doxygen/IRSymtab_8cpp_source.html

//===- IRSymtab.cpp - implementation of IR symbol tables ------------------===//

//

// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.

// See https://llvm.org/LICENSE.txt for license information.

// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception

//

//===----------------------------------------------------------------------===//


#include "llvm/Object/IRSymtab.h"

#include "llvm/ADT/ArrayRef.h"

#include "llvm/ADT/DenseMap.h"

#include "llvm/ADT/SmallPtrSet.h"

#include "llvm/ADT/SmallString.h"

#include "llvm/ADT/SmallVector.h"

#include "llvm/ADT/StringRef.h"

#include "llvm/Bitcode/BitcodeReader.h"

#include "llvm/Config/llvm-config.h"

#include "llvm/IR/Comdat.h"

#include "llvm/IR/DataLayout.h"

#include "llvm/IR/GlobalAlias.h"

#include "llvm/IR/GlobalObject.h"

#include "llvm/IR/Mangler.h"

#include "llvm/IR/Metadata.h"

#include "llvm/IR/Module.h"

#include "llvm/MC/StringTableBuilder.h"

#include "llvm/Object/ModuleSymbolTable.h"

#include "llvm/Object/SymbolicFile.h"

#include "llvm/Support/Allocator.h"

#include "llvm/Support/Casting.h"

#include "llvm/Support/CommandLine.h"

#include "llvm/Support/Error.h"

#include "llvm/Support/StringSaver.h"

#include "llvm/Support/VCSRevision.h"

#include "llvm/Support/raw_ostream.h"

#include "llvm/TargetParser/Triple.h"

#include <cassert>

#include <string>

#include <utility>

#include <vector>


using namespace llvm;

using namespace irsymtab;


static cl::opt<bool> DisableBitcodeVersionUpgrade(

    "disable-bitcode-version-upgrade", cl::Hidden,

    cl::desc("Disable automatic bitcode upgrade for version mismatch"));


static const char *PreservedSymbols[] = {

#define HANDLE_LIBCALL(code, name) name,

#include "llvm/IR/RuntimeLibcalls.def"

#undef HANDLE_LIBCALL

    // There are global variables, so put it here instead of in

    // RuntimeLibcalls.def.

    // TODO: Are there similar such variables?

    "__ssp_canary_word",

    "__stack_chk_guard",

};


namespace {


const char *getExpectedProducerName() {

  static char DefaultName[] = LLVM_VERSION_STRING

#ifdef LLVM_REVISION

      " " LLVM_REVISION

#endif

      ;

  // Allows for testing of the irsymtab writer and upgrade mechanism. This

  // environment variable should not be set by users.

  if (char *OverrideName = getenv("LLVM_OVERRIDE_PRODUCER"))

    return OverrideName;

  return DefaultName;

}


const char *kExpectedProducerName = getExpectedProducerName();


/// Stores the temporary state that is required to build an IR symbol table.

struct Builder {

  SmallVector<char, 0> &Symtab;

  StringTableBuilder &StrtabBuilder;

  StringSaver Saver;


  // This ctor initializes a StringSaver using the passed in BumpPtrAllocator.

  // The StringTableBuilder does not create a copy of any strings added to it,

  // so this provides somewhere to store any strings that we create.

  Builder(SmallVector<char, 0> &Symtab, StringTableBuilder &StrtabBuilder,

          BumpPtrAllocator &Alloc)

      : Symtab(Symtab), StrtabBuilder(StrtabBuilder), Saver(Alloc) {}


  DenseMap<const Comdat *, int> ComdatMap;

  Mangler Mang;

  Triple TT;


  std::vector<storage::Comdat> Comdats;

  std::vector<storage::Module> Mods;

  std::vector<storage::Symbol> Syms;

  std::vector<storage::Uncommon> Uncommons;


  std::string COFFLinkerOpts;

  raw_string_ostream COFFLinkerOptsOS{COFFLinkerOpts};


  std::vector<storage::Str> DependentLibraries;


  void setStr(storage::Str &S, StringRef Value) {

    S.Offset = StrtabBuilder.add(Value);

    S.Size = Value.size();

  }


  template <typename T>

  void writeRange(storage::Range<T> &R, const std::vector<T> &Objs) {

    R.Offset = Symtab.size();

    R.Size = Objs.size();

    Symtab.insert(Symtab.end(), reinterpret_cast<const char *>(Objs.data()),

                  reinterpret_cast<const char *>(Objs.data() + Objs.size()));

  }


  Expected<int> getComdatIndex(const Comdat *C, const Module *M);


  Error addModule(Module *M);

  Error addSymbol(const ModuleSymbolTable &Msymtab,

                  const SmallPtrSet<GlobalValue *, 4> &Used,

                  ModuleSymbolTable::Symbol Sym);


