llvm::DbgValueInst Class Reference

This represents the llvm.dbg.value instruction. More...

#include "llvm/IR/IntrinsicInst.h"

Inheritance diagram for llvm::DbgValueInst:

Public Member Functions
Value *	getValue (unsigned OpIdx=0) const
iterator_range< location_op_iterator >	getValues () const
Public Member Functions inherited from llvm::DbgVariableIntrinsic
iterator_range< location_op_iterator >	location_ops () const
	Get the locations corresponding to the variable referenced by the debug info intrinsic.
Value *	getVariableLocationOp (unsigned OpIdx) const
void	replaceVariableLocationOp (Value *OldValue, Value *NewValue, bool AllowEmpty=false)
void	replaceVariableLocationOp (unsigned OpIdx, Value *NewValue)
void	addVariableLocationOps (ArrayRef< Value * > NewValues, DIExpression *NewExpr)
	Adding a new location operand will always result in this intrinsic using an ArgList, and must always be accompanied by a new expression that uses the new operand.
void	setVariable (DILocalVariable *NewVar)
void	setExpression (DIExpression *NewExpr)
unsigned	getNumVariableLocationOps () const
bool	hasArgList () const
bool	isAddressOfVariable () const
	Does this describe the address of a local variable.
void	setKillLocation ()
bool	isKillLocation () const
DILocalVariable *	getVariable () const
DIExpression *	getExpression () const
Metadata *	getRawLocation () const
RawLocationWrapper	getWrappedLocation () const
Metadata *	getRawVariable () const
Metadata *	getRawExpression () const
void	setRawLocation (Metadata *Location)
	Use of this should generally be avoided; instead, replaceVariableLocationOp and addVariableLocationOps should be used where possible to avoid creating invalid state.
std::optional< uint64_t >	getFragmentSizeInBits () const
	Get the size (in bits) of the variable, or fragment of the variable that is described.
std::optional< DIExpression::FragmentInfo >	getFragment () const
	Get the FragmentInfo for the variable.
DIExpression::FragmentInfo	getFragmentOrEntireVariable () const
	Get the FragmentInfo for the variable if it exists, otherwise return a FragmentInfo that covers the entire variable if the variable size is known, otherwise return a zero-sized fragment.
Public Member Functions inherited from llvm::IntrinsicInst
	IntrinsicInst ()=delete
	IntrinsicInst (const IntrinsicInst &)=delete
IntrinsicInst &	operator= (const IntrinsicInst &)=delete
Intrinsic::ID	getIntrinsicID () const
	Return the intrinsic ID of this intrinsic.
bool	isAssociative () const
bool	isCommutative () const
	Return true if swapping the first two arguments to the intrinsic produces the same result.
bool	isAssumeLikeIntrinsic () const
	Checks if the intrinsic is an annotation.
Public Member Functions inherited from llvm::CallInst
TailCallKind	getTailCallKind () const
bool	isTailCall () const
bool	isMustTailCall () const
bool	isNoTailCall () const
void	setTailCallKind (TailCallKind TCK)
void	setTailCall (bool IsTc=true)
bool	canReturnTwice () const
	Return true if the call can return twice.
void	setCanReturnTwice ()
bool	isNonContinuableTrap () const
	Return true if the call is for a noreturn trap intrinsic.
void	updateProfWeight (uint64_t S, uint64_t T)
	Updates profile metadata by scaling it by S / T.
Public Member Functions inherited from llvm::CallBase
Value *	getConvergenceControlToken () const
	Return the convergence control token for this call, if it exists.
FunctionType *	getFunctionType () const
void	mutateFunctionType (FunctionType *FTy)
	DECLARE_TRANSPARENT_OPERAND_ACCESSORS (Value)
User::op_iterator	data_operands_begin ()
	data_operands_begin/data_operands_end - Return iterators iterating over the call / invoke argument list and bundle operands.
User::const_op_iterator	data_operands_begin () const
User::op_iterator	data_operands_end ()
User::const_op_iterator	data_operands_end () const
iterator_range< User::op_iterator >	data_ops ()
iterator_range< User::const_op_iterator >	data_ops () const
bool	data_operands_empty () const
unsigned	data_operands_size () const
bool	isDataOperand (const Use *U) const
bool	isDataOperand (Value::const_user_iterator UI) const
unsigned	getDataOperandNo (Value::const_user_iterator UI) const
	Given a value use iterator, return the data operand corresponding to it.
unsigned	getDataOperandNo (const Use *U) const
	Given a use for a data operand, get the data operand number that corresponds to it.
User::op_iterator	arg_begin ()
	Return the iterator pointing to the beginning of the argument list.
User::const_op_iterator	arg_begin () const
User::op_iterator	arg_end ()
	Return the iterator pointing to the end of the argument list.
User::const_op_iterator	arg_end () const
iterator_range< User::op_iterator >	args ()
	Iteration adapter for range-for loops.
iterator_range< User::const_op_iterator >	args () const
bool	arg_empty () const
unsigned	arg_size () const
Value *	getArgOperand (unsigned i) const
void	setArgOperand (unsigned i, Value *v)
const Use &	getArgOperandUse (unsigned i) const
	Wrappers for getting the Use of a call argument.
Use &	getArgOperandUse (unsigned i)
bool	isArgOperand (const Use *U) const
bool	isArgOperand (Value::const_user_iterator UI) const
unsigned	getArgOperandNo (const Use *U) const
	Given a use for a arg operand, get the arg operand number that corresponds to it.
unsigned	getArgOperandNo (Value::const_user_iterator UI) const
	Given a value use iterator, return the arg operand number corresponding to it.
bool	hasArgument (const Value *V) const
	Returns true if this CallSite passes the given Value* as an argument to the called function.
Value *	getCalledOperand () const
const Use &	getCalledOperandUse () const
Use &	getCalledOperandUse ()
Function *	getCalledFunction () const
	Returns the function called, or null if this is an indirect function invocation or the function signature does not match the call signature.
bool	isIndirectCall () const
	Return true if the callsite is an indirect call.
bool	isCallee (Value::const_user_iterator UI) const
	Determine whether the passed iterator points to the callee operand's Use.
bool	isCallee (const Use *U) const
	Determine whether this Use is the callee operand's Use.
Function *	getCaller ()
	Helper to get the caller (the parent function).
const Function *	getCaller () const
bool	isMustTailCall () const
	Tests if this call site must be tail call optimized.
bool	isTailCall () const
	Tests if this call site is marked as a tail call.
Intrinsic::ID	getIntrinsicID () const
	Returns the intrinsic ID of the intrinsic called or Intrinsic::not_intrinsic if the called function is not an intrinsic, or if this is an indirect call.
void	setCalledOperand (Value *V)
void	setCalledFunction (Function *Fn)
	Sets the function called, including updating the function type.
void	setCalledFunction (FunctionCallee Fn)
	Sets the function called, including updating the function type.
void	setCalledFunction (FunctionType *FTy, Value *Fn)
	Sets the function called, including updating to the specified function type.
CallingConv::ID	getCallingConv () const
void	setCallingConv (CallingConv::ID CC)
bool	isInlineAsm () const
	Check if this call is an inline asm statement.
AttributeList	getAttributes () const
	Return the parameter attributes for this call.
void	setAttributes (AttributeList A)
	Set the parameter attributes for this call.
bool	hasFnAttr (Attribute::AttrKind Kind) const
	Determine whether this call has the given attribute.
bool	hasFnAttr (StringRef Kind) const
	Determine whether this call has the given attribute.
void	addAttributeAtIndex (unsigned i, Attribute::AttrKind Kind)
	adds the attribute to the list of attributes.
void	addAttributeAtIndex (unsigned i, Attribute Attr)
	adds the attribute to the list of attributes.
void	addFnAttr (Attribute::AttrKind Kind)
	Adds the attribute to the function.
void	addFnAttr (Attribute Attr)
	Adds the attribute to the function.
void	addRetAttr (Attribute::AttrKind Kind)
	Adds the attribute to the return value.
void	addRetAttr (Attribute Attr)
	Adds the attribute to the return value.
