[llvm] r329646 - Fix line endings (CR/LF -> LF) introduced by rL329613
Alexandre Ganea via llvm-commits
llvm-commits at lists.llvm.org
Mon Apr 9 17:09:16 PDT 2018
Author: aganea
Date: Mon Apr 9 17:09:15 2018
New Revision: 329646
URL: http://llvm.org/viewvc/llvm-project?rev=329646&view=rev
Log:
Fix line endings (CR/LF -> LF) introduced by rL329613
reviewer: zturner
Modified:
llvm/trunk/include/llvm/DebugInfo/CodeView/TypeRecord.h
llvm/trunk/lib/DebugInfo/CodeView/RecordName.cpp
llvm/trunk/lib/DebugInfo/CodeView/TypeDumpVisitor.cpp
llvm/trunk/lib/DebugInfo/CodeView/TypeRecordMapping.cpp
llvm/trunk/lib/ObjectYAML/CodeViewYAMLTypes.cpp
llvm/trunk/tools/llvm-pdbutil/MinimalTypeDumper.cpp
llvm/trunk/unittests/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp
Modified: llvm/trunk/include/llvm/DebugInfo/CodeView/TypeRecord.h
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/include/llvm/DebugInfo/CodeView/TypeRecord.h?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/include/llvm/DebugInfo/CodeView/TypeRecord.h (original)
+++ llvm/trunk/include/llvm/DebugInfo/CodeView/TypeRecord.h Mon Apr 9 17:09:15 2018
@@ -1,929 +1,929 @@
-//===- TypeRecord.h ---------------------------------------------*- C++ -*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#ifndef LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
-#define LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
-
-#include "llvm/ADT/APSInt.h"
-#include "llvm/ADT/ArrayRef.h"
-#include "llvm/ADT/Optional.h"
-#include "llvm/ADT/SmallVector.h"
-#include "llvm/ADT/StringRef.h"
-#include "llvm/ADT/iterator_range.h"
-#include "llvm/DebugInfo/CodeView/CVRecord.h"
-#include "llvm/DebugInfo/CodeView/CodeView.h"
-#include "llvm/DebugInfo/CodeView/GUID.h"
-#include "llvm/DebugInfo/CodeView/TypeIndex.h"
-#include "llvm/Support/BinaryStreamArray.h"
-#include "llvm/Support/Endian.h"
-#include <algorithm>
-#include <cstdint>
-#include <vector>
-
-namespace llvm {
-namespace codeview {
-
-using support::little32_t;
-using support::ulittle16_t;
-using support::ulittle32_t;
-
-using CVType = CVRecord<TypeLeafKind>;
-using RemappedType = RemappedRecord<TypeLeafKind>;
-
-struct CVMemberRecord {
- TypeLeafKind Kind;
- ArrayRef<uint8_t> Data;
-};
-using CVTypeArray = VarStreamArray<CVType>;
-using CVTypeRange = iterator_range<CVTypeArray::Iterator>;
-
-/// Equvalent to CV_fldattr_t in cvinfo.h.
-struct MemberAttributes {
- uint16_t Attrs = 0;
-
- enum {
- MethodKindShift = 2,
- };
-
- MemberAttributes() = default;
-
- explicit MemberAttributes(MemberAccess Access)
- : Attrs(static_cast<uint16_t>(Access)) {}
-
- MemberAttributes(MemberAccess Access, MethodKind Kind, MethodOptions Flags) {
- Attrs = static_cast<uint16_t>(Access);
- Attrs |= (static_cast<uint16_t>(Kind) << MethodKindShift);
- Attrs |= static_cast<uint16_t>(Flags);
- }
-
- /// Get the access specifier. Valid for any kind of member.
- MemberAccess getAccess() const {
- return MemberAccess(unsigned(Attrs) & unsigned(MethodOptions::AccessMask));
- }
-
- /// Indicates if a method is defined with friend, virtual, static, etc.
- MethodKind getMethodKind() const {
- return MethodKind(
- (unsigned(Attrs) & unsigned(MethodOptions::MethodKindMask)) >>
- MethodKindShift);
- }
-
- /// Get the flags that are not included in access control or method
- /// properties.
- MethodOptions getFlags() const {
- return MethodOptions(
- unsigned(Attrs) &
- ~unsigned(MethodOptions::AccessMask | MethodOptions::MethodKindMask));
- }
-
- /// Is this method virtual.
- bool isVirtual() const {
- auto MP = getMethodKind();
- return MP != MethodKind::Vanilla && MP != MethodKind::Friend &&
- MP != MethodKind::Static;
- }
-
- /// Does this member introduce a new virtual method.
- bool isIntroducedVirtual() const {
- auto MP = getMethodKind();
- return MP == MethodKind::IntroducingVirtual ||
- MP == MethodKind::PureIntroducingVirtual;
- }
-};
-
-// Does not correspond to any tag, this is the tail of an LF_POINTER record
-// if it represents a member pointer.
-class MemberPointerInfo {
-public:
- MemberPointerInfo() = default;
-
- MemberPointerInfo(TypeIndex ContainingType,
- PointerToMemberRepresentation Representation)
- : ContainingType(ContainingType), Representation(Representation) {}
-
- TypeIndex getContainingType() const { return ContainingType; }
- PointerToMemberRepresentation getRepresentation() const {
- return Representation;
- }
-
- TypeIndex ContainingType;
- PointerToMemberRepresentation Representation;
-};
-
-class TypeRecord {
-protected:
- TypeRecord() = default;
- explicit TypeRecord(TypeRecordKind Kind) : Kind(Kind) {}
-
-public:
- TypeRecordKind getKind() const { return Kind; }
-
- TypeRecordKind Kind;
-};
-
-// LF_MODIFIER
-class ModifierRecord : public TypeRecord {
-public:
- ModifierRecord() = default;
- explicit ModifierRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- ModifierRecord(TypeIndex ModifiedType, ModifierOptions Modifiers)
- : TypeRecord(TypeRecordKind::Modifier), ModifiedType(ModifiedType),
- Modifiers(Modifiers) {}
-
- TypeIndex getModifiedType() const { return ModifiedType; }
- ModifierOptions getModifiers() const { return Modifiers; }
-
- TypeIndex ModifiedType;
- ModifierOptions Modifiers;
-};
-
-// LF_PROCEDURE
-class ProcedureRecord : public TypeRecord {
-public:
- ProcedureRecord() = default;
- explicit ProcedureRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- ProcedureRecord(TypeIndex ReturnType, CallingConvention CallConv,
- FunctionOptions Options, uint16_t ParameterCount,
- TypeIndex ArgumentList)
- : TypeRecord(TypeRecordKind::Procedure), ReturnType(ReturnType),
- CallConv(CallConv), Options(Options), ParameterCount(ParameterCount),
- ArgumentList(ArgumentList) {}
-
- TypeIndex getReturnType() const { return ReturnType; }
- CallingConvention getCallConv() const { return CallConv; }
- FunctionOptions getOptions() const { return Options; }
- uint16_t getParameterCount() const { return ParameterCount; }
- TypeIndex getArgumentList() const { return ArgumentList; }
-
- TypeIndex ReturnType;
- CallingConvention CallConv;
- FunctionOptions Options;
- uint16_t ParameterCount;
- TypeIndex ArgumentList;
-};
-
-// LF_MFUNCTION
-class MemberFunctionRecord : public TypeRecord {
-public:
- MemberFunctionRecord() = default;
- explicit MemberFunctionRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- MemberFunctionRecord(TypeIndex ReturnType, TypeIndex ClassType,
- TypeIndex ThisType, CallingConvention CallConv,
- FunctionOptions Options, uint16_t ParameterCount,
- TypeIndex ArgumentList, int32_t ThisPointerAdjustment)
- : TypeRecord(TypeRecordKind::MemberFunction), ReturnType(ReturnType),
- ClassType(ClassType), ThisType(ThisType), CallConv(CallConv),
- Options(Options), ParameterCount(ParameterCount),
- ArgumentList(ArgumentList),
- ThisPointerAdjustment(ThisPointerAdjustment) {}
-
- TypeIndex getReturnType() const { return ReturnType; }
- TypeIndex getClassType() const { return ClassType; }
- TypeIndex getThisType() const { return ThisType; }
- CallingConvention getCallConv() const { return CallConv; }
- FunctionOptions getOptions() const { return Options; }
- uint16_t getParameterCount() const { return ParameterCount; }
- TypeIndex getArgumentList() const { return ArgumentList; }
- int32_t getThisPointerAdjustment() const { return ThisPointerAdjustment; }
-
- TypeIndex ReturnType;
- TypeIndex ClassType;
- TypeIndex ThisType;
- CallingConvention CallConv;
- FunctionOptions Options;
- uint16_t ParameterCount;
- TypeIndex ArgumentList;
- int32_t ThisPointerAdjustment;
-};
-
-// LF_LABEL
-class LabelRecord : public TypeRecord {
-public:
- LabelRecord() = default;
- explicit LabelRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- LabelRecord(LabelType Mode) : TypeRecord(TypeRecordKind::Label), Mode(Mode) {}
-
- LabelType Mode;
-};
-
-// LF_MFUNC_ID
-class MemberFuncIdRecord : public TypeRecord {
-public:
- MemberFuncIdRecord() = default;
- explicit MemberFuncIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- MemberFuncIdRecord(TypeIndex ClassType, TypeIndex FunctionType,
- StringRef Name)
- : TypeRecord(TypeRecordKind::MemberFuncId), ClassType(ClassType),
- FunctionType(FunctionType), Name(Name) {}
-
- TypeIndex getClassType() const { return ClassType; }
- TypeIndex getFunctionType() const { return FunctionType; }
- StringRef getName() const { return Name; }
-
- TypeIndex ClassType;
- TypeIndex FunctionType;
- StringRef Name;
-};
-
-// LF_ARGLIST
-class ArgListRecord : public TypeRecord {
-public:
- ArgListRecord() = default;
- explicit ArgListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- ArgListRecord(TypeRecordKind Kind, ArrayRef<TypeIndex> Indices)
- : TypeRecord(Kind), ArgIndices(Indices) {}
-
- ArrayRef<TypeIndex> getIndices() const { return ArgIndices; }
-
- std::vector<TypeIndex> ArgIndices;
-};
-
-// LF_SUBSTR_LIST
-class StringListRecord : public TypeRecord {
-public:
- StringListRecord() = default;
- explicit StringListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- StringListRecord(TypeRecordKind Kind, ArrayRef<TypeIndex> Indices)
- : TypeRecord(Kind), StringIndices(Indices) {}
-
- ArrayRef<TypeIndex> getIndices() const { return StringIndices; }
-
- std::vector<TypeIndex> StringIndices;
-};
-
-// LF_POINTER
-class PointerRecord : public TypeRecord {
-public:
- static const uint32_t PointerKindShift = 0;
- static const uint32_t PointerKindMask = 0x1F;
-
- static const uint32_t PointerModeShift = 5;
- static const uint32_t PointerModeMask = 0x07;
-
- static const uint32_t PointerOptionMask = 0xFF;
-
- static const uint32_t PointerSizeShift = 13;
- static const uint32_t PointerSizeMask = 0xFF;
-
- PointerRecord() = default;
- explicit PointerRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- PointerRecord(TypeIndex ReferentType, uint32_t Attrs)
- : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
- Attrs(Attrs) {}
-
- PointerRecord(TypeIndex ReferentType, PointerKind PK, PointerMode PM,
- PointerOptions PO, uint8_t Size)
- : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
- Attrs(calcAttrs(PK, PM, PO, Size)) {}
-
- PointerRecord(TypeIndex ReferentType, PointerKind PK, PointerMode PM,
- PointerOptions PO, uint8_t Size, const MemberPointerInfo &MPI)
- : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
- Attrs(calcAttrs(PK, PM, PO, Size)), MemberInfo(MPI) {}
-
- TypeIndex getReferentType() const { return ReferentType; }
-
- PointerKind getPointerKind() const {
- return static_cast<PointerKind>((Attrs >> PointerKindShift) &
- PointerKindMask);
- }
-
- PointerMode getMode() const {
- return static_cast<PointerMode>((Attrs >> PointerModeShift) &
- PointerModeMask);
- }
-
- PointerOptions getOptions() const {
- return static_cast<PointerOptions>(Attrs);
- }
-
- uint8_t getSize() const {
- return (Attrs >> PointerSizeShift) & PointerSizeMask;
- }
-
- MemberPointerInfo getMemberInfo() const { return *MemberInfo; }
-
- bool isPointerToMember() const {
- return getMode() == PointerMode::PointerToDataMember ||
- getMode() == PointerMode::PointerToMemberFunction;
- }
-
- bool isFlat() const { return !!(Attrs & uint32_t(PointerOptions::Flat32)); }
- bool isConst() const { return !!(Attrs & uint32_t(PointerOptions::Const)); }
-
- bool isVolatile() const {
- return !!(Attrs & uint32_t(PointerOptions::Volatile));
- }
-
- bool isUnaligned() const {
- return !!(Attrs & uint32_t(PointerOptions::Unaligned));
- }
-
- bool isRestrict() const {
- return !!(Attrs & uint32_t(PointerOptions::Restrict));
- }
-
- TypeIndex ReferentType;
- uint32_t Attrs;
- Optional<MemberPointerInfo> MemberInfo;
-
- void setAttrs(PointerKind PK, PointerMode PM, PointerOptions PO,
- uint8_t Size) {
- Attrs = calcAttrs(PK, PM, PO, Size);
- }
-
-private:
- static uint32_t calcAttrs(PointerKind PK, PointerMode PM, PointerOptions PO,
- uint8_t Size) {
- uint32_t A = 0;
- A |= static_cast<uint32_t>(PK);
- A |= static_cast<uint32_t>(PO);
- A |= (static_cast<uint32_t>(PM) << PointerModeShift);
- A |= (static_cast<uint32_t>(Size) << PointerSizeShift);
- return A;
- }
-};
-
-// LF_NESTTYPE
-class NestedTypeRecord : public TypeRecord {
-public:
- NestedTypeRecord() = default;
- explicit NestedTypeRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- NestedTypeRecord(TypeIndex Type, StringRef Name)
- : TypeRecord(TypeRecordKind::NestedType), Type(Type), Name(Name) {}
-
- TypeIndex getNestedType() const { return Type; }
- StringRef getName() const { return Name; }
-
- TypeIndex Type;
- StringRef Name;
-};
-
-// LF_FIELDLIST
-class FieldListRecord : public TypeRecord {
-public:
- FieldListRecord() = default;
- explicit FieldListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- explicit FieldListRecord(ArrayRef<uint8_t> Data)
- : TypeRecord(TypeRecordKind::FieldList), Data(Data) {}
-
- ArrayRef<uint8_t> Data;
-};
-
-// LF_ARRAY
-class ArrayRecord : public TypeRecord {
-public:
- ArrayRecord() = default;
- explicit ArrayRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- ArrayRecord(TypeIndex ElementType, TypeIndex IndexType, uint64_t Size,
- StringRef Name)
- : TypeRecord(TypeRecordKind::Array), ElementType(ElementType),
- IndexType(IndexType), Size(Size), Name(Name) {}
-
- TypeIndex getElementType() const { return ElementType; }
- TypeIndex getIndexType() const { return IndexType; }
- uint64_t getSize() const { return Size; }
- StringRef getName() const { return Name; }
-
- TypeIndex ElementType;
- TypeIndex IndexType;
- uint64_t Size;
- StringRef Name;
-};
-
-class TagRecord : public TypeRecord {
-protected:
- TagRecord() = default;
- explicit TagRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- TagRecord(TypeRecordKind Kind, uint16_t MemberCount, ClassOptions Options,
- TypeIndex FieldList, StringRef Name, StringRef UniqueName)
- : TypeRecord(Kind), MemberCount(MemberCount), Options(Options),
- FieldList(FieldList), Name(Name), UniqueName(UniqueName) {}
-
-public:
- static const int HfaKindShift = 11;
- static const int HfaKindMask = 0x1800;
- static const int WinRTKindShift = 14;
- static const int WinRTKindMask = 0xC000;
-
- bool hasUniqueName() const {
- return (Options & ClassOptions::HasUniqueName) != ClassOptions::None;
- }
-
- bool isNested() const {
- return (Options & ClassOptions::Nested) != ClassOptions::None;
- }
-
- bool isForwardRef() const {
- return (Options & ClassOptions::ForwardReference) != ClassOptions::None;
- }
-
- uint16_t getMemberCount() const { return MemberCount; }
- ClassOptions getOptions() const { return Options; }
- TypeIndex getFieldList() const { return FieldList; }
- StringRef getName() const { return Name; }
- StringRef getUniqueName() const { return UniqueName; }
-
- uint16_t MemberCount;
- ClassOptions Options;
- TypeIndex FieldList;
- StringRef Name;
- StringRef UniqueName;
-};
-
-// LF_CLASS, LF_STRUCTURE, LF_INTERFACE
-class ClassRecord : public TagRecord {
-public:
- ClassRecord() = default;
- explicit ClassRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
- ClassRecord(TypeRecordKind Kind, uint16_t MemberCount, ClassOptions Options,
- TypeIndex FieldList, TypeIndex DerivationList,
- TypeIndex VTableShape, uint64_t Size, StringRef Name,
- StringRef UniqueName)
- : TagRecord(Kind, MemberCount, Options, FieldList, Name, UniqueName),
- DerivationList(DerivationList), VTableShape(VTableShape), Size(Size) {}
-
- HfaKind getHfa() const {
- uint16_t Value = static_cast<uint16_t>(Options);
- Value = (Value & HfaKindMask) >> HfaKindShift;
- return static_cast<HfaKind>(Value);
- }
-
- WindowsRTClassKind getWinRTKind() const {
- uint16_t Value = static_cast<uint16_t>(Options);
- Value = (Value & WinRTKindMask) >> WinRTKindShift;
- return static_cast<WindowsRTClassKind>(Value);
- }
-
- TypeIndex getDerivationList() const { return DerivationList; }
- TypeIndex getVTableShape() const { return VTableShape; }
- uint64_t getSize() const { return Size; }
-
- TypeIndex DerivationList;
- TypeIndex VTableShape;
- uint64_t Size;
-};
-
-// LF_UNION
-struct UnionRecord : public TagRecord {
- UnionRecord() = default;
- explicit UnionRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
- UnionRecord(uint16_t MemberCount, ClassOptions Options, TypeIndex FieldList,
- uint64_t Size, StringRef Name, StringRef UniqueName)
- : TagRecord(TypeRecordKind::Union, MemberCount, Options, FieldList, Name,
- UniqueName),
- Size(Size) {}
-
- HfaKind getHfa() const {
- uint16_t Value = static_cast<uint16_t>(Options);
- Value = (Value & HfaKindMask) >> HfaKindShift;
- return static_cast<HfaKind>(Value);
- }
-
- uint64_t getSize() const { return Size; }
-
- uint64_t Size;
-};
-
-// LF_ENUM
-class EnumRecord : public TagRecord {
-public:
- EnumRecord() = default;
- explicit EnumRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
- EnumRecord(uint16_t MemberCount, ClassOptions Options, TypeIndex FieldList,
- StringRef Name, StringRef UniqueName, TypeIndex UnderlyingType)
- : TagRecord(TypeRecordKind::Enum, MemberCount, Options, FieldList, Name,
- UniqueName),
- UnderlyingType(UnderlyingType) {}
-
- TypeIndex getUnderlyingType() const { return UnderlyingType; }
-
- TypeIndex UnderlyingType;
-};
-
-// LF_BITFIELD
-class BitFieldRecord : public TypeRecord {
-public:
- BitFieldRecord() = default;
- explicit BitFieldRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- BitFieldRecord(TypeIndex Type, uint8_t BitSize, uint8_t BitOffset)
- : TypeRecord(TypeRecordKind::BitField), Type(Type), BitSize(BitSize),
- BitOffset(BitOffset) {}
-
- TypeIndex getType() const { return Type; }
- uint8_t getBitOffset() const { return BitOffset; }
- uint8_t getBitSize() const { return BitSize; }
-
- TypeIndex Type;
- uint8_t BitSize;
- uint8_t BitOffset;
-};
-
-// LF_VTSHAPE
-class VFTableShapeRecord : public TypeRecord {
-public:
- VFTableShapeRecord() = default;
- explicit VFTableShapeRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- explicit VFTableShapeRecord(ArrayRef<VFTableSlotKind> Slots)
- : TypeRecord(TypeRecordKind::VFTableShape), SlotsRef(Slots) {}
- explicit VFTableShapeRecord(std::vector<VFTableSlotKind> Slots)
- : TypeRecord(TypeRecordKind::VFTableShape), Slots(std::move(Slots)) {}
-
- ArrayRef<VFTableSlotKind> getSlots() const {
- if (!SlotsRef.empty())
- return SlotsRef;
- return Slots;
- }
-
- uint32_t getEntryCount() const { return getSlots().size(); }
-
- ArrayRef<VFTableSlotKind> SlotsRef;
- std::vector<VFTableSlotKind> Slots;
-};
-
-// LF_TYPESERVER2
-class TypeServer2Record : public TypeRecord {
-public:
- TypeServer2Record() = default;
- explicit TypeServer2Record(TypeRecordKind Kind) : TypeRecord(Kind) {}
- TypeServer2Record(StringRef GuidStr, uint32_t Age, StringRef Name)
- : TypeRecord(TypeRecordKind::TypeServer2), Age(Age), Name(Name) {
- assert(GuidStr.size() == 16 && "guid isn't 16 bytes");
- ::memcpy(Guid.Guid, GuidStr.data(), 16);
- }
-
- const GUID &getGuid() const { return Guid; }
- uint32_t getAge() const { return Age; }
- StringRef getName() const { return Name; }
-
- GUID Guid;
- uint32_t Age;
- StringRef Name;
-};
-
-// LF_STRING_ID
-class StringIdRecord : public TypeRecord {
-public:
- StringIdRecord() = default;
- explicit StringIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- StringIdRecord(TypeIndex Id, StringRef String)
- : TypeRecord(TypeRecordKind::StringId), Id(Id), String(String) {}
-
- TypeIndex getId() const { return Id; }
- StringRef getString() const { return String; }
-
- TypeIndex Id;
- StringRef String;
-};
-
-// LF_FUNC_ID
-class FuncIdRecord : public TypeRecord {
-public:
- FuncIdRecord() = default;
- explicit FuncIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- FuncIdRecord(TypeIndex ParentScope, TypeIndex FunctionType, StringRef Name)
- : TypeRecord(TypeRecordKind::FuncId), ParentScope(ParentScope),
- FunctionType(FunctionType), Name(Name) {}
-
- TypeIndex getParentScope() const { return ParentScope; }
- TypeIndex getFunctionType() const { return FunctionType; }
- StringRef getName() const { return Name; }
-
- TypeIndex ParentScope;
- TypeIndex FunctionType;
- StringRef Name;
-};
-
-// LF_UDT_SRC_LINE
-class UdtSourceLineRecord : public TypeRecord {
-public:
- UdtSourceLineRecord() = default;
- explicit UdtSourceLineRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- UdtSourceLineRecord(TypeIndex UDT, TypeIndex SourceFile, uint32_t LineNumber)
- : TypeRecord(TypeRecordKind::UdtSourceLine), UDT(UDT),
- SourceFile(SourceFile), LineNumber(LineNumber) {}
-
- TypeIndex getUDT() const { return UDT; }
- TypeIndex getSourceFile() const { return SourceFile; }
- uint32_t getLineNumber() const { return LineNumber; }
-
- TypeIndex UDT;
- TypeIndex SourceFile;
- uint32_t LineNumber;
-};
-
-// LF_UDT_MOD_SRC_LINE
-class UdtModSourceLineRecord : public TypeRecord {
-public:
- UdtModSourceLineRecord() = default;
- explicit UdtModSourceLineRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- UdtModSourceLineRecord(TypeIndex UDT, TypeIndex SourceFile,
- uint32_t LineNumber, uint16_t Module)
- : TypeRecord(TypeRecordKind::UdtSourceLine), UDT(UDT),
- SourceFile(SourceFile), LineNumber(LineNumber), Module(Module) {}
-
- TypeIndex getUDT() const { return UDT; }
- TypeIndex getSourceFile() const { return SourceFile; }
- uint32_t getLineNumber() const { return LineNumber; }
- uint16_t getModule() const { return Module; }
-
- TypeIndex UDT;
- TypeIndex SourceFile;
- uint32_t LineNumber;
- uint16_t Module;
-};
-
-// LF_BUILDINFO
-class BuildInfoRecord : public TypeRecord {
-public:
- BuildInfoRecord() = default;
- explicit BuildInfoRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- BuildInfoRecord(ArrayRef<TypeIndex> ArgIndices)
- : TypeRecord(TypeRecordKind::BuildInfo),
- ArgIndices(ArgIndices.begin(), ArgIndices.end()) {}
-
- ArrayRef<TypeIndex> getArgs() const { return ArgIndices; }
-
- SmallVector<TypeIndex, 4> ArgIndices;
-};
-
-// LF_VFTABLE
-class VFTableRecord : public TypeRecord {
-public:
- VFTableRecord() = default;
- explicit VFTableRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- VFTableRecord(TypeIndex CompleteClass, TypeIndex OverriddenVFTable,
- uint32_t VFPtrOffset, StringRef Name,
- ArrayRef<StringRef> Methods)
- : TypeRecord(TypeRecordKind::VFTable), CompleteClass(CompleteClass),
- OverriddenVFTable(OverriddenVFTable), VFPtrOffset(VFPtrOffset) {
- MethodNames.push_back(Name);
- MethodNames.insert(MethodNames.end(), Methods.begin(), Methods.end());
- }
-
- TypeIndex getCompleteClass() const { return CompleteClass; }
- TypeIndex getOverriddenVTable() const { return OverriddenVFTable; }
- uint32_t getVFPtrOffset() const { return VFPtrOffset; }
- StringRef getName() const { return makeArrayRef(MethodNames).front(); }
-
- ArrayRef<StringRef> getMethodNames() const {
- return makeArrayRef(MethodNames).drop_front();
- }
-
- TypeIndex CompleteClass;
- TypeIndex OverriddenVFTable;
- uint32_t VFPtrOffset;
- std::vector<StringRef> MethodNames;
-};
-
-// LF_ONEMETHOD
-class OneMethodRecord : public TypeRecord {
-public:
- OneMethodRecord() = default;
- explicit OneMethodRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- OneMethodRecord(TypeIndex Type, MemberAttributes Attrs, int32_t VFTableOffset,
- StringRef Name)
- : TypeRecord(TypeRecordKind::OneMethod), Type(Type), Attrs(Attrs),
- VFTableOffset(VFTableOffset), Name(Name) {}
- OneMethodRecord(TypeIndex Type, MemberAccess Access, MethodKind MK,
- MethodOptions Options, int32_t VFTableOffset, StringRef Name)
- : TypeRecord(TypeRecordKind::OneMethod), Type(Type),
- Attrs(Access, MK, Options), VFTableOffset(VFTableOffset), Name(Name) {}
-
- TypeIndex getType() const { return Type; }
- MethodKind getMethodKind() const { return Attrs.getMethodKind(); }
- MethodOptions getOptions() const { return Attrs.getFlags(); }
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- int32_t getVFTableOffset() const { return VFTableOffset; }
- StringRef getName() const { return Name; }
-
- bool isIntroducingVirtual() const {
- return getMethodKind() == MethodKind::IntroducingVirtual ||
- getMethodKind() == MethodKind::PureIntroducingVirtual;
- }
-
- TypeIndex Type;
- MemberAttributes Attrs;
- int32_t VFTableOffset;
- StringRef Name;
-};
-
-// LF_METHODLIST
-class MethodOverloadListRecord : public TypeRecord {
-public:
- MethodOverloadListRecord() = default;
- explicit MethodOverloadListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- MethodOverloadListRecord(ArrayRef<OneMethodRecord> Methods)
- : TypeRecord(TypeRecordKind::MethodOverloadList), Methods(Methods) {}
-
- ArrayRef<OneMethodRecord> getMethods() const { return Methods; }
-
- std::vector<OneMethodRecord> Methods;
-};
-
-/// For method overload sets. LF_METHOD
-class OverloadedMethodRecord : public TypeRecord {
-public:
- OverloadedMethodRecord() = default;
- explicit OverloadedMethodRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- OverloadedMethodRecord(uint16_t NumOverloads, TypeIndex MethodList,
- StringRef Name)
- : TypeRecord(TypeRecordKind::OverloadedMethod),
- NumOverloads(NumOverloads), MethodList(MethodList), Name(Name) {}
-
- uint16_t getNumOverloads() const { return NumOverloads; }
- TypeIndex getMethodList() const { return MethodList; }
- StringRef getName() const { return Name; }
-
- uint16_t NumOverloads;
- TypeIndex MethodList;
- StringRef Name;
-};
-
-// LF_MEMBER
-class DataMemberRecord : public TypeRecord {
-public:
- DataMemberRecord() = default;
- explicit DataMemberRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- DataMemberRecord(MemberAttributes Attrs, TypeIndex Type, uint64_t Offset,
- StringRef Name)
- : TypeRecord(TypeRecordKind::DataMember), Attrs(Attrs), Type(Type),
- FieldOffset(Offset), Name(Name) {}
- DataMemberRecord(MemberAccess Access, TypeIndex Type, uint64_t Offset,
- StringRef Name)
- : TypeRecord(TypeRecordKind::DataMember), Attrs(Access), Type(Type),
- FieldOffset(Offset), Name(Name) {}
-
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- TypeIndex getType() const { return Type; }
- uint64_t getFieldOffset() const { return FieldOffset; }
- StringRef getName() const { return Name; }
-
- MemberAttributes Attrs;
- TypeIndex Type;
- uint64_t FieldOffset;
- StringRef Name;
-};
-
-// LF_STMEMBER
-class StaticDataMemberRecord : public TypeRecord {
-public:
- StaticDataMemberRecord() = default;
- explicit StaticDataMemberRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- StaticDataMemberRecord(MemberAttributes Attrs, TypeIndex Type, StringRef Name)
- : TypeRecord(TypeRecordKind::StaticDataMember), Attrs(Attrs), Type(Type),
- Name(Name) {}
- StaticDataMemberRecord(MemberAccess Access, TypeIndex Type, StringRef Name)
- : TypeRecord(TypeRecordKind::StaticDataMember), Attrs(Access), Type(Type),
- Name(Name) {}
-
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- TypeIndex getType() const { return Type; }
- StringRef getName() const { return Name; }
-
- MemberAttributes Attrs;
- TypeIndex Type;
- StringRef Name;
-};
-
-// LF_ENUMERATE
-class EnumeratorRecord : public TypeRecord {
-public:
- EnumeratorRecord() = default;
- explicit EnumeratorRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- EnumeratorRecord(MemberAttributes Attrs, APSInt Value, StringRef Name)
- : TypeRecord(TypeRecordKind::Enumerator), Attrs(Attrs),
- Value(std::move(Value)), Name(Name) {}
- EnumeratorRecord(MemberAccess Access, APSInt Value, StringRef Name)
- : TypeRecord(TypeRecordKind::Enumerator), Attrs(Access),
- Value(std::move(Value)), Name(Name) {}
-
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- APSInt getValue() const { return Value; }
- StringRef getName() const { return Name; }
-
- MemberAttributes Attrs;
- APSInt Value;
- StringRef Name;
-};
-
-// LF_VFUNCTAB
-class VFPtrRecord : public TypeRecord {
-public:
- VFPtrRecord() = default;
- explicit VFPtrRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- VFPtrRecord(TypeIndex Type)
- : TypeRecord(TypeRecordKind::VFPtr), Type(Type) {}
-
- TypeIndex getType() const { return Type; }
-
- TypeIndex Type;
-};
-
-// LF_BCLASS, LF_BINTERFACE
-class BaseClassRecord : public TypeRecord {
-public:
- BaseClassRecord() = default;
- explicit BaseClassRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- BaseClassRecord(MemberAttributes Attrs, TypeIndex Type, uint64_t Offset)
- : TypeRecord(TypeRecordKind::BaseClass), Attrs(Attrs), Type(Type),
- Offset(Offset) {}
- BaseClassRecord(MemberAccess Access, TypeIndex Type, uint64_t Offset)
- : TypeRecord(TypeRecordKind::BaseClass), Attrs(Access), Type(Type),
- Offset(Offset) {}
-
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- TypeIndex getBaseType() const { return Type; }
- uint64_t getBaseOffset() const { return Offset; }
-
- MemberAttributes Attrs;
- TypeIndex Type;
- uint64_t Offset;
-};
-
-// LF_VBCLASS, LF_IVBCLASS
-class VirtualBaseClassRecord : public TypeRecord {
-public:
- VirtualBaseClassRecord() = default;
- explicit VirtualBaseClassRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- VirtualBaseClassRecord(TypeRecordKind Kind, MemberAttributes Attrs,
- TypeIndex BaseType, TypeIndex VBPtrType,
- uint64_t Offset, uint64_t Index)
- : TypeRecord(Kind), Attrs(Attrs), BaseType(BaseType),
- VBPtrType(VBPtrType), VBPtrOffset(Offset), VTableIndex(Index) {}
- VirtualBaseClassRecord(TypeRecordKind Kind, MemberAccess Access,
- TypeIndex BaseType, TypeIndex VBPtrType,
- uint64_t Offset, uint64_t Index)
- : TypeRecord(Kind), Attrs(Access), BaseType(BaseType),
- VBPtrType(VBPtrType), VBPtrOffset(Offset), VTableIndex(Index) {}
-
- MemberAccess getAccess() const { return Attrs.getAccess(); }
- TypeIndex getBaseType() const { return BaseType; }
- TypeIndex getVBPtrType() const { return VBPtrType; }
- uint64_t getVBPtrOffset() const { return VBPtrOffset; }
- uint64_t getVTableIndex() const { return VTableIndex; }
-
- MemberAttributes Attrs;
- TypeIndex BaseType;
- TypeIndex VBPtrType;
- uint64_t VBPtrOffset;
- uint64_t VTableIndex;
-};
-
-/// LF_INDEX - Used to chain two large LF_FIELDLIST or LF_METHODLIST records
-/// together. The first will end in an LF_INDEX record that points to the next.
-class ListContinuationRecord : public TypeRecord {
-public:
- ListContinuationRecord() = default;
- explicit ListContinuationRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
- ListContinuationRecord(TypeIndex ContinuationIndex)
- : TypeRecord(TypeRecordKind::ListContinuation),
- ContinuationIndex(ContinuationIndex) {}
-
- TypeIndex getContinuationIndex() const { return ContinuationIndex; }
-
- TypeIndex ContinuationIndex;
-};
-
-// LF_PRECOMP
-class PrecompRecord : public TypeRecord {
-public:
- PrecompRecord() = default;
- explicit PrecompRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- uint32_t getStartTypeIndex() const { return StartTypeIndex; }
- uint32_t getTypesCount() const { return TypesCount; }
- uint32_t getSignature() const { return Signature; }
- StringRef getPrecompFilePath() const { return PrecompFilePath; }
-
- uint32_t StartTypeIndex;
- uint32_t TypesCount;
- uint32_t Signature;
- StringRef PrecompFilePath;
-};
-
-// LF_ENDPRECOMP
-class EndPrecompRecord : public TypeRecord {
-public:
- EndPrecompRecord() = default;
- explicit EndPrecompRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
-
- uint32_t getSignature() const { return Signature; }
-
- uint32_t Signature;
-};
-} // end namespace codeview
-} // end namespace llvm
-
-#endif // LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
+//===- TypeRecord.h ---------------------------------------------*- C++ -*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
+#define LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
+
+#include "llvm/ADT/APSInt.h"
+#include "llvm/ADT/ArrayRef.h"
+#include "llvm/ADT/Optional.h"
+#include "llvm/ADT/SmallVector.h"
+#include "llvm/ADT/StringRef.h"
+#include "llvm/ADT/iterator_range.h"
+#include "llvm/DebugInfo/CodeView/CVRecord.h"
+#include "llvm/DebugInfo/CodeView/CodeView.h"
+#include "llvm/DebugInfo/CodeView/GUID.h"
+#include "llvm/DebugInfo/CodeView/TypeIndex.h"
+#include "llvm/Support/BinaryStreamArray.h"
+#include "llvm/Support/Endian.h"
+#include <algorithm>
+#include <cstdint>
+#include <vector>
+
+namespace llvm {
+namespace codeview {
+
+using support::little32_t;
+using support::ulittle16_t;
+using support::ulittle32_t;
+
+using CVType = CVRecord<TypeLeafKind>;
+using RemappedType = RemappedRecord<TypeLeafKind>;
+
+struct CVMemberRecord {
+ TypeLeafKind Kind;
+ ArrayRef<uint8_t> Data;
+};
+using CVTypeArray = VarStreamArray<CVType>;
+using CVTypeRange = iterator_range<CVTypeArray::Iterator>;
+
+/// Equvalent to CV_fldattr_t in cvinfo.h.
+struct MemberAttributes {
+ uint16_t Attrs = 0;
+
+ enum {
+ MethodKindShift = 2,
+ };
+
+ MemberAttributes() = default;
+
+ explicit MemberAttributes(MemberAccess Access)
+ : Attrs(static_cast<uint16_t>(Access)) {}
+
+ MemberAttributes(MemberAccess Access, MethodKind Kind, MethodOptions Flags) {
+ Attrs = static_cast<uint16_t>(Access);
+ Attrs |= (static_cast<uint16_t>(Kind) << MethodKindShift);
+ Attrs |= static_cast<uint16_t>(Flags);
+ }
+
+ /// Get the access specifier. Valid for any kind of member.
+ MemberAccess getAccess() const {
+ return MemberAccess(unsigned(Attrs) & unsigned(MethodOptions::AccessMask));
+ }
+
+ /// Indicates if a method is defined with friend, virtual, static, etc.
+ MethodKind getMethodKind() const {
+ return MethodKind(
+ (unsigned(Attrs) & unsigned(MethodOptions::MethodKindMask)) >>
+ MethodKindShift);
+ }
+
+ /// Get the flags that are not included in access control or method
+ /// properties.
+ MethodOptions getFlags() const {
+ return MethodOptions(
+ unsigned(Attrs) &
+ ~unsigned(MethodOptions::AccessMask | MethodOptions::MethodKindMask));
+ }
+
+ /// Is this method virtual.
+ bool isVirtual() const {
+ auto MP = getMethodKind();
+ return MP != MethodKind::Vanilla && MP != MethodKind::Friend &&
+ MP != MethodKind::Static;
+ }
+
+ /// Does this member introduce a new virtual method.
+ bool isIntroducedVirtual() const {
+ auto MP = getMethodKind();
+ return MP == MethodKind::IntroducingVirtual ||
+ MP == MethodKind::PureIntroducingVirtual;
+ }
+};
+
+// Does not correspond to any tag, this is the tail of an LF_POINTER record
+// if it represents a member pointer.