  Error build(ArrayRef<Module *> Mods);

};


Error Builder::addModule(Module *M) {

  if (M->getDataLayoutStr().empty())

    return make_error<StringError>("input module has no datalayout",

                                   inconvertibleErrorCode());


  // Symbols in the llvm.used list will get the FB_Used bit and will not be

  // internalized. We do this for llvm.compiler.used as well:

  //

  // IR symbol table tracks module-level asm symbol references but not inline

  // asm. A symbol only referenced by inline asm is not in the IR symbol table,

  // so we may not know that the definition (in another translation unit) is

  // referenced. That definition may have __attribute__((used)) (which lowers to

  // llvm.compiler.used on ELF targets) to communicate to the compiler that it

  // may be used by inline asm. The usage is perfectly fine, so we treat

  // llvm.compiler.used conservatively as llvm.used to work around our own

  // limitation.

  SmallVector<GlobalValue *, 4> UsedV;

  collectUsedGlobalVariables(*M, UsedV, /*CompilerUsed=*/false);

  collectUsedGlobalVariables(*M, UsedV, /*CompilerUsed=*/true);

  SmallPtrSet<GlobalValue *, 4> Used(UsedV.begin(), UsedV.end());


  ModuleSymbolTable Msymtab;

  Msymtab.addModule(M);


  storage::Module Mod;

  Mod.Begin = Syms.size();

  Mod.End = Syms.size() + Msymtab.symbols().size();

  Mod.UncBegin = Uncommons.size();

  Mods.push_back(Mod);


  if (TT.isOSBinFormatCOFF()) {

    if (auto E = M->materializeMetadata())

      return E;

    if (NamedMDNode *LinkerOptions =

            M->getNamedMetadata("llvm.linker.options")) {

      for (MDNode *MDOptions : LinkerOptions->operands())

        for (const MDOperand &MDOption : cast<MDNode>(MDOptions)->operands())

          COFFLinkerOptsOS << " " << cast<MDString>(MDOption)->getString();

    }

  }


  if (TT.isOSBinFormatELF()) {

    if (auto E = M->materializeMetadata())

      return E;

    if (NamedMDNode *N = M->getNamedMetadata("llvm.dependent-libraries")) {

      for (MDNode *MDOptions : N->operands()) {

        const auto OperandStr =

            cast<MDString>(cast<MDNode>(MDOptions)->getOperand(0))->getString();

        storage::Str Specifier;

        setStr(Specifier, OperandStr);

        DependentLibraries.emplace_back(Specifier);

      }

    }

  }


  for (ModuleSymbolTable::Symbol Msym : Msymtab.symbols())

    if (Error Err = addSymbol(Msymtab, Used, Msym))

      return Err;


  return Error::success();

}


Expected<int> Builder::getComdatIndex(const Comdat *C, const Module *M) {

  auto P = ComdatMap.insert(std::make_pair(C, Comdats.size()));

  if (P.second) {

    std::string Name;

    if (TT.isOSBinFormatCOFF()) {

      const GlobalValue *GV = M->getNamedValue(C->getName());

      if (!GV)

        return make_error<StringError>("Could not find leader",

                                       inconvertibleErrorCode());

      // Internal leaders do not affect symbol resolution, therefore they do not

      // appear in the symbol table.

      if (GV->hasLocalLinkage()) {

        P.first->second = -1;

        return -1;

      }

      llvm::raw_string_ostream OS(Name);

      Mang.getNameWithPrefix(OS, GV, false);

    } else {

      Name = std::string(C->getName());

    }


    storage::Comdat Comdat;

    setStr(Comdat.Name, Saver.save(Name));

    Comdat.SelectionKind = C->getSelectionKind();

    Comdats.push_back(Comdat);

  }


  return P.first->second;

}


static DenseSet<StringRef> buildPreservedSymbolsSet() {

  return DenseSet<StringRef>(std::begin(PreservedSymbols),

                             std::end(PreservedSymbols));

}


Error Builder::addSymbol(const ModuleSymbolTable &Msymtab,

                         const SmallPtrSet<GlobalValue *, 4> &Used,

                         ModuleSymbolTable::Symbol Msym) {

  Syms.emplace_back();

  storage::Symbol &Sym = Syms.back();

  Sym = {};


  storage::Uncommon *Unc = nullptr;

  auto Uncommon = [&]() -> storage::Uncommon & {

    if (Unc)

      return *Unc;

    Sym.Flags |= 1 << storage::Symbol::FB_has_uncommon;

    Uncommons.emplace_back();

    Unc = &Uncommons.back();

    *Unc = {};

    setStr(Unc->COFFWeakExternFallbackName, "");

    setStr(Unc->SectionName, "");

    return *Unc;

  };


  SmallString<64> Name;

  {

    raw_svector_ostream OS(Name);