void	addParamAttr (unsigned ArgNo, Attribute::AttrKind Kind)
	Adds the attribute to the indicated argument.
void	addParamAttr (unsigned ArgNo, Attribute Attr)
	Adds the attribute to the indicated argument.
void	removeAttributeAtIndex (unsigned i, Attribute::AttrKind Kind)
	removes the attribute from the list of attributes.
void	removeAttributeAtIndex (unsigned i, StringRef Kind)
	removes the attribute from the list of attributes.
void	removeFnAttrs (const AttributeMask &AttrsToRemove)
	Removes the attributes from the function.
void	removeFnAttr (Attribute::AttrKind Kind)
	Removes the attribute from the function.
void	removeFnAttr (StringRef Kind)
	Removes the attribute from the function.
void	removeRetAttr (Attribute::AttrKind Kind)
	Removes the attribute from the return value.
void	removeRetAttrs (const AttributeMask &AttrsToRemove)
	Removes the attributes from the return value.
void	removeParamAttr (unsigned ArgNo, Attribute::AttrKind Kind)
	Removes the attribute from the given argument.
void	removeParamAttr (unsigned ArgNo, StringRef Kind)
	Removes the attribute from the given argument.
void	removeParamAttrs (unsigned ArgNo, const AttributeMask &AttrsToRemove)
	Removes the attributes from the given argument.
void	addDereferenceableParamAttr (unsigned i, uint64_t Bytes)
	adds the dereferenceable attribute to the list of attributes.
void	addDereferenceableRetAttr (uint64_t Bytes)
	adds the dereferenceable attribute to the list of attributes.
void	addRangeRetAttr (const ConstantRange &CR)
	adds the range attribute to the list of attributes.
bool	hasRetAttr (Attribute::AttrKind Kind) const
	Determine whether the return value has the given attribute.
bool	hasRetAttr (StringRef Kind) const
	Determine whether the return value has the given attribute.
Attribute	getRetAttr (Attribute::AttrKind Kind) const
	Return the attribute for the given attribute kind for the return value.
bool	paramHasAttr (unsigned ArgNo, Attribute::AttrKind Kind) const
	Determine whether the argument or parameter has the given attribute.
Attribute	getAttributeAtIndex (unsigned i, Attribute::AttrKind Kind) const
	Get the attribute of a given kind at a position.
Attribute	getAttributeAtIndex (unsigned i, StringRef Kind) const
	Get the attribute of a given kind at a position.
Attribute	getFnAttr (StringRef Kind) const
	Get the attribute of a given kind for the function.
Attribute	getFnAttr (Attribute::AttrKind Kind) const
	Get the attribute of a given kind for the function.
Attribute	getParamAttr (unsigned ArgNo, Attribute::AttrKind Kind) const
	Get the attribute of a given kind from a given arg.
Attribute	getParamAttr (unsigned ArgNo, StringRef Kind) const
	Get the attribute of a given kind from a given arg.
bool	dataOperandHasImpliedAttr (unsigned i, Attribute::AttrKind Kind) const
	Return true if the data operand at index i has the attribute A.
bool	doesNotCapture (unsigned OpNo) const
	Determine whether this data operand is not captured.
bool	isByValArgument (unsigned ArgNo) const
	Determine whether this argument is passed by value.
bool	isInAllocaArgument (unsigned ArgNo) const
	Determine whether this argument is passed in an alloca.
bool	isPassPointeeByValueArgument (unsigned ArgNo) const
	Determine whether this argument is passed by value, in an alloca, or is preallocated.
bool	isPassingUndefUB (unsigned ArgNo) const
	Determine whether passing undef to this argument is undefined behavior.
bool	hasInAllocaArgument () const
	Determine if there are is an inalloca argument.
bool	doesNotAccessMemory (unsigned OpNo) const
bool	onlyReadsMemory (unsigned OpNo) const
bool	onlyWritesMemory (unsigned OpNo) const
MaybeAlign	getRetAlign () const
	Extract the alignment of the return value.
MaybeAlign	getParamAlign (unsigned ArgNo) const
	Extract the alignment for a call or parameter (0=unknown).
MaybeAlign	getParamStackAlign (unsigned ArgNo) const
Type *	getParamByRefType (unsigned ArgNo) const
	Extract the byref type for a call or parameter.
Type *	getParamByValType (unsigned ArgNo) const
	Extract the byval type for a call or parameter.
Type *	getParamPreallocatedType (unsigned ArgNo) const
	Extract the preallocated type for a call or parameter.
Type *	getParamInAllocaType (unsigned ArgNo) const
	Extract the inalloca type for a call or parameter.
Type *	getParamStructRetType (unsigned ArgNo) const
	Extract the sret type for a call or parameter.
Type *	getParamElementType (unsigned ArgNo) const
	Extract the elementtype type for a parameter.
uint64_t	getRetDereferenceableBytes () const
	Extract the number of dereferenceable bytes for a call or parameter (0=unknown).
uint64_t	getParamDereferenceableBytes (unsigned i) const
	Extract the number of dereferenceable bytes for a call or parameter (0=unknown).
uint64_t	getRetDereferenceableOrNullBytes () const
	Extract the number of dereferenceable_or_null bytes for a call (0=unknown).
uint64_t	getParamDereferenceableOrNullBytes (unsigned i) const
	Extract the number of dereferenceable_or_null bytes for a parameter (0=unknown).
FPClassTest	getRetNoFPClass () const
	Extract a test mask for disallowed floating-point value classes for the return value.
FPClassTest	getParamNoFPClass (unsigned i) const
	Extract a test mask for disallowed floating-point value classes for the parameter.
std::optional< ConstantRange >	getRange () const
	If this return value has a range attribute, return the value range of the argument.
bool	isReturnNonNull () const
	Return true if the return value is known to be not null.
bool	returnDoesNotAlias () const
	Determine if the return value is marked with NoAlias attribute.
Value *	getReturnedArgOperand () const
	If one of the arguments has the 'returned' attribute, returns its operand value.
Value *	getArgOperandWithAttribute (Attribute::AttrKind Kind) const
	If one of the arguments has the specified attribute, returns its operand value.
bool	isNoBuiltin () const
	Return true if the call should not be treated as a call to a builtin.
bool	isStrictFP () const
	Determine if the call requires strict floating point semantics.
bool	isNoInline () const
	Return true if the call should not be inlined.
void	setIsNoInline ()
MemoryEffects	getMemoryEffects () const
void	setMemoryEffects (MemoryEffects ME)
bool	doesNotAccessMemory () const
	Determine if the call does not access memory.
void	setDoesNotAccessMemory ()
bool	onlyReadsMemory () const
	Determine if the call does not access or only reads memory.
void	setOnlyReadsMemory ()
bool	onlyWritesMemory () const
	Determine if the call does not access or only writes memory.
void	setOnlyWritesMemory ()
bool	onlyAccessesArgMemory () const
	Determine if the call can access memmory only using pointers based on its arguments.
void	setOnlyAccessesArgMemory ()
bool	onlyAccessesInaccessibleMemory () const
	Determine if the function may only access memory that is inaccessible from the IR.
void	setOnlyAccessesInaccessibleMemory ()
bool	onlyAccessesInaccessibleMemOrArgMem () const
	Determine if the function may only access memory that is either inaccessible from the IR or pointed to by its arguments.
void	setOnlyAccessesInaccessibleMemOrArgMem ()
bool	doesNotReturn () const
	Determine if the call cannot return.
void	setDoesNotReturn ()
bool	doesNoCfCheck () const
	Determine if the call should not perform indirect branch tracking.
bool	doesNotThrow () const
	Determine if the call cannot unwind.
void	setDoesNotThrow ()
bool	cannotDuplicate () const
	Determine if the invoke cannot be duplicated.
void	setCannotDuplicate ()
bool	cannotMerge () const
	Determine if the call cannot be tail merged.
void	setCannotMerge ()
bool	isConvergent () const
	Determine if the invoke is convergent.
void	setConvergent ()
void	setNotConvergent ()
bool	hasStructRetAttr () const
	Determine if the call returns a structure through first pointer argument.
bool	hasByValArgument () const
	Determine if any call argument is an aggregate passed by value.
unsigned	getNumOperandBundles () const