+class MemberPointerInfo {
+public:
+ MemberPointerInfo() = default;
+
+ MemberPointerInfo(TypeIndex ContainingType,
+ PointerToMemberRepresentation Representation)
+ : ContainingType(ContainingType), Representation(Representation) {}
+
+ TypeIndex getContainingType() const { return ContainingType; }
+ PointerToMemberRepresentation getRepresentation() const {
+ return Representation;
+ }
+
+ TypeIndex ContainingType;
+ PointerToMemberRepresentation Representation;
+};
+
+class TypeRecord {
+protected:
+ TypeRecord() = default;
+ explicit TypeRecord(TypeRecordKind Kind) : Kind(Kind) {}
+
+public:
+ TypeRecordKind getKind() const { return Kind; }
+
+ TypeRecordKind Kind;
+};
+
+// LF_MODIFIER
+class ModifierRecord : public TypeRecord {
+public:
+ ModifierRecord() = default;
+ explicit ModifierRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ ModifierRecord(TypeIndex ModifiedType, ModifierOptions Modifiers)
+ : TypeRecord(TypeRecordKind::Modifier), ModifiedType(ModifiedType),
+ Modifiers(Modifiers) {}
+
+ TypeIndex getModifiedType() const { return ModifiedType; }
+ ModifierOptions getModifiers() const { return Modifiers; }
+
+ TypeIndex ModifiedType;
+ ModifierOptions Modifiers;
+};
+
+// LF_PROCEDURE
+class ProcedureRecord : public TypeRecord {
+public:
+ ProcedureRecord() = default;
+ explicit ProcedureRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ ProcedureRecord(TypeIndex ReturnType, CallingConvention CallConv,
+ FunctionOptions Options, uint16_t ParameterCount,
+ TypeIndex ArgumentList)
+ : TypeRecord(TypeRecordKind::Procedure), ReturnType(ReturnType),
+ CallConv(CallConv), Options(Options), ParameterCount(ParameterCount),
+ ArgumentList(ArgumentList) {}
+
+ TypeIndex getReturnType() const { return ReturnType; }
+ CallingConvention getCallConv() const { return CallConv; }
+ FunctionOptions getOptions() const { return Options; }
+ uint16_t getParameterCount() const { return ParameterCount; }
+ TypeIndex getArgumentList() const { return ArgumentList; }
+
+ TypeIndex ReturnType;
+ CallingConvention CallConv;
+ FunctionOptions Options;
+ uint16_t ParameterCount;
+ TypeIndex ArgumentList;
+};
+
+// LF_MFUNCTION
+class MemberFunctionRecord : public TypeRecord {
+public:
+ MemberFunctionRecord() = default;
+ explicit MemberFunctionRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ MemberFunctionRecord(TypeIndex ReturnType, TypeIndex ClassType,
+ TypeIndex ThisType, CallingConvention CallConv,
+ FunctionOptions Options, uint16_t ParameterCount,
+ TypeIndex ArgumentList, int32_t ThisPointerAdjustment)
+ : TypeRecord(TypeRecordKind::MemberFunction), ReturnType(ReturnType),
+ ClassType(ClassType), ThisType(ThisType), CallConv(CallConv),
+ Options(Options), ParameterCount(ParameterCount),
+ ArgumentList(ArgumentList),
+ ThisPointerAdjustment(ThisPointerAdjustment) {}
+
+ TypeIndex getReturnType() const { return ReturnType; }
+ TypeIndex getClassType() const { return ClassType; }
+ TypeIndex getThisType() const { return ThisType; }
+ CallingConvention getCallConv() const { return CallConv; }
+ FunctionOptions getOptions() const { return Options; }
+ uint16_t getParameterCount() const { return ParameterCount; }
+ TypeIndex getArgumentList() const { return ArgumentList; }
+ int32_t getThisPointerAdjustment() const { return ThisPointerAdjustment; }
+
+ TypeIndex ReturnType;
+ TypeIndex ClassType;
+ TypeIndex ThisType;
+ CallingConvention CallConv;
+ FunctionOptions Options;
+ uint16_t ParameterCount;
+ TypeIndex ArgumentList;
+ int32_t ThisPointerAdjustment;
+};
+
+// LF_LABEL
+class LabelRecord : public TypeRecord {
+public:
+ LabelRecord() = default;
+ explicit LabelRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ LabelRecord(LabelType Mode) : TypeRecord(TypeRecordKind::Label), Mode(Mode) {}
+
+ LabelType Mode;
+};
+
+// LF_MFUNC_ID
+class MemberFuncIdRecord : public TypeRecord {
+public:
+ MemberFuncIdRecord() = default;
+ explicit MemberFuncIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ MemberFuncIdRecord(TypeIndex ClassType, TypeIndex FunctionType,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::MemberFuncId), ClassType(ClassType),
+ FunctionType(FunctionType), Name(Name) {}
+
+ TypeIndex getClassType() const { return ClassType; }
+ TypeIndex getFunctionType() const { return FunctionType; }
+ StringRef getName() const { return Name; }
+
+ TypeIndex ClassType;
+ TypeIndex FunctionType;
+ StringRef Name;
+};
+
+// LF_ARGLIST
+class ArgListRecord : public TypeRecord {
+public:
+ ArgListRecord() = default;
+ explicit ArgListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ ArgListRecord(TypeRecordKind Kind, ArrayRef<TypeIndex> Indices)
+ : TypeRecord(Kind), ArgIndices(Indices) {}
+
+ ArrayRef<TypeIndex> getIndices() const { return ArgIndices; }
+
+ std::vector<TypeIndex> ArgIndices;
+};
+
+// LF_SUBSTR_LIST
+class StringListRecord : public TypeRecord {
+public:
+ StringListRecord() = default;
+ explicit StringListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ StringListRecord(TypeRecordKind Kind, ArrayRef<TypeIndex> Indices)
+ : TypeRecord(Kind), StringIndices(Indices) {}
+
+ ArrayRef<TypeIndex> getIndices() const { return StringIndices; }
+
+ std::vector<TypeIndex> StringIndices;
+};
+
+// LF_POINTER
+class PointerRecord : public TypeRecord {
+public:
+ static const uint32_t PointerKindShift = 0;
+ static const uint32_t PointerKindMask = 0x1F;
+
+ static const uint32_t PointerModeShift = 5;
+ static const uint32_t PointerModeMask = 0x07;
+
+ static const uint32_t PointerOptionMask = 0xFF;
+
+ static const uint32_t PointerSizeShift = 13;
+ static const uint32_t PointerSizeMask = 0xFF;
+
+ PointerRecord() = default;
+ explicit PointerRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ PointerRecord(TypeIndex ReferentType, uint32_t Attrs)
+ : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
+ Attrs(Attrs) {}
+
+ PointerRecord(TypeIndex ReferentType, PointerKind PK, PointerMode PM,
+ PointerOptions PO, uint8_t Size)
+ : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
+ Attrs(calcAttrs(PK, PM, PO, Size)) {}
+
+ PointerRecord(TypeIndex ReferentType, PointerKind PK, PointerMode PM,
+ PointerOptions PO, uint8_t Size, const MemberPointerInfo &MPI)
+ : TypeRecord(TypeRecordKind::Pointer), ReferentType(ReferentType),
+ Attrs(calcAttrs(PK, PM, PO, Size)), MemberInfo(MPI) {}
+
+ TypeIndex getReferentType() const { return ReferentType; }
+
+ PointerKind getPointerKind() const {
+ return static_cast<PointerKind>((Attrs >> PointerKindShift) &
+ PointerKindMask);
+ }
+
+ PointerMode getMode() const {
+ return static_cast<PointerMode>((Attrs >> PointerModeShift) &
+ PointerModeMask);
+ }
+
+ PointerOptions getOptions() const {
+ return static_cast<PointerOptions>(Attrs);
+ }
+
+ uint8_t getSize() const {
+ return (Attrs >> PointerSizeShift) & PointerSizeMask;
+ }
+
+ MemberPointerInfo getMemberInfo() const { return *MemberInfo; }
+
+ bool isPointerToMember() const {
+ return getMode() == PointerMode::PointerToDataMember ||
+ getMode() == PointerMode::PointerToMemberFunction;
+ }
+
+ bool isFlat() const { return !!(Attrs & uint32_t(PointerOptions::Flat32)); }
+ bool isConst() const { return !!(Attrs & uint32_t(PointerOptions::Const)); }
+
+ bool isVolatile() const {
+ return !!(Attrs & uint32_t(PointerOptions::Volatile));
+ }
+
+ bool isUnaligned() const {
+ return !!(Attrs & uint32_t(PointerOptions::Unaligned));
+ }
+
+ bool isRestrict() const {
+ return !!(Attrs & uint32_t(PointerOptions::Restrict));
+ }
+
+ TypeIndex ReferentType;
+ uint32_t Attrs;
+ Optional<MemberPointerInfo> MemberInfo;
+
+ void setAttrs(PointerKind PK, PointerMode PM, PointerOptions PO,
+ uint8_t Size) {
+ Attrs = calcAttrs(PK, PM, PO, Size);
+ }
+
+private:
+ static uint32_t calcAttrs(PointerKind PK, PointerMode PM, PointerOptions PO,
+ uint8_t Size) {
+ uint32_t A = 0;
+ A |= static_cast<uint32_t>(PK);
+ A |= static_cast<uint32_t>(PO);
+ A |= (static_cast<uint32_t>(PM) << PointerModeShift);
+ A |= (static_cast<uint32_t>(Size) << PointerSizeShift);
+ return A;
+ }
+};
+
+// LF_NESTTYPE
+class NestedTypeRecord : public TypeRecord {
+public:
+ NestedTypeRecord() = default;
+ explicit NestedTypeRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ NestedTypeRecord(TypeIndex Type, StringRef Name)
+ : TypeRecord(TypeRecordKind::NestedType), Type(Type), Name(Name) {}
+
+ TypeIndex getNestedType() const { return Type; }
+ StringRef getName() const { return Name; }
+
+ TypeIndex Type;
+ StringRef Name;
+};
+
+// LF_FIELDLIST
+class FieldListRecord : public TypeRecord {
+public:
+ FieldListRecord() = default;
+ explicit FieldListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ explicit FieldListRecord(ArrayRef<uint8_t> Data)
+ : TypeRecord(TypeRecordKind::FieldList), Data(Data) {}
+
+ ArrayRef<uint8_t> Data;
+};
+
+// LF_ARRAY
+class ArrayRecord : public TypeRecord {
+public:
+ ArrayRecord() = default;
+ explicit ArrayRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ ArrayRecord(TypeIndex ElementType, TypeIndex IndexType, uint64_t Size,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::Array), ElementType(ElementType),
+ IndexType(IndexType), Size(Size), Name(Name) {}
+
+ TypeIndex getElementType() const { return ElementType; }
+ TypeIndex getIndexType() const { return IndexType; }
+ uint64_t getSize() const { return Size; }
+ StringRef getName() const { return Name; }
+
+ TypeIndex ElementType;
+ TypeIndex IndexType;
+ uint64_t Size;
+ StringRef Name;
+};
+
+class TagRecord : public TypeRecord {
+protected:
+ TagRecord() = default;
+ explicit TagRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ TagRecord(TypeRecordKind Kind, uint16_t MemberCount, ClassOptions Options,
+ TypeIndex FieldList, StringRef Name, StringRef UniqueName)
+ : TypeRecord(Kind), MemberCount(MemberCount), Options(Options),
+ FieldList(FieldList), Name(Name), UniqueName(UniqueName) {}
+
+public:
+ static const int HfaKindShift = 11;
+ static const int HfaKindMask = 0x1800;
+ static const int WinRTKindShift = 14;
+ static const int WinRTKindMask = 0xC000;
+
+ bool hasUniqueName() const {
+ return (Options & ClassOptions::HasUniqueName) != ClassOptions::None;
+ }
+
+ bool isNested() const {
+ return (Options & ClassOptions::Nested) != ClassOptions::None;
+ }
+
+ bool isForwardRef() const {
+ return (Options & ClassOptions::ForwardReference) != ClassOptions::None;
+ }
+
+ uint16_t getMemberCount() const { return MemberCount; }
+ ClassOptions getOptions() const { return Options; }
+ TypeIndex getFieldList() const { return FieldList; }
+ StringRef getName() const { return Name; }
+ StringRef getUniqueName() const { return UniqueName; }
+
+ uint16_t MemberCount;
+ ClassOptions Options;
+ TypeIndex FieldList;
+ StringRef Name;
+ StringRef UniqueName;
+};
+
+// LF_CLASS, LF_STRUCTURE, LF_INTERFACE
+class ClassRecord : public TagRecord {
+public:
+ ClassRecord() = default;
+ explicit ClassRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
+ ClassRecord(TypeRecordKind Kind, uint16_t MemberCount, ClassOptions Options,
+ TypeIndex FieldList, TypeIndex DerivationList,
+ TypeIndex VTableShape, uint64_t Size, StringRef Name,
+ StringRef UniqueName)
+ : TagRecord(Kind, MemberCount, Options, FieldList, Name, UniqueName),
+ DerivationList(DerivationList), VTableShape(VTableShape), Size(Size) {}
+
+ HfaKind getHfa() const {
+ uint16_t Value = static_cast<uint16_t>(Options);
+ Value = (Value & HfaKindMask) >> HfaKindShift;
+ return static_cast<HfaKind>(Value);
+ }
+
+ WindowsRTClassKind getWinRTKind() const {
+ uint16_t Value = static_cast<uint16_t>(Options);
+ Value = (Value & WinRTKindMask) >> WinRTKindShift;
+ return static_cast<WindowsRTClassKind>(Value);
+ }
+
+ TypeIndex getDerivationList() const { return DerivationList; }
+ TypeIndex getVTableShape() const { return VTableShape; }
+ uint64_t getSize() const { return Size; }
+
+ TypeIndex DerivationList;
+ TypeIndex VTableShape;
+ uint64_t Size;
+};
+
+// LF_UNION
+struct UnionRecord : public TagRecord {
+ UnionRecord() = default;
+ explicit UnionRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
+ UnionRecord(uint16_t MemberCount, ClassOptions Options, TypeIndex FieldList,
+ uint64_t Size, StringRef Name, StringRef UniqueName)
+ : TagRecord(TypeRecordKind::Union, MemberCount, Options, FieldList, Name,
+ UniqueName),
+ Size(Size) {}
+
+ HfaKind getHfa() const {
+ uint16_t Value = static_cast<uint16_t>(Options);
+ Value = (Value & HfaKindMask) >> HfaKindShift;
+ return static_cast<HfaKind>(Value);
+ }
+
+ uint64_t getSize() const { return Size; }
+
+ uint64_t Size;
+};
+
+// LF_ENUM
+class EnumRecord : public TagRecord {
+public:
+ EnumRecord() = default;
+ explicit EnumRecord(TypeRecordKind Kind) : TagRecord(Kind) {}
+ EnumRecord(uint16_t MemberCount, ClassOptions Options, TypeIndex FieldList,
+ StringRef Name, StringRef UniqueName, TypeIndex UnderlyingType)
+ : TagRecord(TypeRecordKind::Enum, MemberCount, Options, FieldList, Name,
+ UniqueName),
+ UnderlyingType(UnderlyingType) {}
+
+ TypeIndex getUnderlyingType() const { return UnderlyingType; }
+
+ TypeIndex UnderlyingType;
+};
+
+// LF_BITFIELD
+class BitFieldRecord : public TypeRecord {
+public:
+ BitFieldRecord() = default;
+ explicit BitFieldRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ BitFieldRecord(TypeIndex Type, uint8_t BitSize, uint8_t BitOffset)
+ : TypeRecord(TypeRecordKind::BitField), Type(Type), BitSize(BitSize),
+ BitOffset(BitOffset) {}
+
+ TypeIndex getType() const { return Type; }
+ uint8_t getBitOffset() const { return BitOffset; }
+ uint8_t getBitSize() const { return BitSize; }
+
+ TypeIndex Type;
+ uint8_t BitSize;
+ uint8_t BitOffset;
+};
+
+// LF_VTSHAPE
+class VFTableShapeRecord : public TypeRecord {
+public:
+ VFTableShapeRecord() = default;
+ explicit VFTableShapeRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ explicit VFTableShapeRecord(ArrayRef<VFTableSlotKind> Slots)
+ : TypeRecord(TypeRecordKind::VFTableShape), SlotsRef(Slots) {}
+ explicit VFTableShapeRecord(std::vector<VFTableSlotKind> Slots)
+ : TypeRecord(TypeRecordKind::VFTableShape), Slots(std::move(Slots)) {}
+
+ ArrayRef<VFTableSlotKind> getSlots() const {
+ if (!SlotsRef.empty())
+ return SlotsRef;
+ return Slots;
+ }
+
+ uint32_t getEntryCount() const { return getSlots().size(); }
+
+ ArrayRef<VFTableSlotKind> SlotsRef;
+ std::vector<VFTableSlotKind> Slots;
+};
+
+// LF_TYPESERVER2
+class TypeServer2Record : public TypeRecord {
+public:
+ TypeServer2Record() = default;
+ explicit TypeServer2Record(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ TypeServer2Record(StringRef GuidStr, uint32_t Age, StringRef Name)
+ : TypeRecord(TypeRecordKind::TypeServer2), Age(Age), Name(Name) {
+ assert(GuidStr.size() == 16 && "guid isn't 16 bytes");
+ ::memcpy(Guid.Guid, GuidStr.data(), 16);
+ }
+
+ const GUID &getGuid() const { return Guid; }
+ uint32_t getAge() const { return Age; }
+ StringRef getName() const { return Name; }
+
+ GUID Guid;
+ uint32_t Age;
+ StringRef Name;
+};
+
+// LF_STRING_ID
+class StringIdRecord : public TypeRecord {
+public:
+ StringIdRecord() = default;
+ explicit StringIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ StringIdRecord(TypeIndex Id, StringRef String)
+ : TypeRecord(TypeRecordKind::StringId), Id(Id), String(String) {}
+
+ TypeIndex getId() const { return Id; }
+ StringRef getString() const { return String; }
+
+ TypeIndex Id;
+ StringRef String;
+};
+
+// LF_FUNC_ID
+class FuncIdRecord : public TypeRecord {
+public:
+ FuncIdRecord() = default;
+ explicit FuncIdRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ FuncIdRecord(TypeIndex ParentScope, TypeIndex FunctionType, StringRef Name)
+ : TypeRecord(TypeRecordKind::FuncId), ParentScope(ParentScope),
+ FunctionType(FunctionType), Name(Name) {}
+
+ TypeIndex getParentScope() const { return ParentScope; }
+ TypeIndex getFunctionType() const { return FunctionType; }
+ StringRef getName() const { return Name; }
+
+ TypeIndex ParentScope;
+ TypeIndex FunctionType;
+ StringRef Name;
+};
+
+// LF_UDT_SRC_LINE
+class UdtSourceLineRecord : public TypeRecord {
+public:
+ UdtSourceLineRecord() = default;
+ explicit UdtSourceLineRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ UdtSourceLineRecord(TypeIndex UDT, TypeIndex SourceFile, uint32_t LineNumber)
+ : TypeRecord(TypeRecordKind::UdtSourceLine), UDT(UDT),
+ SourceFile(SourceFile), LineNumber(LineNumber) {}
+
+ TypeIndex getUDT() const { return UDT; }
+ TypeIndex getSourceFile() const { return SourceFile; }
+ uint32_t getLineNumber() const { return LineNumber; }
+
+ TypeIndex UDT;
+ TypeIndex SourceFile;
+ uint32_t LineNumber;
+};
+
+// LF_UDT_MOD_SRC_LINE
+class UdtModSourceLineRecord : public TypeRecord {
+public:
+ UdtModSourceLineRecord() = default;
+ explicit UdtModSourceLineRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ UdtModSourceLineRecord(TypeIndex UDT, TypeIndex SourceFile,
+ uint32_t LineNumber, uint16_t Module)
+ : TypeRecord(TypeRecordKind::UdtSourceLine), UDT(UDT),
+ SourceFile(SourceFile), LineNumber(LineNumber), Module(Module) {}
+
+ TypeIndex getUDT() const { return UDT; }
+ TypeIndex getSourceFile() const { return SourceFile; }
+ uint32_t getLineNumber() const { return LineNumber; }
+ uint16_t getModule() const { return Module; }
+
+ TypeIndex UDT;
+ TypeIndex SourceFile;
+ uint32_t LineNumber;
+ uint16_t Module;
+};
+
+// LF_BUILDINFO
+class BuildInfoRecord : public TypeRecord {
+public:
+ BuildInfoRecord() = default;
+ explicit BuildInfoRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ BuildInfoRecord(ArrayRef<TypeIndex> ArgIndices)
+ : TypeRecord(TypeRecordKind::BuildInfo),
+ ArgIndices(ArgIndices.begin(), ArgIndices.end()) {}
+
+ ArrayRef<TypeIndex> getArgs() const { return ArgIndices; }
+
+ SmallVector<TypeIndex, 4> ArgIndices;
+};
+
+// LF_VFTABLE
+class VFTableRecord : public TypeRecord {
+public:
+ VFTableRecord() = default;
+ explicit VFTableRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ VFTableRecord(TypeIndex CompleteClass, TypeIndex OverriddenVFTable,
+ uint32_t VFPtrOffset, StringRef Name,
+ ArrayRef<StringRef> Methods)
+ : TypeRecord(TypeRecordKind::VFTable), CompleteClass(CompleteClass),
+ OverriddenVFTable(OverriddenVFTable), VFPtrOffset(VFPtrOffset) {
+ MethodNames.push_back(Name);
+ MethodNames.insert(MethodNames.end(), Methods.begin(), Methods.end());
+ }
+
+ TypeIndex getCompleteClass() const { return CompleteClass; }
+ TypeIndex getOverriddenVTable() const { return OverriddenVFTable; }
+ uint32_t getVFPtrOffset() const { return VFPtrOffset; }
+ StringRef getName() const { return makeArrayRef(MethodNames).front(); }
+
+ ArrayRef<StringRef> getMethodNames() const {
+ return makeArrayRef(MethodNames).drop_front();
+ }
+
+ TypeIndex CompleteClass;
+ TypeIndex OverriddenVFTable;
+ uint32_t VFPtrOffset;
+ std::vector<StringRef> MethodNames;
+};
+
+// LF_ONEMETHOD
+class OneMethodRecord : public TypeRecord {
+public:
+ OneMethodRecord() = default;
+ explicit OneMethodRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ OneMethodRecord(TypeIndex Type, MemberAttributes Attrs, int32_t VFTableOffset,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::OneMethod), Type(Type), Attrs(Attrs),
+ VFTableOffset(VFTableOffset), Name(Name) {}
+ OneMethodRecord(TypeIndex Type, MemberAccess Access, MethodKind MK,
+ MethodOptions Options, int32_t VFTableOffset, StringRef Name)
+ : TypeRecord(TypeRecordKind::OneMethod), Type(Type),
+ Attrs(Access, MK, Options), VFTableOffset(VFTableOffset), Name(Name) {}
+
+ TypeIndex getType() const { return Type; }
+ MethodKind getMethodKind() const { return Attrs.getMethodKind(); }
+ MethodOptions getOptions() const { return Attrs.getFlags(); }
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ int32_t getVFTableOffset() const { return VFTableOffset; }
+ StringRef getName() const { return Name; }
+
+ bool isIntroducingVirtual() const {
+ return getMethodKind() == MethodKind::IntroducingVirtual ||
+ getMethodKind() == MethodKind::PureIntroducingVirtual;
+ }
+
+ TypeIndex Type;
+ MemberAttributes Attrs;
+ int32_t VFTableOffset;
+ StringRef Name;
+};
+
+// LF_METHODLIST
+class MethodOverloadListRecord : public TypeRecord {
+public:
+ MethodOverloadListRecord() = default;
+ explicit MethodOverloadListRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ MethodOverloadListRecord(ArrayRef<OneMethodRecord> Methods)
+ : TypeRecord(TypeRecordKind::MethodOverloadList), Methods(Methods) {}
+
+ ArrayRef<OneMethodRecord> getMethods() const { return Methods; }
+
+ std::vector<OneMethodRecord> Methods;
+};
+
+/// For method overload sets. LF_METHOD
+class OverloadedMethodRecord : public TypeRecord {
+public:
+ OverloadedMethodRecord() = default;
+ explicit OverloadedMethodRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ OverloadedMethodRecord(uint16_t NumOverloads, TypeIndex MethodList,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::OverloadedMethod),
+ NumOverloads(NumOverloads), MethodList(MethodList), Name(Name) {}
+
+ uint16_t getNumOverloads() const { return NumOverloads; }
+ TypeIndex getMethodList() const { return MethodList; }
+ StringRef getName() const { return Name; }
+
+ uint16_t NumOverloads;
+ TypeIndex MethodList;
+ StringRef Name;
+};
+
+// LF_MEMBER
+class DataMemberRecord : public TypeRecord {
+public:
+ DataMemberRecord() = default;
+ explicit DataMemberRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ DataMemberRecord(MemberAttributes Attrs, TypeIndex Type, uint64_t Offset,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::DataMember), Attrs(Attrs), Type(Type),
+ FieldOffset(Offset), Name(Name) {}
+ DataMemberRecord(MemberAccess Access, TypeIndex Type, uint64_t Offset,
+ StringRef Name)
+ : TypeRecord(TypeRecordKind::DataMember), Attrs(Access), Type(Type),
+ FieldOffset(Offset), Name(Name) {}
+
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ TypeIndex getType() const { return Type; }
+ uint64_t getFieldOffset() const { return FieldOffset; }
+ StringRef getName() const { return Name; }
+
+ MemberAttributes Attrs;
+ TypeIndex Type;
+ uint64_t FieldOffset;
+ StringRef Name;
+};
+
+// LF_STMEMBER
+class StaticDataMemberRecord : public TypeRecord {
+public:
+ StaticDataMemberRecord() = default;
+ explicit StaticDataMemberRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ StaticDataMemberRecord(MemberAttributes Attrs, TypeIndex Type, StringRef Name)
+ : TypeRecord(TypeRecordKind::StaticDataMember), Attrs(Attrs), Type(Type),
+ Name(Name) {}
+ StaticDataMemberRecord(MemberAccess Access, TypeIndex Type, StringRef Name)
+ : TypeRecord(TypeRecordKind::StaticDataMember), Attrs(Access), Type(Type),
+ Name(Name) {}
+
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ TypeIndex getType() const { return Type; }
+ StringRef getName() const { return Name; }
+
+ MemberAttributes Attrs;
+ TypeIndex Type;
+ StringRef Name;
+};
+
+// LF_ENUMERATE
+class EnumeratorRecord : public TypeRecord {
+public:
+ EnumeratorRecord() = default;
+ explicit EnumeratorRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ EnumeratorRecord(MemberAttributes Attrs, APSInt Value, StringRef Name)
+ : TypeRecord(TypeRecordKind::Enumerator), Attrs(Attrs),
+ Value(std::move(Value)), Name(Name) {}
+ EnumeratorRecord(MemberAccess Access, APSInt Value, StringRef Name)
+ : TypeRecord(TypeRecordKind::Enumerator), Attrs(Access),
+ Value(std::move(Value)), Name(Name) {}
+
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ APSInt getValue() const { return Value; }
+ StringRef getName() const { return Name; }
+
+ MemberAttributes Attrs;
+ APSInt Value;
+ StringRef Name;
+};
+
+// LF_VFUNCTAB
+class VFPtrRecord : public TypeRecord {
+public:
+ VFPtrRecord() = default;
+ explicit VFPtrRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ VFPtrRecord(TypeIndex Type)
+ : TypeRecord(TypeRecordKind::VFPtr), Type(Type) {}
+
+ TypeIndex getType() const { return Type; }
+
+ TypeIndex Type;
+};
+
+// LF_BCLASS, LF_BINTERFACE
+class BaseClassRecord : public TypeRecord {
+public:
+ BaseClassRecord() = default;
+ explicit BaseClassRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ BaseClassRecord(MemberAttributes Attrs, TypeIndex Type, uint64_t Offset)
+ : TypeRecord(TypeRecordKind::BaseClass), Attrs(Attrs), Type(Type),
+ Offset(Offset) {}
+ BaseClassRecord(MemberAccess Access, TypeIndex Type, uint64_t Offset)
+ : TypeRecord(TypeRecordKind::BaseClass), Attrs(Access), Type(Type),
+ Offset(Offset) {}
+
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ TypeIndex getBaseType() const { return Type; }
+ uint64_t getBaseOffset() const { return Offset; }
+
+ MemberAttributes Attrs;
+ TypeIndex Type;
+ uint64_t Offset;
+};
+
+// LF_VBCLASS, LF_IVBCLASS
+class VirtualBaseClassRecord : public TypeRecord {
+public:
+ VirtualBaseClassRecord() = default;
+ explicit VirtualBaseClassRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ VirtualBaseClassRecord(TypeRecordKind Kind, MemberAttributes Attrs,
+ TypeIndex BaseType, TypeIndex VBPtrType,
+ uint64_t Offset, uint64_t Index)
+ : TypeRecord(Kind), Attrs(Attrs), BaseType(BaseType),
+ VBPtrType(VBPtrType), VBPtrOffset(Offset), VTableIndex(Index) {}
+ VirtualBaseClassRecord(TypeRecordKind Kind, MemberAccess Access,
+ TypeIndex BaseType, TypeIndex VBPtrType,
+ uint64_t Offset, uint64_t Index)
+ : TypeRecord(Kind), Attrs(Access), BaseType(BaseType),
+ VBPtrType(VBPtrType), VBPtrOffset(Offset), VTableIndex(Index) {}
+
+ MemberAccess getAccess() const { return Attrs.getAccess(); }
+ TypeIndex getBaseType() const { return BaseType; }
+ TypeIndex getVBPtrType() const { return VBPtrType; }
+ uint64_t getVBPtrOffset() const { return VBPtrOffset; }
+ uint64_t getVTableIndex() const { return VTableIndex; }
+
+ MemberAttributes Attrs;
+ TypeIndex BaseType;
+ TypeIndex VBPtrType;
+ uint64_t VBPtrOffset;
+ uint64_t VTableIndex;
+};
+
+/// LF_INDEX - Used to chain two large LF_FIELDLIST or LF_METHODLIST records
+/// together. The first will end in an LF_INDEX record that points to the next.
+class ListContinuationRecord : public TypeRecord {
+public:
+ ListContinuationRecord() = default;
+ explicit ListContinuationRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+ ListContinuationRecord(TypeIndex ContinuationIndex)
+ : TypeRecord(TypeRecordKind::ListContinuation),
+ ContinuationIndex(ContinuationIndex) {}
+
+ TypeIndex getContinuationIndex() const { return ContinuationIndex; }
+
+ TypeIndex ContinuationIndex;
+};
+
+// LF_PRECOMP
+class PrecompRecord : public TypeRecord {
+public:
+ PrecompRecord() = default;
+ explicit PrecompRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ uint32_t getStartTypeIndex() const { return StartTypeIndex; }
+ uint32_t getTypesCount() const { return TypesCount; }
+ uint32_t getSignature() const { return Signature; }
+ StringRef getPrecompFilePath() const { return PrecompFilePath; }
+
+ uint32_t StartTypeIndex;
+ uint32_t TypesCount;
+ uint32_t Signature;
+ StringRef PrecompFilePath;
+};
+
+// LF_ENDPRECOMP
+class EndPrecompRecord : public TypeRecord {
+public:
+ EndPrecompRecord() = default;
+ explicit EndPrecompRecord(TypeRecordKind Kind) : TypeRecord(Kind) {}
+
+ uint32_t getSignature() const { return Signature; }
+
+ uint32_t Signature;
+};
+} // end namespace codeview
+} // end namespace llvm
+
+#endif // LLVM_DEBUGINFO_CODEVIEW_TYPERECORD_H
Modified: llvm/trunk/lib/DebugInfo/CodeView/RecordName.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/DebugInfo/CodeView/RecordName.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/lib/DebugInfo/CodeView/RecordName.cpp (original)
+++ llvm/trunk/lib/DebugInfo/CodeView/RecordName.cpp Mon Apr 9 17:09:15 2018
@@ -1,333 +1,333 @@
-//===- RecordName.cpp ----------------------------------------- *- C++ --*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#include "llvm/DebugInfo/CodeView/RecordName.h"
-
-#include "llvm/ADT/SmallString.h"
-#include "llvm/DebugInfo/CodeView/CVSymbolVisitor.h"
-#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
-#include "llvm/DebugInfo/CodeView/SymbolRecordMapping.h"
-#include "llvm/DebugInfo/CodeView/TypeVisitorCallbacks.h"
-#include "llvm/Support/FormatVariadic.h"
-
-using namespace llvm;
-using namespace llvm::codeview;
-
-namespace {
-class TypeNameComputer : public TypeVisitorCallbacks {
- /// The type collection. Used to calculate names of nested types.
- TypeCollection &Types;
- TypeIndex CurrentTypeIndex = TypeIndex::None();
-
- /// Name of the current type. Only valid before visitTypeEnd.
- SmallString<256> Name;
-
-public:
- explicit TypeNameComputer(TypeCollection &Types) : Types(Types) {}
-
- StringRef name() const { return Name; }
-
- /// Paired begin/end actions for all types. Receives all record data,
- /// including the fixed-length record prefix.
- Error visitTypeBegin(CVType &Record) override;
- Error visitTypeBegin(CVType &Record, TypeIndex Index) override;
- Error visitTypeEnd(CVType &Record) override;
-
-#define TYPE_RECORD(EnumName, EnumVal, Name) \
- Error visitKnownRecord(CVType &CVR, Name##Record &Record) override;
-#define TYPE_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
-#define MEMBER_RECORD(EnumName, EnumVal, Name)
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
-};
-} // namespace
-
-Error TypeNameComputer::visitTypeBegin(CVType &Record) {
- llvm_unreachable("Must call visitTypeBegin with a TypeIndex!");
- return Error::success();
-}
-
-Error TypeNameComputer::visitTypeBegin(CVType &Record, TypeIndex Index) {
- // Reset Name to the empty string. If the visitor sets it, we know it.
- Name = "";
- CurrentTypeIndex = Index;
- return Error::success();
-}
-
-Error TypeNameComputer::visitTypeEnd(CVType &CVR) { return Error::success(); }
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- FieldListRecord &FieldList) {
- Name = "<field list>";
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVRecord<TypeLeafKind> &CVR,
- StringIdRecord &String) {
- Name = String.getString();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, ArgListRecord &Args) {
- auto Indices = Args.getIndices();
- uint32_t Size = Indices.size();
- Name = "(";
- for (uint32_t I = 0; I < Size; ++I) {
- assert(Indices[I] < CurrentTypeIndex);
-
- Name.append(Types.getTypeName(Indices[I]));
- if (I + 1 != Size)
- Name.append(", ");
- }
- Name.push_back(')');
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- StringListRecord &Strings) {
- auto Indices = Strings.getIndices();
- uint32_t Size = Indices.size();
- Name = "\"";
- for (uint32_t I = 0; I < Size; ++I) {
- Name.append(Types.getTypeName(Indices[I]));
- if (I + 1 != Size)
- Name.append("\" \"");
- }
- Name.push_back('\"');
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, ClassRecord &Class) {
- Name = Class.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, UnionRecord &Union) {
- Name = Union.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
- Name = Enum.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
- Name = AT.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, VFTableRecord &VFT) {
- Name = VFT.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, MemberFuncIdRecord &Id) {
- Name = Id.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, ProcedureRecord &Proc) {
- StringRef Ret = Types.getTypeName(Proc.getReturnType());
- StringRef Params = Types.getTypeName(Proc.getArgumentList());
- Name = formatv("{0} {1}", Ret, Params).sstr<256>();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- MemberFunctionRecord &MF) {
- StringRef Ret = Types.getTypeName(MF.getReturnType());
- StringRef Class = Types.getTypeName(MF.getClassType());
- StringRef Params = Types.getTypeName(MF.getArgumentList());
- Name = formatv("{0} {1}::{2}", Ret, Class, Params).sstr<256>();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, FuncIdRecord &Func) {
- Name = Func.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, TypeServer2Record &TS) {
- Name = TS.getName();
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, PointerRecord &Ptr) {
-
- if (Ptr.isPointerToMember()) {
- const MemberPointerInfo &MI = Ptr.getMemberInfo();
-
- StringRef Pointee = Types.getTypeName(Ptr.getReferentType());
- StringRef Class = Types.getTypeName(MI.getContainingType());
- Name = formatv("{0} {1}::*", Pointee, Class);
- } else {
- Name.append(Types.getTypeName(Ptr.getReferentType()));
-
- if (Ptr.getMode() == PointerMode::LValueReference)
- Name.append("&");
- else if (Ptr.getMode() == PointerMode::RValueReference)
- Name.append("&&");
- else if (Ptr.getMode() == PointerMode::Pointer)
- Name.append("*");
-
- // Qualifiers in pointer records apply to the pointer, not the pointee, so
- // they go on the right.
- if (Ptr.isConst())
- Name.append(" const");
- if (Ptr.isVolatile())
- Name.append(" volatile");
- if (Ptr.isUnaligned())
- Name.append(" __unaligned");
- if (Ptr.isRestrict())
- Name.append(" __restrict");
- }
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, ModifierRecord &Mod) {
- uint16_t Mods = static_cast<uint16_t>(Mod.getModifiers());
-
- if (Mods & uint16_t(ModifierOptions::Const))
- Name.append("const ");
- if (Mods & uint16_t(ModifierOptions::Volatile))
- Name.append("volatile ");
- if (Mods & uint16_t(ModifierOptions::Unaligned))
- Name.append("__unaligned ");
- Name.append(Types.getTypeName(Mod.getModifiedType()));
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- VFTableShapeRecord &Shape) {
- Name = formatv("<vftable {0} methods>", Shape.getEntryCount());
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(
- CVType &CVR, UdtModSourceLineRecord &ModSourceLine) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- UdtSourceLineRecord &SourceLine) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, BitFieldRecord &BF) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- MethodOverloadListRecord &Overloads) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, BuildInfoRecord &BI) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR, LabelRecord &R) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- PrecompRecord &Precomp) {
- return Error::success();
-}
-
-Error TypeNameComputer::visitKnownRecord(CVType &CVR,
- EndPrecompRecord &EndPrecomp) {
- return Error::success();
-}
-
-std::string llvm::codeview::computeTypeName(TypeCollection &Types,
- TypeIndex Index) {
- TypeNameComputer Computer(Types);
- CVType Record = Types.getType(Index);
- if (auto EC = visitTypeRecord(Record, Index, Computer)) {
- consumeError(std::move(EC));
- return "<unknown UDT>";
- }
- return Computer.name();
-}
-
-static int getSymbolNameOffset(CVSymbol Sym) {
- switch (Sym.kind()) {
- // See ProcSym
- case SymbolKind::S_GPROC32:
- case SymbolKind::S_LPROC32:
- case SymbolKind::S_GPROC32_ID:
- case SymbolKind::S_LPROC32_ID:
- case SymbolKind::S_LPROC32_DPC:
- case SymbolKind::S_LPROC32_DPC_ID:
- return 35;
- // See Thunk32Sym
- case SymbolKind::S_THUNK32:
- return 21;
- // See SectionSym
- case SymbolKind::S_SECTION:
- return 16;
- // See CoffGroupSym
- case SymbolKind::S_COFFGROUP:
- return 14;
- // See PublicSym32, FileStaticSym, RegRelativeSym, DataSym, ThreadLocalDataSym
- case SymbolKind::S_PUB32:
- case SymbolKind::S_FILESTATIC:
- case SymbolKind::S_REGREL32:
- case SymbolKind::S_GDATA32:
- case SymbolKind::S_LDATA32:
- case SymbolKind::S_LMANDATA:
- case SymbolKind::S_GMANDATA:
- case SymbolKind::S_LTHREAD32:
- case SymbolKind::S_GTHREAD32:
- return 10;
- // See RegisterSym and LocalSym
- case SymbolKind::S_REGISTER:
- case SymbolKind::S_LOCAL:
- return 6;
- // See BlockSym
- case SymbolKind::S_BLOCK32:
- return 18;
- // See LabelSym
- case SymbolKind::S_LABEL32:
- return 7;
- // See ObjNameSym, ExportSym, and UDTSym
- case SymbolKind::S_OBJNAME:
- case SymbolKind::S_EXPORT:
- case SymbolKind::S_UDT:
- return 4;
- // See BPRelativeSym
- case SymbolKind::S_BPREL32:
- return 8;
- default:
- return -1;
- }
-}
-
-StringRef llvm::codeview::getSymbolName(CVSymbol Sym) {
- if (Sym.kind() == SymbolKind::S_CONSTANT) {
- // S_CONSTANT is preceded by an APSInt, which has a variable length. So we
- // have to do a full deserialization.
- BinaryStreamReader Reader(Sym.content(), llvm::support::little);
- // The container doesn't matter for single records.
- SymbolRecordMapping Mapping(Reader, CodeViewContainer::ObjectFile);
- ConstantSym Const(SymbolKind::S_CONSTANT);
- cantFail(Mapping.visitSymbolBegin(Sym));
- cantFail(Mapping.visitKnownRecord(Sym, Const));
- cantFail(Mapping.visitSymbolEnd(Sym));
- return Const.Name;
- }
-
- int Offset = getSymbolNameOffset(Sym);
- if (Offset == -1)
- return StringRef();
-
- StringRef StringData = toStringRef(Sym.content()).drop_front(Offset);
- return StringData.split('\0').first;
-}
+//===- RecordName.cpp ----------------------------------------- *- C++ --*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/DebugInfo/CodeView/RecordName.h"
+
+#include "llvm/ADT/SmallString.h"
+#include "llvm/DebugInfo/CodeView/CVSymbolVisitor.h"
+#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
+#include "llvm/DebugInfo/CodeView/SymbolRecordMapping.h"
+#include "llvm/DebugInfo/CodeView/TypeVisitorCallbacks.h"
+#include "llvm/Support/FormatVariadic.h"
+
+using namespace llvm;
+using namespace llvm::codeview;
+
+namespace {
+class TypeNameComputer : public TypeVisitorCallbacks {
+ /// The type collection. Used to calculate names of nested types.
+ TypeCollection &Types;
+ TypeIndex CurrentTypeIndex = TypeIndex::None();
+
+ /// Name of the current type. Only valid before visitTypeEnd.
+ SmallString<256> Name;
+
+public:
+ explicit TypeNameComputer(TypeCollection &Types) : Types(Types) {}
+
+ StringRef name() const { return Name; }
+
+ /// Paired begin/end actions for all types. Receives all record data,
+ /// including the fixed-length record prefix.
+ Error visitTypeBegin(CVType &Record) override;
+ Error visitTypeBegin(CVType &Record, TypeIndex Index) override;
+ Error visitTypeEnd(CVType &Record) override;
+
+#define TYPE_RECORD(EnumName, EnumVal, Name) \
+ Error visitKnownRecord(CVType &CVR, Name##Record &Record) override;
+#define TYPE_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
+#define MEMBER_RECORD(EnumName, EnumVal, Name)
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+};
+} // namespace
+
+Error TypeNameComputer::visitTypeBegin(CVType &Record) {
+ llvm_unreachable("Must call visitTypeBegin with a TypeIndex!");
+ return Error::success();
+}
+
+Error TypeNameComputer::visitTypeBegin(CVType &Record, TypeIndex Index) {
+ // Reset Name to the empty string. If the visitor sets it, we know it.