    Msymtab.printSymbolName(OS, Msym);

  }

  setStr(Sym.Name, Saver.save(Name.str()));


  auto Flags = Msymtab.getSymbolFlags(Msym);

  if (Flags & object::BasicSymbolRef::SF_Undefined)

    Sym.Flags |= 1 << storage::Symbol::FB_undefined;

  if (Flags & object::BasicSymbolRef::SF_Weak)

    Sym.Flags |= 1 << storage::Symbol::FB_weak;

  if (Flags & object::BasicSymbolRef::SF_Common)

    Sym.Flags |= 1 << storage::Symbol::FB_common;

  if (Flags & object::BasicSymbolRef::SF_Indirect)

    Sym.Flags |= 1 << storage::Symbol::FB_indirect;

  if (Flags & object::BasicSymbolRef::SF_Global)

    Sym.Flags |= 1 << storage::Symbol::FB_global;

  if (Flags & object::BasicSymbolRef::SF_FormatSpecific)

    Sym.Flags |= 1 << storage::Symbol::FB_format_specific;

  if (Flags & object::BasicSymbolRef::SF_Executable)

    Sym.Flags |= 1 << storage::Symbol::FB_executable;


  Sym.ComdatIndex = -1;

  auto *GV = dyn_cast_if_present<GlobalValue *>(Msym);

  if (!GV) {

    // Undefined module asm symbols act as GC roots and are implicitly used.

    if (Flags & object::BasicSymbolRef::SF_Undefined)

      Sym.Flags |= 1 << storage::Symbol::FB_used;

    setStr(Sym.IRName, "");

    return Error::success();

  }


  setStr(Sym.IRName, GV->getName());


  static const DenseSet<StringRef> PreservedSymbolsSet =

      buildPreservedSymbolsSet();

  bool IsPreservedSymbol = PreservedSymbolsSet.contains(GV->getName());


  if (Used.count(GV) || IsPreservedSymbol)

    Sym.Flags |= 1 << storage::Symbol::FB_used;

  if (GV->isThreadLocal())

    Sym.Flags |= 1 << storage::Symbol::FB_tls;

  if (GV->hasGlobalUnnamedAddr())

    Sym.Flags |= 1 << storage::Symbol::FB_unnamed_addr;

  if (GV->canBeOmittedFromSymbolTable())

    Sym.Flags |= 1 << storage::Symbol::FB_may_omit;

  Sym.Flags |= unsigned(GV->getVisibility()) << storage::Symbol::FB_visibility;


  if (Flags & object::BasicSymbolRef::SF_Common) {

    auto *GVar = dyn_cast<GlobalVariable>(GV);

    if (!GVar)

      return make_error<StringError>("Only variables can have common linkage!",

                                     inconvertibleErrorCode());

    Uncommon().CommonSize =

        GV->getParent()->getDataLayout().getTypeAllocSize(GV->getValueType());

    Uncommon().CommonAlign = GVar->getAlign() ? GVar->getAlign()->value() : 0;

  }


  const GlobalObject *GO = GV->getAliaseeObject();

  if (!GO) {

    if (isa<GlobalIFunc>(GV))

      GO = cast<GlobalIFunc>(GV)->getResolverFunction();

    if (!GO)

      return make_error<StringError>("Unable to determine comdat of alias!",

                                     inconvertibleErrorCode());

  }

  if (const Comdat *C = GO->getComdat()) {

    Expected<int> ComdatIndexOrErr = getComdatIndex(C, GV->getParent());

    if (!ComdatIndexOrErr)

      return ComdatIndexOrErr.takeError();

    Sym.ComdatIndex = *ComdatIndexOrErr;

  }


  if (TT.isOSBinFormatCOFF()) {

    emitLinkerFlagsForGlobalCOFF(COFFLinkerOptsOS, GV, TT, Mang);


    if ((Flags & object::BasicSymbolRef::SF_Weak) &&

        (Flags & object::BasicSymbolRef::SF_Indirect)) {

      auto *Fallback = dyn_cast<GlobalValue>(

          cast<GlobalAlias>(GV)->getAliasee()->stripPointerCasts());

      if (!Fallback)

        return make_error<StringError>("Invalid weak external",

                                       inconvertibleErrorCode());

      std::string FallbackName;

      raw_string_ostream OS(FallbackName);

      Msymtab.printSymbolName(OS, Fallback);

      OS.flush();

      setStr(Uncommon().COFFWeakExternFallbackName, Saver.save(FallbackName));

    }

  }


  if (!GO->getSection().empty())

    setStr(Uncommon().SectionName, Saver.save(GO->getSection()));


  return Error::success();

}


Error Builder::build(ArrayRef<Module *> IRMods) {

  storage::Header Hdr;


  assert(!IRMods.empty());

  Hdr.Version = storage::Header::kCurrentVersion;

  setStr(Hdr.Producer, kExpectedProducerName);

  setStr(Hdr.TargetTriple, IRMods[0]->getTargetTriple());

  setStr(Hdr.SourceFileName, IRMods[0]->getSourceFileName());

  TT = Triple(IRMods[0]->getTargetTriple());


  for (auto *M : IRMods)

    if (Error Err = addModule(M))

      return Err;


  COFFLinkerOptsOS.flush();

  setStr(Hdr.COFFLinkerOpts, Saver.save(COFFLinkerOpts));


  // We are about to fill in the header's range fields, so reserve space for it

  // and copy it in afterwards.