	Return the number of operand bundles associated with this User.
bool	hasOperandBundles () const
	Return true if this User has any operand bundles.
unsigned	getBundleOperandsStartIndex () const
	Return the index of the first bundle operand in the Use array.
unsigned	getBundleOperandsEndIndex () const
	Return the index of the last bundle operand in the Use array.
bool	isBundleOperand (unsigned Idx) const
	Return true if the operand at index Idx is a bundle operand.
bool	isOperandBundleOfType (uint32_t ID, unsigned Idx) const
	Return true if the operand at index Idx is a bundle operand that has tag ID ID.
bool	isBundleOperand (const Use *U) const
	Returns true if the use is a bundle operand.
bool	isBundleOperand (Value::const_user_iterator UI) const
unsigned	getNumTotalBundleOperands () const
	Return the total number operands (not operand bundles) used by every operand bundle in this OperandBundleUser.
OperandBundleUse	getOperandBundleAt (unsigned Index) const
	Return the operand bundle at a specific index.
unsigned	countOperandBundlesOfType (StringRef Name) const
	Return the number of operand bundles with the tag Name attached to this instruction.
unsigned	countOperandBundlesOfType (uint32_t ID) const
	Return the number of operand bundles with the tag ID attached to this instruction.
std::optional< OperandBundleUse >	getOperandBundle (StringRef Name) const
	Return an operand bundle by name, if present.
std::optional< OperandBundleUse >	getOperandBundle (uint32_t ID) const
	Return an operand bundle by tag ID, if present.
void	getOperandBundlesAsDefs (SmallVectorImpl< OperandBundleDef > &Defs) const
	Return the list of operand bundles attached to this instruction as a vector of OperandBundleDefs.
OperandBundleUse	getOperandBundleForOperand (unsigned OpIdx) const
	Return the operand bundle for the operand at index OpIdx.
bool	hasReadingOperandBundles () const
	Return true if this operand bundle user has operand bundles that may read from the heap.
bool	hasClobberingOperandBundles () const
	Return true if this operand bundle user has operand bundles that may write to the heap.
bool	bundleOperandHasAttr (unsigned OpIdx, Attribute::AttrKind A) const
	Return true if the bundle operand at index OpIdx has the attribute A.
bool	hasIdenticalOperandBundleSchema (const CallBase &Other) const
	Return true if Other has the same sequence of operand bundle tags with the same number of operands on each one of them as this OperandBundleUser.
bool	hasOperandBundlesOtherThan (ArrayRef< uint32_t > IDs) const
	Return true if this operand bundle user contains operand bundles with tags other than those specified in IDs.
OperandBundleUse	operandBundleFromBundleOpInfo (const BundleOpInfo &BOI) const
	Simple helper function to map a BundleOpInfo to an OperandBundleUse.
bundle_op_iterator	bundle_op_info_begin ()
	Return the start of the list of BundleOpInfo instances associated with this OperandBundleUser.
const_bundle_op_iterator	bundle_op_info_begin () const
	Return the start of the list of BundleOpInfo instances associated with this OperandBundleUser.
bundle_op_iterator	bundle_op_info_end ()
	Return the end of the list of BundleOpInfo instances associated with this OperandBundleUser.
const_bundle_op_iterator	bundle_op_info_end () const
	Return the end of the list of BundleOpInfo instances associated with this OperandBundleUser.
iterator_range< bundle_op_iterator >	bundle_op_infos ()
	Return the range [bundle_op_info_begin, bundle_op_info_end).
iterator_range< const_bundle_op_iterator >	bundle_op_infos () const
	Return the range [bundle_op_info_begin, bundle_op_info_end).
op_iterator	populateBundleOperandInfos (ArrayRef< OperandBundleDef > Bundles, const unsigned BeginIndex)
	Populate the BundleOpInfo instances and the Use& vector from Bundles.
bool	hasDeoptState () const
	Return true if the call has deopt state bundle.
BundleOpInfo &	getBundleOpInfoForOperand (unsigned OpIdx)
	Return the BundleOpInfo for the operand at index OpIdx.
const BundleOpInfo &	getBundleOpInfoForOperand (unsigned OpIdx) const
Public Member Functions inherited from llvm::Instruction
iterator_range< simple_ilist< DbgRecord >::iterator >	cloneDebugInfoFrom (const Instruction *From, std::optional< simple_ilist< DbgRecord >::iterator > FromHere=std::nullopt, bool InsertAtHead=false)
	Clone any debug-info attached to From onto this instruction.
iterator_range< simple_ilist< DbgRecord >::iterator >	getDbgRecordRange () const
	Return a range over the DbgRecords attached to this instruction.
std::optional< simple_ilist< DbgRecord >::iterator >	getDbgReinsertionPosition ()
	Return an iterator to the position of the "Next" DbgRecord after this instruction, or std::nullopt.
bool	hasDbgRecords () const
	Returns true if any DbgRecords are attached to this instruction.
void	adoptDbgRecords (BasicBlock *BB, InstListType::iterator It, bool InsertAtHead)
	Transfer any DbgRecords on the position It onto this instruction, by simply adopting the sequence of DbgRecords (which is efficient) if possible, by merging two sequences otherwise.
void	dropDbgRecords ()
	Erase any DbgRecords attached to this instruction.
void	dropOneDbgRecord (DbgRecord *I)
	Erase a single DbgRecord I that is attached to this instruction.
void	handleMarkerRemoval ()
	Handle the debug-info implications of this instruction being removed.
	Instruction (const Instruction &)=delete
Instruction &	operator= (const Instruction &)=delete
Instruction *	user_back ()
	Specialize the methods defined in Value, as we know that an instruction can only be used by other instructions.
const Instruction *	user_back () const
const Module *	getModule () const
	Return the module owning the function this instruction belongs to or nullptr it the function does not have a module.
Module *	getModule ()
const Function *	getFunction () const
	Return the function this instruction belongs to.
Function *	getFunction ()
const DataLayout &	getDataLayout () const
	Get the data layout of the module this instruction belongs to.
void	removeFromParent ()
	This method unlinks 'this' from the containing basic block, but does not delete it.
InstListType::iterator	eraseFromParent ()
	This method unlinks 'this' from the containing basic block and deletes it.
void	insertBefore (Instruction *InsertPos)
	Insert an unlinked instruction into a basic block immediately before the specified instruction.
void	insertBefore (InstListType::iterator InsertPos)
	Insert an unlinked instruction into a basic block immediately before the specified instruction.
void	insertAfter (Instruction *InsertPos)
	Insert an unlinked instruction into a basic block immediately after the specified instruction.
InstListType::iterator	insertInto (BasicBlock *ParentBB, InstListType::iterator It)
	Inserts an unlinked instruction into ParentBB at position It and returns the iterator of the inserted instruction.
void	insertBefore (BasicBlock &BB, InstListType::iterator InsertPos)
void	moveBefore (Instruction *MovePos)
	Unlink this instruction from its current basic block and insert it into the basic block that MovePos lives in, right before MovePos.
void	moveBeforePreserving (Instruction *MovePos)
	Perform a moveBefore operation, while signalling that the caller intends to preserve the original ordering of instructions.
void	moveBefore (BasicBlock &BB, InstListType::iterator I)
	Unlink this instruction and insert into BB before I.
void	moveBeforePreserving (BasicBlock &BB, InstListType::iterator I)
	(See other overload for moveBeforePreserving).
void	moveAfter (Instruction *MovePos)
	Unlink this instruction from its current basic block and insert it into the basic block that MovePos lives in, right after MovePos.
void	moveAfterPreserving (Instruction *MovePos)
	See moveBeforePreserving .
bool	comesBefore (const Instruction *Other) const
	Given an instruction Other in the same basic block as this instruction, return true if this instruction comes before Other.
std::optional< InstListType::iterator >	getInsertionPointAfterDef ()