+ Name = "";
+ CurrentTypeIndex = Index;
+ return Error::success();
+}
+
+Error TypeNameComputer::visitTypeEnd(CVType &CVR) { return Error::success(); }
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ FieldListRecord &FieldList) {
+ Name = "<field list>";
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVRecord<TypeLeafKind> &CVR,
+ StringIdRecord &String) {
+ Name = String.getString();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, ArgListRecord &Args) {
+ auto Indices = Args.getIndices();
+ uint32_t Size = Indices.size();
+ Name = "(";
+ for (uint32_t I = 0; I < Size; ++I) {
+ assert(Indices[I] < CurrentTypeIndex);
+
+ Name.append(Types.getTypeName(Indices[I]));
+ if (I + 1 != Size)
+ Name.append(", ");
+ }
+ Name.push_back(')');
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ StringListRecord &Strings) {
+ auto Indices = Strings.getIndices();
+ uint32_t Size = Indices.size();
+ Name = "\"";
+ for (uint32_t I = 0; I < Size; ++I) {
+ Name.append(Types.getTypeName(Indices[I]));
+ if (I + 1 != Size)
+ Name.append("\" \"");
+ }
+ Name.push_back('\"');
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, ClassRecord &Class) {
+ Name = Class.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, UnionRecord &Union) {
+ Name = Union.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
+ Name = Enum.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
+ Name = AT.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, VFTableRecord &VFT) {
+ Name = VFT.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, MemberFuncIdRecord &Id) {
+ Name = Id.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, ProcedureRecord &Proc) {
+ StringRef Ret = Types.getTypeName(Proc.getReturnType());
+ StringRef Params = Types.getTypeName(Proc.getArgumentList());
+ Name = formatv("{0} {1}", Ret, Params).sstr<256>();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ MemberFunctionRecord &MF) {
+ StringRef Ret = Types.getTypeName(MF.getReturnType());
+ StringRef Class = Types.getTypeName(MF.getClassType());
+ StringRef Params = Types.getTypeName(MF.getArgumentList());
+ Name = formatv("{0} {1}::{2}", Ret, Class, Params).sstr<256>();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, FuncIdRecord &Func) {
+ Name = Func.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, TypeServer2Record &TS) {
+ Name = TS.getName();
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, PointerRecord &Ptr) {
+
+ if (Ptr.isPointerToMember()) {
+ const MemberPointerInfo &MI = Ptr.getMemberInfo();
+
+ StringRef Pointee = Types.getTypeName(Ptr.getReferentType());
+ StringRef Class = Types.getTypeName(MI.getContainingType());
+ Name = formatv("{0} {1}::*", Pointee, Class);
+ } else {
+ Name.append(Types.getTypeName(Ptr.getReferentType()));
+
+ if (Ptr.getMode() == PointerMode::LValueReference)
+ Name.append("&");
+ else if (Ptr.getMode() == PointerMode::RValueReference)
+ Name.append("&&");
+ else if (Ptr.getMode() == PointerMode::Pointer)
+ Name.append("*");
+
+ // Qualifiers in pointer records apply to the pointer, not the pointee, so
+ // they go on the right.
+ if (Ptr.isConst())
+ Name.append(" const");
+ if (Ptr.isVolatile())
+ Name.append(" volatile");
+ if (Ptr.isUnaligned())
+ Name.append(" __unaligned");
+ if (Ptr.isRestrict())
+ Name.append(" __restrict");
+ }
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, ModifierRecord &Mod) {
+ uint16_t Mods = static_cast<uint16_t>(Mod.getModifiers());
+
+ if (Mods & uint16_t(ModifierOptions::Const))
+ Name.append("const ");
+ if (Mods & uint16_t(ModifierOptions::Volatile))
+ Name.append("volatile ");
+ if (Mods & uint16_t(ModifierOptions::Unaligned))
+ Name.append("__unaligned ");
+ Name.append(Types.getTypeName(Mod.getModifiedType()));
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ VFTableShapeRecord &Shape) {
+ Name = formatv("<vftable {0} methods>", Shape.getEntryCount());
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(
+ CVType &CVR, UdtModSourceLineRecord &ModSourceLine) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ UdtSourceLineRecord &SourceLine) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, BitFieldRecord &BF) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ MethodOverloadListRecord &Overloads) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, BuildInfoRecord &BI) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR, LabelRecord &R) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ PrecompRecord &Precomp) {
+ return Error::success();
+}
+
+Error TypeNameComputer::visitKnownRecord(CVType &CVR,
+ EndPrecompRecord &EndPrecomp) {
+ return Error::success();
+}
+
+std::string llvm::codeview::computeTypeName(TypeCollection &Types,
+ TypeIndex Index) {
+ TypeNameComputer Computer(Types);
+ CVType Record = Types.getType(Index);
+ if (auto EC = visitTypeRecord(Record, Index, Computer)) {
+ consumeError(std::move(EC));
+ return "<unknown UDT>";
+ }
+ return Computer.name();
+}
+
+static int getSymbolNameOffset(CVSymbol Sym) {
+ switch (Sym.kind()) {
+ // See ProcSym
+ case SymbolKind::S_GPROC32:
+ case SymbolKind::S_LPROC32:
+ case SymbolKind::S_GPROC32_ID:
+ case SymbolKind::S_LPROC32_ID:
+ case SymbolKind::S_LPROC32_DPC:
+ case SymbolKind::S_LPROC32_DPC_ID:
+ return 35;
+ // See Thunk32Sym
+ case SymbolKind::S_THUNK32:
+ return 21;
+ // See SectionSym
+ case SymbolKind::S_SECTION:
+ return 16;
+ // See CoffGroupSym
+ case SymbolKind::S_COFFGROUP:
+ return 14;
+ // See PublicSym32, FileStaticSym, RegRelativeSym, DataSym, ThreadLocalDataSym
+ case SymbolKind::S_PUB32:
+ case SymbolKind::S_FILESTATIC:
+ case SymbolKind::S_REGREL32:
+ case SymbolKind::S_GDATA32:
+ case SymbolKind::S_LDATA32:
+ case SymbolKind::S_LMANDATA:
+ case SymbolKind::S_GMANDATA:
+ case SymbolKind::S_LTHREAD32:
+ case SymbolKind::S_GTHREAD32:
+ return 10;
+ // See RegisterSym and LocalSym
+ case SymbolKind::S_REGISTER:
+ case SymbolKind::S_LOCAL:
+ return 6;
+ // See BlockSym
+ case SymbolKind::S_BLOCK32:
+ return 18;
+ // See LabelSym
+ case SymbolKind::S_LABEL32:
+ return 7;
+ // See ObjNameSym, ExportSym, and UDTSym
+ case SymbolKind::S_OBJNAME:
+ case SymbolKind::S_EXPORT:
+ case SymbolKind::S_UDT:
+ return 4;
+ // See BPRelativeSym
+ case SymbolKind::S_BPREL32:
+ return 8;
+ default:
+ return -1;
+ }
+}
+
+StringRef llvm::codeview::getSymbolName(CVSymbol Sym) {
+ if (Sym.kind() == SymbolKind::S_CONSTANT) {
+ // S_CONSTANT is preceded by an APSInt, which has a variable length. So we
+ // have to do a full deserialization.
+ BinaryStreamReader Reader(Sym.content(), llvm::support::little);
+ // The container doesn't matter for single records.
+ SymbolRecordMapping Mapping(Reader, CodeViewContainer::ObjectFile);
+ ConstantSym Const(SymbolKind::S_CONSTANT);
+ cantFail(Mapping.visitSymbolBegin(Sym));
+ cantFail(Mapping.visitKnownRecord(Sym, Const));
+ cantFail(Mapping.visitSymbolEnd(Sym));
+ return Const.Name;
+ }
+
+ int Offset = getSymbolNameOffset(Sym);
+ if (Offset == -1)
+ return StringRef();
+
+ StringRef StringData = toStringRef(Sym.content()).drop_front(Offset);
+ return StringData.split('\0').first;
+}
Modified: llvm/trunk/lib/DebugInfo/CodeView/TypeDumpVisitor.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/DebugInfo/CodeView/TypeDumpVisitor.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/lib/DebugInfo/CodeView/TypeDumpVisitor.cpp (original)
+++ llvm/trunk/lib/DebugInfo/CodeView/TypeDumpVisitor.cpp Mon Apr 9 17:09:15 2018
@@ -1,570 +1,570 @@
-//===-- TypeDumpVisitor.cpp - CodeView type info dumper ----------*- C++-*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#include "llvm/DebugInfo/CodeView/TypeDumpVisitor.h"
-
-#include "llvm/ADT/SmallString.h"
-#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
-#include "llvm/DebugInfo/CodeView/Formatters.h"
-#include "llvm/DebugInfo/CodeView/TypeCollection.h"
-#include "llvm/DebugInfo/CodeView/TypeIndex.h"
-#include "llvm/DebugInfo/CodeView/TypeRecord.h"
-#include "llvm/Support/FormatVariadic.h"
-#include "llvm/Support/ScopedPrinter.h"
-
-using namespace llvm;
-using namespace llvm::codeview;
-
-static const EnumEntry<TypeLeafKind> LeafTypeNames[] = {
-#define CV_TYPE(enum, val) {#enum, enum},
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
-};
-
-#define ENUM_ENTRY(enum_class, enum) \
- { #enum, std::underlying_type < enum_class > ::type(enum_class::enum) }
-
-static const EnumEntry<uint16_t> ClassOptionNames[] = {
- ENUM_ENTRY(ClassOptions, Packed),
- ENUM_ENTRY(ClassOptions, HasConstructorOrDestructor),
- ENUM_ENTRY(ClassOptions, HasOverloadedOperator),
- ENUM_ENTRY(ClassOptions, Nested),
- ENUM_ENTRY(ClassOptions, ContainsNestedClass),
- ENUM_ENTRY(ClassOptions, HasOverloadedAssignmentOperator),
- ENUM_ENTRY(ClassOptions, HasConversionOperator),
- ENUM_ENTRY(ClassOptions, ForwardReference),
- ENUM_ENTRY(ClassOptions, Scoped),
- ENUM_ENTRY(ClassOptions, HasUniqueName),
- ENUM_ENTRY(ClassOptions, Sealed),
- ENUM_ENTRY(ClassOptions, Intrinsic),
-};
-
-static const EnumEntry<uint8_t> MemberAccessNames[] = {
- ENUM_ENTRY(MemberAccess, None), ENUM_ENTRY(MemberAccess, Private),
- ENUM_ENTRY(MemberAccess, Protected), ENUM_ENTRY(MemberAccess, Public),
-};
-
-static const EnumEntry<uint16_t> MethodOptionNames[] = {
- ENUM_ENTRY(MethodOptions, Pseudo),
- ENUM_ENTRY(MethodOptions, NoInherit),
- ENUM_ENTRY(MethodOptions, NoConstruct),
- ENUM_ENTRY(MethodOptions, CompilerGenerated),
- ENUM_ENTRY(MethodOptions, Sealed),
-};
-
-static const EnumEntry<uint16_t> MemberKindNames[] = {
- ENUM_ENTRY(MethodKind, Vanilla),
- ENUM_ENTRY(MethodKind, Virtual),
- ENUM_ENTRY(MethodKind, Static),
- ENUM_ENTRY(MethodKind, Friend),
- ENUM_ENTRY(MethodKind, IntroducingVirtual),
- ENUM_ENTRY(MethodKind, PureVirtual),
- ENUM_ENTRY(MethodKind, PureIntroducingVirtual),
-};
-
-static const EnumEntry<uint8_t> PtrKindNames[] = {
- ENUM_ENTRY(PointerKind, Near16),
- ENUM_ENTRY(PointerKind, Far16),
- ENUM_ENTRY(PointerKind, Huge16),
- ENUM_ENTRY(PointerKind, BasedOnSegment),
- ENUM_ENTRY(PointerKind, BasedOnValue),
- ENUM_ENTRY(PointerKind, BasedOnSegmentValue),
- ENUM_ENTRY(PointerKind, BasedOnAddress),
- ENUM_ENTRY(PointerKind, BasedOnSegmentAddress),
- ENUM_ENTRY(PointerKind, BasedOnType),
- ENUM_ENTRY(PointerKind, BasedOnSelf),
- ENUM_ENTRY(PointerKind, Near32),
- ENUM_ENTRY(PointerKind, Far32),
- ENUM_ENTRY(PointerKind, Near64),
-};
-
-static const EnumEntry<uint8_t> PtrModeNames[] = {
- ENUM_ENTRY(PointerMode, Pointer),
- ENUM_ENTRY(PointerMode, LValueReference),
- ENUM_ENTRY(PointerMode, PointerToDataMember),
- ENUM_ENTRY(PointerMode, PointerToMemberFunction),
- ENUM_ENTRY(PointerMode, RValueReference),
-};
-
-static const EnumEntry<uint16_t> PtrMemberRepNames[] = {
- ENUM_ENTRY(PointerToMemberRepresentation, Unknown),
- ENUM_ENTRY(PointerToMemberRepresentation, SingleInheritanceData),
- ENUM_ENTRY(PointerToMemberRepresentation, MultipleInheritanceData),
- ENUM_ENTRY(PointerToMemberRepresentation, VirtualInheritanceData),
- ENUM_ENTRY(PointerToMemberRepresentation, GeneralData),
- ENUM_ENTRY(PointerToMemberRepresentation, SingleInheritanceFunction),
- ENUM_ENTRY(PointerToMemberRepresentation, MultipleInheritanceFunction),
- ENUM_ENTRY(PointerToMemberRepresentation, VirtualInheritanceFunction),
- ENUM_ENTRY(PointerToMemberRepresentation, GeneralFunction),
-};
-
-static const EnumEntry<uint16_t> TypeModifierNames[] = {
- ENUM_ENTRY(ModifierOptions, Const), ENUM_ENTRY(ModifierOptions, Volatile),
- ENUM_ENTRY(ModifierOptions, Unaligned),
-};
-
-static const EnumEntry<uint8_t> CallingConventions[] = {
- ENUM_ENTRY(CallingConvention, NearC),
- ENUM_ENTRY(CallingConvention, FarC),
- ENUM_ENTRY(CallingConvention, NearPascal),
- ENUM_ENTRY(CallingConvention, FarPascal),
- ENUM_ENTRY(CallingConvention, NearFast),
- ENUM_ENTRY(CallingConvention, FarFast),
- ENUM_ENTRY(CallingConvention, NearStdCall),
- ENUM_ENTRY(CallingConvention, FarStdCall),
- ENUM_ENTRY(CallingConvention, NearSysCall),
- ENUM_ENTRY(CallingConvention, FarSysCall),
- ENUM_ENTRY(CallingConvention, ThisCall),
- ENUM_ENTRY(CallingConvention, MipsCall),
- ENUM_ENTRY(CallingConvention, Generic),
- ENUM_ENTRY(CallingConvention, AlphaCall),
- ENUM_ENTRY(CallingConvention, PpcCall),
- ENUM_ENTRY(CallingConvention, SHCall),
- ENUM_ENTRY(CallingConvention, ArmCall),
- ENUM_ENTRY(CallingConvention, AM33Call),
- ENUM_ENTRY(CallingConvention, TriCall),
- ENUM_ENTRY(CallingConvention, SH5Call),
- ENUM_ENTRY(CallingConvention, M32RCall),
- ENUM_ENTRY(CallingConvention, ClrCall),
- ENUM_ENTRY(CallingConvention, Inline),
- ENUM_ENTRY(CallingConvention, NearVector),
-};
-
-static const EnumEntry<uint8_t> FunctionOptionEnum[] = {
- ENUM_ENTRY(FunctionOptions, CxxReturnUdt),
- ENUM_ENTRY(FunctionOptions, Constructor),
- ENUM_ENTRY(FunctionOptions, ConstructorWithVirtualBases),
-};
-
-static const EnumEntry<uint16_t> LabelTypeEnum[] = {
- ENUM_ENTRY(LabelType, Near), ENUM_ENTRY(LabelType, Far),
-};
-
-#undef ENUM_ENTRY
-
-static StringRef getLeafTypeName(TypeLeafKind LT) {
- switch (LT) {
-#define TYPE_RECORD(ename, value, name) \
- case ename: \
- return #name;
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
- default:
- break;
- }
- return "UnknownLeaf";
-}
-
-void TypeDumpVisitor::printTypeIndex(StringRef FieldName, TypeIndex TI) const {
- codeview::printTypeIndex(*W, FieldName, TI, TpiTypes);
-}
-
-void TypeDumpVisitor::printItemIndex(StringRef FieldName, TypeIndex TI) const {
- codeview::printTypeIndex(*W, FieldName, TI, getSourceTypes());
-}
-
-Error TypeDumpVisitor::visitTypeBegin(CVType &Record) {
- return visitTypeBegin(Record, TypeIndex::fromArrayIndex(TpiTypes.size()));
-}
-
-Error TypeDumpVisitor::visitTypeBegin(CVType &Record, TypeIndex Index) {
- W->startLine() << getLeafTypeName(Record.Type);
- W->getOStream() << " (" << HexNumber(Index.getIndex()) << ")";
- W->getOStream() << " {\n";
- W->indent();
- W->printEnum("TypeLeafKind", unsigned(Record.Type),
- makeArrayRef(LeafTypeNames));
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitTypeEnd(CVType &Record) {
- if (PrintRecordBytes)
- W->printBinaryBlock("LeafData", getBytesAsCharacters(Record.content()));
-
- W->unindent();
- W->startLine() << "}\n";
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitMemberBegin(CVMemberRecord &Record) {
- W->startLine() << getLeafTypeName(Record.Kind);
- W->getOStream() << " {\n";
- W->indent();
- W->printEnum("TypeLeafKind", unsigned(Record.Kind),
- makeArrayRef(LeafTypeNames));
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitMemberEnd(CVMemberRecord &Record) {
- if (PrintRecordBytes)
- W->printBinaryBlock("LeafData", getBytesAsCharacters(Record.Data));
-
- W->unindent();
- W->startLine() << "}\n";
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- FieldListRecord &FieldList) {
- if (auto EC = codeview::visitMemberRecordStream(FieldList.Data, *this))
- return EC;
-
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, StringIdRecord &String) {
- printItemIndex("Id", String.getId());
- W->printString("StringData", String.getString());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ArgListRecord &Args) {
- auto Indices = Args.getIndices();
- uint32_t Size = Indices.size();
- W->printNumber("NumArgs", Size);
- ListScope Arguments(*W, "Arguments");
- for (uint32_t I = 0; I < Size; ++I) {
- printTypeIndex("ArgType", Indices[I]);
- }
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, StringListRecord &Strs) {
- auto Indices = Strs.getIndices();
- uint32_t Size = Indices.size();
- W->printNumber("NumStrings", Size);
- ListScope Arguments(*W, "Strings");
- for (uint32_t I = 0; I < Size; ++I) {
- printItemIndex("String", Indices[I]);
- }
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ClassRecord &Class) {
- uint16_t Props = static_cast<uint16_t>(Class.getOptions());
- W->printNumber("MemberCount", Class.getMemberCount());
- W->printFlags("Properties", Props, makeArrayRef(ClassOptionNames));
- printTypeIndex("FieldList", Class.getFieldList());
- printTypeIndex("DerivedFrom", Class.getDerivationList());
- printTypeIndex("VShape", Class.getVTableShape());
- W->printNumber("SizeOf", Class.getSize());
- W->printString("Name", Class.getName());
- if (Props & uint16_t(ClassOptions::HasUniqueName))
- W->printString("LinkageName", Class.getUniqueName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, UnionRecord &Union) {
- uint16_t Props = static_cast<uint16_t>(Union.getOptions());
- W->printNumber("MemberCount", Union.getMemberCount());
- W->printFlags("Properties", Props, makeArrayRef(ClassOptionNames));
- printTypeIndex("FieldList", Union.getFieldList());
- W->printNumber("SizeOf", Union.getSize());
- W->printString("Name", Union.getName());
- if (Props & uint16_t(ClassOptions::HasUniqueName))
- W->printString("LinkageName", Union.getUniqueName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
- uint16_t Props = static_cast<uint16_t>(Enum.getOptions());
- W->printNumber("NumEnumerators", Enum.getMemberCount());
- W->printFlags("Properties", uint16_t(Enum.getOptions()),
- makeArrayRef(ClassOptionNames));
- printTypeIndex("UnderlyingType", Enum.getUnderlyingType());
- printTypeIndex("FieldListType", Enum.getFieldList());
- W->printString("Name", Enum.getName());
- if (Props & uint16_t(ClassOptions::HasUniqueName))
- W->printString("LinkageName", Enum.getUniqueName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
- printTypeIndex("ElementType", AT.getElementType());
- printTypeIndex("IndexType", AT.getIndexType());
- W->printNumber("SizeOf", AT.getSize());
- W->printString("Name", AT.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, VFTableRecord &VFT) {
- printTypeIndex("CompleteClass", VFT.getCompleteClass());
- printTypeIndex("OverriddenVFTable", VFT.getOverriddenVTable());
- W->printHex("VFPtrOffset", VFT.getVFPtrOffset());
- W->printString("VFTableName", VFT.getName());
- for (auto N : VFT.getMethodNames())
- W->printString("MethodName", N);
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, MemberFuncIdRecord &Id) {
- printTypeIndex("ClassType", Id.getClassType());
- printTypeIndex("FunctionType", Id.getFunctionType());
- W->printString("Name", Id.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ProcedureRecord &Proc) {
- printTypeIndex("ReturnType", Proc.getReturnType());
- W->printEnum("CallingConvention", uint8_t(Proc.getCallConv()),
- makeArrayRef(CallingConventions));
- W->printFlags("FunctionOptions", uint8_t(Proc.getOptions()),
- makeArrayRef(FunctionOptionEnum));
- W->printNumber("NumParameters", Proc.getParameterCount());
- printTypeIndex("ArgListType", Proc.getArgumentList());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, MemberFunctionRecord &MF) {
- printTypeIndex("ReturnType", MF.getReturnType());
- printTypeIndex("ClassType", MF.getClassType());
- printTypeIndex("ThisType", MF.getThisType());
- W->printEnum("CallingConvention", uint8_t(MF.getCallConv()),
- makeArrayRef(CallingConventions));
- W->printFlags("FunctionOptions", uint8_t(MF.getOptions()),
- makeArrayRef(FunctionOptionEnum));
- W->printNumber("NumParameters", MF.getParameterCount());
- printTypeIndex("ArgListType", MF.getArgumentList());
- W->printNumber("ThisAdjustment", MF.getThisPointerAdjustment());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- MethodOverloadListRecord &MethodList) {
- for (auto &M : MethodList.getMethods()) {
- ListScope S(*W, "Method");
- printMemberAttributes(M.getAccess(), M.getMethodKind(), M.getOptions());
- printTypeIndex("Type", M.getType());
- if (M.isIntroducingVirtual())
- W->printHex("VFTableOffset", M.getVFTableOffset());
- }
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, FuncIdRecord &Func) {
- printItemIndex("ParentScope", Func.getParentScope());
- printTypeIndex("FunctionType", Func.getFunctionType());
- W->printString("Name", Func.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, TypeServer2Record &TS) {
- W->printString("Guid", formatv("{0}", TS.getGuid()).str());
- W->printNumber("Age", TS.getAge());
- W->printString("Name", TS.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, PointerRecord &Ptr) {
- printTypeIndex("PointeeType", Ptr.getReferentType());
- W->printHex("PointerAttributes", uint32_t(Ptr.getOptions()));
- W->printEnum("PtrType", unsigned(Ptr.getPointerKind()),
- makeArrayRef(PtrKindNames));
- W->printEnum("PtrMode", unsigned(Ptr.getMode()), makeArrayRef(PtrModeNames));
-
- W->printNumber("IsFlat", Ptr.isFlat());
- W->printNumber("IsConst", Ptr.isConst());
- W->printNumber("IsVolatile", Ptr.isVolatile());
- W->printNumber("IsUnaligned", Ptr.isUnaligned());
- W->printNumber("IsRestrict", Ptr.isRestrict());
- W->printNumber("SizeOf", Ptr.getSize());
-
- if (Ptr.isPointerToMember()) {
- const MemberPointerInfo &MI = Ptr.getMemberInfo();
-
- printTypeIndex("ClassType", MI.getContainingType());
- W->printEnum("Representation", uint16_t(MI.getRepresentation()),
- makeArrayRef(PtrMemberRepNames));
- }
-
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ModifierRecord &Mod) {
- uint16_t Mods = static_cast<uint16_t>(Mod.getModifiers());
- printTypeIndex("ModifiedType", Mod.getModifiedType());
- W->printFlags("Modifiers", Mods, makeArrayRef(TypeModifierNames));
-
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, BitFieldRecord &BitField) {
- printTypeIndex("Type", BitField.getType());
- W->printNumber("BitSize", BitField.getBitSize());
- W->printNumber("BitOffset", BitField.getBitOffset());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- VFTableShapeRecord &Shape) {
- W->printNumber("VFEntryCount", Shape.getEntryCount());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- UdtSourceLineRecord &Line) {
- printTypeIndex("UDT", Line.getUDT());
- printItemIndex("SourceFile", Line.getSourceFile());
- W->printNumber("LineNumber", Line.getLineNumber());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- UdtModSourceLineRecord &Line) {
- printTypeIndex("UDT", Line.getUDT());
- printItemIndex("SourceFile", Line.getSourceFile());
- W->printNumber("LineNumber", Line.getLineNumber());
- W->printNumber("Module", Line.getModule());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, BuildInfoRecord &Args) {
- W->printNumber("NumArgs", static_cast<uint32_t>(Args.getArgs().size()));
-
- ListScope Arguments(*W, "Arguments");
- for (auto Arg : Args.getArgs()) {
- printItemIndex("ArgType", Arg);
- }
- return Error::success();
-}
-
-void TypeDumpVisitor::printMemberAttributes(MemberAttributes Attrs) {
- return printMemberAttributes(Attrs.getAccess(), Attrs.getMethodKind(),
- Attrs.getFlags());
-}
-
-void TypeDumpVisitor::printMemberAttributes(MemberAccess Access,
- MethodKind Kind,
- MethodOptions Options) {
- W->printEnum("AccessSpecifier", uint8_t(Access),
- makeArrayRef(MemberAccessNames));
- // Data members will be vanilla. Don't try to print a method kind for them.
- if (Kind != MethodKind::Vanilla)
- W->printEnum("MethodKind", unsigned(Kind), makeArrayRef(MemberKindNames));
- if (Options != MethodOptions::None) {
- W->printFlags("MethodOptions", unsigned(Options),
- makeArrayRef(MethodOptionNames));
- }
-}
-
-Error TypeDumpVisitor::visitUnknownMember(CVMemberRecord &Record) {
- W->printHex("UnknownMember", unsigned(Record.Kind));
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitUnknownType(CVType &Record) {
- W->printEnum("Kind", uint16_t(Record.kind()), makeArrayRef(LeafTypeNames));
- W->printNumber("Length", uint32_t(Record.content().size()));
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- NestedTypeRecord &Nested) {
- printTypeIndex("Type", Nested.getNestedType());
- W->printString("Name", Nested.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- OneMethodRecord &Method) {
- MethodKind K = Method.getMethodKind();
- printMemberAttributes(Method.getAccess(), K, Method.getOptions());
- printTypeIndex("Type", Method.getType());
- // If virtual, then read the vftable offset.
- if (Method.isIntroducingVirtual())
- W->printHex("VFTableOffset", Method.getVFTableOffset());
- W->printString("Name", Method.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- OverloadedMethodRecord &Method) {
- W->printHex("MethodCount", Method.getNumOverloads());
- printTypeIndex("MethodListIndex", Method.getMethodList());
- W->printString("Name", Method.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- DataMemberRecord &Field) {
- printMemberAttributes(Field.getAccess(), MethodKind::Vanilla,
- MethodOptions::None);
- printTypeIndex("Type", Field.getType());
- W->printHex("FieldOffset", Field.getFieldOffset());
- W->printString("Name", Field.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- StaticDataMemberRecord &Field) {
- printMemberAttributes(Field.getAccess(), MethodKind::Vanilla,
- MethodOptions::None);
- printTypeIndex("Type", Field.getType());
- W->printString("Name", Field.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- VFPtrRecord &VFTable) {
- printTypeIndex("Type", VFTable.getType());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- EnumeratorRecord &Enum) {
- printMemberAttributes(Enum.getAccess(), MethodKind::Vanilla,
- MethodOptions::None);
- W->printNumber("EnumValue", Enum.getValue());
- W->printString("Name", Enum.getName());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- BaseClassRecord &Base) {
- printMemberAttributes(Base.getAccess(), MethodKind::Vanilla,
- MethodOptions::None);
- printTypeIndex("BaseType", Base.getBaseType());
- W->printHex("BaseOffset", Base.getBaseOffset());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- VirtualBaseClassRecord &Base) {
- printMemberAttributes(Base.getAccess(), MethodKind::Vanilla,
- MethodOptions::None);
- printTypeIndex("BaseType", Base.getBaseType());
- printTypeIndex("VBPtrType", Base.getVBPtrType());
- W->printHex("VBPtrOffset", Base.getVBPtrOffset());
- W->printHex("VBTableIndex", Base.getVTableIndex());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- ListContinuationRecord &Cont) {
- printTypeIndex("ContinuationIndex", Cont.getContinuationIndex());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, LabelRecord &LR) {
- W->printEnum("Mode", uint16_t(LR.Mode), makeArrayRef(LabelTypeEnum));
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- PrecompRecord &Precomp) {
- W->printHex("StartIndex", Precomp.getStartTypeIndex());
- W->printHex("Count", Precomp.getTypesCount());
- W->printHex("Signature", Precomp.getSignature());
- W->printString("PrecompFile", Precomp.getPrecompFilePath());
- return Error::success();
-}
-
-Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
- EndPrecompRecord &EndPrecomp) {
- W->printHex("Signature", EndPrecomp.getSignature());
- return Error::success();
-}
+//===-- TypeDumpVisitor.cpp - CodeView type info dumper ----------*- C++-*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/DebugInfo/CodeView/TypeDumpVisitor.h"
+
+#include "llvm/ADT/SmallString.h"
+#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
+#include "llvm/DebugInfo/CodeView/Formatters.h"
+#include "llvm/DebugInfo/CodeView/TypeCollection.h"
+#include "llvm/DebugInfo/CodeView/TypeIndex.h"
+#include "llvm/DebugInfo/CodeView/TypeRecord.h"
+#include "llvm/Support/FormatVariadic.h"
+#include "llvm/Support/ScopedPrinter.h"
+
+using namespace llvm;
+using namespace llvm::codeview;
+
+static const EnumEntry<TypeLeafKind> LeafTypeNames[] = {
+#define CV_TYPE(enum, val) {#enum, enum},
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+};
+
+#define ENUM_ENTRY(enum_class, enum) \
+ { #enum, std::underlying_type < enum_class > ::type(enum_class::enum) }
+
+static const EnumEntry<uint16_t> ClassOptionNames[] = {
+ ENUM_ENTRY(ClassOptions, Packed),
+ ENUM_ENTRY(ClassOptions, HasConstructorOrDestructor),
+ ENUM_ENTRY(ClassOptions, HasOverloadedOperator),
+ ENUM_ENTRY(ClassOptions, Nested),
+ ENUM_ENTRY(ClassOptions, ContainsNestedClass),
+ ENUM_ENTRY(ClassOptions, HasOverloadedAssignmentOperator),
+ ENUM_ENTRY(ClassOptions, HasConversionOperator),
+ ENUM_ENTRY(ClassOptions, ForwardReference),
+ ENUM_ENTRY(ClassOptions, Scoped),
+ ENUM_ENTRY(ClassOptions, HasUniqueName),
+ ENUM_ENTRY(ClassOptions, Sealed),
+ ENUM_ENTRY(ClassOptions, Intrinsic),
+};
+
+static const EnumEntry<uint8_t> MemberAccessNames[] = {
+ ENUM_ENTRY(MemberAccess, None), ENUM_ENTRY(MemberAccess, Private),
+ ENUM_ENTRY(MemberAccess, Protected), ENUM_ENTRY(MemberAccess, Public),
+};
+
+static const EnumEntry<uint16_t> MethodOptionNames[] = {
+ ENUM_ENTRY(MethodOptions, Pseudo),
+ ENUM_ENTRY(MethodOptions, NoInherit),
+ ENUM_ENTRY(MethodOptions, NoConstruct),
+ ENUM_ENTRY(MethodOptions, CompilerGenerated),
+ ENUM_ENTRY(MethodOptions, Sealed),
+};
+
+static const EnumEntry<uint16_t> MemberKindNames[] = {
+ ENUM_ENTRY(MethodKind, Vanilla),
+ ENUM_ENTRY(MethodKind, Virtual),
+ ENUM_ENTRY(MethodKind, Static),
+ ENUM_ENTRY(MethodKind, Friend),
+ ENUM_ENTRY(MethodKind, IntroducingVirtual),
+ ENUM_ENTRY(MethodKind, PureVirtual),
+ ENUM_ENTRY(MethodKind, PureIntroducingVirtual),
+};
+
+static const EnumEntry<uint8_t> PtrKindNames[] = {
+ ENUM_ENTRY(PointerKind, Near16),
+ ENUM_ENTRY(PointerKind, Far16),
+ ENUM_ENTRY(PointerKind, Huge16),
+ ENUM_ENTRY(PointerKind, BasedOnSegment),
+ ENUM_ENTRY(PointerKind, BasedOnValue),
+ ENUM_ENTRY(PointerKind, BasedOnSegmentValue),
+ ENUM_ENTRY(PointerKind, BasedOnAddress),
+ ENUM_ENTRY(PointerKind, BasedOnSegmentAddress),
+ ENUM_ENTRY(PointerKind, BasedOnType),
+ ENUM_ENTRY(PointerKind, BasedOnSelf),
+ ENUM_ENTRY(PointerKind, Near32),
+ ENUM_ENTRY(PointerKind, Far32),
+ ENUM_ENTRY(PointerKind, Near64),
+};
+
+static const EnumEntry<uint8_t> PtrModeNames[] = {
+ ENUM_ENTRY(PointerMode, Pointer),
+ ENUM_ENTRY(PointerMode, LValueReference),
+ ENUM_ENTRY(PointerMode, PointerToDataMember),
+ ENUM_ENTRY(PointerMode, PointerToMemberFunction),
+ ENUM_ENTRY(PointerMode, RValueReference),
+};
+
+static const EnumEntry<uint16_t> PtrMemberRepNames[] = {
+ ENUM_ENTRY(PointerToMemberRepresentation, Unknown),
+ ENUM_ENTRY(PointerToMemberRepresentation, SingleInheritanceData),
+ ENUM_ENTRY(PointerToMemberRepresentation, MultipleInheritanceData),
+ ENUM_ENTRY(PointerToMemberRepresentation, VirtualInheritanceData),
+ ENUM_ENTRY(PointerToMemberRepresentation, GeneralData),
+ ENUM_ENTRY(PointerToMemberRepresentation, SingleInheritanceFunction),
+ ENUM_ENTRY(PointerToMemberRepresentation, MultipleInheritanceFunction),
+ ENUM_ENTRY(PointerToMemberRepresentation, VirtualInheritanceFunction),
+ ENUM_ENTRY(PointerToMemberRepresentation, GeneralFunction),
+};
+
+static const EnumEntry<uint16_t> TypeModifierNames[] = {
+ ENUM_ENTRY(ModifierOptions, Const), ENUM_ENTRY(ModifierOptions, Volatile),
+ ENUM_ENTRY(ModifierOptions, Unaligned),
+};
+
+static const EnumEntry<uint8_t> CallingConventions[] = {
+ ENUM_ENTRY(CallingConvention, NearC),
+ ENUM_ENTRY(CallingConvention, FarC),
+ ENUM_ENTRY(CallingConvention, NearPascal),
+ ENUM_ENTRY(CallingConvention, FarPascal),
+ ENUM_ENTRY(CallingConvention, NearFast),
+ ENUM_ENTRY(CallingConvention, FarFast),
+ ENUM_ENTRY(CallingConvention, NearStdCall),
+ ENUM_ENTRY(CallingConvention, FarStdCall),
+ ENUM_ENTRY(CallingConvention, NearSysCall),
+ ENUM_ENTRY(CallingConvention, FarSysCall),
+ ENUM_ENTRY(CallingConvention, ThisCall),
+ ENUM_ENTRY(CallingConvention, MipsCall),
+ ENUM_ENTRY(CallingConvention, Generic),
+ ENUM_ENTRY(CallingConvention, AlphaCall),
+ ENUM_ENTRY(CallingConvention, PpcCall),
+ ENUM_ENTRY(CallingConvention, SHCall),
+ ENUM_ENTRY(CallingConvention, ArmCall),
+ ENUM_ENTRY(CallingConvention, AM33Call),
+ ENUM_ENTRY(CallingConvention, TriCall),
+ ENUM_ENTRY(CallingConvention, SH5Call),
+ ENUM_ENTRY(CallingConvention, M32RCall),
+ ENUM_ENTRY(CallingConvention, ClrCall),
+ ENUM_ENTRY(CallingConvention, Inline),
+ ENUM_ENTRY(CallingConvention, NearVector),
+};
+
+static const EnumEntry<uint8_t> FunctionOptionEnum[] = {
+ ENUM_ENTRY(FunctionOptions, CxxReturnUdt),
+ ENUM_ENTRY(FunctionOptions, Constructor),
+ ENUM_ENTRY(FunctionOptions, ConstructorWithVirtualBases),
+};
+
+static const EnumEntry<uint16_t> LabelTypeEnum[] = {
+ ENUM_ENTRY(LabelType, Near), ENUM_ENTRY(LabelType, Far),
+};
+
+#undef ENUM_ENTRY
+
+static StringRef getLeafTypeName(TypeLeafKind LT) {
+ switch (LT) {
+#define TYPE_RECORD(ename, value, name) \
+ case ename: \
+ return #name;
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+ default:
+ break;
+ }
+ return "UnknownLeaf";
+}
+
+void TypeDumpVisitor::printTypeIndex(StringRef FieldName, TypeIndex TI) const {
+ codeview::printTypeIndex(*W, FieldName, TI, TpiTypes);
+}
+
+void TypeDumpVisitor::printItemIndex(StringRef FieldName, TypeIndex TI) const {
+ codeview::printTypeIndex(*W, FieldName, TI, getSourceTypes());
+}
+
+Error TypeDumpVisitor::visitTypeBegin(CVType &Record) {
+ return visitTypeBegin(Record, TypeIndex::fromArrayIndex(TpiTypes.size()));
+}
+
+Error TypeDumpVisitor::visitTypeBegin(CVType &Record, TypeIndex Index) {
+ W->startLine() << getLeafTypeName(Record.Type);
+ W->getOStream() << " (" << HexNumber(Index.getIndex()) << ")";
+ W->getOStream() << " {\n";
+ W->indent();
+ W->printEnum("TypeLeafKind", unsigned(Record.Type),
+ makeArrayRef(LeafTypeNames));
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitTypeEnd(CVType &Record) {
+ if (PrintRecordBytes)
+ W->printBinaryBlock("LeafData", getBytesAsCharacters(Record.content()));
+
+ W->unindent();
+ W->startLine() << "}\n";
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitMemberBegin(CVMemberRecord &Record) {
+ W->startLine() << getLeafTypeName(Record.Kind);
+ W->getOStream() << " {\n";
+ W->indent();
+ W->printEnum("TypeLeafKind", unsigned(Record.Kind),
+ makeArrayRef(LeafTypeNames));
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitMemberEnd(CVMemberRecord &Record) {
+ if (PrintRecordBytes)
+ W->printBinaryBlock("LeafData", getBytesAsCharacters(Record.Data));
+
+ W->unindent();
+ W->startLine() << "}\n";
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ FieldListRecord &FieldList) {
+ if (auto EC = codeview::visitMemberRecordStream(FieldList.Data, *this))
+ return EC;
+
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, StringIdRecord &String) {
+ printItemIndex("Id", String.getId());
+ W->printString("StringData", String.getString());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ArgListRecord &Args) {
+ auto Indices = Args.getIndices();
+ uint32_t Size = Indices.size();
+ W->printNumber("NumArgs", Size);
+ ListScope Arguments(*W, "Arguments");
+ for (uint32_t I = 0; I < Size; ++I) {
+ printTypeIndex("ArgType", Indices[I]);
+ }
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, StringListRecord &Strs) {
+ auto Indices = Strs.getIndices();
+ uint32_t Size = Indices.size();
+ W->printNumber("NumStrings", Size);
+ ListScope Arguments(*W, "Strings");
+ for (uint32_t I = 0; I < Size; ++I) {
+ printItemIndex("String", Indices[I]);
+ }
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ClassRecord &Class) {
+ uint16_t Props = static_cast<uint16_t>(Class.getOptions());
+ W->printNumber("MemberCount", Class.getMemberCount());
+ W->printFlags("Properties", Props, makeArrayRef(ClassOptionNames));
+ printTypeIndex("FieldList", Class.getFieldList());
+ printTypeIndex("DerivedFrom", Class.getDerivationList());
+ printTypeIndex("VShape", Class.getVTableShape());
+ W->printNumber("SizeOf", Class.getSize());
+ W->printString("Name", Class.getName());
+ if (Props & uint16_t(ClassOptions::HasUniqueName))
+ W->printString("LinkageName", Class.getUniqueName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, UnionRecord &Union) {
+ uint16_t Props = static_cast<uint16_t>(Union.getOptions());
+ W->printNumber("MemberCount", Union.getMemberCount());
+ W->printFlags("Properties", Props, makeArrayRef(ClassOptionNames));
+ printTypeIndex("FieldList", Union.getFieldList());
+ W->printNumber("SizeOf", Union.getSize());
+ W->printString("Name", Union.getName());
+ if (Props & uint16_t(ClassOptions::HasUniqueName))
+ W->printString("LinkageName", Union.getUniqueName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
+ uint16_t Props = static_cast<uint16_t>(Enum.getOptions());
+ W->printNumber("NumEnumerators", Enum.getMemberCount());
+ W->printFlags("Properties", uint16_t(Enum.getOptions()),
+ makeArrayRef(ClassOptionNames));
+ printTypeIndex("UnderlyingType", Enum.getUnderlyingType());
+ printTypeIndex("FieldListType", Enum.getFieldList());
+ W->printString("Name", Enum.getName());
+ if (Props & uint16_t(ClassOptions::HasUniqueName))
+ W->printString("LinkageName", Enum.getUniqueName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
+ printTypeIndex("ElementType", AT.getElementType());
+ printTypeIndex("IndexType", AT.getIndexType());
+ W->printNumber("SizeOf", AT.getSize());
+ W->printString("Name", AT.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, VFTableRecord &VFT) {
+ printTypeIndex("CompleteClass", VFT.getCompleteClass());
+ printTypeIndex("OverriddenVFTable", VFT.getOverriddenVTable());
+ W->printHex("VFPtrOffset", VFT.getVFPtrOffset());
+ W->printString("VFTableName", VFT.getName());
+ for (auto N : VFT.getMethodNames())
+ W->printString("MethodName", N);
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, MemberFuncIdRecord &Id) {
+ printTypeIndex("ClassType", Id.getClassType());
+ printTypeIndex("FunctionType", Id.getFunctionType());
+ W->printString("Name", Id.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ProcedureRecord &Proc) {
+ printTypeIndex("ReturnType", Proc.getReturnType());
+ W->printEnum("CallingConvention", uint8_t(Proc.getCallConv()),
+ makeArrayRef(CallingConventions));
+ W->printFlags("FunctionOptions", uint8_t(Proc.getOptions()),
+ makeArrayRef(FunctionOptionEnum));
+ W->printNumber("NumParameters", Proc.getParameterCount());
+ printTypeIndex("ArgListType", Proc.getArgumentList());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, MemberFunctionRecord &MF) {
+ printTypeIndex("ReturnType", MF.getReturnType());
+ printTypeIndex("ClassType", MF.getClassType());
+ printTypeIndex("ThisType", MF.getThisType());
+ W->printEnum("CallingConvention", uint8_t(MF.getCallConv()),
+ makeArrayRef(CallingConventions));
+ W->printFlags("FunctionOptions", uint8_t(MF.getOptions()),
+ makeArrayRef(FunctionOptionEnum));
+ W->printNumber("NumParameters", MF.getParameterCount());
+ printTypeIndex("ArgListType", MF.getArgumentList());
+ W->printNumber("ThisAdjustment", MF.getThisPointerAdjustment());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ MethodOverloadListRecord &MethodList) {
+ for (auto &M : MethodList.getMethods()) {
+ ListScope S(*W, "Method");
+ printMemberAttributes(M.getAccess(), M.getMethodKind(), M.getOptions());
+ printTypeIndex("Type", M.getType());
+ if (M.isIntroducingVirtual())
+ W->printHex("VFTableOffset", M.getVFTableOffset());
+ }
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, FuncIdRecord &Func) {
+ printItemIndex("ParentScope", Func.getParentScope());
+ printTypeIndex("FunctionType", Func.getFunctionType());
+ W->printString("Name", Func.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, TypeServer2Record &TS) {
+ W->printString("Guid", formatv("{0}", TS.getGuid()).str());
+ W->printNumber("Age", TS.getAge());
+ W->printString("Name", TS.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, PointerRecord &Ptr) {
+ printTypeIndex("PointeeType", Ptr.getReferentType());
+ W->printHex("PointerAttributes", uint32_t(Ptr.getOptions()));
+ W->printEnum("PtrType", unsigned(Ptr.getPointerKind()),
+ makeArrayRef(PtrKindNames));
+ W->printEnum("PtrMode", unsigned(Ptr.getMode()), makeArrayRef(PtrModeNames));
+
+ W->printNumber("IsFlat", Ptr.isFlat());
+ W->printNumber("IsConst", Ptr.isConst());
+ W->printNumber("IsVolatile", Ptr.isVolatile());
+ W->printNumber("IsUnaligned", Ptr.isUnaligned());
+ W->printNumber("IsRestrict", Ptr.isRestrict());
+ W->printNumber("SizeOf", Ptr.getSize());
+
+ if (Ptr.isPointerToMember()) {
+ const MemberPointerInfo &MI = Ptr.getMemberInfo();
+
+ printTypeIndex("ClassType", MI.getContainingType());
+ W->printEnum("Representation", uint16_t(MI.getRepresentation()),
+ makeArrayRef(PtrMemberRepNames));
+ }
+
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, ModifierRecord &Mod) {
+ uint16_t Mods = static_cast<uint16_t>(Mod.getModifiers());
+ printTypeIndex("ModifiedType", Mod.getModifiedType());
+ W->printFlags("Modifiers", Mods, makeArrayRef(TypeModifierNames));
+
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, BitFieldRecord &BitField) {
+ printTypeIndex("Type", BitField.getType());
+ W->printNumber("BitSize", BitField.getBitSize());
+ W->printNumber("BitOffset", BitField.getBitOffset());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ VFTableShapeRecord &Shape) {
+ W->printNumber("VFEntryCount", Shape.getEntryCount());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ UdtSourceLineRecord &Line) {
+ printTypeIndex("UDT", Line.getUDT());
+ printItemIndex("SourceFile", Line.getSourceFile());
+ W->printNumber("LineNumber", Line.getLineNumber());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ UdtModSourceLineRecord &Line) {
+ printTypeIndex("UDT", Line.getUDT());
+ printItemIndex("SourceFile", Line.getSourceFile());
+ W->printNumber("LineNumber", Line.getLineNumber());
+ W->printNumber("Module", Line.getModule());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, BuildInfoRecord &Args) {
+ W->printNumber("NumArgs", static_cast<uint32_t>(Args.getArgs().size()));
+
+ ListScope Arguments(*W, "Arguments");
+ for (auto Arg : Args.getArgs()) {
+ printItemIndex("ArgType", Arg);
+ }
+ return Error::success();
+}
+
+void TypeDumpVisitor::printMemberAttributes(MemberAttributes Attrs) {
+ return printMemberAttributes(Attrs.getAccess(), Attrs.getMethodKind(),
+ Attrs.getFlags());
+}
+
+void TypeDumpVisitor::printMemberAttributes(MemberAccess Access,
+ MethodKind Kind,
+ MethodOptions Options) {
+ W->printEnum("AccessSpecifier", uint8_t(Access),
+ makeArrayRef(MemberAccessNames));
+ // Data members will be vanilla. Don't try to print a method kind for them.
