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|
#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===--- APValue.h - Union class for APFloat/APSInt/Complex -----*- 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
//
//===----------------------------------------------------------------------===//
//
// This file defines the APValue class.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_AST_APVALUE_H
#define LLVM_CLANG_AST_APVALUE_H
#include "clang/Basic/LLVM.h"
#include "llvm/ADT/APFixedPoint.h"
#include "llvm/ADT/APFloat.h"
#include "llvm/ADT/APSInt.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/PointerIntPair.h"
#include "llvm/ADT/PointerUnion.h"
#include "llvm/Support/AlignOf.h"
namespace clang {
namespace serialization {
template <typename T> class BasicReaderBase;
} // end namespace serialization
class AddrLabelExpr;
class ASTContext;
class CharUnits;
class CXXRecordDecl;
class Decl;
class DiagnosticBuilder;
class Expr;
class FieldDecl;
struct PrintingPolicy;
class Type;
class ValueDecl;
class QualType;
/// Symbolic representation of typeid(T) for some type T.
class TypeInfoLValue {
const Type *T;
public:
TypeInfoLValue() : T() {}
explicit TypeInfoLValue(const Type *T);
const Type *getType() const { return T; }
explicit operator bool() const { return T; }
void *getOpaqueValue() { return const_cast<Type*>(T); }
static TypeInfoLValue getFromOpaqueValue(void *Value) {
TypeInfoLValue V;
V.T = reinterpret_cast<const Type*>(Value);
return V;
}
void print(llvm::raw_ostream &Out, const PrintingPolicy &Policy) const;
};
/// Symbolic representation of a dynamic allocation.
class DynamicAllocLValue {
unsigned Index;
public:
DynamicAllocLValue() : Index(0) {}
explicit DynamicAllocLValue(unsigned Index) : Index(Index + 1) {}
unsigned getIndex() { return Index - 1; }
explicit operator bool() const { return Index != 0; }
void *getOpaqueValue() {
return reinterpret_cast<void *>(static_cast<uintptr_t>(Index)
<< NumLowBitsAvailable);
}
static DynamicAllocLValue getFromOpaqueValue(void *Value) {
DynamicAllocLValue V;
V.Index = reinterpret_cast<uintptr_t>(Value) >> NumLowBitsAvailable;
return V;
}
static unsigned getMaxIndex() {
return (std::numeric_limits<unsigned>::max() >> NumLowBitsAvailable) - 1;
}
static constexpr int NumLowBitsAvailable = 3;
};
}
namespace llvm {
template<> struct PointerLikeTypeTraits<clang::TypeInfoLValue> {
static void *getAsVoidPointer(clang::TypeInfoLValue V) {
return V.getOpaqueValue();
}
static clang::TypeInfoLValue getFromVoidPointer(void *P) {
return clang::TypeInfoLValue::getFromOpaqueValue(P);
}
// Validated by static_assert in APValue.cpp; hardcoded to avoid needing
// to include Type.h.
static constexpr int NumLowBitsAvailable = 3;
};
template<> struct PointerLikeTypeTraits<clang::DynamicAllocLValue> {
static void *getAsVoidPointer(clang::DynamicAllocLValue V) {
return V.getOpaqueValue();
}
static clang::DynamicAllocLValue getFromVoidPointer(void *P) {
return clang::DynamicAllocLValue::getFromOpaqueValue(P);
}
static constexpr int NumLowBitsAvailable =
clang::DynamicAllocLValue::NumLowBitsAvailable;
};
}
namespace clang {
/// APValue - This class implements a discriminated union of [uninitialized]
/// [APSInt] [APFloat], [Complex APSInt] [Complex APFloat], [Expr + Offset],
/// [Vector: N * APValue], [Array: N * APValue]
class APValue {
typedef llvm::APFixedPoint APFixedPoint;
typedef llvm::APSInt APSInt;
typedef llvm::APFloat APFloat;
public:
enum ValueKind {
/// There is no such object (it's outside its lifetime).