  Symtab.resize(sizeof(storage::Header));

  writeRange(Hdr.Modules, Mods);

  writeRange(Hdr.Comdats, Comdats);

  writeRange(Hdr.Symbols, Syms);

  writeRange(Hdr.Uncommons, Uncommons);

  writeRange(Hdr.DependentLibraries, DependentLibraries);

  *reinterpret_cast<storage::Header *>(Symtab.data()) = Hdr;

  return Error::success();

}


} // end anonymous namespace


Error irsymtab::build(ArrayRef<Module *> Mods, SmallVector<char, 0> &Symtab,

                      StringTableBuilder &StrtabBuilder,

                      BumpPtrAllocator &Alloc) {

  return Builder(Symtab, StrtabBuilder, Alloc).build(Mods);

}


// Upgrade a vector of bitcode modules created by an old version of LLVM by

// creating an irsymtab for them in the current format.

static Expected<FileContents> upgrade(ArrayRef<BitcodeModule> BMs) {

  FileContents FC;


  LLVMContext Ctx;

  std::vector<Module *> Mods;

  std::vector<std::unique_ptr<Module>> OwnedMods;

  for (auto BM : BMs) {

    Expected<std::unique_ptr<Module>> MOrErr =

        BM.getLazyModule(Ctx, /*ShouldLazyLoadMetadata*/ true,

                         /*IsImporting*/ false);

    if (!MOrErr)

      return MOrErr.takeError();


    Mods.push_back(MOrErr->get());

    OwnedMods.push_back(std::move(*MOrErr));

  }


  StringTableBuilder StrtabBuilder(StringTableBuilder::RAW);

  BumpPtrAllocator Alloc;

  if (Error E = build(Mods, FC.Symtab, StrtabBuilder, Alloc))

    return std::move(E);


  StrtabBuilder.finalizeInOrder();

  FC.Strtab.resize(StrtabBuilder.getSize());

  StrtabBuilder.write((uint8_t *)FC.Strtab.data());


  FC.TheReader = {{FC.Symtab.data(), FC.Symtab.size()},

                  {FC.Strtab.data(), FC.Strtab.size()}};

  return std::move(FC);

}


Expected<FileContents> irsymtab::readBitcode(const BitcodeFileContents &BFC) {

  if (BFC.Mods.empty())

    return make_error<StringError>("Bitcode file does not contain any modules",

                                   inconvertibleErrorCode());


  if (!DisableBitcodeVersionUpgrade) {

    if (BFC.StrtabForSymtab.empty() ||

        BFC.Symtab.size() < sizeof(storage::Header))

      return upgrade(BFC.Mods);


    // We cannot use the regular reader to read the version and producer,

    // because it will expect the header to be in the current format. The only

    // thing we can rely on is that the version and producer will be present as

    // the first struct elements.

    auto *Hdr = reinterpret_cast<const storage::Header *>(BFC.Symtab.data());

    unsigned Version = Hdr->Version;

    StringRef Producer = Hdr->Producer.get(BFC.StrtabForSymtab);

    if (Version != storage::Header::kCurrentVersion ||

        Producer != kExpectedProducerName)

      return upgrade(BFC.Mods);

  }


  FileContents FC;

  FC.TheReader = {{BFC.Symtab.data(), BFC.Symtab.size()},

                  {BFC.StrtabForSymtab.data(), BFC.StrtabForSymtab.size()}};


  // Finally, make sure that the number of modules in the symbol table matches

  // the number of modules in the bitcode file. If they differ, it may mean that

  // the bitcode file was created by binary concatenation, so we need to create

  // a new symbol table from scratch.

  if (FC.TheReader.getNumModules() != BFC.Mods.size())

    return upgrade(std::move(BFC.Mods));


  return std::move(FC);

}

Allocator.h
This file defines the BumpPtrAllocator interface.

ArrayRef.h

Builder
assume Assume Builder
Definition: AssumeBundleBuilder.cpp:623

BitcodeReader.h

E
static GCRegistry::Add< CoreCLRGC > E("coreclr", "CoreCLR-compatible GC")

Casting.h

CommandLine.h

DataLayout.h

DenseMap.h
This file defines the DenseMap class.

