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gerrit-public.fairphone.software / platform / external / clang / fd47b31be0f835ea15dc1f9407940980bb50ddcf / . / lib / CodeGen / CGDebugInfo.cpp
blob: 0074316b4c200cf646a56881db9581b1015aa112 [file] [log] [blame]
//===--- CGDebugInfo.cpp - Emit Debug Information for a Module ------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This coordinates the debug information generation while generating code.
//
//===----------------------------------------------------------------------===//
#include "CGDebugInfo.h"
#include "CodeGenModule.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/Expr.h"
#include "clang/AST/RecordLayout.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/FileManager.h"
#include "clang/Basic/Version.h"
#include "clang/Frontend/CompileOptions.h"
#include "llvm/Constants.h"
#include "llvm/DerivedTypes.h"
#include "llvm/Instructions.h"
#include "llvm/Intrinsics.h"
#include "llvm/Module.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/Support/Dwarf.h"
#include "llvm/System/Path.h"
#include "llvm/Target/TargetMachine.h"
using namespace clang;
using namespace clang::CodeGen;
CGDebugInfo::CGDebugInfo(CodeGenModule *m)
: M(m), isMainCompileUnitCreated(false), DebugFactory(M->getModule()),
BlockLiteralGenericSet(false) {
}
CGDebugInfo::~CGDebugInfo() {
assert(RegionStack.empty() && "Region stack mismatch, stack not empty!");
}
void CGDebugInfo::setLocation(SourceLocation Loc) {
if (Loc.isValid())
CurLoc = M->getContext().getSourceManager().getInstantiationLoc(Loc);
}
/// getOrCreateCompileUnit - Get the compile unit from the cache or create a new
/// one if necessary. This returns null for invalid source locations.
llvm::DICompileUnit CGDebugInfo::getOrCreateCompileUnit(SourceLocation Loc) {
// Get source file information.
const char *FileName = "<unknown>";
SourceManager &SM = M->getContext().getSourceManager();
unsigned FID = 0;
if (Loc.isValid()) {
PresumedLoc PLoc = SM.getPresumedLoc(Loc);
FileName = PLoc.getFilename();
FID = PLoc.getIncludeLoc().getRawEncoding();
}
// See if this compile unit has been used before.
llvm::DICompileUnit &Unit = CompileUnitCache[FID];
if (!Unit.isNull()) return Unit;
// Get absolute path name.
llvm::sys::Path AbsFileName(FileName);
if (!AbsFileName.isAbsolute()) {
llvm::sys::Path tmp = llvm::sys::Path::GetCurrentDirectory();
tmp.appendComponent(FileName);
AbsFileName = tmp;
}
// See if thie compile unit is representing main source file. Each source
// file has corresponding compile unit. There is only one main source
// file at a time.
bool isMain = false;
const LangOptions &LO = M->getLangOptions();
const char *MainFileName = LO.getMainFileName();
if (isMainCompileUnitCreated == false) {
if (MainFileName) {
if (!strcmp(AbsFileName.getLast().c_str(), MainFileName))
isMain = true;
} else {
if (Loc.isValid() && SM.isFromMainFile(Loc))
isMain = true;
}
if (isMain)
isMainCompileUnitCreated = true;
}
unsigned LangTag;
if (LO.CPlusPlus) {
if (LO.ObjC1)
LangTag = llvm::dwarf::DW_LANG_ObjC_plus_plus;
else
LangTag = llvm::dwarf::DW_LANG_C_plus_plus;
} else if (LO.ObjC1) {
LangTag = llvm::dwarf::DW_LANG_ObjC;
} else if (LO.C99) {
LangTag = llvm::dwarf::DW_LANG_C99;
} else {
LangTag = llvm::dwarf::DW_LANG_C89;
}
std::string Producer = "clang " CLANG_VERSION_STRING;
bool isOptimized = LO.Optimize;
const char *Flags = ""; // FIXME: Encode command line options.
// Figure out which version of the ObjC runtime we have.
unsigned RuntimeVers = 0;
if (LO.ObjC1)
RuntimeVers = LO.ObjCNonFragileABI ? 2 : 1;
// Create new compile unit.
return Unit = DebugFactory.CreateCompileUnit(LangTag, AbsFileName.getLast(),
AbsFileName.getDirname(),
Producer, isMain, isOptimized,
Flags, RuntimeVers);
}
/// CreateType - Get the Basic type from the cache or create a new
/// one if necessary.
