Determine whether two declarations are "equivalent" for the purposes of name lookup and overload resolution.

This applies when the same internal/no linkage entity is defined by two modules (probably by textually including the same header). In such a case, we don't consider the declarations to declare the same entity, but we also don't want lookups with both declarations visible to be ambiguous in some cases (this happens when using a modularized libstdc++).

Definition at line 9248 of file SemaOverload.cpp.

◆ isExternalWithNoLinkageType()

bool Sema::isExternalWithNoLinkageType ( ValueDecl VD)

Determine if VD, which must be a variable or function, is an external symbol that nonetheless can't be referenced from outside this translation unit because its type has no linkage and it's not extern "C".

Determine whether ND is an external-linkage function or variable whose type has no linkage.

Definition at line 610 of file Sema.cpp.

References getLangOpts(), clang::Type::getLinkage(), clang::ValueDecl::getType(), clang::NamedDecl::hasExternalFormalLinkage(), clang::isExternalFormalLinkage(), and isFunctionOrVarDeclExternC().

Referenced by getUndefinedButUsed(), and clang::MarkVarDeclODRUsed().

◆ IsFloatingPointPromotion()

bool Sema::IsFloatingPointPromotion ( QualType  FromType,
QualType  ToType 
)

IsFloatingPointPromotion - Determines whether the conversion from FromType to ToType is a floating point promotion (C++ 4.6).

If so, returns true and sets PromotedType to the promoted type.

An rvalue of type float can be converted to an rvalue of type double. (C++ 4.6p1).

Definition at line 2114 of file SemaOverload.cpp.

References clang::Type::getAs().

Referenced by IsStandardConversion().

◆ isFunctionConsideredUnavailable()

bool Sema::isFunctionConsideredUnavailable ( FunctionDecl FD)

Checks availability of the function depending on the current function context.Inside an unavailable function,unavailability is ignored.

Checks availability of the function depending on the current function context.

Returns
true if FD is unavailable and current context is inside an available function, false otherwise.

Inside an unavailable function, unavailability is ignored.

Returns
true if
  • FD is unavailable and current context is inside an available function, false otherwise.

Definition at line 1208 of file SemaOverload.cpp.

References clang::Decl::getDeclContext(), and clang::Decl::isUnavailable().

◆ IsFunctionConversion()

bool Sema::IsFunctionConversion ( QualType  FromType,
QualType  ToType,
QualType ResultTy 
)

Determine whether the conversion from FromType to ToType is a valid conversion that strips "noexcept" or "noreturn" off the nested function type.

Definition at line 1436 of file SemaOverload.cpp.

Referenced by checkPointerTypesForAssignment(), handlerCanCatch(), and IsStandardConversion().

◆ isImplicitlyDeleted()

bool Sema::isImplicitlyDeleted ( FunctionDecl FD)

Determine whether the given function is an implicitly-deleted special member function.

Definition at line 12602 of file SemaDeclCXX.cpp.

References clang::FunctionDecl::isDefaulted(), and clang::FunctionDecl::isDeleted().

◆ isIncompatibleTypedef()

bool Sema::isIncompatibleTypedef ( TypeDecl Old,
TypedefNameDecl New 
)

◆ isInitListConstructor()

bool Sema::isInitListConstructor ( const FunctionDecl Ctor)

◆ isInOpenMPDeclareTargetContext()

bool clang::Sema::isInOpenMPDeclareTargetContext ( ) const
inline

Return true inside OpenMP declare target region.

Definition at line 8752 of file Sema.h.

◆ isInOpenMPTargetExecutionDirective()

bool Sema::isInOpenMPTargetExecutionDirective ( ) const

Return true inside OpenMP target region.

Definition at line 1417 of file SemaOpenMP.cpp.

References DSAStack, and clang::isOpenMPTargetExecutionDirective().

◆ IsInsideALocalClassWithinATemplateFunction()

bool Sema::IsInsideALocalClassWithinATemplateFunction ( )

◆ IsIntegralPromotion()

bool Sema::IsIntegralPromotion ( Expr From,
QualType  FromType,
QualType  ToType 
)

IsIntegralPromotion - Determines whether the conversion from the expression From (whose potentially-adjusted type is FromType) to ToType is an integral promotion (C++ 4.5).

If so, returns true and sets PromotedType to the promoted type.

Definition at line 1953 of file SemaOverload.cpp.

References clang::Type::getAs(), clang::Type::isBooleanType(), clang::Type::isEnumeralType(), clang::Type::isPromotableIntegerType(), and clang::Type::isSignedIntegerType().

Referenced by IsStandardConversion().

◆ IsInvalidUnlessNestedName()

bool Sema::IsInvalidUnlessNestedName ( Scope S,
CXXScopeSpec SS,
NestedNameSpecInfo IdInfo,
bool  EnteringContext 
)

IsInvalidUnlessNestedName - This method is used for error recovery purposes to determine whether the specified identifier is only valid as a nested name specifier, for example a namespace name.

It is conservatively correct to always return false from this method.

The arguments are the same as those passed to ActOnCXXNestedNameSpecifier.

Definition at line 872 of file SemaCXXScopeSpec.cpp.

◆ isKnownName()

bool Sema::isKnownName ( StringRef  name)

Definition at line 3486 of file SemaExprObjC.cpp.

Referenced by diagnoseObjCARCConversion().

◆ isLaxVectorConversion()

bool Sema::isLaxVectorConversion ( QualType  srcType,
QualType  destType 
)

Is this a legal conversion between two types, one of which is known to be a vector type?

Definition at line 6054 of file SemaExpr.cpp.

References clang::Type::isVectorType().

Referenced by IsVectorConversion().

◆ isLibstdcxxEagerExceptionSpecHack()

bool clang::Sema::isLibstdcxxEagerExceptionSpecHack ( const Declarator D)

Determine if we're in a case where we need to (incorrectly) eagerly parse an exception specification to work around a libstdc++ bug.

HACK: libstdc++ has a bug where it shadows std::swap with a member swap function then tries to call std::swap unqualified from the exception specification of that function.

This function detects whether we're in such a case and turns off delay-parsing of exception specifications.

Definition at line 42 of file SemaExceptionSpec.cpp.

References Context, CurContext, clang::Declarator::getIdentifier(), clang::Declarator::getLocStart(), clang::ASTContext::getSourceManager(), clang::SourceManager::isInSystemHeader(), clang::DeclContext::isStdNamespace(), and clang::IdentifierInfo::isStr().

◆ IsMemberPointerConversion()

bool Sema::IsMemberPointerConversion ( Expr From,
QualType  FromType,
QualType  ToType,
bool  InOverloadResolution,
QualType ConvertedType 
)

IsMemberPointerConversion - Determines whether the conversion of the expression From, which has the (possibly adjusted) type FromType, can be converted to the type ToType via a member pointer conversion (C++ 4.11).

If so, returns true and places the converted type (that might differ from ToType in its cv-qualifiers at some level) into ConvertedType.

Definition at line 2959 of file SemaOverload.cpp.

References clang::Type::getAs(), and clang::Expr::isNullPointerConstant().

Referenced by IsStandardConversion().

◆ isMicrosoftMissingTypename()

bool Sema::isMicrosoftMissingTypename ( const CXXScopeSpec SS,
Scope S 
)

isMicrosoftMissingTypename - In Microsoft mode, within class scope, if a CXXScopeSpec's type is equal to the type of one of the base classes then downgrade the missing typename error to a warning.

This is needed for MSVC compatibility; Example:

template<class T> class A {
public:
typedef int TYPE;
};
template<class T> class B : public A<T> {
public:
A<T>::TYPE a; // no typename required because A<T> is a base class.
};

Definition at line 638 of file SemaDecl.cpp.

◆ isModuleVisible()

bool clang::Sema::isModuleVisible ( const Module M)
inline

Definition at line 1559 of file Sema.h.

References clang::VisibleModuleSet::isVisible().

Referenced by hasVisibleMemberSpecialization().

◆ isMoreSpecializedThanPrimary() [1/2]

bool Sema::isMoreSpecializedThanPrimary ( ClassTemplatePartialSpecializationDecl T,
sema::TemplateDeductionInfo Info 
)

◆ isMoreSpecializedThanPrimary() [2/2]

bool Sema::isMoreSpecializedThanPrimary ( VarTemplatePartialSpecializationDecl T,
sema::TemplateDeductionInfo Info 
)

◆ isNonTypeNestedNameSpecifier()

bool Sema::isNonTypeNestedNameSpecifier ( Scope S,
CXXScopeSpec SS,
NestedNameSpecInfo IdInfo 
)

Definition at line 382 of file SemaCXXScopeSpec.cpp.

◆ isObjCMethodDecl()

bool clang::Sema::isObjCMethodDecl ( Decl D)
inline

Definition at line 2007 of file Sema.h.

References clang::ast_matchers::expr.

◆ isObjCPointerConversion()

bool Sema::isObjCPointerConversion ( QualType  FromType,
QualType  ToType,
QualType ConvertedType,
bool IncompatibleObjC 
)

isObjCPointerConversion - Determines whether this is an Objective-C pointer conversion.

Subroutine of IsPointerConversion, with the same arguments and return values.

Definition at line 2394 of file SemaOverload.cpp.

References clang::Type::getAs(), and clang::QualType::getQualifiers().

Referenced by DiagnosePropertyMismatch().

◆ isObjCWritebackConversion()

bool Sema::isObjCWritebackConversion ( QualType  FromType,
QualType  ToType,
QualType ConvertedType 
)

Determine whether this is an Objective-C writeback conversion, used for parameter passing when performing automatic reference counting.

Parameters
FromTypeThe type we're converting form.
ToTypeThe type we're converting to.
ConvertedTypeThe type that will be produced after applying this conversion.

Construct the type we're converting to, which is a pointer to __autoreleasing pointee.

Definition at line 2574 of file SemaOverload.cpp.

Referenced by IsStandardConversion(), and tryObjCWritebackConversion().

◆ isOpenCLDisabledDecl()

bool Sema::isOpenCLDisabledDecl ( Decl FD)

Definition at line 1854 of file Sema.cpp.

◆ isOpenMPCapturedByRef()

bool Sema::isOpenMPCapturedByRef ( const ValueDecl D,
unsigned  Level 
) const

◆ isOpenMPCapturedDecl()

VarDecl * Sema::isOpenMPCapturedDecl ( ValueDecl D) const

Check if the specified variable is used in one of the private clauses (private, firstprivate, lastprivate, reduction etc.) in OpenMP constructs.

Definition at line 1428 of file SemaOpenMP.cpp.

References DSAStack, getCanonicalDecl(), clang::getOpenMPCaptureRegions(), clang::isOpenMPPrivate(), clang::OMPC_unknown, and clang::OMPD_unknown.

Referenced by buildCapture().

◆ isOpenMPPrivateDecl()

bool Sema::isOpenMPPrivateDecl ( const ValueDecl D,
unsigned  Level 
) const

Check if the specified variable is used in 'private' clause.

Parameters
LevelRelative level of nested OpenMP construct for that the check is performed.

Definition at line 1474 of file SemaOpenMP.cpp.

References DSAStack.

◆ isOpenMPTargetCapturedDecl()

bool Sema::isOpenMPTargetCapturedDecl ( const ValueDecl D,
unsigned  Level 
) const

Check if the specified variable is captured by 'target' directive.

Parameters
LevelRelative level of nested OpenMP construct for that the check is performed.

Definition at line 1526 of file SemaOpenMP.cpp.

References DSAStack, clang::VarDecl::hasLocalStorage(), and clang::isOpenMPTargetExecutionDirective().

◆ IsOverload()

bool Sema::IsOverload ( FunctionDecl New,
FunctionDecl Old,
bool  IsForUsingDecl,
bool  ConsiderCudaAttrs = true 
)

◆ IsPointerConversion()

bool Sema::IsPointerConversion ( Expr From,
QualType  FromType,
QualType  ToType,
bool  InOverloadResolution,
QualType ConvertedType,
bool IncompatibleObjC 
)

IsPointerConversion - Determines whether the conversion of the expression From, which has the (possibly adjusted) type FromType, can be converted to the type ToType via a pointer conversion (C++ 4.10).

If so, returns true and places the converted type (that might differ from ToType in its cv-qualifiers at some level) into ConvertedType.

This routine also supports conversions to and from block pointers and conversions with Objective-C's 'id', 'id<protocols...>', and pointers to interfaces. FIXME: Once we've determined the appropriate overloading rules for Objective-C, we may want to split the Objective-C checks into a different routine; however, GCC seems to consider all of these conversions to be pointer conversions, so for now they live here. IncompatibleObjC will be set if the conversion is an allowed Objective-C conversion that should result in a warning.

Definition at line 2242 of file SemaOverload.cpp.

References isNullPointerConstantForConversion(), and clang::Type::isObjCObjectPointerType().

Referenced by IsStandardConversion().

◆ IsQualificationConversion()

bool Sema::IsQualificationConversion ( QualType  FromType,
QualType  ToType,
bool  CStyle,
bool ObjCLifetimeConversion 
)

IsQualificationConversion - Determines whether the conversion from an rvalue of type FromType to ToType is a qualification conversion (C++ 4.4).

Parameters
ObjCLifetimeConversionOutput parameter that will be set to indicate when the qualification conversion involves a change in the Objective-C object lifetime.

Definition at line 3081 of file SemaOverload.cpp.

Referenced by CheckTemplateArgumentIsCompatibleWithParameter(), CheckTemplateArgumentPointerToMember(), handlerCanCatch(), and IsStandardConversion().

◆ isQualifiedMemberAccess()

bool Sema::isQualifiedMemberAccess ( Expr E)

Determine whether the given expression is a qualified member access expression, of a form that could be turned into a pointer to member with the address-of operator.

Definition at line 12819 of file SemaExpr.cpp.

◆ isSameOrCompatibleFunctionType()

bool Sema::isSameOrCompatibleFunctionType ( CanQualType  Param,
CanQualType  Arg 
)

Compare types for equality with respect to possibly compatible function types (noreturn adjustment, implicit calling conventions).

If any of parameter and argument is not a function, just perform type comparison.

Parameters
Paramthe template parameter type.
Argthe argument type.

Definition at line 1145 of file SemaTemplateDeduction.cpp.

References clang::CanQual< T >::getAs().

◆ isSelfExpr() [1/2]

bool Sema::isSelfExpr ( Expr RExpr)

Private Helper predicate to check for 'self'.

Definition at line 1714 of file SemaExprObjC.cpp.

Referenced by LookupMethodInReceiverType().

◆ isSelfExpr() [2/2]

bool Sema::isSelfExpr ( Expr RExpr,
const ObjCMethodDecl Method 
)

◆ isSFINAEContext()

Optional< TemplateDeductionInfo * > Sema::isSFINAEContext ( ) const

Determines whether we are currently in a context where template argument substitution failures are not considered errors.

Returns
An empty Optional if we're not in a SFINAE context. Otherwise, contains a pointer that, if non-NULL, contains the nearest template-deduction context object, which can be used to capture diagnostics that will be suppressed.

Definition at line 655 of file SemaTemplateInstantiate.cpp.

References CodeSynthesisContexts, CurrentInstantiationScope, clang::Sema::CodeSynthesisContext::DeclaringSpecialMember, clang::Sema::CodeSynthesisContext::DeducedTemplateArgumentSubstitution, clang::Sema::CodeSynthesisContext::DefaultFunctionArgumentInstantiation, clang::Sema::CodeSynthesisContext::DefaultTemplateArgumentChecking, clang::Sema::CodeSynthesisContext::DefaultTemplateArgumentInstantiation, clang::Sema::CodeSynthesisContext::DefiningSynthesizedFunction, Depth, clang::Sema::CodeSynthesisContext::ExceptionSpecInstantiation, clang::Sema::CodeSynthesisContext::ExplicitTemplateArgumentSubstitution, clang::LocalInstantiationScope::getPartiallySubstitutedPack(), InNonInstantiationSFINAEContext, clang::LocalInstantiationScope::MakeInstantiatedLocalArgPack(), clang::Sema::CodeSynthesisContext::Memoization, clang::None, clang::Sema::CodeSynthesisContext::PriorTemplateArgumentSubstitution, clang::Result, and clang::Sema::CodeSynthesisContext::TemplateInstantiation.

Referenced by ActOnCXXDelete(), ActOnPseudoDestructorExpr(), CheckArrow(), computeDeclContext(), CopyObject(), diagnoseNoViableConversion(), EmitCurrentDiagnostic(), recordConversion(), RequireCompleteDeclContext(), and clang::Sema::SFINAETrap::SFINAETrap().

◆ isSimpleTypeSpecifier()

bool Sema::isSimpleTypeSpecifier ( tok::TokenKind  Kind) const

Determine whether the token kind starts a simple-type-specifier.

Definition at line 119 of file SemaDecl.cpp.

◆ IsSimplyAccessible()

bool Sema::IsSimplyAccessible ( NamedDecl Target,
DeclContext Ctx 
)

Checks access to Target from the given class.

The check will take access specifiers into account, but no member access expressions and such.

Parameters
Targetthe declaration to check if it can be accessed
Ctxthe class/context from which to start the search
Returns
true if the Target is accessible from the Class, false otherwise.

Definition at line 1866 of file SemaAccess.cpp.

References clang::AS_public, clang::Decl::getAccess(), and clang::NamedDecl::isCXXClassMember().

◆ isSpecialMemberAccessibleForDeletion()

bool Sema::isSpecialMemberAccessibleForDeletion ( CXXMethodDecl decl,
AccessSpecifier  access,
QualType  objectType 
)

Is the given special member function accessible for the purposes of deciding whether to define a special member function as deleted?

Definition at line 1567 of file SemaAccess.cpp.

References clang::AS_public.

◆ isStdInitializerList()

bool Sema::isStdInitializerList ( QualType  Ty,
QualType Element 
)

◆ IsStringLiteralToNonConstPointerConversion()

bool Sema::IsStringLiteralToNonConstPointerConversion ( Expr From,
QualType  ToType 
)

Helper function to determine whether this is the (deprecated) C++ conversion from a string literal to a pointer to non-const char or non-const wchar_t (for narrow and wide string literals, respectively).

Definition at line 3666 of file SemaExprCXX.cpp.

References clang::StringLiteral::Ascii, Context, clang::Type::getAs(), clang::Type::getPointeeType(), clang::ASTContext::getWideCharType(), clang::Expr::IgnoreParens(), clang::ASTContext::typesAreCompatible(), clang::StringLiteral::UTF16, clang::StringLiteral::UTF32, clang::StringLiteral::UTF8, and clang::StringLiteral::Wide.

Referenced by IsStandardConversion().

◆ isTagName()

DeclSpec::TST Sema::isTagName ( IdentifierInfo II,
Scope S 
)

isTagName() - This method is called for error recovery purposes only to determine if the specified name is a valid tag name ("struct foo").

If so, this returns the TST for the tag corresponding to it (TST_enum, TST_union, TST_struct, TST_interface, TST_class). This is used to diagnose cases in C where the user forgot to specify the tag.

Definition at line 605 of file SemaDecl.cpp.

◆ isTemplateName()

TemplateNameKind Sema::isTemplateName ( Scope S,
CXXScopeSpec SS,
bool  hasTemplateKeyword,
const UnqualifiedId Name,
ParsedType  ObjectType,
bool  EnteringContext,
TemplateTy Template,
bool MemberOfUnknownSpecialization 
)

◆ isTemplateTemplateParameterAtLeastAsSpecializedAs()

bool Sema::isTemplateTemplateParameterAtLeastAsSpecializedAs ( TemplateParameterList P,
TemplateDecl AArg,
SourceLocation  Loc 
)

Definition at line 5148 of file SemaTemplateDeduction.cpp.

References X.

◆ isThisOutsideMemberFunctionBody()

bool Sema::isThisOutsideMemberFunctionBody ( QualType  BaseType)

Determine whether the given type is the type of *this that is used outside of the body of a member function for a type that is currently being defined.

Definition at line 1296 of file SemaExprCXX.cpp.

References CXXThisTypeOverride, clang::Type::getAsCXXRecordDecl(), clang::TagDecl::isBeingDefined(), and clang::QualType::isNull().

Referenced by ActOnStartCXXMemberReference(), and LookupMemberExprInRecord().

◆ isUnevaluatedContext()

bool clang::Sema::isUnevaluatedContext ( ) const
inline

◆ isUnexpandedParameterPackPermitted()

bool Sema::isUnexpandedParameterPackPermitted ( )

Determine whether an unexpanded parameter pack might be permitted in this location.

Determine whether it's possible for an unexpanded parameter pack to be valid in this location.

Useful for error recovery.

This only happens when we're in a declaration that is nested within an expression that could be expanded, such as a lambda-expression within a function call.

This is conservatively correct, but may claim that some unexpanded packs are permitted when they are not.

Definition at line 281 of file SemaTemplateVariadic.cpp.

◆ isValidPointerAttrType()

bool Sema::isValidPointerAttrType ( QualType  T,
bool  RefOkay = false 
)

Determine if type T is a valid subject for a nonnull and similar attributes.

By default, we look through references (the behavior used by nonnull), but if the second parameter is true, then we treat a reference type as valid.

Definition at line 1362 of file SemaDeclAttr.cpp.

References clang::Type::getAsUnionType(), clang::QualType::getNonReferenceType(), and clang::Type::isReferenceType().

Referenced by CheckNonNullArguments().

◆ isValidVarArgType()

Sema::VarArgKind Sema::isValidVarArgType ( const QualType Ty)

Determine the degree of POD-ness for an expression.

Incomplete types are considered POD, since this check can be performed when we're in an unevaluated context.

Definition at line 763 of file SemaExpr.cpp.

References clang::QualType::DK_nontrivial_c_struct, clang::QualType::isCXX98PODType(), clang::QualType::isDestructedType(), clang::Type::isIncompleteType(), clang::Type::isObjCObjectType(), and clang::Type::isVoidType().

◆ IsValueInFlagEnum()

bool Sema::IsValueInFlagEnum ( const EnumDecl ED,
const llvm::APInt &  Val,
bool  AllowMask 
) const

IsValueInFlagEnum - Determine if a value is allowed as part of a flag enum.

If AllowMask is true, then we also allow the complement of a valid value, to be used as a mask.

Definition at line 16493 of file SemaDecl.cpp.

References clang::EnumDecl::isClosedFlag(), and clang::TagDecl::isCompleteDefinition().

◆ isVisible()

bool clang::Sema::isVisible ( const NamedDecl D)
inline

Determine whether a declaration is visible to name lookup.

Definition at line 1562 of file Sema.h.

References clang::Decl::isHidden().

Referenced by hasVisibleDeclarationImpl(), and hasVisibleDefaultArgument().

◆ IvarBacksCurrentMethodAccessor()

bool Sema::IvarBacksCurrentMethodAccessor ( ObjCInterfaceDecl IFace,
ObjCMethodDecl Method,
ObjCIvarDecl IV 
)

IvarBacksCurrentMethodAccessor - This routine returns 'true' if 'IV' is an ivar synthesized for 'Method' and 'Method' is a property accessor declared in class 'IFace'.

Definition at line 1783 of file SemaObjCProperty.cpp.

References clang::ObjCMethodDecl::getSelector(), clang::ObjCIvarDecl::getSynthesize(), clang::ObjCContainerDecl::instance_properties(), clang::ObjCMethodDecl::isInstanceMethod(), clang::ObjCMethodDecl::isPropertyAccessor(), clang::ObjCInterfaceDecl::known_extensions(), clang::ObjCInterfaceDecl::lookupMethod(), and clang::Property.

Referenced by LookupMemberExpr().

◆ LazilyCreateBuiltin()

NamedDecl * Sema::LazilyCreateBuiltin ( IdentifierInfo II,
unsigned  ID,
Scope S,
bool  ForRedeclaration,
SourceLocation  Loc 
)

LazilyCreateBuiltin - The specified Builtin-ID was first used at file scope.

lazily create a decl for it. ForRedeclaration is true if we're creating this built-in in anticipation of redeclaring the built-in.

Definition at line 1947 of file SemaDecl.cpp.

Referenced by LookupBuiltin().

◆ LoadExternalVTableUses()

void Sema::LoadExternalVTableUses ( )

Load any externally-stored vtable uses.

Definition at line 14806 of file SemaDeclCXX.cpp.

◆ LoadExternalWeakUndeclaredIdentifiers()

void Sema::LoadExternalWeakUndeclaredIdentifiers ( )

Load weak undeclared identifiers from the external source.

Definition at line 722 of file Sema.cpp.

References clang::ExternalSemaSource::ReadWeakUndeclaredIdentifiers(), and WeakUndeclaredIdentifiers.

Referenced by ActOnEndOfTranslationUnit().