Name
std::string Name
Definition: ELFObjHandler.cpp:77

addSymbol
static void addSymbol(Object &Obj, const NewSymbolInfo &SymInfo, uint8_t DefaultVisibility)
Definition: ELFObjcopy.cpp:547

Sym
Symbol * Sym
Definition: ELF_riscv.cpp:468

GlobalAlias.h

GlobalObject.h

PreservedSymbols
static const char * PreservedSymbols[]
Definition: IRSymtab.cpp:48

DisableBitcodeVersionUpgrade
static cl::opt< bool > DisableBitcodeVersionUpgrade("disable-bitcode-version-upgrade", cl::Hidden, cl::desc("Disable automatic bitcode upgrade for version mismatch"))

upgrade
static Expected< FileContents > upgrade(ArrayRef< BitcodeModule > BMs)
Definition: IRSymtab.cpp:380

IRSymtab.h

Mangler.h

Metadata.h
This file contains the declarations for metadata subclasses.

ModuleSymbolTable.h

Module.h
Module.h This file contains the declarations for the Module class.

P
#define P(N)

Mod
Module * Mod
Definition: PassBuilderBindings.cpp:54

assert
assert(ImpDefSCC.getReg()==AMDGPU::SCC &&ImpDefSCC.isDef())

OS
raw_pwrite_stream & OS
Definition: SampleProfWriter.cpp:53

SmallPtrSet.h
This file defines the SmallPtrSet class.

SmallString.h
This file defines the SmallString class.

SmallVector.h
This file defines the SmallVector class.

StringRef.h

StringSaver.h

StringTableBuilder.h

SymbolicFile.h

Triple.h

Fallback
@ Fallback
Definition: WholeProgramDevirt.cpp:177

llvm::ArrayRef
ArrayRef - Represent a constant reference to an array (0 or more elements consecutively in memory),...
Definition: ArrayRef.h:41

llvm::ArrayRef::empty
bool empty() const
empty - Check if the array is empty.
Definition: ArrayRef.h:160

llvm::BumpPtrAllocatorImpl
Allocate memory in an ever growing pool, as if by bump-pointer.
Definition: Allocator.h:66

llvm::Comdat
Definition: Comdat.h:33

llvm::Comdat::SelectionKind
SelectionKind
Definition: Comdat.h:35

llvm::DataLayout::getTypeAllocSize
TypeSize getTypeAllocSize(Type *Ty) const
Returns the offset in bytes between successive objects of the specified type, including alignment pad...
Definition: DataLayout.h:504

llvm::DenseMapBase::insert
std::pair< iterator, bool > insert(const std::pair< KeyT, ValueT > &KV)
Definition: DenseMap.h:220

llvm::DenseMap
Definition: DenseMap.h:742

llvm::DenseSet
Implements a dense probed hash-table based set.
Definition: DenseSet.h:271

llvm::Error
Lightweight error class with error context and mandatory checking.
Definition: Error.h:154

llvm::Error::success
static ErrorSuccess success()
Create a success value.
Definition: Error.h:328

llvm::Expected
Tagged union holding either a T or a Error.
Definition: Error.h:468

llvm::Expected::takeError
Error takeError()
Take ownership of the stored error.
Definition: Error.h:595

llvm::Expected::get
reference get()
Returns a reference to the stored T value.
Definition: Error.h:565

llvm::GlobalObject
Definition: GlobalObject.h:27

llvm::GlobalObject::getSection
StringRef getSection() const
Get the custom section of this global if it has one.
Definition: GlobalObject.h:117

llvm::GlobalObject::getComdat
const Comdat * getComdat() const
Definition: GlobalObject.h:128

llvm::GlobalValue
Definition: GlobalValue.h:44

llvm::GlobalValue::isThreadLocal
bool isThreadLocal() const
If the value is "Thread Local", its value isn't shared by the threads.
Definition: GlobalValue.h:259

llvm::GlobalValue::getVisibility
VisibilityTypes getVisibility() const
Definition: GlobalValue.h:244

llvm::GlobalValue::hasLocalLinkage
bool hasLocalLinkage() const
Definition: GlobalValue.h:523

llvm::GlobalValue::getParent
Module * getParent()
Get the module that this global value is contained inside of...
Definition: GlobalValue.h:652

llvm::GlobalValue::getAliaseeObject
const GlobalObject * getAliaseeObject() const
Definition: Globals.cpp:367

llvm::GlobalValue::hasGlobalUnnamedAddr
bool hasGlobalUnnamedAddr() const
Definition: GlobalValue.h:211

llvm::GlobalValue::canBeOmittedFromSymbolTable
bool canBeOmittedFromSymbolTable() const
True if GV can be left out of the object symbol table.
Definition: Globals.cpp:392