+ if (Kind != MethodKind::Vanilla)
+ W->printEnum("MethodKind", unsigned(Kind), makeArrayRef(MemberKindNames));
+ if (Options != MethodOptions::None) {
+ W->printFlags("MethodOptions", unsigned(Options),
+ makeArrayRef(MethodOptionNames));
+ }
+}
+
+Error TypeDumpVisitor::visitUnknownMember(CVMemberRecord &Record) {
+ W->printHex("UnknownMember", unsigned(Record.Kind));
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitUnknownType(CVType &Record) {
+ W->printEnum("Kind", uint16_t(Record.kind()), makeArrayRef(LeafTypeNames));
+ W->printNumber("Length", uint32_t(Record.content().size()));
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ NestedTypeRecord &Nested) {
+ printTypeIndex("Type", Nested.getNestedType());
+ W->printString("Name", Nested.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ OneMethodRecord &Method) {
+ MethodKind K = Method.getMethodKind();
+ printMemberAttributes(Method.getAccess(), K, Method.getOptions());
+ printTypeIndex("Type", Method.getType());
+ // If virtual, then read the vftable offset.
+ if (Method.isIntroducingVirtual())
+ W->printHex("VFTableOffset", Method.getVFTableOffset());
+ W->printString("Name", Method.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ OverloadedMethodRecord &Method) {
+ W->printHex("MethodCount", Method.getNumOverloads());
+ printTypeIndex("MethodListIndex", Method.getMethodList());
+ W->printString("Name", Method.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ DataMemberRecord &Field) {
+ printMemberAttributes(Field.getAccess(), MethodKind::Vanilla,
+ MethodOptions::None);
+ printTypeIndex("Type", Field.getType());
+ W->printHex("FieldOffset", Field.getFieldOffset());
+ W->printString("Name", Field.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ StaticDataMemberRecord &Field) {
+ printMemberAttributes(Field.getAccess(), MethodKind::Vanilla,
+ MethodOptions::None);
+ printTypeIndex("Type", Field.getType());
+ W->printString("Name", Field.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ VFPtrRecord &VFTable) {
+ printTypeIndex("Type", VFTable.getType());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ EnumeratorRecord &Enum) {
+ printMemberAttributes(Enum.getAccess(), MethodKind::Vanilla,
+ MethodOptions::None);
+ W->printNumber("EnumValue", Enum.getValue());
+ W->printString("Name", Enum.getName());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ BaseClassRecord &Base) {
+ printMemberAttributes(Base.getAccess(), MethodKind::Vanilla,
+ MethodOptions::None);
+ printTypeIndex("BaseType", Base.getBaseType());
+ W->printHex("BaseOffset", Base.getBaseOffset());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ VirtualBaseClassRecord &Base) {
+ printMemberAttributes(Base.getAccess(), MethodKind::Vanilla,
+ MethodOptions::None);
+ printTypeIndex("BaseType", Base.getBaseType());
+ printTypeIndex("VBPtrType", Base.getVBPtrType());
+ W->printHex("VBPtrOffset", Base.getVBPtrOffset());
+ W->printHex("VBTableIndex", Base.getVTableIndex());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ ListContinuationRecord &Cont) {
+ printTypeIndex("ContinuationIndex", Cont.getContinuationIndex());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR, LabelRecord &LR) {
+ W->printEnum("Mode", uint16_t(LR.Mode), makeArrayRef(LabelTypeEnum));
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ PrecompRecord &Precomp) {
+ W->printHex("StartIndex", Precomp.getStartTypeIndex());
+ W->printHex("Count", Precomp.getTypesCount());
+ W->printHex("Signature", Precomp.getSignature());
+ W->printString("PrecompFile", Precomp.getPrecompFilePath());
+ return Error::success();
+}
+
+Error TypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ EndPrecompRecord &EndPrecomp) {
+ W->printHex("Signature", EndPrecomp.getSignature());
+ return Error::success();
+}
Modified: llvm/trunk/lib/DebugInfo/CodeView/TypeRecordMapping.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/DebugInfo/CodeView/TypeRecordMapping.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/lib/DebugInfo/CodeView/TypeRecordMapping.cpp (original)
+++ llvm/trunk/lib/DebugInfo/CodeView/TypeRecordMapping.cpp Mon Apr 9 17:09:15 2018
@@ -1,497 +1,497 @@
-//===- TypeRecordMapping.cpp ------------------------------------*- C++ -*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#include "llvm/DebugInfo/CodeView/TypeRecordMapping.h"
-
-using namespace llvm;
-using namespace llvm::codeview;
-
-#define error(X) \
- if (auto EC = X) \
- return EC;
-
-namespace {
-struct MapOneMethodRecord {
- explicit MapOneMethodRecord(bool IsFromOverloadList)
- : IsFromOverloadList(IsFromOverloadList) {}
-
- Error operator()(CodeViewRecordIO &IO, OneMethodRecord &Method) const {
- error(IO.mapInteger(Method.Attrs.Attrs));
- if (IsFromOverloadList) {
- uint16_t Padding = 0;
- error(IO.mapInteger(Padding));
- }
- error(IO.mapInteger(Method.Type));
- if (Method.isIntroducingVirtual()) {
- error(IO.mapInteger(Method.VFTableOffset));
- } else if (!IO.isWriting())
- Method.VFTableOffset = -1;
-
- if (!IsFromOverloadList)
- error(IO.mapStringZ(Method.Name));
-
- return Error::success();
- }
-
-private:
- bool IsFromOverloadList;
-};
-}
-
-static Error mapNameAndUniqueName(CodeViewRecordIO &IO, StringRef &Name,
- StringRef &UniqueName, bool HasUniqueName) {
- if (IO.isWriting()) {
- // Try to be smart about what we write here. We can't write anything too
- // large, so if we're going to go over the limit, truncate both the name
- // and unique name by the same amount.
- size_t BytesLeft = IO.maxFieldLength();
- if (HasUniqueName) {
- size_t BytesNeeded = Name.size() + UniqueName.size() + 2;
- StringRef N = Name;
- StringRef U = UniqueName;
- if (BytesNeeded > BytesLeft) {
- size_t BytesToDrop = (BytesNeeded - BytesLeft);
- size_t DropN = std::min(N.size(), BytesToDrop / 2);
- size_t DropU = std::min(U.size(), BytesToDrop - DropN);
-
- N = N.drop_back(DropN);
- U = U.drop_back(DropU);
- }
-
- error(IO.mapStringZ(N));
- error(IO.mapStringZ(U));
- } else {
- // Cap the length of the string at however many bytes we have available,
- // plus one for the required null terminator.
- auto N = StringRef(Name).take_front(BytesLeft - 1);
- error(IO.mapStringZ(N));
- }
- } else {
- error(IO.mapStringZ(Name));
- if (HasUniqueName)
- error(IO.mapStringZ(UniqueName));
- }
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitTypeBegin(CVType &CVR) {
- assert(!TypeKind.hasValue() && "Already in a type mapping!");
- assert(!MemberKind.hasValue() && "Already in a member mapping!");
-
- // FieldList and MethodList records can be any length because they can be
- // split with continuation records. All other record types cannot be
- // longer than the maximum record length.
- Optional<uint32_t> MaxLen;
- if (CVR.Type != TypeLeafKind::LF_FIELDLIST &&
- CVR.Type != TypeLeafKind::LF_METHODLIST)
- MaxLen = MaxRecordLength - sizeof(RecordPrefix);
- error(IO.beginRecord(MaxLen));
- TypeKind = CVR.Type;
- return Error::success();
-}
-
-Error TypeRecordMapping::visitTypeEnd(CVType &Record) {
- assert(TypeKind.hasValue() && "Not in a type mapping!");
- assert(!MemberKind.hasValue() && "Still in a member mapping!");
-
- error(IO.endRecord());
-
- TypeKind.reset();
- return Error::success();
-}
-
-Error TypeRecordMapping::visitMemberBegin(CVMemberRecord &Record) {
- assert(TypeKind.hasValue() && "Not in a type mapping!");
- assert(!MemberKind.hasValue() && "Already in a member mapping!");
-
- // The largest possible subrecord is one in which there is a record prefix,
- // followed by the subrecord, followed by a continuation, and that entire
- // sequence spaws `MaxRecordLength` bytes. So the record's length is
- // calculated as follows.
- constexpr uint32_t ContinuationLength = 8;
- error(IO.beginRecord(MaxRecordLength - sizeof(RecordPrefix) -
- ContinuationLength));
-
- MemberKind = Record.Kind;
- return Error::success();
-}
-
-Error TypeRecordMapping::visitMemberEnd(CVMemberRecord &Record) {
- assert(TypeKind.hasValue() && "Not in a type mapping!");
- assert(MemberKind.hasValue() && "Not in a member mapping!");
-
- if (!IO.isWriting()) {
- if (auto EC = IO.skipPadding())
- return EC;
- }
-
- MemberKind.reset();
- error(IO.endRecord());
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ModifierRecord &Record) {
- error(IO.mapInteger(Record.ModifiedType));
- error(IO.mapEnum(Record.Modifiers));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- ProcedureRecord &Record) {
- error(IO.mapInteger(Record.ReturnType));
- error(IO.mapEnum(Record.CallConv));
- error(IO.mapEnum(Record.Options));
- error(IO.mapInteger(Record.ParameterCount));
- error(IO.mapInteger(Record.ArgumentList));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- MemberFunctionRecord &Record) {
- error(IO.mapInteger(Record.ReturnType));
- error(IO.mapInteger(Record.ClassType));
- error(IO.mapInteger(Record.ThisType));
- error(IO.mapEnum(Record.CallConv));
- error(IO.mapEnum(Record.Options));
- error(IO.mapInteger(Record.ParameterCount));
- error(IO.mapInteger(Record.ArgumentList));
- error(IO.mapInteger(Record.ThisPointerAdjustment));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ArgListRecord &Record) {
- error(IO.mapVectorN<uint32_t>(
- Record.ArgIndices,
- [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- StringListRecord &Record) {
- error(IO.mapVectorN<uint32_t>(
- Record.StringIndices,
- [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, PointerRecord &Record) {
- error(IO.mapInteger(Record.ReferentType));
- error(IO.mapInteger(Record.Attrs));
-
- if (Record.isPointerToMember()) {
- if (!IO.isWriting())
- Record.MemberInfo.emplace();
-
- MemberPointerInfo &M = *Record.MemberInfo;
- error(IO.mapInteger(M.ContainingType));
- error(IO.mapEnum(M.Representation));
- }
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ArrayRecord &Record) {
- error(IO.mapInteger(Record.ElementType));
- error(IO.mapInteger(Record.IndexType));
- error(IO.mapEncodedInteger(Record.Size));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ClassRecord &Record) {
- assert((CVR.Type == TypeLeafKind::LF_STRUCTURE) ||
- (CVR.Type == TypeLeafKind::LF_CLASS) ||
- (CVR.Type == TypeLeafKind::LF_INTERFACE));
-
- error(IO.mapInteger(Record.MemberCount));
- error(IO.mapEnum(Record.Options));
- error(IO.mapInteger(Record.FieldList));
- error(IO.mapInteger(Record.DerivationList));
- error(IO.mapInteger(Record.VTableShape));
- error(IO.mapEncodedInteger(Record.Size));
- error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
- Record.hasUniqueName()));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, UnionRecord &Record) {
- error(IO.mapInteger(Record.MemberCount));
- error(IO.mapEnum(Record.Options));
- error(IO.mapInteger(Record.FieldList));
- error(IO.mapEncodedInteger(Record.Size));
- error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
- Record.hasUniqueName()));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, EnumRecord &Record) {
- error(IO.mapInteger(Record.MemberCount));
- error(IO.mapEnum(Record.Options));
- error(IO.mapInteger(Record.UnderlyingType));
- error(IO.mapInteger(Record.FieldList));
- error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
- Record.hasUniqueName()));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, BitFieldRecord &Record) {
- error(IO.mapInteger(Record.Type));
- error(IO.mapInteger(Record.BitSize));
- error(IO.mapInteger(Record.BitOffset));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- VFTableShapeRecord &Record) {
- uint16_t Size;
- if (IO.isWriting()) {
- ArrayRef<VFTableSlotKind> Slots = Record.getSlots();
- Size = Slots.size();
- error(IO.mapInteger(Size));
-
- for (size_t SlotIndex = 0; SlotIndex < Slots.size(); SlotIndex += 2) {
- uint8_t Byte = static_cast<uint8_t>(Slots[SlotIndex]) << 4;
- if ((SlotIndex + 1) < Slots.size()) {
- Byte |= static_cast<uint8_t>(Slots[SlotIndex + 1]);
- }
- error(IO.mapInteger(Byte));
- }
- } else {
- error(IO.mapInteger(Size));
- for (uint16_t I = 0; I < Size; I += 2) {
- uint8_t Byte;
- error(IO.mapInteger(Byte));
- Record.Slots.push_back(static_cast<VFTableSlotKind>(Byte & 0xF));
- if ((I + 1) < Size)
- Record.Slots.push_back(static_cast<VFTableSlotKind>(Byte >> 4));
- }
- }
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, VFTableRecord &Record) {
- error(IO.mapInteger(Record.CompleteClass));
- error(IO.mapInteger(Record.OverriddenVFTable));
- error(IO.mapInteger(Record.VFPtrOffset));
- uint32_t NamesLen = 0;
- if (IO.isWriting()) {
- for (auto Name : Record.MethodNames)
- NamesLen += Name.size() + 1;
- }
- error(IO.mapInteger(NamesLen));
- error(IO.mapVectorTail(
- Record.MethodNames,
- [](CodeViewRecordIO &IO, StringRef &S) { return IO.mapStringZ(S); }));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, StringIdRecord &Record) {
- error(IO.mapInteger(Record.Id));
- error(IO.mapStringZ(Record.String));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- UdtSourceLineRecord &Record) {
- error(IO.mapInteger(Record.UDT));
- error(IO.mapInteger(Record.SourceFile));
- error(IO.mapInteger(Record.LineNumber));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- UdtModSourceLineRecord &Record) {
- error(IO.mapInteger(Record.UDT));
- error(IO.mapInteger(Record.SourceFile));
- error(IO.mapInteger(Record.LineNumber));
- error(IO.mapInteger(Record.Module));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, FuncIdRecord &Record) {
- error(IO.mapInteger(Record.ParentScope));
- error(IO.mapInteger(Record.FunctionType));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- MemberFuncIdRecord &Record) {
- error(IO.mapInteger(Record.ClassType));
- error(IO.mapInteger(Record.FunctionType));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- BuildInfoRecord &Record) {
- error(IO.mapVectorN<uint16_t>(
- Record.ArgIndices,
- [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- MethodOverloadListRecord &Record) {
- // TODO: Split the list into multiple records if it's longer than 64KB, using
- // a subrecord of TypeRecordKind::Index to chain the records together.
- error(IO.mapVectorTail(Record.Methods, MapOneMethodRecord(true)));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- FieldListRecord &Record) {
- error(IO.mapByteVectorTail(Record.Data));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- TypeServer2Record &Record) {
- error(IO.mapGuid(Record.Guid));
- error(IO.mapInteger(Record.Age));
- error(IO.mapStringZ(Record.Name));
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR, LabelRecord &Record) {
- error(IO.mapEnum(Record.Mode));
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- BaseClassRecord &Record) {
- error(IO.mapInteger(Record.Attrs.Attrs));
- error(IO.mapInteger(Record.Type));
- error(IO.mapEncodedInteger(Record.Offset));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- EnumeratorRecord &Record) {
- error(IO.mapInteger(Record.Attrs.Attrs));
-
- // FIXME: Handle full APInt such as __int128.
- error(IO.mapEncodedInteger(Record.Value));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- DataMemberRecord &Record) {
- error(IO.mapInteger(Record.Attrs.Attrs));
- error(IO.mapInteger(Record.Type));
- error(IO.mapEncodedInteger(Record.FieldOffset));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- OverloadedMethodRecord &Record) {
- error(IO.mapInteger(Record.NumOverloads));
- error(IO.mapInteger(Record.MethodList));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- OneMethodRecord &Record) {
- const bool IsFromOverloadList = (TypeKind == LF_METHODLIST);
- MapOneMethodRecord Mapper(IsFromOverloadList);
- return Mapper(IO, Record);
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- NestedTypeRecord &Record) {
- uint16_t Padding = 0;
- error(IO.mapInteger(Padding));
- error(IO.mapInteger(Record.Type));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- StaticDataMemberRecord &Record) {
-
- error(IO.mapInteger(Record.Attrs.Attrs));
- error(IO.mapInteger(Record.Type));
- error(IO.mapStringZ(Record.Name));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- VirtualBaseClassRecord &Record) {
-
- error(IO.mapInteger(Record.Attrs.Attrs));
- error(IO.mapInteger(Record.BaseType));
- error(IO.mapInteger(Record.VBPtrType));
- error(IO.mapEncodedInteger(Record.VBPtrOffset));
- error(IO.mapEncodedInteger(Record.VTableIndex));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- VFPtrRecord &Record) {
- uint16_t Padding = 0;
- error(IO.mapInteger(Padding));
- error(IO.mapInteger(Record.Type));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
- ListContinuationRecord &Record) {
- uint16_t Padding = 0;
- error(IO.mapInteger(Padding));
- error(IO.mapInteger(Record.ContinuationIndex));
-
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- PrecompRecord &Precomp) {
- error(IO.mapInteger(Precomp.StartTypeIndex));
- error(IO.mapInteger(Precomp.TypesCount));
- error(IO.mapInteger(Precomp.Signature));
- error(IO.mapStringZ(Precomp.PrecompFilePath));
- return Error::success();
-}
-
-Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
- EndPrecompRecord &EndPrecomp) {
- error(IO.mapInteger(EndPrecomp.Signature));
- return Error::success();
-}
+//===- TypeRecordMapping.cpp ------------------------------------*- C++ -*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/DebugInfo/CodeView/TypeRecordMapping.h"
+
+using namespace llvm;
+using namespace llvm::codeview;
+
+#define error(X) \
+ if (auto EC = X) \
+ return EC;
+
+namespace {
+struct MapOneMethodRecord {
+ explicit MapOneMethodRecord(bool IsFromOverloadList)
+ : IsFromOverloadList(IsFromOverloadList) {}
+
+ Error operator()(CodeViewRecordIO &IO, OneMethodRecord &Method) const {
+ error(IO.mapInteger(Method.Attrs.Attrs));
+ if (IsFromOverloadList) {
+ uint16_t Padding = 0;
+ error(IO.mapInteger(Padding));
+ }
+ error(IO.mapInteger(Method.Type));
+ if (Method.isIntroducingVirtual()) {
+ error(IO.mapInteger(Method.VFTableOffset));
+ } else if (!IO.isWriting())
+ Method.VFTableOffset = -1;
+
+ if (!IsFromOverloadList)
+ error(IO.mapStringZ(Method.Name));
+
+ return Error::success();
+ }
+
+private:
+ bool IsFromOverloadList;
+};
+}
+
+static Error mapNameAndUniqueName(CodeViewRecordIO &IO, StringRef &Name,
+ StringRef &UniqueName, bool HasUniqueName) {
+ if (IO.isWriting()) {
+ // Try to be smart about what we write here. We can't write anything too
+ // large, so if we're going to go over the limit, truncate both the name
+ // and unique name by the same amount.
+ size_t BytesLeft = IO.maxFieldLength();
+ if (HasUniqueName) {
+ size_t BytesNeeded = Name.size() + UniqueName.size() + 2;
+ StringRef N = Name;
+ StringRef U = UniqueName;
+ if (BytesNeeded > BytesLeft) {
+ size_t BytesToDrop = (BytesNeeded - BytesLeft);
+ size_t DropN = std::min(N.size(), BytesToDrop / 2);
+ size_t DropU = std::min(U.size(), BytesToDrop - DropN);
+
+ N = N.drop_back(DropN);
+ U = U.drop_back(DropU);
+ }
+
+ error(IO.mapStringZ(N));
+ error(IO.mapStringZ(U));
+ } else {
+ // Cap the length of the string at however many bytes we have available,
+ // plus one for the required null terminator.
+ auto N = StringRef(Name).take_front(BytesLeft - 1);
+ error(IO.mapStringZ(N));
+ }
+ } else {
+ error(IO.mapStringZ(Name));
+ if (HasUniqueName)
+ error(IO.mapStringZ(UniqueName));
+ }
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitTypeBegin(CVType &CVR) {
+ assert(!TypeKind.hasValue() && "Already in a type mapping!");
+ assert(!MemberKind.hasValue() && "Already in a member mapping!");
+
+ // FieldList and MethodList records can be any length because they can be
+ // split with continuation records. All other record types cannot be
+ // longer than the maximum record length.
+ Optional<uint32_t> MaxLen;
+ if (CVR.Type != TypeLeafKind::LF_FIELDLIST &&
+ CVR.Type != TypeLeafKind::LF_METHODLIST)
+ MaxLen = MaxRecordLength - sizeof(RecordPrefix);
+ error(IO.beginRecord(MaxLen));
+ TypeKind = CVR.Type;
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitTypeEnd(CVType &Record) {
+ assert(TypeKind.hasValue() && "Not in a type mapping!");
+ assert(!MemberKind.hasValue() && "Still in a member mapping!");
+
+ error(IO.endRecord());
+
+ TypeKind.reset();
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitMemberBegin(CVMemberRecord &Record) {
+ assert(TypeKind.hasValue() && "Not in a type mapping!");
+ assert(!MemberKind.hasValue() && "Already in a member mapping!");
+
+ // The largest possible subrecord is one in which there is a record prefix,
+ // followed by the subrecord, followed by a continuation, and that entire
+ // sequence spaws `MaxRecordLength` bytes. So the record's length is
+ // calculated as follows.
+ constexpr uint32_t ContinuationLength = 8;
+ error(IO.beginRecord(MaxRecordLength - sizeof(RecordPrefix) -
+ ContinuationLength));
+
+ MemberKind = Record.Kind;
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitMemberEnd(CVMemberRecord &Record) {
+ assert(TypeKind.hasValue() && "Not in a type mapping!");
+ assert(MemberKind.hasValue() && "Not in a member mapping!");
+
+ if (!IO.isWriting()) {
+ if (auto EC = IO.skipPadding())
+ return EC;
+ }
+
+ MemberKind.reset();
+ error(IO.endRecord());
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ModifierRecord &Record) {
+ error(IO.mapInteger(Record.ModifiedType));
+ error(IO.mapEnum(Record.Modifiers));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ ProcedureRecord &Record) {
+ error(IO.mapInteger(Record.ReturnType));
+ error(IO.mapEnum(Record.CallConv));
+ error(IO.mapEnum(Record.Options));
+ error(IO.mapInteger(Record.ParameterCount));
+ error(IO.mapInteger(Record.ArgumentList));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ MemberFunctionRecord &Record) {
+ error(IO.mapInteger(Record.ReturnType));
+ error(IO.mapInteger(Record.ClassType));
+ error(IO.mapInteger(Record.ThisType));
+ error(IO.mapEnum(Record.CallConv));
+ error(IO.mapEnum(Record.Options));
+ error(IO.mapInteger(Record.ParameterCount));
+ error(IO.mapInteger(Record.ArgumentList));
+ error(IO.mapInteger(Record.ThisPointerAdjustment));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ArgListRecord &Record) {
+ error(IO.mapVectorN<uint32_t>(
+ Record.ArgIndices,
+ [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ StringListRecord &Record) {
+ error(IO.mapVectorN<uint32_t>(
+ Record.StringIndices,
+ [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, PointerRecord &Record) {
+ error(IO.mapInteger(Record.ReferentType));
+ error(IO.mapInteger(Record.Attrs));
+
+ if (Record.isPointerToMember()) {
+ if (!IO.isWriting())
+ Record.MemberInfo.emplace();
+
+ MemberPointerInfo &M = *Record.MemberInfo;
+ error(IO.mapInteger(M.ContainingType));
+ error(IO.mapEnum(M.Representation));
+ }
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ArrayRecord &Record) {
+ error(IO.mapInteger(Record.ElementType));
+ error(IO.mapInteger(Record.IndexType));
+ error(IO.mapEncodedInteger(Record.Size));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, ClassRecord &Record) {
+ assert((CVR.Type == TypeLeafKind::LF_STRUCTURE) ||
+ (CVR.Type == TypeLeafKind::LF_CLASS) ||
+ (CVR.Type == TypeLeafKind::LF_INTERFACE));
+
+ error(IO.mapInteger(Record.MemberCount));
+ error(IO.mapEnum(Record.Options));
+ error(IO.mapInteger(Record.FieldList));
+ error(IO.mapInteger(Record.DerivationList));
+ error(IO.mapInteger(Record.VTableShape));
+ error(IO.mapEncodedInteger(Record.Size));
+ error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
+ Record.hasUniqueName()));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, UnionRecord &Record) {
+ error(IO.mapInteger(Record.MemberCount));
+ error(IO.mapEnum(Record.Options));
+ error(IO.mapInteger(Record.FieldList));
+ error(IO.mapEncodedInteger(Record.Size));
+ error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
+ Record.hasUniqueName()));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, EnumRecord &Record) {
+ error(IO.mapInteger(Record.MemberCount));
+ error(IO.mapEnum(Record.Options));
+ error(IO.mapInteger(Record.UnderlyingType));
+ error(IO.mapInteger(Record.FieldList));
+ error(mapNameAndUniqueName(IO, Record.Name, Record.UniqueName,
+ Record.hasUniqueName()));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, BitFieldRecord &Record) {
+ error(IO.mapInteger(Record.Type));
+ error(IO.mapInteger(Record.BitSize));
+ error(IO.mapInteger(Record.BitOffset));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ VFTableShapeRecord &Record) {
+ uint16_t Size;
+ if (IO.isWriting()) {
+ ArrayRef<VFTableSlotKind> Slots = Record.getSlots();
+ Size = Slots.size();
+ error(IO.mapInteger(Size));
+
+ for (size_t SlotIndex = 0; SlotIndex < Slots.size(); SlotIndex += 2) {
+ uint8_t Byte = static_cast<uint8_t>(Slots[SlotIndex]) << 4;
+ if ((SlotIndex + 1) < Slots.size()) {
+ Byte |= static_cast<uint8_t>(Slots[SlotIndex + 1]);
+ }
+ error(IO.mapInteger(Byte));
+ }
+ } else {
+ error(IO.mapInteger(Size));
+ for (uint16_t I = 0; I < Size; I += 2) {
+ uint8_t Byte;
+ error(IO.mapInteger(Byte));
+ Record.Slots.push_back(static_cast<VFTableSlotKind>(Byte & 0xF));
+ if ((I + 1) < Size)
+ Record.Slots.push_back(static_cast<VFTableSlotKind>(Byte >> 4));
+ }
+ }
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, VFTableRecord &Record) {
+ error(IO.mapInteger(Record.CompleteClass));
+ error(IO.mapInteger(Record.OverriddenVFTable));
+ error(IO.mapInteger(Record.VFPtrOffset));
+ uint32_t NamesLen = 0;
+ if (IO.isWriting()) {
+ for (auto Name : Record.MethodNames)
+ NamesLen += Name.size() + 1;
+ }
+ error(IO.mapInteger(NamesLen));
+ error(IO.mapVectorTail(
+ Record.MethodNames,
+ [](CodeViewRecordIO &IO, StringRef &S) { return IO.mapStringZ(S); }));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, StringIdRecord &Record) {
+ error(IO.mapInteger(Record.Id));
+ error(IO.mapStringZ(Record.String));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ UdtSourceLineRecord &Record) {
+ error(IO.mapInteger(Record.UDT));
+ error(IO.mapInteger(Record.SourceFile));
+ error(IO.mapInteger(Record.LineNumber));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ UdtModSourceLineRecord &Record) {
+ error(IO.mapInteger(Record.UDT));
+ error(IO.mapInteger(Record.SourceFile));
+ error(IO.mapInteger(Record.LineNumber));
+ error(IO.mapInteger(Record.Module));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, FuncIdRecord &Record) {
+ error(IO.mapInteger(Record.ParentScope));
+ error(IO.mapInteger(Record.FunctionType));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ MemberFuncIdRecord &Record) {
+ error(IO.mapInteger(Record.ClassType));
+ error(IO.mapInteger(Record.FunctionType));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ BuildInfoRecord &Record) {
+ error(IO.mapVectorN<uint16_t>(
+ Record.ArgIndices,
+ [](CodeViewRecordIO &IO, TypeIndex &N) { return IO.mapInteger(N); }));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ MethodOverloadListRecord &Record) {
+ // TODO: Split the list into multiple records if it's longer than 64KB, using
+ // a subrecord of TypeRecordKind::Index to chain the records together.
+ error(IO.mapVectorTail(Record.Methods, MapOneMethodRecord(true)));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ FieldListRecord &Record) {
+ error(IO.mapByteVectorTail(Record.Data));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ TypeServer2Record &Record) {
+ error(IO.mapGuid(Record.Guid));
+ error(IO.mapInteger(Record.Age));
+ error(IO.mapStringZ(Record.Name));
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR, LabelRecord &Record) {
+ error(IO.mapEnum(Record.Mode));
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ BaseClassRecord &Record) {
+ error(IO.mapInteger(Record.Attrs.Attrs));
+ error(IO.mapInteger(Record.Type));
+ error(IO.mapEncodedInteger(Record.Offset));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ EnumeratorRecord &Record) {
+ error(IO.mapInteger(Record.Attrs.Attrs));
+
+ // FIXME: Handle full APInt such as __int128.
+ error(IO.mapEncodedInteger(Record.Value));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ DataMemberRecord &Record) {
+ error(IO.mapInteger(Record.Attrs.Attrs));
+ error(IO.mapInteger(Record.Type));
+ error(IO.mapEncodedInteger(Record.FieldOffset));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ OverloadedMethodRecord &Record) {
+ error(IO.mapInteger(Record.NumOverloads));
+ error(IO.mapInteger(Record.MethodList));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ OneMethodRecord &Record) {
+ const bool IsFromOverloadList = (TypeKind == LF_METHODLIST);
+ MapOneMethodRecord Mapper(IsFromOverloadList);
+ return Mapper(IO, Record);
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ NestedTypeRecord &Record) {
+ uint16_t Padding = 0;
+ error(IO.mapInteger(Padding));
+ error(IO.mapInteger(Record.Type));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ StaticDataMemberRecord &Record) {
+
+ error(IO.mapInteger(Record.Attrs.Attrs));
+ error(IO.mapInteger(Record.Type));
+ error(IO.mapStringZ(Record.Name));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ VirtualBaseClassRecord &Record) {
+
+ error(IO.mapInteger(Record.Attrs.Attrs));
+ error(IO.mapInteger(Record.BaseType));
+ error(IO.mapInteger(Record.VBPtrType));
+ error(IO.mapEncodedInteger(Record.VBPtrOffset));
+ error(IO.mapEncodedInteger(Record.VTableIndex));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ VFPtrRecord &Record) {
+ uint16_t Padding = 0;
+ error(IO.mapInteger(Padding));
+ error(IO.mapInteger(Record.Type));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownMember(CVMemberRecord &CVR,
+ ListContinuationRecord &Record) {
+ uint16_t Padding = 0;
+ error(IO.mapInteger(Padding));
+ error(IO.mapInteger(Record.ContinuationIndex));
+
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ PrecompRecord &Precomp) {
+ error(IO.mapInteger(Precomp.StartTypeIndex));
+ error(IO.mapInteger(Precomp.TypesCount));
+ error(IO.mapInteger(Precomp.Signature));
+ error(IO.mapStringZ(Precomp.PrecompFilePath));
+ return Error::success();
+}
+
+Error TypeRecordMapping::visitKnownRecord(CVType &CVR,
+ EndPrecompRecord &EndPrecomp) {
+ error(IO.mapInteger(EndPrecomp.Signature));
+ return Error::success();
+}
Modified: llvm/trunk/lib/ObjectYAML/CodeViewYAMLTypes.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/lib/ObjectYAML/CodeViewYAMLTypes.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/lib/ObjectYAML/CodeViewYAMLTypes.cpp (original)
+++ llvm/trunk/lib/ObjectYAML/CodeViewYAMLTypes.cpp Mon Apr 9 17:09:15 2018
@@ -1,818 +1,818 @@
-//===- CodeViewYAMLTypes.cpp - CodeView YAMLIO types implementation -------===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-//
-// This file defines classes for handling the YAML representation of CodeView
-// Debug Info.