llvm::DIType CGDebugInfo::CreateType(const BuiltinType *BT,
llvm::DICompileUnit Unit) {
unsigned Encoding = 0;
switch (BT->getKind()) {
default:
case BuiltinType::Void:
return llvm::DIType();
case BuiltinType::UChar:
case BuiltinType::Char_U: Encoding = llvm::dwarf::DW_ATE_unsigned_char; break;
case BuiltinType::Char_S:
case BuiltinType::SChar: Encoding = llvm::dwarf::DW_ATE_signed_char; break;
case BuiltinType::UShort:
case BuiltinType::UInt:
case BuiltinType::ULong:
case BuiltinType::ULongLong: Encoding = llvm::dwarf::DW_ATE_unsigned; break;
case BuiltinType::Short:
case BuiltinType::Int:
case BuiltinType::Long:
case BuiltinType::LongLong: Encoding = llvm::dwarf::DW_ATE_signed; break;
case BuiltinType::Bool: Encoding = llvm::dwarf::DW_ATE_boolean; break;
case BuiltinType::Float:
case BuiltinType::Double: Encoding = llvm::dwarf::DW_ATE_float; break;
}
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(BT);
uint64_t Align = M->getContext().getTypeAlign(BT);
uint64_t Offset = 0;
return DebugFactory.CreateBasicType(Unit,
BT->getName(M->getContext().getLangOptions()),
Unit, 0, Size, Align,
Offset, /*flags*/ 0, Encoding);
}
llvm::DIType CGDebugInfo::CreateType(const ComplexType *Ty,
llvm::DICompileUnit Unit) {
// Bit size, align and offset of the type.
unsigned Encoding = llvm::dwarf::DW_ATE_complex_float;
if (Ty->isComplexIntegerType())
Encoding = llvm::dwarf::DW_ATE_lo_user;
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
uint64_t Offset = 0;
return DebugFactory.CreateBasicType(Unit, "complex",
Unit, 0, Size, Align,
Offset, /*flags*/ 0, Encoding);
}
/// getOrCreateCVRType - Get the CVR qualified type from the cache or create
/// a new one if necessary.
llvm::DIType CGDebugInfo::CreateCVRType(QualType Ty, llvm::DICompileUnit Unit) {
// We will create one Derived type for one qualifier and recurse to handle any
// additional ones.
llvm::DIType FromTy;
unsigned Tag;
if (Ty.isConstQualified()) {
Tag = llvm::dwarf::DW_TAG_const_type;
Ty.removeConst();
FromTy = getOrCreateType(Ty, Unit);
} else if (Ty.isVolatileQualified()) {
Tag = llvm::dwarf::DW_TAG_volatile_type;
Ty.removeVolatile();
FromTy = getOrCreateType(Ty, Unit);
} else {
assert(Ty.isRestrictQualified() && "Unknown type qualifier for debug info");
Tag = llvm::dwarf::DW_TAG_restrict_type;
Ty.removeRestrict();
FromTy = getOrCreateType(Ty, Unit);
}
// No need to fill in the Name, Line, Size, Alignment, Offset in case of
// CVR derived types.
return DebugFactory.CreateDerivedType(Tag, Unit, "", llvm::DICompileUnit(),
0, 0, 0, 0, 0, FromTy);
}
llvm::DIType CGDebugInfo::CreateType(const ObjCObjectPointerType *Ty,
llvm::DICompileUnit Unit) {
llvm::DIType EltTy = getOrCreateType(Ty->getPointeeType(), Unit);
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
return DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_pointer_type, Unit,
"", llvm::DICompileUnit(),
0, Size, Align, 0, 0, EltTy);
}
llvm::DIType CGDebugInfo::CreateType(const PointerType *Ty,
llvm::DICompileUnit Unit) {
llvm::DIType EltTy = getOrCreateType(Ty->getPointeeType(), Unit);
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
return DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_pointer_type, Unit,
"", llvm::DICompileUnit(),
0, Size, Align, 0, 0, EltTy);
}
llvm::DIType CGDebugInfo::CreateType(const BlockPointerType *Ty,
llvm::DICompileUnit Unit) {
if (BlockLiteralGenericSet)
return BlockLiteralGeneric;
llvm::DICompileUnit DefUnit;
unsigned Tag = llvm::dwarf::DW_TAG_structure_type;
llvm::SmallVector<llvm::DIDescriptor, 5> EltTys;
llvm::DIType FieldTy;
QualType FType;
uint64_t FieldSize, FieldOffset;
unsigned FieldAlign;
llvm::DIArray Elements;
llvm::DIType EltTy, DescTy;
FieldOffset = 0;
FType = M->getContext().UnsignedLongTy;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"reserved", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().UnsignedLongTy;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"Size", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
Elements = DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
EltTys.clear();
EltTy = DebugFactory.CreateCompositeType(Tag, Unit, "__block_descriptor",
DefUnit, 0, FieldOffset, 0, 0, 0,
llvm::DIType(), Elements);
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
DescTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_pointer_type,
Unit, "", llvm::DICompileUnit(),
0, Size, Align, 0, 0, EltTy);
FieldOffset = 0;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__isa", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().IntTy;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__flags", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().IntTy;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__reserved", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__FuncPtr", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = DescTy;
FieldSize = M->getContext().getTypeSize(Ty);
FieldAlign = M->getContext().getTypeAlign(Ty);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__descriptor", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
Elements = DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
EltTy = DebugFactory.CreateCompositeType(Tag, Unit, "__block_literal_generic",
DefUnit, 0, FieldOffset, 0, 0, 0,
llvm::DIType(), Elements);
BlockLiteralGenericSet = true;
BlockLiteralGeneric
= DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_pointer_type, Unit,
"", llvm::DICompileUnit(),
0, Size, Align, 0, 0, EltTy);
return BlockLiteralGeneric;
}
llvm::DIType CGDebugInfo::CreateType(const TypedefType *Ty,
llvm::DICompileUnit Unit) {
// Typedefs are derived from some other type. If we have a typedef of a
// typedef, make sure to emit the whole chain.