llvm::GlobalValue::getValueType
Type * getValueType() const
Definition: GlobalValue.h:292

llvm::LLVMContext
This is an important class for using LLVM in a threaded context.
Definition: LLVMContext.h:67

llvm::MDNode
Metadata node.
Definition: Metadata.h:950

llvm::MDNode::operands
ArrayRef< MDOperand > operands() const
Definition: Metadata.h:1301

llvm::MDOperand
Tracking metadata reference owned by Metadata.
Definition: Metadata.h:772

llvm::Mangler
Definition: Mangler.h:27

llvm::Mangler::getNameWithPrefix
void getNameWithPrefix(raw_ostream &OS, const GlobalValue *GV, bool CannotUsePrivateLabel) const
Print the appropriate prefix and the specified global variable's name.
Definition: Mangler.cpp:119

llvm::ModuleSymbolTable
Definition: ModuleSymbolTable.h:33

llvm::ModuleSymbolTable::addModule
void addModule(Module *M)
Definition: ModuleSymbolTable.cpp:54

llvm::ModuleSymbolTable::printSymbolName
void printSymbolName(raw_ostream &OS, Symbol S) const
Definition: ModuleSymbolTable.cpp:176

llvm::ModuleSymbolTable::getSymbolFlags
uint32_t getSymbolFlags(Symbol S) const
Definition: ModuleSymbolTable.cpp:189

llvm::ModuleSymbolTable::symbols
ArrayRef< Symbol > symbols() const
Definition: ModuleSymbolTable.h:46

llvm::Module
A Module instance is used to store all the information related to an LLVM module.
Definition: Module.h:65

llvm::Module::size
size_t size() const
Definition: Module.h:686

llvm::Module::getDataLayout
const DataLayout & getDataLayout() const
Get the data layout for the module's target platform.
Definition: Module.h:254

llvm::NamedMDNode
A tuple of MDNodes.
Definition: Metadata.h:1604

llvm::PointerUnion
A discriminated union of two or more pointer types, with the discriminator in the low bit of the poin...
Definition: PointerUnion.h:118

llvm::SmallPtrSet
SmallPtrSet - This class implements a set which is optimized for holding SmallSize or less elements.
Definition: SmallPtrSet.h:451

llvm::SmallString
SmallString - A SmallString is just a SmallVector with methods and accessors that make it work better...
Definition: SmallString.h:26

llvm::SmallVectorBase::size
size_t size() const
Definition: SmallVector.h:91

llvm::SmallVectorImpl::insert
iterator insert(iterator I, T &&Elt)
Definition: SmallVector.h:809

llvm::SmallVectorImpl::resize
void resize(size_type N)
Definition: SmallVector.h:642

llvm::SmallVectorTemplateCommon::end
iterator end()
Definition: SmallVector.h:272

llvm::SmallVectorTemplateCommon::data
pointer data()
Return a pointer to the vector's buffer, even if empty().
Definition: SmallVector.h:289

llvm::SmallVectorTemplateCommon::begin
iterator begin()
Definition: SmallVector.h:270

llvm::SmallVector
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
Definition: SmallVector.h:1200

llvm::StringRef
StringRef - Represent a constant reference to a string, i.e.
Definition: StringRef.h:50

llvm::StringRef::empty
constexpr bool empty() const
empty - Check if the string is empty.
Definition: StringRef.h:134

llvm::StringRef::size
constexpr size_t size() const
size - Get the string size.
Definition: StringRef.h:137

llvm::StringRef::data
const char * data() const
data - Get a pointer to the start of the string (which may not be null terminated).
Definition: StringRef.h:131

llvm::StringSaver
Saves strings in the provided stable storage and returns a StringRef with a stable character pointer.
Definition: StringSaver.h:21

llvm::StringSaver::save
StringRef save(const char *S)
Definition: StringSaver.h:30

llvm::StringTableBuilder
Utility for building string tables with deduplicated suffixes.
Definition: StringTableBuilder.h:24

llvm::StringTableBuilder::finalizeInOrder
void finalizeInOrder()
Finalize the string table without reording it.
Definition: StringTableBuilder.cpp:134

llvm::StringTableBuilder::RAW
@ RAW
Definition: StringTableBuilder.h:33

llvm::StringTableBuilder::write
void write(raw_ostream &OS) const
Definition: StringTableBuilder.cpp:61

llvm::StringTableBuilder::add
size_t add(CachedHashStringRef S)
Add a string to the builder.
Definition: StringTableBuilder.cpp:202

llvm::StringTableBuilder::getSize
size_t getSize() const
Definition: StringTableBuilder.h:84

llvm::Triple
Triple - Helper class for working with autoconf configuration names.
Definition: Triple.h:44