None,
/// This object has an indeterminate value (C++ [basic.indet]).
Indeterminate,
Int,
Float,
FixedPoint,
ComplexInt,
ComplexFloat,
LValue,
Vector,
Array,
Struct,
Union,
MemberPointer,
AddrLabelDiff
};
class LValueBase {
typedef llvm::PointerUnion<const ValueDecl *, const Expr *, TypeInfoLValue,
DynamicAllocLValue>
PtrTy;
public:
LValueBase() : Local{} {}
LValueBase(const ValueDecl *P, unsigned I = 0, unsigned V = 0);
LValueBase(const Expr *P, unsigned I = 0, unsigned V = 0);
static LValueBase getDynamicAlloc(DynamicAllocLValue LV, QualType Type);
static LValueBase getTypeInfo(TypeInfoLValue LV, QualType TypeInfo);
void Profile(llvm::FoldingSetNodeID &ID) const;
template <class T>
bool is() const { return Ptr.is<T>(); }
template <class T>
T get() const { return Ptr.get<T>(); }
template <class T>
T dyn_cast() const { return Ptr.dyn_cast<T>(); }
void *getOpaqueValue() const;
bool isNull() const;
explicit operator bool() const;
unsigned getCallIndex() const;
unsigned getVersion() const;
QualType getTypeInfoType() const;
QualType getDynamicAllocType() const;
QualType getType() const;
friend bool operator==(const LValueBase &LHS, const LValueBase &RHS);
friend bool operator!=(const LValueBase &LHS, const LValueBase &RHS) {
return !(LHS == RHS);
}
friend llvm::hash_code hash_value(const LValueBase &Base);
friend struct llvm::DenseMapInfo<LValueBase>;
private:
PtrTy Ptr;
struct LocalState {
unsigned CallIndex, Version;
};
union {
LocalState Local;
/// The type std::type_info, if this is a TypeInfoLValue.
void *TypeInfoType;
/// The QualType, if this is a DynamicAllocLValue.
void *DynamicAllocType;
};
};
/// A FieldDecl or CXXRecordDecl, along with a flag indicating whether we
/// mean a virtual or non-virtual base class subobject.
typedef llvm::PointerIntPair<const Decl *, 1, bool> BaseOrMemberType;
/// A non-discriminated union of a base, field, or array index.
class LValuePathEntry {
static_assert(sizeof(uintptr_t) <= sizeof(uint64_t),
"pointer doesn't fit in 64 bits?");
uint64_t Value;
public:
LValuePathEntry() : Value() {}
LValuePathEntry(BaseOrMemberType BaseOrMember);
static LValuePathEntry ArrayIndex(uint64_t Index) {
LValuePathEntry Result;
Result.Value = Index;
return Result;
}
BaseOrMemberType getAsBaseOrMember() const {
return BaseOrMemberType::getFromOpaqueValue(
reinterpret_cast<void *>(Value));
}
uint64_t getAsArrayIndex() const { return Value; }
void Profile(llvm::FoldingSetNodeID &ID) const;
friend bool operator==(LValuePathEntry A, LValuePathEntry B) {
return A.Value == B.Value;
}
friend bool operator!=(LValuePathEntry A, LValuePathEntry B) {
return A.Value != B.Value;
}
friend llvm::hash_code hash_value(LValuePathEntry A) {
return llvm::hash_value(A.Value);
}
};
class LValuePathSerializationHelper {
const void *Ty;
public:
ArrayRef<LValuePathEntry> Path;
LValuePathSerializationHelper(ArrayRef<LValuePathEntry>, QualType);
QualType getType();
};
struct NoLValuePath {};
struct UninitArray {};
struct UninitStruct {};
template <typename Impl> friend class clang::serialization::BasicReaderBase;
friend class ASTImporter;
friend class ASTNodeImporter;
private:
ValueKind Kind;
struct ComplexAPSInt {
APSInt Real, Imag;
ComplexAPSInt() : Real(1), Imag(1) {}
};
struct ComplexAPFloat {
APFloat Real, Imag;
ComplexAPFloat() : Real(0.0), Imag(0.0) {}
};
struct LV;
struct Vec {
APValue *Elts;
unsigned NumElts;
Vec() : Elts(nullptr), NumElts(0) {}
~Vec() { delete[] Elts; }
};
struct Arr {
APValue *Elts;
unsigned NumElts, ArrSize;
Arr(unsigned NumElts, unsigned ArrSize);
~Arr();
};
struct StructData {
APValue *Elts;
unsigned NumBases;
unsigned NumFields;
StructData(unsigned NumBases, unsigned NumFields);
~StructData();
};
struct UnionData {
const FieldDecl *Field;
APValue *Value;
UnionData();
~UnionData();
};
struct AddrLabelDiffData {
const AddrLabelExpr* LHSExpr;
const AddrLabelExpr* RHSExpr;
};
struct MemberPointerData;
// We ensure elsewhere that Data is big enough for LV and MemberPointerData.