◆ LookupConstructors()

DeclContext::lookup_result Sema::LookupConstructors ( CXXRecordDecl Class)

◆ LookupCopyingAssignment()

CXXMethodDecl * Sema::LookupCopyingAssignment ( CXXRecordDecl Class,
unsigned  Quals,
bool  RValueThis,
unsigned  ThisQuals 
)

Look up the copying assignment operator for the given class.

Definition at line 3109 of file SemaLookup.cpp.

References clang::Qualifiers::Const, clang::Sema::SpecialMemberOverloadResult::getMethod(), and clang::Qualifiers::Volatile.

◆ LookupCopyingConstructor()

CXXConstructorDecl * Sema::LookupCopyingConstructor ( CXXRecordDecl Class,
unsigned  Quals 
)

Look up the copying constructor for the given class.

Definition at line 3070 of file SemaLookup.cpp.

References clang::Qualifiers::Const, clang::Sema::SpecialMemberOverloadResult::getMethod(), and clang::Qualifiers::Volatile.

◆ lookupCoroutineTraits()

ClassTemplateDecl * Sema::lookupCoroutineTraits ( SourceLocation  KwLoc,
SourceLocation  FuncLoc 
)

Definition at line 1530 of file SemaCoroutine.cpp.

References Diag(), clang::Decl::getLocation(), and clang::Result.

◆ LookupDefaultConstructor()

CXXConstructorDecl * Sema::LookupDefaultConstructor ( CXXRecordDecl Class)

Look up the default constructor for the given class.

Definition at line 3061 of file SemaLookup.cpp.

References clang::Sema::SpecialMemberOverloadResult::getMethod().

Referenced by TryValueInitialization().

◆ LookupDestructor()

CXXDestructorDecl * Sema::LookupDestructor ( CXXRecordDecl Class)

Look for the destructor of the given class.

During semantic analysis, this routine should be used in lieu of CXXRecordDecl::getDestructor().

Returns
The destructor for this class.

Definition at line 3147 of file SemaLookup.cpp.

Referenced by ActOnCXXDelete(), canRecoverDotPseudoDestructorCallsOnPointerObjects(), EvaluateUnaryTypeTrait(), and clang::InitializationSequence::Perform().

◆ LookupFactoryMethodInGlobalPool()

ObjCMethodDecl* clang::Sema::LookupFactoryMethodInGlobalPool ( Selector  Sel,
SourceRange  R,
bool  receiverIdOrClass = false 
)
inline

LookupFactoryMethodInGlobalPool - Returns the method and warns if there are multiple signatures.

Definition at line 3629 of file Sema.h.

◆ LookupImplementedMethodInGlobalPool()

ObjCMethodDecl * Sema::LookupImplementedMethodInGlobalPool ( Selector  Sel)

LookupImplementedMethodInGlobalPool - Returns the method which has an implementation.

Definition at line 3593 of file SemaDeclObjC.cpp.

References clang::ObjCMethodDecl::isDefined(), clang::ObjCMethodDecl::isPropertyAccessor(), and MethodPool.

◆ LookupInlineAsmField()

bool Sema::LookupInlineAsmField ( StringRef  Base,
StringRef  Member,
unsigned &  Offset,
SourceLocation  AsmLoc 
)

Definition at line 678 of file SemaStmtAsm.cpp.

◆ LookupInlineAsmIdentifier()

ExprResult Sema::LookupInlineAsmIdentifier ( CXXScopeSpec SS,
SourceLocation  TemplateKWLoc,
UnqualifiedId Id,
bool  IsUnevaluatedContext 
)

◆ LookupInlineAsmVarDeclField()

ExprResult Sema::LookupInlineAsmVarDeclField ( Expr RefExpr,
StringRef  Member,
SourceLocation  AsmLoc 
)

Definition at line 747 of file SemaStmtAsm.cpp.

◆ LookupInObjCMethod()

ExprResult Sema::LookupInObjCMethod ( LookupResult Lookup,
Scope S,
IdentifierInfo II,
bool  AllowBuiltinCreation = false 
)

LookupInObjCMethod - The parser has read a name in, and Sema has detected that we're currently inside an ObjC method.

Perform some additional lookup.

Ideally, most of this would be done by lookup, but there's actually quite a lot of extra work involved.

Returns a null sentinel to indicate trivial success.

Definition at line 2356 of file SemaExpr.cpp.

References clang::declaresSameEntity(), Diag(), clang::LookupResult::empty(), clang::ExprError(), clang::ObjCIvarDecl::getAccessControl(), clang::ObjCMethodDecl::getClassInterface(), clang::NamedDecl::getDeclName(), clang::LookupResult::getFoundDecl(), clang::LookupResult::getNameLoc(), clang::ObjCMethodDecl::isClassMethod(), clang::Decl::isDefinedOutsideFunctionOrMethod(), clang::Decl::isInvalidDecl(), clang::LookupResult::isSingleResult(), clang::ObjCInterfaceDecl::lookupInstanceVariable(), and clang::ObjCIvarDecl::Private.

Referenced by attemptRecovery().

◆ LookupInstanceMethodInGlobalPool()

ObjCMethodDecl* clang::Sema::LookupInstanceMethodInGlobalPool ( Selector  Sel,
SourceRange  R,
bool  receiverIdOrClass = false 
)
inline

LookupInstanceMethodInGlobalPool - Returns the method and warns if there are multiple signatures.

Definition at line 3621 of file Sema.h.

Referenced by CheckKeyForObjCARCConversion(), and hasIsEqualMethod().

◆ LookupInSuper()

bool Sema::LookupInSuper ( LookupResult R,
CXXRecordDecl Class 
)

Perform qualified name lookup into all base classes of the given class.

Parameters
Rcaptures both the lookup criteria and any lookup results found.
ClassThe context in which qualified name lookup will search. Name lookup will search in all base classes merging the results.
Returns
True if any decls were found (but possibly ambiguous)

Definition at line 2312 of file SemaLookup.cpp.

References clang::CXXRecordDecl::bases(), clang::LookupResult::getLookupKind(), and clang::LookupResult::getLookupNameInfo().

◆ LookupLiteralOperator()

Sema::LiteralOperatorLookupResult Sema::LookupLiteralOperator ( Scope S,
LookupResult R,
ArrayRef< QualType ArgTys,
bool  AllowRaw,
bool  AllowTemplate,
bool  AllowStringTemplate,
bool  DiagnoseMissing 
)

LookupLiteralOperator - Determine which literal operator should be used for a user-defined literal, per C++11 [lex.ext].

Normal overload resolution is not used to select which literal operator to call for a user-defined literal. Look up the provided literal operator name, and filter the results to the appropriate set for the given argument types.

Definition at line 3160 of file SemaLookup.cpp.

References clang::LookupResult::Ambiguous, clang::LookupResult::getResultKind(), clang::Decl::isInvalidDecl(), and clang::LookupResult::makeFilter().

Referenced by BuildCookedLiteralOperatorCall().

◆ LookupMethodInObjectType()

ObjCMethodDecl * Sema::LookupMethodInObjectType ( Selector  Sel,
QualType  Ty,
bool  IsInstance 
)

LookupMethodInType - Look up a method in an ObjCObjectType.

Definition at line 1732 of file SemaExprObjC.cpp.

References clang::Type::castAs(), and clang::ObjCObjectType::getInterface().

Referenced by CheckKeyForObjCARCConversion(), hasIsEqualMethod(), and LookupMethodInReceiverType().

◆ LookupMethodInQualifiedType()

ObjCMethodDecl * Sema::LookupMethodInQualifiedType ( Selector  Sel,
const ObjCObjectPointerType OPT,
bool  Instance 
)

LookupMethodInQualifiedType - Lookups up a method in protocol qualifier list of a qualified objective pointer type.

Definition at line 1756 of file SemaExprObjC.cpp.

References HandleExprPropertyRefExpr(), and clang::ObjCObjectPointerType::quals().

Referenced by hasIsEqualMethod().

◆ LookupMovingAssignment()

CXXMethodDecl * Sema::LookupMovingAssignment ( CXXRecordDecl Class,
unsigned  Quals,
bool  RValueThis,
unsigned  ThisQuals 
)

Look up the moving assignment operator for the given class.

Definition at line 3126 of file SemaLookup.cpp.

References clang::Qualifiers::Const, clang::Sema::SpecialMemberOverloadResult::getMethod(), and clang::Qualifiers::Volatile.

◆ LookupMovingConstructor()

CXXConstructorDecl * Sema::LookupMovingConstructor ( CXXRecordDecl Class,
unsigned  Quals 
)

Look up the moving constructor for the given class.

Definition at line 3082 of file SemaLookup.cpp.

References clang::Qualifiers::Const, clang::Sema::SpecialMemberOverloadResult::getMethod(), and clang::Qualifiers::Volatile.

◆ LookupName()

bool Sema::LookupName ( LookupResult R,
Scope S,
bool  AllowBuiltinCreation = false 
)

Perform unqualified name lookup starting from a given scope.

Unqualified name lookup (C++ [basic.lookup.unqual], C99 6.2.1) is used to find names within the current scope. For example, 'x' in

int x;
int f() {
return x; // unqualified name look finds 'x' in the global scope
}

Different lookup criteria can find different names. For example, a particular scope can have both a struct and a function of the same name, and each can be found by certain lookup criteria. For more information about lookup criteria, see the documentation for the class LookupCriteria.

Parameters
SThe scope from which unqualified name lookup will begin. If the lookup criteria permits, name lookup may also search in the parent scopes.
[in,out]RSpecifies the lookup to perform (e.g., the name to look up and the lookup kind), and is updated with the results of lookup including zero or more declarations and possibly additional information used to diagnose ambiguities.
Returns
true if lookup succeeded and false otherwise.

Definition at line 1743 of file SemaLookup.cpp.

Referenced by buildMemcpyForAssignmentOp(), CheckObjCBridgeCFCast(), CheckObjCBridgeNSCast(), and warnAboutRedundantParens().

◆ LookupOrCreateLabel()

LabelDecl * Sema::LookupOrCreateLabel ( IdentifierInfo II,
SourceLocation  Loc,
SourceLocation  GnuLabelLoc = SourceLocation() 
)

LookupOrCreateLabel - Do a name lookup of a label with the specified name.

If GnuLabelLoc is a valid source location, then this is a definition of an label label name, otherwise it is a normal label definition or use.

Definition at line 3829 of file SemaLookup.cpp.

References clang::LabelDecl::Create(), and clang::SourceLocation::isValid().

◆ LookupOverloadedOperatorName()

void Sema::LookupOverloadedOperatorName ( OverloadedOperatorKind  Op,
Scope S,
QualType  T1,
QualType  T2,
UnresolvedSetImpl Functions 
)

Definition at line 2842 of file SemaLookup.cpp.

Referenced by BuildOverloadedBinOp().

◆ LookupParsedName()

bool Sema::LookupParsedName ( LookupResult R,
Scope S,
CXXScopeSpec SS,
bool  AllowBuiltinCreation = false,
bool  EnteringContext = false 
)

Performs name lookup for a name that was parsed in the source code, and may contain a C++ scope specifier.

This routine is a convenience routine meant to be called from contexts that receive a name and an optional C++ scope specifier (e.g., "N::M::x"). It will then perform either qualified or unqualified name lookup (with LookupQualifiedName or LookupName, respectively) on the given name and return those results. It will perform a special type of lookup for "__super::" scope specifier.

Parameters
SThe scope from which unqualified name lookup will begin.
SSAn optional C++ scope-specifier, e.g., "::N::M".
EnteringContextIndicates whether we are going to enter the context of the scope-specifier SS (if present).
Returns
True if any decls were found (but possibly ambiguous)

Definition at line 2268 of file SemaLookup.cpp.

References clang::NestedNameSpecifier::getAsRecordDecl(), clang::NestedNameSpecifier::getKind(), clang::CXXScopeSpec::getRange(), clang::CXXScopeSpec::getScopeRep(), clang::DeclContext::isDependentContext(), clang::CXXScopeSpec::isInvalid(), clang::CXXScopeSpec::isSet(), clang::LookupResult::setContextRange(), clang::LookupResult::setNotFoundInCurrentInstantiation(), and clang::NestedNameSpecifier::Super.

Referenced by buildDeclareReductionRef(), CheckMicrosoftIfExistsSymbol(), and LookupPotentialTypoResult().

◆ LookupProtocol()

ObjCProtocolDecl * Sema::LookupProtocol ( IdentifierInfo II,
SourceLocation  IdLoc,
RedeclarationKind  Redecl = NotForRedeclaration 
)

Find the protocol with the given name, if any.

Definition at line 2834 of file SemaLookup.cpp.

Referenced by ActOnForwardProtocolDeclaration(), ActOnStartProtocolInterface(), and FindProtocolDeclaration().

◆ LookupQualifiedName() [1/2]

bool Sema::LookupQualifiedName ( LookupResult R,
DeclContext LookupCtx,
bool  InUnqualifiedLookup = false 
)

Perform qualified name lookup into a given context.

Qualified name lookup (C++ [basic.lookup.qual]) is used to find names when the context of those names is explicit specified, e.g., "std::vector" or "x->member", or as part of unqualified name lookup.

Different lookup criteria can find different names. For example, a particular scope can have both a struct and a function of the same name, and each can be found by certain lookup criteria. For more information about lookup criteria, see the documentation for the class LookupCriteria.

Parameters
Rcaptures both the lookup criteria and any lookup results found.
LookupCtxThe context in which qualified name lookup will search. If the lookup criteria permits, name lookup may also search in the parent contexts or (for C++ classes) base classes.
InUnqualifiedLookuptrue if this is qualified name lookup that occurs as part of unqualified name lookup.
Returns
true if lookup succeeded, false if it failed.

Definition at line 2022 of file SemaLookup.cpp.

References clang::LookupResult::getLookupName(), and clang::DeclContext::isDependentContext().

Referenced by BuildNonArrayForRange(), checkTupleLikeDecomposition(), DiagnoseTwoPhaseLookup(), doesUsualArrayDeleteWantSize(), emitReplacement(), FindAllocationFunctions(), clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), LookupMemberExprInRecord(), LookupPotentialTypoResult(), LookupStdInitializerList(), lookupStdTypeTraitMember(), clang::TreeTransform< Derived >::RebuildDependentNameType(), resolveAllocationOverload(), and resolveBuiltinNewDeleteOverload().

◆ LookupQualifiedName() [2/2]

bool Sema::LookupQualifiedName ( LookupResult R,
DeclContext LookupCtx,
CXXScopeSpec SS 
)

Performs qualified name lookup or special type of lookup for "__super::" scope specifier.

This routine is a convenience overload meant to be called from contexts that need to perform a qualified name lookup with an optional C++ scope specifier that might require special kind of lookup.

Parameters
Rcaptures both the lookup criteria and any lookup results found.
LookupCtxThe context in which qualified name lookup will search.
SSAn optional C++ scope-specifier.
Returns
true if lookup succeeded, false if it failed.

Definition at line 2239 of file SemaLookup.cpp.

References clang::CXXScopeSpec::getScopeRep(), and clang::NestedNameSpecifier::Super.

◆ LookupSingleName()

NamedDecl * Sema::LookupSingleName ( Scope S,
DeclarationName  Name,
SourceLocation  Loc,
LookupNameKind  NameKind,
RedeclarationKind  Redecl = NotForRedeclaration 
)

Look up a name, looking for a single declaration.

Return null if the results were absent, ambiguous, or overloaded.

It is preferable to use the elaborated form and explicitly handle ambiguity and overloaded.

Definition at line 2824 of file SemaLookup.cpp.

Referenced by ActOnCompatibilityAlias(), ActOnEndOfTranslationUnit(), ActOnForwardClassDeclaration(), ActOnStartClassImplementation(), ActOnTypedefedProtocols(), and isMethodDeclaredInRootProtocol().

◆ LookupSpecialMember()

Sema::SpecialMemberOverloadResult Sema::LookupSpecialMember ( CXXRecordDecl D,
CXXSpecialMember  SM,
bool  ConstArg,
bool  VolatileArg,
bool  RValueThis,
bool  ConstThis,
bool  VolatileThis 
)

◆ lookupStdExperimentalNamespace()

NamespaceDecl * Sema::lookupStdExperimentalNamespace ( )

Definition at line 8905 of file SemaDeclCXX.cpp.

References clang::Result, and Std.

◆ LookupTemplateName()

bool Sema::LookupTemplateName ( LookupResult R,
Scope S,
CXXScopeSpec SS,
QualType  ObjectType,
bool  EnteringContext,
bool MemberOfUnknownSpecialization,
SourceLocation  TemplateKWLoc = SourceLocation() 
)

Definition at line 314 of file SemaTemplate.cpp.

Referenced by LookupMemberExprInRecord().

◆ LookupVisibleDecls() [1/2]

void Sema::LookupVisibleDecls ( Scope S,
LookupNameKind  Kind,
VisibleDeclConsumer Consumer,
bool  IncludeGlobalScope = true,
bool  LoadExternal = true 
)

Definition at line 3784 of file SemaLookup.cpp.

Referenced by AddRecordMembersCompletionResults().

◆ LookupVisibleDecls() [2/2]

void Sema::LookupVisibleDecls ( DeclContext Ctx,
LookupNameKind  Kind,
VisibleDeclConsumer Consumer,
bool  IncludeGlobalScope = true,
bool  IncludeDependentBases = false,
bool  LoadExternal = true 
)

◆ MakeFullDiscardedValueExpr()

FullExprArg clang::Sema::MakeFullDiscardedValueExpr ( Expr Arg)
inline

◆ MakeFullExpr() [1/2]

FullExprArg clang::Sema::MakeFullExpr ( Expr Arg)
inline

Definition at line 3674 of file Sema.h.

References clang::Expr::getExprLoc().

Referenced by ActOnConditionVariable().

◆ MakeFullExpr() [2/2]

FullExprArg clang::Sema::MakeFullExpr ( Expr Arg,
SourceLocation  CC 
)
inline

Definition at line 3677 of file Sema.h.

◆ makeMergedDefinitionVisible()

void Sema::makeMergedDefinitionVisible ( NamedDecl ND)

Make a merged definition of an existing hidden definition ND visible at the specified location.

Definition at line 1343 of file SemaLookup.cpp.

◆ makeUnavailableInSystemHeader()

bool Sema::makeUnavailableInSystemHeader ( SourceLocation  loc,
UnavailableAttr::ImplicitReason  reason 
)

makeUnavailableInSystemHeader - There is an error in the current context.

If we're still in a system header, and we can plausibly make the relevant declaration unavailable instead of erroring, do so and return true.

Definition at line 373 of file Sema.cpp.

References clang::Decl::addAttr(), Context, CurContext, clang::ASTContext::getSourceManager(), clang::Decl::hasAttr(), inTemplateInstantiation(), and clang::SourceManager::isInSystemHeader().

Referenced by diagnoseObjCARCConversion().

◆ MarkAnyDeclReferenced()

void Sema::MarkAnyDeclReferenced ( SourceLocation  Loc,
Decl D,
bool  MightBeOdrUse 
)

Perform marking for a reference to an arbitrary declaration.

It marks the declaration referenced, and performs odr-use checking for functions and variables. This method should not be used when building a normal expression which refers to a variable.

Definition at line 15447 of file SemaExpr.cpp.

References clang::Decl::setReferenced().

Referenced by CheckTemplateArgumentAddressOfObjectOrFunction().

◆ MarkAsLateParsedTemplate()

void Sema::MarkAsLateParsedTemplate ( FunctionDecl FD,
Decl FnD,
CachedTokens Toks 
)

◆ MarkBaseAndMemberDestructorsReferenced()

void Sema::MarkBaseAndMemberDestructorsReferenced ( SourceLocation  Loc,
CXXRecordDecl Record 
)

MarkBaseAndMemberDestructorsReferenced - Given a record decl, mark all the non-trivial destructors of its members and bases as referenced.

Definition at line 5098 of file SemaDeclCXX.cpp.

References clang::RecordDecl::fields(), clang::DeclContext::isDependentContext(), isIncompleteOrZeroLengthArrayType(), and clang::TagDecl::isUnion().

◆ MarkDeclarationsReferencedInExpr()

void Sema::MarkDeclarationsReferencedInExpr ( Expr E,
bool  SkipLocalVariables = false 
)

Mark any declarations that appear within this expression or any potentially-evaluated subexpressions as "referenced".

Parameters
SkipLocalVariablesIf true, don't mark local variables as 'referenced'.

Definition at line 15584 of file SemaExpr.cpp.

◆ MarkDeclarationsReferencedInType()

void Sema::MarkDeclarationsReferencedInType ( SourceLocation  Loc,
QualType  T 
)

Mark all of the declarations referenced within a particular AST node as referenced.

Used when template instantiation instantiates a non-dependent type – entities referenced by the type are now referenced.

Definition at line 15500 of file SemaExpr.cpp.

Referenced by clang::TemplateDeclInstantiator::InstantiateTypedefNameDecl(), and clang::TemplateDeclInstantiator::VisitVarDecl().

◆ MarkDeclRefReferenced()

void Sema::MarkDeclRefReferenced ( DeclRefExpr E,
const Expr Base = nullptr 
)

Perform reference-marking and odr-use handling for a DeclRefExpr.

Definition at line 15412 of file SemaExpr.cpp.

Referenced by BuildImplicitBaseInitializer(), BuildImplicitMemberInitializer(), and CheckConditionVariable().

◆ MarkDeducedTemplateParameters() [1/2]

void clang::Sema::MarkDeducedTemplateParameters ( const FunctionTemplateDecl FunctionTemplate,
llvm::SmallBitVector &  Deduced 
)
inline

Definition at line 7110 of file Sema.h.

◆ MarkDeducedTemplateParameters() [2/2]

void Sema::MarkDeducedTemplateParameters ( ASTContext Ctx,
const FunctionTemplateDecl FunctionTemplate,
llvm::SmallBitVector &  Deduced 
)
static

Marks all of the template parameters that will be deduced by a call to the given function template.

Definition at line 5644 of file SemaTemplateDeduction.cpp.

References clang::FunctionTemplateDecl::getTemplatedDecl(), clang::TemplateDecl::getTemplateParameters(), and clang::TemplateParameterList::size().

◆ MarkFunctionReferenced()

void Sema::MarkFunctionReferenced ( SourceLocation  Loc,
FunctionDecl Func,
bool  MightBeOdrUse = true 
)

◆ MarkMemberReferenced()

void Sema::MarkMemberReferenced ( MemberExpr E)

Perform reference-marking and odr-use handling for a MemberExpr.

Definition at line 15425 of file SemaExpr.cpp.

◆ MarkTypoCorrectedFunctionDefinition()

void Sema::MarkTypoCorrectedFunctionDefinition ( const NamedDecl F)

Definition at line 7728 of file SemaDecl.cpp.

◆ MarkUnusedFileScopedDecl()

void Sema::MarkUnusedFileScopedDecl ( const DeclaratorDecl D)

If it's a file scoped decl that must warn if not used, keep track of it.

Definition at line 1618 of file SemaDecl.cpp.

References clang::First.

◆ MarkUsedTemplateParameters()

void Sema::MarkUsedTemplateParameters ( const TemplateArgumentList TemplateArgs,
bool  OnlyDeduced,
unsigned  Depth,
llvm::SmallBitVector &  Used 
)

Mark which template parameters can be deduced from a given template argument list.

Parameters
TemplateArgsthe template argument list from which template parameters will be deduced.
Useda bit vector whose elements will be set to true to indicate when the corresponding template parameter will be deduced.

Definition at line 5626 of file SemaTemplateDeduction.cpp.

References clang::TemplateArgumentList::asArray(), and hasPackExpansionBeforeEnd().

Referenced by checkTemplatePartialSpecialization().

◆ MarkVariableReferenced()

void Sema::MarkVariableReferenced ( SourceLocation  Loc,
VarDecl Var 
)

Mark a variable referenced, and check whether it is odr-used (C++ [basic.def.odr]p2, C99 6.9p3).

Note that this should not be used directly for normal expressions referring to VarDecl.

Definition at line 15373 of file SemaExpr.cpp.

References DoMarkVarDeclReferenced().

Referenced by ReferenceDllExportedMembers().

◆ MarkVirtualMemberExceptionSpecsNeeded()

void Sema::MarkVirtualMemberExceptionSpecsNeeded ( SourceLocation  Loc,
const CXXRecordDecl RD 
)

Mark the exception specifications of all virtual member functions in the given class as needed.

Definition at line 14977 of file SemaDeclCXX.cpp.

◆ MarkVirtualMembersReferenced()

void Sema::MarkVirtualMembersReferenced ( SourceLocation  Loc,
const CXXRecordDecl RD 
)

MarkVirtualMembersReferenced - Will mark all members of the given CXXRecordDecl referenced.

Definition at line 14984 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::getFinalOverriders().

◆ MarkVTableUsed()

void Sema::MarkVTableUsed ( SourceLocation  Loc,
CXXRecordDecl Class,
bool  DefinitionRequired = false 
)

Note that the vtable for the given class was used at the given location.