-//
-//===----------------------------------------------------------------------===//
-
-#include "llvm/ObjectYAML/CodeViewYAMLTypes.h"
-#include "llvm/ADT/APSInt.h"
-#include "llvm/ADT/ArrayRef.h"
-#include "llvm/ADT/StringRef.h"
-#include "llvm/BinaryFormat/COFF.h"
-#include "llvm/DebugInfo/CodeView/AppendingTypeTableBuilder.h"
-#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
-#include "llvm/DebugInfo/CodeView/CodeView.h"
-#include "llvm/DebugInfo/CodeView/CodeViewError.h"
-#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
-#include "llvm/DebugInfo/CodeView/TypeDeserializer.h"
-#include "llvm/DebugInfo/CodeView/TypeIndex.h"
-#include "llvm/DebugInfo/CodeView/TypeVisitorCallbacks.h"
-#include "llvm/Support/Allocator.h"
-#include "llvm/Support/BinaryStreamReader.h"
-#include "llvm/Support/BinaryStreamWriter.h"
-#include "llvm/Support/Endian.h"
-#include "llvm/Support/Error.h"
-#include "llvm/Support/ErrorHandling.h"
-#include "llvm/Support/YAMLTraits.h"
-#include "llvm/Support/raw_ostream.h"
-#include <algorithm>
-#include <cassert>
-#include <cstdint>
-#include <vector>
-
-using namespace llvm;
-using namespace llvm::codeview;
-using namespace llvm::CodeViewYAML;
-using namespace llvm::CodeViewYAML::detail;
-using namespace llvm::yaml;
-
-LLVM_YAML_IS_SEQUENCE_VECTOR(OneMethodRecord)
-LLVM_YAML_IS_SEQUENCE_VECTOR(VFTableSlotKind)
-LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(TypeIndex)
-
-LLVM_YAML_DECLARE_SCALAR_TRAITS(TypeIndex, QuotingType::None)
-LLVM_YAML_DECLARE_SCALAR_TRAITS(APSInt, QuotingType::None)
-
-LLVM_YAML_DECLARE_ENUM_TRAITS(TypeLeafKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(PointerToMemberRepresentation)
-LLVM_YAML_DECLARE_ENUM_TRAITS(VFTableSlotKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(CallingConvention)
-LLVM_YAML_DECLARE_ENUM_TRAITS(PointerKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(PointerMode)
-LLVM_YAML_DECLARE_ENUM_TRAITS(HfaKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(MemberAccess)
-LLVM_YAML_DECLARE_ENUM_TRAITS(MethodKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(WindowsRTClassKind)
-LLVM_YAML_DECLARE_ENUM_TRAITS(LabelType)
-
-LLVM_YAML_DECLARE_BITSET_TRAITS(PointerOptions)
-LLVM_YAML_DECLARE_BITSET_TRAITS(ModifierOptions)
-LLVM_YAML_DECLARE_BITSET_TRAITS(FunctionOptions)
-LLVM_YAML_DECLARE_BITSET_TRAITS(ClassOptions)
-LLVM_YAML_DECLARE_BITSET_TRAITS(MethodOptions)
-
-LLVM_YAML_DECLARE_MAPPING_TRAITS(OneMethodRecord)
-LLVM_YAML_DECLARE_MAPPING_TRAITS(MemberPointerInfo)
-
-namespace llvm {
-namespace CodeViewYAML {
-namespace detail {
-
-struct LeafRecordBase {
- TypeLeafKind Kind;
-
- explicit LeafRecordBase(TypeLeafKind K) : Kind(K) {}
- virtual ~LeafRecordBase() = default;
-
- virtual void map(yaml::IO &io) = 0;
- virtual CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const = 0;
- virtual Error fromCodeViewRecord(CVType Type) = 0;
-};
-
-template <typename T> struct LeafRecordImpl : public LeafRecordBase {
- explicit LeafRecordImpl(TypeLeafKind K)
- : LeafRecordBase(K), Record(static_cast<TypeRecordKind>(K)) {}
-
- void map(yaml::IO &io) override;
-
- Error fromCodeViewRecord(CVType Type) override {
- return TypeDeserializer::deserializeAs<T>(Type, Record);
- }
-
- CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const override {
- TS.writeLeafType(Record);
- return CVType(Kind, TS.records().back());
- }
-
- mutable T Record;
-};
-
-template <> struct LeafRecordImpl<FieldListRecord> : public LeafRecordBase {
- explicit LeafRecordImpl(TypeLeafKind K) : LeafRecordBase(K) {}
-
- void map(yaml::IO &io) override;
- CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const override;
- Error fromCodeViewRecord(CVType Type) override;
-
- std::vector<MemberRecord> Members;
-};
-
-struct MemberRecordBase {
- TypeLeafKind Kind;
-
- explicit MemberRecordBase(TypeLeafKind K) : Kind(K) {}
- virtual ~MemberRecordBase() = default;
-
- virtual void map(yaml::IO &io) = 0;
- virtual void writeTo(ContinuationRecordBuilder &CRB) = 0;
-};
-
-template <typename T> struct MemberRecordImpl : public MemberRecordBase {
- explicit MemberRecordImpl(TypeLeafKind K)
- : MemberRecordBase(K), Record(static_cast<TypeRecordKind>(K)) {}
-
- void map(yaml::IO &io) override;
-
- void writeTo(ContinuationRecordBuilder &CRB) override {
- CRB.writeMemberType(Record);
- }
-
- mutable T Record;
-};
-
-} // end namespace detail
-} // end namespace CodeViewYAML
-} // end namespace llvm
-
-void ScalarTraits<GUID>::output(const GUID &G, void *, llvm::raw_ostream &OS) {
- OS << G;
-}
-
-StringRef ScalarTraits<GUID>::input(StringRef Scalar, void *Ctx, GUID &S) {
- if (Scalar.size() != 38)
- return "GUID strings are 38 characters long";
- if (Scalar[0] != '{' || Scalar[37] != '}')
- return "GUID is not enclosed in {}";
- if (Scalar[9] != '-' || Scalar[14] != '-' || Scalar[19] != '-' ||
- Scalar[24] != '-')
- return "GUID sections are not properly delineated with dashes";
-
- uint8_t *OutBuffer = S.Guid;
- for (auto Iter = Scalar.begin(); Iter != Scalar.end();) {
- if (*Iter == '-' || *Iter == '{' || *Iter == '}') {
- ++Iter;
- continue;
- }
- uint8_t Value = (llvm::hexDigitValue(*Iter++) << 4);
- Value |= llvm::hexDigitValue(*Iter++);
- *OutBuffer++ = Value;
- }
-
- return "";
-}
-
-void ScalarTraits<TypeIndex>::output(const TypeIndex &S, void *,
- raw_ostream &OS) {
- OS << S.getIndex();
-}
-
-StringRef ScalarTraits<TypeIndex>::input(StringRef Scalar, void *Ctx,
- TypeIndex &S) {
- uint32_t I;
- StringRef Result = ScalarTraits<uint32_t>::input(Scalar, Ctx, I);
- S.setIndex(I);
- return Result;
-}
-
-void ScalarTraits<APSInt>::output(const APSInt &S, void *, raw_ostream &OS) {
- S.print(OS, S.isSigned());
-}
-
-StringRef ScalarTraits<APSInt>::input(StringRef Scalar, void *Ctx, APSInt &S) {
- S = APSInt(Scalar);
- return "";
-}
-
-void ScalarEnumerationTraits<TypeLeafKind>::enumeration(IO &io,
- TypeLeafKind &Value) {
-#define CV_TYPE(name, val) io.enumCase(Value, #name, name);
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
-#undef CV_TYPE
-}
-
-void ScalarEnumerationTraits<PointerToMemberRepresentation>::enumeration(
- IO &IO, PointerToMemberRepresentation &Value) {
- IO.enumCase(Value, "Unknown", PointerToMemberRepresentation::Unknown);
- IO.enumCase(Value, "SingleInheritanceData",
- PointerToMemberRepresentation::SingleInheritanceData);
- IO.enumCase(Value, "MultipleInheritanceData",
- PointerToMemberRepresentation::MultipleInheritanceData);
- IO.enumCase(Value, "VirtualInheritanceData",
- PointerToMemberRepresentation::VirtualInheritanceData);
- IO.enumCase(Value, "GeneralData", PointerToMemberRepresentation::GeneralData);
- IO.enumCase(Value, "SingleInheritanceFunction",
- PointerToMemberRepresentation::SingleInheritanceFunction);
- IO.enumCase(Value, "MultipleInheritanceFunction",
- PointerToMemberRepresentation::MultipleInheritanceFunction);
- IO.enumCase(Value, "VirtualInheritanceFunction",
- PointerToMemberRepresentation::VirtualInheritanceFunction);
- IO.enumCase(Value, "GeneralFunction",
- PointerToMemberRepresentation::GeneralFunction);
-}
-
-void ScalarEnumerationTraits<VFTableSlotKind>::enumeration(
- IO &IO, VFTableSlotKind &Kind) {
- IO.enumCase(Kind, "Near16", VFTableSlotKind::Near16);
- IO.enumCase(Kind, "Far16", VFTableSlotKind::Far16);
- IO.enumCase(Kind, "This", VFTableSlotKind::This);
- IO.enumCase(Kind, "Outer", VFTableSlotKind::Outer);
- IO.enumCase(Kind, "Meta", VFTableSlotKind::Meta);
- IO.enumCase(Kind, "Near", VFTableSlotKind::Near);
- IO.enumCase(Kind, "Far", VFTableSlotKind::Far);
-}
-
-void ScalarEnumerationTraits<CallingConvention>::enumeration(
- IO &IO, CallingConvention &Value) {
- IO.enumCase(Value, "NearC", CallingConvention::NearC);
- IO.enumCase(Value, "FarC", CallingConvention::FarC);
- IO.enumCase(Value, "NearPascal", CallingConvention::NearPascal);
- IO.enumCase(Value, "FarPascal", CallingConvention::FarPascal);
- IO.enumCase(Value, "NearFast", CallingConvention::NearFast);
- IO.enumCase(Value, "FarFast", CallingConvention::FarFast);
- IO.enumCase(Value, "NearStdCall", CallingConvention::NearStdCall);
- IO.enumCase(Value, "FarStdCall", CallingConvention::FarStdCall);
- IO.enumCase(Value, "NearSysCall", CallingConvention::NearSysCall);
- IO.enumCase(Value, "FarSysCall", CallingConvention::FarSysCall);
- IO.enumCase(Value, "ThisCall", CallingConvention::ThisCall);
- IO.enumCase(Value, "MipsCall", CallingConvention::MipsCall);
- IO.enumCase(Value, "Generic", CallingConvention::Generic);
- IO.enumCase(Value, "AlphaCall", CallingConvention::AlphaCall);
- IO.enumCase(Value, "PpcCall", CallingConvention::PpcCall);
- IO.enumCase(Value, "SHCall", CallingConvention::SHCall);
- IO.enumCase(Value, "ArmCall", CallingConvention::ArmCall);
- IO.enumCase(Value, "AM33Call", CallingConvention::AM33Call);
- IO.enumCase(Value, "TriCall", CallingConvention::TriCall);
- IO.enumCase(Value, "SH5Call", CallingConvention::SH5Call);
- IO.enumCase(Value, "M32RCall", CallingConvention::M32RCall);
- IO.enumCase(Value, "ClrCall", CallingConvention::ClrCall);
- IO.enumCase(Value, "Inline", CallingConvention::Inline);
- IO.enumCase(Value, "NearVector", CallingConvention::NearVector);
-}
-
-void ScalarEnumerationTraits<PointerKind>::enumeration(IO &IO,
- PointerKind &Kind) {
- IO.enumCase(Kind, "Near16", PointerKind::Near16);
- IO.enumCase(Kind, "Far16", PointerKind::Far16);
- IO.enumCase(Kind, "Huge16", PointerKind::Huge16);
- IO.enumCase(Kind, "BasedOnSegment", PointerKind::BasedOnSegment);
- IO.enumCase(Kind, "BasedOnValue", PointerKind::BasedOnValue);
- IO.enumCase(Kind, "BasedOnSegmentValue", PointerKind::BasedOnSegmentValue);
- IO.enumCase(Kind, "BasedOnAddress", PointerKind::BasedOnAddress);
- IO.enumCase(Kind, "BasedOnSegmentAddress",
- PointerKind::BasedOnSegmentAddress);
- IO.enumCase(Kind, "BasedOnType", PointerKind::BasedOnType);
- IO.enumCase(Kind, "BasedOnSelf", PointerKind::BasedOnSelf);
- IO.enumCase(Kind, "Near32", PointerKind::Near32);
- IO.enumCase(Kind, "Far32", PointerKind::Far32);
- IO.enumCase(Kind, "Near64", PointerKind::Near64);
-}
-
-void ScalarEnumerationTraits<PointerMode>::enumeration(IO &IO,
- PointerMode &Mode) {
- IO.enumCase(Mode, "Pointer", PointerMode::Pointer);
- IO.enumCase(Mode, "LValueReference", PointerMode::LValueReference);
- IO.enumCase(Mode, "PointerToDataMember", PointerMode::PointerToDataMember);
- IO.enumCase(Mode, "PointerToMemberFunction",
- PointerMode::PointerToMemberFunction);
- IO.enumCase(Mode, "RValueReference", PointerMode::RValueReference);
-}
-
-void ScalarEnumerationTraits<HfaKind>::enumeration(IO &IO, HfaKind &Value) {
- IO.enumCase(Value, "None", HfaKind::None);
- IO.enumCase(Value, "Float", HfaKind::Float);
- IO.enumCase(Value, "Double", HfaKind::Double);
- IO.enumCase(Value, "Other", HfaKind::Other);
-}
-
-void ScalarEnumerationTraits<MemberAccess>::enumeration(IO &IO,
- MemberAccess &Access) {
- IO.enumCase(Access, "None", MemberAccess::None);
- IO.enumCase(Access, "Private", MemberAccess::Private);
- IO.enumCase(Access, "Protected", MemberAccess::Protected);
- IO.enumCase(Access, "Public", MemberAccess::Public);
-}
-
-void ScalarEnumerationTraits<MethodKind>::enumeration(IO &IO,
- MethodKind &Kind) {
- IO.enumCase(Kind, "Vanilla", MethodKind::Vanilla);
- IO.enumCase(Kind, "Virtual", MethodKind::Virtual);
- IO.enumCase(Kind, "Static", MethodKind::Static);
- IO.enumCase(Kind, "Friend", MethodKind::Friend);
- IO.enumCase(Kind, "IntroducingVirtual", MethodKind::IntroducingVirtual);
- IO.enumCase(Kind, "PureVirtual", MethodKind::PureVirtual);
- IO.enumCase(Kind, "PureIntroducingVirtual",
- MethodKind::PureIntroducingVirtual);
-}
-
-void ScalarEnumerationTraits<WindowsRTClassKind>::enumeration(
- IO &IO, WindowsRTClassKind &Value) {
- IO.enumCase(Value, "None", WindowsRTClassKind::None);
- IO.enumCase(Value, "Ref", WindowsRTClassKind::RefClass);
- IO.enumCase(Value, "Value", WindowsRTClassKind::ValueClass);
- IO.enumCase(Value, "Interface", WindowsRTClassKind::Interface);
-}
-
-void ScalarEnumerationTraits<LabelType>::enumeration(IO &IO, LabelType &Value) {
- IO.enumCase(Value, "Near", LabelType::Near);
- IO.enumCase(Value, "Far", LabelType::Far);
-}
-
-void ScalarBitSetTraits<PointerOptions>::bitset(IO &IO,
- PointerOptions &Options) {
- IO.bitSetCase(Options, "None", PointerOptions::None);
- IO.bitSetCase(Options, "Flat32", PointerOptions::Flat32);
- IO.bitSetCase(Options, "Volatile", PointerOptions::Volatile);
- IO.bitSetCase(Options, "Const", PointerOptions::Const);
- IO.bitSetCase(Options, "Unaligned", PointerOptions::Unaligned);
- IO.bitSetCase(Options, "Restrict", PointerOptions::Restrict);
- IO.bitSetCase(Options, "WinRTSmartPointer",
- PointerOptions::WinRTSmartPointer);
-}
-
-void ScalarBitSetTraits<ModifierOptions>::bitset(IO &IO,
- ModifierOptions &Options) {
- IO.bitSetCase(Options, "None", ModifierOptions::None);
- IO.bitSetCase(Options, "Const", ModifierOptions::Const);
- IO.bitSetCase(Options, "Volatile", ModifierOptions::Volatile);
- IO.bitSetCase(Options, "Unaligned", ModifierOptions::Unaligned);
-}
-
-void ScalarBitSetTraits<FunctionOptions>::bitset(IO &IO,
- FunctionOptions &Options) {
- IO.bitSetCase(Options, "None", FunctionOptions::None);
- IO.bitSetCase(Options, "CxxReturnUdt", FunctionOptions::CxxReturnUdt);
- IO.bitSetCase(Options, "Constructor", FunctionOptions::Constructor);
- IO.bitSetCase(Options, "ConstructorWithVirtualBases",
- FunctionOptions::ConstructorWithVirtualBases);
-}
-
-void ScalarBitSetTraits<ClassOptions>::bitset(IO &IO, ClassOptions &Options) {
- IO.bitSetCase(Options, "None", ClassOptions::None);
- IO.bitSetCase(Options, "HasConstructorOrDestructor",
- ClassOptions::HasConstructorOrDestructor);
- IO.bitSetCase(Options, "HasOverloadedOperator",
- ClassOptions::HasOverloadedOperator);
- IO.bitSetCase(Options, "Nested", ClassOptions::Nested);
- IO.bitSetCase(Options, "ContainsNestedClass",
- ClassOptions::ContainsNestedClass);
- IO.bitSetCase(Options, "HasOverloadedAssignmentOperator",
- ClassOptions::HasOverloadedAssignmentOperator);
- IO.bitSetCase(Options, "HasConversionOperator",
- ClassOptions::HasConversionOperator);
- IO.bitSetCase(Options, "ForwardReference", ClassOptions::ForwardReference);
- IO.bitSetCase(Options, "Scoped", ClassOptions::Scoped);
- IO.bitSetCase(Options, "HasUniqueName", ClassOptions::HasUniqueName);
- IO.bitSetCase(Options, "Sealed", ClassOptions::Sealed);
- IO.bitSetCase(Options, "Intrinsic", ClassOptions::Intrinsic);
-}
-
-void ScalarBitSetTraits<MethodOptions>::bitset(IO &IO, MethodOptions &Options) {
- IO.bitSetCase(Options, "None", MethodOptions::None);
- IO.bitSetCase(Options, "Pseudo", MethodOptions::Pseudo);
- IO.bitSetCase(Options, "NoInherit", MethodOptions::NoInherit);
- IO.bitSetCase(Options, "NoConstruct", MethodOptions::NoConstruct);
- IO.bitSetCase(Options, "CompilerGenerated", MethodOptions::CompilerGenerated);
- IO.bitSetCase(Options, "Sealed", MethodOptions::Sealed);
-}
-
-void MappingTraits<MemberPointerInfo>::mapping(IO &IO, MemberPointerInfo &MPI) {
- IO.mapRequired("ContainingType", MPI.ContainingType);
- IO.mapRequired("Representation", MPI.Representation);
-}
-
-namespace llvm {
-namespace CodeViewYAML {
-namespace detail {
-
-template <> void LeafRecordImpl<ModifierRecord>::map(IO &IO) {
- IO.mapRequired("ModifiedType", Record.ModifiedType);
- IO.mapRequired("Modifiers", Record.Modifiers);
-}
-
-template <> void LeafRecordImpl<ProcedureRecord>::map(IO &IO) {
- IO.mapRequired("ReturnType", Record.ReturnType);
- IO.mapRequired("CallConv", Record.CallConv);
- IO.mapRequired("Options", Record.Options);
- IO.mapRequired("ParameterCount", Record.ParameterCount);
- IO.mapRequired("ArgumentList", Record.ArgumentList);
-}
-
-template <> void LeafRecordImpl<MemberFunctionRecord>::map(IO &IO) {
- IO.mapRequired("ReturnType", Record.ReturnType);
- IO.mapRequired("ClassType", Record.ClassType);
- IO.mapRequired("ThisType", Record.ThisType);
- IO.mapRequired("CallConv", Record.CallConv);
- IO.mapRequired("Options", Record.Options);
- IO.mapRequired("ParameterCount", Record.ParameterCount);
- IO.mapRequired("ArgumentList", Record.ArgumentList);
- IO.mapRequired("ThisPointerAdjustment", Record.ThisPointerAdjustment);
-}
-
-template <> void LeafRecordImpl<LabelRecord>::map(IO &IO) {
- IO.mapRequired("Mode", Record.Mode);
-}
-
-template <> void LeafRecordImpl<MemberFuncIdRecord>::map(IO &IO) {
- IO.mapRequired("ClassType", Record.ClassType);
- IO.mapRequired("FunctionType", Record.FunctionType);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void LeafRecordImpl<ArgListRecord>::map(IO &IO) {
- IO.mapRequired("ArgIndices", Record.ArgIndices);
-}
-
-template <> void LeafRecordImpl<StringListRecord>::map(IO &IO) {
- IO.mapRequired("StringIndices", Record.StringIndices);
-}
-
-template <> void LeafRecordImpl<PointerRecord>::map(IO &IO) {
- IO.mapRequired("ReferentType", Record.ReferentType);
- IO.mapRequired("Attrs", Record.Attrs);
- IO.mapOptional("MemberInfo", Record.MemberInfo);
-}
-
-template <> void LeafRecordImpl<ArrayRecord>::map(IO &IO) {
- IO.mapRequired("ElementType", Record.ElementType);
- IO.mapRequired("IndexType", Record.IndexType);
- IO.mapRequired("Size", Record.Size);
- IO.mapRequired("Name", Record.Name);
-}
-
-void LeafRecordImpl<FieldListRecord>::map(IO &IO) {
- IO.mapRequired("FieldList", Members);
-}
-
-} // end namespace detail
-} // end namespace CodeViewYAML
-} // end namespace llvm
-
-namespace {
-
-class MemberRecordConversionVisitor : public TypeVisitorCallbacks {
-public:
- explicit MemberRecordConversionVisitor(std::vector<MemberRecord> &Records)
- : Records(Records) {}
-
-#define TYPE_RECORD(EnumName, EnumVal, Name)
-#define MEMBER_RECORD(EnumName, EnumVal, Name) \
- Error visitKnownMember(CVMemberRecord &CVR, Name##Record &Record) override { \
- return visitKnownMemberImpl(Record); \
- }
-#define TYPE_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
-#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
-private:
- template <typename T> Error visitKnownMemberImpl(T &Record) {
- TypeLeafKind K = static_cast<TypeLeafKind>(Record.getKind());
- auto Impl = std::make_shared<MemberRecordImpl<T>>(K);
- Impl->Record = Record;
- Records.push_back(MemberRecord{Impl});
- return Error::success();
- }
-
- std::vector<MemberRecord> &Records;
-};
-
-} // end anonymous namespace
-
-Error LeafRecordImpl<FieldListRecord>::fromCodeViewRecord(CVType Type) {
- MemberRecordConversionVisitor V(Members);
- return visitMemberRecordStream(Type.content(), V);
-}
-
-CVType LeafRecordImpl<FieldListRecord>::toCodeViewRecord(
- AppendingTypeTableBuilder &TS) const {
- ContinuationRecordBuilder CRB;
- CRB.begin(ContinuationRecordKind::FieldList);
- for (const auto &Member : Members) {
- Member.Member->writeTo(CRB);
- }
- TS.insertRecord(CRB);
- return CVType(Kind, TS.records().back());
-}
-
-void MappingTraits<OneMethodRecord>::mapping(IO &io, OneMethodRecord &Record) {
- io.mapRequired("Type", Record.Type);
- io.mapRequired("Attrs", Record.Attrs.Attrs);
- io.mapRequired("VFTableOffset", Record.VFTableOffset);
- io.mapRequired("Name", Record.Name);
-}
-
-namespace llvm {
-namespace CodeViewYAML {
-namespace detail {
-
-template <> void LeafRecordImpl<ClassRecord>::map(IO &IO) {
- IO.mapRequired("MemberCount", Record.MemberCount);
- IO.mapRequired("Options", Record.Options);
- IO.mapRequired("FieldList", Record.FieldList);
- IO.mapRequired("Name", Record.Name);
- IO.mapRequired("UniqueName", Record.UniqueName);
- IO.mapRequired("DerivationList", Record.DerivationList);
- IO.mapRequired("VTableShape", Record.VTableShape);
- IO.mapRequired("Size", Record.Size);
-}
-
-template <> void LeafRecordImpl<UnionRecord>::map(IO &IO) {
- IO.mapRequired("MemberCount", Record.MemberCount);
- IO.mapRequired("Options", Record.Options);
- IO.mapRequired("FieldList", Record.FieldList);
- IO.mapRequired("Name", Record.Name);
- IO.mapRequired("UniqueName", Record.UniqueName);
- IO.mapRequired("Size", Record.Size);
-}
-
-template <> void LeafRecordImpl<EnumRecord>::map(IO &IO) {
- IO.mapRequired("NumEnumerators", Record.MemberCount);
- IO.mapRequired("Options", Record.Options);
- IO.mapRequired("FieldList", Record.FieldList);
- IO.mapRequired("Name", Record.Name);
- IO.mapRequired("UniqueName", Record.UniqueName);
- IO.mapRequired("UnderlyingType", Record.UnderlyingType);
-}
-
-template <> void LeafRecordImpl<BitFieldRecord>::map(IO &IO) {
- IO.mapRequired("Type", Record.Type);
- IO.mapRequired("BitSize", Record.BitSize);
- IO.mapRequired("BitOffset", Record.BitOffset);
-}
-
-template <> void LeafRecordImpl<VFTableShapeRecord>::map(IO &IO) {
- IO.mapRequired("Slots", Record.Slots);
-}
-
-template <> void LeafRecordImpl<TypeServer2Record>::map(IO &IO) {
- IO.mapRequired("Guid", Record.Guid);
- IO.mapRequired("Age", Record.Age);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void LeafRecordImpl<StringIdRecord>::map(IO &IO) {
- IO.mapRequired("Id", Record.Id);
- IO.mapRequired("String", Record.String);
-}
-
-template <> void LeafRecordImpl<FuncIdRecord>::map(IO &IO) {
- IO.mapRequired("ParentScope", Record.ParentScope);
- IO.mapRequired("FunctionType", Record.FunctionType);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void LeafRecordImpl<UdtSourceLineRecord>::map(IO &IO) {
- IO.mapRequired("UDT", Record.UDT);
- IO.mapRequired("SourceFile", Record.SourceFile);
- IO.mapRequired("LineNumber", Record.LineNumber);
-}
-
-template <> void LeafRecordImpl<UdtModSourceLineRecord>::map(IO &IO) {
- IO.mapRequired("UDT", Record.UDT);
- IO.mapRequired("SourceFile", Record.SourceFile);
- IO.mapRequired("LineNumber", Record.LineNumber);
- IO.mapRequired("Module", Record.Module);
-}
-
-template <> void LeafRecordImpl<BuildInfoRecord>::map(IO &IO) {
- IO.mapRequired("ArgIndices", Record.ArgIndices);
-}
-
-template <> void LeafRecordImpl<VFTableRecord>::map(IO &IO) {
- IO.mapRequired("CompleteClass", Record.CompleteClass);
- IO.mapRequired("OverriddenVFTable", Record.OverriddenVFTable);
- IO.mapRequired("VFPtrOffset", Record.VFPtrOffset);
- IO.mapRequired("MethodNames", Record.MethodNames);
-}
-
-template <> void LeafRecordImpl<MethodOverloadListRecord>::map(IO &IO) {
- IO.mapRequired("Methods", Record.Methods);
-}
-
-template <> void LeafRecordImpl<PrecompRecord>::map(IO &IO) {
- IO.mapRequired("StartTypeIndex", Record.StartTypeIndex);
- IO.mapRequired("TypesCount", Record.TypesCount);
- IO.mapRequired("Signature", Record.Signature);
- IO.mapRequired("PrecompFilePath", Record.PrecompFilePath);
-}
-
-template <> void LeafRecordImpl<EndPrecompRecord>::map(IO &IO) {
- IO.mapRequired("Signature", Record.Signature);
-}
-
-template <> void MemberRecordImpl<OneMethodRecord>::map(IO &IO) {
- MappingTraits<OneMethodRecord>::mapping(IO, Record);
-}
-
-template <> void MemberRecordImpl<OverloadedMethodRecord>::map(IO &IO) {
- IO.mapRequired("NumOverloads", Record.NumOverloads);
- IO.mapRequired("MethodList", Record.MethodList);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void MemberRecordImpl<NestedTypeRecord>::map(IO &IO) {
- IO.mapRequired("Type", Record.Type);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void MemberRecordImpl<DataMemberRecord>::map(IO &IO) {
- IO.mapRequired("Attrs", Record.Attrs.Attrs);
- IO.mapRequired("Type", Record.Type);
- IO.mapRequired("FieldOffset", Record.FieldOffset);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void MemberRecordImpl<StaticDataMemberRecord>::map(IO &IO) {
- IO.mapRequired("Attrs", Record.Attrs.Attrs);
- IO.mapRequired("Type", Record.Type);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void MemberRecordImpl<EnumeratorRecord>::map(IO &IO) {
- IO.mapRequired("Attrs", Record.Attrs.Attrs);
- IO.mapRequired("Value", Record.Value);
- IO.mapRequired("Name", Record.Name);
-}
-
-template <> void MemberRecordImpl<VFPtrRecord>::map(IO &IO) {
- IO.mapRequired("Type", Record.Type);
-}
-
-template <> void MemberRecordImpl<BaseClassRecord>::map(IO &IO) {
- IO.mapRequired("Attrs", Record.Attrs.Attrs);
- IO.mapRequired("Type", Record.Type);
- IO.mapRequired("Offset", Record.Offset);
-}
-
-template <> void MemberRecordImpl<VirtualBaseClassRecord>::map(IO &IO) {
- IO.mapRequired("Attrs", Record.Attrs.Attrs);
- IO.mapRequired("BaseType", Record.BaseType);
- IO.mapRequired("VBPtrType", Record.VBPtrType);
- IO.mapRequired("VBPtrOffset", Record.VBPtrOffset);
- IO.mapRequired("VTableIndex", Record.VTableIndex);
-}
-
-template <> void MemberRecordImpl<ListContinuationRecord>::map(IO &IO) {
- IO.mapRequired("ContinuationIndex", Record.ContinuationIndex);
-}
-
-} // end namespace detail
-} // end namespace CodeViewYAML
-} // end namespace llvm
-
-template <typename T>
-static inline Expected<LeafRecord> fromCodeViewRecordImpl(CVType Type) {
- LeafRecord Result;
-
- auto Impl = std::make_shared<LeafRecordImpl<T>>(Type.kind());
- if (auto EC = Impl->fromCodeViewRecord(Type))
- return std::move(EC);
- Result.Leaf = Impl;
- return Result;
-}
-
-Expected<LeafRecord> LeafRecord::fromCodeViewRecord(CVType Type) {
-#define TYPE_RECORD(EnumName, EnumVal, ClassName) \
- case EnumName: \
- return fromCodeViewRecordImpl<ClassName##Record>(Type);
-#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
- TYPE_RECORD(EnumName, EnumVal, ClassName)
-#define MEMBER_RECORD(EnumName, EnumVal, ClassName)
-#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
- switch (Type.kind()) {
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
- default:
- llvm_unreachable("Unknown leaf kind!");
- }
- return make_error<CodeViewError>(cv_error_code::corrupt_record);
-}
-
-CVType
-LeafRecord::toCodeViewRecord(AppendingTypeTableBuilder &Serializer) const {
- return Leaf->toCodeViewRecord(Serializer);
-}
-
-namespace llvm {
-namespace yaml {
-
-template <> struct MappingTraits<LeafRecordBase> {
- static void mapping(IO &io, LeafRecordBase &Record) { Record.map(io); }
-};
-
-template <> struct MappingTraits<MemberRecordBase> {
- static void mapping(IO &io, MemberRecordBase &Record) { Record.map(io); }
-};
-
-} // end namespace yaml
-} // end namespace llvm
-
-template <typename ConcreteType>
-static void mapLeafRecordImpl(IO &IO, const char *Class, TypeLeafKind Kind,
- LeafRecord &Obj) {
- if (!IO.outputting())
- Obj.Leaf = std::make_shared<LeafRecordImpl<ConcreteType>>(Kind);
-
- if (Kind == LF_FIELDLIST)
- Obj.Leaf->map(IO);
- else
- IO.mapRequired(Class, *Obj.Leaf);
-}
-
-void MappingTraits<LeafRecord>::mapping(IO &IO, LeafRecord &Obj) {
- TypeLeafKind Kind;
- if (IO.outputting())
- Kind = Obj.Leaf->Kind;
- IO.mapRequired("Kind", Kind);
-
-#define TYPE_RECORD(EnumName, EnumVal, ClassName) \
- case EnumName: \
- mapLeafRecordImpl<ClassName##Record>(IO, #ClassName, Kind, Obj); \
- break;
-#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
- TYPE_RECORD(EnumName, EnumVal, ClassName)
-#define MEMBER_RECORD(EnumName, EnumVal, ClassName)
-#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
- switch (Kind) {
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
- default: { llvm_unreachable("Unknown leaf kind!"); }
- }
-}
-
-template <typename ConcreteType>
-static void mapMemberRecordImpl(IO &IO, const char *Class, TypeLeafKind Kind,
- MemberRecord &Obj) {
- if (!IO.outputting())
- Obj.Member = std::make_shared<MemberRecordImpl<ConcreteType>>(Kind);
-
- IO.mapRequired(Class, *Obj.Member);
-}
-
-void MappingTraits<MemberRecord>::mapping(IO &IO, MemberRecord &Obj) {
- TypeLeafKind Kind;
- if (IO.outputting())
- Kind = Obj.Member->Kind;
- IO.mapRequired("Kind", Kind);
-
-#define MEMBER_RECORD(EnumName, EnumVal, ClassName) \
- case EnumName: \
- mapMemberRecordImpl<ClassName##Record>(IO, #ClassName, Kind, Obj); \
- break;
-#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
- MEMBER_RECORD(EnumName, EnumVal, ClassName)
-#define TYPE_RECORD(EnumName, EnumVal, ClassName)
-#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
- switch (Kind) {
-#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
- default: { llvm_unreachable("Unknown member kind!"); }
- }
-}
-
-std::vector<LeafRecord>
-llvm::CodeViewYAML::fromDebugT(ArrayRef<uint8_t> DebugTorP,
- StringRef SectionName) {
- ExitOnError Err("Invalid " + std::string(SectionName) + " section!");
- BinaryStreamReader Reader(DebugTorP, support::little);
- CVTypeArray Types;
- uint32_t Magic;
-
- Err(Reader.readInteger(Magic));
- assert(Magic == COFF::DEBUG_SECTION_MAGIC &&
- "Invalid .debug$T or .debug$P section!");
-
- std::vector<LeafRecord> Result;
- Err(Reader.readArray(Types, Reader.bytesRemaining()));
- for (const auto &T : Types) {
- auto CVT = Err(LeafRecord::fromCodeViewRecord(T));
- Result.push_back(CVT);
- }
- return Result;
-}
-
-ArrayRef<uint8_t> llvm::CodeViewYAML::toDebugT(ArrayRef<LeafRecord> Leafs,
- BumpPtrAllocator &Alloc,
- StringRef SectionName) {
- AppendingTypeTableBuilder TS(Alloc);
- uint32_t Size = sizeof(uint32_t);
- for (const auto &Leaf : Leafs) {
- CVType T = Leaf.Leaf->toCodeViewRecord(TS);
- Size += T.length();
- assert(T.length() % 4 == 0 && "Improper type record alignment!");
- }
- uint8_t *ResultBuffer = Alloc.Allocate<uint8_t>(Size);
- MutableArrayRef<uint8_t> Output(ResultBuffer, Size);
- BinaryStreamWriter Writer(Output, support::little);
- ExitOnError Err("Error writing type record to " + std::string(SectionName) +
- " section");
- Err(Writer.writeInteger<uint32_t>(COFF::DEBUG_SECTION_MAGIC));
- for (const auto &R : TS.records()) {
- Err(Writer.writeBytes(R));
- }
- assert(Writer.bytesRemaining() == 0 && "Didn't write all type record bytes!");
- return Output;
-}
+//===- CodeViewYAMLTypes.cpp - CodeView YAMLIO types implementation -------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+//
+// This file defines classes for handling the YAML representation of CodeView
+// Debug Info.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/ObjectYAML/CodeViewYAMLTypes.h"
+#include "llvm/ADT/APSInt.h"
+#include "llvm/ADT/ArrayRef.h"
+#include "llvm/ADT/StringRef.h"
+#include "llvm/BinaryFormat/COFF.h"
+#include "llvm/DebugInfo/CodeView/AppendingTypeTableBuilder.h"
+#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
+#include "llvm/DebugInfo/CodeView/CodeView.h"
+#include "llvm/DebugInfo/CodeView/CodeViewError.h"
+#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
+#include "llvm/DebugInfo/CodeView/TypeDeserializer.h"
+#include "llvm/DebugInfo/CodeView/TypeIndex.h"
+#include "llvm/DebugInfo/CodeView/TypeVisitorCallbacks.h"
+#include "llvm/Support/Allocator.h"
+#include "llvm/Support/BinaryStreamReader.h"
+#include "llvm/Support/BinaryStreamWriter.h"
+#include "llvm/Support/Endian.h"
+#include "llvm/Support/Error.h"
+#include "llvm/Support/ErrorHandling.h"
+#include "llvm/Support/YAMLTraits.h"
+#include "llvm/Support/raw_ostream.h"
+#include <algorithm>
+#include <cassert>
+#include <cstdint>
+#include <vector>
+
+using namespace llvm;
+using namespace llvm::codeview;
+using namespace llvm::CodeViewYAML;
+using namespace llvm::CodeViewYAML::detail;
+using namespace llvm::yaml;
+
+LLVM_YAML_IS_SEQUENCE_VECTOR(OneMethodRecord)
+LLVM_YAML_IS_SEQUENCE_VECTOR(VFTableSlotKind)
+LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(TypeIndex)
+
+LLVM_YAML_DECLARE_SCALAR_TRAITS(TypeIndex, QuotingType::None)
+LLVM_YAML_DECLARE_SCALAR_TRAITS(APSInt, QuotingType::None)
+
+LLVM_YAML_DECLARE_ENUM_TRAITS(TypeLeafKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(PointerToMemberRepresentation)
+LLVM_YAML_DECLARE_ENUM_TRAITS(VFTableSlotKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(CallingConvention)
+LLVM_YAML_DECLARE_ENUM_TRAITS(PointerKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(PointerMode)
+LLVM_YAML_DECLARE_ENUM_TRAITS(HfaKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(MemberAccess)
+LLVM_YAML_DECLARE_ENUM_TRAITS(MethodKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(WindowsRTClassKind)
+LLVM_YAML_DECLARE_ENUM_TRAITS(LabelType)
+
+LLVM_YAML_DECLARE_BITSET_TRAITS(PointerOptions)
+LLVM_YAML_DECLARE_BITSET_TRAITS(ModifierOptions)
+LLVM_YAML_DECLARE_BITSET_TRAITS(FunctionOptions)
+LLVM_YAML_DECLARE_BITSET_TRAITS(ClassOptions)
+LLVM_YAML_DECLARE_BITSET_TRAITS(MethodOptions)
+
+LLVM_YAML_DECLARE_MAPPING_TRAITS(OneMethodRecord)
+LLVM_YAML_DECLARE_MAPPING_TRAITS(MemberPointerInfo)
+
+namespace llvm {
+namespace CodeViewYAML {
+namespace detail {
+
+struct LeafRecordBase {
+ TypeLeafKind Kind;
+
+ explicit LeafRecordBase(TypeLeafKind K) : Kind(K) {}
+ virtual ~LeafRecordBase() = default;
+
+ virtual void map(yaml::IO &io) = 0;
+ virtual CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const = 0;
+ virtual Error fromCodeViewRecord(CVType Type) = 0;
+};
+
+template <typename T> struct LeafRecordImpl : public LeafRecordBase {
+ explicit LeafRecordImpl(TypeLeafKind K)
+ : LeafRecordBase(K), Record(static_cast<TypeRecordKind>(K)) {}
+
+ void map(yaml::IO &io) override;
+
+ Error fromCodeViewRecord(CVType Type) override {
+ return TypeDeserializer::deserializeAs<T>(Type, Record);
+ }
+
+ CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const override {
+ TS.writeLeafType(Record);
+ return CVType(Kind, TS.records().back());
+ }
+
+ mutable T Record;
+};
+
+template <> struct LeafRecordImpl<FieldListRecord> : public LeafRecordBase {
+ explicit LeafRecordImpl(TypeLeafKind K) : LeafRecordBase(K) {}
+
+ void map(yaml::IO &io) override;
+ CVType toCodeViewRecord(AppendingTypeTableBuilder &TS) const override;
+ Error fromCodeViewRecord(CVType Type) override;
+
+ std::vector<MemberRecord> Members;
+};
+
+struct MemberRecordBase {
+ TypeLeafKind Kind;
+
+ explicit MemberRecordBase(TypeLeafKind K) : Kind(K) {}
+ virtual ~MemberRecordBase() = default;
+
+ virtual void map(yaml::IO &io) = 0;
+ virtual void writeTo(ContinuationRecordBuilder &CRB) = 0;
+};
+
+template <typename T> struct MemberRecordImpl : public MemberRecordBase {