	Get the first insertion point at which the result of this instruction is defined.
unsigned	getOpcode () const
	Returns a member of one of the enums like Instruction::Add.
const char *	getOpcodeName () const
bool	isTerminator () const
bool	isUnaryOp () const
bool	isBinaryOp () const
bool	isIntDivRem () const
bool	isShift () const
bool	isCast () const
bool	isFuncletPad () const
bool	isSpecialTerminator () const
bool	isOnlyUserOfAnyOperand ()
	It checks if this instruction is the only user of at least one of its operands.
bool	isLogicalShift () const
	Return true if this is a logical shift left or a logical shift right.
bool	isArithmeticShift () const
	Return true if this is an arithmetic shift right.
bool	isBitwiseLogicOp () const
	Return true if this is and/or/xor.
bool	hasMetadata () const
	Return true if this instruction has any metadata attached to it.
bool	hasMetadataOtherThanDebugLoc () const
	Return true if this instruction has metadata attached to it other than a debug location.
bool	hasMetadata (unsigned KindID) const
	Return true if this instruction has the given type of metadata attached.
bool	hasMetadata (StringRef Kind) const
	Return true if this instruction has the given type of metadata attached.
MDNode *	getMetadata (unsigned KindID) const
	Get the metadata of given kind attached to this Instruction.
MDNode *	getMetadata (StringRef Kind) const
	Get the metadata of given kind attached to this Instruction.
void	getAllMetadata (SmallVectorImpl< std::pair< unsigned, MDNode * > > &MDs) const
	Get all metadata attached to this Instruction.
void	getAllMetadataOtherThanDebugLoc (SmallVectorImpl< std::pair< unsigned, MDNode * > > &MDs) const
	This does the same thing as getAllMetadata, except that it filters out the debug location.
void	setMetadata (unsigned KindID, MDNode *Node)
	Set the metadata of the specified kind to the specified node.
void	setMetadata (StringRef Kind, MDNode *Node)
void	copyMetadata (const Instruction &SrcInst, ArrayRef< unsigned > WL=ArrayRef< unsigned >())
	Copy metadata from SrcInst to this instruction.
void	eraseMetadataIf (function_ref< bool(unsigned, MDNode *)> Pred)
	Erase all metadata that matches the predicate.
void	swapProfMetadata ()
	If the instruction has "branch_weights" MD_prof metadata and the MDNode has three operands (including name string), swap the order of the metadata.
void	addAnnotationMetadata (StringRef Annotation)
	Adds an !annotation metadata node with Annotation to this instruction.
void	addAnnotationMetadata (SmallVector< StringRef > Annotations)
	Adds an !annotation metadata node with an array of Annotations as a tuple to this instruction.
AAMDNodes	getAAMetadata () const
	Returns the AA metadata for this instruction.
void	setAAMetadata (const AAMDNodes &N)
	Sets the AA metadata on this instruction from the AAMDNodes structure.
void	setNoSanitizeMetadata ()
	Sets the nosanitize metadata on this instruction.
bool	extractProfTotalWeight (uint64_t &TotalVal) const
	Retrieve total raw weight values of a branch.
void	setDebugLoc (DebugLoc Loc)
	Set the debug location information for this instruction.
const DebugLoc &	getDebugLoc () const
	Return the debug location for this node as a DebugLoc.
const DebugLoc &	getStableDebugLoc () const
	Fetch the debug location for this node, unless this is a debug intrinsic, in which case fetch the debug location of the next non-debug node.
void	setHasNoUnsignedWrap (bool b=true)
	Set or clear the nuw flag on this instruction, which must be an operator which supports this flag.
void	setHasNoSignedWrap (bool b=true)
	Set or clear the nsw flag on this instruction, which must be an operator which supports this flag.
void	setIsExact (bool b=true)
	Set or clear the exact flag on this instruction, which must be an operator which supports this flag.
void	setNonNeg (bool b=true)
	Set or clear the nneg flag on this instruction, which must be a zext instruction.
bool	hasNoUnsignedWrap () const LLVM_READONLY
	Determine whether the no unsigned wrap flag is set.
bool	hasNoSignedWrap () const LLVM_READONLY
	Determine whether the no signed wrap flag is set.
bool	hasNonNeg () const LLVM_READONLY
	Determine whether the the nneg flag is set.
bool	hasPoisonGeneratingFlags () const LLVM_READONLY
	Return true if this operator has flags which may cause this instruction to evaluate to poison despite having non-poison inputs.
void	dropPoisonGeneratingFlags ()
	Drops flags that may cause this instruction to evaluate to poison despite having non-poison inputs.
bool	hasPoisonGeneratingMetadata () const LLVM_READONLY
	Return true if this instruction has poison-generating metadata.
void	dropPoisonGeneratingMetadata ()
	Drops metadata that may generate poison.
bool	hasPoisonGeneratingReturnAttributes () const LLVM_READONLY
	Return true if this instruction has poison-generating attribute.
void	dropPoisonGeneratingReturnAttributes ()
	Drops return attributes that may generate poison.
bool	hasPoisonGeneratingAnnotations () const
	Return true if this instruction has poison-generating flags, return attributes or metadata.
void	dropPoisonGeneratingAnnotations ()
	Drops flags, return attributes and metadata that may generate poison.
void	dropUBImplyingAttrsAndUnknownMetadata (ArrayRef< unsigned > KnownIDs={})
	This function drops non-debug unknown metadata (through dropUnknownNonDebugMetadata).
void	dropUBImplyingAttrsAndMetadata ()
	Drop any attributes or metadata that can cause immediate undefined behavior.
bool	isExact () const LLVM_READONLY
	Determine whether the exact flag is set.
void	setFast (bool B)
	Set or clear all fast-math-flags on this instruction, which must be an operator which supports this flag.
void	setHasAllowReassoc (bool B)
	Set or clear the reassociation flag on this instruction, which must be an operator which supports this flag.
void	setHasNoNaNs (bool B)
	Set or clear the no-nans flag on this instruction, which must be an operator which supports this flag.
void	setHasNoInfs (bool B)
	Set or clear the no-infs flag on this instruction, which must be an operator which supports this flag.
void	setHasNoSignedZeros (bool B)
	Set or clear the no-signed-zeros flag on this instruction, which must be an operator which supports this flag.
void	setHasAllowReciprocal (bool B)
	Set or clear the allow-reciprocal flag on this instruction, which must be an operator which supports this flag.
void	setHasAllowContract (bool B)
	Set or clear the allow-contract flag on this instruction, which must be an operator which supports this flag.
void	setHasApproxFunc (bool B)
	Set or clear the approximate-math-functions flag on this instruction, which must be an operator which supports this flag.
void	setFastMathFlags (FastMathFlags FMF)
	Convenience function for setting multiple fast-math flags on this instruction, which must be an operator which supports these flags.
void	copyFastMathFlags (FastMathFlags FMF)
	Convenience function for transferring all fast-math flag values to this instruction, which must be an operator which supports these flags.
bool	isFast () const LLVM_READONLY
	Determine whether all fast-math-flags are set.
bool	hasAllowReassoc () const LLVM_READONLY
	Determine whether the allow-reassociation flag is set.
bool	hasNoNaNs () const LLVM_READONLY
	Determine whether the no-NaNs flag is set.
bool	hasNoInfs () const LLVM_READONLY
	Determine whether the no-infs flag is set.
bool	hasNoSignedZeros () const LLVM_READONLY
	Determine whether the no-signed-zeros flag is set.
bool	hasAllowReciprocal () const LLVM_READONLY
	Determine whether the allow-reciprocal flag is set.
bool	hasAllowContract () const LLVM_READONLY
	Determine whether the allow-contract flag is set.
bool	hasApproxFunc () const LLVM_READONLY
	Determine whether the approximate-math-functions flag is set.
FastMathFlags	getFastMathFlags () const LLVM_READONLY
	Convenience function for getting all the fast-math flags, which must be an operator which supports these flags.
void	copyFastMathFlags (const Instruction *I)
	Copy I's fast-math flags.