Definition at line 14830 of file SemaDeclCXX.cpp.

References clang::CXXRecordDecl::getCanonicalDecl(), clang::DeclContext::isDependentContext(), and clang::CXXRecordDecl::isDynamicClass().

Referenced by InstantiateClassMembers().

◆ MatchAllMethodDeclarations()

void Sema::MatchAllMethodDeclarations ( const SelectorSet InsMap,
const SelectorSet ClsMap,
SelectorSet InsMapSeen,
SelectorSet ClsMapSeen,
ObjCImplDecl IMPDecl,
ObjCContainerDecl IDecl,
bool IncompleteImpl,
bool  ImmediateClass,
bool  WarnCategoryMethodImpl = false 
)

MatchAllMethodDeclarations - Check methods declaraed in interface or or protocol against those declared in their implementations.

MatchAllMethodDeclarations - Check methods declared in interface or protocol against those declared in their implementations.

Definition at line 2788 of file SemaDeclObjC.cpp.

◆ MatchTemplateParametersToScopeSpecifier()

TemplateParameterList * Sema::MatchTemplateParametersToScopeSpecifier ( SourceLocation  DeclStartLoc,
SourceLocation  DeclLoc,
const CXXScopeSpec SS,
TemplateIdAnnotation TemplateId,
ArrayRef< TemplateParameterList *>  ParamLists,
bool  IsFriend,
bool IsMemberSpecialization,
bool Invalid 
)

Match the given template parameter lists to the given scope specifier, returning the template parameter list that applies to the name.

Parameters
DeclStartLocthe start of the declaration that has a scope specifier or a template parameter list.
DeclLocThe location of the declaration itself.
SSthe scope specifier that will be matched to the given template parameter lists. This scope specifier precedes a qualified name that is being declared.
TemplateIdThe template-id following the scope specifier, if there is one. Used to check for a missing 'template<>'.
ParamListsthe template parameter lists, from the outermost to the innermost template parameter lists.
IsFriendWhether to apply the slightly different rules for matching template parameters to scope specifiers in friend declarations.
IsMemberSpecializationwill be set true if the scope specifier denotes a fully-specialized type, and therefore this is a declaration of a member specialization.
Returns
the template parameter list, if any, that corresponds to the name that is preceded by the scope specifier SS. This template parameter list may have template parameters (if we're declaring a template) or may have no template parameters (if we're declaring a template specialization), or may be NULL (if what we're declaring isn't itself a template).

Definition at line 2534 of file SemaTemplate.cpp.

References clang::CXXScopeSpec::getScopeRep().

◆ MatchTwoMethodDeclarations()

bool Sema::MatchTwoMethodDeclarations ( const ObjCMethodDecl left,
const ObjCMethodDecl right,
MethodMatchStrategy  strategy = MMS_strict 
)

MatchTwoMethodDeclarations - Checks if two methods' type match and returns true, or false, accordingly.

MatchTwoMethodDeclarations - Checks that two methods have matching type and returns true, or false, accordingly.

TODO: Handle protocol list; such as id<p1,p2> in type comparisons

Definition at line 3209 of file SemaDeclObjC.cpp.

References getLangOpts(), clang::ObjCMethodDecl::getReturnType(), clang::Decl::hasAttr(), clang::Decl::isHidden(), matchTypes(), clang::ObjCMethodDecl::param_begin(), and clang::ObjCMethodDecl::param_end().

Referenced by DiagnoseClassExtensionDupMethods().

◆ maybeAddCUDAHostDeviceAttrs()

void Sema::maybeAddCUDAHostDeviceAttrs ( FunctionDecl FD,
const LookupResult Previous 
)

◆ MaybeBindToTemporary()

ExprResult Sema::MaybeBindToTemporary ( Expr E)

MaybeBindToTemporary - If the passed in expression has a record type with a non-trivial destructor, this will return CXXBindTemporaryExpr.

Otherwise it simply returns the passed in expression.

Definition at line 6305 of file SemaExprCXX.cpp.

References clang::ASTContext::BoundMemberTy, Context, clang::ExprError(), clang::Type::getAs(), clang::FunctionType::getExtInfo(), getLangOpts(), clang::Type::getPointeeType(), clang::FunctionType::ExtInfo::getProducesResult(), clang::Expr::getType(), clang::Type::isObjCRetainableType(), and clang::Expr::isRValue().

Referenced by clang::InitializationSequence::Perform(), and PerformConstructorInitialization().

◆ MaybeConvertParenListExprToParenExpr()

ExprResult Sema::MaybeConvertParenListExprToParenExpr ( Scope S,
Expr OrigExpr 
)

This is not an AltiVec-style cast or or C++ direct-initialization, so turn the ParenListExpr into a sequence of comma binary operators.

Definition at line 6307 of file SemaExpr.cpp.

Referenced by ActOnStartCXXMemberReference().

◆ MaybeCreateExprWithCleanups() [1/2]

Expr * Sema::MaybeCreateExprWithCleanups ( Expr SubExpr)

◆ MaybeCreateExprWithCleanups() [2/2]

ExprResult Sema::MaybeCreateExprWithCleanups ( ExprResult  SubExpr)

◆ MaybeCreateStmtWithCleanups()

Stmt * Sema::MaybeCreateStmtWithCleanups ( Stmt SubStmt)

◆ maybeExtendBlockObject()

void Sema::maybeExtendBlockObject ( ExprResult E)

Do an explicit extend of the given block pointer if we're in ARC.

Definition at line 5805 of file SemaExpr.cpp.

◆ MaybeSuggestAddingStaticToDecl()

void Sema::MaybeSuggestAddingStaticToDecl ( const FunctionDecl D)

◆ mergeAlwaysInlineAttr()

AlwaysInlineAttr * Sema::mergeAlwaysInlineAttr ( Decl D,
SourceRange  Range,
IdentifierInfo Ident,
unsigned  AttrSpellingListIndex 
)

◆ mergeAvailabilityAttr()

AvailabilityAttr * Sema::mergeAvailabilityAttr ( NamedDecl D,
SourceRange  Range,
IdentifierInfo Platform,
bool  Implicit,
VersionTuple  Introduced,
VersionTuple  Deprecated,
VersionTuple  Obsoleted,
bool  IsUnavailable,
StringRef  Message,
bool  IsStrict,
StringRef  Replacement,
AvailabilityMergeKind  AMK,
unsigned  AttrSpellingListIndex 
)

Attribute merging methods. Return true if a new attribute was added.

Definition at line 2177 of file SemaDeclAttr.cpp.

References checkAvailabilityAttr(), Diag(), clang::Decl::getAttrs(), clang::SourceRange::getBegin(), clang::IdentifierInfo::getName(), clang::Decl::hasAttrs(), and versionsMatch().

◆ mergeCodeSegAttr()

CodeSegAttr * Sema::mergeCodeSegAttr ( Decl D,
SourceRange  Range,
StringRef  Name,
unsigned  AttrSpellingListIndex 
)

Definition at line 2936 of file SemaDeclAttr.cpp.

◆ mergeCommonAttr()

CommonAttr * Sema::mergeCommonAttr ( Decl D,
SourceRange  Range,
IdentifierInfo Ident,
unsigned  AttrSpellingListIndex 
)

Definition at line 3971 of file SemaDeclAttr.cpp.

◆ MergeCompatibleFunctionDecls()

bool Sema::MergeCompatibleFunctionDecls ( FunctionDecl New,
FunctionDecl Old,
Scope S,
bool  MergeTypeWithOld 
)

Completes the merge of two function declarations that are known to be compatible.

This routine handles the merging of attributes and other properties of function declarations from the old declaration to the new declaration, once we know that New is in fact a redeclaration of Old.

Returns
false

Definition at line 3587 of file SemaDecl.cpp.

◆ MergeCXXFunctionDecl()

bool Sema::MergeCXXFunctionDecl ( FunctionDecl New,
FunctionDecl Old,
Scope S 
)

MergeCXXFunctionDecl - Merge two declarations of the same C++ function, once we already know that they have the same type.

Subroutine of MergeFunctionDecl. Returns true if there was an error, false otherwise.

Definition at line 436 of file SemaDeclCXX.cpp.

◆ mergeDeclAttributes()

void Sema::mergeDeclAttributes ( NamedDecl New,
Decl Old,
AvailabilityMergeKind  AMK = AMK_Redeclaration 
)

mergeDeclAttributes - Copy attributes from the Old decl to the New one.

Definition at line 2619 of file SemaDecl.cpp.

References clang::Decl::getAttr(), and clang::Decl::getMostRecentDecl().

Referenced by ActOnForwardProtocolDeclaration(), and ActOnStartProtocolInterface().

◆ mergeDLLExportAttr()

DLLExportAttr * Sema::mergeDLLExportAttr ( Decl D,
SourceRange  Range,
unsigned  AttrSpellingListIndex 
)

◆ mergeDLLImportAttr()

DLLImportAttr * Sema::mergeDLLImportAttr ( Decl D,
SourceRange  Range,
unsigned  AttrSpellingListIndex 
)

Definition at line 5582 of file SemaDeclAttr.cpp.

References Diag(), clang::SourceRange::getBegin(), and clang::Decl::hasAttr().

◆ mergeFormatAttr()

FormatAttr * Sema::mergeFormatAttr ( Decl D,
SourceRange  Range,
IdentifierInfo Format,
int  FormatIdx,
int  FirstArg,
unsigned  AttrSpellingListIndex 
)

Definition at line 3227 of file SemaDeclAttr.cpp.

References clang::Decl::specific_attrs().

◆ MergeFunctionDecl()

bool Sema::MergeFunctionDecl ( FunctionDecl New,
NamedDecl *&  OldD,
Scope S,
bool  MergeTypeWithOld 
)

MergeFunctionDecl - We just parsed a function 'New' from declarator D which has the same name and scope as a previous declaration 'Old'.

Figure out how to resolve this situation, merging decls or emitting diagnostics as appropriate.

In C++, New and Old must be declarations that are not overloaded. Use IsOverload to determine whether New and Old are overloaded, and to select the Old declaration that New should be merged with.

Returns true if there was an error, false otherwise.

Definition at line 2992 of file SemaDecl.cpp.

◆ mergeInternalLinkageAttr()

InternalLinkageAttr * Sema::mergeInternalLinkageAttr ( Decl D,
SourceRange  Range,
IdentifierInfo Ident,
unsigned  AttrSpellingListIndex 
)

◆ mergeMinSizeAttr()

MinSizeAttr * Sema::mergeMinSizeAttr ( Decl D,
SourceRange  Range,
unsigned  AttrSpellingListIndex 
)

◆ mergeMSInheritanceAttr()

MSInheritanceAttr * Sema::mergeMSInheritanceAttr ( Decl D,
SourceRange  Range,
bool  BestCase,
unsigned  AttrSpellingListIndex,
MSInheritanceAttr::Spelling  SemanticSpelling 
)

◆ mergeObjCMethodDecls()

void Sema::mergeObjCMethodDecls ( ObjCMethodDecl New,
ObjCMethodDecl Old 
)

◆ mergeOptimizeNoneAttr()

OptimizeNoneAttr * Sema::mergeOptimizeNoneAttr ( Decl D,
SourceRange  Range,
unsigned  AttrSpellingListIndex 
)

◆ mergeSectionAttr()

SectionAttr * Sema::mergeSectionAttr ( Decl D,
SourceRange  Range,
StringRef  Name,
unsigned  AttrSpellingListIndex 
)

Definition at line 2869 of file SemaDeclAttr.cpp.

◆ MergeTypedefNameDecl()

void Sema::MergeTypedefNameDecl ( Scope S,
TypedefNameDecl New,
LookupResult OldDecls 
)

MergeTypedefNameDecl - We just parsed a typedef 'New' which has the same name and scope as a previous declaration 'Old'.

Figure out how to resolve this situation, merging decls or emitting diagnostics as appropriate. If there was an error, set New to be invalid.

Definition at line 2105 of file SemaDecl.cpp.

◆ mergeTypeVisibilityAttr()

TypeVisibilityAttr * Sema::mergeTypeVisibilityAttr ( Decl D,
SourceRange  Range,
TypeVisibilityAttr::VisibilityType  Vis,
unsigned  AttrSpellingListIndex 
)

Definition at line 2498 of file SemaDeclAttr.cpp.

◆ mergeUuidAttr()

UuidAttr * Sema::mergeUuidAttr ( Decl D,
SourceRange  Range,
unsigned  AttrSpellingListIndex,
StringRef  Uuid 
)

◆ MergeVarDecl()

void Sema::MergeVarDecl ( VarDecl New,
LookupResult Previous 
)

MergeVarDecl - We just parsed a variable 'New' which has the same name and scope as a previous declaration 'Old'.

Figure out how to resolve this situation, merging decls or emitting diagnostics as appropriate.

Tentative definition rules (C99 6.9.2p2) are checked by FinalizeDeclaratorGroup. Unfortunately, we can't analyze tentative definitions here, since the initializer hasn't been attached.

Definition at line 3792 of file SemaDecl.cpp.

References adjustDeclContextForDeclaratorDecl(), clang::frontend::CPlusPlus, clang::VarDecl::Definition, Diag(), clang::Decl::dropAttr(), clang::Decl::getAccess(), clang::VarDecl::getCanonicalDecl(), clang::NamedDecl::getDeclName(), clang::VarDecl::getDefinition(), clang::VarDecl::getDescribedVarTemplate(), clang::LookupResult::getFoundDecl(), clang::NamedDecl::getIdentifier(), clang::Decl::getLexicalDeclContext(), clang::Decl::getLocation(), clang::Redeclarable< decl_type >::getMostRecentDecl(), getNoteDiagForInvalidRedeclaration(), clang::LookupResult::getRepresentativeDecl(), clang::VarDecl::getStorageClass(), clang::VarTemplateDecl::getTemplatedDecl(), clang::TemplateDecl::getTemplateParameters(), clang::VarDecl::getTLSKind(), clang::Decl::hasAttr(), clang::NamedDecl::hasExternalFormalLinkage(), clang::VarDecl::hasExternalStorage(), clang::NamedDecl::hasLinkage(), haveIncompatibleLanguageLinkages(), clang::VarDecl::isConstexpr(), clang::VarDecl::isFileVarDecl(), clang::VarDecl::isInline(), clang::Decl::isInvalidDecl(), clang::VarDecl::isLocalVarDeclOrParm(), clang::VarDecl::isOutOfLine(), clang::DeclContext::isRecord(), clang::LookupResult::isSingleResult(), clang::VarDecl::isStaticDataMember(), clang::VarDecl::isThisDeclarationADefinition(), clang::Decl::isUsed(), mergeTypeWithPrevious(), clang::SC_None, clang::SC_Static, clang::Decl::setAccess(), clang::VarDecl::setImplicitlyInline(), clang::Decl::setInvalidDecl(), clang::Decl::setIsUsed(), clang::Redeclarable< decl_type >::setPreviousDecl(), and clang::VarDecl::TLS_Dynamic.

◆ MergeVarDeclExceptionSpecs()

void Sema::MergeVarDeclExceptionSpecs ( VarDecl New,
VarDecl Old 
)

Merge the exception specifications of two variable declarations.

This is called when there's a redeclaration of a VarDecl. The function checks if the redeclaration might have an exception specification and validates compatibility and merges the specs if necessary.

Definition at line 1465 of file SemaDeclCXX.cpp.

◆ MergeVarDeclTypes()

void Sema::MergeVarDeclTypes ( VarDecl New,
VarDecl Old,
bool  MergeTypeWithOld 
)

MergeVarDeclTypes - We parsed a variable 'New' which has the same name and scope as a previous declaration 'Old'.

Figure out how to merge their types, emitting diagnostics as appropriate.

Declarations using the auto type specifier (C++ [decl.spec.auto]) call back to here in AddInitializerToDecl. We can't check them before the initializer is attached.

Definition at line 3668 of file SemaDecl.cpp.

References clang::ValueDecl::getType(), clang::Decl::isInvalidDecl(), and clang::Type::isUndeducedType().

◆ mergeVisibilityAttr()

VisibilityAttr * Sema::mergeVisibilityAttr ( Decl D,
SourceRange  Range,
VisibilityAttr::VisibilityType  Vis,
unsigned  AttrSpellingListIndex 
)

Definition at line 2491 of file SemaDeclAttr.cpp.

◆ mightBeIntendedToBeTemplateName()

bool clang::Sema::mightBeIntendedToBeTemplateName ( ExprResult  E,
bool Dependent 
)
inline

Determine whether it's plausible that E was intended to be a template-name.

Definition at line 1845 of file Sema.h.

References clang::frontend::CPlusPlus, clang::DirectInit, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Greater, clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Less, and Previous.

◆ NeedToCaptureVariable()

bool Sema::NeedToCaptureVariable ( VarDecl Var,
SourceLocation  Loc 
)

Checks if the variable must be captured.

Definition at line 15145 of file SemaExpr.cpp.

◆ NoteAllFoundTemplates()

void Sema::NoteAllFoundTemplates ( TemplateName  Name)

Definition at line 2889 of file SemaTemplate.cpp.

◆ NoteAllOverloadCandidates()

void Sema::NoteAllOverloadCandidates ( Expr E,
QualType  DestType = QualType(),
bool  TakingAddress = false 
)

Definition at line 9575 of file SemaOverload.cpp.

References clang::Expr::getType().

Referenced by TryReinterpretCast().

◆ NoteDeletedFunction()

void Sema::NoteDeletedFunction ( FunctionDecl FD)

Emit a note explaining that this function is deleted.

Definition at line 93 of file SemaExpr.cpp.

References Diag(), clang::Decl::getLocation(), and clang::FunctionDecl::isDeleted().

Referenced by CheckCXX98CompatAccessibleCopy(), and CopyObject().

◆ NoteDeletedInheritingConstructor()

void Sema::NoteDeletedInheritingConstructor ( CXXConstructorDecl CD)

◆ NoteHiddenVirtualMethods()

void Sema::NoteHiddenVirtualMethods ( CXXMethodDecl MD,
SmallVectorImpl< CXXMethodDecl *> &  OverloadedMethods 
)

Definition at line 7715 of file SemaDeclCXX.cpp.

References Diag(), clang::Decl::getLocation(), and clang::ValueDecl::getType().

◆ NoteOverloadCandidate()

void Sema::NoteOverloadCandidate ( NamedDecl Found,
FunctionDecl Fn,
QualType  DestType = QualType(),
bool  TakingAddress = false 
)

◆ notePreviousDefinition()

void Sema::notePreviousDefinition ( const NamedDecl Old,
SourceLocation  New 
)

◆ ParsedFreeStandingDeclSpec() [1/2]

Decl * Sema::ParsedFreeStandingDeclSpec ( Scope S,
AccessSpecifier  AS,
DeclSpec DS,
RecordDecl *&  AnonRecord 
)

ParsedFreeStandingDeclSpec - This method is invoked when a declspec with no declarator (e.g.

"struct foo;") is parsed.

Definition at line 4110 of file SemaDecl.cpp.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ParsedFreeStandingDeclSpec() [2/2]

Decl * Sema::ParsedFreeStandingDeclSpec ( Scope S,
AccessSpecifier  AS,
DeclSpec DS,
MultiTemplateParamsArg  TemplateParams,
bool  IsExplicitInstantiation,
RecordDecl *&  AnonRecord 
)

ParsedFreeStandingDeclSpec - This method is invoked when a declspec with no declarator (e.g.

"struct foo;") is parsed. It also accepts template parameters to cope with template friend declarations.

Definition at line 4220 of file SemaDecl.cpp.

◆ ParseObjCEncodeExpression()

ExprResult Sema::ParseObjCEncodeExpression ( SourceLocation  AtLoc,
SourceLocation  EncodeLoc,
SourceLocation  LParenLoc,
ParsedType  Ty,
SourceLocation  RParenLoc 
)

Definition at line 1088 of file SemaExprObjC.cpp.

◆ ParseObjCProtocolExpression()

ExprResult Sema::ParseObjCProtocolExpression ( IdentifierInfo ProtocolName,
SourceLocation  AtLoc,
SourceLocation  ProtoLoc,
SourceLocation  LParenLoc,
SourceLocation  ProtoIdLoc,
SourceLocation  RParenLoc 
)

ParseObjCProtocolExpression - Build protocol expression for @protocol.

Definition at line 1220 of file SemaExprObjC.cpp.

References Diag(), clang::ObjCProtocolDecl::getDefinition(), and clang::ObjCProtocolDecl::hasDefinition().

◆ ParseObjCSelectorExpression()

ExprResult Sema::ParseObjCSelectorExpression ( Selector  Sel,
SourceLocation  AtLoc,
SourceLocation  SelLoc,
SourceLocation  LParenLoc,
SourceLocation  RParenLoc,
bool  WarnMultipleSelectors 
)

◆ ParseObjCStringLiteral()

ExprResult Sema::ParseObjCStringLiteral ( SourceLocation AtLocs,
ArrayRef< Expr *>  Strings 
)

Definition at line 34 of file SemaExprObjC.cpp.

◆ ParseTypedefDecl()

TypedefDecl * Sema::ParseTypedefDecl ( Scope S,
Declarator D,
QualType  T,
TypeSourceInfo TInfo 
)

Subroutines of ActOnDeclarator().

Definition at line 13565 of file SemaDecl.cpp.

◆ PDiag()

PartialDiagnostic clang::Sema::PDiag ( unsigned  DiagID = 0)
inline

◆ PerformContextualImplicitConversion()

ExprResult Sema::PerformContextualImplicitConversion ( SourceLocation  Loc,
Expr From,
ContextualImplicitConverter Converter 
)

Perform a contextual implicit conversion.

Attempt to convert the given expression to a type which is accepted by the given converter.

This routine will attempt to convert an expression of class type to a type accepted by the specified converter. In C++11 and before, the class must have a single non-explicit conversion function converting to a matching type. In C++1y, there can be multiple such conversion functions, but only one target type.

Parameters
LocThe source location of the construct that requires the conversion.
FromThe expression we're converting from.
ConverterUsed to control and diagnose the conversion process.
Returns
The expression, converted to an integral or enumeration type if successful.

Definition at line 5698 of file SemaOverload.cpp.

References clang::Sema::ContextualImplicitConverter::diagnoseIncomplete(), clang::Sema::ContextualImplicitConverter::diagnoseNoMatch(), distance(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Type::getAs(), clang::RecordType::getDecl(), clang::Stmt::getSourceRange(), clang::Expr::getType(), clang::Expr::hasPlaceholderType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Expr::isTypeDependent(), clang::Sema::ContextualImplicitConverter::match(), and clang::Sema::ContextualImplicitConverter::Suppress.

Referenced by ActOnCXXDelete().

◆ PerformContextuallyConvertToBool()

ExprResult Sema::PerformContextuallyConvertToBool ( Expr From)

PerformContextuallyConvertToBool - Perform a contextual conversion of the expression From to bool (C++0x [conv]p3).

Definition at line 5251 of file SemaOverload.cpp.

References checkPlaceholderForOverload(), clang::ExprError(), clang::ImplicitConversionSequence::isBad(), and TryContextuallyConvertToBool().

Referenced by CheckCXXBooleanCondition().

◆ PerformContextuallyConvertToObjCPointer()

ExprResult Sema::PerformContextuallyConvertToObjCPointer ( Expr From)

PerformContextuallyConvertToObjCPointer - Perform a contextual conversion of the expression From to an Objective-C pointer type.

Returns a valid but null ExprResult if no conversion sequence exists.

Definition at line 5535 of file SemaOverload.cpp.

References checkPlaceholderForOverload(), and clang::ExprError().

◆ PerformCopyInitialization()

ExprResult Sema::PerformCopyInitialization ( const InitializedEntity Entity,
SourceLocation  EqualLoc,
ExprResult  Init,
bool  TopLevelOfInitList = false,
bool  AllowExplicit = false 
)

◆ PerformDependentDiagnostics()

void Sema::PerformDependentDiagnostics ( const DeclContext Pattern,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ PerformImplicitConversion() [1/4]

ExprResult Sema::PerformImplicitConversion ( Expr From,
QualType  ToType,
AssignmentAction  Action,
bool  AllowExplicit = false 
)

PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType.

Returns the converted expression. Flavor is the kind of conversion we're performing, used in the error message. If AllowExplicit, explicit user-defined conversions are permitted.

Definition at line 1403 of file SemaOverload.cpp.

Referenced by ActOnCXXDelete(), buildCounterInit(), buildCounterUpdate(), CheckConvertedConstantExpression(), checkOpenMPLoop(), FindConditionalOverload(), clang::InitializationSequence::Perform(), PerformImplicitConversion(), and widenIterationCount().