llvm::DIType Src = getOrCreateType(Ty->getDecl()->getUnderlyingType(), Unit);
// We don't set size information, but do specify where the typedef was
// declared.
std::string TyName = Ty->getDecl()->getNameAsString();
SourceLocation DefLoc = Ty->getDecl()->getLocation();
llvm::DICompileUnit DefUnit = getOrCreateCompileUnit(DefLoc);
SourceManager &SM = M->getContext().getSourceManager();
PresumedLoc PLoc = SM.getPresumedLoc(DefLoc);
unsigned Line = PLoc.isInvalid() ? 0 : PLoc.getLine();
return DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_typedef, Unit,
TyName, DefUnit, Line, 0, 0, 0, 0, Src);
}
llvm::DIType CGDebugInfo::CreateType(const FunctionType *Ty,
llvm::DICompileUnit Unit) {
llvm::SmallVector<llvm::DIDescriptor, 16> EltTys;
// Add the result type at least.
EltTys.push_back(getOrCreateType(Ty->getResultType(), Unit));
// Set up remainder of arguments if there is a prototype.
// FIXME: IF NOT, HOW IS THIS REPRESENTED? llvm-gcc doesn't represent '...'!
if (const FunctionProtoType *FTP = dyn_cast<FunctionProtoType>(Ty)) {
for (unsigned i = 0, e = FTP->getNumArgs(); i != e; ++i)
EltTys.push_back(getOrCreateType(FTP->getArgType(i), Unit));
} else {
// FIXME: Handle () case in C. llvm-gcc doesn't do it either.
}
llvm::DIArray EltTypeArray =
DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
return DebugFactory.CreateCompositeType(llvm::dwarf::DW_TAG_subroutine_type,
Unit, "", llvm::DICompileUnit(),
0, 0, 0, 0, 0,
llvm::DIType(), EltTypeArray);
}
/// CreateType - get structure or union type.
llvm::DIType CGDebugInfo::CreateType(const RecordType *Ty,
llvm::DICompileUnit Unit) {
RecordDecl *Decl = Ty->getDecl();
unsigned Tag;
if (Decl->isStruct())
Tag = llvm::dwarf::DW_TAG_structure_type;
else if (Decl->isUnion())
Tag = llvm::dwarf::DW_TAG_union_type;
else {
assert(Decl->isClass() && "Unknown RecordType!");
Tag = llvm::dwarf::DW_TAG_class_type;
}
SourceManager &SM = M->getContext().getSourceManager();
// Get overall information about the record type for the debug info.
std::string Name = Decl->getNameAsString();
PresumedLoc PLoc = SM.getPresumedLoc(Decl->getLocation());
llvm::DICompileUnit DefUnit;
unsigned Line = 0;
if (!PLoc.isInvalid()) {
DefUnit = getOrCreateCompileUnit(Decl->getLocation());
Line = PLoc.getLine();
}
// Records and classes and unions can all be recursive. To handle them, we
// first generate a debug descriptor for the struct as a forward declaration.
// Then (if it is a definition) we go through and get debug info for all of
// its members. Finally, we create a descriptor for the complete type (which
// may refer to the forward decl if the struct is recursive) and replace all
// uses of the forward declaration with the final definition.
llvm::DICompositeType FwdDecl =
DebugFactory.CreateCompositeType(Tag, Unit, Name, DefUnit, Line, 0, 0, 0, 0,
llvm::DIType(), llvm::DIArray());
// If this is just a forward declaration, return it.
if (!Decl->getDefinition(M->getContext()))
return FwdDecl;
// Otherwise, insert it into the TypeCache so that recursive uses will find
// it.
TypeCache[QualType(Ty, 0).getAsOpaquePtr()] = FwdDecl.getNode();
// Convert all the elements.
llvm::SmallVector<llvm::DIDescriptor, 16> EltTys;
const ASTRecordLayout &RL = M->getContext().getASTRecordLayout(Decl);
unsigned FieldNo = 0;
for (RecordDecl::field_iterator I = Decl->field_begin(),
E = Decl->field_end();
I != E; ++I, ++FieldNo) {
FieldDecl *Field = *I;
llvm::DIType FieldTy = getOrCreateType(Field->getType(), Unit);
std::string FieldName = Field->getNameAsString();
// Ignore unnamed fields.
if (FieldName.empty())
continue;
// Get the location for the field.