void	copyIRFlags (const Value *V, bool IncludeWrapFlags=true)
	Convenience method to copy supported exact, fast-math, and (optionally) wrapping flags from V to this instruction.
void	andIRFlags (const Value *V)
	Logical 'and' of any supported wrapping, exact, and fast-math flags of V and this instruction.
void	applyMergedLocation (DILocation *LocA, DILocation *LocB)
	Merge 2 debug locations and apply it to the Instruction.
void	updateLocationAfterHoist ()
	Updates the debug location given that the instruction has been hoisted from a block to a predecessor of that block.
void	dropLocation ()
	Drop the instruction's debug location.
void	mergeDIAssignID (ArrayRef< const Instruction * > SourceInstructions)
	Merge the DIAssignID metadata from this instruction and those attached to instructions in SourceInstructions.
bool	isAssociative () const LLVM_READONLY
	Return true if the instruction is associative:
bool	isCommutative () const LLVM_READONLY
	Return true if the instruction is commutative:
bool	isIdempotent () const
	Return true if the instruction is idempotent:
bool	isNilpotent () const
	Return true if the instruction is nilpotent:
bool	mayWriteToMemory () const LLVM_READONLY
	Return true if this instruction may modify memory.
bool	mayReadFromMemory () const LLVM_READONLY
	Return true if this instruction may read memory.
bool	mayReadOrWriteMemory () const
	Return true if this instruction may read or write memory.
bool	isAtomic () const LLVM_READONLY
	Return true if this instruction has an AtomicOrdering of unordered or higher.
bool	hasAtomicLoad () const LLVM_READONLY
	Return true if this atomic instruction loads from memory.
bool	hasAtomicStore () const LLVM_READONLY
	Return true if this atomic instruction stores to memory.
bool	isVolatile () const LLVM_READONLY
	Return true if this instruction has a volatile memory access.
Type *	getAccessType () const LLVM_READONLY
	Return the type this instruction accesses in memory, if any.
bool	mayThrow (bool IncludePhaseOneUnwind=false) const LLVM_READONLY
	Return true if this instruction may throw an exception.
bool	isFenceLike () const
	Return true if this instruction behaves like a memory fence: it can load or store to memory location without being given a memory location.
bool	mayHaveSideEffects () const LLVM_READONLY
	Return true if the instruction may have side effects.
bool	isSafeToRemove () const LLVM_READONLY
	Return true if the instruction can be removed if the result is unused.
bool	willReturn () const LLVM_READONLY
	Return true if the instruction will return (unwinding is considered as a form of returning control flow here).
bool	isEHPad () const
	Return true if the instruction is a variety of EH-block.
bool	isLifetimeStartOrEnd () const LLVM_READONLY
	Return true if the instruction is a llvm.lifetime.start or llvm.lifetime.end marker.
bool	isLaunderOrStripInvariantGroup () const LLVM_READONLY
	Return true if the instruction is a llvm.launder.invariant.group or llvm.strip.invariant.group.
bool	isDebugOrPseudoInst () const LLVM_READONLY
	Return true if the instruction is a DbgInfoIntrinsic or PseudoProbeInst.
const Instruction *	getNextNonDebugInstruction (bool SkipPseudoOp=false) const
	Return a pointer to the next non-debug instruction in the same basic block as 'this', or nullptr if no such instruction exists.
Instruction *	getNextNonDebugInstruction (bool SkipPseudoOp=false)
const Instruction *	getPrevNonDebugInstruction (bool SkipPseudoOp=false) const
	Return a pointer to the previous non-debug instruction in the same basic block as 'this', or nullptr if no such instruction exists.
Instruction *	getPrevNonDebugInstruction (bool SkipPseudoOp=false)
Instruction *	clone () const
	Create a copy of 'this' instruction that is identical in all ways except the following:
bool	isIdenticalTo (const Instruction *I) const LLVM_READONLY
	Return true if the specified instruction is exactly identical to the current one.
bool	isIdenticalToWhenDefined (const Instruction *I) const LLVM_READONLY
	This is like isIdenticalTo, except that it ignores the SubclassOptionalData flags, which may specify conditions under which the instruction's result is undefined.
bool	isSameOperationAs (const Instruction *I, unsigned flags=0) const LLVM_READONLY
	This function determines if the specified instruction executes the same operation as the current one.
bool	hasSameSpecialState (const Instruction *I2, bool IgnoreAlignment=false) const LLVM_READONLY
	This function determines if the speficied instruction has the same "special" characteristics as the current one.
bool	isUsedOutsideOfBlock (const BasicBlock *BB) const LLVM_READONLY
	Return true if there are any uses of this instruction in blocks other than the specified block.
unsigned	getNumSuccessors () const LLVM_READONLY
	Return the number of successors that this instruction has.
BasicBlock *	getSuccessor (unsigned Idx) const LLVM_READONLY
	Return the specified successor. This instruction must be a terminator.
void	setSuccessor (unsigned Idx, BasicBlock *BB)
	Update the specified successor to point at the provided block.
void	replaceSuccessorWith (BasicBlock *OldBB, BasicBlock *NewBB)
	Replace specified successor OldBB to point at the provided block.
void	dropUnknownNonDebugMetadata (ArrayRef< unsigned > KnownIDs=std::nullopt)
	Drop all unknown metadata except for debug locations.
Public Member Functions inherited from llvm::User
	User (const User &)=delete
void	operator delete (void *Usr)
	Free memory allocated for User and Use objects.
void	operator delete (void *Usr, unsigned)
	Placement delete - required by std, called if the ctor throws.
void	operator delete (void *Usr, unsigned, unsigned)
	Placement delete - required by std, called if the ctor throws.
const Use *	getOperandList () const
Use *	getOperandList ()
Value *	getOperand (unsigned i) const
void	setOperand (unsigned i, Value *Val)
const Use &	getOperandUse (unsigned i) const
Use &	getOperandUse (unsigned i)
unsigned	getNumOperands () const
ArrayRef< const uint8_t >	getDescriptor () const
	Returns the descriptor co-allocated with this User instance.
MutableArrayRef< uint8_t >	getDescriptor ()
	Returns the descriptor co-allocated with this User instance.
void	setGlobalVariableNumOperands (unsigned NumOps)
	Set the number of operands on a GlobalVariable.
void	setNumHungOffUseOperands (unsigned NumOps)
	Subclasses with hung off uses need to manage the operand count themselves.
bool	isDroppable () const
	A droppable user is a user for which uses can be dropped without affecting correctness and should be dropped rather than preventing a transformation from happening.
op_iterator	op_begin ()
const_op_iterator	op_begin () const
op_iterator	op_end ()
const_op_iterator	op_end () const
op_range	operands ()
const_op_range	operands () const
value_op_iterator	value_op_begin ()
value_op_iterator	value_op_end ()
iterator_range< value_op_iterator >	operand_values ()
const_value_op_iterator	value_op_begin () const
const_value_op_iterator	value_op_end () const
iterator_range< const_value_op_iterator >	operand_values () const
void	dropAllReferences ()
	Drop all references to operands.
bool	replaceUsesOfWith (Value *From, Value *To)
	Replace uses of one Value with another.
Public Member Functions inherited from llvm::Value
	Value (const Value &)=delete
Value &	operator= (const Value &)=delete
void	deleteValue ()
	Delete a pointer to a generic Value.
void	dump () const
	Support for debugging, callable in GDB: V->dump()
Type *	getType () const
	All values are typed, get the type of this value.
LLVMContext &	getContext () const
	All values hold a context through their type.
bool	hasName () const
ValueName *	getValueName () const
void	setValueName (ValueName *VN)
StringRef	getName () const
	Return a constant reference to the value's name.
void	setName (const Twine &Name)
	Change the name of the value.
void	takeName (Value *V)
	Transfer the name from V to this value.
std::string	getNameOrAsOperand () const
void	replaceAllUsesWith (Value *V)
	Change all uses of this to point to a new Value.