◆ PerformImplicitConversion() [2/4]

ExprResult Sema::PerformImplicitConversion ( Expr From,
QualType  ToType,
AssignmentAction  Action,
bool  AllowExplicit,
ImplicitConversionSequence ICS 
)

◆ PerformImplicitConversion() [3/4]

ExprResult Sema::PerformImplicitConversion ( Expr From,
QualType  ToType,
const ImplicitConversionSequence ICS,
AssignmentAction  Action,
CheckedConversionKind  CCK = CCK_ImplicitConversion 
)

PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType using the pre-computed implicit conversion sequence ICS.

Returns the converted expression. Action is the kind of conversion we're performing, used in the error message.

Definition at line 3767 of file SemaExprCXX.cpp.

References AA_Converting, clang::UserDefinedConversionSequence::After, clang::ImplicitConversionSequence::AmbiguousConversion, clang::ImplicitConversionSequence::BadConversion, clang::UserDefinedConversionSequence::Before, BuildCXXCastArgument(), CCK_ForBuiltinOverloadedOp, Context, clang::UserDefinedConversionSequence::ConversionFunction, clang::ImplicitConversionSequence::DiagnoseAmbiguousConversion(), DiagnoseAssignmentResult(), clang::UserDefinedConversionSequence::EllipsisConversion, clang::ImplicitConversionSequence::EllipsisConversion, clang::ExprError(), clang::UserDefinedConversionSequence::FoundConversionFunction, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Expr::getExprLoc(), clang::ImplicitConversionSequence::getKind(), clang::Stmt::getLocStart(), clang::QualType::getNonReferenceType(), clang::FunctionDecl::getParamDecl(), clang::Stmt::getSourceRange(), clang::ASTContext::getTagDeclType(), clang::Expr::getType(), clang::ValueDecl::getType(), clang::UserDefinedConversionSequence::HadMultipleCandidates, Incompatible, clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Type::isRecordType(), PDiag(), PerformImplicitConversion(), clang::ImplicitConversionSequence::Standard, clang::ImplicitConversionSequence::StandardConversion, clang::ImplicitConversionSequence::UserDefined, and clang::ImplicitConversionSequence::UserDefinedConversion.

◆ PerformImplicitConversion() [4/4]

ExprResult Sema::PerformImplicitConversion ( Expr From,
QualType  ToType,
const StandardConversionSequence SCS,
AssignmentAction  Action,
CheckedConversionKind  CCK 
)

PerformImplicitConversion - Perform an implicit conversion of the expression From to the type ToType by following the standard conversion sequence SCS.

Returns the converted expression. Flavor is the context in which we're performing this conversion, for use in error messages.

Definition at line 3871 of file SemaExprCXX.cpp.

References AA_Assigning, AA_Casting, AA_Converting, AA_Initializing, AA_Passing, AA_Passing_CFAudited, AA_Returning, AA_Sending, clang::LangOptions::allowsNonTrivialObjCLifetimeQualifiers(), clang::ASTContext::BoolTy, BuildCXXConstructExpr(), clang::Type::castAs(), CCK_CStyleCast, CCK_FunctionalCast, CheckDerivedToBaseConversion(), CheckExceptionSpecCompatibility(), CheckMemberPointerConversion(), CheckObjCARCUnavailableWeakConversion(), CheckObjCConversion(), CheckPointerConversion(), CheckTransparentUnionArgumentConstraints(), clang::CXXConstructExpr::CK_Complete, Compatible, CompleteConstructorCall(), Context, clang::StandardConversionSequence::CopyConstructor, clang::ImplicitCastExpr::Create(), DefaultLvalueConversion(), clang::StandardConversionSequence::DeprecatedStringLiteralToCharPtr, Diag(), diagnoseNullableToNonnullConversion(), DiagnoseUseOfDecl(), EmitRelatedResultTypeNote(), clang::ExprError(), clang::StandardConversionSequence::First, FixOverloadedFunctionReference(), clang::ASTContext::FloatTy, clang::StandardConversionSequence::FoundCopyConstructor, clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::ASTContext::getArrayDecayedType(), clang::Type::getAs(), clang::TargetInfo::getCXXABI(), clang::EnumType::getDecl(), clang::ComplexType::getElementType(), clang::Expr::getExprLoc(), getLangOpts(), clang::Stmt::getLocStart(), clang::QualType::getNonLValueExprType(), clang::QualType::getNonReferenceType(), clang::Expr::getObjectKind(), clang::ASTContext::getPointerType(), clang::Stmt::getSourceRange(), clang::ASTContext::getTargetInfo(), clang::Expr::getType(), clang::QualType::getUnqualifiedType(), clang::Expr::getValueKind(), clang::AtomicType::getValueType(), clang::ASTContext::hasSameType(), clang::ASTContext::hasSameUnqualifiedType(), clang::ICK_Array_To_Pointer, clang::ICK_Block_Pointer_Conversion, clang::ICK_Boolean_Conversion, clang::ICK_C_Only_Conversion, clang::ICK_Compatible_Conversion, clang::ICK_Complex_Conversion, clang::ICK_Complex_Promotion, clang::ICK_Complex_Real, clang::ICK_Derived_To_Base, clang::ICK_Floating_Conversion, clang::ICK_Floating_Integral, clang::ICK_Floating_Promotion, clang::ICK_Function_Conversion, clang::ICK_Function_To_Pointer, clang::ICK_Identity, clang::ICK_Incompatible_Pointer_Conversion, clang::ICK_Integral_Conversion, clang::ICK_Integral_Promotion, clang::ICK_Lvalue_To_Rvalue, clang::ICK_Num_Conversion_Kinds, clang::ICK_Pointer_Conversion, clang::ICK_Pointer_Member, clang::ICK_Qualification, clang::ICK_TransparentUnionConversion, clang::ICK_Vector_Conversion, clang::ICK_Vector_Splat, clang::ICK_Writeback_Conversion, clang::ICK_Zero_Event_Conversion, clang::ICK_Zero_Queue_Conversion, ImpCastExprToType(), clang::StandardConversionSequence::IncompatibleObjC, clang::Type::isBooleanType(), isCast(), isCompleteType(), clang::EnumDecl::isFixed(), clang::Type::isHalfType(), clang::Type::isIntegerType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::TargetCXXABI::isMicrosoft(), clang::QualType::isNull(), clang::Type::isObjCObjectPointerType(), clang::Type::isRealFloatingType(), clang::Type::isReferenceType(), clang::OK_ObjCProperty, clang::ASTContext::OverloadTy, PrepareCastToObjCObjectPointer(), prepareVectorSplat(), ResolveAddressOfOverloadedFunction(), ScalarTypeToBooleanCastKind(), clang::StandardConversionSequence::Second, clang::StandardConversionSequence::Third, and clang::VK_RValue.

◆ PerformMemberExprBaseConversion()

ExprResult Sema::PerformMemberExprBaseConversion ( Expr Base,
bool  IsArrow 
)

Perform conversions on the LHS of a member access expression.

Definition at line 1211 of file SemaExprMember.cpp.

References clang::Expr::getType(), and clang::Type::isFunctionType().

Referenced by LookupMemberExpr().

◆ PerformMoveOrCopyInitialization()

ExprResult Sema::PerformMoveOrCopyInitialization ( const InitializedEntity Entity,
const VarDecl NRVOCandidate,
QualType  ResultType,
Expr Value,
bool  AllowNRVO = true 
)

Perform the initialization of a potentially-movable value, which is the result of return value.

This routine implements C++14 [class.copy]p32, which attempts to treat returned lvalues as rvalues in certain cases (to prefer move construction), then falls back to treating them as lvalues if that failed.

Definition at line 3020 of file SemaStmt.cpp.

References clang::ExprError(), clang::Expr::getExprLoc(), clang::QualType::getNonReferenceType(), clang::ValueDecl::getType(), clang::QualType::getUnqualifiedType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::QualType::isTriviallyCopyableType(), and TryMoveInitialization().

◆ PerformObjectArgumentInitialization()

ExprResult Sema::PerformObjectArgumentInitialization ( Expr From,
NestedNameSpecifier Qualifier,
NamedDecl FoundDecl,
CXXMethodDecl Method 
)

PerformObjectArgumentInitialization - Perform initialization of the implicit object parameter for the given Method with the given expression.

Definition at line 5151 of file SemaOverload.cpp.

References clang::CXXMethodDecl::getThisType().

Referenced by convertArgsForAvailabilityChecks().

◆ PerformObjectMemberConversion()

ExprResult Sema::PerformObjectMemberConversion ( Expr From,
NestedNameSpecifier Qualifier,
NamedDecl FoundDecl,
NamedDecl Member 
)

Cast a base object to a member's actual type.

Logically this happens in three phases:

  • First we cast from the base type to the naming class. The naming class is the class into which we were looking when we found the member; it's the qualifier type if a qualifier was provided, and otherwise it's the base type.
  • Next we cast from the naming class to the declaring class. If the member we found was brought into a class's scope by a using declaration, this is that class; otherwise it's the class declaring the member.
  • Finally we cast from the declaring class to the "true" declaring class of the member. This conversion does not obey access control.

Definition at line 2503 of file SemaExpr.cpp.

◆ PerformOpenMPImplicitIntegerConversion()

ExprResult Sema::PerformOpenMPImplicitIntegerConversion ( SourceLocation  OpLoc,
Expr Op 
)

◆ PerformPendingInstantiations()

void Sema::PerformPendingInstantiations ( bool  LocalOnly = false)

◆ popCodeSynthesisContext()

void Sema::popCodeSynthesisContext ( )

◆ PopCompoundScope()

void Sema::PopCompoundScope ( )

Definition at line 1426 of file Sema.cpp.

References clang::sema::FunctionScopeInfo::CompoundScopes, and getCurFunction().

◆ PopDeclContext()

void Sema::PopDeclContext ( )

Definition at line 1216 of file SemaDecl.cpp.

◆ PopExpressionEvaluationContext()

void Sema::PopExpressionEvaluationContext ( )

◆ PopForceCUDAHostDevice()

bool Sema::PopForceCUDAHostDevice ( )

Decrements our count of the number of times we've seen a pragma forcing functions to be host device.

Returns false if the count is 0 before incrementing, so you can emit an error.

Definition at line 32 of file SemaCUDA.cpp.

References getLangOpts().

◆ PopFunctionScopeInfo()

void Sema::PopFunctionScopeInfo ( const sema::AnalysisBasedWarnings::Policy WP = nullptr,
const Decl D = nullptr,
const BlockExpr blkExpr = nullptr 
)

◆ popObjCTypeParamList()

void Sema::popObjCTypeParamList ( Scope S,
ObjCTypeParamList typeParamList 
)

Definition at line 798 of file SemaDeclObjC.cpp.

Referenced by clang::Parser::ObjCTypeParamListScope::leave().

◆ PopParsingClass()

void clang::Sema::PopParsingClass ( ParsingClassState  state)
inline

Definition at line 3977 of file Sema.h.

References clang::Sema::DelayedDiagnostics::popUndelayed().

◆ PopParsingDeclaration()

void Sema::PopParsingDeclaration ( ParsingDeclState  state,
Decl decl 
)

◆ PopPragmaVisibility()

void Sema::PopPragmaVisibility ( bool  IsNamespaceEnd,
SourceLocation  EndLoc 
)

PopPragmaVisibility - Pop the top element of the visibility stack; used for '#pragma GCC visibility' and visibility attributes on namespaces.

Definition at line 785 of file SemaAttr.cpp.

References Diag(), and VisContext.

Referenced by ActOnPragmaVisibility().

◆ PrepareCastToObjCObjectPointer()

CastKind Sema::PrepareCastToObjCObjectPointer ( ExprResult E)

Prepare a conversion of the given expression to an ObjC object pointer type.

Definition at line 5820 of file SemaExpr.cpp.

Referenced by PerformImplicitConversion(), and TryReinterpretCast().

◆ PrepareScalarCast()

CastKind Sema::PrepareScalarCast ( ExprResult Src,
QualType  DestTy 
)

Prepares for a scalar cast, performing all the necessary stages except the final cast and returning the kind required.

Definition at line 5835 of file SemaExpr.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get().

Referenced by CXXCheckConditionalOperands(), and DiagnoseBadFunctionCast().

◆ prepareVectorSplat()

ExprResult Sema::prepareVectorSplat ( QualType  VectorTy,
Expr SplattedExpr 
)

◆ PrintContextStack()

void clang::Sema::PrintContextStack ( )
inline

Definition at line 7482 of file Sema.h.

Referenced by EmitCurrentDiagnostic().

◆ PrintInstantiationStack()

void Sema::PrintInstantiationStack ( )

◆ PrintPragmaAttributeInstantiationPoint()

void Sema::PrintPragmaAttributeInstantiationPoint ( )

◆ PrintStats()

void Sema::PrintStats ( ) const

Print out statistics about the semantic analysis.

Definition at line 420 of file Sema.cpp.

References AnalysisWarnings, BumpAlloc, NumSFINAEErrors, and clang::sema::AnalysisBasedWarnings::PrintStats().

◆ ProcessAccessDeclAttributeList()

bool Sema::ProcessAccessDeclAttributeList ( AccessSpecDecl ASDecl,
const ParsedAttributesView AttrList 
)

Definition at line 6686 of file SemaDeclAttr.cpp.

References Diag(), and ProcessDeclAttribute().

◆ ProcessDeclAttributeDelayed()

void Sema::ProcessDeclAttributeDelayed ( Decl D,
const ParsedAttributesView AttrList 
)

Definition at line 6675 of file SemaDeclAttr.cpp.

References handleTransparentUnionAttr().

◆ ProcessDeclAttributeList()

void Sema::ProcessDeclAttributeList ( Scope S,
Decl D,
const ParsedAttributesView AttrList,
bool  IncludeCXX11Attributes = true 
)

ProcessDeclAttributeList - Apply all the decl attributes in the specified attribute list to the specified decl, ignoring any type attributes.

Definition at line 6612 of file SemaDeclAttr.cpp.

Referenced by ActOnForwardProtocolDeclaration(), ActOnStartCategoryInterface(), ActOnStartProtocolInterface(), and AddPragmaAttributes().

◆ ProcessDeclAttributes()

void Sema::ProcessDeclAttributes ( Scope S,
Decl D,
const Declarator PD 
)

ProcessDeclAttributes - Given a declarator (PD) with attributes indicated in it, apply them to D.

This is a bit tricky because PD can have attributes specified in many different places, and we need to find and apply them all.

Definition at line 6828 of file SemaDeclAttr.cpp.

◆ ProcessPragmaWeak()

void Sema::ProcessPragmaWeak ( Scope S,
Decl D 
)

Definition at line 6800 of file SemaDeclAttr.cpp.

◆ ProcessPropertyDecl()

void Sema::ProcessPropertyDecl ( ObjCPropertyDecl property)

Process the specified property declaration and create decls for the setters and getters as needed.

ProcessPropertyDecl - Make sure that any user-defined setter/getter methods have the property type and issue diagnostics if they don't.

Parameters
propertyThe property declaration being processed

Also synthesize a getter/setter method if none exist (and update the appropriate lookup tables.

Definition at line 2315 of file SemaObjCProperty.cpp.

References clang::Decl::addAttr(), clang::DeclContext::addDecl(), AddFactoryMethodToGlobalPool(), AddInstanceMethodToGlobalPool(), AddPropertyAttrs(), clang::AttributedType::attr_nonnull, clang::AttributedType::attr_nullable, CheckARCMethodDecl(), CheckObjCMethodOverrides(), Context, clang::ObjCMethodDecl::Create(), clang::ParmVarDecl::Create(), Diag(), DiagnosePropertyAccessorMismatch(), clang::Decl::getAttr(), clang::ASTContext::getAttributedType(), clang::ASTContext::getCanonicalType(), clang::ObjCMethodDecl::getClassInterface(), clang::ObjCContainerDecl::getClassMethod(), clang::NamedDecl::getDeclName(), clang::ObjCPropertyDecl::getGetterName(), clang::NamedDecl::getIdentifier(), clang::ObjCContainerDecl::getInstanceMethod(), getLangOpts(), clang::Decl::getLocation(), clang::ObjCPropertyDecl::getPropertyAttributes(), clang::ObjCPropertyDecl::getSetterName(), clang::Decl::hasAttr(), clang::ASTContext::hasSameUnqualifiedType(), clang::Decl::isInvalidDecl(), clang::ObjCPropertyDecl::isReadOnly(), clang::None, clang::ObjCPropertyDecl::OBJC_PR_null_resettable, clang::ObjCMethodDecl::Optional, clang::ObjCPropertyDecl::Optional, clang::ObjCMethodDecl::Required, RTC_Unknown, clang::SC_None, clang::ObjCMethodDecl::setPropertyAccessor(), clang::AttributedType::stripOuterNullability(), clang::Unspecified, and clang::ASTContext::VoidTy.

◆ ProcessStmtAttributes()

StmtResult Sema::ProcessStmtAttributes ( Stmt Stmt,
const ParsedAttributesView Attrs,
SourceRange  Range 
)

Stmt attributes - this routine is the top level dispatcher.

Definition at line 316 of file SemaStmtAttr.cpp.

◆ propagateDLLAttrToBaseClassTemplate()

void Sema::propagateDLLAttrToBaseClassTemplate ( CXXRecordDecl Class,
Attr ClassAttr,
ClassTemplateSpecializationDecl BaseTemplateSpec,
SourceLocation  BaseLoc 
)

◆ PushBlockScope()

void Sema::PushBlockScope ( Scope BlockScope,
BlockDecl Block 
)

Definition at line 1382 of file Sema.cpp.

References FunctionScopes, and getDiagnostics().

◆ PushCapturedRegionScope()

void Sema::PushCapturedRegionScope ( Scope RegionScope,
CapturedDecl CD,
RecordDecl RD,
CapturedRegionKind  K 
)

◆ pushCodeSynthesisContext()

void Sema::pushCodeSynthesisContext ( CodeSynthesisContext  Ctx)

◆ PushCompoundScope()

void Sema::PushCompoundScope ( bool  IsStmtExpr)

Definition at line 1422 of file Sema.cpp.

References clang::sema::FunctionScopeInfo::CompoundScopes, and getCurFunction().

◆ PushDeclContext()

void Sema::PushDeclContext ( Scope S,
DeclContext DC 
)

Set the current declaration context until it gets popped.

Definition at line 1209 of file SemaDecl.cpp.

Referenced by ActOnStartOfObjCMethodDef().

◆ PushExpressionEvaluationContext() [1/2]

void Sema::PushExpressionEvaluationContext ( ExpressionEvaluationContext  NewContext,
Decl LambdaContextDecl = nullptr,
ExpressionEvaluationContextRecord::ExpressionKind  Type = ExpressionEvaluationContextRecord::EK_Other 
)

◆ PushExpressionEvaluationContext() [2/2]

Definition at line 14161 of file SemaExpr.cpp.

◆ pushExternalDeclIntoScope()

void Sema::pushExternalDeclIntoScope ( NamedDecl D,
DeclarationName  Name 
)

Make the given externally-produced declaration visible at the top level scope.

Parameters
DThe externally-produced declaration to push.
NameThe name of the externally-produced declaration.

Definition at line 1402 of file SemaDecl.cpp.

◆ PushForceCUDAHostDevice()

void Sema::PushForceCUDAHostDevice ( )

Increments our count of the number of times we've seen a pragma forcing functions to be host device.

So long as this count is greater than zero, all functions encountered will be host device.

Definition at line 27 of file SemaCUDA.cpp.

References getLangOpts().

◆ PushFunctionScope()

void Sema::PushFunctionScope ( )

◆ PushLambdaScope()

LambdaScopeInfo * Sema::PushLambdaScope ( )

Definition at line 1387 of file Sema.cpp.

References FunctionScopes, and getDiagnostics().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ PushNamespaceVisibilityAttr()

void Sema::PushNamespaceVisibilityAttr ( const VisibilityAttr *  Attr,
SourceLocation  Loc 
)

PushNamespaceVisibilityAttr - Note that we've entered a namespace with a visibility attribute.

Definition at line 776 of file SemaAttr.cpp.

References NoVisibility, and PushPragmaVisibility().

◆ PushOnScopeChains()

void Sema::PushOnScopeChains ( NamedDecl D,
Scope S,
bool  AddToContext = true 
)

◆ PushParsingClass()

ParsingClassState clang::Sema::PushParsingClass ( )
inline

Definition at line 3974 of file Sema.h.

References clang::Sema::DelayedDiagnostics::pushUndelayed().

◆ PushParsingDeclaration()

ParsingDeclState clang::Sema::PushParsingDeclaration ( sema::DelayedDiagnosticPool pool)
inline

◆ PushUsingDirective()

void Sema::PushUsingDirective ( Scope S,
UsingDirectiveDecl UDir 
)

◆ ReadMethodPool()

void Sema::ReadMethodPool ( Selector  Sel)

Read the contents of the method pool for a given selector from external storage.

Definition at line 3370 of file SemaDeclObjC.cpp.

Referenced by AreMultipleMethodsInGlobalPool(), CollectMultipleMethodsInGlobalPool(), and updateOutOfDateSelector().

◆ RebuildExprInCurrentInstantiation()

ExprResult Sema::RebuildExprInCurrentInstantiation ( Expr E)

Definition at line 9817 of file SemaTemplate.cpp.

◆ RebuildNestedNameSpecifierInCurrentInstantiation()

bool Sema::RebuildNestedNameSpecifierInCurrentInstantiation ( CXXScopeSpec SS)

◆ RebuildTemplateParamsInCurrentInstantiation()

bool Sema::RebuildTemplateParamsInCurrentInstantiation ( TemplateParameterList Params)

Rebuild the template parameters now that we know we're in a current instantiation.

Definition at line 9841 of file SemaTemplate.cpp.

◆ RebuildTypeInCurrentInstantiation()

TypeSourceInfo * Sema::RebuildTypeInCurrentInstantiation ( TypeSourceInfo T,
SourceLocation  Loc,
DeclarationName  Name 
)

Rebuilds a type within the context of the current instantiation.

The type T is part of the type of an out-of-line member definition of a class template (or class template partial specialization) that was parsed and constructed before we entered the scope of the class template (or partial specialization thereof). This routine will rebuild that type now that we have entered the declarator's scope, which may produce different canonical types, e.g.,

template<typename T>
struct X {
typedef T* pointer;
pointer data();
};
template<typename T>
typename X<T>::pointer X<T>::data() { ... }

Here, the type "typename X<T>::pointer" will be created as a DependentNameType, since we do not know that we can look into X<T> when we parsed the type. This function will rebuild the type, performing the lookup of "pointer" in X<T> and returning an ElaboratedType whose canonical type is the same as the canonical type of T*, allowing the return types of the out-of-line definition and the declaration to match.

Definition at line 9807 of file SemaTemplate.cpp.

◆ RecordParsingTemplateParameterDepth()

void Sema::RecordParsingTemplateParameterDepth ( unsigned  Depth)

This is used to inform Sema what the current TemplateParameterDepth is during Parsing.

Currently it is used to pass on the depth when parsing generic lambda 'auto' parameters.

Definition at line 1393 of file Sema.cpp.

References Depth, and getCurLambda().

Referenced by addConstexprToLambdaDeclSpecifier().

◆ recreateSyntacticForm()

Expr * Sema::recreateSyntacticForm ( PseudoObjectExpr E)

Given a pseudo-object expression, recreate what it looks like syntactically without the attendant OpaqueValueExprs.

This is a hack which should be removed when TreeTransform is capable of rebuilding a tree without stripping implicit operations.

Definition at line 1647 of file SemaPseudoObject.cpp.

References clang::PseudoObjectExpr::getSyntacticForm(), and stripOpaqueValuesFromPseudoObjectRef().

◆ redelayDiagnostics()

void Sema::redelayDiagnostics ( sema::DelayedDiagnosticPool pool)

Given a set of delayed diagnostics, re-emit them as if they had been delayed in the current context instead of in the given pool.

Essentially, this just moves them to the current pool.

Definition at line 7456 of file SemaDeclAttr.cpp.

References clang::Sema::DelayedDiagnostics::getCurrentPool(), and clang::sema::DelayedDiagnosticPool::steal().

Referenced by clang::SuppressAccessChecks::redelay().

◆ referenceDLLExportedClassMethods()

void Sema::referenceDLLExportedClassMethods ( )

◆ RefersToMemberWithReducedAlignment()

void Sema::RefersToMemberWithReducedAlignment ( Expr E,
llvm::function_ref< void(Expr *, RecordDecl *, FieldDecl *, CharUnits)>  Action 
)

This function calls Action when it determines that E designates a misaligned member due to the packed attribute.

This is used to emit local diagnostics like in reference binding.

Definition at line 13524 of file SemaChecking.cpp.

◆ RegisterLocallyScopedExternCDecl()

void Sema::RegisterLocallyScopedExternCDecl ( NamedDecl ND,
Scope S 
)

Register the given locally-scoped extern "C" declaration so that it can be found later for redeclarations.