SourceLocation FieldDefLoc = Field->getLocation();
PresumedLoc PLoc = SM.getPresumedLoc(FieldDefLoc);
llvm::DICompileUnit FieldDefUnit;
unsigned FieldLine = 0;
if (!PLoc.isInvalid()) {
FieldDefUnit = getOrCreateCompileUnit(FieldDefLoc);
FieldLine = PLoc.getLine();
}
QualType FType = Field->getType();
uint64_t FieldSize = 0;
unsigned FieldAlign = 0;
if (!FType->isIncompleteArrayType()) {
// Bit size, align and offset of the type.
FieldSize = M->getContext().getTypeSize(FType);
Expr *BitWidth = Field->getBitWidth();
if (BitWidth)
FieldSize = BitWidth->EvaluateAsInt(M->getContext()).getZExtValue();
FieldAlign = M->getContext().getTypeAlign(FType);
}
uint64_t FieldOffset = RL.getFieldOffset(FieldNo);
// Create a DW_TAG_member node to remember the offset of this field in the
// struct. FIXME: This is an absolutely insane way to capture this
// information. When we gut debug info, this should be fixed.
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
FieldName, FieldDefUnit,
FieldLine, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
}
llvm::DIArray Elements =
DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
llvm::DICompositeType RealDecl =
DebugFactory.CreateCompositeType(Tag, Unit, Name, DefUnit, Line, Size,
Align, 0, 0, llvm::DIType(), Elements);
// Update TypeCache.
TypeCache[QualType(Ty, 0).getAsOpaquePtr()] = RealDecl.getNode();
// Now that we have a real decl for the struct, replace anything using the
// old decl with the new one. This will recursively update the debug info.
FwdDecl.replaceAllUsesWith(RealDecl);
return RealDecl;
}
/// CreateType - get objective-c interface type.
llvm::DIType CGDebugInfo::CreateType(const ObjCInterfaceType *Ty,
llvm::DICompileUnit Unit) {
ObjCInterfaceDecl *Decl = Ty->getDecl();
unsigned Tag = llvm::dwarf::DW_TAG_structure_type;
SourceManager &SM = M->getContext().getSourceManager();
// Get overall information about the record type for the debug info.
std::string Name = Decl->getNameAsString();
llvm::DICompileUnit DefUnit = getOrCreateCompileUnit(Decl->getLocation());
PresumedLoc PLoc = SM.getPresumedLoc(Decl->getLocation());
unsigned Line = PLoc.isInvalid() ? 0 : PLoc.getLine();
unsigned RuntimeLang = DefUnit.getLanguage();
// To handle recursive interface, we
// first generate a debug descriptor for the struct as a forward declaration.
// Then (if it is a definition) we go through and get debug info for all of
// its members. Finally, we create a descriptor for the complete type (which
// may refer to the forward decl if the struct is recursive) and replace all
// uses of the forward declaration with the final definition.
llvm::DICompositeType FwdDecl =
DebugFactory.CreateCompositeType(Tag, Unit, Name, DefUnit, Line, 0, 0, 0, 0,
llvm::DIType(), llvm::DIArray(),
RuntimeLang);
// If this is just a forward declaration, return it.
if (Decl->isForwardDecl())
return FwdDecl;
// Otherwise, insert it into the TypeCache so that recursive uses will find
// it.
TypeCache[QualType(Ty, 0).getAsOpaquePtr()] = FwdDecl.getNode();
// Convert all the elements.
llvm::SmallVector<llvm::DIDescriptor, 16> EltTys;
ObjCInterfaceDecl *SClass = Decl->getSuperClass();
if (SClass) {
llvm::DIType SClassTy =
getOrCreateType(M->getContext().getObjCInterfaceType(SClass), Unit);
llvm::DIType InhTag =
DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_inheritance,
Unit, "", llvm::DICompileUnit(), 0, 0, 0,
0 /* offset */, 0, SClassTy);
EltTys.push_back(InhTag);
}
const ASTRecordLayout &RL = M->getContext().getASTObjCInterfaceLayout(Decl);
unsigned FieldNo = 0;
for (ObjCInterfaceDecl::ivar_iterator I = Decl->ivar_begin(),
E = Decl->ivar_end(); I != E; ++I, ++FieldNo) {
ObjCIvarDecl *Field = *I;
llvm::DIType FieldTy = getOrCreateType(Field->getType(), Unit);
std::string FieldName = Field->getNameAsString();
// Ignore unnamed fields.
if (FieldName.empty())
continue;
// Get the location for the field.
SourceLocation FieldDefLoc = Field->getLocation();
llvm::DICompileUnit FieldDefUnit = getOrCreateCompileUnit(FieldDefLoc);
PresumedLoc PLoc = SM.getPresumedLoc(FieldDefLoc);
unsigned FieldLine = PLoc.isInvalid() ? 0 : PLoc.getLine();
QualType FType = Field->getType();
uint64_t FieldSize = 0;
unsigned FieldAlign = 0;
if (!FType->isIncompleteArrayType()) {
// Bit size, align and offset of the type.