+ explicit MemberRecordImpl(TypeLeafKind K)
+ : MemberRecordBase(K), Record(static_cast<TypeRecordKind>(K)) {}
+
+ void map(yaml::IO &io) override;
+
+ void writeTo(ContinuationRecordBuilder &CRB) override {
+ CRB.writeMemberType(Record);
+ }
+
+ mutable T Record;
+};
+
+} // end namespace detail
+} // end namespace CodeViewYAML
+} // end namespace llvm
+
+void ScalarTraits<GUID>::output(const GUID &G, void *, llvm::raw_ostream &OS) {
+ OS << G;
+}
+
+StringRef ScalarTraits<GUID>::input(StringRef Scalar, void *Ctx, GUID &S) {
+ if (Scalar.size() != 38)
+ return "GUID strings are 38 characters long";
+ if (Scalar[0] != '{' || Scalar[37] != '}')
+ return "GUID is not enclosed in {}";
+ if (Scalar[9] != '-' || Scalar[14] != '-' || Scalar[19] != '-' ||
+ Scalar[24] != '-')
+ return "GUID sections are not properly delineated with dashes";
+
+ uint8_t *OutBuffer = S.Guid;
+ for (auto Iter = Scalar.begin(); Iter != Scalar.end();) {
+ if (*Iter == '-' || *Iter == '{' || *Iter == '}') {
+ ++Iter;
+ continue;
+ }
+ uint8_t Value = (llvm::hexDigitValue(*Iter++) << 4);
+ Value |= llvm::hexDigitValue(*Iter++);
+ *OutBuffer++ = Value;
+ }
+
+ return "";
+}
+
+void ScalarTraits<TypeIndex>::output(const TypeIndex &S, void *,
+ raw_ostream &OS) {
+ OS << S.getIndex();
+}
+
+StringRef ScalarTraits<TypeIndex>::input(StringRef Scalar, void *Ctx,
+ TypeIndex &S) {
+ uint32_t I;
+ StringRef Result = ScalarTraits<uint32_t>::input(Scalar, Ctx, I);
+ S.setIndex(I);
+ return Result;
+}
+
+void ScalarTraits<APSInt>::output(const APSInt &S, void *, raw_ostream &OS) {
+ S.print(OS, S.isSigned());
+}
+
+StringRef ScalarTraits<APSInt>::input(StringRef Scalar, void *Ctx, APSInt &S) {
+ S = APSInt(Scalar);
+ return "";
+}
+
+void ScalarEnumerationTraits<TypeLeafKind>::enumeration(IO &io,
+ TypeLeafKind &Value) {
+#define CV_TYPE(name, val) io.enumCase(Value, #name, name);
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+#undef CV_TYPE
+}
+
+void ScalarEnumerationTraits<PointerToMemberRepresentation>::enumeration(
+ IO &IO, PointerToMemberRepresentation &Value) {
+ IO.enumCase(Value, "Unknown", PointerToMemberRepresentation::Unknown);
+ IO.enumCase(Value, "SingleInheritanceData",
+ PointerToMemberRepresentation::SingleInheritanceData);
+ IO.enumCase(Value, "MultipleInheritanceData",
+ PointerToMemberRepresentation::MultipleInheritanceData);
+ IO.enumCase(Value, "VirtualInheritanceData",
+ PointerToMemberRepresentation::VirtualInheritanceData);
+ IO.enumCase(Value, "GeneralData", PointerToMemberRepresentation::GeneralData);
+ IO.enumCase(Value, "SingleInheritanceFunction",
+ PointerToMemberRepresentation::SingleInheritanceFunction);
+ IO.enumCase(Value, "MultipleInheritanceFunction",
+ PointerToMemberRepresentation::MultipleInheritanceFunction);
+ IO.enumCase(Value, "VirtualInheritanceFunction",
+ PointerToMemberRepresentation::VirtualInheritanceFunction);
+ IO.enumCase(Value, "GeneralFunction",
+ PointerToMemberRepresentation::GeneralFunction);
+}
+
+void ScalarEnumerationTraits<VFTableSlotKind>::enumeration(
+ IO &IO, VFTableSlotKind &Kind) {
+ IO.enumCase(Kind, "Near16", VFTableSlotKind::Near16);
+ IO.enumCase(Kind, "Far16", VFTableSlotKind::Far16);
+ IO.enumCase(Kind, "This", VFTableSlotKind::This);
+ IO.enumCase(Kind, "Outer", VFTableSlotKind::Outer);
+ IO.enumCase(Kind, "Meta", VFTableSlotKind::Meta);
+ IO.enumCase(Kind, "Near", VFTableSlotKind::Near);
+ IO.enumCase(Kind, "Far", VFTableSlotKind::Far);
+}
+
+void ScalarEnumerationTraits<CallingConvention>::enumeration(
+ IO &IO, CallingConvention &Value) {
+ IO.enumCase(Value, "NearC", CallingConvention::NearC);
+ IO.enumCase(Value, "FarC", CallingConvention::FarC);
+ IO.enumCase(Value, "NearPascal", CallingConvention::NearPascal);
+ IO.enumCase(Value, "FarPascal", CallingConvention::FarPascal);
+ IO.enumCase(Value, "NearFast", CallingConvention::NearFast);
+ IO.enumCase(Value, "FarFast", CallingConvention::FarFast);
+ IO.enumCase(Value, "NearStdCall", CallingConvention::NearStdCall);
+ IO.enumCase(Value, "FarStdCall", CallingConvention::FarStdCall);
+ IO.enumCase(Value, "NearSysCall", CallingConvention::NearSysCall);
+ IO.enumCase(Value, "FarSysCall", CallingConvention::FarSysCall);
+ IO.enumCase(Value, "ThisCall", CallingConvention::ThisCall);
+ IO.enumCase(Value, "MipsCall", CallingConvention::MipsCall);
+ IO.enumCase(Value, "Generic", CallingConvention::Generic);
+ IO.enumCase(Value, "AlphaCall", CallingConvention::AlphaCall);
+ IO.enumCase(Value, "PpcCall", CallingConvention::PpcCall);
+ IO.enumCase(Value, "SHCall", CallingConvention::SHCall);
+ IO.enumCase(Value, "ArmCall", CallingConvention::ArmCall);
+ IO.enumCase(Value, "AM33Call", CallingConvention::AM33Call);
+ IO.enumCase(Value, "TriCall", CallingConvention::TriCall);
+ IO.enumCase(Value, "SH5Call", CallingConvention::SH5Call);
+ IO.enumCase(Value, "M32RCall", CallingConvention::M32RCall);
+ IO.enumCase(Value, "ClrCall", CallingConvention::ClrCall);
+ IO.enumCase(Value, "Inline", CallingConvention::Inline);
+ IO.enumCase(Value, "NearVector", CallingConvention::NearVector);
+}
+
+void ScalarEnumerationTraits<PointerKind>::enumeration(IO &IO,
+ PointerKind &Kind) {
+ IO.enumCase(Kind, "Near16", PointerKind::Near16);
+ IO.enumCase(Kind, "Far16", PointerKind::Far16);
+ IO.enumCase(Kind, "Huge16", PointerKind::Huge16);
+ IO.enumCase(Kind, "BasedOnSegment", PointerKind::BasedOnSegment);
+ IO.enumCase(Kind, "BasedOnValue", PointerKind::BasedOnValue);
+ IO.enumCase(Kind, "BasedOnSegmentValue", PointerKind::BasedOnSegmentValue);
+ IO.enumCase(Kind, "BasedOnAddress", PointerKind::BasedOnAddress);
+ IO.enumCase(Kind, "BasedOnSegmentAddress",
+ PointerKind::BasedOnSegmentAddress);
+ IO.enumCase(Kind, "BasedOnType", PointerKind::BasedOnType);
+ IO.enumCase(Kind, "BasedOnSelf", PointerKind::BasedOnSelf);
+ IO.enumCase(Kind, "Near32", PointerKind::Near32);
+ IO.enumCase(Kind, "Far32", PointerKind::Far32);
+ IO.enumCase(Kind, "Near64", PointerKind::Near64);
+}
+
+void ScalarEnumerationTraits<PointerMode>::enumeration(IO &IO,
+ PointerMode &Mode) {
+ IO.enumCase(Mode, "Pointer", PointerMode::Pointer);
+ IO.enumCase(Mode, "LValueReference", PointerMode::LValueReference);
+ IO.enumCase(Mode, "PointerToDataMember", PointerMode::PointerToDataMember);
+ IO.enumCase(Mode, "PointerToMemberFunction",
+ PointerMode::PointerToMemberFunction);
+ IO.enumCase(Mode, "RValueReference", PointerMode::RValueReference);
+}
+
+void ScalarEnumerationTraits<HfaKind>::enumeration(IO &IO, HfaKind &Value) {
+ IO.enumCase(Value, "None", HfaKind::None);
+ IO.enumCase(Value, "Float", HfaKind::Float);
+ IO.enumCase(Value, "Double", HfaKind::Double);
+ IO.enumCase(Value, "Other", HfaKind::Other);
+}
+
+void ScalarEnumerationTraits<MemberAccess>::enumeration(IO &IO,
+ MemberAccess &Access) {
+ IO.enumCase(Access, "None", MemberAccess::None);
+ IO.enumCase(Access, "Private", MemberAccess::Private);
+ IO.enumCase(Access, "Protected", MemberAccess::Protected);
+ IO.enumCase(Access, "Public", MemberAccess::Public);
+}
+
+void ScalarEnumerationTraits<MethodKind>::enumeration(IO &IO,
+ MethodKind &Kind) {
+ IO.enumCase(Kind, "Vanilla", MethodKind::Vanilla);
+ IO.enumCase(Kind, "Virtual", MethodKind::Virtual);
+ IO.enumCase(Kind, "Static", MethodKind::Static);
+ IO.enumCase(Kind, "Friend", MethodKind::Friend);
+ IO.enumCase(Kind, "IntroducingVirtual", MethodKind::IntroducingVirtual);
+ IO.enumCase(Kind, "PureVirtual", MethodKind::PureVirtual);
+ IO.enumCase(Kind, "PureIntroducingVirtual",
+ MethodKind::PureIntroducingVirtual);
+}
+
+void ScalarEnumerationTraits<WindowsRTClassKind>::enumeration(
+ IO &IO, WindowsRTClassKind &Value) {
+ IO.enumCase(Value, "None", WindowsRTClassKind::None);
+ IO.enumCase(Value, "Ref", WindowsRTClassKind::RefClass);
+ IO.enumCase(Value, "Value", WindowsRTClassKind::ValueClass);
+ IO.enumCase(Value, "Interface", WindowsRTClassKind::Interface);
+}
+
+void ScalarEnumerationTraits<LabelType>::enumeration(IO &IO, LabelType &Value) {
+ IO.enumCase(Value, "Near", LabelType::Near);
+ IO.enumCase(Value, "Far", LabelType::Far);
+}
+
+void ScalarBitSetTraits<PointerOptions>::bitset(IO &IO,
+ PointerOptions &Options) {
+ IO.bitSetCase(Options, "None", PointerOptions::None);
+ IO.bitSetCase(Options, "Flat32", PointerOptions::Flat32);
+ IO.bitSetCase(Options, "Volatile", PointerOptions::Volatile);
+ IO.bitSetCase(Options, "Const", PointerOptions::Const);
+ IO.bitSetCase(Options, "Unaligned", PointerOptions::Unaligned);
+ IO.bitSetCase(Options, "Restrict", PointerOptions::Restrict);
+ IO.bitSetCase(Options, "WinRTSmartPointer",
+ PointerOptions::WinRTSmartPointer);
+}
+
+void ScalarBitSetTraits<ModifierOptions>::bitset(IO &IO,
+ ModifierOptions &Options) {
+ IO.bitSetCase(Options, "None", ModifierOptions::None);
+ IO.bitSetCase(Options, "Const", ModifierOptions::Const);
+ IO.bitSetCase(Options, "Volatile", ModifierOptions::Volatile);
+ IO.bitSetCase(Options, "Unaligned", ModifierOptions::Unaligned);
+}
+
+void ScalarBitSetTraits<FunctionOptions>::bitset(IO &IO,
+ FunctionOptions &Options) {
+ IO.bitSetCase(Options, "None", FunctionOptions::None);
+ IO.bitSetCase(Options, "CxxReturnUdt", FunctionOptions::CxxReturnUdt);
+ IO.bitSetCase(Options, "Constructor", FunctionOptions::Constructor);
+ IO.bitSetCase(Options, "ConstructorWithVirtualBases",
+ FunctionOptions::ConstructorWithVirtualBases);
+}
+
+void ScalarBitSetTraits<ClassOptions>::bitset(IO &IO, ClassOptions &Options) {
+ IO.bitSetCase(Options, "None", ClassOptions::None);
+ IO.bitSetCase(Options, "HasConstructorOrDestructor",
+ ClassOptions::HasConstructorOrDestructor);
+ IO.bitSetCase(Options, "HasOverloadedOperator",
+ ClassOptions::HasOverloadedOperator);
+ IO.bitSetCase(Options, "Nested", ClassOptions::Nested);
+ IO.bitSetCase(Options, "ContainsNestedClass",
+ ClassOptions::ContainsNestedClass);
+ IO.bitSetCase(Options, "HasOverloadedAssignmentOperator",
+ ClassOptions::HasOverloadedAssignmentOperator);
+ IO.bitSetCase(Options, "HasConversionOperator",
+ ClassOptions::HasConversionOperator);
+ IO.bitSetCase(Options, "ForwardReference", ClassOptions::ForwardReference);
+ IO.bitSetCase(Options, "Scoped", ClassOptions::Scoped);
+ IO.bitSetCase(Options, "HasUniqueName", ClassOptions::HasUniqueName);
+ IO.bitSetCase(Options, "Sealed", ClassOptions::Sealed);
+ IO.bitSetCase(Options, "Intrinsic", ClassOptions::Intrinsic);
+}
+
+void ScalarBitSetTraits<MethodOptions>::bitset(IO &IO, MethodOptions &Options) {
+ IO.bitSetCase(Options, "None", MethodOptions::None);
+ IO.bitSetCase(Options, "Pseudo", MethodOptions::Pseudo);
+ IO.bitSetCase(Options, "NoInherit", MethodOptions::NoInherit);
+ IO.bitSetCase(Options, "NoConstruct", MethodOptions::NoConstruct);
+ IO.bitSetCase(Options, "CompilerGenerated", MethodOptions::CompilerGenerated);
+ IO.bitSetCase(Options, "Sealed", MethodOptions::Sealed);
+}
+
+void MappingTraits<MemberPointerInfo>::mapping(IO &IO, MemberPointerInfo &MPI) {
+ IO.mapRequired("ContainingType", MPI.ContainingType);
+ IO.mapRequired("Representation", MPI.Representation);
+}
+
+namespace llvm {
+namespace CodeViewYAML {
+namespace detail {
+
+template <> void LeafRecordImpl<ModifierRecord>::map(IO &IO) {
+ IO.mapRequired("ModifiedType", Record.ModifiedType);
+ IO.mapRequired("Modifiers", Record.Modifiers);
+}
+
+template <> void LeafRecordImpl<ProcedureRecord>::map(IO &IO) {
+ IO.mapRequired("ReturnType", Record.ReturnType);
+ IO.mapRequired("CallConv", Record.CallConv);
+ IO.mapRequired("Options", Record.Options);
+ IO.mapRequired("ParameterCount", Record.ParameterCount);
+ IO.mapRequired("ArgumentList", Record.ArgumentList);
+}
+
+template <> void LeafRecordImpl<MemberFunctionRecord>::map(IO &IO) {
+ IO.mapRequired("ReturnType", Record.ReturnType);
+ IO.mapRequired("ClassType", Record.ClassType);
+ IO.mapRequired("ThisType", Record.ThisType);
+ IO.mapRequired("CallConv", Record.CallConv);
+ IO.mapRequired("Options", Record.Options);
+ IO.mapRequired("ParameterCount", Record.ParameterCount);
+ IO.mapRequired("ArgumentList", Record.ArgumentList);
+ IO.mapRequired("ThisPointerAdjustment", Record.ThisPointerAdjustment);
+}
+
+template <> void LeafRecordImpl<LabelRecord>::map(IO &IO) {
+ IO.mapRequired("Mode", Record.Mode);
+}
+
+template <> void LeafRecordImpl<MemberFuncIdRecord>::map(IO &IO) {
+ IO.mapRequired("ClassType", Record.ClassType);
+ IO.mapRequired("FunctionType", Record.FunctionType);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void LeafRecordImpl<ArgListRecord>::map(IO &IO) {
+ IO.mapRequired("ArgIndices", Record.ArgIndices);
+}
+
+template <> void LeafRecordImpl<StringListRecord>::map(IO &IO) {
+ IO.mapRequired("StringIndices", Record.StringIndices);
+}
+
+template <> void LeafRecordImpl<PointerRecord>::map(IO &IO) {
+ IO.mapRequired("ReferentType", Record.ReferentType);
+ IO.mapRequired("Attrs", Record.Attrs);
+ IO.mapOptional("MemberInfo", Record.MemberInfo);
+}
+
+template <> void LeafRecordImpl<ArrayRecord>::map(IO &IO) {
+ IO.mapRequired("ElementType", Record.ElementType);
+ IO.mapRequired("IndexType", Record.IndexType);
+ IO.mapRequired("Size", Record.Size);
+ IO.mapRequired("Name", Record.Name);
+}
+
+void LeafRecordImpl<FieldListRecord>::map(IO &IO) {
+ IO.mapRequired("FieldList", Members);
+}
+
+} // end namespace detail
+} // end namespace CodeViewYAML
+} // end namespace llvm
+
+namespace {
+
+class MemberRecordConversionVisitor : public TypeVisitorCallbacks {
+public:
+ explicit MemberRecordConversionVisitor(std::vector<MemberRecord> &Records)
+ : Records(Records) {}
+
+#define TYPE_RECORD(EnumName, EnumVal, Name)
+#define MEMBER_RECORD(EnumName, EnumVal, Name) \
+ Error visitKnownMember(CVMemberRecord &CVR, Name##Record &Record) override { \
+ return visitKnownMemberImpl(Record); \
+ }
+#define TYPE_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
+#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, Name, AliasName)
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+private:
+ template <typename T> Error visitKnownMemberImpl(T &Record) {
+ TypeLeafKind K = static_cast<TypeLeafKind>(Record.getKind());
+ auto Impl = std::make_shared<MemberRecordImpl<T>>(K);
+ Impl->Record = Record;
+ Records.push_back(MemberRecord{Impl});
+ return Error::success();
+ }
+
+ std::vector<MemberRecord> &Records;
+};
+
+} // end anonymous namespace
+
+Error LeafRecordImpl<FieldListRecord>::fromCodeViewRecord(CVType Type) {
+ MemberRecordConversionVisitor V(Members);
+ return visitMemberRecordStream(Type.content(), V);
+}
+
+CVType LeafRecordImpl<FieldListRecord>::toCodeViewRecord(
+ AppendingTypeTableBuilder &TS) const {
+ ContinuationRecordBuilder CRB;
+ CRB.begin(ContinuationRecordKind::FieldList);
+ for (const auto &Member : Members) {
+ Member.Member->writeTo(CRB);
+ }
+ TS.insertRecord(CRB);
+ return CVType(Kind, TS.records().back());
+}
+
+void MappingTraits<OneMethodRecord>::mapping(IO &io, OneMethodRecord &Record) {
+ io.mapRequired("Type", Record.Type);
+ io.mapRequired("Attrs", Record.Attrs.Attrs);
+ io.mapRequired("VFTableOffset", Record.VFTableOffset);
+ io.mapRequired("Name", Record.Name);
+}
+
+namespace llvm {
+namespace CodeViewYAML {
+namespace detail {
+
+template <> void LeafRecordImpl<ClassRecord>::map(IO &IO) {
+ IO.mapRequired("MemberCount", Record.MemberCount);
+ IO.mapRequired("Options", Record.Options);
+ IO.mapRequired("FieldList", Record.FieldList);
+ IO.mapRequired("Name", Record.Name);
+ IO.mapRequired("UniqueName", Record.UniqueName);
+ IO.mapRequired("DerivationList", Record.DerivationList);
+ IO.mapRequired("VTableShape", Record.VTableShape);
+ IO.mapRequired("Size", Record.Size);
+}
+
+template <> void LeafRecordImpl<UnionRecord>::map(IO &IO) {
+ IO.mapRequired("MemberCount", Record.MemberCount);
+ IO.mapRequired("Options", Record.Options);
+ IO.mapRequired("FieldList", Record.FieldList);
+ IO.mapRequired("Name", Record.Name);
+ IO.mapRequired("UniqueName", Record.UniqueName);
+ IO.mapRequired("Size", Record.Size);
+}
+
+template <> void LeafRecordImpl<EnumRecord>::map(IO &IO) {
+ IO.mapRequired("NumEnumerators", Record.MemberCount);
+ IO.mapRequired("Options", Record.Options);
+ IO.mapRequired("FieldList", Record.FieldList);
+ IO.mapRequired("Name", Record.Name);
+ IO.mapRequired("UniqueName", Record.UniqueName);
+ IO.mapRequired("UnderlyingType", Record.UnderlyingType);
+}
+
+template <> void LeafRecordImpl<BitFieldRecord>::map(IO &IO) {
+ IO.mapRequired("Type", Record.Type);
+ IO.mapRequired("BitSize", Record.BitSize);
+ IO.mapRequired("BitOffset", Record.BitOffset);
+}
+
+template <> void LeafRecordImpl<VFTableShapeRecord>::map(IO &IO) {
+ IO.mapRequired("Slots", Record.Slots);
+}
+
+template <> void LeafRecordImpl<TypeServer2Record>::map(IO &IO) {
+ IO.mapRequired("Guid", Record.Guid);
+ IO.mapRequired("Age", Record.Age);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void LeafRecordImpl<StringIdRecord>::map(IO &IO) {
+ IO.mapRequired("Id", Record.Id);
+ IO.mapRequired("String", Record.String);
+}
+
+template <> void LeafRecordImpl<FuncIdRecord>::map(IO &IO) {
+ IO.mapRequired("ParentScope", Record.ParentScope);
+ IO.mapRequired("FunctionType", Record.FunctionType);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void LeafRecordImpl<UdtSourceLineRecord>::map(IO &IO) {
+ IO.mapRequired("UDT", Record.UDT);
+ IO.mapRequired("SourceFile", Record.SourceFile);
+ IO.mapRequired("LineNumber", Record.LineNumber);
+}
+
+template <> void LeafRecordImpl<UdtModSourceLineRecord>::map(IO &IO) {
+ IO.mapRequired("UDT", Record.UDT);
+ IO.mapRequired("SourceFile", Record.SourceFile);
+ IO.mapRequired("LineNumber", Record.LineNumber);
+ IO.mapRequired("Module", Record.Module);
+}
+
+template <> void LeafRecordImpl<BuildInfoRecord>::map(IO &IO) {
+ IO.mapRequired("ArgIndices", Record.ArgIndices);
+}
+
+template <> void LeafRecordImpl<VFTableRecord>::map(IO &IO) {
+ IO.mapRequired("CompleteClass", Record.CompleteClass);
+ IO.mapRequired("OverriddenVFTable", Record.OverriddenVFTable);
+ IO.mapRequired("VFPtrOffset", Record.VFPtrOffset);
+ IO.mapRequired("MethodNames", Record.MethodNames);
+}
+
+template <> void LeafRecordImpl<MethodOverloadListRecord>::map(IO &IO) {
+ IO.mapRequired("Methods", Record.Methods);
+}
+
+template <> void LeafRecordImpl<PrecompRecord>::map(IO &IO) {
+ IO.mapRequired("StartTypeIndex", Record.StartTypeIndex);
+ IO.mapRequired("TypesCount", Record.TypesCount);
+ IO.mapRequired("Signature", Record.Signature);
+ IO.mapRequired("PrecompFilePath", Record.PrecompFilePath);
+}
+
+template <> void LeafRecordImpl<EndPrecompRecord>::map(IO &IO) {
+ IO.mapRequired("Signature", Record.Signature);
+}
+
+template <> void MemberRecordImpl<OneMethodRecord>::map(IO &IO) {
+ MappingTraits<OneMethodRecord>::mapping(IO, Record);
+}
+
+template <> void MemberRecordImpl<OverloadedMethodRecord>::map(IO &IO) {
+ IO.mapRequired("NumOverloads", Record.NumOverloads);
+ IO.mapRequired("MethodList", Record.MethodList);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void MemberRecordImpl<NestedTypeRecord>::map(IO &IO) {
+ IO.mapRequired("Type", Record.Type);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void MemberRecordImpl<DataMemberRecord>::map(IO &IO) {
+ IO.mapRequired("Attrs", Record.Attrs.Attrs);
+ IO.mapRequired("Type", Record.Type);
+ IO.mapRequired("FieldOffset", Record.FieldOffset);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void MemberRecordImpl<StaticDataMemberRecord>::map(IO &IO) {
+ IO.mapRequired("Attrs", Record.Attrs.Attrs);
+ IO.mapRequired("Type", Record.Type);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void MemberRecordImpl<EnumeratorRecord>::map(IO &IO) {
+ IO.mapRequired("Attrs", Record.Attrs.Attrs);
+ IO.mapRequired("Value", Record.Value);
+ IO.mapRequired("Name", Record.Name);
+}
+
+template <> void MemberRecordImpl<VFPtrRecord>::map(IO &IO) {
+ IO.mapRequired("Type", Record.Type);
+}
+
+template <> void MemberRecordImpl<BaseClassRecord>::map(IO &IO) {
+ IO.mapRequired("Attrs", Record.Attrs.Attrs);
+ IO.mapRequired("Type", Record.Type);
+ IO.mapRequired("Offset", Record.Offset);
+}
+
+template <> void MemberRecordImpl<VirtualBaseClassRecord>::map(IO &IO) {
+ IO.mapRequired("Attrs", Record.Attrs.Attrs);
+ IO.mapRequired("BaseType", Record.BaseType);
+ IO.mapRequired("VBPtrType", Record.VBPtrType);
+ IO.mapRequired("VBPtrOffset", Record.VBPtrOffset);
+ IO.mapRequired("VTableIndex", Record.VTableIndex);
+}
+
+template <> void MemberRecordImpl<ListContinuationRecord>::map(IO &IO) {
+ IO.mapRequired("ContinuationIndex", Record.ContinuationIndex);
+}
+
+} // end namespace detail
+} // end namespace CodeViewYAML
+} // end namespace llvm
+
+template <typename T>
+static inline Expected<LeafRecord> fromCodeViewRecordImpl(CVType Type) {
+ LeafRecord Result;
+
+ auto Impl = std::make_shared<LeafRecordImpl<T>>(Type.kind());
+ if (auto EC = Impl->fromCodeViewRecord(Type))
+ return std::move(EC);
+ Result.Leaf = Impl;
+ return Result;
+}
+
+Expected<LeafRecord> LeafRecord::fromCodeViewRecord(CVType Type) {
+#define TYPE_RECORD(EnumName, EnumVal, ClassName) \
+ case EnumName: \
+ return fromCodeViewRecordImpl<ClassName##Record>(Type);
+#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
+ TYPE_RECORD(EnumName, EnumVal, ClassName)
+#define MEMBER_RECORD(EnumName, EnumVal, ClassName)
+#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
+ switch (Type.kind()) {
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+ default:
+ llvm_unreachable("Unknown leaf kind!");
+ }
+ return make_error<CodeViewError>(cv_error_code::corrupt_record);
+}
+
+CVType
+LeafRecord::toCodeViewRecord(AppendingTypeTableBuilder &Serializer) const {
+ return Leaf->toCodeViewRecord(Serializer);
+}
+
+namespace llvm {
+namespace yaml {
+
+template <> struct MappingTraits<LeafRecordBase> {
+ static void mapping(IO &io, LeafRecordBase &Record) { Record.map(io); }
+};
+
+template <> struct MappingTraits<MemberRecordBase> {
+ static void mapping(IO &io, MemberRecordBase &Record) { Record.map(io); }
+};
+
+} // end namespace yaml
+} // end namespace llvm
+
+template <typename ConcreteType>
+static void mapLeafRecordImpl(IO &IO, const char *Class, TypeLeafKind Kind,
+ LeafRecord &Obj) {
+ if (!IO.outputting())
+ Obj.Leaf = std::make_shared<LeafRecordImpl<ConcreteType>>(Kind);
+
+ if (Kind == LF_FIELDLIST)
+ Obj.Leaf->map(IO);
+ else
+ IO.mapRequired(Class, *Obj.Leaf);
+}
+
+void MappingTraits<LeafRecord>::mapping(IO &IO, LeafRecord &Obj) {
+ TypeLeafKind Kind;
+ if (IO.outputting())
+ Kind = Obj.Leaf->Kind;
+ IO.mapRequired("Kind", Kind);
+
+#define TYPE_RECORD(EnumName, EnumVal, ClassName) \
+ case EnumName: \
+ mapLeafRecordImpl<ClassName##Record>(IO, #ClassName, Kind, Obj); \
+ break;
+#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
+ TYPE_RECORD(EnumName, EnumVal, ClassName)
+#define MEMBER_RECORD(EnumName, EnumVal, ClassName)
+#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
+ switch (Kind) {
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+ default: { llvm_unreachable("Unknown leaf kind!"); }
+ }
+}
+
+template <typename ConcreteType>
+static void mapMemberRecordImpl(IO &IO, const char *Class, TypeLeafKind Kind,
+ MemberRecord &Obj) {
+ if (!IO.outputting())
+ Obj.Member = std::make_shared<MemberRecordImpl<ConcreteType>>(Kind);
+
+ IO.mapRequired(Class, *Obj.Member);
+}
+
+void MappingTraits<MemberRecord>::mapping(IO &IO, MemberRecord &Obj) {
+ TypeLeafKind Kind;
+ if (IO.outputting())
+ Kind = Obj.Member->Kind;
+ IO.mapRequired("Kind", Kind);
+
+#define MEMBER_RECORD(EnumName, EnumVal, ClassName) \
+ case EnumName: \
+ mapMemberRecordImpl<ClassName##Record>(IO, #ClassName, Kind, Obj); \
+ break;
+#define MEMBER_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName) \
+ MEMBER_RECORD(EnumName, EnumVal, ClassName)
+#define TYPE_RECORD(EnumName, EnumVal, ClassName)
+#define TYPE_RECORD_ALIAS(EnumName, EnumVal, AliasName, ClassName)
+ switch (Kind) {
+#include "llvm/DebugInfo/CodeView/CodeViewTypes.def"
+ default: { llvm_unreachable("Unknown member kind!"); }
+ }
+}
+
+std::vector<LeafRecord>
+llvm::CodeViewYAML::fromDebugT(ArrayRef<uint8_t> DebugTorP,
+ StringRef SectionName) {
+ ExitOnError Err("Invalid " + std::string(SectionName) + " section!");
+ BinaryStreamReader Reader(DebugTorP, support::little);
+ CVTypeArray Types;
+ uint32_t Magic;
+
+ Err(Reader.readInteger(Magic));
+ assert(Magic == COFF::DEBUG_SECTION_MAGIC &&
+ "Invalid .debug$T or .debug$P section!");
+
+ std::vector<LeafRecord> Result;
+ Err(Reader.readArray(Types, Reader.bytesRemaining()));
+ for (const auto &T : Types) {
+ auto CVT = Err(LeafRecord::fromCodeViewRecord(T));
+ Result.push_back(CVT);
+ }
+ return Result;
+}
+
+ArrayRef<uint8_t> llvm::CodeViewYAML::toDebugT(ArrayRef<LeafRecord> Leafs,
+ BumpPtrAllocator &Alloc,
+ StringRef SectionName) {
+ AppendingTypeTableBuilder TS(Alloc);
+ uint32_t Size = sizeof(uint32_t);
+ for (const auto &Leaf : Leafs) {
+ CVType T = Leaf.Leaf->toCodeViewRecord(TS);
+ Size += T.length();
+ assert(T.length() % 4 == 0 && "Improper type record alignment!");
+ }
+ uint8_t *ResultBuffer = Alloc.Allocate<uint8_t>(Size);
+ MutableArrayRef<uint8_t> Output(ResultBuffer, Size);
+ BinaryStreamWriter Writer(Output, support::little);
+ ExitOnError Err("Error writing type record to " + std::string(SectionName) +
+ " section");
+ Err(Writer.writeInteger<uint32_t>(COFF::DEBUG_SECTION_MAGIC));
+ for (const auto &R : TS.records()) {
+ Err(Writer.writeBytes(R));
+ }
+ assert(Writer.bytesRemaining() == 0 && "Didn't write all type record bytes!");
+ return Output;
+}
Modified: llvm/trunk/tools/llvm-pdbutil/MinimalTypeDumper.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/tools/llvm-pdbutil/MinimalTypeDumper.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/tools/llvm-pdbutil/MinimalTypeDumper.cpp (original)
+++ llvm/trunk/tools/llvm-pdbutil/MinimalTypeDumper.cpp Mon Apr 9 17:09:15 2018
@@ -1,556 +1,556 @@
-//===- MinimalTypeDumper.cpp ---------------------------------- *- C++ --*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#include "MinimalTypeDumper.h"
-
-#include "FormatUtil.h"
-#include "LinePrinter.h"
-
-#include "llvm/DebugInfo/CodeView/CVRecord.h"
-#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
-#include "llvm/DebugInfo/CodeView/CodeView.h"
-#include "llvm/DebugInfo/CodeView/Formatters.h"
-#include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h"
-#include "llvm/DebugInfo/CodeView/TypeRecord.h"
-#include "llvm/DebugInfo/PDB/Native/TpiHashing.h"
-#include "llvm/Support/FormatVariadic.h"
-#include "llvm/Support/MathExtras.h"
-
-using namespace llvm;
-using namespace llvm::codeview;
-using namespace llvm::pdb;
-
-static std::string formatClassOptions(uint32_t IndentLevel,
- ClassOptions Options) {
- std::vector<std::string> Opts;
- PUSH_FLAG(ClassOptions, HasConstructorOrDestructor, Options,
- "has ctor / dtor");
- PUSH_FLAG(ClassOptions, ContainsNestedClass, Options,
- "contains nested class");
- PUSH_FLAG(ClassOptions, HasConversionOperator, Options,
- "conversion operator");
- PUSH_FLAG(ClassOptions, ForwardReference, Options, "forward ref");
- PUSH_FLAG(ClassOptions, HasUniqueName, Options, "has unique name");
- PUSH_FLAG(ClassOptions, Intrinsic, Options, "intrin");
- PUSH_FLAG(ClassOptions, Nested, Options, "is nested");
- PUSH_FLAG(ClassOptions, HasOverloadedOperator, Options,
- "overloaded operator");
- PUSH_FLAG(ClassOptions, HasOverloadedAssignmentOperator, Options,
- "overloaded operator=");
- PUSH_FLAG(ClassOptions, Packed, Options, "packed");
- PUSH_FLAG(ClassOptions, Scoped, Options, "scoped");
- PUSH_FLAG(ClassOptions, Sealed, Options, "sealed");
-
- return typesetItemList(Opts, 4, IndentLevel, " | ");
-}
-
-static std::string pointerOptions(PointerOptions Options) {
- std::vector<std::string> Opts;
- PUSH_FLAG(PointerOptions, Flat32, Options, "flat32");
- PUSH_FLAG(PointerOptions, Volatile, Options, "volatile");
- PUSH_FLAG(PointerOptions, Const, Options, "const");
- PUSH_FLAG(PointerOptions, Unaligned, Options, "unaligned");
- PUSH_FLAG(PointerOptions, Restrict, Options, "restrict");
- PUSH_FLAG(PointerOptions, WinRTSmartPointer, Options, "winrt");
- if (Opts.empty())
- return "None";
- return join(Opts, " | ");
-}
-
-static std::string modifierOptions(ModifierOptions Options) {
- std::vector<std::string> Opts;
- PUSH_FLAG(ModifierOptions, Const, Options, "const");
- PUSH_FLAG(ModifierOptions, Volatile, Options, "volatile");
- PUSH_FLAG(ModifierOptions, Unaligned, Options, "unaligned");
- if (Opts.empty())
- return "None";
- return join(Opts, " | ");
-}
-
-static std::string formatCallingConvention(CallingConvention Convention) {
- switch (Convention) {
- RETURN_CASE(CallingConvention, AlphaCall, "alphacall");
- RETURN_CASE(CallingConvention, AM33Call, "am33call");
- RETURN_CASE(CallingConvention, ArmCall, "armcall");
- RETURN_CASE(CallingConvention, ClrCall, "clrcall");
- RETURN_CASE(CallingConvention, FarC, "far cdecl");
- RETURN_CASE(CallingConvention, FarFast, "far fastcall");
- RETURN_CASE(CallingConvention, FarPascal, "far pascal");
- RETURN_CASE(CallingConvention, FarStdCall, "far stdcall");
- RETURN_CASE(CallingConvention, FarSysCall, "far syscall");
- RETURN_CASE(CallingConvention, Generic, "generic");
- RETURN_CASE(CallingConvention, Inline, "inline");
- RETURN_CASE(CallingConvention, M32RCall, "m32rcall");
- RETURN_CASE(CallingConvention, MipsCall, "mipscall");
- RETURN_CASE(CallingConvention, NearC, "cdecl");
- RETURN_CASE(CallingConvention, NearFast, "fastcall");
- RETURN_CASE(CallingConvention, NearPascal, "pascal");
- RETURN_CASE(CallingConvention, NearStdCall, "stdcall");
- RETURN_CASE(CallingConvention, NearSysCall, "near syscall");
- RETURN_CASE(CallingConvention, NearVector, "vectorcall");
- RETURN_CASE(CallingConvention, PpcCall, "ppccall");
- RETURN_CASE(CallingConvention, SHCall, "shcall");
- RETURN_CASE(CallingConvention, SH5Call, "sh5call");
- RETURN_CASE(CallingConvention, ThisCall, "thiscall");
- RETURN_CASE(CallingConvention, TriCall, "tricall");
- }
- return formatUnknownEnum(Convention);
-}
-
-static std::string formatPointerMode(PointerMode Mode) {
- switch (Mode) {
- RETURN_CASE(PointerMode, LValueReference, "ref");
- RETURN_CASE(PointerMode, Pointer, "pointer");
- RETURN_CASE(PointerMode, PointerToDataMember, "data member pointer");
- RETURN_CASE(PointerMode, PointerToMemberFunction, "member fn pointer");
- RETURN_CASE(PointerMode, RValueReference, "rvalue ref");
- }
- return formatUnknownEnum(Mode);
-}
-
-static std::string memberAccess(MemberAccess Access) {
- switch (Access) {
- RETURN_CASE(MemberAccess, None, "");
- RETURN_CASE(MemberAccess, Private, "private");
- RETURN_CASE(MemberAccess, Protected, "protected");
- RETURN_CASE(MemberAccess, Public, "public");
- }
- return formatUnknownEnum(Access);
-}
-
-static std::string methodKind(MethodKind Kind) {
- switch (Kind) {
- RETURN_CASE(MethodKind, Vanilla, "");
- RETURN_CASE(MethodKind, Virtual, "virtual");
- RETURN_CASE(MethodKind, Static, "static");
- RETURN_CASE(MethodKind, Friend, "friend");
- RETURN_CASE(MethodKind, IntroducingVirtual, "intro virtual");
- RETURN_CASE(MethodKind, PureVirtual, "pure virtual");
- RETURN_CASE(MethodKind, PureIntroducingVirtual, "pure intro virtual");
- }
- return formatUnknownEnum(Kind);
-}
-
-static std::string pointerKind(PointerKind Kind) {
- switch (Kind) {
- RETURN_CASE(PointerKind, Near16, "ptr16");
- RETURN_CASE(PointerKind, Far16, "far ptr16");
- RETURN_CASE(PointerKind, Huge16, "huge ptr16");
- RETURN_CASE(PointerKind, BasedOnSegment, "segment based");
- RETURN_CASE(PointerKind, BasedOnValue, "value based");
- RETURN_CASE(PointerKind, BasedOnSegmentValue, "segment value based");
- RETURN_CASE(PointerKind, BasedOnAddress, "address based");
- RETURN_CASE(PointerKind, BasedOnSegmentAddress, "segment address based");
- RETURN_CASE(PointerKind, BasedOnType, "type based");
- RETURN_CASE(PointerKind, BasedOnSelf, "self based");
- RETURN_CASE(PointerKind, Near32, "ptr32");
- RETURN_CASE(PointerKind, Far32, "far ptr32");
- RETURN_CASE(PointerKind, Near64, "ptr64");
- }
- return formatUnknownEnum(Kind);
-}
-
-static std::string memberAttributes(const MemberAttributes &Attrs) {
- std::vector<std::string> Opts;
- std::string Access = memberAccess(Attrs.getAccess());
- std::string Kind = methodKind(Attrs.getMethodKind());
- if (!Access.empty())
- Opts.push_back(Access);
- if (!Kind.empty())
- Opts.push_back(Kind);
- MethodOptions Flags = Attrs.getFlags();
- PUSH_FLAG(MethodOptions, Pseudo, Flags, "pseudo");
- PUSH_FLAG(MethodOptions, NoInherit, Flags, "noinherit");
- PUSH_FLAG(MethodOptions, NoConstruct, Flags, "noconstruct");
- PUSH_FLAG(MethodOptions, CompilerGenerated, Flags, "compiler-generated");
- PUSH_FLAG(MethodOptions, Sealed, Flags, "sealed");
- return join(Opts, " ");
-}
-
-static std::string formatPointerAttrs(const PointerRecord &Record) {
- PointerMode Mode = Record.getMode();
- PointerOptions Opts = Record.getOptions();
- PointerKind Kind = Record.getPointerKind();
- return formatv("mode = {0}, opts = {1}, kind = {2}", formatPointerMode(Mode),
- pointerOptions(Opts), pointerKind(Kind));
-}
-
-static std::string formatFunctionOptions(FunctionOptions Options) {
- std::vector<std::string> Opts;
-
- PUSH_FLAG(FunctionOptions, CxxReturnUdt, Options, "returns cxx udt");
- PUSH_FLAG(FunctionOptions, ConstructorWithVirtualBases, Options,
- "constructor with virtual bases");
- PUSH_FLAG(FunctionOptions, Constructor, Options, "constructor");
- if (Opts.empty())
- return "None";
- return join(Opts, " | ");
-}
-
-Error MinimalTypeDumpVisitor::visitTypeBegin(CVType &Record, TypeIndex Index) {
- // formatLine puts the newline at the beginning, so we use formatLine here
- // to start a new line, and then individual visit methods use format to
- // append to the existing line.