We include any extern "C" declaration that is not visible in the translation unit here, not just function-scope declarations.

Definition at line 5684 of file SemaDecl.cpp.

◆ RegisterTypeTagForDatatype()

void Sema::RegisterTypeTagForDatatype ( const IdentifierInfo ArgumentKind,
uint64_t  MagicValue,
QualType  Type,
bool  LayoutCompatible,
bool  MustBeNull 
)

Register a magic integral constant to be used as a type tag.

Definition at line 13361 of file SemaChecking.cpp.

◆ ReplaceAutoType()

QualType Sema::ReplaceAutoType ( QualType  TypeWithAuto,
QualType  Replacement 
)

Completely replace the auto in TypeWithAuto by Replacement.

This does not retain any auto type sugar.

Definition at line 4570 of file SemaTemplateDeduction.cpp.

Referenced by GetDeclSpecTypeForDeclarator().

◆ RequireCompleteDeclContext()

bool Sema::RequireCompleteDeclContext ( CXXScopeSpec SS,
DeclContext DC 
)

Require that the context specified by SS be complete.

If SS refers to a type, this routine checks whether the type is complete enough (or can be made complete enough) for name lookup into the DeclContext. A type that is not yet completed can be considered "complete enough" if it is a class/struct/union/enum that is currently being defined. Or, if we have a type that names a class template specialization that is not a complete type, we will attempt to instantiate that class template.

Definition at line 200 of file SemaCXXScopeSpec.cpp.

References Context, Definition, Diag(), diagnoseMissingImport(), clang::ast_matchers::enumType, clang::Type::getAs(), clang::SourceRange::getBegin(), clang::EnumType::getDecl(), clang::EnumDecl::getInstantiatedFromMemberEnum(), clang::CXXScopeSpec::getLastQualifierNameLoc(), clang::EnumDecl::getMemberSpecializationInfo(), clang::CXXScopeSpec::getRange(), getTemplateInstantiationArgs(), clang::MemberSpecializationInfo::getTemplateSpecializationKind(), clang::ASTContext::getTypeDeclType(), hasVisibleDefinition(), InstantiateEnum(), clang::TagType::isBeingDefined(), clang::TagDecl::isCompleteDefinition(), clang::DeclContext::isDependentContext(), clang::SourceLocation::isInvalid(), isSFINAEContext(), RequireCompleteType(), clang::CXXScopeSpec::SetInvalid(), clang::ast_matchers::tagType, clang::TSK_ExplicitSpecialization, and clang::TSK_ImplicitInstantiation.

Referenced by LookupMemberExprInRecord(), and clang::TreeTransform< Derived >::RebuildDependentNameType().

◆ RequireCompleteExprType() [1/3]

bool Sema::RequireCompleteExprType ( Expr E,
TypeDiagnoser Diagnoser 
)

Ensure that the type of the given expression is complete.

This routine checks whether the expression E has a complete type. If the expression refers to an instantiable construct, that instantiation is performed as needed to complete its type. Furthermore Sema::RequireCompleteType is called for the expression's type (or in the case of a reference type, the referred-to type).

Parameters
EThe expression whose type is required to be complete.
DiagnoserThe object that will emit a diagnostic if the type is incomplete.
Returns
true if the type of E is incomplete and diagnosed, false otherwise.

Definition at line 7457 of file SemaType.cpp.

◆ RequireCompleteExprType() [2/3]

bool Sema::RequireCompleteExprType ( Expr E,
unsigned  DiagID 
)

Definition at line 7475 of file SemaType.cpp.

◆ RequireCompleteExprType() [3/3]

template<typename... Ts>
bool clang::Sema::RequireCompleteExprType ( Expr E,
unsigned  DiagID,
const Ts &...  Args 
)
inline

Definition at line 1636 of file Sema.h.

◆ RequireCompleteType() [1/3]

bool Sema::RequireCompleteType ( SourceLocation  Loc,
QualType  T,
TypeDiagnoser Diagnoser 
)

Ensure that the type T is a complete type.

This routine checks whether the type T is complete in any context where a complete type is required. If T is a complete type, returns false. If T is a class template specialization, this routine then attempts to perform class template instantiation. If instantiation fails, or if T is incomplete and cannot be completed, issues the diagnostic diag (giving it the type T) and returns true.

Parameters
LocThe location in the source that the incomplete type diagnostic should refer to.
TThe type that this routine is examining for completeness.
Returns
true if T is incomplete and a diagnostic was emitted, false otherwise.

Definition at line 7497 of file SemaType.cpp.

References clang::Type::getAs().

Referenced by ActOnCXXDelete(), ActOnStartCategoryImplementation(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), ActOnStartCXXMemberReference(), ActOnStartOfObjCMethodDef(), BuildCXXTypeConstructExpr(), CheckAllocatedType(), checkArithmeticIncompletePointerType(), CheckCommaOperands(), CheckPointerToMemberOperands(), CheckSpecifiedExceptionType(), CheckUnaryTypeTraitTypeCompleteness(), CopyObject(), DiagnoseBadFunctionCast(), EvaluateBinaryTypeTrait(), evaluateTypeTrait(), getCastAwayConstnessCastKind(), LookupMemberExpr(), LookupMemberExprInRecord(), lookupStdTypeTraitMember(), RequireCompleteDeclContext(), and TryStaticImplicitCast().

◆ RequireCompleteType() [2/3]

bool Sema::RequireCompleteType ( SourceLocation  Loc,
QualType  T,
unsigned  DiagID 
)

Definition at line 7804 of file SemaType.cpp.

◆ RequireCompleteType() [3/3]

template<typename... Ts>
bool clang::Sema::RequireCompleteType ( SourceLocation  Loc,
QualType  T,
unsigned  DiagID,
const Ts &...  Args 
)
inline

Definition at line 1625 of file Sema.h.

◆ RequireLiteralType() [1/3]

bool Sema::RequireLiteralType ( SourceLocation  Loc,
QualType  T,
TypeDiagnoser Diagnoser 
)

Ensure that the type T is a literal type.

This routine checks whether the type T is a literal type. If T is an incomplete type, an attempt is made to complete it. If T is a literal type, or AllowIncompleteType is true and T is an incomplete type, returns false. Otherwise, this routine issues the diagnostic PD (giving it the type T), along with notes explaining why the type is not a literal type, and returns true.

Parameters
LocThe location in the source that the non-literal type diagnostic should refer to.
TThe type that this routine is examining for literalness.
DiagnoserEmits a diagnostic if T is not a literal type.
Returns
true if T is not a literal type and a diagnostic was emitted, false otherwise.

Definition at line 7842 of file SemaType.cpp.

References clang::Type::isDependentType().

Referenced by CheckConstexprDeclStmt(), and CheckConstexprParameterTypes().

◆ RequireLiteralType() [2/3]

bool Sema::RequireLiteralType ( SourceLocation  Loc,
QualType  T,
unsigned  DiagID 
)

Definition at line 7925 of file SemaType.cpp.

◆ RequireLiteralType() [3/3]

template<typename... Ts>
bool clang::Sema::RequireLiteralType ( SourceLocation  Loc,
QualType  T,
unsigned  DiagID,
const Ts &...  Args 
)
inline

Definition at line 1646 of file Sema.h.

◆ RequireNonAbstractType() [1/2]

bool Sema::RequireNonAbstractType ( SourceLocation  Loc,
QualType  T,
TypeDiagnoser Diagnoser 
)

◆ RequireNonAbstractType() [2/2]

template<typename... Ts>
bool clang::Sema::RequireNonAbstractType ( SourceLocation  Loc,
QualType  T,
unsigned  DiagID,
const Ts &...  Args 
)
inline

Definition at line 6091 of file Sema.h.

◆ resolveAddressOfOnlyViableOverloadCandidate()

FunctionDecl * Sema::resolveAddressOfOnlyViableOverloadCandidate ( Expr E,
DeclAccessPair Pair 
)

Given an expression that refers to an overloaded function, try to resolve that function to a single function that can have its address taken.

This will modify Pair iff it returns non-null.

This routine can only realistically succeed if all but one candidates in the overload set for SrcExpr cannot have their addresses taken.

Definition at line 11366 of file SemaOverload.cpp.

Referenced by ResolveOverloadForDeduction().

◆ ResolveAddressOfOverloadedFunction()

FunctionDecl * Sema::ResolveAddressOfOverloadedFunction ( Expr AddressOfExpr,
QualType  TargetType,
bool  Complain,
DeclAccessPair FoundResult,
bool pHadMultipleCandidates = nullptr 
)

ResolveAddressOfOverloadedFunction - Try to resolve the address of an overloaded function (C++ [over.over]), where From is an expression with overloaded function type and ToType is the type we're trying to resolve to.

For example:

int f(double);
int f(int);
int (*pfd)(double) = f; // selects f(double)

This routine returns the resulting FunctionDecl if it could be resolved, and NULL otherwise. When Complain is true, this routine will emit diagnostics if there is an error.

Definition at line 11320 of file SemaOverload.cpp.

References clang::Expr::getType().

Referenced by DiagnoseBadFunctionCast(), IsStandardConversion(), PerformImplicitConversion(), ResolveOverloadedFunctionForReferenceBinding(), TryListConversion(), TryReferenceInit(), TryReinterpretCast(), and TryStaticMemberPointerUpcast().

◆ resolveAndFixAddressOfOnlyViableOverloadCandidate()

bool Sema::resolveAndFixAddressOfOnlyViableOverloadCandidate ( ExprResult SrcExpr,
bool  DoFunctionPointerConverion = false 
)

Given an overloaded function, tries to turn it into a non-overloaded function reference using resolveAddressOfOnlyViableOverloadCandidate.

This will perform access checks, diagnose the use of the resultant decl, and, if requested, potentially perform a function-to-pointer decay.

Returns false if resolveAddressOfOnlyViableOverloadCandidate fails. Otherwise, returns true. This may emit diagnostics and return true.

Definition at line 11402 of file SemaOverload.cpp.

◆ ResolveAndFixSingleFunctionTemplateSpecialization()

bool Sema::ResolveAndFixSingleFunctionTemplateSpecialization ( ExprResult SrcExpr,
bool  DoFunctionPointerConverion = false,
bool  Complain = false,
SourceRange  OpRangeForComplaining = SourceRange(),
QualType  DestTypeForComplaining = QualType(),
unsigned  DiagIDForComplaining = 0 
)

◆ ResolveExceptionSpec()

const FunctionProtoType * clang::Sema::ResolveExceptionSpec ( SourceLocation  Loc,
const FunctionProtoType FPT 
)

◆ ResolveSingleFunctionTemplateSpecialization()

FunctionDecl * Sema::ResolveSingleFunctionTemplateSpecialization ( OverloadExpr ovl,
bool  Complain = false,
DeclAccessPair FoundResult = nullptr 
)

Given an expression that refers to an overloaded function, try to resolve that overloaded function expression down to a single function.

This routine can only resolve template-ids that refer to a single function template, where that template-id refers to a single template whose template arguments are either provided by the template-id or have defaults, as described in C++0x [temp.arg.explicit]p3.

If no template-ids are found, no diagnostics are emitted and NULL is returned.

Definition at line 11437 of file SemaOverload.cpp.

References clang::OverloadExpr::copyTemplateArgumentsInto(), clang::OverloadExpr::getNameLoc(), and clang::OverloadExpr::hasExplicitTemplateArgs().

Referenced by ResolveOverloadForDeduction().

◆ RestoreNestedNameSpecifierAnnotation()

void Sema::RestoreNestedNameSpecifierAnnotation ( void *  Annotation,
SourceRange  AnnotationRange,
CXXScopeSpec SS 
)

Given an annotation pointer for a nested-name-specifier, restore the nested-name-specifier structure.

Parameters
AnnotationThe annotation pointer, produced by SaveNestedNameSpecifierAnnotation().
AnnotationRangeThe source range corresponding to the annotation.
SSThe nested-name-specifier that will be updated with the contents of the annotation pointer.

Definition at line 994 of file SemaCXXScopeSpec.cpp.

References clang::CXXScopeSpec::Adopt(), and clang::CXXScopeSpec::SetInvalid().

◆ SaveNestedNameSpecifierAnnotation()

void * Sema::SaveNestedNameSpecifierAnnotation ( CXXScopeSpec SS)

Given a C++ nested-name-specifier, produce an annotation value that the parser can use later to reconstruct the given nested-name-specifier.

Parameters
SSA nested-name-specifier.
Returns
A pointer containing all of the information in the nested-name-specifier SS.

Definition at line 980 of file SemaCXXScopeSpec.cpp.

References clang::ASTContext::Allocate(), Context, clang::CXXScopeSpec::getScopeRep(), clang::CXXScopeSpec::isEmpty(), clang::CXXScopeSpec::isInvalid(), clang::CXXScopeSpec::location_data(), clang::CXXScopeSpec::location_size(), and memcpy().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ ScalarTypeToBooleanCastKind()

CastKind Sema::ScalarTypeToBooleanCastKind ( QualType  ScalarTy)
static

◆ SelectorsForTypoCorrection()

const ObjCMethodDecl * Sema::SelectorsForTypoCorrection ( Selector  Sel,
QualType  ObjectType = QualType() 
)

◆ SemaBuiltinShuffleVector()

ExprResult Sema::SemaBuiltinShuffleVector ( CallExpr TheCall)

◆ SemaConvertVectorExpr()

ExprResult Sema::SemaConvertVectorExpr ( Expr E,
TypeSourceInfo TInfo,
SourceLocation  BuiltinLoc,
SourceLocation  RParenLoc 
)

◆ SetCtorInitializers()

bool Sema::SetCtorInitializers ( CXXConstructorDecl Constructor,
bool  AnyErrors,
ArrayRef< CXXCtorInitializer *>  Initializers = None 
)

◆ setCurrentOpenCLExtension()

void clang::Sema::setCurrentOpenCLExtension ( llvm::StringRef  Ext)
inline

Definition at line 8575 of file Sema.h.

◆ setCurrentOpenCLExtensionForDecl()

void Sema::setCurrentOpenCLExtensionForDecl ( Decl FD)

Set current OpenCL extensions for a declaration which can only be used when these OpenCL extensions are enabled.

If current OpenCL extension is empty, do nothing.

Definition at line 1848 of file Sema.cpp.

References setOpenCLExtensionForDecl().

Referenced by clang::Parser::ParseTopLevelDecl().

◆ setCurrentOpenCLExtensionForType()

void Sema::setCurrentOpenCLExtensionForType ( QualType  T)

Set current OpenCL extensions for a type which can only be used when these OpenCL extensions are enabled.

If current OpenCL extension is empty, do nothing.

Definition at line 1842 of file Sema.cpp.

References setOpenCLExtensionForType().

◆ SetDeclDefaulted()

void Sema::SetDeclDefaulted ( Decl dcl,
SourceLocation  DefaultLoc 
)

◆ SetDeclDeleted()

void Sema::SetDeclDeleted ( Decl dcl,
SourceLocation  DelLoc 
)

◆ SetDelegatingInitializer()

bool Sema::SetDelegatingInitializer ( CXXConstructorDecl Constructor,
CXXCtorInitializer Initializer 
)

◆ setFunctionHasBranchIntoScope()

void Sema::setFunctionHasBranchIntoScope ( )

Definition at line 1439 of file Sema.cpp.

References FunctionScopes.

◆ setFunctionHasBranchProtectedScope()

void Sema::setFunctionHasBranchProtectedScope ( )

Definition at line 1444 of file Sema.cpp.

References FunctionScopes.

◆ setFunctionHasIndirectGoto()

void Sema::setFunctionHasIndirectGoto ( )

Definition at line 1449 of file Sema.cpp.

References FunctionScopes.

◆ SetIvarInitializers()

void Sema::SetIvarInitializers ( ObjCImplementationDecl ObjCImplementation)

◆ SetLateTemplateParser()

void clang::Sema::SetLateTemplateParser ( LateTemplateParserCB LTP,
LateTemplateParserCleanupCB LTPCleanup,
void *  P 
)
inline

Definition at line 635 of file Sema.h.

References P.

Referenced by clang::Parser::ParseTopLevelDecl().

◆ SetMemberAccessSpecifier()

bool Sema::SetMemberAccessSpecifier ( NamedDecl MemberDecl,
NamedDecl PrevMemberDecl,
AccessSpecifier  LexicalAS 
)

SetMemberAccessSpecifier - Set the access specifier of a member.

Returns true on error (when the previous member decl access specifier is different from the new member decl access specifier).

Definition at line 40 of file SemaAccess.cpp.

References clang::AS_none, Diag(), clang::Decl::getAccess(), clang::Decl::getLocation(), and clang::Decl::setAccess().

◆ setOpenCLExtensionForDecl()

void Sema::setOpenCLExtensionForDecl ( Decl FD,
llvm::StringRef  Exts 
)

Set OpenCL extensions for a declaration which can only be used when these OpenCL extensions are enabled.

If Exts is empty, do nothing.

Parameters
ExtsA space separated list of OpenCL extensions.

Definition at line 1833 of file Sema.cpp.

Referenced by setCurrentOpenCLExtensionForDecl().

◆ setOpenCLExtensionForType()

void Sema::setOpenCLExtensionForType ( QualType  T,
llvm::StringRef  Exts 
)

Set OpenCL extensions for a type which can only be used when these OpenCL extensions are enabled.

If Exts is empty, do nothing.

Parameters
ExtsA space separated list of OpenCL extensions.

Definition at line 1823 of file Sema.cpp.

References clang::QualType::getCanonicalType(), and clang::QualType::getTypePtr().

Referenced by setCurrentOpenCLExtensionForType().

◆ setOpenMPCaptureKind()

void Sema::setOpenMPCaptureKind ( FieldDecl FD,
const ValueDecl D,
unsigned  Level 
)

Sets OpenMP capture kind (OMPC_private, OMPC_firstprivate, OMPC_map etc.) for FD based on DSA for the provided corresponding captured declaration D.

Definition at line 1488 of file SemaOpenMP.cpp.

References getCanonicalDecl(), and clang::OMPC_unknown.

◆ SetParamDefaultArgument()

bool Sema::SetParamDefaultArgument ( ParmVarDecl Param,
Expr DefaultArg,
SourceLocation  EqualLoc 
)

◆ setTagNameForLinkagePurposes()

void Sema::setTagNameForLinkagePurposes ( TagDecl TagFromDeclSpec,
TypedefNameDecl NewTD 
)

◆ ShouldDeleteSpecialMember()

bool Sema::ShouldDeleteSpecialMember ( CXXMethodDecl MD,
CXXSpecialMember  CSM,
InheritedConstructorInfo ICI = nullptr,
bool  Diagnose = false 
)

Determine if a special member function should have a deleted definition when it is defaulted.

Determine whether a defaulted special member function should be defined as deleted, as specified in C++11 [class.ctor]p5, C++11 [class.copy]p11, C++11 [class.copy]p23, and C++11 [class.dtor]p5.

Definition at line 7069 of file SemaDeclCXX.cpp.

References Diag(), clang::Decl::getLocation(), clang::CXXMethodDecl::getParent(), clang::CXXRecordDecl::hasUserDeclaredMoveConstructor(), clang::RecordDecl::isAnonymousStructOrUnion(), clang::TagDecl::isDependentType(), clang::Decl::isImplicit(), clang::Decl::isInvalidDecl(), clang::CXXRecordDecl::isLambda(), and clang::LangOptions::MSVC2015.

◆ shouldDiagnoseTargetSupportFromOpenMP()

bool clang::Sema::shouldDiagnoseTargetSupportFromOpenMP ( ) const
inline

Return true if (un)supported features for the current target should be diagnosed if OpenMP (offloading) is enabled.

Definition at line 8759 of file Sema.h.

◆ ShouldEnterDeclaratorScope()

bool Sema::ShouldEnterDeclaratorScope ( Scope S,
const CXXScopeSpec SS 
)

Definition at line 1007 of file SemaCXXScopeSpec.cpp.

Referenced by clang::Parser::ParseUnqualifiedId().

◆ shouldLinkDependentDeclWithPrevious()

bool Sema::shouldLinkDependentDeclWithPrevious ( Decl D,
Decl PrevDecl 
)

Checks if the new declaration declared in dependent context must be put in the same redeclaration chain as the specified declaration.

Parameters
DDeclaration that is checked.
PrevDeclPrevious declaration found with proper lookup method for the same declaration name.
Returns
True if D must be added to the redeclaration chain which PrevDecl belongs to.

Definition at line 9348 of file SemaDecl.cpp.

References clang::Decl::FOK_None, clang::Decl::getDeclContext(), clang::Decl::getFriendObjectKind(), clang::Decl::getLexicalDeclContext(), clang::DeclContext::isDependentContext(), and clang::DeclContext::isFileContext().

◆ shouldSkipAnonEnumBody()

Sema::SkipBodyInfo Sema::shouldSkipAnonEnumBody ( Scope S,
IdentifierInfo II,
SourceLocation  IILoc 
)

Determine whether the body of an anonymous enumeration should be skipped.

Parameters
IIThe name of the first enumerator.

Definition at line 16252 of file SemaDecl.cpp.

◆ ShouldWarnIfUnusedFileScopedDecl()

bool Sema::ShouldWarnIfUnusedFileScopedDecl ( const DeclaratorDecl D) const

◆ SpecialMemberIsTrivial()

bool Sema::SpecialMemberIsTrivial ( CXXMethodDecl MD,
CXXSpecialMember  CSM,
TrivialABIHandling  TAH = TAH_IgnoreTrivialABI,
bool  Diagnose = false 
)

Determine whether a defaulted or deleted special member function is trivial, as specified in C++11 [class.ctor]p5, C++11 [class.copy]p12, C++11 [class.copy]p25, and C++11 [class.dtor]p5.

Definition at line 7470 of file SemaDeclCXX.cpp.

References clang::Qualifiers::Const, Diag(), clang::Type::getAs(), clang::QualType::getCVRQualifiers(), clang::Decl::getLocation(), clang::FunctionDecl::getParamDecl(), clang::CXXMethodDecl::getParent(), clang::ReferenceType::getPointeeType(), clang::ParmVarDecl::getSourceRange(), clang::ValueDecl::getType(), and clang::CXXMethodDecl::isUserProvided().

Referenced by checkTrivialSubobjectCall().

◆ startLambdaDefinition()

CXXMethodDecl * Sema::startLambdaDefinition ( CXXRecordDecl Class,
SourceRange  IntroducerRange,
TypeSourceInfo MethodType,
SourceLocation  EndLoc,
ArrayRef< ParmVarDecl *>  Params,
bool  IsConstexprSpecified 
)

◆ StartOpenMPClause()

void Sema::StartOpenMPClause ( OpenMPClauseKind  K)

Start analysis of clauses.

Definition at line 1547 of file SemaOpenMP.cpp.

References DSAStack.

◆ StartOpenMPDSABlock()

void Sema::StartOpenMPDSABlock ( OpenMPDirectiveKind  K,
const DeclarationNameInfo DirName,
Scope CurScope,
SourceLocation  Loc 
)

Called on start of new data sharing attribute block.

Definition at line 1539 of file SemaOpenMP.cpp.

References DSAStack.

◆ stripARCUnbridgedCast()

Expr * Sema::stripARCUnbridgedCast ( Expr e)

stripARCUnbridgedCast - Given an expression of ARCUnbridgedCast type, remove the placeholder cast.

Definition at line 4284 of file SemaExprObjC.cpp.

References clang::Expr::hasPlaceholderType().

◆ Subst()

bool Sema::Subst ( const TemplateArgumentLoc Args,
unsigned  NumArgs,
TemplateArgumentListInfo Result,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ SubstAutoType()

QualType Sema::SubstAutoType ( QualType  TypeWithAuto,
QualType  Replacement 
)

Substitute Replacement for auto in TypeWithAuto.

Definition at line 4554 of file SemaTemplateDeduction.cpp.

References clang::Type::isDependentType().

◆ SubstAutoTypeSourceInfo()

TypeSourceInfo * Sema::SubstAutoTypeSourceInfo ( TypeSourceInfo TypeWithAuto,
QualType  Replacement 
)

Substitute Replacement for auto in TypeWithAuto.

Definition at line 4562 of file SemaTemplateDeduction.cpp.

References clang::Type::isDependentType().

◆ SubstBaseSpecifiers()

bool Sema::SubstBaseSpecifiers ( CXXRecordDecl Instantiation,
CXXRecordDecl Pattern,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Perform substitution on the base class specifiers of the given class template specialization.

Produces a diagnostic and returns true on error, returns false and attaches the instantiated base classes to the class template specialization if successful.

Definition at line 1852 of file SemaTemplateInstantiate.cpp.

References clang::CXXRecordDecl::bases(), CheckParameterPacksForExpansion(), collectUnexpandedParameterPacks(), Context, and clang::Decl::setInvalidDecl().

Referenced by InstantiateClass().