FieldSize = M->getContext().getTypeSize(FType);
Expr *BitWidth = Field->getBitWidth();
if (BitWidth)
FieldSize = BitWidth->EvaluateAsInt(M->getContext()).getZExtValue();
FieldAlign = M->getContext().getTypeAlign(FType);
}
uint64_t FieldOffset = RL.getFieldOffset(FieldNo);
unsigned Flags = 0;
if (Field->getAccessControl() == ObjCIvarDecl::Protected)
Flags = llvm::DIType::FlagProtected;
else if (Field->getAccessControl() == ObjCIvarDecl::Private)
Flags = llvm::DIType::FlagPrivate;
// Create a DW_TAG_member node to remember the offset of this field in the
// struct. FIXME: This is an absolutely insane way to capture this
// information. When we gut debug info, this should be fixed.
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
FieldName, FieldDefUnit,
FieldLine, FieldSize, FieldAlign,
FieldOffset, Flags, FieldTy);
EltTys.push_back(FieldTy);
}
llvm::DIArray Elements =
DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
// Bit size, align and offset of the type.
uint64_t Size = M->getContext().getTypeSize(Ty);
uint64_t Align = M->getContext().getTypeAlign(Ty);
llvm::DICompositeType RealDecl =
DebugFactory.CreateCompositeType(Tag, Unit, Name, DefUnit, Line, Size,
Align, 0, 0, llvm::DIType(), Elements,
RuntimeLang);
// Update TypeCache.
TypeCache[QualType(Ty, 0).getAsOpaquePtr()] = RealDecl.getNode();
// Now that we have a real decl for the struct, replace anything using the
// old decl with the new one. This will recursively update the debug info.
FwdDecl.replaceAllUsesWith(RealDecl);
return RealDecl;
}
llvm::DIType CGDebugInfo::CreateType(const EnumType *Ty,
llvm::DICompileUnit Unit) {
EnumDecl *Decl = Ty->getDecl();
llvm::SmallVector<llvm::DIDescriptor, 32> Enumerators;
// Create DIEnumerator elements for each enumerator.
for (EnumDecl::enumerator_iterator
Enum = Decl->enumerator_begin(), EnumEnd = Decl->enumerator_end();
Enum != EnumEnd; ++Enum) {
Enumerators.push_back(DebugFactory.CreateEnumerator(Enum->getNameAsString(),
Enum->getInitVal().getZExtValue()));
}
// Return a CompositeType for the enum itself.
llvm::DIArray EltArray =
DebugFactory.GetOrCreateArray(Enumerators.data(), Enumerators.size());
std::string EnumName = Decl->getNameAsString();
SourceLocation DefLoc = Decl->getLocation();
llvm::DICompileUnit DefUnit = getOrCreateCompileUnit(DefLoc);
SourceManager &SM = M->getContext().getSourceManager();
PresumedLoc PLoc = SM.getPresumedLoc(DefLoc);
unsigned Line = PLoc.isInvalid() ? 0 : PLoc.getLine();
// Size and align of the type.
uint64_t Size = 0;
unsigned Align = 0;
if (!Ty->isIncompleteType()) {
Size = M->getContext().getTypeSize(Ty);
Align = M->getContext().getTypeAlign(Ty);
}
return DebugFactory.CreateCompositeType(llvm::dwarf::DW_TAG_enumeration_type,
Unit, EnumName, DefUnit, Line,
Size, Align, 0, 0,
llvm::DIType(), EltArray);
}
llvm::DIType CGDebugInfo::CreateType(const TagType *Ty,
llvm::DICompileUnit Unit) {
if (const RecordType *RT = dyn_cast<RecordType>(Ty))
return CreateType(RT, Unit);
else if (const EnumType *ET = dyn_cast<EnumType>(Ty))
return CreateType(ET, Unit);
return llvm::DIType();
}
llvm::DIType CGDebugInfo::CreateType(const ArrayType *Ty,
llvm::DICompileUnit Unit) {
uint64_t Size;
uint64_t Align;
// FIXME: make getTypeAlign() aware of VLAs and incomplete array types
if (const VariableArrayType *VAT = dyn_cast<VariableArrayType>(Ty)) {
Size = 0;
Align =
M->getContext().getTypeAlign(M->getContext().getBaseElementType(VAT));
} else if (Ty->isIncompleteArrayType()) {
Size = 0;
Align = M->getContext().getTypeAlign(Ty->getElementType());
} else {
// Size and align of the whole array, not the element type.