llvm::Value
LLVM Value Representation.
Definition: Value.h:74

llvm::Value::getName
StringRef getName() const
Return a constant reference to the value's name.
Definition: Value.cpp:309

llvm::cl::opt
Definition: CommandLine.h:1414

llvm::detail::DenseSetImpl::contains
bool contains(const_arg_type_t< ValueT > V) const
Check if the set contains the given element.
Definition: DenseSet.h:185

llvm::object::BasicSymbolRef::SF_Global
@ SF_Global
Definition: SymbolicFile.h:111

llvm::object::BasicSymbolRef::SF_Executable
@ SF_Executable
Definition: SymbolicFile.h:122

llvm::object::BasicSymbolRef::SF_Common
@ SF_Common
Definition: SymbolicFile.h:114

llvm::object::BasicSymbolRef::SF_Indirect
@ SF_Indirect
Definition: SymbolicFile.h:115

llvm::object::BasicSymbolRef::SF_FormatSpecific
@ SF_FormatSpecific
Definition: SymbolicFile.h:117

llvm::object::BasicSymbolRef::SF_Weak
@ SF_Weak
Definition: SymbolicFile.h:112

llvm::object::BasicSymbolRef::SF_Undefined
@ SF_Undefined
Definition: SymbolicFile.h:110

llvm::raw_ostream::flush
void flush()
Definition: raw_ostream.h:185

llvm::raw_string_ostream
A raw_ostream that writes to an std::string.
Definition: raw_ostream.h:642

llvm::raw_svector_ostream
A raw_ostream that writes to an SmallVector or SmallString.
Definition: raw_ostream.h:672

unsigned

Comdat.h
This file contains the declaration of the Comdat class, which represents a single COMDAT in LLVM.

Error.h

llvm::ARM::PredBlockMask::TT
@ TT

llvm::ARM::ProfileKind::M
@ M

llvm::CallingConv::C
@ C
The default llvm calling convention, compatible with C.
Definition: CallingConv.h:34

llvm::RISCVFenceField::R
@ R
Definition: RISCVBaseInfo.h:317

llvm::ZeroCallUsedRegs::ZeroCallUsedRegsKind::Used
@ Used

llvm::cl::Hidden
@ Hidden
Definition: CommandLine.h:138

llvm::irsymtab::readBitcode
Expected< FileContents > readBitcode(const BitcodeFileContents &BFC)
Reads the contents of a bitcode file, creating its irsymtab if necessary.
Definition: IRSymtab.cpp:411

llvm::irsymtab::build
Error build(ArrayRef< Module * > Mods, SmallVector< char, 0 > &Symtab, StringTableBuilder &StrtabBuilder, BumpPtrAllocator &Alloc)
Fills in Symtab and StrtabBuilder with a valid symbol and string table for Mods.
Definition: IRSymtab.cpp:372

llvm::omp::RTLDependInfoFields::Flags
@ Flags

llvm
This is an optimization pass for GlobalISel generic memory operations.
Definition: AddressRanges.h:18

llvm::inconvertibleErrorCode
std::error_code inconvertibleErrorCode()
The value returned by this function can be returned from convertToErrorCode for Error values where no...
Definition: Error.cpp:90

llvm::emitLinkerFlagsForGlobalCOFF
void emitLinkerFlagsForGlobalCOFF(raw_ostream &OS, const GlobalValue *GV, const Triple &TT, Mangler &Mangler)
Definition: Mangler.cpp:212

llvm::collectUsedGlobalVariables
GlobalVariable * collectUsedGlobalVariables(const Module &M, SmallVectorImpl< GlobalValue * > &Vec, bool CompilerUsed)
Given "llvm.used" or "llvm.compiler.used" as a global name, collect the initializer elements of that ...
Definition: Module.cpp:834

raw_ostream.h

N
#define N

llvm::BitcodeFileContents
Definition: BitcodeReader.h:164

llvm::BitcodeFileContents::StrtabForSymtab
StringRef StrtabForSymtab
Definition: BitcodeReader.h:166

llvm::BitcodeFileContents::Symtab
StringRef Symtab
Definition: BitcodeReader.h:166

llvm::BitcodeFileContents::Mods
std::vector< BitcodeModule > Mods
Definition: BitcodeReader.h:165

llvm::SectionName
Definition: DWARFSection.h:21

llvm::cl::desc
Definition: CommandLine.h:411

llvm::irsymtab::FileContents
The contents of the irsymtab in a bitcode file.
Definition: IRSymtab.h:369

llvm::irsymtab::Symbol::Name
StringRef Name
Definition: IRSymtab.h:172

llvm::irsymtab::Symbol::Flags
uint32_t Flags
Definition: IRSymtab.h:174

llvm::irsymtab::Symbol::IRName
StringRef IRName
Definition: IRSymtab.h:172

llvm::irsymtab::Symbol::ComdatIndex
int ComdatIndex
Definition: IRSymtab.h:173

llvm::irsymtab::storage::Comdat
This is equivalent to an IR comdat.
Definition: IRSymtab.h:82