◆ SubstDecl()

Decl * Sema::SubstDecl ( Decl D,
DeclContext Owner,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ SubstDeclarationNameInfo()

DeclarationNameInfo Sema::SubstDeclarationNameInfo ( const DeclarationNameInfo NameInfo,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Do template substitution on declaration name info.

Definition at line 2830 of file SemaTemplateInstantiate.cpp.

References clang::DeclarationNameInfo::getLoc(), and clang::DeclarationNameInfo::getName().

Referenced by clang::TemplateDeclInstantiator::VisitFunctionDecl().

◆ SubstDefaultTemplateArgumentIfAvailable()

TemplateArgumentLoc Sema::SubstDefaultTemplateArgumentIfAvailable ( TemplateDecl Template,
SourceLocation  TemplateLoc,
SourceLocation  RAngleLoc,
Decl Param,
SmallVectorImpl< TemplateArgument > &  Converted,
bool HasDefaultArg 
)

◆ SubstExceptionSpec() [1/2]

void Sema::SubstExceptionSpec ( FunctionDecl New,
const FunctionProtoType Proto,
const MultiLevelTemplateArgumentList Args 
)

◆ SubstExceptionSpec() [2/2]

bool Sema::SubstExceptionSpec ( SourceLocation  Loc,
FunctionProtoType::ExceptionSpecInfo ESI,
SmallVectorImpl< QualType > &  ExceptionStorage,
const MultiLevelTemplateArgumentList Args 
)

◆ SubstExpr()

ExprResult Sema::SubstExpr ( Expr E,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ SubstExprs()

bool Sema::SubstExprs ( ArrayRef< Expr *>  Exprs,
bool  IsCall,
const MultiLevelTemplateArgumentList TemplateArgs,
SmallVectorImpl< Expr *> &  Outputs 
)

Substitute the given template arguments into a list of expressions, expanding pack expansions if required.

Parameters
ExprsThe list of expressions to substitute into.
IsCallWhether this is some form of call, in which case default arguments will be dropped.
TemplateArgsThe set of template arguments to substitute.
OutputsWill receive all of the substituted arguments.
Returns
true if an error occurred, false otherwise.

Definition at line 2804 of file SemaTemplateInstantiate.cpp.

◆ SubstFunctionDeclType()

TypeSourceInfo * Sema::SubstFunctionDeclType ( TypeSourceInfo T,
const MultiLevelTemplateArgumentList Args,
SourceLocation  Loc,
DeclarationName  Entity,
CXXRecordDecl ThisContext,
unsigned  ThisTypeQuals 
)

A form of SubstType intended specifically for instantiating the type of a FunctionDecl.

Its purpose is solely to force the instantiation of default-argument expressions and to avoid instantiating an exception-specification.

Definition at line 1651 of file SemaTemplateInstantiate.cpp.

References CodeSynthesisContexts, Context, clang::TypeLoc::getAs(), clang::TypeLoc::getFullDataSize(), clang::TypeSourceInfo::getTypeLoc(), clang::TypeLocBuilder::getTypeSourceInfo(), clang::TypeLoc::IgnoreParens(), clang::QualType::isNull(), NeedsInstantiationAsFunctionType(), clang::TypeLocBuilder::reserve(), and clang::Result.

Referenced by clang::TemplateDeclInstantiator::SubstFunctionType().

◆ SubstInitializer()

ExprResult Sema::SubstInitializer ( Expr E,
const MultiLevelTemplateArgumentList TemplateArgs,
bool  CXXDirectInit 
)

Definition at line 2795 of file SemaTemplateInstantiate.cpp.

Referenced by InstantiateInClassInitializer().

◆ SubstituteExplicitTemplateArguments()

Sema::TemplateDeductionResult Sema::SubstituteExplicitTemplateArguments ( FunctionTemplateDecl FunctionTemplate,
TemplateArgumentListInfo ExplicitTemplateArgs,
SmallVectorImpl< DeducedTemplateArgument > &  Deduced,
SmallVectorImpl< QualType > &  ParamTypes,
QualType FunctionType,
sema::TemplateDeductionInfo Info 
)

Substitute the explicitly-provided template arguments into the given function template according to C++ [temp.arg.explicit].

Parameters
FunctionTemplatethe function template into which the explicit template arguments will be substituted.
ExplicitTemplateArgsthe explicitly-specified template arguments.
Deducedthe deduced template arguments, which will be populated with the converted and checked explicit template arguments.
ParamTypeswill be populated with the instantiated function parameters.
FunctionTypeif non-NULL, the result type of the function template will also be instantiated and the pointed-to value will be updated with the instantiated function type.
Infoif substitution fails for any reason, this object will be populated with more information about the failure.
Returns
TDK_Success if substitution was successful, or some failure condition.

Definition at line 2963 of file SemaTemplateDeduction.cpp.

References clang::FunctionTemplateDecl::getTemplatedDecl(), clang::TemplateDecl::getTemplateParameters(), clang::ValueDecl::getType(), P, clang::FunctionDecl::parameters(), clang::TemplateArgumentListInfo::size(), and Unevaluated.

◆ SubstNestedNameSpecifierLoc()

NestedNameSpecifierLoc Sema::SubstNestedNameSpecifierLoc ( NestedNameSpecifierLoc  NNS,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ SubstParmTypes()

bool Sema::SubstParmTypes ( SourceLocation  Loc,
ArrayRef< ParmVarDecl *>  Params,
const FunctionProtoType::ExtParameterInfo ExtParamInfos,
const MultiLevelTemplateArgumentList TemplateArgs,
SmallVectorImpl< QualType > &  ParamTypes,
SmallVectorImpl< ParmVarDecl *> *  OutParams,
ExtParameterInfoBuilder ParamInfos 
)

Substitute the given template arguments into the given set of parameters, producing the set of parameter types that would be generated from such a substitution.

Definition at line 1828 of file SemaTemplateInstantiate.cpp.

References CodeSynthesisContexts.

◆ SubstParmVarDecl()

ParmVarDecl * Sema::SubstParmVarDecl ( ParmVarDecl D,
const MultiLevelTemplateArgumentList TemplateArgs,
int  indexAdjustment,
Optional< unsigned >  NumExpansions,
bool  ExpectParameterPack 
)

Definition at line 1719 of file SemaTemplateInstantiate.cpp.

References CheckPackExpansion(), CheckParameter(), clang::Type::containsUnexpandedParameterPack(), Context, CurContext, CurrentInstantiationScope, Diag(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::TypeLoc::getAs(), clang::Decl::getDeclContext(), clang::NamedDecl::getDeclName(), clang::ParmVarDecl::getDefaultArg(), clang::ParmVarDecl::getFunctionScopeDepth(), clang::ParmVarDecl::getFunctionScopeIndex(), clang::NamedDecl::getIdentifier(), clang::DeclaratorDecl::getInnerLocStart(), clang::Decl::getLocation(), clang::VarDecl::getStorageClass(), clang::ASTContext::getTranslationUnitDecl(), clang::TypeSourceInfo::getType(), clang::TypeSourceInfo::getTypeLoc(), clang::DeclaratorDecl::getTypeSourceInfo(), clang::ParmVarDecl::getUninstantiatedDefaultArg(), clang::ParmVarDecl::hasInheritedDefaultArg(), clang::ParmVarDecl::hasUninstantiatedDefaultArg(), clang::ParmVarDecl::hasUnparsedDefaultArg(), InstantiateAttrs(), clang::LocalInstantiationScope::InstantiatedLocal(), clang::LocalInstantiationScope::InstantiatedLocalPackArg(), clang::Decl::isLexicallyWithinFunctionOrMethod(), clang::ParmVarDecl::isParameterPack(), clang::ActionResult< PtrTy, CompressInvalid >::isUsable(), clang::Type::isVoidType(), clang::Decl::setDeclContext(), clang::ParmVarDecl::setHasInheritedDefaultArg(), SetParamDefaultArgument(), clang::ParmVarDecl::setScopeInfo(), clang::ParmVarDecl::setUninstantiatedDefaultArg(), clang::ParmVarDecl::setUnparsedDefaultArg(), SubstExpr(), SubstType(), and UnparsedDefaultArgInstantiations.

◆ SubstStmt()

StmtResult Sema::SubstStmt ( Stmt S,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Definition at line 2774 of file SemaTemplateInstantiate.cpp.

◆ SubstTemplateName()

TemplateName Sema::SubstTemplateName ( NestedNameSpecifierLoc  QualifierLoc,
TemplateName  Name,
SourceLocation  Loc,
const MultiLevelTemplateArgumentList TemplateArgs 
)

Definition at line 2838 of file SemaTemplateInstantiate.cpp.

References clang::CXXScopeSpec::Adopt().

Referenced by SubstDefaultTemplateArgument().

◆ SubstTemplateParams()

TemplateParameterList * Sema::SubstTemplateParams ( TemplateParameterList Params,
DeclContext Owner,
const MultiLevelTemplateArgumentList TemplateArgs 
)

◆ SubstType() [1/3]

TypeSourceInfo * Sema::SubstType ( TypeSourceInfo T,
const MultiLevelTemplateArgumentList Args,
SourceLocation  Loc,
DeclarationName  Entity,
bool  AllowDeducedTST = false 
)

Perform substitution on the type T with a given set of template arguments.

This routine substitutes the given template arguments into the type T and produces the instantiated type.

Parameters
Tthe type into which the template arguments will be substituted. If this type is not dependent, it will be returned immediately.
Argsthe template arguments that will be substituted for the top-level template parameters within T.
Locthe location in the source code where this substitution is being performed. It will typically be the location of the declarator (if we're instantiating the type of some declaration) or the location of the type in the source code (if, e.g., we're instantiating the type of a cast expression).
Entitythe name of the entity associated with a declaration being instantiated (if any). May be empty to indicate that there is no such entity (if, e.g., this is a type that occurs as part of a cast expression) or that the entity has no name (e.g., an unnamed function parameter).
AllowDeducedTSTWhether a DeducedTemplateSpecializationType is acceptable as the top level type of the result.
Returns
If the instantiation succeeds, the instantiated type. Otherwise, produces diagnostics and returns a NULL type.

Definition at line 1560 of file SemaTemplateInstantiate.cpp.

References CodeSynthesisContexts, clang::TypeSourceInfo::getType(), clang::Type::isInstantiationDependentType(), and clang::Type::isVariablyModifiedType().

Referenced by ConvertDeducedTemplateArgument(), clang::TemplateDeclInstantiator::InstantiateTypedefNameDecl(), clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization(), SubstDefaultTemplateArgument(), SubstParmVarDecl(), clang::TemplateDeclInstantiator::VisitVarDecl(), and clang::TemplateDeclInstantiator::VisitVarTemplateSpecializationDecl().

◆ SubstType() [2/3]

QualType Sema::SubstType ( QualType  T,
const MultiLevelTemplateArgumentList TemplateArgs,
SourceLocation  Loc,
DeclarationName  Entity 
)

◆ SubstType() [3/3]

TypeSourceInfo * Sema::SubstType ( TypeLoc  TL,
const MultiLevelTemplateArgumentList TemplateArgs,
SourceLocation  Loc,
DeclarationName  Entity 
)

◆ TemplateParameterListsAreEqual()

bool Sema::TemplateParameterListsAreEqual ( TemplateParameterList New,
TemplateParameterList Old,
bool  Complain,
TemplateParameterListEqualKind  Kind,
SourceLocation  TemplateArgLoc = SourceLocation() 
)

Determine whether the given template parameter lists are equivalent.

Parameters
NewThe new template parameter list, typically written in the source code as part of a new template declaration.
OldThe old template parameter list, typically found via name lookup of the template declared with this template parameter list.
ComplainIf true, this routine will produce a diagnostic if the template parameter lists are not equivalent.
Kinddescribes how we are to match the template parameter lists.
TemplateArgLocIf this source location is valid, then we are actually checking the template parameter list of a template argument (New) against the template parameter list of its corresponding template template parameter (Old). We produce slightly different diagnostics in this scenario.
Returns
True if the template parameter lists are equal, false otherwise.

Definition at line 7036 of file SemaTemplate.cpp.

References clang::TemplateParameterList::begin(), DiagnoseTemplateParameterListArityMismatch(), clang::TemplateParameterList::end(), MatchTemplateParameterKind(), and clang::TemplateParameterList::size().

Referenced by clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), and MatchTemplateParameterKind().

◆ TemporaryMaterializationConversion()

ExprResult Sema::TemporaryMaterializationConversion ( Expr E)

If E is a prvalue denoting an unmaterialized temporary, materialize it as an xvalue.

In C++98, the result will still be a prvalue, because we don't have xvalues there.

Definition at line 7135 of file SemaInit.cpp.

Referenced by CheckPointerToMemberOperands().

◆ TooManyArguments()

static bool clang::Sema::TooManyArguments ( size_t  NumParams,
size_t  NumArgs,
bool  PartialOverloading = false 
)
inlinestatic

To be used for checking whether the arguments being passed to function exceeds the number of parameters expected for it.

Definition at line 10643 of file Sema.h.

Referenced by checkDirectCallValidity().

◆ TransformToPotentiallyEvaluated()

ExprResult Sema::TransformToPotentiallyEvaluated ( Expr E)

Definition at line 14139 of file SemaExpr.cpp.

◆ translateTemplateArguments()

void Sema::translateTemplateArguments ( const ASTTemplateArgsPtr TemplateArgsIn,
TemplateArgumentListInfo TemplateArgs 
)

Translates template arguments as provided by the parser into template arguments used by semantic analysis.

Definition at line 832 of file SemaTemplate.cpp.

Referenced by makeTemplateArgumentListInfo().

◆ tryCaptureObjCSelf()

ObjCMethodDecl * Sema::tryCaptureObjCSelf ( SourceLocation  Loc)

Try to capture an implicit reference to 'self'.

Definition at line 1242 of file SemaExprObjC.cpp.

References clang::ObjCMethodDecl::getSelfDecl().

◆ tryCaptureVariable() [1/2]

bool Sema::tryCaptureVariable ( VarDecl Var,
SourceLocation  Loc,
TryCaptureKind  Kind,
SourceLocation  EllipsisLoc,
bool  BuildAndDiagnose,
QualType CaptureType,
QualType DeclRefType,
const unsigned *const  FunctionScopeIndexToStopAt 
)

Try to capture the given variable.

Parameters
VarThe variable to capture.
LocThe location at which the capture occurs.
KindThe kind of capture, which may be implicit (for either a block or a lambda), or explicit by-value or by-reference (for a lambda).
EllipsisLocThe location of the ellipsis, if one is provided in an explicit lambda capture.
BuildAndDiagnoseWhether we are actually supposed to add the captures or diagnose errors. If false, this routine merely check whether the capture can occur without performing the capture itself or complaining if the variable cannot be captured.
CaptureTypeWill be set to the type of the field used to capture this variable in the innermost block or lambda. Only valid when the variable can be captured.
DeclRefTypeWill be set to the type of a reference to the capture from within the current scope. Only valid when the variable can be captured.
FunctionScopeIndexToStopAtIf non-null, it points to the index of the FunctionScopeInfo stack beyond which we do not attempt to capture. This is useful when enclosing lambdas must speculatively capture variables that may or may not be used in certain specializations of a nested generic lambda.
Returns
true if an error occurred (i.e., the variable cannot be captured) and false if the capture succeeded.

Definition at line 14939 of file SemaExpr.cpp.

References captureVariablyModifiedType(), Diag(), diagnoseUncapturableValueReference(), clang::VarDecl::getCanonicalDecl(), clang::sema::CapturingScopeInfo::getCapture(), clang::Decl::getDeclContext(), clang::NamedDecl::getDeclName(), clang::getLambdaAwareParentOfDeclContext(), clang::Decl::getLocation(), clang::TypeDecl::getLocStart(), clang::QualType::getNonReferenceType(), clang::DeclContext::getParent(), getParentOfCapturingContextOrNull(), clang::ValueDecl::getType(), clang::VarDecl::hasLocalStorage(), clang::sema::CapturingScopeInfo::ImpCap_None, clang::sema::CapturingScopeInfo::ImpCaptureStyle, clang::isGenericLambdaCallOperatorSpecialization(), clang::VarDecl::isInitCapture(), isVariableAlreadyCapturedInScopeInfo(), isVariableCapturable(), clang::Type::isVariablyModifiedType(), clang::sema::LambdaScopeInfo::Lambda, and clang::sema::Capture::markUsed().

Referenced by clang::MarkVarDeclODRUsed().

◆ tryCaptureVariable() [2/2]

bool Sema::tryCaptureVariable ( VarDecl Var,
SourceLocation  Loc,
TryCaptureKind  Kind = TryCapture_Implicit,
SourceLocation  EllipsisLoc = SourceLocation() 
)

Try to capture the given variable.

Definition at line 15136 of file SemaExpr.cpp.

◆ tryExprAsCall()

bool Sema::tryExprAsCall ( Expr E,
QualType ZeroArgCallReturnTy,
UnresolvedSetImpl OverloadSet 
)

Figure out if an expression could be turned into a call.

Use this when trying to recover from an error where the programmer may have written just the name of a function instead of actually calling it.

Parameters
E- The expression to examine.
ZeroArgCallReturnTy- If the expression can be turned into a call with no arguments, this parameter is set to the type returned by such a call; otherwise, it is set to an empty QualType.
OverloadSet- If the expression is an overloaded function name, this parameter is populated with the decls of the various overloads.

Definition at line 1567 of file Sema.cpp.

◆ TryImplicitConversion()

ImplicitConversionSequence Sema::TryImplicitConversion ( Expr From,
QualType  ToType,
bool  SuppressUserConversions,
bool  AllowExplicit,
bool  InOverloadResolution,
bool  CStyle,
bool  AllowObjCWritebackConversion 
)

Definition at line 1384 of file SemaOverload.cpp.

References TryImplicitConversion().

Referenced by TryReferenceInitializationCore().

◆ tryToRecoverWithCall()

bool Sema::tryToRecoverWithCall ( ExprResult E,
const PartialDiagnostic PD,
bool  ForceComplain = false,
bool(*)(QualType IsPlausibleResult = nullptr 
)

Try to recover by turning the given expression into a call.

Returns true if recovery was attempted or an error was emitted; this may also leave the ExprResult invalid.

Definition at line 1749 of file Sema.cpp.

Referenced by LookupMemberExpr().

◆ UnifySection() [1/2]

bool Sema::UnifySection ( StringRef  SectionName,
int  SectionFlags,
DeclaratorDecl TheDecl 
)

◆ UnifySection() [2/2]

bool Sema::UnifySection ( StringRef  SectionName,
int  SectionFlags,
SourceLocation  PragmaSectionLocation 
)

◆ UnmarkAsLateParsedTemplate()

void Sema::UnmarkAsLateParsedTemplate ( FunctionDecl FD)

Definition at line 9934 of file SemaTemplate.cpp.

References clang::FunctionDecl::setLateTemplateParsed().

◆ UpdateExceptionSpec()

void clang::Sema::UpdateExceptionSpec ( FunctionDecl FD,
const FunctionProtoType::ExceptionSpecInfo ESI 
)

◆ UpdateMarkingForLValueToRValue()

void Sema::UpdateMarkingForLValueToRValue ( Expr E)

Definition at line 15189 of file SemaExpr.cpp.

◆ updateOutOfDateSelector()

void Sema::updateOutOfDateSelector ( Selector  Sel)

◆ UseArgumentDependentLookup()

bool Sema::UseArgumentDependentLookup ( const CXXScopeSpec SS,
const LookupResult R,
bool  HasTrailingLParen 
)

◆ usesPartialOrExplicitSpecialization()

bool Sema::usesPartialOrExplicitSpecialization ( SourceLocation  Loc,
ClassTemplateSpecializationDecl ClassTemplateSpec 
)

◆ UsualArithmeticConversions()

QualType Sema::UsualArithmeticConversions ( ExprResult LHS,
ExprResult RHS,
bool  IsCompAssign = false 
)

UsualArithmeticConversions - Performs various conversions that are common to binary operators (C99 6.3.1.8).

If both operands aren't arithmetic, this routine returns the first non-arithmetic type found. The client is responsible for emitting appropriate error diagnostics.

Definition at line 1226 of file SemaExpr.cpp.

References clang::ActionResult< PtrTy, CompressInvalid >::get(), and clang::ActionResult< PtrTy, CompressInvalid >::isInvalid().

Referenced by checkArithmeticOrEnumeralCompare(), checkArithmeticOrEnumeralThreeWayCompare(), and CXXCheckConditionalOperands().

◆ UsualUnaryConversions()

ExprResult Sema::UsualUnaryConversions ( Expr E)

UsualUnaryConversions - Performs various conversions that are common to most operators (C99 6.3).

The conversions of array and function types are sometimes suppressed. For example, the array->pointer conversion doesn't apply if the array is an argument to the sizeof or address (&) operators. In these instances, this routine should not be called.

Definition at line 662 of file SemaExpr.cpp.

Referenced by CheckIndirectionOperand(), and checkVectorShift().

◆ VerifyBitField()

ExprResult Sema::VerifyBitField ( SourceLocation  FieldLoc,
IdentifierInfo FieldName,
QualType  FieldTy,
bool  IsMsStruct,
Expr BitWidth,
bool ZeroWidth = nullptr 
)

VerifyBitField - verifies that a bit field expression is an ICE and has the correct width, and that the field type is valid.

Returns false on success. Can optionally return whether the bit-field is of width 0

Definition at line 14951 of file SemaDecl.cpp.

References Diag(), clang::ExprError(), clang::ActionResult< PtrTy, CompressInvalid >::get(), clang::Stmt::getSourceRange(), clang::Type::isDependentType(), clang::Type::isIntegralOrEnumerationType(), clang::ActionResult< PtrTy, CompressInvalid >::isInvalid(), clang::Expr::isTypeDependent(), and clang::Expr::isValueDependent().

◆ VerifyIntegerConstantExpression() [1/3]

ExprResult Sema::VerifyIntegerConstantExpression ( Expr E,
llvm::APSInt *  Result,
VerifyICEDiagnoser Diagnoser,
bool  AllowFold = true 
)

VerifyIntegerConstantExpression - Verifies that an expression is an ICE, and reports the appropriate diagnostics.

Returns false on success. Can optionally return the value of the expression.

Definition at line 13963 of file SemaExpr.cpp.

Referenced by ActOnNoexceptSpec(), EvaluateArrayTypeTrait(), and isTupleLike().

◆ VerifyIntegerConstantExpression() [2/3]

ExprResult Sema::VerifyIntegerConstantExpression ( Expr E,
llvm::APSInt *  Result,
unsigned  DiagID,
bool  AllowFold = true 
)

Definition at line 13938 of file SemaExpr.cpp.

◆ VerifyIntegerConstantExpression() [3/3]

ExprResult Sema::VerifyIntegerConstantExpression ( Expr E,
llvm::APSInt *  Result = nullptr 
)

Definition at line 13926 of file SemaExpr.cpp.

◆ WarnConflictingTypedMethods()

void Sema::WarnConflictingTypedMethods ( ObjCMethodDecl Method,
ObjCMethodDecl MethodDecl,
bool  IsProtocolMethodDecl 
)

◆ WarnExactTypedMethods()

void Sema::WarnExactTypedMethods ( ObjCMethodDecl ImpMethodDecl,
ObjCMethodDecl MethodDecl,
bool  IsProtocolMethodDecl 
)

◆ WeakTopLevelDecls()

SmallVectorImpl<Decl *>& clang::Sema::WeakTopLevelDecls ( )
inline

WeakTopLevelDeclDecls - access to #pragma weak-generated Decls.

Definition at line 1365 of file Sema.h.

Friends And Related Function Documentation

◆ ArgumentPackSubstitutionRAII

friend class ArgumentPackSubstitutionRAII
friend

Definition at line 7330 of file Sema.h.

◆ ASTDeclReader

friend class ASTDeclReader
friend

Definition at line 10597 of file Sema.h.

◆ ASTReader

friend class ASTReader
friend

Definition at line 10596 of file Sema.h.

◆ ASTWriter

friend class ASTWriter
friend

Definition at line 10598 of file Sema.h.

◆ InitializationSequence

friend class InitializationSequence
friend

Definition at line 10595 of file Sema.h.

◆ Parser

friend class Parser
friend

Definition at line 10594 of file Sema.h.

Member Data Documentation

◆ AccessCheckingSFINAE

bool clang::Sema::AccessCheckingSFINAE

When true, access checking violations are treated as SFINAE failures rather than hard errors.

Definition at line 6074 of file Sema.h.

Referenced by EmitCurrentDiagnostic(), clang::Sema::SFINAETrap::SFINAETrap(), and clang::Sema::SFINAETrap::~SFINAETrap().

◆ AllowAbstractFieldReference

bool clang::Sema::AllowAbstractFieldReference

A flag to indicate that we're in a context that permits abstract references to fields.

This is really a

Definition at line 891 of file Sema.h.