Size = M->getContext().getTypeSize(Ty);
Align = M->getContext().getTypeAlign(Ty);
}
// Add the dimensions of the array. FIXME: This loses CV qualifiers from
// interior arrays, do we care? Why aren't nested arrays represented the
// obvious/recursive way?
llvm::SmallVector<llvm::DIDescriptor, 8> Subscripts;
QualType EltTy(Ty, 0);
while ((Ty = dyn_cast<ArrayType>(EltTy))) {
uint64_t Upper = 0;
if (const ConstantArrayType *CAT = dyn_cast<ConstantArrayType>(Ty))
if (CAT->getSize().getZExtValue())
Upper = CAT->getSize().getZExtValue() - 1;
// FIXME: Verify this is right for VLAs.
Subscripts.push_back(DebugFactory.GetOrCreateSubrange(0, Upper));
EltTy = Ty->getElementType();
}
llvm::DIArray SubscriptArray =
DebugFactory.GetOrCreateArray(Subscripts.data(), Subscripts.size());
return DebugFactory.CreateCompositeType(llvm::dwarf::DW_TAG_array_type,
Unit, "", llvm::DICompileUnit(),
0, Size, Align, 0, 0,
getOrCreateType(EltTy, Unit),
SubscriptArray);
}
/// getOrCreateType - Get the type from the cache or create a new
/// one if necessary.
llvm::DIType CGDebugInfo::getOrCreateType(QualType Ty,
llvm::DICompileUnit Unit) {
if (Ty.isNull())
return llvm::DIType();
// Check for existing entry.
std::map<void *, llvm::WeakVH>::iterator it =
TypeCache.find(Ty.getAsOpaquePtr());
if (it != TypeCache.end()) {
// Verify that the debug info still exists.
if (&*it->second)
return llvm::DIType(cast<llvm::MDNode>(it->second));
}
// Otherwise create the type.
llvm::DIType Res = CreateTypeNode(Ty, Unit);
TypeCache.insert(std::make_pair(Ty.getAsOpaquePtr(), Res.getNode()));
return Res;
}
/// getOrCreateTypeNode - Get the type metadata node from the cache or create a
/// new one if necessary.
llvm::DIType CGDebugInfo::CreateTypeNode(QualType Ty,
llvm::DICompileUnit Unit) {
// Handle CVR qualifiers, which recursively handles what they refer to.
if (Ty.getCVRQualifiers())
return CreateCVRType(Ty, Unit);
// Work out details of type.
switch (Ty->getTypeClass()) {
#define TYPE(Class, Base)
#define ABSTRACT_TYPE(Class, Base)
#define NON_CANONICAL_TYPE(Class, Base)
#define DEPENDENT_TYPE(Class, Base) case Type::Class:
#include "clang/AST/TypeNodes.def"
assert(false && "Dependent types cannot show up in debug information");
default:
case Type::LValueReference:
case Type::RValueReference:
case Type::Vector:
case Type::ExtVector:
case Type::ExtQual:
case Type::FixedWidthInt:
case Type::MemberPointer:
case Type::TemplateSpecialization:
case Type::QualifiedName:
// Unsupported types
return llvm::DIType();
case Type::ObjCObjectPointer:
return CreateType(cast<ObjCObjectPointerType>(Ty), Unit);
case Type::ObjCInterface:
return CreateType(cast<ObjCInterfaceType>(Ty), Unit);
case Type::Builtin: return CreateType(cast<BuiltinType>(Ty), Unit);
case Type::Complex: return CreateType(cast<ComplexType>(Ty), Unit);
case Type::Pointer: return CreateType(cast<PointerType>(Ty), Unit);
case Type::BlockPointer:
return CreateType(cast<BlockPointerType>(Ty), Unit);
case Type::Typedef: return CreateType(cast<TypedefType>(Ty), Unit);
case Type::Record:
case Type::Enum:
return CreateType(cast<TagType>(Ty), Unit);
case Type::FunctionProto:
case Type::FunctionNoProto:
return CreateType(cast<FunctionType>(Ty), Unit);
case Type::Elaborated:
return getOrCreateType(cast<ElaboratedType>(Ty)->getUnderlyingType(),
Unit);
case Type::ConstantArray:
case Type::ConstantArrayWithExpr:
case Type::ConstantArrayWithoutExpr:
case Type::VariableArray:
case Type::IncompleteArray:
return CreateType(cast<ArrayType>(Ty), Unit);
case Type::TypeOfExpr:
return getOrCreateType(cast<TypeOfExprType>(Ty)->getUnderlyingExpr()
->getType(), Unit);
case Type::TypeOf:
return getOrCreateType(cast<TypeOfType>(Ty)->getUnderlyingType(), Unit);
case Type::Decltype:
return getOrCreateType(cast<DecltypeType>(Ty)->getUnderlyingType(), Unit);
}
}
/// EmitFunctionStart - Constructs the debug code for entering a function -
/// "llvm.dbg.func.start.".
void CGDebugInfo::EmitFunctionStart(const char *Name, QualType ReturnType,
llvm::Function *Fn,
CGBuilderTy &Builder) {
const char *LinkageName = Name;
// Skip the asm prefix if it exists.