llvm::irsymtab::storage::Header
Definition: IRSymtab.h:134

llvm::irsymtab::storage::Header::kCurrentVersion
@ kCurrentVersion
Definition: IRSymtab.h:139

llvm::irsymtab::storage::Header::SourceFileName
Str SourceFileName
Definition: IRSymtab.h:152

llvm::irsymtab::storage::Header::Comdats
Range< Comdat > Comdats
Definition: IRSymtab.h:148

llvm::irsymtab::storage::Header::Modules
Range< Module > Modules
Definition: IRSymtab.h:147

llvm::irsymtab::storage::Header::Version
Word Version
Version number of the symtab format.
Definition: IRSymtab.h:138

llvm::irsymtab::storage::Header::Symbols
Range< Symbol > Symbols
Definition: IRSymtab.h:149

llvm::irsymtab::storage::Header::COFFLinkerOpts
Str COFFLinkerOpts
COFF-specific: linker directives.
Definition: IRSymtab.h:155

llvm::irsymtab::storage::Header::DependentLibraries
Range< Str > DependentLibraries
Dependent Library Specifiers.
Definition: IRSymtab.h:158

llvm::irsymtab::storage::Header::Uncommons
Range< Uncommon > Uncommons
Definition: IRSymtab.h:150

llvm::irsymtab::storage::Header::Producer
Str Producer
The producer's version string (LLVM_VERSION_STRING " " LLVM_REVISION).
Definition: IRSymtab.h:145

llvm::irsymtab::storage::Header::TargetTriple
Str TargetTriple
Definition: IRSymtab.h:152

llvm::irsymtab::storage::Module
Describes the range of a particular module's symbols within the symbol table.
Definition: IRSymtab.h:74

llvm::irsymtab::storage::Range
A reference to a range of objects in the symbol table.
Definition: IRSymtab.h:64

llvm::irsymtab::storage::Str
A reference to a string in the string table.
Definition: IRSymtab.h:55

llvm::irsymtab::storage::Str::get
StringRef get(StringRef Strtab) const
Definition: IRSymtab.h:58

llvm::irsymtab::storage::Str::Offset
Word Offset
Definition: IRSymtab.h:56

llvm::irsymtab::storage::Str::Size
Word Size
Definition: IRSymtab.h:56

llvm::irsymtab::storage::Symbol
Contains the information needed by linkers for symbol resolution, as well as by the LTO implementatio...
Definition: IRSymtab.h:91

llvm::irsymtab::storage::Symbol::FB_may_omit
@ FB_may_omit
Definition: IRSymtab.h:112

llvm::irsymtab::storage::Symbol::FB_common
@ FB_common
Definition: IRSymtab.h:108

llvm::irsymtab::storage::Symbol::FB_undefined
@ FB_undefined
Definition: IRSymtab.h:106

llvm::irsymtab::storage::Symbol::FB_unnamed_addr
@ FB_unnamed_addr
Definition: IRSymtab.h:115

llvm::irsymtab::storage::Symbol::FB_has_uncommon
@ FB_has_uncommon
Definition: IRSymtab.h:105

llvm::irsymtab::storage::Symbol::FB_used
@ FB_used
Definition: IRSymtab.h:110

llvm::irsymtab::storage::Symbol::FB_tls
@ FB_tls
Definition: IRSymtab.h:111

llvm::irsymtab::storage::Symbol::FB_weak
@ FB_weak
Definition: IRSymtab.h:107

llvm::irsymtab::storage::Symbol::FB_indirect
@ FB_indirect
Definition: IRSymtab.h:109

llvm::irsymtab::storage::Symbol::FB_global
@ FB_global
Definition: IRSymtab.h:113

llvm::irsymtab::storage::Symbol::FB_format_specific
@ FB_format_specific
Definition: IRSymtab.h:114

llvm::irsymtab::storage::Symbol::FB_executable
@ FB_executable
Definition: IRSymtab.h:116

llvm::irsymtab::storage::Symbol::FB_visibility
@ FB_visibility
Definition: IRSymtab.h:104

llvm::irsymtab::storage::Uncommon
This data structure contains rarely used symbol fields and is optionally referenced by a Symbol.
Definition: IRSymtab.h:122

llvm::irsymtab::storage::Uncommon::SectionName
Str SectionName
Specified section name, if any.
Definition: IRSymtab.h:130

llvm::irsymtab::storage::Uncommon::COFFWeakExternFallbackName
Str COFFWeakExternFallbackName
COFF-specific: the name of the symbol that a weak external resolves to if not defined.
Definition: IRSymtab.h:127