void	replaceNonMetadataUsesWith (Value *V)
	Change non-metadata uses of this to point to a new Value.
void	replaceUsesWithIf (Value *New, llvm::function_ref< bool(Use &U)> ShouldReplace)
	Go through the uses list for this definition and make each use point to "V" if the callback ShouldReplace returns true for the given Use.
void	replaceUsesOutsideBlock (Value *V, BasicBlock *BB)
	replaceUsesOutsideBlock - Go through the uses list for this definition and make each use point to "V" instead of "this" when the use is outside the block.
void	assertModuleIsMaterializedImpl () const
void	assertModuleIsMaterialized () const
bool	use_empty () const
bool	materialized_use_empty () const
use_iterator	materialized_use_begin ()
const_use_iterator	materialized_use_begin () const
use_iterator	use_begin ()
const_use_iterator	use_begin () const
use_iterator	use_end ()
const_use_iterator	use_end () const
iterator_range< use_iterator >	materialized_uses ()
iterator_range< const_use_iterator >	materialized_uses () const
iterator_range< use_iterator >	uses ()
iterator_range< const_use_iterator >	uses () const
bool	user_empty () const
user_iterator	materialized_user_begin ()
const_user_iterator	materialized_user_begin () const
user_iterator	user_begin ()
const_user_iterator	user_begin () const
user_iterator	user_end ()
const_user_iterator	user_end () const
User *	user_back ()
const User *	user_back () const
iterator_range< user_iterator >	materialized_users ()
iterator_range< const_user_iterator >	materialized_users () const
iterator_range< user_iterator >	users ()
iterator_range< const_user_iterator >	users () const
bool	hasOneUse () const
	Return true if there is exactly one use of this value.
bool	hasNUses (unsigned N) const
	Return true if this Value has exactly N uses.
bool	hasNUsesOrMore (unsigned N) const
	Return true if this value has N uses or more.
bool	hasOneUser () const
	Return true if there is exactly one user of this value.
Use *	getSingleUndroppableUse ()
	Return true if there is exactly one use of this value that cannot be dropped.
const Use *	getSingleUndroppableUse () const
User *	getUniqueUndroppableUser ()
	Return true if there is exactly one unique user of this value that cannot be dropped (that user can have multiple uses of this value).
const User *	getUniqueUndroppableUser () const
bool	hasNUndroppableUses (unsigned N) const
	Return true if there this value.
bool	hasNUndroppableUsesOrMore (unsigned N) const
	Return true if this value has N uses or more.
void	dropDroppableUses (llvm::function_ref< bool(const Use *)> ShouldDrop=[](const Use *) { return true;})
	Remove every uses that can safely be removed.
void	dropDroppableUsesIn (User &Usr)
	Remove every use of this value in User that can safely be removed.
bool	isUsedInBasicBlock (const BasicBlock *BB) const
	Check if this value is used in the specified basic block.
unsigned	getNumUses () const
	This method computes the number of uses of this Value.
void	addUse (Use &U)
	This method should only be used by the Use class.
unsigned	getValueID () const
	Return an ID for the concrete type of this object.
unsigned	getRawSubclassOptionalData () const
	Return the raw optional flags value contained in this value.
void	clearSubclassOptionalData ()
	Clear the optional flags contained in this value.
bool	hasSameSubclassOptionalData (const Value *V) const
	Check the optional flags for equality.
bool	hasValueHandle () const
	Return true if there is a value handle associated with this value.
bool	isUsedByMetadata () const
	Return true if there is metadata referencing this value.
bool	isSwiftError () const
	Return true if this value is a swifterror value.
const Value *	stripPointerCasts () const
	Strip off pointer casts, all-zero GEPs and address space casts.
Value *	stripPointerCasts ()
const Value *	stripPointerCastsAndAliases () const
	Strip off pointer casts, all-zero GEPs, address space casts, and aliases.
Value *	stripPointerCastsAndAliases ()
const Value *	stripPointerCastsSameRepresentation () const
	Strip off pointer casts, all-zero GEPs and address space casts but ensures the representation of the result stays the same.
Value *	stripPointerCastsSameRepresentation ()
const Value *	stripPointerCastsForAliasAnalysis () const
	Strip off pointer casts, all-zero GEPs, single-argument phi nodes and invariant group info.
Value *	stripPointerCastsForAliasAnalysis ()
const Value *	stripInBoundsConstantOffsets () const
	Strip off pointer casts and all-constant inbounds GEPs.
Value *	stripInBoundsConstantOffsets ()
const Value *	stripAndAccumulateConstantOffsets (const DataLayout &DL, APInt &Offset, bool AllowNonInbounds, bool AllowInvariantGroup=false, function_ref< bool(Value &Value, APInt &Offset)> ExternalAnalysis=nullptr) const
	Accumulate the constant offset this value has compared to a base pointer.
Value *	stripAndAccumulateConstantOffsets (const DataLayout &DL, APInt &Offset, bool AllowNonInbounds, bool AllowInvariantGroup=false)
const Value *	stripAndAccumulateInBoundsConstantOffsets (const DataLayout &DL, APInt &Offset) const
	This is a wrapper around stripAndAccumulateConstantOffsets with the in-bounds requirement set to false.
Value *	stripAndAccumulateInBoundsConstantOffsets (const DataLayout &DL, APInt &Offset)
const Value *	stripInBoundsOffsets (function_ref< void(const Value *)> Func=[](const Value *) {}) const
	Strip off pointer casts and inbounds GEPs.
Value *	stripInBoundsOffsets (function_ref< void(const Value *)> Func=[](const Value *) {})
std::optional< int64_t >	getPointerOffsetFrom (const Value *Other, const DataLayout &DL) const
	If this ptr is provably equal to Other plus a constant offset, return that offset in bytes.
bool	canBeFreed () const
	Return true if the memory object referred to by V can by freed in the scope for which the SSA value defining the allocation is statically defined.
uint64_t	getPointerDereferenceableBytes (const DataLayout &DL, bool &CanBeNull, bool &CanBeFreed) const
	Returns the number of bytes known to be dereferenceable for the pointer value.
Align	getPointerAlignment (const DataLayout &DL) const
	Returns an alignment of the pointer value.
const Value *	DoPHITranslation (const BasicBlock *CurBB, const BasicBlock *PredBB) const
	Translate PHI node to its predecessor from the given basic block.
Value *	DoPHITranslation (const BasicBlock *CurBB, const BasicBlock *PredBB)
void	mutateType (Type *Ty)
	Mutate the type of this Value to be of the specified type.
template<class Compare >
void	sortUseList (Compare Cmp)
	Sort the use-list.
void	reverseUseList ()
	Reverse the use-list.
void	print (raw_ostream &O, bool IsForDebug=false) const
	Implement operator<< on Value.
void	print (raw_ostream &O, ModuleSlotTracker &MST, bool IsForDebug=false) const
void	printAsOperand (raw_ostream &O, bool PrintType=true, const Module *M=nullptr) const
	Print the name of this Value out to the specified raw_ostream.
void	printAsOperand (raw_ostream &O, bool PrintType, ModuleSlotTracker &MST) const
Public Member Functions inherited from llvm::ilist_node_with_parent< Instruction, BasicBlock, ilist_iterator_bits< true >, ilist_parent< BasicBlock > >
Instruction *	getPrevNode ()
const Instruction *	getPrevNode () const
	Get the previous node, or nullptr for the list head.
Instruction *	getNextNode ()
	Get the next node, or nullptr for the list tail.
const Instruction *	getNextNode () const
	Get the next node, or nullptr for the list tail.
Public Member Functions inherited from llvm::ilist_node_impl< ilist_detail::compute_node_options< T, Options... >::type >
self_iterator	getIterator ()
const_self_iterator	getIterator () const
reverse_self_iterator	getReverseIterator ()
const_reverse_self_iterator	getReverseIterator () const
bool	isSentinel () const
	Check whether this is the sentinel node.
Public Member Functions inherited from llvm::ilist_detail::node_parent_access< NodeTy, ParentTy >
const ParentTy *	getParent () const
ParentTy *	getParent ()
void	setParent (ParentTy *Parent)