- if (!Hashes) {
- P.formatLine("{0} | {1} [size = {2}]",
- fmt_align(Index, AlignStyle::Right, Width),
- formatTypeLeafKind(Record.Type), Record.length());
- } else {
- std::string H;
- if (Index.toArrayIndex() >= HashValues.size()) {
- H = "(not present)";
- } else {
- uint32_t Hash = HashValues[Index.toArrayIndex()];
- Expected<uint32_t> MaybeHash = hashTypeRecord(Record);
- if (!MaybeHash)
- return MaybeHash.takeError();
- uint32_t OurHash = *MaybeHash;
- OurHash %= NumHashBuckets;
- if (Hash == OurHash)
- H = "0x" + utohexstr(Hash);
- else
- H = "0x" + utohexstr(Hash) + ", our hash = 0x" + utohexstr(OurHash);
- }
- P.formatLine("{0} | {1} [size = {2}, hash = {3}]",
- fmt_align(Index, AlignStyle::Right, Width),
- formatTypeLeafKind(Record.Type), Record.length(), H);
- }
- P.Indent(Width + 3);
- return Error::success();
-}
-Error MinimalTypeDumpVisitor::visitTypeEnd(CVType &Record) {
- P.Unindent(Width + 3);
- if (RecordBytes) {
- AutoIndent Indent(P, 9);
- P.formatBinary("Bytes", Record.RecordData, 0);
- }
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitMemberBegin(CVMemberRecord &Record) {
- P.formatLine("- {0}", formatTypeLeafKind(Record.Kind));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitMemberEnd(CVMemberRecord &Record) {
- if (RecordBytes) {
- AutoIndent Indent(P, 2);
- P.formatBinary("Bytes", Record.Data, 0);
- }
- return Error::success();
-}
-
-StringRef MinimalTypeDumpVisitor::getTypeName(TypeIndex TI) const {
- if (TI.isNoneType())
- return "";
- return Types.getTypeName(TI);
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- FieldListRecord &FieldList) {
- if (auto EC = codeview::visitMemberRecordStream(FieldList.Data, *this))
- return EC;
-
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- StringIdRecord &String) {
- P.format(" ID: {0}, String: {1}", String.getId(), String.getString());
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- ArgListRecord &Args) {
- auto Indices = Args.getIndices();
- if (Indices.empty())
- return Error::success();
-
- auto Max = std::max_element(Indices.begin(), Indices.end());
- uint32_t W = NumDigits(Max->getIndex()) + 2;
-
- for (auto I : Indices)
- P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
- getTypeName(I));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- StringListRecord &Strings) {
- auto Indices = Strings.getIndices();
- if (Indices.empty())
- return Error::success();
-
- auto Max = std::max_element(Indices.begin(), Indices.end());
- uint32_t W = NumDigits(Max->getIndex()) + 2;
-
- for (auto I : Indices)
- P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
- getTypeName(I));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- ClassRecord &Class) {
- P.format(" `{0}`", Class.Name);
- if (Class.hasUniqueName())
- P.formatLine("unique name: `{0}`", Class.UniqueName);
- P.formatLine("vtable: {0}, base list: {1}, field list: {2}",
- Class.VTableShape, Class.DerivationList, Class.FieldList);
- P.formatLine("options: {0}",
- formatClassOptions(P.getIndentLevel(), Class.Options));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- UnionRecord &Union) {
- P.format(" `{0}`", Union.Name);
- if (Union.hasUniqueName())
- P.formatLine("unique name: `{0}`", Union.UniqueName);
- P.formatLine("field list: {0}", Union.FieldList);
- P.formatLine("options: {0}",
- formatClassOptions(P.getIndentLevel(), Union.Options));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
- P.format(" `{0}`", Enum.Name);
- if (Enum.hasUniqueName())
- P.formatLine("unique name: `{0}`", Enum.UniqueName);
- P.formatLine("field list: {0}, underlying type: {1}", Enum.FieldList,
- Enum.UnderlyingType);
- P.formatLine("options: {0}",
- formatClassOptions(P.getIndentLevel(), Enum.Options));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
- if (AT.Name.empty()) {
- P.formatLine("size: {0}, index type: {1}, element type: {2}", AT.Size,
- AT.IndexType, AT.ElementType);
- } else {
- P.formatLine("name: {0}, size: {1}, index type: {2}, element type: {3}",
- AT.Name, AT.Size, AT.IndexType, AT.ElementType);
- }
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- VFTableRecord &VFT) {
- P.formatLine("offset: {0}, complete class: {1}, overridden vftable: {2}",
- VFT.VFPtrOffset, VFT.CompleteClass, VFT.OverriddenVFTable);
- P.formatLine("method names: ");
- if (!VFT.MethodNames.empty()) {
- std::string Sep =
- formatv("\n{0}",
- fmt_repeat(' ', P.getIndentLevel() + strlen("method names: ")))
- .str();
- P.print(join(VFT.MethodNames, Sep));
- }
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- MemberFuncIdRecord &Id) {
- P.formatLine("name = {0}, type = {1}, class type = {2}", Id.Name,
- Id.FunctionType, Id.ClassType);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- ProcedureRecord &Proc) {
- P.formatLine("return type = {0}, # args = {1}, param list = {2}",
- Proc.ReturnType, Proc.ParameterCount, Proc.ArgumentList);
- P.formatLine("calling conv = {0}, options = {1}",
- formatCallingConvention(Proc.CallConv),
- formatFunctionOptions(Proc.Options));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- MemberFunctionRecord &MF) {
- P.formatLine("return type = {0}, # args = {1}, param list = {2}",
- MF.ReturnType, MF.ParameterCount, MF.ArgumentList);
- P.formatLine("class type = {0}, this type = {1}, this adjust = {2}",
- MF.ClassType, MF.ThisType, MF.ThisPointerAdjustment);
- P.formatLine("calling conv = {0}, options = {1}",
- formatCallingConvention(MF.CallConv),
- formatFunctionOptions(MF.Options));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- FuncIdRecord &Func) {
- P.formatLine("name = {0}, type = {1}, parent scope = {2}", Func.Name,
- Func.FunctionType, Func.ParentScope);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- TypeServer2Record &TS) {
- P.formatLine("name = {0}, age = {1}, guid = {2}", TS.Name, TS.Age, TS.Guid);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- PointerRecord &Ptr) {
- P.formatLine("referent = {0}, {1}", Ptr.ReferentType,
- formatPointerAttrs(Ptr));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- ModifierRecord &Mod) {
- P.formatLine("referent = {0}, modifiers = {1}", Mod.ModifiedType,
- modifierOptions(Mod.Modifiers));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- VFTableShapeRecord &Shape) {
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- UdtModSourceLineRecord &U) {
- P.formatLine("udt = {0}, mod = {1}, file = {2}, line = {3}", U.UDT, U.Module,
- U.SourceFile.getIndex(), U.LineNumber);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- UdtSourceLineRecord &U) {
- P.formatLine("udt = {0}, file = {1}, line = {2}", U.UDT,
- U.SourceFile.getIndex(), U.LineNumber);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- BitFieldRecord &BF) {
- P.formatLine("type = {0}, bit offset = {1}, # bits = {2}", BF.Type,
- BF.BitOffset, BF.BitSize);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(
- CVType &CVR, MethodOverloadListRecord &Overloads) {
- for (auto &M : Overloads.Methods)
- P.formatLine("- Method [type = {0}, vftable offset = {1}, attrs = {2}]",
- M.Type, M.VFTableOffset, memberAttributes(M.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- BuildInfoRecord &BI) {
- auto Indices = BI.ArgIndices;
- if (Indices.empty())
- return Error::success();
-
- auto Max = std::max_element(Indices.begin(), Indices.end());
- uint32_t W = NumDigits(Max->getIndex()) + 2;
-
- for (auto I : Indices)
- P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
- getTypeName(I));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, LabelRecord &R) {
- std::string Type = (R.Mode == LabelType::Far) ? "far" : "near";
- P.format(" type = {0}", Type);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- PrecompRecord &Precomp) {
- P.format(" start index = {0:X+}, types count = {1:X+}, signature = {2:X+},"
- " precomp path = {3}",
- Precomp.StartTypeIndex, Precomp.TypesCount, Precomp.Signature,
- Precomp.PrecompFilePath);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
- EndPrecompRecord &EP) {
- P.format(" signature = {0:X+}", EP.Signature);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- NestedTypeRecord &Nested) {
- P.format(" [name = `{0}`, parent = {1}]", Nested.Name, Nested.Type);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- OneMethodRecord &Method) {
- P.format(" [name = `{0}`]", Method.Name);
- AutoIndent Indent(P);
- P.formatLine("type = {0}, vftable offset = {1}, attrs = {2}", Method.Type,
- Method.VFTableOffset, memberAttributes(Method.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- OverloadedMethodRecord &Method) {
- P.format(" [name = `{0}`, # overloads = {1}, overload list = {2}]",
- Method.Name, Method.NumOverloads, Method.MethodList);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- DataMemberRecord &Field) {
- P.format(" [name = `{0}`, Type = {1}, offset = {2}, attrs = {3}]", Field.Name,
- Field.Type, Field.FieldOffset, memberAttributes(Field.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- StaticDataMemberRecord &Field) {
- P.format(" [name = `{0}`, type = {1}, attrs = {2}]", Field.Name, Field.Type,
- memberAttributes(Field.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- EnumeratorRecord &Enum) {
- P.format(" [{0} = {1}]", Enum.Name,
- Enum.Value.toString(10, Enum.Value.isSigned()));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- BaseClassRecord &Base) {
- AutoIndent Indent(P);
- P.formatLine("type = {0}, offset = {1}, attrs = {2}", Base.Type, Base.Offset,
- memberAttributes(Base.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- VirtualBaseClassRecord &Base) {
- AutoIndent Indent(P);
- P.formatLine(
- "base = {0}, vbptr = {1}, vbptr offset = {2}, vtable index = {3}",
- Base.BaseType, Base.VBPtrType, Base.VBPtrOffset, Base.VTableIndex);
- P.formatLine("attrs = {0}", memberAttributes(Base.Attrs));
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- ListContinuationRecord &Cont) {
- P.format(" continuation = {0}", Cont.ContinuationIndex);
- return Error::success();
-}
-
-Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
- VFPtrRecord &VFP) {
- P.format(" type = {0}", VFP.Type);
- return Error::success();
-}
+//===- MinimalTypeDumper.cpp ---------------------------------- *- C++ --*-===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "MinimalTypeDumper.h"
+
+#include "FormatUtil.h"
+#include "LinePrinter.h"
+
+#include "llvm/DebugInfo/CodeView/CVRecord.h"
+#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
+#include "llvm/DebugInfo/CodeView/CodeView.h"
+#include "llvm/DebugInfo/CodeView/Formatters.h"
+#include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h"
+#include "llvm/DebugInfo/CodeView/TypeRecord.h"
+#include "llvm/DebugInfo/PDB/Native/TpiHashing.h"
+#include "llvm/Support/FormatVariadic.h"
+#include "llvm/Support/MathExtras.h"
+
+using namespace llvm;
+using namespace llvm::codeview;
+using namespace llvm::pdb;
+
+static std::string formatClassOptions(uint32_t IndentLevel,
+ ClassOptions Options) {
+ std::vector<std::string> Opts;
+ PUSH_FLAG(ClassOptions, HasConstructorOrDestructor, Options,
+ "has ctor / dtor");
+ PUSH_FLAG(ClassOptions, ContainsNestedClass, Options,
+ "contains nested class");
+ PUSH_FLAG(ClassOptions, HasConversionOperator, Options,
+ "conversion operator");
+ PUSH_FLAG(ClassOptions, ForwardReference, Options, "forward ref");
+ PUSH_FLAG(ClassOptions, HasUniqueName, Options, "has unique name");
+ PUSH_FLAG(ClassOptions, Intrinsic, Options, "intrin");
+ PUSH_FLAG(ClassOptions, Nested, Options, "is nested");
+ PUSH_FLAG(ClassOptions, HasOverloadedOperator, Options,
+ "overloaded operator");
+ PUSH_FLAG(ClassOptions, HasOverloadedAssignmentOperator, Options,
+ "overloaded operator=");
+ PUSH_FLAG(ClassOptions, Packed, Options, "packed");
+ PUSH_FLAG(ClassOptions, Scoped, Options, "scoped");
+ PUSH_FLAG(ClassOptions, Sealed, Options, "sealed");
+
+ return typesetItemList(Opts, 4, IndentLevel, " | ");
+}
+
+static std::string pointerOptions(PointerOptions Options) {
+ std::vector<std::string> Opts;
+ PUSH_FLAG(PointerOptions, Flat32, Options, "flat32");
+ PUSH_FLAG(PointerOptions, Volatile, Options, "volatile");
+ PUSH_FLAG(PointerOptions, Const, Options, "const");
+ PUSH_FLAG(PointerOptions, Unaligned, Options, "unaligned");
+ PUSH_FLAG(PointerOptions, Restrict, Options, "restrict");
+ PUSH_FLAG(PointerOptions, WinRTSmartPointer, Options, "winrt");
+ if (Opts.empty())
+ return "None";
+ return join(Opts, " | ");
+}
+
+static std::string modifierOptions(ModifierOptions Options) {
+ std::vector<std::string> Opts;
+ PUSH_FLAG(ModifierOptions, Const, Options, "const");
+ PUSH_FLAG(ModifierOptions, Volatile, Options, "volatile");
+ PUSH_FLAG(ModifierOptions, Unaligned, Options, "unaligned");
+ if (Opts.empty())
+ return "None";
+ return join(Opts, " | ");
+}
+
+static std::string formatCallingConvention(CallingConvention Convention) {
+ switch (Convention) {
+ RETURN_CASE(CallingConvention, AlphaCall, "alphacall");
+ RETURN_CASE(CallingConvention, AM33Call, "am33call");
+ RETURN_CASE(CallingConvention, ArmCall, "armcall");
+ RETURN_CASE(CallingConvention, ClrCall, "clrcall");
+ RETURN_CASE(CallingConvention, FarC, "far cdecl");
+ RETURN_CASE(CallingConvention, FarFast, "far fastcall");
+ RETURN_CASE(CallingConvention, FarPascal, "far pascal");
+ RETURN_CASE(CallingConvention, FarStdCall, "far stdcall");
+ RETURN_CASE(CallingConvention, FarSysCall, "far syscall");
+ RETURN_CASE(CallingConvention, Generic, "generic");
+ RETURN_CASE(CallingConvention, Inline, "inline");
+ RETURN_CASE(CallingConvention, M32RCall, "m32rcall");
+ RETURN_CASE(CallingConvention, MipsCall, "mipscall");
+ RETURN_CASE(CallingConvention, NearC, "cdecl");
+ RETURN_CASE(CallingConvention, NearFast, "fastcall");
+ RETURN_CASE(CallingConvention, NearPascal, "pascal");
+ RETURN_CASE(CallingConvention, NearStdCall, "stdcall");
+ RETURN_CASE(CallingConvention, NearSysCall, "near syscall");
+ RETURN_CASE(CallingConvention, NearVector, "vectorcall");
+ RETURN_CASE(CallingConvention, PpcCall, "ppccall");
+ RETURN_CASE(CallingConvention, SHCall, "shcall");
+ RETURN_CASE(CallingConvention, SH5Call, "sh5call");
+ RETURN_CASE(CallingConvention, ThisCall, "thiscall");
+ RETURN_CASE(CallingConvention, TriCall, "tricall");
+ }
+ return formatUnknownEnum(Convention);
+}
+
+static std::string formatPointerMode(PointerMode Mode) {
+ switch (Mode) {
+ RETURN_CASE(PointerMode, LValueReference, "ref");
+ RETURN_CASE(PointerMode, Pointer, "pointer");
+ RETURN_CASE(PointerMode, PointerToDataMember, "data member pointer");
+ RETURN_CASE(PointerMode, PointerToMemberFunction, "member fn pointer");
+ RETURN_CASE(PointerMode, RValueReference, "rvalue ref");
+ }
+ return formatUnknownEnum(Mode);
+}
+
+static std::string memberAccess(MemberAccess Access) {
+ switch (Access) {
+ RETURN_CASE(MemberAccess, None, "");
+ RETURN_CASE(MemberAccess, Private, "private");
+ RETURN_CASE(MemberAccess, Protected, "protected");
+ RETURN_CASE(MemberAccess, Public, "public");
+ }
+ return formatUnknownEnum(Access);
+}
+
+static std::string methodKind(MethodKind Kind) {
+ switch (Kind) {
+ RETURN_CASE(MethodKind, Vanilla, "");
+ RETURN_CASE(MethodKind, Virtual, "virtual");
+ RETURN_CASE(MethodKind, Static, "static");
+ RETURN_CASE(MethodKind, Friend, "friend");
+ RETURN_CASE(MethodKind, IntroducingVirtual, "intro virtual");
+ RETURN_CASE(MethodKind, PureVirtual, "pure virtual");
+ RETURN_CASE(MethodKind, PureIntroducingVirtual, "pure intro virtual");
+ }
+ return formatUnknownEnum(Kind);
+}
+
+static std::string pointerKind(PointerKind Kind) {
+ switch (Kind) {
+ RETURN_CASE(PointerKind, Near16, "ptr16");
+ RETURN_CASE(PointerKind, Far16, "far ptr16");
+ RETURN_CASE(PointerKind, Huge16, "huge ptr16");
+ RETURN_CASE(PointerKind, BasedOnSegment, "segment based");
+ RETURN_CASE(PointerKind, BasedOnValue, "value based");
+ RETURN_CASE(PointerKind, BasedOnSegmentValue, "segment value based");
+ RETURN_CASE(PointerKind, BasedOnAddress, "address based");
+ RETURN_CASE(PointerKind, BasedOnSegmentAddress, "segment address based");
+ RETURN_CASE(PointerKind, BasedOnType, "type based");
+ RETURN_CASE(PointerKind, BasedOnSelf, "self based");
+ RETURN_CASE(PointerKind, Near32, "ptr32");
+ RETURN_CASE(PointerKind, Far32, "far ptr32");
+ RETURN_CASE(PointerKind, Near64, "ptr64");
+ }
+ return formatUnknownEnum(Kind);
+}
+
+static std::string memberAttributes(const MemberAttributes &Attrs) {
+ std::vector<std::string> Opts;
+ std::string Access = memberAccess(Attrs.getAccess());
+ std::string Kind = methodKind(Attrs.getMethodKind());
+ if (!Access.empty())
+ Opts.push_back(Access);
+ if (!Kind.empty())
+ Opts.push_back(Kind);
+ MethodOptions Flags = Attrs.getFlags();
+ PUSH_FLAG(MethodOptions, Pseudo, Flags, "pseudo");
+ PUSH_FLAG(MethodOptions, NoInherit, Flags, "noinherit");
+ PUSH_FLAG(MethodOptions, NoConstruct, Flags, "noconstruct");
+ PUSH_FLAG(MethodOptions, CompilerGenerated, Flags, "compiler-generated");
+ PUSH_FLAG(MethodOptions, Sealed, Flags, "sealed");
+ return join(Opts, " ");
+}
+
+static std::string formatPointerAttrs(const PointerRecord &Record) {
+ PointerMode Mode = Record.getMode();
+ PointerOptions Opts = Record.getOptions();
+ PointerKind Kind = Record.getPointerKind();
+ return formatv("mode = {0}, opts = {1}, kind = {2}", formatPointerMode(Mode),
+ pointerOptions(Opts), pointerKind(Kind));
+}
+
+static std::string formatFunctionOptions(FunctionOptions Options) {
+ std::vector<std::string> Opts;
+
+ PUSH_FLAG(FunctionOptions, CxxReturnUdt, Options, "returns cxx udt");
+ PUSH_FLAG(FunctionOptions, ConstructorWithVirtualBases, Options,
+ "constructor with virtual bases");
+ PUSH_FLAG(FunctionOptions, Constructor, Options, "constructor");
+ if (Opts.empty())
+ return "None";
+ return join(Opts, " | ");
+}
+
+Error MinimalTypeDumpVisitor::visitTypeBegin(CVType &Record, TypeIndex Index) {
+ // formatLine puts the newline at the beginning, so we use formatLine here
+ // to start a new line, and then individual visit methods use format to
+ // append to the existing line.
+ if (!Hashes) {
+ P.formatLine("{0} | {1} [size = {2}]",
+ fmt_align(Index, AlignStyle::Right, Width),
+ formatTypeLeafKind(Record.Type), Record.length());
+ } else {
+ std::string H;
+ if (Index.toArrayIndex() >= HashValues.size()) {
+ H = "(not present)";
+ } else {
+ uint32_t Hash = HashValues[Index.toArrayIndex()];
+ Expected<uint32_t> MaybeHash = hashTypeRecord(Record);
+ if (!MaybeHash)
+ return MaybeHash.takeError();
+ uint32_t OurHash = *MaybeHash;
+ OurHash %= NumHashBuckets;
+ if (Hash == OurHash)
+ H = "0x" + utohexstr(Hash);
+ else
+ H = "0x" + utohexstr(Hash) + ", our hash = 0x" + utohexstr(OurHash);
+ }
+ P.formatLine("{0} | {1} [size = {2}, hash = {3}]",
+ fmt_align(Index, AlignStyle::Right, Width),
+ formatTypeLeafKind(Record.Type), Record.length(), H);
+ }
+ P.Indent(Width + 3);
+ return Error::success();
+}
+Error MinimalTypeDumpVisitor::visitTypeEnd(CVType &Record) {
+ P.Unindent(Width + 3);
+ if (RecordBytes) {
+ AutoIndent Indent(P, 9);
+ P.formatBinary("Bytes", Record.RecordData, 0);
+ }
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitMemberBegin(CVMemberRecord &Record) {
+ P.formatLine("- {0}", formatTypeLeafKind(Record.Kind));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitMemberEnd(CVMemberRecord &Record) {
+ if (RecordBytes) {
+ AutoIndent Indent(P, 2);
+ P.formatBinary("Bytes", Record.Data, 0);
+ }
+ return Error::success();
+}
+
+StringRef MinimalTypeDumpVisitor::getTypeName(TypeIndex TI) const {
+ if (TI.isNoneType())
+ return "";
+ return Types.getTypeName(TI);
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ FieldListRecord &FieldList) {
+ if (auto EC = codeview::visitMemberRecordStream(FieldList.Data, *this))
+ return EC;
+
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ StringIdRecord &String) {
+ P.format(" ID: {0}, String: {1}", String.getId(), String.getString());
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ ArgListRecord &Args) {
+ auto Indices = Args.getIndices();
+ if (Indices.empty())
+ return Error::success();
+
+ auto Max = std::max_element(Indices.begin(), Indices.end());
+ uint32_t W = NumDigits(Max->getIndex()) + 2;
+
+ for (auto I : Indices)
+ P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
+ getTypeName(I));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ StringListRecord &Strings) {
+ auto Indices = Strings.getIndices();
+ if (Indices.empty())
+ return Error::success();
+
+ auto Max = std::max_element(Indices.begin(), Indices.end());
+ uint32_t W = NumDigits(Max->getIndex()) + 2;
+
+ for (auto I : Indices)
+ P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
+ getTypeName(I));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ ClassRecord &Class) {
+ P.format(" `{0}`", Class.Name);
+ if (Class.hasUniqueName())
+ P.formatLine("unique name: `{0}`", Class.UniqueName);
+ P.formatLine("vtable: {0}, base list: {1}, field list: {2}",
+ Class.VTableShape, Class.DerivationList, Class.FieldList);
+ P.formatLine("options: {0}",
+ formatClassOptions(P.getIndentLevel(), Class.Options));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ UnionRecord &Union) {
+ P.format(" `{0}`", Union.Name);
+ if (Union.hasUniqueName())
+ P.formatLine("unique name: `{0}`", Union.UniqueName);
+ P.formatLine("field list: {0}", Union.FieldList);
+ P.formatLine("options: {0}",
+ formatClassOptions(P.getIndentLevel(), Union.Options));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
+ P.format(" `{0}`", Enum.Name);
+ if (Enum.hasUniqueName())
+ P.formatLine("unique name: `{0}`", Enum.UniqueName);
+ P.formatLine("field list: {0}, underlying type: {1}", Enum.FieldList,
+ Enum.UnderlyingType);
+ P.formatLine("options: {0}",
+ formatClassOptions(P.getIndentLevel(), Enum.Options));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
+ if (AT.Name.empty()) {
+ P.formatLine("size: {0}, index type: {1}, element type: {2}", AT.Size,
+ AT.IndexType, AT.ElementType);
+ } else {
+ P.formatLine("name: {0}, size: {1}, index type: {2}, element type: {3}",
+ AT.Name, AT.Size, AT.IndexType, AT.ElementType);
+ }
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ VFTableRecord &VFT) {
+ P.formatLine("offset: {0}, complete class: {1}, overridden vftable: {2}",
+ VFT.VFPtrOffset, VFT.CompleteClass, VFT.OverriddenVFTable);
+ P.formatLine("method names: ");
+ if (!VFT.MethodNames.empty()) {
+ std::string Sep =
+ formatv("\n{0}",
+ fmt_repeat(' ', P.getIndentLevel() + strlen("method names: ")))
+ .str();
+ P.print(join(VFT.MethodNames, Sep));
+ }
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ MemberFuncIdRecord &Id) {
+ P.formatLine("name = {0}, type = {1}, class type = {2}", Id.Name,
+ Id.FunctionType, Id.ClassType);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ ProcedureRecord &Proc) {
+ P.formatLine("return type = {0}, # args = {1}, param list = {2}",
+ Proc.ReturnType, Proc.ParameterCount, Proc.ArgumentList);
+ P.formatLine("calling conv = {0}, options = {1}",
+ formatCallingConvention(Proc.CallConv),
+ formatFunctionOptions(Proc.Options));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ MemberFunctionRecord &MF) {
+ P.formatLine("return type = {0}, # args = {1}, param list = {2}",
+ MF.ReturnType, MF.ParameterCount, MF.ArgumentList);
+ P.formatLine("class type = {0}, this type = {1}, this adjust = {2}",
+ MF.ClassType, MF.ThisType, MF.ThisPointerAdjustment);
+ P.formatLine("calling conv = {0}, options = {1}",
+ formatCallingConvention(MF.CallConv),
+ formatFunctionOptions(MF.Options));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ FuncIdRecord &Func) {
+ P.formatLine("name = {0}, type = {1}, parent scope = {2}", Func.Name,
+ Func.FunctionType, Func.ParentScope);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ TypeServer2Record &TS) {
+ P.formatLine("name = {0}, age = {1}, guid = {2}", TS.Name, TS.Age, TS.Guid);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ PointerRecord &Ptr) {
+ P.formatLine("referent = {0}, {1}", Ptr.ReferentType,
+ formatPointerAttrs(Ptr));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ ModifierRecord &Mod) {
+ P.formatLine("referent = {0}, modifiers = {1}", Mod.ModifiedType,
+ modifierOptions(Mod.Modifiers));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ VFTableShapeRecord &Shape) {
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ UdtModSourceLineRecord &U) {
+ P.formatLine("udt = {0}, mod = {1}, file = {2}, line = {3}", U.UDT, U.Module,
+ U.SourceFile.getIndex(), U.LineNumber);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ UdtSourceLineRecord &U) {
+ P.formatLine("udt = {0}, file = {1}, line = {2}", U.UDT,
+ U.SourceFile.getIndex(), U.LineNumber);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ BitFieldRecord &BF) {
+ P.formatLine("type = {0}, bit offset = {1}, # bits = {2}", BF.Type,
+ BF.BitOffset, BF.BitSize);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(
+ CVType &CVR, MethodOverloadListRecord &Overloads) {
+ for (auto &M : Overloads.Methods)
+ P.formatLine("- Method [type = {0}, vftable offset = {1}, attrs = {2}]",
+ M.Type, M.VFTableOffset, memberAttributes(M.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ BuildInfoRecord &BI) {
+ auto Indices = BI.ArgIndices;
+ if (Indices.empty())
+ return Error::success();
+
+ auto Max = std::max_element(Indices.begin(), Indices.end());
+ uint32_t W = NumDigits(Max->getIndex()) + 2;
+
+ for (auto I : Indices)
+ P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
+ getTypeName(I));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, LabelRecord &R) {
+ std::string Type = (R.Mode == LabelType::Far) ? "far" : "near";
+ P.format(" type = {0}", Type);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ PrecompRecord &Precomp) {
+ P.format(" start index = {0:X+}, types count = {1:X+}, signature = {2:X+},"
+ " precomp path = {3}",
+ Precomp.StartTypeIndex, Precomp.TypesCount, Precomp.Signature,
+ Precomp.PrecompFilePath);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
+ EndPrecompRecord &EP) {
+ P.format(" signature = {0:X+}", EP.Signature);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ NestedTypeRecord &Nested) {
+ P.format(" [name = `{0}`, parent = {1}]", Nested.Name, Nested.Type);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ OneMethodRecord &Method) {
+ P.format(" [name = `{0}`]", Method.Name);
+ AutoIndent Indent(P);
+ P.formatLine("type = {0}, vftable offset = {1}, attrs = {2}", Method.Type,
+ Method.VFTableOffset, memberAttributes(Method.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ OverloadedMethodRecord &Method) {
+ P.format(" [name = `{0}`, # overloads = {1}, overload list = {2}]",
+ Method.Name, Method.NumOverloads, Method.MethodList);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ DataMemberRecord &Field) {
+ P.format(" [name = `{0}`, Type = {1}, offset = {2}, attrs = {3}]", Field.Name,
+ Field.Type, Field.FieldOffset, memberAttributes(Field.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ StaticDataMemberRecord &Field) {
+ P.format(" [name = `{0}`, type = {1}, attrs = {2}]", Field.Name, Field.Type,
+ memberAttributes(Field.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ EnumeratorRecord &Enum) {
+ P.format(" [{0} = {1}]", Enum.Name,
+ Enum.Value.toString(10, Enum.Value.isSigned()));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ BaseClassRecord &Base) {
+ AutoIndent Indent(P);
+ P.formatLine("type = {0}, offset = {1}, attrs = {2}", Base.Type, Base.Offset,
+ memberAttributes(Base.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ VirtualBaseClassRecord &Base) {
+ AutoIndent Indent(P);
+ P.formatLine(
+ "base = {0}, vbptr = {1}, vbptr offset = {2}, vtable index = {3}",
+ Base.BaseType, Base.VBPtrType, Base.VBPtrOffset, Base.VTableIndex);
+ P.formatLine("attrs = {0}", memberAttributes(Base.Attrs));
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ ListContinuationRecord &Cont) {
+ P.format(" continuation = {0}", Cont.ContinuationIndex);
+ return Error::success();
+}
+
+Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
+ VFPtrRecord &VFP) {
+ P.format(" type = {0}", VFP.Type);
+ return Error::success();
+}
Modified: llvm/trunk/unittests/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp
URL: http://llvm.org/viewvc/llvm-project/llvm/trunk/unittests/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp?rev=329646&r1=329645&r2=329646&view=diff
==============================================================================
--- llvm/trunk/unittests/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp (original)
+++ llvm/trunk/unittests/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp Mon Apr 9 17:09:15 2018
@@ -1,595 +1,595 @@
-//===- llvm/unittest/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp --------===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#include "llvm/DebugInfo/CodeView/TypeIndexDiscovery.h"
-
-#include "llvm/DebugInfo/CodeView/AppendingTypeTableBuilder.h"
-#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
-#include "llvm/DebugInfo/CodeView/SymbolSerializer.h"
-#include "llvm/Support/Allocator.h"
-
-#include "gmock/gmock.h"
-#include "gtest/gtest.h"
-
-using namespace llvm;
-using namespace llvm::codeview;
-
-class TypeIndexIteratorTest : public testing::Test {
-public:
- TypeIndexIteratorTest() {}
-
- void SetUp() override {
- Refs.clear();
- TTB = make_unique<AppendingTypeTableBuilder>(Storage);
- CRB = make_unique<ContinuationRecordBuilder>();
- Symbols.clear();
- }
-
- void TearDown() override {
- CRB.reset();
- TTB.reset();
- }
-
-protected:
- template <typename... Indices>
- bool checkTypeReferences(uint32_t RecordIndex, Indices &&... TIs) const {
- EXPECT_EQ(sizeof...(Indices), countRefs(RecordIndex));
-
- // Choose between type or symbol records. The checking code doesn't care
- // which we have.
- std::vector<ArrayRef<uint8_t>> CVRecords;
- if (Symbols.empty()) {
- CVRecords = TTB->records();
- } else {
- for (const CVSymbol &S : Symbols)
- CVRecords.push_back(S.data());
- }
-
- return checkTypeReferencesImpl(RecordIndex, CVRecords,
- std::forward<Indices>(TIs)...);
- }
-
- template <typename... T> void writeFieldList(T &&... MemberRecords) {
- CRB->begin(ContinuationRecordKind::FieldList);
- writeFieldListImpl(std::forward<T>(MemberRecords)...);
- auto Records = CRB->end(TTB->nextTypeIndex());
- ASSERT_EQ(1u, Records.size());
- TTB->insertRecordBytes(Records.front().RecordData);
- discoverAllTypeIndices();
- }
-
- template <typename... T> void writeTypeRecords(T &&... Records) {
- writeTypeRecordsImpl(std::forward<T>(Records)...);
- ASSERT_EQ(sizeof...(T), TTB->records().size());
- discoverAllTypeIndices();
- }
-
- template <typename... T> void writeSymbolRecords(T &&... Records) {
- writeSymbolRecordsImpl(std::forward<T>(Records)...);
- ASSERT_EQ(sizeof...(T), Symbols.size());
- discoverTypeIndicesInSymbols();
- }
-
- std::unique_ptr<AppendingTypeTableBuilder> TTB;
-
-private:
- uint32_t countRefs(uint32_t RecordIndex) const {
- auto &R = Refs[RecordIndex];
- uint32_t Count = 0;
- for (auto &Ref : R) {
- Count += Ref.Count;
- }
- return Count;
- }
-
- bool checkOneTypeReference(uint32_t RecordIndex, ArrayRef<uint8_t> RecordData,
- TypeIndex TI) const {
- RecordData = RecordData.drop_front(sizeof(RecordPrefix));
- auto &RefList = Refs[RecordIndex];
- for (auto &Ref : RefList) {
- uint32_t Offset = Ref.Offset;
- ArrayRef<uint8_t> Loc = RecordData.drop_front(Offset);
- ArrayRef<TypeIndex> Indices(
- reinterpret_cast<const TypeIndex *>(Loc.data()), Ref.Count);
- if (llvm::any_of(Indices,
- [TI](const TypeIndex &Other) { return Other == TI; }))
- return true;
- }
- return false;
- }
-
- template <typename... Indices>
- bool checkTypeReferencesImpl(uint32_t RecordIndex,
- ArrayRef<ArrayRef<uint8_t>> CVRecords) const {
- return true;
- }
-
- template <typename... Indices>
- bool checkTypeReferencesImpl(uint32_t RecordIndex,
- ArrayRef<ArrayRef<uint8_t>> CVRecords,
- TypeIndex TI, Indices &&... Rest) const {
- ArrayRef<uint8_t> Record = CVRecords[RecordIndex];
- bool Success = checkOneTypeReference(RecordIndex, Record, TI);
- EXPECT_TRUE(Success);
- return Success & checkTypeReferencesImpl(RecordIndex, CVRecords,
- std::forward<Indices>(Rest)...);
- }
-
- void discoverAllTypeIndices() {
- Refs.resize(TTB->records().size());
- for (uint32_t I = 0; I < TTB->records().size(); ++I) {
- ArrayRef<uint8_t> Data = TTB->records()[I];
- discoverTypeIndices(Data, Refs[I]);
- }
- }
-
- void discoverTypeIndicesInSymbols() {
- Refs.resize(Symbols.size());
- for (uint32_t I = 0; I < Symbols.size(); ++I)
- discoverTypeIndicesInSymbol(Symbols[I], Refs[I]);
- }
-
- // Helper function to write out a field list record with the given list
- // of member records.
- void writeFieldListImpl() {}
-
- template <typename RecType, typename... Rest>
- void writeFieldListImpl(RecType &&Record, Rest &&... Records) {
- CRB->writeMemberType(Record);
- writeFieldListImpl(std::forward<Rest>(Records)...);
- }
-
- // Helper function to write out a list of type records.
- void writeTypeRecordsImpl() {}
-
- template <typename RecType, typename... Rest>
- void writeTypeRecordsImpl(RecType &&Record, Rest &&... Records) {
- TTB->writeLeafType(Record);
- writeTypeRecordsImpl(std::forward<Rest>(Records)...);
- }
-
- // Helper function to write out a list of symbol records.