◆ AnalysisWarnings

sema::AnalysisBasedWarnings clang::Sema::AnalysisWarnings

Worker object for performing CFG-based warnings.

Definition at line 7592 of file Sema.h.

Referenced by PopFunctionScopeInfo(), and PrintStats().

◆ ArgumentPackSubstitutionIndex

int clang::Sema::ArgumentPackSubstitutionIndex

The current index into pack expansion arguments that will be used for substitution of parameter packs.

The pack expansion index will be -1 to indicate that parameter packs should be instantiated as themselves. Otherwise, the index specifies which argument within the parameter pack will be used for substitution.

Definition at line 7309 of file Sema.h.

Referenced by clang::TreeTransform< Derived >::AlwaysRebuild(), clang::Sema::ArgumentPackSubstitutionIndexRAII::ArgumentPackSubstitutionIndexRAII(), and clang::Sema::ArgumentPackSubstitutionIndexRAII::~ArgumentPackSubstitutionIndexRAII().

◆ ArrayWithObjectsMethod

ObjCMethodDecl* clang::Sema::ArrayWithObjectsMethod

The declaration of the arrayWithObjects:count: method.

Definition at line 871 of file Sema.h.

◆ BSSSegStack

PragmaStack<StringLiteral *> clang::Sema::BSSSegStack

◆ BumpAlloc

llvm::BumpPtrAllocator clang::Sema::BumpAlloc

Definition at line 1085 of file Sema.h.

Referenced by PrintStats().

◆ CFError

RecordDecl* clang::Sema::CFError = nullptr

The struct behind the CFErrorRef pointer.

Definition at line 10605 of file Sema.h.

Referenced by classifyPointerDeclarator().

◆ Cleanup

CleanupInfo clang::Sema::Cleanup

◆ CodeCompleter

CodeCompleteConsumer* clang::Sema::CodeCompleter

Code-completion consumer.

Definition at line 328 of file Sema.h.

Referenced by AddRecordMembersCompletionResults(), and CodeCompleteOverloadResults().

◆ CodeSegStack

PragmaStack<StringLiteral *> clang::Sema::CodeSegStack

◆ CodeSynthesisContextLookupModules

SmallVector<Module*, 16> clang::Sema::CodeSynthesisContextLookupModules

Extra modules inspected when performing a lookup during a template instantiation.

Computed lazily.

Definition at line 7255 of file Sema.h.

Referenced by popCodeSynthesisContext().

◆ CodeSynthesisContexts

SmallVector<CodeSynthesisContext, 16> clang::Sema::CodeSynthesisContexts

List of active code synthesis contexts.

This vector is treated as a stack. As synthesis of one entity requires synthesis of another, additional contexts are pushed onto the stack.

Definition at line 7244 of file Sema.h.

Referenced by clang::Sema::InstantiatingTemplate::Clear(), getCurBlock(), hasVisibleMemberSpecialization(), clang::TemplateDeclInstantiator::InitFunctionInstantiation(), isSFINAEContext(), popCodeSynthesisContext(), PrintInstantiationStack(), pushCodeSynthesisContext(), SubstFunctionDeclType(), SubstParmTypes(), and SubstType().

◆ CollectStats

bool clang::Sema::CollectStats

Flag indicating whether or not to collect detailed statistics.

Definition at line 325 of file Sema.h.

Referenced by clang::sema::AnalysisBasedWarnings::IssueWarnings().

◆ ConstSegStack

PragmaStack<StringLiteral *> clang::Sema::ConstSegStack

◆ Consumer

ASTConsumer& clang::Sema::Consumer

◆ Context

ASTContext& clang::Sema::Context

Definition at line 319 of file Sema.h.

Referenced by ActOnArrayTypeTrait(), ActOnComment(), ActOnCompatibilityAlias(), ActOnCXXDelete(), ActOnCXXGlobalScopeSpecifier(), ActOnCXXNestedNameSpecifierDecltype(), ActOnCXXThis(), ActOnCXXTypeConstructExpr(), ActOnDecltypeExpression(), ActOnFinishFullExpr(), ActOnForwardClassDeclaration(), ActOnForwardProtocolDeclaration(), ActOnPragmaMSComment(), ActOnPragmaOptionsAlign(), ActOnPragmaPack(), ActOnPseudoDestructorExpr(), ActOnStartCategoryImplementation(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), ActOnStartCXXMemberReference(), ActOnStartOfObjCMethodDef(), ActOnStartOfTranslationUnit(), ActOnStartProtocolInterface(), AddAlignmentAttributesForRecord(), AddCFAuditedAttribute(), AddMsStructLayoutForRecord(), AddOptnoneAttributeIfNoConflicts(), AddSuperSendCompletion(), AdjustFunctionParmAndArgTypesForDeduction(), AnalyzeBitFieldAssignment(), AnalyzeComparison(), attemptRecovery(), attributeParsedArgsUnevaluated(), BuildArrayTypeTrait(), BuildCookedLiteralOperatorCall(), buildCounterInit(), buildCounterUpdate(), BuildCXXNoexceptExpr(), BuildCXXTypeConstructExpr(), buildDeclareReductionRef(), BuildExpressionTrait(), BuildFloatingLiteral(), BuildImplicitBaseInitializer(), BuildImplicitMemberInitializer(), buildMemcpyForAssignmentOp(), BuildMSPropertyRefExpr(), buildPostUpdate(), BuildPseudoDestructorExpr(), buildSingleCopyAssign(), BuildTypeTrait(), buildVarDecl(), canConvertIntToOtherIntTy(), canConvertIntTyToFloatTy(), clang::canTypeidThrow(), captureThis(), CastForMoving(), CastsAwayConstness(), CheckAllocatedType(), checkAllowedCUDAInitializer(), CheckARCMethodDecl(), checkArithmeticOrEnumeralCompare(), checkArithmeticOrEnumeralThreeWayCompare(), checkBlockPointerTypesForAssignment(), CheckBoolLikeConversion(), checkBuiltinArgument(), checkComplexDecomposition(), checkConditionalBlockPointerCompatibility(), checkConditionalNullPointer(), checkConditionalObjectPointersCompatibility(), checkConditionalPointerCompatibility(), checkConditionalVoidType(), CheckConditionVariable(), CheckConvertedConstantExpression(), CheckCXXBooleanCondition(), CheckCXXThisCapture(), checkDeclInTargetContext(), checkEnumComparison(), CheckEquivalentExceptionSpec(), clang::CheckEquivalentExceptionSpecImpl(), CheckFormatString(), checkFormatStringExpr(), checkForMultipleExportedDefaultConstructors(), CheckForReference(), CheckImplementationIvars(), CheckImplicitConversion(), CheckIncrementDecrementOperand(), checkIndirectCopyRestoreSource(), CheckIndirectionOperand(), checkInitMethod(), checkIntToPointerCast(), CheckKeyForObjCARCConversion(), checkLiteralOperatorTemplateParameterList(), checkMemberDecomposition(), CheckMoveOnConstruction(), CheckNonNullExpr(), checkNullabilityConsistency(), CheckObjCBridgeCFCast(), CheckObjCBridgeNSCast(), CheckObjCCollectionLiteralElement(), CheckObjCMethodOverride(), checkObjCPointerTypesForAssignment(), CheckObjCPropertyAttributes(), checkOpenCLPipePacketType(), checkOpenMPLoop(), CheckOperatorDeleteDeclaration(), CheckOperatorNewDeclaration(), CheckOperatorNewDeleteTypes(), CheckPointerToMemberOperands(), checkPointerTypesForAssignment(), checkSimdlenSafelenSpecified(), CheckSpecifiedExceptionType(), CheckTautologicalComparison(), CheckTemplateArgumentAddressOfObjectOrFunction(), CheckTemplateArgumentIsCompatibleWithParameter(), CheckTemplateArgumentPointerToMember(), checkTrivialClassMembers(), checkTypeMappable(), checkVAStartABI(), checkVectorDecomposition(), checkVectorResult(), checkVectorShift(), CheckVirtualDtorCall(), CollectFieldInitializer(), CompareDerivedToBaseConversions(), CompareQualificationConversions(), CompareStandardConversionSequences(), computeDeclContext(), ConvertDeducedTemplateArgument(), copyAttrIfPresent(), CUDASetLambdaAttrs(), CXXCheckConditionalOperands(), DeclareGlobalNewDelete(), DeduceFromInitializerList(), DeduceNonTypeTemplateArgument(), DeduceNullPtrTemplateArgument(), DeduceTemplateArguments(), DeduceTemplateArguments(), DeduceTemplateArgumentsByTypeMatch(), defaultedSpecialMemberIsConstexpr(), diagnoseArithmeticOnTwoFunctionPointers(), diagnoseArrayStarInParamType(), DiagnoseBadDivideOrRemainderValues(), DiagnoseBadFunctionCast(), DiagnoseBadShiftValues(), DiagnoseBaseOrMemInitializerOrder(), DiagnoseCallingConvCast(), DiagnoseCastOfObjCSEL(), DiagnoseForRangeConstVariableCopies(), DiagnoseNarrowingInInitList(), diagnoseNoViableConversion(), diagnoseNullableToNonnullConversion(), DiagnoseNullConversion(), diagnoseObjCARCConversion(), DiagnosePropertyAccessorMismatch(), DiagnosePropertyMismatch(), diagnoseTautologicalComparison(), DiagnoseTwoPhaseOperatorLookup(), DiagnoseUninitializedUse(), doesUsualArrayDeleteWantSize(), EmitCurrentDiagnostic(), emitReplacement(), EvaluateArrayTypeTrait(), EvaluateBinaryTypeTrait(), EvaluateUnaryTypeTrait(), ExpandAnonymousFieldDesignator(), FindAllocationFunctions(), FindBaseInitializer(), findCapturingExpr(), FindCompositePointerType(), FindProtocolDeclaration(), fitsInto(), getCastAwayConstnessCastKind(), clang::TypoCorrectionConsumer::getCorrectionValidator(), GetDeclSpecTypeForDeclarator(), clang::getDeclUsageType(), getFloat128Identifier(), getGenericLambdaTemplateParameterList(), getImplicitMethodEPI(), getParamType(), getPreviousDeclForInstantiation(), getSuperIdentifier(), GetTypeOfFunction(), HandleAddressSpaceTypeAttribute(), handleFunctionTypeAttr(), handleIntegerConversion(), HandleLifetimeBoundAttr(), handleMSPointerTypeQualifierAttr(), HandleNeonVectorTypeAttr(), handleObjCGCTypeAttr(), handleObjCOwnershipTypeAttr(), HandleOpenCLAccessAttr(), handlerCanCatch(), hasDeducibleTemplateParameters(), hasVisibleDeclarationImpl(), hasVisibleDefaultArgument(), inferARCWriteback(), inferCUDATargetForImplicitSpecialMember(), clang::TemplateDeclInstantiator::InitFunctionInstantiation(), Initialize(), clang::InitializationSequence::InitializeFrom(), InstantiateClass(), InstantiateClassMembers(), clang::TemplateDeclInstantiator::InstantiateClassTemplatePartialSpecialization(), InstantiateEnum(), clang::TemplateDeclInstantiator::InstantiateEnumDefinition(), InstantiateInClassInitializer(), clang::TemplateDeclInstantiator::InstantiateTypedefNameDecl(), clang::TemplateDeclInstantiator::InstantiateVarTemplatePartialSpecialization(), clang::TreeTransform< Derived >::InventTypeSourceInfo(), isAcceptableNestedNameSpecifier(), isAtLeastAsSpecializedAs(), IsImplicitBoolFloatConversion(), IsInitializerListConstructorConversion(), isLibstdcxxEagerExceptionSpecHack(), isNonNegativeIntegerValue(), isNonPlacementDeallocationFunction(), isNullPointerValueTemplateArgument(), isObjCReceiverType(), isPermittedNeonBaseType(), IsStandardConversion(), IsStringLiteralToNonConstPointerConversion(), isTupleLike(), IsUserDefinedConversion(), IsVectorConversion(), LookupBuiltin(), LookupDirect(), LookupMemberExpr(), LookupMethodInReceiverType(), lookupStdTypeTraitMember(), LookupVisibleDecls(), makeUnavailableInSystemHeader(), clang::MarkVarDeclODRUsed(), MatchTemplateParameterKind(), maybeAddCUDAHostDeviceAttrs(), MaybeBindToTemporary(), MaybeCreateExprWithCleanups(), MaybeCreateStmtWithCleanups(), mergeExceptionSpecs(), OpenCLArithmeticConversions(), OpenCLConvertScalarsToVectors(), PDiag(), clang::InitializationSequence::Perform(), PerformConstructorInitialization(), PerformImplicitConversion(), ProcessPropertyDecl(), PushCapturedRegionScope(), clang::TreeTransform< Derived >::RebuildAtomicExpr(), clang::TreeTransform< Derived >::RebuildAutoType(), clang::TreeTransform< Derived >::RebuildDeducedTemplateSpecializationType(), clang::TreeTransform< Derived >::RebuildDependentNameType(), clang::TreeTransform< Derived >::RebuildDependentTemplateSpecializationType(), clang::TreeTransform< Derived >::RebuildElaboratedType(), clang::TreeTransform< Derived >::RebuildEnumType(), clang::TreeTransform< Derived >::RebuildImplicitValueInitExpr(), clang::TreeTransform< Derived >::RebuildRecordType(), clang::TreeTransform< Derived >::RebuildShuffleVectorExpr(), clang::TreeTransform< Derived >::RebuildSizeOfPackExpr(), clang::TreeTransform< Derived >::RebuildTypedefType(), recordConversion(), RemoveAddressSpaceFromPtr(), RequireCompleteDeclContext(), resolveAllocationOverload(), resolveBuiltinNewDeleteOverload(), ResolveConstructorOverload(), ResolveOverloadedFunctionForReferenceBinding(), SaveNestedNameSpecifierAnnotation(), SemaBuiltinCommitRWPipe(), SemaBuiltinCpuIs(), SemaBuiltinCpuSupports(), SemaBuiltinReserveRWPipe(), SemaBuiltinRWPipe(), SemaOpenCLBuiltinEnqueueKernel(), SemaOpenCLBuiltinToAddr(), shouldIgnoreDueToReservedName(), ShouldRemoveFromUnused(), ShouldTryAgainWithRedefinitionType(), SubstBaseSpecifiers(), SubstFunctionDeclType(), SubstParmVarDecl(), clang::TemplateDeclInstantiator::SubstTemplateParams(), SubstType(), transferARCOwnershipToDeclaratorChunk(), transferARCOwnershipToDeclSpec(), translateTemplateArgument(), TryClassUnification(), TryConstCast(), TryConstructorInitialization(), TryContextuallyConvertToBool(), TryContextuallyConvertToObjCPointer(), TryDefaultInitialization(), tryGCCVectorConvertAndSplat(), TryImplicitConversion(), TryListConversion(), TryListInitialization(), tryObjCWritebackConversion(), TryObjectArgumentInitialization(), TryOCLSamplerInitialization(), TryReferenceInit(), TryReferenceInitialization(), TryReferenceInitializationCore(), TryReferenceListInitialization(), TryReinterpretCast(), TryStaticCast(), TryStaticMemberPointerUpcast(), TryStaticPointerDowncast(), TryStaticReferenceDowncast(), TryUserDefinedConversion(), TryValueInitialization(), tryVectorConvertAndSplat(), UnifySection(), UpdateExceptionSpec(), clang::TemplateDeclInstantiator::VisitFunctionDecl(), clang::TemplateDeclInstantiator::VisitVarDecl(), clang::TemplateDeclInstantiator::VisitVarTemplateSpecializationDecl(), WarnExactTypedMethods(), widenIterationCount(), clang::ASTWriter::WriteAST(), and ~Sema().

◆ CUDACallGraph

llvm::DenseMap< CanonicalDeclPtr<FunctionDecl>, llvm::MapVector<CanonicalDeclPtr<FunctionDecl>, SourceLocation> > clang::Sema::CUDACallGraph

A partial call graph maintained during CUDA compilation to support deferred diagnostics.

Functions are only added here if, at the time they're considered, they are not known-emitted. As soon as we discover that a function is known-emitted, we remove it and everything it transitively calls from this set and add those functions to CUDAKnownEmittedFns.

Definition at line 9963 of file Sema.h.

Referenced by CheckCUDACall(), and MarkKnownEmitted().

◆ CUDADeferredDiags

llvm::DenseMap<CanonicalDeclPtr<FunctionDecl>, std::vector<PartialDiagnosticAt> > clang::Sema::CUDADeferredDiags

Diagnostics that are emitted only if we discover that the given function must be codegen'ed.

Because handling these correctly adds overhead to compilation, this is currently only enabled for CUDA compilations.

Definition at line 9930 of file Sema.h.

Referenced by EmitDeferredDiags(), and clang::Sema::CUDADiagBuilder::~CUDADiagBuilder().

◆ CUDAKnownEmittedFns

llvm::DenseMap< CanonicalDeclPtr<FunctionDecl>, FunctionDeclAndLoc> clang::Sema::CUDAKnownEmittedFns

An inverse call graph, mapping known-emitted functions to one of their known-emitted callers (plus the location of the call).

Functions that we can tell a priori must be emitted aren't added to this map.

Definition at line 9951 of file Sema.h.

Referenced by EmitCallStackNotes(), IsKnownEmitted(), and MarkKnownEmitted().

◆ CurContext

DeclContext* clang::Sema::CurContext

CurContext - This is the current declaration context of parsing.

Definition at line 331 of file Sema.h.

Referenced by ActOnCompatibilityAlias(), ActOnFinishFullExpr(), ActOnForwardClassDeclaration(), ActOnForwardProtocolDeclaration(), ActOnStartCategoryImplementation(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), ActOnStartCXXMemberReference(), ActOnStartProtocolInterface(), AddClassMessageCompletions(), clang::Sema::SynthesizedFunctionScope::addContextNote(), AddRecordMembersCompletionResults(), buildCaptureDecl(), buildDeclareReductionRef(), BuildObjCExceptionDecl(), buildVarDecl(), CheckCUDACall(), CheckExplicitInstantiationScope(), CheckIfAnyEnclosingLambdasMustCaptureAnyPotentialCaptures(), CheckObjCDeclScope(), checkOpenMPLoop(), CheckTemplateSpecializationScope(), checkTypeMappable(), checkVAStartIsInVariadicFunction(), computeDeclContext(), clang::Sema::ContextRAII::ContextRAII(), ConvertDeducedTemplateArgument(), CUDADiagIfDeviceCode(), CUDADiagIfHostCode(), CUDASetLambdaAttrs(), DiagnoseTwoPhaseLookup(), FinishForRangeVarDecl(), clang::TypoCorrectionConsumer::getCorrectionValidator(), getCurBlock(), getCurrentInstantiationOf(), GetDeclSpecTypeForDeclarator(), getFunctionLevelDeclContext(), getFunctionStorageClass(), getNullabilityCompletenessCheckFileID(), getObjCContainerKind(), isLibstdcxxEagerExceptionSpecHack(), isNonPlacementDeallocationFunction(), isOdrUseContext(), LookupMethodInReceiverType(), makeUnavailableInSystemHeader(), clang::Parser::ParseTopLevelDecl(), clang::Sema::ContextRAII::pop(), SubstParmVarDecl(), tryImplicitlyCaptureThisIfImplicitMemberFunctionAccessWithDependentArgs(), warnAboutAmbiguousFunction(), and clang::Sema::SynthesizedFunctionScope::~SynthesizedFunctionScope().

◆ CurInitSeg

StringLiteral* clang::Sema::CurInitSeg

Last section used with #pragma init_seg.

Definition at line 487 of file Sema.h.

Referenced by ActOnPragmaMSInitSeg().

◆ CurInitSegLoc

SourceLocation clang::Sema::CurInitSegLoc

Definition at line 488 of file Sema.h.

Referenced by ActOnPragmaMSInitSeg().

◆ CurrentInstantiationScope

LocalInstantiationScope* clang::Sema::CurrentInstantiationScope

◆ CurrentParameterCopyTypes

llvm::SmallVector<QualType, 4> clang::Sema::CurrentParameterCopyTypes

Stack of types that correspond to the parameter entities that are currently being copy-initialized.

Can be empty.

Definition at line 1166 of file Sema.h.

◆ CurrentSEHFinally

SmallVector<Scope*, 2> clang::Sema::CurrentSEHFinally

Stack of active SEH __finally scopes. Can be empty.

Definition at line 348 of file Sema.h.

◆ CXXThisTypeOverride

QualType clang::Sema::CXXThisTypeOverride

When non-NULL, the C++ 'this' expression is allowed despite the current context not being a non-static member function.

In such cases, this provides the type used for 'this'.

Definition at line 5089 of file Sema.h.

Referenced by ClassifyImplicitMemberAccess(), clang::Sema::ContextRAII::ContextRAII(), isThisOutsideMemberFunctionBody(), clang::Sema::ContextRAII::pop(), and clang::Sema::CXXThisScopeRAII::~CXXThisScopeRAII().

◆ CXXTypeInfoDecl

RecordDecl* clang::Sema::CXXTypeInfoDecl

The C++ "type_info" declaration, which is defined in <typeinfo>.

Definition at line 832 of file Sema.h.

◆ DataSegStack

PragmaStack<StringLiteral *> clang::Sema::DataSegStack

◆ DelayedDefaultedMemberExceptionSpecs

SmallVector<std::pair<CXXMethodDecl*, const FunctionProtoType*>, 2> clang::Sema::DelayedDefaultedMemberExceptionSpecs

All the members seen during a class definition which were both explicitly defaulted and had explicitly-specified exception specifications, along with the function type containing their user-specified exception specification.

Those exception specifications were overridden with the default specifications, but we still need to check whether they are compatible with the default specification, and we can't do that until the nesting set of class definitions is complete.

Definition at line 621 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ DelayedDiagnostics

◆ DelayedDllExportClasses

SmallVector<CXXRecordDecl*, 4> clang::Sema::DelayedDllExportClasses

◆ DelayedExceptionSpecChecks

SmallVector<std::pair<const CXXMethodDecl*, const CXXMethodDecl*>, 2> clang::Sema::DelayedExceptionSpecChecks

All the overriding functions seen during a class definition that had their exception spec checks delayed, plus the overridden function.

Definition at line 611 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit(), and CheckOverridingFunctionExceptionSpec().

◆ DelegatingCtorDecls

DelegatingCtorDeclsType clang::Sema::DelegatingCtorDecls

All the delegating constructors seen so far in the file, used for cycle detection at the end of the TU.

Definition at line 605 of file Sema.h.

◆ DeleteExprs

llvm::MapVector<FieldDecl *, DeleteLocs> clang::Sema::DeleteExprs

Definition at line 568 of file Sema.h.

Referenced by DiagnoseMismatchedNewDelete(), and getMismatchingDeleteExpressions().

◆ Diags

DiagnosticsEngine& clang::Sema::Diags

◆ DictionaryWithObjectsMethod

ObjCMethodDecl* clang::Sema::DictionaryWithObjectsMethod

The declaration of the dictionaryWithObjects:forKeys:count: method.

Definition at line 877 of file Sema.h.

◆ DisableTypoCorrection

bool clang::Sema::DisableTypoCorrection

Tracks whether we are in a context where typo correction is disabled.

Definition at line 7578 of file Sema.h.

Referenced by attemptRecovery(), clang::Sema::TentativeAnalysisScope::TentativeAnalysisScope(), and clang::Sema::TentativeAnalysisScope::~TentativeAnalysisScope().

◆ ExprCleanupObjects

SmallVector<BlockDecl*, 8> clang::Sema::ExprCleanupObjects

ExprCleanupObjects - This is the stack of objects requiring cleanup that are created by the current full expression.

The element type here is ExprWithCleanups::Object.

Definition at line 524 of file Sema.h.

Referenced by MaybeCreateExprWithCleanups().

◆ ExprEvalContexts

SmallVector<ExpressionEvaluationContextRecord, 8> clang::Sema::ExprEvalContexts

◆ ExtnameUndeclaredIdentifiers

llvm::DenseMap<IdentifierInfo*,AsmLabelAttr*> clang::Sema::ExtnameUndeclaredIdentifiers

ExtnameUndeclaredIdentifiers - Identifiers contained in #pragma redefine_extname before declared.

Used in Solaris system headers to define functions that occur in multiple standards to call the version in the currently selected standard.

Definition at line 788 of file Sema.h.

◆ ExtVectorDecls

ExtVectorDeclsType clang::Sema::ExtVectorDecls

ExtVectorDecls - This is a list all the extended vector types.

This allows us to associate a raw vector type with one of the ext_vector type names. This is only necessary for issuing pretty diagnostics.

Definition at line 547 of file Sema.h.

◆ FieldCollector

std::unique_ptr<CXXFieldCollector> clang::Sema::FieldCollector

FieldCollector - Collects CXXFieldDecls during parsing of C++ classes.