Static Public Member Functions
Casting methods
static bool	classof (const IntrinsicInst *I)
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::DbgVariableIntrinsic
static bool	classof (const IntrinsicInst *I)
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::DbgInfoIntrinsic
static bool	classof (const IntrinsicInst *I)
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::IntrinsicInst
static bool	mayLowerToFunctionCall (Intrinsic::ID IID)
	Check if the intrinsic might lower into a regular function call in the course of IR transformations.
static bool	classof (const CallInst *I)
	Methods for support type inquiry through isa, cast, and dyn_cast:
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::CallInst
static CallInst *	Create (FunctionType *Ty, Value *F, const Twine &NameStr="", InsertPosition InsertBefore=nullptr)
static CallInst *	Create (FunctionType *Ty, Value *Func, ArrayRef< Value * > Args, const Twine &NameStr, InsertPosition InsertBefore=nullptr)
static CallInst *	Create (FunctionType *Ty, Value *Func, ArrayRef< Value * > Args, ArrayRef< OperandBundleDef > Bundles=std::nullopt, const Twine &NameStr="", InsertPosition InsertBefore=nullptr)
static CallInst *	Create (FunctionCallee Func, const Twine &NameStr="", InsertPosition InsertBefore=nullptr)
static CallInst *	Create (FunctionCallee Func, ArrayRef< Value * > Args, ArrayRef< OperandBundleDef > Bundles=std::nullopt, const Twine &NameStr="", InsertPosition InsertBefore=nullptr)
static CallInst *	Create (FunctionCallee Func, ArrayRef< Value * > Args, const Twine &NameStr, InsertPosition InsertBefore=nullptr)
static CallInst *	Create (CallInst *CI, ArrayRef< OperandBundleDef > Bundles, InsertPosition InsertPt=nullptr)
	Create a clone of CI with a different set of operand bundles and insert it before InsertBefore.
static bool	classof (const Instruction *I)
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::CallBase
static CallBase *	Create (CallBase *CB, ArrayRef< OperandBundleDef > Bundles, InsertPosition InsertPt=nullptr)
	Create a clone of CB with a different set of operand bundles and insert it before InsertPt.
static CallBase *	Create (CallBase *CB, OperandBundleDef Bundle, InsertPosition InsertPt=nullptr)
	Create a clone of CB with the operand bundle with the tag matching Bundle's tag replaced with Bundle, and insert it before InsertPt.
static CallBase *	addOperandBundle (CallBase *CB, uint32_t ID, OperandBundleDef OB, InsertPosition InsertPt=nullptr)
	Create a clone of CB with operand bundle OB added.
static CallBase *	removeOperandBundle (CallBase *CB, uint32_t ID, InsertPosition InsertPt=nullptr)
	Create a clone of CB with operand bundle ID removed.
static bool	classof (const Instruction *I)
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::Instruction
static const char *	getOpcodeName (unsigned Opcode)
static bool	isTerminator (unsigned Opcode)
static bool	isUnaryOp (unsigned Opcode)
static bool	isBinaryOp (unsigned Opcode)
static bool	isIntDivRem (unsigned Opcode)
static bool	isShift (unsigned Opcode)
	Determine if the Opcode is one of the shift instructions.
static bool	isBitwiseLogicOp (unsigned Opcode)
	Determine if the Opcode is and/or/xor.
static bool	isCast (unsigned Opcode)
	Determine if the Opcode is one of the CastInst instructions.
static bool	isFuncletPad (unsigned Opcode)
	Determine if the Opcode is one of the FuncletPadInst instructions.
static bool	isSpecialTerminator (unsigned Opcode)
	Returns true if the Opcode is a "special" terminator that does more than branch to a successor (e.g.
static bool	isAssociative (unsigned Opcode)
static bool	isCommutative (unsigned Opcode)
static bool	isIdempotent (unsigned Opcode)
static bool	isNilpotent (unsigned Opcode)
static bool	classof (const Value *V)
	Methods for support type inquiry through isa, cast, and dyn_cast:
Static Public Member Functions inherited from llvm::User
static bool	classof (const Value *V)
Static Public Member Functions inherited from llvm::Value
static void	dropDroppableUse (Use &U)
	Remove the droppable use U.