- void writeSymbolRecordsImpl() {}
-
- template <typename RecType, typename... Rest>
- void writeSymbolRecordsImpl(RecType &&Record, Rest &&... Records) {
- Symbols.push_back(SymbolSerializer::writeOneSymbol(Record, Storage,
- CodeViewContainer::Pdb));
- writeSymbolRecordsImpl(std::forward<Rest>(Records)...);
- }
-
- std::vector<SmallVector<TiReference, 4>> Refs;
- std::unique_ptr<ContinuationRecordBuilder> CRB;
- std::vector<CVSymbol> Symbols;
- BumpPtrAllocator Storage;
-};
-
-namespace leafs {
-static FuncIdRecord FuncId(TypeIndex(1), TypeIndex(2), "FuncId");
-static MemberFuncIdRecord MemFuncId(TypeIndex(3), TypeIndex(4), "FuncId");
-static StringIdRecord StringId(TypeIndex(5), "TheString");
-static struct {
- std::vector<TypeIndex> Ids = {TypeIndex(6), TypeIndex(7), TypeIndex(8)};
- StringListRecord Record{TypeRecordKind::StringList, Ids};
-} StringList;
-static struct {
- std::vector<TypeIndex> Ids = {TypeIndex(9), TypeIndex(10), TypeIndex(11)};
- BuildInfoRecord Record{Ids};
-} BuildInfo;
-static UdtSourceLineRecord UdtSourceLine(TypeIndex(12), TypeIndex(13), 0);
-static UdtModSourceLineRecord UdtModSourceLine(TypeIndex(14), TypeIndex(15), 0,
- 0);
-static ModifierRecord Modifier(TypeIndex(16), ModifierOptions::None);
-static ProcedureRecord Procedure(TypeIndex(17), CallingConvention::PpcCall,
- FunctionOptions::None, 0, TypeIndex(18));
-static MemberFunctionRecord MemberFunction(TypeIndex(19), TypeIndex(20),
- TypeIndex(21),
- CallingConvention::ThisCall,
- FunctionOptions::None, 2,
- TypeIndex(22), 0);
-static struct {
- std::vector<TypeIndex> Ids = {TypeIndex(23), TypeIndex(24), TypeIndex(25)};
- ArgListRecord Record{TypeRecordKind::ArgList, Ids};
-} ArgList;
-static ArrayRecord Array(TypeIndex(26), TypeIndex(27), 10, "MyArray");
-static ClassRecord Class(TypeRecordKind::Class, 3, ClassOptions::None,
- TypeIndex(28), TypeIndex(29), TypeIndex(30), 10,
- "MyClass", "MyClassUniqueName");
-static ClassRecord Struct(TypeRecordKind::Struct, 3, ClassOptions::None,
- TypeIndex(31), TypeIndex(32), TypeIndex(33), 10,
- "MyClass", "MyClassUniqueName");
-static UnionRecord Union(1, ClassOptions::None, TypeIndex(34), 10, "MyUnion",
- "MyUnionUniqueName");
-static EnumRecord Enum(1, ClassOptions::None, TypeIndex(35), "MyEnum",
- "EnumUniqueName", TypeIndex(36));
-static BitFieldRecord BitField(TypeIndex(37), 1, 0);
-static VFTableRecord VFTable(TypeIndex(38), TypeIndex(39), 1, "VFT", {});
-static VFTableShapeRecord VTableShape({});
-static struct {
- const TypeIndex T1{40};
- const TypeIndex T2{41};
- const TypeIndex T3{42};
- const TypeIndex T4{43};
-
- std::vector<OneMethodRecord> Methods{
- {T1, MemberAccess::Public, MethodKind::IntroducingVirtual,
- MethodOptions::None, 0, "Method1"},
- {T2, MemberAccess::Public, MethodKind::PureVirtual, MethodOptions::None,
- 0, "Method1"},
- {T3, MemberAccess::Public, MethodKind::PureIntroducingVirtual,
- MethodOptions::None, 0, "Method1"},
- {T4, MemberAccess::Public, MethodKind::Static, MethodOptions::None, 0,
- "Method1"}};
-
- MethodOverloadListRecord Record{Methods};
-} MethodOverloadList;
-static PointerRecord Pointer(TypeIndex(44), PointerKind::Near32,
- PointerMode::Pointer, PointerOptions::Const, 3);
-static PointerRecord MemberPointer(
- TypeIndex(45), PointerKind::Near32, PointerMode::PointerToDataMember,
- PointerOptions::Const, 3,
- MemberPointerInfo(TypeIndex(46),
- PointerToMemberRepresentation::GeneralData));
-}
-
-namespace members {
-static BaseClassRecord BaseClass(MemberAccess::Public, TypeIndex(47), 0);
-static EnumeratorRecord Enumerator(MemberAccess::Public,
- APSInt(APInt(8, 3, false)), "Test");
-DataMemberRecord DataMember(MemberAccess::Public, TypeIndex(48), 0, "Test");
-OverloadedMethodRecord OverloadedMethod(3, TypeIndex(49), "MethodList");
-static struct {
- const TypeIndex T1{50};
- const TypeIndex T2{51};
- const TypeIndex T3{52};
- const TypeIndex T4{53};
- OneMethodRecord R1{T1,
- MemberAccess::Public,
- MethodKind::IntroducingVirtual,
- MethodOptions::None,
- 0,
- "M1"};
- OneMethodRecord R2{T2,
- MemberAccess::Public,
- MethodKind::PureVirtual,
- MethodOptions::None,
- 0,
- "M2"};
- OneMethodRecord R3{T3,
- MemberAccess::Public,
- MethodKind::PureIntroducingVirtual,
- MethodOptions::None,
- 0,
- "M3"};
- OneMethodRecord R4{T4,
- MemberAccess::Protected,
- MethodKind::Vanilla,
- MethodOptions::CompilerGenerated,
- 0,
- "M4"};
-} OneMethod;
-static NestedTypeRecord NestedType(TypeIndex(54), "MyClass");
-static StaticDataMemberRecord StaticDataMember(MemberAccess::Public,
- TypeIndex(55), "Foo");
-static VirtualBaseClassRecord VirtualBaseClass(TypeRecordKind::VirtualBaseClass,
- MemberAccess::Public,
- TypeIndex(56), TypeIndex(57), 0,
- 0);
-static VFPtrRecord VFPtr(TypeIndex(58));
-static ListContinuationRecord Continuation(TypeIndex(59));
-}
-
-TEST_F(TypeIndexIteratorTest, FuncId) {
- using namespace leafs;
- writeTypeRecords(FuncId);
- checkTypeReferences(0, FuncId.FunctionType, FuncId.ParentScope);
-}
-
-TEST_F(TypeIndexIteratorTest, MemFuncId) {
- using namespace leafs;
- writeTypeRecords(MemFuncId);
- checkTypeReferences(0, MemFuncId.ClassType, MemFuncId.FunctionType);
-}
-
-TEST_F(TypeIndexIteratorTest, StringId) {
- using namespace leafs;
- writeTypeRecords(StringId);
- checkTypeReferences(0, StringId.Id);
-}
-
-TEST_F(TypeIndexIteratorTest, SubstrList) {
- using namespace leafs;
- writeTypeRecords(StringList.Record);
- checkTypeReferences(0, StringList.Ids[0], StringList.Ids[1],
- StringList.Ids[2]);
-}
-
-TEST_F(TypeIndexIteratorTest, BuildInfo) {
- using namespace leafs;
- writeTypeRecords(BuildInfo.Record);
- checkTypeReferences(0, BuildInfo.Ids[0], BuildInfo.Ids[1], BuildInfo.Ids[2]);
-}
-
-TEST_F(TypeIndexIteratorTest, UdtSrcLine) {
- using namespace leafs;
- writeTypeRecords(UdtSourceLine);
- checkTypeReferences(0, UdtSourceLine.UDT, UdtSourceLine.SourceFile);
-}
-
-TEST_F(TypeIndexIteratorTest, UdtModSrcLine) {
- using namespace leafs;
- writeTypeRecords(UdtModSourceLine);
- checkTypeReferences(0, UdtModSourceLine.UDT, UdtModSourceLine.SourceFile);
-}
-
-TEST_F(TypeIndexIteratorTest, Modifier) {
- using namespace leafs;
- writeTypeRecords(Modifier);
- checkTypeReferences(0, Modifier.ModifiedType);
-}
-
-TEST_F(TypeIndexIteratorTest, Procedure) {
- using namespace leafs;
- writeTypeRecords(Procedure);
- checkTypeReferences(0, Procedure.ReturnType, Procedure.ArgumentList);
-}
-
-TEST_F(TypeIndexIteratorTest, MemFunc) {
- using namespace leafs;
- writeTypeRecords(MemberFunction);
- checkTypeReferences(0, MemberFunction.ReturnType, MemberFunction.ClassType,
- MemberFunction.ThisType, MemberFunction.ArgumentList);
-}
-
-TEST_F(TypeIndexIteratorTest, ArgList) {
- using namespace leafs;
- writeTypeRecords(ArgList.Record);
- checkTypeReferences(0, ArgList.Ids[0], ArgList.Ids[1], ArgList.Ids[2]);
-}
-
-TEST_F(TypeIndexIteratorTest, Array) {
- using namespace leafs;
- writeTypeRecords(Array);
- checkTypeReferences(0, Array.ElementType, Array.IndexType);
-}
-
-TEST_F(TypeIndexIteratorTest, Class) {
- using namespace leafs;
- writeTypeRecords(Class);
- checkTypeReferences(0, Class.FieldList, Class.DerivationList,
- Class.VTableShape);
-}
-
-TEST_F(TypeIndexIteratorTest, Struct) {
- using namespace leafs;
- writeTypeRecords(Struct);
- checkTypeReferences(0, Struct.FieldList, Struct.DerivationList,
- Struct.VTableShape);
-}
-
-TEST_F(TypeIndexIteratorTest, Union) {
- using namespace leafs;
- writeTypeRecords(Union);
- checkTypeReferences(0, Union.FieldList);
-}
-
-TEST_F(TypeIndexIteratorTest, Enum) {
- using namespace leafs;
- writeTypeRecords(Enum);
- checkTypeReferences(0, Enum.FieldList, Enum.UnderlyingType);
-}
-
-TEST_F(TypeIndexIteratorTest, Bitfield) {
- using namespace leafs;
- writeTypeRecords(BitField);
- checkTypeReferences(0, BitField.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, VTable) {
- using namespace leafs;
- writeTypeRecords(VFTable);
- checkTypeReferences(0, VFTable.CompleteClass, VFTable.OverriddenVFTable);
-}
-
-TEST_F(TypeIndexIteratorTest, VTShape) {
- using namespace leafs;
- writeTypeRecords(VTableShape);
- checkTypeReferences(0);
-}
-
-TEST_F(TypeIndexIteratorTest, OverloadList) {
- using namespace leafs;
- writeTypeRecords(MethodOverloadList.Record);
- checkTypeReferences(0, MethodOverloadList.T1, MethodOverloadList.T2,
- MethodOverloadList.T3, MethodOverloadList.T4);
-}
-
-TEST_F(TypeIndexIteratorTest, Pointer) {
- using namespace leafs;
- writeTypeRecords(Pointer);
- checkTypeReferences(0, Pointer.ReferentType);
-}
-
-TEST_F(TypeIndexIteratorTest, MemberPointer) {
- using namespace leafs;
- writeTypeRecords(MemberPointer);
- checkTypeReferences(0, MemberPointer.ReferentType,
- MemberPointer.MemberInfo->ContainingType);
-}
-
-TEST_F(TypeIndexIteratorTest, ManyTypes) {
-
- using namespace leafs;
- writeTypeRecords(FuncId, MemFuncId, StringId, StringList.Record,
- BuildInfo.Record, UdtSourceLine, UdtModSourceLine, Modifier,
- Procedure, MemberFunction, ArgList.Record, Array, Class,
- Union, Enum, BitField, VFTable, VTableShape,
- MethodOverloadList.Record, Pointer, MemberPointer);
-
- checkTypeReferences(0, FuncId.FunctionType, FuncId.ParentScope);
- checkTypeReferences(1, MemFuncId.ClassType, MemFuncId.FunctionType);
- checkTypeReferences(2, StringId.Id);
- checkTypeReferences(3, StringList.Ids[0], StringList.Ids[1],
- StringList.Ids[2]);
- checkTypeReferences(4, BuildInfo.Ids[0], BuildInfo.Ids[1], BuildInfo.Ids[2]);
- checkTypeReferences(5, UdtSourceLine.UDT, UdtSourceLine.SourceFile);
- checkTypeReferences(6, UdtModSourceLine.UDT, UdtModSourceLine.SourceFile);
- checkTypeReferences(7, Modifier.ModifiedType);
- checkTypeReferences(8, Procedure.ReturnType, Procedure.ArgumentList);
- checkTypeReferences(9, MemberFunction.ReturnType, MemberFunction.ClassType,
- MemberFunction.ThisType, MemberFunction.ArgumentList);
- checkTypeReferences(10, ArgList.Ids[0], ArgList.Ids[1], ArgList.Ids[2]);
- checkTypeReferences(11, Array.ElementType, Array.IndexType);
- checkTypeReferences(12, Class.FieldList, Class.DerivationList,
- Class.VTableShape);
- checkTypeReferences(13, Union.FieldList);
- checkTypeReferences(14, Enum.FieldList, Enum.UnderlyingType);
- checkTypeReferences(15, BitField.Type);
- checkTypeReferences(16, VFTable.CompleteClass, VFTable.OverriddenVFTable);
- checkTypeReferences(17);
- checkTypeReferences(18, MethodOverloadList.T1, MethodOverloadList.T2,
- MethodOverloadList.T3, MethodOverloadList.T4);
- checkTypeReferences(19, Pointer.ReferentType);
- checkTypeReferences(20, MemberPointer.ReferentType,
- MemberPointer.MemberInfo->ContainingType);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListBaseClass) {
- using namespace members;
- writeFieldList(BaseClass);
- checkTypeReferences(0, BaseClass.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListEnumerator) {
- using namespace members;
- writeFieldList(Enumerator);
- checkTypeReferences(0);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListMember) {
- using namespace members;
- writeFieldList(DataMember);
- checkTypeReferences(0, DataMember.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListMethod) {
- using namespace members;
- writeFieldList(OverloadedMethod);
- checkTypeReferences(0, OverloadedMethod.MethodList);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListOneMethod) {
- using namespace members;
- writeFieldList(OneMethod.R1, OneMethod.R2, OneMethod.R3, OneMethod.R4);
- checkTypeReferences(0, OneMethod.T1, OneMethod.T2, OneMethod.T3,
- OneMethod.T4);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListNestedType) {
- using namespace members;
- writeFieldList(NestedType);
- checkTypeReferences(0, NestedType.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListStaticMember) {
- using namespace members;
- writeFieldList(StaticDataMember);
- checkTypeReferences(0, StaticDataMember.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListVirtualBase) {
- using namespace members;
- writeFieldList(VirtualBaseClass);
- checkTypeReferences(0, VirtualBaseClass.BaseType, VirtualBaseClass.VBPtrType);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListVFTable) {
- using namespace members;
- writeFieldList(VFPtr);
- checkTypeReferences(0, VFPtr.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, FieldListContinuation) {
- using namespace members;
- writeFieldList(Continuation);
- checkTypeReferences(0, Continuation.ContinuationIndex);
-}
-
-TEST_F(TypeIndexIteratorTest, ManyMembers) {
- using namespace members;
- writeFieldList(BaseClass, Enumerator, DataMember, OverloadedMethod,
- OneMethod.R1, OneMethod.R2, OneMethod.R3, OneMethod.R4,
- NestedType, StaticDataMember, VirtualBaseClass, VFPtr,
- Continuation);
-
- checkTypeReferences(
- 0, BaseClass.Type, DataMember.Type, OverloadedMethod.MethodList,
- OneMethod.T1, OneMethod.T2, OneMethod.T3, OneMethod.T4, NestedType.Type,
- StaticDataMember.Type, VirtualBaseClass.BaseType,
- VirtualBaseClass.VBPtrType, VFPtr.Type, Continuation.ContinuationIndex);
-}
-
-TEST_F(TypeIndexIteratorTest, ProcSym) {
- ProcSym GS(SymbolRecordKind::GlobalProcSym);
- GS.FunctionType = TypeIndex::Float32();
- ProcSym LS(SymbolRecordKind::ProcSym);
- LS.FunctionType = TypeIndex::Float64();
- writeSymbolRecords(GS, LS);
- checkTypeReferences(0, GS.FunctionType);
- checkTypeReferences(1, LS.FunctionType);
-}
-
-TEST_F(TypeIndexIteratorTest, DataSym) {
- DataSym DS(SymbolRecordKind::GlobalData);
- DS.Type = TypeIndex::Float32();
- writeSymbolRecords(DS);
- checkTypeReferences(0, DS.Type);
-}
-
-TEST_F(TypeIndexIteratorTest, RegisterSym) {
- RegisterSym Reg(SymbolRecordKind::RegisterSym);
- Reg.Index = TypeIndex::UInt32();
- Reg.Register = RegisterId::EAX;
- Reg.Name = "Target";
- writeSymbolRecords(Reg);
- checkTypeReferences(0, Reg.Index);
-}
-
-TEST_F(TypeIndexIteratorTest, CallerSym) {
- CallerSym Callees(SymbolRecordKind::CalleeSym);
- Callees.Indices.push_back(TypeIndex(1));
- Callees.Indices.push_back(TypeIndex(2));
- Callees.Indices.push_back(TypeIndex(3));
- CallerSym Callers(SymbolRecordKind::CallerSym);
- Callers.Indices.push_back(TypeIndex(4));
- Callers.Indices.push_back(TypeIndex(5));
- Callers.Indices.push_back(TypeIndex(6));
- CallerSym Inlinees(SymbolRecordKind::InlineesSym);
- Inlinees.Indices.push_back(TypeIndex(7));
- Inlinees.Indices.push_back(TypeIndex(8));
- Inlinees.Indices.push_back(TypeIndex(9));
- writeSymbolRecords(Callees, Callers, Inlinees);
- checkTypeReferences(0, TypeIndex(1), TypeIndex(2), TypeIndex(3));
- checkTypeReferences(1, TypeIndex(4), TypeIndex(5), TypeIndex(6));
- checkTypeReferences(2, TypeIndex(7), TypeIndex(8), TypeIndex(9));
-}
-
-TEST_F(TypeIndexIteratorTest, Precomp) {
- PrecompRecord P(TypeRecordKind::Precomp);
- P.StartTypeIndex = TypeIndex::FirstNonSimpleIndex;
- P.TypesCount = 100;
- P.Signature = 0x12345678;
- P.PrecompFilePath = "C:/precomp.obj";
-
- EndPrecompRecord EP(TypeRecordKind::EndPrecomp);
- EP.Signature = P.Signature;
-
- writeTypeRecords(P, EP);
- checkTypeReferences(0);
-}
+//===- llvm/unittest/DebugInfo/CodeView/TypeIndexDiscoveryTest.cpp --------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/DebugInfo/CodeView/TypeIndexDiscovery.h"
+
+#include "llvm/DebugInfo/CodeView/AppendingTypeTableBuilder.h"
+#include "llvm/DebugInfo/CodeView/ContinuationRecordBuilder.h"
+#include "llvm/DebugInfo/CodeView/SymbolSerializer.h"
+#include "llvm/Support/Allocator.h"
+
+#include "gmock/gmock.h"
+#include "gtest/gtest.h"
+
+using namespace llvm;
+using namespace llvm::codeview;
+
+class TypeIndexIteratorTest : public testing::Test {
+public:
+ TypeIndexIteratorTest() {}
+
+ void SetUp() override {
+ Refs.clear();
+ TTB = make_unique<AppendingTypeTableBuilder>(Storage);
+ CRB = make_unique<ContinuationRecordBuilder>();
+ Symbols.clear();
+ }
+
+ void TearDown() override {
+ CRB.reset();
+ TTB.reset();
+ }
+
+protected:
+ template <typename... Indices>
+ bool checkTypeReferences(uint32_t RecordIndex, Indices &&... TIs) const {
+ EXPECT_EQ(sizeof...(Indices), countRefs(RecordIndex));
+
+ // Choose between type or symbol records. The checking code doesn't care
+ // which we have.
+ std::vector<ArrayRef<uint8_t>> CVRecords;
+ if (Symbols.empty()) {
+ CVRecords = TTB->records();
+ } else {
+ for (const CVSymbol &S : Symbols)
+ CVRecords.push_back(S.data());
+ }
+
+ return checkTypeReferencesImpl(RecordIndex, CVRecords,
+ std::forward<Indices>(TIs)...);
+ }
+
+ template <typename... T> void writeFieldList(T &&... MemberRecords) {
+ CRB->begin(ContinuationRecordKind::FieldList);
+ writeFieldListImpl(std::forward<T>(MemberRecords)...);
+ auto Records = CRB->end(TTB->nextTypeIndex());
+ ASSERT_EQ(1u, Records.size());
+ TTB->insertRecordBytes(Records.front().RecordData);
+ discoverAllTypeIndices();
+ }
+
+ template <typename... T> void writeTypeRecords(T &&... Records) {
+ writeTypeRecordsImpl(std::forward<T>(Records)...);
+ ASSERT_EQ(sizeof...(T), TTB->records().size());
+ discoverAllTypeIndices();
+ }
+
+ template <typename... T> void writeSymbolRecords(T &&... Records) {
+ writeSymbolRecordsImpl(std::forward<T>(Records)...);
+ ASSERT_EQ(sizeof...(T), Symbols.size());
+ discoverTypeIndicesInSymbols();
+ }
+
+ std::unique_ptr<AppendingTypeTableBuilder> TTB;
+
+private:
+ uint32_t countRefs(uint32_t RecordIndex) const {
+ auto &R = Refs[RecordIndex];
+ uint32_t Count = 0;
+ for (auto &Ref : R) {
+ Count += Ref.Count;
+ }
+ return Count;
+ }
+
+ bool checkOneTypeReference(uint32_t RecordIndex, ArrayRef<uint8_t> RecordData,
+ TypeIndex TI) const {
+ RecordData = RecordData.drop_front(sizeof(RecordPrefix));
+ auto &RefList = Refs[RecordIndex];
+ for (auto &Ref : RefList) {
+ uint32_t Offset = Ref.Offset;
+ ArrayRef<uint8_t> Loc = RecordData.drop_front(Offset);
+ ArrayRef<TypeIndex> Indices(
+ reinterpret_cast<const TypeIndex *>(Loc.data()), Ref.Count);
+ if (llvm::any_of(Indices,
+ [TI](const TypeIndex &Other) { return Other == TI; }))
+ return true;
+ }
+ return false;
+ }
+
+ template <typename... Indices>
+ bool checkTypeReferencesImpl(uint32_t RecordIndex,
+ ArrayRef<ArrayRef<uint8_t>> CVRecords) const {
+ return true;
+ }
+
+ template <typename... Indices>
+ bool checkTypeReferencesImpl(uint32_t RecordIndex,
+ ArrayRef<ArrayRef<uint8_t>> CVRecords,
+ TypeIndex TI, Indices &&... Rest) const {
+ ArrayRef<uint8_t> Record = CVRecords[RecordIndex];
+ bool Success = checkOneTypeReference(RecordIndex, Record, TI);
+ EXPECT_TRUE(Success);
+ return Success & checkTypeReferencesImpl(RecordIndex, CVRecords,
+ std::forward<Indices>(Rest)...);
+ }
+
+ void discoverAllTypeIndices() {
+ Refs.resize(TTB->records().size());
+ for (uint32_t I = 0; I < TTB->records().size(); ++I) {
+ ArrayRef<uint8_t> Data = TTB->records()[I];
+ discoverTypeIndices(Data, Refs[I]);
+ }
+ }
+
+ void discoverTypeIndicesInSymbols() {
+ Refs.resize(Symbols.size());
+ for (uint32_t I = 0; I < Symbols.size(); ++I)
+ discoverTypeIndicesInSymbol(Symbols[I], Refs[I]);
+ }
+
+ // Helper function to write out a field list record with the given list
+ // of member records.
+ void writeFieldListImpl() {}
+
+ template <typename RecType, typename... Rest>
+ void writeFieldListImpl(RecType &&Record, Rest &&... Records) {
+ CRB->writeMemberType(Record);
+ writeFieldListImpl(std::forward<Rest>(Records)...);
+ }
+
+ // Helper function to write out a list of type records.
+ void writeTypeRecordsImpl() {}
+
+ template <typename RecType, typename... Rest>
+ void writeTypeRecordsImpl(RecType &&Record, Rest &&... Records) {
+ TTB->writeLeafType(Record);
+ writeTypeRecordsImpl(std::forward<Rest>(Records)...);
+ }
+
+ // Helper function to write out a list of symbol records.
+ void writeSymbolRecordsImpl() {}
+
+ template <typename RecType, typename... Rest>
+ void writeSymbolRecordsImpl(RecType &&Record, Rest &&... Records) {
+ Symbols.push_back(SymbolSerializer::writeOneSymbol(Record, Storage,
+ CodeViewContainer::Pdb));
+ writeSymbolRecordsImpl(std::forward<Rest>(Records)...);
+ }
+
+ std::vector<SmallVector<TiReference, 4>> Refs;
+ std::unique_ptr<ContinuationRecordBuilder> CRB;
+ std::vector<CVSymbol> Symbols;
+ BumpPtrAllocator Storage;
+};
+
+namespace leafs {
+static FuncIdRecord FuncId(TypeIndex(1), TypeIndex(2), "FuncId");
+static MemberFuncIdRecord MemFuncId(TypeIndex(3), TypeIndex(4), "FuncId");
+static StringIdRecord StringId(TypeIndex(5), "TheString");
+static struct {
+ std::vector<TypeIndex> Ids = {TypeIndex(6), TypeIndex(7), TypeIndex(8)};
+ StringListRecord Record{TypeRecordKind::StringList, Ids};
+} StringList;
+static struct {
+ std::vector<TypeIndex> Ids = {TypeIndex(9), TypeIndex(10), TypeIndex(11)};
+ BuildInfoRecord Record{Ids};
+} BuildInfo;
+static UdtSourceLineRecord UdtSourceLine(TypeIndex(12), TypeIndex(13), 0);
+static UdtModSourceLineRecord UdtModSourceLine(TypeIndex(14), TypeIndex(15), 0,
+ 0);
+static ModifierRecord Modifier(TypeIndex(16), ModifierOptions::None);
+static ProcedureRecord Procedure(TypeIndex(17), CallingConvention::PpcCall,
+ FunctionOptions::None, 0, TypeIndex(18));
+static MemberFunctionRecord MemberFunction(TypeIndex(19), TypeIndex(20),
+ TypeIndex(21),
+ CallingConvention::ThisCall,
+ FunctionOptions::None, 2,
+ TypeIndex(22), 0);
+static struct {
+ std::vector<TypeIndex> Ids = {TypeIndex(23), TypeIndex(24), TypeIndex(25)};
+ ArgListRecord Record{TypeRecordKind::ArgList, Ids};
+} ArgList;
+static ArrayRecord Array(TypeIndex(26), TypeIndex(27), 10, "MyArray");
+static ClassRecord Class(TypeRecordKind::Class, 3, ClassOptions::None,
+ TypeIndex(28), TypeIndex(29), TypeIndex(30), 10,
+ "MyClass", "MyClassUniqueName");
+static ClassRecord Struct(TypeRecordKind::Struct, 3, ClassOptions::None,
+ TypeIndex(31), TypeIndex(32), TypeIndex(33), 10,
+ "MyClass", "MyClassUniqueName");
+static UnionRecord Union(1, ClassOptions::None, TypeIndex(34), 10, "MyUnion",
+ "MyUnionUniqueName");
+static EnumRecord Enum(1, ClassOptions::None, TypeIndex(35), "MyEnum",
+ "EnumUniqueName", TypeIndex(36));
+static BitFieldRecord BitField(TypeIndex(37), 1, 0);
+static VFTableRecord VFTable(TypeIndex(38), TypeIndex(39), 1, "VFT", {});
+static VFTableShapeRecord VTableShape({});
+static struct {
+ const TypeIndex T1{40};
+ const TypeIndex T2{41};
+ const TypeIndex T3{42};
+ const TypeIndex T4{43};
+
+ std::vector<OneMethodRecord> Methods{
+ {T1, MemberAccess::Public, MethodKind::IntroducingVirtual,
+ MethodOptions::None, 0, "Method1"},
+ {T2, MemberAccess::Public, MethodKind::PureVirtual, MethodOptions::None,
+ 0, "Method1"},
+ {T3, MemberAccess::Public, MethodKind::PureIntroducingVirtual,
+ MethodOptions::None, 0, "Method1"},
+ {T4, MemberAccess::Public, MethodKind::Static, MethodOptions::None, 0,
+ "Method1"}};
+
+ MethodOverloadListRecord Record{Methods};
+} MethodOverloadList;
+static PointerRecord Pointer(TypeIndex(44), PointerKind::Near32,
+ PointerMode::Pointer, PointerOptions::Const, 3);
+static PointerRecord MemberPointer(
+ TypeIndex(45), PointerKind::Near32, PointerMode::PointerToDataMember,
+ PointerOptions::Const, 3,
+ MemberPointerInfo(TypeIndex(46),
+ PointerToMemberRepresentation::GeneralData));
+}
+
+namespace members {
+static BaseClassRecord BaseClass(MemberAccess::Public, TypeIndex(47), 0);
+static EnumeratorRecord Enumerator(MemberAccess::Public,
+ APSInt(APInt(8, 3, false)), "Test");
+DataMemberRecord DataMember(MemberAccess::Public, TypeIndex(48), 0, "Test");
+OverloadedMethodRecord OverloadedMethod(3, TypeIndex(49), "MethodList");
+static struct {
+ const TypeIndex T1{50};
+ const TypeIndex T2{51};
+ const TypeIndex T3{52};
+ const TypeIndex T4{53};
+ OneMethodRecord R1{T1,
+ MemberAccess::Public,
+ MethodKind::IntroducingVirtual,
+ MethodOptions::None,
+ 0,
+ "M1"};
+ OneMethodRecord R2{T2,
+ MemberAccess::Public,
+ MethodKind::PureVirtual,
+ MethodOptions::None,
+ 0,
+ "M2"};
+ OneMethodRecord R3{T3,
+ MemberAccess::Public,
+ MethodKind::PureIntroducingVirtual,
+ MethodOptions::None,
+ 0,
+ "M3"};
+ OneMethodRecord R4{T4,
+ MemberAccess::Protected,
+ MethodKind::Vanilla,
+ MethodOptions::CompilerGenerated,
+ 0,
+ "M4"};
+} OneMethod;
+static NestedTypeRecord NestedType(TypeIndex(54), "MyClass");
+static StaticDataMemberRecord StaticDataMember(MemberAccess::Public,
+ TypeIndex(55), "Foo");
+static VirtualBaseClassRecord VirtualBaseClass(TypeRecordKind::VirtualBaseClass,
+ MemberAccess::Public,
+ TypeIndex(56), TypeIndex(57), 0,
+ 0);
+static VFPtrRecord VFPtr(TypeIndex(58));
+static ListContinuationRecord Continuation(TypeIndex(59));
+}
+
+TEST_F(TypeIndexIteratorTest, FuncId) {
+ using namespace leafs;
+ writeTypeRecords(FuncId);
+ checkTypeReferences(0, FuncId.FunctionType, FuncId.ParentScope);
+}
+
+TEST_F(TypeIndexIteratorTest, MemFuncId) {
+ using namespace leafs;
+ writeTypeRecords(MemFuncId);
+ checkTypeReferences(0, MemFuncId.ClassType, MemFuncId.FunctionType);
+}
+
+TEST_F(TypeIndexIteratorTest, StringId) {
+ using namespace leafs;
+ writeTypeRecords(StringId);
+ checkTypeReferences(0, StringId.Id);
+}
+
+TEST_F(TypeIndexIteratorTest, SubstrList) {
+ using namespace leafs;
+ writeTypeRecords(StringList.Record);
+ checkTypeReferences(0, StringList.Ids[0], StringList.Ids[1],
+ StringList.Ids[2]);
+}
+
+TEST_F(TypeIndexIteratorTest, BuildInfo) {
+ using namespace leafs;
+ writeTypeRecords(BuildInfo.Record);
+ checkTypeReferences(0, BuildInfo.Ids[0], BuildInfo.Ids[1], BuildInfo.Ids[2]);
+}
+
+TEST_F(TypeIndexIteratorTest, UdtSrcLine) {
+ using namespace leafs;
+ writeTypeRecords(UdtSourceLine);
+ checkTypeReferences(0, UdtSourceLine.UDT, UdtSourceLine.SourceFile);
+}
+
+TEST_F(TypeIndexIteratorTest, UdtModSrcLine) {
+ using namespace leafs;
+ writeTypeRecords(UdtModSourceLine);
+ checkTypeReferences(0, UdtModSourceLine.UDT, UdtModSourceLine.SourceFile);
+}
+
+TEST_F(TypeIndexIteratorTest, Modifier) {
+ using namespace leafs;
+ writeTypeRecords(Modifier);
+ checkTypeReferences(0, Modifier.ModifiedType);
+}
+
+TEST_F(TypeIndexIteratorTest, Procedure) {
+ using namespace leafs;
+ writeTypeRecords(Procedure);
+ checkTypeReferences(0, Procedure.ReturnType, Procedure.ArgumentList);
+}
+
+TEST_F(TypeIndexIteratorTest, MemFunc) {
+ using namespace leafs;
+ writeTypeRecords(MemberFunction);
+ checkTypeReferences(0, MemberFunction.ReturnType, MemberFunction.ClassType,
+ MemberFunction.ThisType, MemberFunction.ArgumentList);
+}
+
+TEST_F(TypeIndexIteratorTest, ArgList) {
+ using namespace leafs;
+ writeTypeRecords(ArgList.Record);
+ checkTypeReferences(0, ArgList.Ids[0], ArgList.Ids[1], ArgList.Ids[2]);
+}
+
+TEST_F(TypeIndexIteratorTest, Array) {
+ using namespace leafs;
+ writeTypeRecords(Array);
+ checkTypeReferences(0, Array.ElementType, Array.IndexType);
+}
+
+TEST_F(TypeIndexIteratorTest, Class) {
+ using namespace leafs;
+ writeTypeRecords(Class);
+ checkTypeReferences(0, Class.FieldList, Class.DerivationList,
+ Class.VTableShape);
+}
+
+TEST_F(TypeIndexIteratorTest, Struct) {
+ using namespace leafs;
+ writeTypeRecords(Struct);
+ checkTypeReferences(0, Struct.FieldList, Struct.DerivationList,
+ Struct.VTableShape);
+}
+
+TEST_F(TypeIndexIteratorTest, Union) {
+ using namespace leafs;
+ writeTypeRecords(Union);
+ checkTypeReferences(0, Union.FieldList);
+}
+
+TEST_F(TypeIndexIteratorTest, Enum) {
+ using namespace leafs;
+ writeTypeRecords(Enum);
+ checkTypeReferences(0, Enum.FieldList, Enum.UnderlyingType);
+}
+
+TEST_F(TypeIndexIteratorTest, Bitfield) {
+ using namespace leafs;
+ writeTypeRecords(BitField);
+ checkTypeReferences(0, BitField.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, VTable) {
+ using namespace leafs;
+ writeTypeRecords(VFTable);
+ checkTypeReferences(0, VFTable.CompleteClass, VFTable.OverriddenVFTable);
+}
+
+TEST_F(TypeIndexIteratorTest, VTShape) {
+ using namespace leafs;
+ writeTypeRecords(VTableShape);
+ checkTypeReferences(0);
+}
+
+TEST_F(TypeIndexIteratorTest, OverloadList) {
+ using namespace leafs;
+ writeTypeRecords(MethodOverloadList.Record);
+ checkTypeReferences(0, MethodOverloadList.T1, MethodOverloadList.T2,
+ MethodOverloadList.T3, MethodOverloadList.T4);
+}
+
+TEST_F(TypeIndexIteratorTest, Pointer) {
+ using namespace leafs;
+ writeTypeRecords(Pointer);
+ checkTypeReferences(0, Pointer.ReferentType);
+}
+
+TEST_F(TypeIndexIteratorTest, MemberPointer) {
+ using namespace leafs;
+ writeTypeRecords(MemberPointer);
+ checkTypeReferences(0, MemberPointer.ReferentType,
+ MemberPointer.MemberInfo->ContainingType);
+}
+
+TEST_F(TypeIndexIteratorTest, ManyTypes) {
+
+ using namespace leafs;
+ writeTypeRecords(FuncId, MemFuncId, StringId, StringList.Record,
+ BuildInfo.Record, UdtSourceLine, UdtModSourceLine, Modifier,
+ Procedure, MemberFunction, ArgList.Record, Array, Class,
+ Union, Enum, BitField, VFTable, VTableShape,
+ MethodOverloadList.Record, Pointer, MemberPointer);
+
+ checkTypeReferences(0, FuncId.FunctionType, FuncId.ParentScope);
+ checkTypeReferences(1, MemFuncId.ClassType, MemFuncId.FunctionType);
+ checkTypeReferences(2, StringId.Id);
+ checkTypeReferences(3, StringList.Ids[0], StringList.Ids[1],
+ StringList.Ids[2]);
+ checkTypeReferences(4, BuildInfo.Ids[0], BuildInfo.Ids[1], BuildInfo.Ids[2]);
+ checkTypeReferences(5, UdtSourceLine.UDT, UdtSourceLine.SourceFile);
+ checkTypeReferences(6, UdtModSourceLine.UDT, UdtModSourceLine.SourceFile);
+ checkTypeReferences(7, Modifier.ModifiedType);
+ checkTypeReferences(8, Procedure.ReturnType, Procedure.ArgumentList);
+ checkTypeReferences(9, MemberFunction.ReturnType, MemberFunction.ClassType,
+ MemberFunction.ThisType, MemberFunction.ArgumentList);
+ checkTypeReferences(10, ArgList.Ids[0], ArgList.Ids[1], ArgList.Ids[2]);
+ checkTypeReferences(11, Array.ElementType, Array.IndexType);
+ checkTypeReferences(12, Class.FieldList, Class.DerivationList,
+ Class.VTableShape);
+ checkTypeReferences(13, Union.FieldList);
+ checkTypeReferences(14, Enum.FieldList, Enum.UnderlyingType);
+ checkTypeReferences(15, BitField.Type);
+ checkTypeReferences(16, VFTable.CompleteClass, VFTable.OverriddenVFTable);
+ checkTypeReferences(17);
+ checkTypeReferences(18, MethodOverloadList.T1, MethodOverloadList.T2,
+ MethodOverloadList.T3, MethodOverloadList.T4);
+ checkTypeReferences(19, Pointer.ReferentType);
+ checkTypeReferences(20, MemberPointer.ReferentType,
+ MemberPointer.MemberInfo->ContainingType);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListBaseClass) {
+ using namespace members;
+ writeFieldList(BaseClass);
+ checkTypeReferences(0, BaseClass.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListEnumerator) {
+ using namespace members;
+ writeFieldList(Enumerator);
+ checkTypeReferences(0);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListMember) {
+ using namespace members;
+ writeFieldList(DataMember);
+ checkTypeReferences(0, DataMember.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListMethod) {
+ using namespace members;
+ writeFieldList(OverloadedMethod);
+ checkTypeReferences(0, OverloadedMethod.MethodList);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListOneMethod) {
+ using namespace members;
+ writeFieldList(OneMethod.R1, OneMethod.R2, OneMethod.R3, OneMethod.R4);
+ checkTypeReferences(0, OneMethod.T1, OneMethod.T2, OneMethod.T3,
+ OneMethod.T4);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListNestedType) {
+ using namespace members;
+ writeFieldList(NestedType);
+ checkTypeReferences(0, NestedType.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListStaticMember) {
+ using namespace members;
+ writeFieldList(StaticDataMember);
+ checkTypeReferences(0, StaticDataMember.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListVirtualBase) {
+ using namespace members;
+ writeFieldList(VirtualBaseClass);
+ checkTypeReferences(0, VirtualBaseClass.BaseType, VirtualBaseClass.VBPtrType);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListVFTable) {
+ using namespace members;
+ writeFieldList(VFPtr);
+ checkTypeReferences(0, VFPtr.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, FieldListContinuation) {
+ using namespace members;
+ writeFieldList(Continuation);
+ checkTypeReferences(0, Continuation.ContinuationIndex);
+}
+
+TEST_F(TypeIndexIteratorTest, ManyMembers) {
+ using namespace members;
+ writeFieldList(BaseClass, Enumerator, DataMember, OverloadedMethod,
+ OneMethod.R1, OneMethod.R2, OneMethod.R3, OneMethod.R4,
+ NestedType, StaticDataMember, VirtualBaseClass, VFPtr,
+ Continuation);
+
+ checkTypeReferences(
+ 0, BaseClass.Type, DataMember.Type, OverloadedMethod.MethodList,
+ OneMethod.T1, OneMethod.T2, OneMethod.T3, OneMethod.T4, NestedType.Type,
+ StaticDataMember.Type, VirtualBaseClass.BaseType,
+ VirtualBaseClass.VBPtrType, VFPtr.Type, Continuation.ContinuationIndex);
+}
+
+TEST_F(TypeIndexIteratorTest, ProcSym) {
+ ProcSym GS(SymbolRecordKind::GlobalProcSym);
+ GS.FunctionType = TypeIndex::Float32();
+ ProcSym LS(SymbolRecordKind::ProcSym);
+ LS.FunctionType = TypeIndex::Float64();
+ writeSymbolRecords(GS, LS);
+ checkTypeReferences(0, GS.FunctionType);
+ checkTypeReferences(1, LS.FunctionType);
+}
+
+TEST_F(TypeIndexIteratorTest, DataSym) {
+ DataSym DS(SymbolRecordKind::GlobalData);
+ DS.Type = TypeIndex::Float32();
+ writeSymbolRecords(DS);
+ checkTypeReferences(0, DS.Type);
+}
+
+TEST_F(TypeIndexIteratorTest, RegisterSym) {
+ RegisterSym Reg(SymbolRecordKind::RegisterSym);
+ Reg.Index = TypeIndex::UInt32();
+ Reg.Register = RegisterId::EAX;
+ Reg.Name = "Target";
+ writeSymbolRecords(Reg);
+ checkTypeReferences(0, Reg.Index);
+}
+
+TEST_F(TypeIndexIteratorTest, CallerSym) {
+ CallerSym Callees(SymbolRecordKind::CalleeSym);
+ Callees.Indices.push_back(TypeIndex(1));
+ Callees.Indices.push_back(TypeIndex(2));
+ Callees.Indices.push_back(TypeIndex(3));
+ CallerSym Callers(SymbolRecordKind::CallerSym);
+ Callers.Indices.push_back(TypeIndex(4));
+ Callers.Indices.push_back(TypeIndex(5));
+ Callers.Indices.push_back(TypeIndex(6));
+ CallerSym Inlinees(SymbolRecordKind::InlineesSym);
+ Inlinees.Indices.push_back(TypeIndex(7));
+ Inlinees.Indices.push_back(TypeIndex(8));
+ Inlinees.Indices.push_back(TypeIndex(9));
+ writeSymbolRecords(Callees, Callers, Inlinees);
+ checkTypeReferences(0, TypeIndex(1), TypeIndex(2), TypeIndex(3));
+ checkTypeReferences(1, TypeIndex(4), TypeIndex(5), TypeIndex(6));
+ checkTypeReferences(2, TypeIndex(7), TypeIndex(8), TypeIndex(9));
+}
+
+TEST_F(TypeIndexIteratorTest, Precomp) {
+ PrecompRecord P(TypeRecordKind::Precomp);
+ P.StartTypeIndex = TypeIndex::FirstNonSimpleIndex;
+ P.TypesCount = 100;
+ P.Signature = 0x12345678;
+ P.PrecompFilePath = "C:/precomp.obj";
+
+ EndPrecompRecord EP(TypeRecordKind::EndPrecomp);
+ EP.Signature = P.Signature;
+
+ writeTypeRecords(P, EP);
+ checkTypeReferences(0);
+}
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