//
// FIXME: This should probably be the unmangled name?
if (Name[0] == '\01')
++Name;
// FIXME: Why is this using CurLoc???
llvm::DICompileUnit Unit = getOrCreateCompileUnit(CurLoc);
SourceManager &SM = M->getContext().getSourceManager();
unsigned LineNo = SM.getPresumedLoc(CurLoc).getLine();
llvm::DISubprogram SP =
DebugFactory.CreateSubprogram(Unit, Name, Name, LinkageName, Unit, LineNo,
getOrCreateType(ReturnType, Unit),
Fn->hasInternalLinkage(), true/*definition*/);
DebugFactory.InsertSubprogramStart(SP, Builder.GetInsertBlock());
// Push function on region stack.
RegionStack.push_back(SP);
}
void CGDebugInfo::EmitStopPoint(llvm::Function *Fn, CGBuilderTy &Builder) {
if (CurLoc.isInvalid() || CurLoc.isMacroID()) return;
// Don't bother if things are the same as last time.
SourceManager &SM = M->getContext().getSourceManager();
if (CurLoc == PrevLoc
|| (SM.getInstantiationLineNumber(CurLoc) ==
SM.getInstantiationLineNumber(PrevLoc)
&& SM.isFromSameFile(CurLoc, PrevLoc)))
return;
// Update last state.
PrevLoc = CurLoc;
// Get the appropriate compile unit.
llvm::DICompileUnit Unit = getOrCreateCompileUnit(CurLoc);
PresumedLoc PLoc = SM.getPresumedLoc(CurLoc);
DebugFactory.InsertStopPoint(Unit, PLoc.getLine(), PLoc.getColumn(),
Builder.GetInsertBlock());
}
/// EmitRegionStart- Constructs the debug code for entering a declarative
/// region - "llvm.dbg.region.start.".
void CGDebugInfo::EmitRegionStart(llvm::Function *Fn, CGBuilderTy &Builder) {
llvm::DIDescriptor D;
if (!RegionStack.empty())
D = RegionStack.back();
D = DebugFactory.CreateLexicalBlock(D);
RegionStack.push_back(D);
DebugFactory.InsertRegionStart(D, Builder.GetInsertBlock());
}
/// EmitRegionEnd - Constructs the debug code for exiting a declarative
/// region - "llvm.dbg.region.end."
void CGDebugInfo::EmitRegionEnd(llvm::Function *Fn, CGBuilderTy &Builder) {
assert(!RegionStack.empty() && "Region stack mismatch, stack empty!");
// Provide an region stop point.
EmitStopPoint(Fn, Builder);
DebugFactory.InsertRegionEnd(RegionStack.back(), Builder.GetInsertBlock());
RegionStack.pop_back();
}
/// EmitDeclare - Emit local variable declaration debug info.
void CGDebugInfo::EmitDeclare(const VarDecl *Decl, unsigned Tag,
llvm::Value *Storage, CGBuilderTy &Builder) {
assert(!RegionStack.empty() && "Region stack mismatch, stack empty!");
// Do not emit variable debug information while generating optimized code.
// The llvm optimizer and code generator are not yet ready to support
// optimized code debugging.
const CompileOptions &CO = M->getCompileOpts();
if (CO.OptimizationLevel)
return;
llvm::DICompileUnit Unit = getOrCreateCompileUnit(Decl->getLocation());
QualType Type = Decl->getType();
llvm::DIType Ty = getOrCreateType(Type, Unit);
if (Decl->hasAttr<BlocksAttr>()) {
llvm::DICompileUnit DefUnit;
unsigned Tag = llvm::dwarf::DW_TAG_structure_type;
llvm::SmallVector<llvm::DIDescriptor, 5> EltTys;
llvm::DIType FieldTy;
QualType FType;
uint64_t FieldSize, FieldOffset;
unsigned FieldAlign;
llvm::DIArray Elements;
llvm::DIType EltTy;
// Build up structure for the byref. See BuildByRefType.
FieldOffset = 0;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__isa", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__forwarding", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getFixedWidthIntType(32, true); // Int32Ty;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__flags", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getFixedWidthIntType(32, true); // Int32Ty;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__size", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
bool HasCopyAndDispose = M->BlockRequiresCopying(Type);
if (HasCopyAndDispose) {
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__copy_helper", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
FType = M->getContext().getPointerType(M->getContext().VoidTy);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
"__destroy_helper", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
}
unsigned Align = M->getContext().getDeclAlignInBytes(Decl);
if (Align > M->getContext().Target.getPointerAlign(0) / 8) {
unsigned AlignedOffsetInBytes
= llvm::RoundUpToAlignment(FieldOffset/8, Align);
unsigned NumPaddingBytes
= AlignedOffsetInBytes - FieldOffset/8;
if (NumPaddingBytes > 0) {
llvm::APInt pad(32, NumPaddingBytes);
FType = M->getContext().getConstantArrayType(M->getContext().CharTy,
pad, ArrayType::Normal, 0);
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = M->getContext().getTypeAlign(FType);
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member,
Unit, "", DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
}
}
FType = Type;
FieldTy = CGDebugInfo::getOrCreateType(FType, Unit);
FieldSize = M->getContext().getTypeSize(FType);
FieldAlign = Align*8;
std::string Name = Decl->getNameAsString();
FieldTy = DebugFactory.CreateDerivedType(llvm::dwarf::DW_TAG_member, Unit,
Name, DefUnit,
0, FieldSize, FieldAlign,
FieldOffset, 0, FieldTy);
EltTys.push_back(FieldTy);
FieldOffset += FieldSize;
Elements = DebugFactory.GetOrCreateArray(EltTys.data(), EltTys.size());
unsigned Flags = llvm::DIType::FlagBlockByrefStruct;
Ty = DebugFactory.CreateCompositeType(Tag, Unit, "",
llvm::DICompileUnit(),
0, FieldOffset, 0, 0, Flags,
llvm::DIType(), Elements);
}
// Get location information.