Definition at line 550 of file Sema.h.

◆ FlagBitsCache

llvm::DenseMap<const EnumDecl*, llvm::APInt> clang::Sema::FlagBitsCache
mutable

A cache of the flags available in enumerations with the flag_bits attribute.

Definition at line 1074 of file Sema.h.

◆ FPFeatures

FPOptions clang::Sema::FPFeatures

Definition at line 315 of file Sema.h.

Referenced by ActOnPragmaFPContract().

◆ FunctionScopes

SmallVector<sema::FunctionScopeInfo *, 4> clang::Sema::FunctionScopes

◆ GlobalNewDeleteDeclared

bool clang::Sema::GlobalNewDeleteDeclared

A flag to remember whether the implicit forms of operator new and delete have been declared.

Definition at line 887 of file Sema.h.

Referenced by DeclareGlobalNewDelete().

◆ IdResolver

IdentifierResolver clang::Sema::IdResolver

Definition at line 801 of file Sema.h.

Referenced by clang::ASTReader::getIdResolver(), and Initialize().

◆ ImplicitMSInheritanceAttrLoc

SourceLocation clang::Sema::ImplicitMSInheritanceAttrLoc

Source location for newly created implicit MSInheritanceAttrs.

Definition at line 351 of file Sema.h.

Referenced by ActOnPragmaMSPointersToMembers(), and assignInheritanceModel().

◆ InNonInstantiationSFINAEContext

bool clang::Sema::InNonInstantiationSFINAEContext

Whether we are in a SFINAE context that is not associated with template instantiation.

This is used when setting up a SFINAE trap (see SFINAETrap) outside of a template instantiation or template argument deduction.

Definition at line 7276 of file Sema.h.

Referenced by isSFINAEContext(), popCodeSynthesisContext(), pushCodeSynthesisContext(), clang::Sema::SFINAETrap::SFINAETrap(), and clang::Sema::SFINAETrap::~SFINAETrap().

◆ InstantiatedNonDependentTypes

llvm::DenseSet<QualType> clang::Sema::InstantiatedNonDependentTypes

Non-dependent types used in templates that have already been instantiated by some template instantiation.

Definition at line 7251 of file Sema.h.

◆ InstantiatingSpecializations

llvm::DenseSet<std::pair<Decl *, unsigned> > clang::Sema::InstantiatingSpecializations

Specializations whose definitions are currently being instantiated.

Definition at line 7247 of file Sema.h.

Referenced by clang::Sema::InstantiatingTemplate::Clear(), and clang::Sema::CodeSynthesisContext::isInstantiationRecord().

◆ IsBuildingRecoveryCallExpr

bool clang::Sema::IsBuildingRecoveryCallExpr

Flag indicating if Sema is building a recovery call expression.

This flag is used to avoid building recovery call expressions if Sema is already doing so, which would cause infinite recursions.

Definition at line 516 of file Sema.h.

Referenced by BuildRecoveryCallExpr(), and DiagnoseTwoPhaseOperatorLookup().

◆ kMac68kAlignmentSentinel

const unsigned clang::Sema::kMac68kAlignmentSentinel = ~0U
static

◆ LangOpts

const LangOptions& clang::Sema::LangOpts

◆ LastEmittedCodeSynthesisContextDepth

unsigned clang::Sema::LastEmittedCodeSynthesisContextDepth = 0

The depth of the context stack at the point when the most recent error or warning was produced.

This value is used to suppress printing of redundant context stacks when there are multiple errors or warnings in the same instantiation.

Definition at line 7293 of file Sema.h.

Referenced by popCodeSynthesisContext().

◆ LateParsedInstantiations

SmallVector<PendingImplicitInstantiation, 1> clang::Sema::LateParsedInstantiations

Queue of implicit template instantiations that cannot be performed eagerly.

Definition at line 7611 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ LateParsedTemplateMap

LateParsedTemplateMapT clang::Sema::LateParsedTemplateMap

Definition at line 626 of file Sema.h.

◆ LateTemplateParser

LateTemplateParserCB* clang::Sema::LateTemplateParser

Definition at line 631 of file Sema.h.

◆ LateTemplateParserCleanup

LateTemplateParserCleanupCB* clang::Sema::LateTemplateParserCleanup

Definition at line 632 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ LocsWithCUDACallDiags

llvm::DenseSet<FunctionDeclAndLoc> clang::Sema::LocsWithCUDACallDiags

FunctionDecls and SourceLocations for which CheckCUDACall has emitted a (maybe deferred) "bad call" diagnostic.

We use this to avoid emitting the same deferred diag twice.

Definition at line 9942 of file Sema.h.

Referenced by CheckCUDACall().

◆ LookupModulesCache

llvm::DenseSet<Module*> clang::Sema::LookupModulesCache

Cache of additional modules that should be used for name lookup within the current template instantiation.

Computed lazily; use getLookupModules() to get a complete set.

Definition at line 7260 of file Sema.h.

Referenced by popCodeSynthesisContext().

◆ MaybeODRUseExprs

llvm::SmallPtrSet<Expr*, 2> clang::Sema::MaybeODRUseExprs

Store a list of either DeclRefExprs or MemberExprs that contain a reference to a variable (constant) that may or may not be odr-used in this Expr, and we won't know until all lvalue-to-rvalue and discarded value conversions have been applied to all subexpressions of the enclosing full expression.

This is cleared at the end of each full expression.

Definition at line 532 of file Sema.h.

◆ MethodPool

GlobalMethodPool clang::Sema::MethodPool

Method Pool - allows efficient lookup when typechecking messages to "id".

We need to maintain a list, since selectors can have differing signatures across classes. In Cocoa, this happens to be extremely uncommon (only 1% of selectors are "overloaded"). At the head of the list it is recorded whether there were 0, 1, or >= 2 methods inside categories with a particular selector.

Definition at line 1133 of file Sema.h.

Referenced by AreMultipleMethodsInGlobalPool(), CheckObjCMethodOverrides(), CollectMultipleMethodsInGlobalPool(), LookupImplementedMethodInGlobalPool(), SelectorsForTypoCorrection(), and updateOutOfDateSelector().

◆ MSPointerToMemberRepresentationMethod

LangOptions::PragmaMSPointersToMembersKind clang::Sema::MSPointerToMemberRepresentationMethod

Controls member pointer representation format under the MS ABI.

Definition at line 345 of file Sema.h.

Referenced by ActOnPragmaMSPointersToMembers(), and assignInheritanceModel().

◆ MSStructPragmaOn

bool clang::Sema::MSStructPragmaOn

Definition at line 341 of file Sema.h.

Referenced by ActOnPragmaMSStruct(), and AddMsStructLayoutForRecord().

◆ MSVCGuidDecl

RecordDecl* clang::Sema::MSVCGuidDecl

The MSVC "_GUID" struct, which is defined in MSVC header files.

Definition at line 835 of file Sema.h.

◆ NonInstantiationEntries

unsigned clang::Sema::NonInstantiationEntries

The number of CodeSynthesisContexts that are not template instantiations and, therefore, should not be counted as part of the instantiation depth.

When the instantiation depth reaches the user-configurable limit LangOptions::InstantiationDepth we will abort instantiation.

Definition at line 7285 of file Sema.h.

Referenced by clang::Sema::InstantiatingTemplate::Clear(), popCodeSynthesisContext(), and pushCodeSynthesisContext().

◆ NSAPIObj

std::unique_ptr<NSAPI> clang::Sema::NSAPIObj

◆ NSArrayDecl

ObjCInterfaceDecl* clang::Sema::NSArrayDecl

The declaration of the Objective-C NSArray class.

Definition at line 868 of file Sema.h.

Referenced by checkObjCArrayLiteral().

◆ NSDictionaryDecl

ObjCInterfaceDecl* clang::Sema::NSDictionaryDecl

The declaration of the Objective-C NSDictionary class.

Definition at line 874 of file Sema.h.

Referenced by checkObjCDictionaryLiteral().

◆ NSNumberDecl

ObjCInterfaceDecl* clang::Sema::NSNumberDecl

The declaration of the Objective-C NSNumber class.

Definition at line 841 of file Sema.h.

◆ NSNumberLiteralMethods

ObjCMethodDecl* clang::Sema::NSNumberLiteralMethods[NSAPI::NumNSNumberLiteralMethods]

The Objective-C NSNumber methods used to create NSNumber literals.

Definition at line 853 of file Sema.h.

◆ NSNumberPointer

QualType clang::Sema::NSNumberPointer

Pointer to NSNumber type (NSNumber *).

Definition at line 847 of file Sema.h.

◆ NSStringDecl

ObjCInterfaceDecl* clang::Sema::NSStringDecl

The declaration of the Objective-C NSString class.

Definition at line 856 of file Sema.h.

◆ NSStringPointer

QualType clang::Sema::NSStringPointer

Pointer to NSString type (NSString *).

Definition at line 859 of file Sema.h.

◆ NSValueDecl

ObjCInterfaceDecl* clang::Sema::NSValueDecl

The declaration of the Objective-C NSValue class.

Definition at line 844 of file Sema.h.

◆ NSValuePointer

QualType clang::Sema::NSValuePointer

Pointer to NSValue type (NSValue *).

Definition at line 850 of file Sema.h.

◆ NullabilityMap

FileNullabilityMap clang::Sema::NullabilityMap

A mapping that describes the nullability we've seen in each header file.

Definition at line 484 of file Sema.h.

Referenced by checkNullabilityConsistency(), and recordNullabilitySeen().

◆ NumSFINAEErrors

unsigned clang::Sema::NumSFINAEErrors

The number of SFINAE diagnostics that have been trapped.

Definition at line 1088 of file Sema.h.

Referenced by EmitCurrentDiagnostic(), clang::Sema::SFINAETrap::hasErrorOccurred(), PrintStats(), and clang::Sema::SFINAETrap::~SFINAETrap().

◆ OpaqueParser

void* clang::Sema::OpaqueParser

Definition at line 633 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ OpenCLFeatures

OpenCLOptions clang::Sema::OpenCLFeatures

Definition at line 314 of file Sema.h.

◆ OptimizeOffPragmaLocation

SourceLocation clang::Sema::OptimizeOffPragmaLocation

This represents the last location of a "#pragma clang optimize off" directive if such a directive has not been closed by an "on" yet.

If optimizations are currently "on", this is set to an invalid location.

Definition at line 510 of file Sema.h.

Referenced by ActOnPragmaOptimize(), and AddRangeBasedOptnone().

◆ OriginalLexicalContext

DeclContext* clang::Sema::OriginalLexicalContext

Generally null except when we temporarily switch decl contexts, like in.

See also
ActOnObjCTemporaryExitContainerContext.

Definition at line 335 of file Sema.h.

◆ PackIncludeStack

SmallVector<PackIncludeState, 8> clang::Sema::PackIncludeStack

Definition at line 463 of file Sema.h.

Referenced by AddAlignmentAttributesForRecord(), and DiagnoseNonDefaultPragmaPack().

◆ PackStack

PragmaStack<unsigned> clang::Sema::PackStack

◆ ParsingInitForAutoVars

llvm::SmallPtrSet<const Decl*, 4> clang::Sema::ParsingInitForAutoVars

ParsingInitForAutoVars - a set of declarations with auto types for which we are currently parsing the initializer.

Definition at line 579 of file Sema.h.

◆ PendingInstantiations

std::deque<PendingImplicitInstantiation> clang::Sema::PendingInstantiations

The queue of implicit template instantiations that are required but have not yet been performed.

Definition at line 7607 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit(), and clang::Sema::GlobalEagerInstantiationScope::GlobalEagerInstantiationScope().

◆ PendingLocalImplicitInstantiations

std::deque<PendingImplicitInstantiation> clang::Sema::PendingLocalImplicitInstantiations

The queue of implicit template instantiations that are required and must be performed within the current local scope.

This queue is only used for member functions of local classes in templates, which must be instantiated in the same scope as their enclosing function, so that they can reference function-local types, static variables, enumerators, etc.

Definition at line 7658 of file Sema.h.

Referenced by InstantiateClassMembers(), and clang::Sema::LocalEagerInstantiationScope::LocalEagerInstantiationScope().

◆ PP

Preprocessor& clang::Sema::PP

◆ PragmaAttributeCurrentTargetDecl

const Decl* clang::Sema::PragmaAttributeCurrentTargetDecl

The declaration that is currently receiving an attribute from the #pragma attribute stack.

Definition at line 505 of file Sema.h.

Referenced by AddPragmaAttributes(), and PrintPragmaAttributeInstantiationPoint().

◆ PragmaAttributeStack

SmallVector<PragmaAttributeEntry, 2> clang::Sema::PragmaAttributeStack

◆ PragmaClangBSSSection

PragmaClangSection clang::Sema::PragmaClangBSSSection

Definition at line 377 of file Sema.h.

Referenced by ActOnPragmaClangSection().

◆ PragmaClangDataSection

PragmaClangSection clang::Sema::PragmaClangDataSection

Definition at line 378 of file Sema.h.

Referenced by ActOnPragmaClangSection().

◆ PragmaClangRodataSection

PragmaClangSection clang::Sema::PragmaClangRodataSection

Definition at line 379 of file Sema.h.

Referenced by ActOnPragmaClangSection().

◆ PragmaClangTextSection

PragmaClangSection clang::Sema::PragmaClangTextSection

Definition at line 380 of file Sema.h.

Referenced by ActOnPragmaClangSection().

◆ PreallocatedFunctionScope

std::unique_ptr<sema::FunctionScopeInfo> clang::Sema::PreallocatedFunctionScope

Definition at line 534 of file Sema.h.

Referenced by PopFunctionScopeInfo(), PushFunctionScope(), and ~Sema().

◆ PureVirtualClassDiagSet

std::unique_ptr<RecordDeclSetTy> clang::Sema::PureVirtualClassDiagSet

PureVirtualClassDiagSet - a set of class declarations which we have emitted a list of pure virtual functions.

Used to prevent emitting the same list more than once.

Definition at line 575 of file Sema.h.

◆ QIDNSCopying

QualType clang::Sema::QIDNSCopying

id<NSCopying> type.

Definition at line 880 of file Sema.h.

◆ ReferencedSelectors

llvm::MapVector<Selector, SourceLocation> clang::Sema::ReferencedSelectors

Method selectors used in a @selector expression.

Used for implementation of -Wselector.

Definition at line 1137 of file Sema.h.

Referenced by RemoveSelectorFromWarningCache().

◆ RespondsToSelectorSel

Selector clang::Sema::RespondsToSelectorSel

will hold 'respondsToSelector:'

Definition at line 883 of file Sema.h.

◆ SourceMgr

SourceManager& clang::Sema::SourceMgr

◆ SpecialMemberCache

llvm::FoldingSet<SpecialMemberOverloadResultEntry> clang::Sema::SpecialMemberCache

A cache of special member function overload resolution results for C++ records.

Definition at line 1070 of file Sema.h.

◆ SpecialMembersBeingDeclared

llvm::SmallPtrSet<SpecialMemberDecl, 4> clang::Sema::SpecialMembersBeingDeclared

The C++ special members which we are currently in the process of declaring.

If this process recursively triggers the declaration of the same special member, we should act as if it is not yet declared.

Definition at line 1156 of file Sema.h.

◆ StdAlignValT

LazyDeclPtr clang::Sema::StdAlignValT

The C++ "std::align_val_t" enum class, which is defined by the C++ standard library.

Definition at line 817 of file Sema.h.

Referenced by DeclareGlobalNewDelete().

◆ StdBadAlloc

LazyDeclPtr clang::Sema::StdBadAlloc

The C++ "std::bad_alloc" class, which is defined by the C++ standard library.

Definition at line 813 of file Sema.h.

Referenced by DeclareGlobalNewDelete().

◆ StdCoroutineTraitsCache

ClassTemplateDecl* clang::Sema::StdCoroutineTraitsCache

The C++ "std::coroutine_traits" template, which is defined in <coroutine_traits>

Definition at line 829 of file Sema.h.

◆ StdExperimentalNamespaceCache

NamespaceDecl* clang::Sema::StdExperimentalNamespaceCache

The C++ "std::experimental" namespace, where the experimental parts of the standard library resides.

Definition at line 821 of file Sema.h.

◆ StdInitializerList

ClassTemplateDecl* clang::Sema::StdInitializerList

The C++ "std::initializer_list" template, which is defined in <initializer_list>.

Definition at line 825 of file Sema.h.

◆ StdNamespace

LazyDeclPtr clang::Sema::StdNamespace

The C++ "std" namespace, where the standard library resides.

Definition at line 809 of file Sema.h.

◆ StringWithUTF8StringMethod

ObjCMethodDecl* clang::Sema::StringWithUTF8StringMethod

The declaration of the stringWithUTF8String: method.

Definition at line 862 of file Sema.h.

◆ SuppressedDiagnostics

SuppressedDiagnosticsMap clang::Sema::SuppressedDiagnostics

Definition at line 7339 of file Sema.h.

◆ TemplateInstCallbacks

std::vector<std::unique_ptr<TemplateInstantiationCallback> > clang::Sema::TemplateInstCallbacks

The template instantiation callbacks to trace or track instantiations (objects can be chained).

This callbacks is used to print, trace or track template instantiations as they are being constructed.

Definition at line 7301 of file Sema.h.

Referenced by clang::Sema::InstantiatingTemplate::Clear(), clang::TemplightDumpAction::ExecuteAction(), clang::TemplateDeclInstantiator::InitFunctionInstantiation(), and clang::Sema::CodeSynthesisContext::isInstantiationRecord().

◆ TentativeDefinitions

TentativeDefinitionsType clang::Sema::TentativeDefinitions

All the tentative definitions encountered in the TU.

Definition at line 589 of file Sema.h.

◆ ThreadSafetyDeclCache

threadSafety::BeforeSet* clang::Sema::ThreadSafetyDeclCache

Definition at line 7593 of file Sema.h.

Referenced by clang::sema::AnalysisBasedWarnings::IssueWarnings(), and ~Sema().

◆ TUKind

TranslationUnitKind clang::Sema::TUKind

The kind of translation unit we are processing.

When we're processing a complete translation unit, Sema will perform end-of-translation-unit semantic tasks (such as creating initializers for tentative definitions in C) once parsing has completed. Modules and precompiled headers perform different kinds of checks.

Definition at line 1083 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ TUScope

Scope* clang::Sema::TUScope

Translation Unit Scope - useful to Objective-C actions that need to lookup file scope declarations in the "ordinary" C decl namespace.

For example, user-defined classes, built-in "id" type, etc.

Definition at line 806 of file Sema.h.

Referenced by ActOnCompatibilityAlias(), ActOnEndOfTranslationUnit(), ActOnForwardClassDeclaration(), ActOnForwardProtocolDeclaration(), ActOnStartCategoryInterface(), ActOnStartClassImplementation(), ActOnStartProtocolInterface(), ActOnTypedefedProtocols(), buildMemcpyForAssignmentOp(), CheckObjCBridgeCFCast(), CheckObjCBridgeNSCast(), FindProtocolDeclaration(), Initialize(), isMethodDeclaredInRootProtocol(), and LookupBuiltin().

◆ TypoCorrectedFunctionDefinitions

llvm::SmallPtrSet<const NamedDecl *, 4> clang::Sema::TypoCorrectedFunctionDefinitions

The function definitions which were renamed as part of typo-correction to match their respective declarations.

We want to keep track of them to ensure that we don't emit a "redefinition" error if we encounter a correctly named definition after the renamed definition.

Definition at line 1162 of file Sema.h.

◆ TypoCorrectionFailures

IdentifierSourceLocations clang::Sema::TypoCorrectionFailures

A cache containing identifiers for which typo correction failed and their locations, so that repeated attempts to correct an identifier in a given location are ignored if typo correction already failed for it.

Definition at line 7589 of file Sema.h.

◆ TyposCorrected

unsigned clang::Sema::TyposCorrected

The number of typos corrected by CorrectTypo.

Definition at line 7581 of file Sema.h.

◆ UndefinedButUsed

llvm::MapVector<NamedDecl *, SourceLocation> clang::Sema::UndefinedButUsed

UndefinedInternals - all the used, undefined objects which require a definition in this translation unit.

Definition at line 1108 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit(), getUndefinedButUsed(), and clang::MarkVarDeclODRUsed().

◆ UnparsedDefaultArgInstantiations

UnparsedDefaultArgInstantiationsMap clang::Sema::UnparsedDefaultArgInstantiations

A mapping from parameters with unparsed default arguments to the set of instantiations of each parameter.

This mapping is a temporary data structure used when parsing nested class templates or nested classes of class templates, where we might end up instantiating an inner class before the default arguments of its methods have been parsed.

Definition at line 1100 of file Sema.h.

Referenced by SubstParmVarDecl().

◆ UnparsedDefaultArgLocs

llvm::DenseMap<ParmVarDecl *, SourceLocation> clang::Sema::UnparsedDefaultArgLocs

Definition at line 1104 of file Sema.h.

◆ UnusedFileScopedDecls

UnusedFileScopedDeclsType clang::Sema::UnusedFileScopedDecls

The set of file scoped decls seen so far that have not been used and must warn if not used.

Only contains the first declaration.

Definition at line 597 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit().

◆ UnusedLocalTypedefNameCandidates

llvm::SmallSetVector<const TypedefNameDecl *, 4> clang::Sema::UnusedLocalTypedefNameCandidates

Set containing all typedefs that are likely unused.

Definition at line 559 of file Sema.h.

Referenced by emitAndClearUnusedLocalTypedefWarnings().

◆ UnusedPrivateFields

NamedDeclSetType clang::Sema::UnusedPrivateFields

Set containing all declared private fields that are not used.

Definition at line 555 of file Sema.h.

◆ VAListTagName

DeclarationName clang::Sema::VAListTagName

VAListTagName - The declaration name corresponding to __va_list_tag.

This is used as part of a hack to omit that class from ADL results.

Definition at line 339 of file Sema.h.

Referenced by Initialize().

◆ ValueWithBytesObjCTypeMethod

ObjCMethodDecl* clang::Sema::ValueWithBytesObjCTypeMethod

The declaration of the valueWithBytes:objCType: method.

Definition at line 865 of file Sema.h.

◆ VisContext

void* clang::Sema::VisContext

VisContext - Manages the stack for #pragma GCC visibility.

Definition at line 491 of file Sema.h.

Referenced by AddPushedVisibilityAttribute(), FreeVisContext(), PopPragmaVisibility(), PushPragmaVisibility(), and ~Sema().

◆ VisibleNamespaceCache

llvm::DenseMap<NamedDecl*, NamedDecl*> clang::Sema::VisibleNamespaceCache

Map from the most recent declaration of a namespace to the most recent visible declaration of that namespace.

Definition at line 7269 of file Sema.h.

◆ VTablesUsed

llvm::DenseMap<CXXRecordDecl *, bool> clang::Sema::VTablesUsed

The set of classes whose vtables have been used within this translation unit, and a bit that will be true if the vtable is required to be emitted (otherwise, it should be emitted only if needed by code generation).

Definition at line 5822 of file Sema.h.

◆ VTableUses

SmallVector<VTableUse, 16> clang::Sema::VTableUses

The list of vtables that are required but have not yet been materialized.

Definition at line 5816 of file Sema.h.

Referenced by clang::Sema::GlobalEagerInstantiationScope::GlobalEagerInstantiationScope().

◆ VtorDispStack

PragmaStack<MSVtorDispAttr::Mode> clang::Sema::VtorDispStack

Whether to insert vtordisps prior to virtual bases in the Microsoft C++ ABI.

Possible values are 0, 1, and 2, which mean:

0: Suppress all vtordisps 1: Insert vtordisps in the presence of vbase overrides and non-trivial structors 2: Always insert vtordisps to support RTTI on partially constructed objects

Definition at line 452 of file Sema.h.

Referenced by ActOnPragmaMSVtorDisp(), AddMsStructLayoutForRecord(), and clang::Sema::PragmaStackSentinelRAII::~PragmaStackSentinelRAII().

◆ WeakTopLevelDecl

SmallVector<Decl*,2> clang::Sema::WeakTopLevelDecl

WeakTopLevelDecl - Translation-unit scoped declarations generated by #pragma weak during processing of other Decls.

I couldn't figure out a clean way to generate these in-line, so we store them here and handle separately – which is a hack. It would be best to refactor this.

Definition at line 799 of file Sema.h.

◆ WeakUndeclaredIdentifiers

llvm::MapVector<IdentifierInfo *, WeakInfo> clang::Sema::WeakUndeclaredIdentifiers

WeakUndeclaredIdentifiers - Identifiers contained in #pragma weak before declared.

rare. may alias another identifier, declared or undeclared

Definition at line 782 of file Sema.h.

Referenced by ActOnEndOfTranslationUnit(), and LoadExternalWeakUndeclaredIdentifiers().


The documentation for this class was generated from the following files: