//===- TypeIndex.h ----------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #ifndef LLVM_DEBUGINFO_CODEVIEW_TYPEINDEX_H #define LLVM_DEBUGINFO_CODEVIEW_TYPEINDEX_H #include "llvm/ADT/DenseMapInfo.h" #include "llvm/Support/Endian.h" #include #include namespace llvm { class ScopedPrinter; class StringRef; namespace codeview { class TypeCollection; enum class SimpleTypeKind : uint32_t { None = 0x0000, // uncharacterized type (no type) Void = 0x0003, // void NotTranslated = 0x0007, // type not translated by cvpack HResult = 0x0008, // OLE/COM HRESULT SignedCharacter = 0x0010, // 8 bit signed UnsignedCharacter = 0x0020, // 8 bit unsigned NarrowCharacter = 0x0070, // really a char WideCharacter = 0x0071, // wide char Character16 = 0x007a, // char16_t Character32 = 0x007b, // char32_t Character8 = 0x007c, // char8_t SByte = 0x0068, // 8 bit signed int Byte = 0x0069, // 8 bit unsigned int Int16Short = 0x0011, // 16 bit signed UInt16Short = 0x0021, // 16 bit unsigned Int16 = 0x0072, // 16 bit signed int UInt16 = 0x0073, // 16 bit unsigned int Int32Long = 0x0012, // 32 bit signed UInt32Long = 0x0022, // 32 bit unsigned Int32 = 0x0074, // 32 bit signed int UInt32 = 0x0075, // 32 bit unsigned int Int64Quad = 0x0013, // 64 bit signed UInt64Quad = 0x0023, // 64 bit unsigned Int64 = 0x0076, // 64 bit signed int UInt64 = 0x0077, // 64 bit unsigned int Int128Oct = 0x0014, // 128 bit signed int UInt128Oct = 0x0024, // 128 bit unsigned int Int128 = 0x0078, // 128 bit signed int UInt128 = 0x0079, // 128 bit unsigned int Float16 = 0x0046, // 16 bit real Float32 = 0x0040, // 32 bit real Float32PartialPrecision = 0x0045, // 32 bit PP real Float48 = 0x0044, // 48 bit real Float64 = 0x0041, // 64 bit real Float80 = 0x0042, // 80 bit real Float128 = 0x0043, // 128 bit real Complex16 = 0x0056, // 16 bit complex Complex32 = 0x0050, // 32 bit complex Complex32PartialPrecision = 0x0055, // 32 bit PP complex Complex48 = 0x0054, // 48 bit complex Complex64 = 0x0051, // 64 bit complex Complex80 = 0x0052, // 80 bit complex Complex128 = 0x0053, // 128 bit complex Boolean8 = 0x0030, // 8 bit boolean Boolean16 = 0x0031, // 16 bit boolean Boolean32 = 0x0032, // 32 bit boolean Boolean64 = 0x0033, // 64 bit boolean Boolean128 = 0x0034, // 128 bit boolean }; enum class SimpleTypeMode : uint32_t { Direct = 0x00000000, // Not a pointer NearPointer = 0x00000100, // Near pointer FarPointer = 0x00000200, // Far pointer HugePointer = 0x00000300, // Huge pointer NearPointer32 = 0x00000400, // 32 bit near pointer FarPointer32 = 0x00000500, // 32 bit far pointer NearPointer64 = 0x00000600, // 64 bit near pointer NearPointer128 = 0x00000700 // 128 bit near pointer }; /// A 32-bit type reference. Types are indexed by their order of appearance in /// .debug$T plus 0x1000. Type indices less than 0x1000 are "simple" types, /// composed of a SimpleTypeMode byte followed by a SimpleTypeKind byte. class TypeIndex { public: static const uint32_t FirstNonSimpleIndex = 0x1000; static const uint32_t SimpleKindMask = 0x000000ff; static const uint32_t SimpleModeMask = 0x00000700; static const uint32_t DecoratedItemIdMask = 0x80000000; public: TypeIndex() : Index(static_cast(SimpleTypeKind::None)) {} explicit TypeIndex(uint32_t Index) : Index(Index) {} explicit TypeIndex(SimpleTypeKind Kind) : Index(static_cast(Kind)) {} TypeIndex(SimpleTypeKind Kind, SimpleTypeMode Mode) : Index(static_cast(Kind) | static_cast(Mode)) {} uint32_t getIndex() const { return Index; } void setIndex(uint32_t I) { Index = I; } bool isSimple() const { return Index < FirstNonSimpleIndex; } bool isDecoratedItemId() const { return !!(Index & DecoratedItemIdMask); } bool isNoneType() const { return *this == None(); } uint32_t toArrayIndex() const { assert(!isSimple()); return (getIndex() & ~DecoratedItemIdMask) - FirstNonSimpleIndex; } static TypeIndex fromArrayIndex(uint32_t Index) { return TypeIndex(Index + FirstNonSimpleIndex); } static TypeIndex fromDecoratedArrayIndex(bool IsItem, uint32_t Index) { return TypeIndex((Index + FirstNonSimpleIndex) | (IsItem ? DecoratedItemIdMask : 0)); } TypeIndex removeDecoration() { return TypeIndex(Index & ~DecoratedItemIdMask); } SimpleTypeKind getSimpleKind() const { assert(isSimple()); return static_cast(Index & SimpleKindMask); } SimpleTypeMode getSimpleMode() const { assert(isSimple()); return static_cast(Index & SimpleModeMask); } TypeIndex makeDirect() const { return TypeIndex{getSimpleKind()}; } static TypeIndex None() { return TypeIndex(SimpleTypeKind::None); } static TypeIndex Void() { return TypeIndex(SimpleTypeKind::Void); } static TypeIndex VoidPointer32() { return TypeIndex(SimpleTypeKind::Void, SimpleTypeMode::NearPointer32); } static TypeIndex VoidPointer64() { return TypeIndex(SimpleTypeKind::Void, SimpleTypeMode::NearPointer64); } static TypeIndex NullptrT() { // std::nullptr_t uses the pointer mode that doesn't indicate bit-width, // presumably because std::nullptr_t is intended to be compatible with any // pointer type. return TypeIndex(SimpleTypeKind::Void, SimpleTypeMode::NearPointer); } static TypeIndex SignedCharacter() { return TypeIndex(SimpleTypeKind::SignedCharacter); } static TypeIndex UnsignedCharacter() { return TypeIndex(SimpleTypeKind::UnsignedCharacter); } static TypeIndex NarrowCharacter() { return TypeIndex(SimpleTypeKind::NarrowCharacter); } static TypeIndex WideCharacter() { return TypeIndex(SimpleTypeKind::WideCharacter); } static TypeIndex Int16Short() { return TypeIndex(SimpleTypeKind::Int16Short); } static TypeIndex UInt16Short() { return TypeIndex(SimpleTypeKind::UInt16Short); } static TypeIndex Int32() { return TypeIndex(SimpleTypeKind::Int32); } static TypeIndex UInt32() { return TypeIndex(SimpleTypeKind::UInt32); } static TypeIndex Int32Long() { return TypeIndex(SimpleTypeKind::Int32Long); } static TypeIndex UInt32Long() { return TypeIndex(SimpleTypeKind::UInt32Long); } static TypeIndex Int64() { return TypeIndex(SimpleTypeKind::Int64); } static TypeIndex UInt64() { return TypeIndex(SimpleTypeKind::UInt64); } static TypeIndex Int64Quad() { return TypeIndex(SimpleTypeKind::Int64Quad); } static TypeIndex UInt64Quad() { return TypeIndex(SimpleTypeKind::UInt64Quad); } static TypeIndex Float32() { return TypeIndex(SimpleTypeKind::Float32); } static TypeIndex Float64() { return TypeIndex(SimpleTypeKind::Float64); } TypeIndex &operator+=(unsigned N) { Index += N; return *this; } TypeIndex &operator++() { Index += 1; return *this; } TypeIndex operator++(int) { TypeIndex Copy = *this; operator++(); return Copy; } TypeIndex &operator-=(unsigned N) { assert(Index >= N); Index -= N; return *this; } TypeIndex &operator--() { Index -= 1; return *this; } TypeIndex operator--(int) { TypeIndex Copy = *this; operator--(); return Copy; } friend inline bool operator==(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() == B.getIndex(); } friend inline bool operator!=(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() != B.getIndex(); } friend inline bool operator<(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() < B.getIndex(); } friend inline bool operator<=(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() <= B.getIndex(); } friend inline bool operator>(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() > B.getIndex(); } friend inline bool operator>=(const TypeIndex &A, const TypeIndex &B) { return A.getIndex() >= B.getIndex(); } friend inline TypeIndex operator+(const TypeIndex &A, uint32_t N) { TypeIndex Result(A); Result += N; return Result; } friend inline TypeIndex operator-(const TypeIndex &A, uint32_t N) { assert(A.getIndex() >= N); TypeIndex Result(A); Result -= N; return Result; } friend inline uint32_t operator-(const TypeIndex &A, const TypeIndex &B) { assert(A >= B); return A.toArrayIndex() - B.toArrayIndex(); } static StringRef simpleTypeName(TypeIndex TI); private: support::ulittle32_t Index; }; // Used for pseudo-indexing an array of type records. An array of such records // sorted by TypeIndex can allow log(N) lookups even though such a type record // stream does not provide random access. struct TypeIndexOffset { TypeIndex Type; support::ulittle32_t Offset; }; void printTypeIndex(ScopedPrinter &Printer, StringRef FieldName, TypeIndex TI, TypeCollection &Types); } template <> struct DenseMapInfo { static inline codeview::TypeIndex getEmptyKey() { return codeview::TypeIndex{DenseMapInfo::getEmptyKey()}; } static inline codeview::TypeIndex getTombstoneKey() { return codeview::TypeIndex{DenseMapInfo::getTombstoneKey()}; } static unsigned getHashValue(const codeview::TypeIndex &TI) { return DenseMapInfo::getHashValue(TI.getIndex()); } static bool isEqual(const codeview::TypeIndex &LHS, const codeview::TypeIndex &RHS) { return LHS == RHS; } }; } // namespace llvm #endif