SourceManager &SM = M->getContext().getSourceManager();
PresumedLoc PLoc = SM.getPresumedLoc(Decl->getLocation());
unsigned Line = 0;
if (!PLoc.isInvalid())
Line = PLoc.getLine();
else
Unit = llvm::DICompileUnit();
// Create the descriptor for the variable.
llvm::DIVariable D =
DebugFactory.CreateVariable(Tag, RegionStack.back(),Decl->getNameAsString(),
Unit, Line, Ty);
// Insert an llvm.dbg.declare into the current block.
DebugFactory.InsertDeclare(Storage, D, Builder.GetInsertBlock());
}
void CGDebugInfo::EmitDeclareOfAutoVariable(const VarDecl *Decl,
llvm::Value *Storage,
CGBuilderTy &Builder) {
EmitDeclare(Decl, llvm::dwarf::DW_TAG_auto_variable, Storage, Builder);
}
/// EmitDeclareOfArgVariable - Emit call to llvm.dbg.declare for an argument
/// variable declaration.
void CGDebugInfo::EmitDeclareOfArgVariable(const VarDecl *Decl, llvm::Value *AI,
CGBuilderTy &Builder) {
EmitDeclare(Decl, llvm::dwarf::DW_TAG_arg_variable, AI, Builder);
}
/// EmitGlobalVariable - Emit information about a global variable.
void CGDebugInfo::EmitGlobalVariable(llvm::GlobalVariable *Var,
const VarDecl *Decl) {
// Do not emit variable debug information while generating optimized code.
// The llvm optimizer and code generator are not yet ready to support
// optimized code debugging.
const CompileOptions &CO = M->getCompileOpts();
if (CO.OptimizationLevel)
return;
// Create global variable debug descriptor.
llvm::DICompileUnit Unit = getOrCreateCompileUnit(Decl->getLocation());
SourceManager &SM = M->getContext().getSourceManager();
PresumedLoc PLoc = SM.getPresumedLoc(Decl->getLocation());
unsigned LineNo = PLoc.isInvalid() ? 0 : PLoc.getLine();
std::string Name = Decl->getNameAsString();
QualType T = Decl->getType();
if (T->isIncompleteArrayType()) {
// CodeGen turns int[] into int[1] so we'll do the same here.
llvm::APSInt ConstVal(32);
ConstVal = 1;
QualType ET = M->getContext().getAsArrayType(T)->getElementType();
T = M->getContext().getConstantArrayType(ET, ConstVal,
ArrayType::Normal, 0);
}
DebugFactory.CreateGlobalVariable(Unit, Name, Name, "", Unit, LineNo,
getOrCreateType(T, Unit),
Var->hasInternalLinkage(),
true/*definition*/, Var);
}
/// EmitGlobalVariable - Emit information about an objective-c interface.
void CGDebugInfo::EmitGlobalVariable(llvm::GlobalVariable *Var,
ObjCInterfaceDecl *Decl) {
// Create global variable debug descriptor.
llvm::DICompileUnit Unit = getOrCreateCompileUnit(Decl->getLocation());
SourceManager &SM = M->getContext().getSourceManager();
PresumedLoc PLoc = SM.getPresumedLoc(Decl->getLocation());
unsigned LineNo = PLoc.isInvalid() ? 0 : PLoc.getLine();
std::string Name = Decl->getNameAsString();
QualType T = M->getContext().getObjCInterfaceType(Decl);
if (T->isIncompleteArrayType()) {
// CodeGen turns int[] into int[1] so we'll do the same here.
llvm::APSInt ConstVal(32);
ConstVal = 1;
QualType ET = M->getContext().getAsArrayType(T)->getElementType();
T = M->getContext().getConstantArrayType(ET, ConstVal,
ArrayType::Normal, 0);
}
DebugFactory.CreateGlobalVariable(Unit, Name, Name, "", Unit, LineNo,
getOrCreateType(T, Unit),
Var->hasInternalLinkage(),
true/*definition*/, Var);
}