Additional Inherited Members
Public Types inherited from llvm::CallInst
enum	TailCallKind : unsigned {   TCK_None = 0 , TCK_Tail = 1 , TCK_MustTail = 2 , TCK_NoTail = 3 ,   TCK_LAST = TCK_NoTail }
using	TailCallKindField = Bitfield::Element< TailCallKind, 0, 2, TCK_LAST >
Public Types inherited from llvm::CallBase
using	bundle_op_iterator = BundleOpInfo *
using	const_bundle_op_iterator = const BundleOpInfo *
Public Types inherited from llvm::Instruction
enum	OperationEquivalenceFlags { CompareIgnoringAlignment = 1<<0 , CompareUsingScalarTypes = 1<<1 }
	When checking for operation equivalence (using isSameOperationAs) it is sometimes useful to ignore certain attributes. More...
enum	TermOps
enum	UnaryOps
enum	BinaryOps
enum	MemoryOps
enum	CastOps
enum	FuncletPadOps
enum	OtherOps
using	InstListType = SymbolTableList< Instruction, ilist_iterator_bits< true >, ilist_parent< BasicBlock > >
Public Types inherited from llvm::User
using	op_iterator = Use *
using	const_op_iterator = const Use *
using	op_range = iterator_range< op_iterator >
using	const_op_range = iterator_range< const_op_iterator >
Public Types inherited from llvm::Value
enum	ValueTy
	Concrete subclass of this. More...
using	use_iterator = use_iterator_impl< Use >
using	const_use_iterator = use_iterator_impl< const Use >
using	user_iterator = user_iterator_impl< User >
using	const_user_iterator = user_iterator_impl< const User >
Public Attributes inherited from llvm::Instruction
DbgMarker *	DebugMarker = nullptr
	Optional marker recording the position for debugging information that takes effect immediately before this instruction.
Static Public Attributes inherited from llvm::Value
static constexpr unsigned	MaxAlignmentExponent = 32
	The maximum alignment for instructions.
static constexpr uint64_t	MaximumAlignment = 1ULL << MaxAlignmentExponent
Protected Types inherited from llvm::CallBase
using	CallInstReservedField = Bitfield::Element< unsigned, 0, 2 >
using	CallingConvField = Bitfield::Element< CallingConv::ID, CallInstReservedField::NextBit, 10, CallingConv::MaxID >
Protected Types inherited from llvm::Instruction
using	OpaqueField = Bitfield::Element< uint16_t, 0, 15 >
template<unsigned Offset>
using	AlignmentBitfieldElementT = typename Bitfield::Element< unsigned, Offset, 6, Value::MaxAlignmentExponent >
template<unsigned Offset>
using	BoolBitfieldElementT = typename Bitfield::Element< bool, Offset, 1 >
template<unsigned Offset>
using	AtomicOrderingBitfieldElementT = typename Bitfield::Element< AtomicOrdering, Offset, 3, AtomicOrdering::LAST >
Protected Types inherited from llvm::Value
enum	: unsigned { NumUserOperandsBits = 27 }
	The number of operands in the subclass. More...
Protected Types inherited from llvm::ilist_node_impl< ilist_detail::compute_node_options< T, Options... >::type >
using	self_iterator = typename ilist_select_iterator_type< OptionsT::has_iterator_bits, ilist_detail::compute_node_options< T, Options... >::type, false, false >::type
using	const_self_iterator = typename ilist_select_iterator_type< OptionsT::has_iterator_bits, ilist_detail::compute_node_options< T, Options... >::type, false, true >::type
using	reverse_self_iterator = typename ilist_select_iterator_type< OptionsT::has_iterator_bits, ilist_detail::compute_node_options< T, Options... >::type, true, false >::type
using	const_reverse_self_iterator = typename ilist_select_iterator_type< OptionsT::has_iterator_bits, ilist_detail::compute_node_options< T, Options... >::type, true, true >::type
Protected Member Functions inherited from llvm::DbgVariableIntrinsic
void	setArgOperand (unsigned i, Value *v)
void	setOperand (unsigned i, Value *v)
Protected Member Functions inherited from llvm::CallInst
CallInst *	cloneImpl () const
Protected Member Functions inherited from llvm::CallBase
template<class... ArgsTy>
	CallBase (AttributeList const &A, FunctionType *FT, ArgsTy &&... Args)
bool	hasDescriptor () const
unsigned	getNumSubclassExtraOperands () const
unsigned	getNumSubclassExtraOperandsDynamic () const
	Get the number of extra operands for instructions that don't have a fixed number of extra operands.
	Instruction (const Instruction &)=delete
	Instruction (Type *Ty, unsigned iType, Use *Ops, unsigned NumOps, InsertPosition InsertBefore=nullptr)
Protected Member Functions inherited from llvm::Instruction
	~Instruction ()
template<typename BitfieldElement >
BitfieldElement::Type	getSubclassData () const
template<typename BitfieldElement >
void	setSubclassData (typename BitfieldElement::Type Value)
	Instruction (Type *Ty, unsigned iType, Use *Ops, unsigned NumOps, InsertPosition InsertBefore=nullptr)
Protected Member Functions inherited from llvm::User
void *	operator new (size_t Size)
	Allocate a User with an operand pointer co-allocated.
void *	operator new (size_t Size, unsigned Us)
	Allocate a User with the operands co-allocated.
void *	operator new (size_t Size, unsigned Us, unsigned DescBytes)
	Allocate a User with the operands co-allocated.
	User (Type *ty, unsigned vty, Use *, unsigned NumOps)
void	allocHungoffUses (unsigned N, bool IsPhi=false)
	Allocate the array of Uses, followed by a pointer (with bottom bit set) to the User.
void	growHungoffUses (unsigned N, bool IsPhi=false)
	Grow the number of hung off uses.
	~User ()=default
template<int Idx>
Use &	Op ()
template<int Idx>
const Use &	Op () const
Protected Member Functions inherited from llvm::Value
	Value (Type *Ty, unsigned scid)
	~Value ()
	Value's destructor should be virtual by design, but that would require that Value and all of its subclasses have a vtable that effectively duplicates the information in the value ID.
void	getAllMetadata (SmallVectorImpl< std::pair< unsigned, MDNode * > > &MDs) const
	Appends all metadata attached to this value to MDs, sorting by KindID.
bool	hasMetadata () const
	Return true if this value has any metadata attached to it.
bool	eraseMetadata (unsigned KindID)
	Erase all metadata attachments with the given kind.
void	eraseMetadataIf (function_ref< bool(unsigned, MDNode *)> Pred)
	Erase all metadata attachments matching the given predicate.
void	clearMetadata ()
	Erase all metadata attached to this Value.
MDNode *	getMetadataImpl (unsigned KindID) const
	Get metadata for the given kind, if any.
unsigned short	getSubclassDataFromValue () const
void	setValueSubclassData (unsigned short D)
MDNode *	getMetadata (unsigned KindID) const
	Get the current metadata attachments for the given kind, if any.
MDNode *	getMetadata (StringRef Kind) const
void	getMetadata (unsigned KindID, SmallVectorImpl< MDNode * > &MDs) const
	Appends all attachments with the given ID to MDs in insertion order.
void	getMetadata (StringRef Kind, SmallVectorImpl< MDNode * > &MDs) const
bool	hasMetadata (unsigned KindID) const
	Return true if this value has the given type of metadata attached.
bool	hasMetadata (StringRef Kind) const
void	setMetadata (unsigned KindID, MDNode *Node)
	Set a particular kind of metadata attachment.
void	setMetadata (StringRef Kind, MDNode *Node)
void	addMetadata (unsigned KindID, MDNode &MD)
	Add a metadata attachment.
void	addMetadata (StringRef Kind, MDNode &MD)
Protected Member Functions inherited from llvm::ilist_node_with_parent< Instruction, BasicBlock, ilist_iterator_bits< true >, ilist_parent< BasicBlock > >
	ilist_node_with_parent ()=default
Protected Member Functions inherited from llvm::ilist_node_impl< ilist_detail::compute_node_options< T, Options... >::type >
	ilist_node_impl ()=default
Static Protected Member Functions inherited from llvm::CallBase
static unsigned	CountBundleInputs (ArrayRef< OperandBundleDef > Bundles)
	Return the total number of values used in Bundles.
Static Protected Member Functions inherited from llvm::User
template<int Idx, typename U >
static Use &	OpFrom (const U *that)
Protected Attributes inherited from llvm::CallBase
AttributeList	Attrs
	parameter attributes for callable
FunctionType *	FTy
Protected Attributes inherited from llvm::Value
unsigned char	SubclassOptionalData: 7
	Hold subclass data that can be dropped.
unsigned	NumUserOperands: NumUserOperandsBits
unsigned	IsUsedByMD: 1
unsigned	HasName: 1
unsigned	HasMetadata: 1
unsigned	HasHungOffUses: 1
unsigned	HasDescriptor: 1
Static Protected Attributes inherited from llvm::CallBase
static constexpr int	CalledOperandOpEndIdx = -1
	The last operand is the called operand.

Detailed Description

This represents the llvm.dbg.value instruction.

Definition at line 460 of file IntrinsicInst.h.

Member Function Documentation

classof() [1/2]

static bool llvm::DbgValueInst::classof ( const IntrinsicInst *  I )

inlinestatic

Definition at line 473 of file IntrinsicInst.h.

References I.

Referenced by classof().

classof() [2/2]

static bool llvm::DbgValueInst::classof ( const Value *  V )

inlinestatic

Definition at line 477 of file IntrinsicInst.h.

References classof().

getValue()

Value * llvm::DbgValueInst::getValue ( unsigned  OpIdx = 0 ) const

inline

Definition at line 464 of file IntrinsicInst.h.

References llvm::DbgVariableIntrinsic::getVariableLocationOp().

Referenced by insertNewDbgInst(), and llvm::FastISel::selectIntrinsicCall().

getValues()

iterator_range< location_op_iterator > llvm::DbgValueInst::getValues ( ) const

inline

Definition at line 467 of file IntrinsicInst.h.

References llvm::DbgVariableIntrinsic::location_ops().

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The documentation for this class was generated from the following file:

• include/llvm/IR/IntrinsicInst.h