typedef llvm::AlignedCharArrayUnion<void *, APSInt, APFloat, ComplexAPSInt,
ComplexAPFloat, Vec, Arr, StructData,
UnionData, AddrLabelDiffData> DataType;
static const size_t DataSize = sizeof(DataType);
DataType Data;
public:
APValue() : Kind(None) {}
explicit APValue(APSInt I) : Kind(None) {
MakeInt(); setInt(std::move(I));
}
explicit APValue(APFloat F) : Kind(None) {
MakeFloat(); setFloat(std::move(F));
}
explicit APValue(APFixedPoint FX) : Kind(None) {
MakeFixedPoint(std::move(FX));
}
explicit APValue(const APValue *E, unsigned N) : Kind(None) {
MakeVector(); setVector(E, N);
}
APValue(APSInt R, APSInt I) : Kind(None) {
MakeComplexInt(); setComplexInt(std::move(R), std::move(I));
}
APValue(APFloat R, APFloat I) : Kind(None) {
MakeComplexFloat(); setComplexFloat(std::move(R), std::move(I));
}
APValue(const APValue &RHS);
APValue(APValue &&RHS);
APValue(LValueBase B, const CharUnits &O, NoLValuePath N,
bool IsNullPtr = false)
: Kind(None) {
MakeLValue(); setLValue(B, O, N, IsNullPtr);
}
APValue(LValueBase B, const CharUnits &O, ArrayRef<LValuePathEntry> Path,
bool OnePastTheEnd, bool IsNullPtr = false)
: Kind(None) {
MakeLValue(); setLValue(B, O, Path, OnePastTheEnd, IsNullPtr);
}
APValue(UninitArray, unsigned InitElts, unsigned Size) : Kind(None) {
MakeArray(InitElts, Size);
}
APValue(UninitStruct, unsigned B, unsigned M) : Kind(None) {
MakeStruct(B, M);
}
explicit APValue(const FieldDecl *D, const APValue &V = APValue())
: Kind(None) {
MakeUnion(); setUnion(D, V);
}
APValue(const ValueDecl *Member, bool IsDerivedMember,
ArrayRef<const CXXRecordDecl*> Path) : Kind(None) {
MakeMemberPointer(Member, IsDerivedMember, Path);
}
APValue(const AddrLabelExpr* LHSExpr, const AddrLabelExpr* RHSExpr)
: Kind(None) {
MakeAddrLabelDiff(); setAddrLabelDiff(LHSExpr, RHSExpr);
}
static APValue IndeterminateValue() {
APValue Result;
Result.Kind = Indeterminate;
return Result;
}
APValue &operator=(const APValue &RHS);
APValue &operator=(APValue &&RHS);
~APValue() {
if (Kind != None && Kind != Indeterminate)
DestroyDataAndMakeUninit();
}
/// Returns whether the object performed allocations.
///
/// If APValues are constructed via placement new, \c needsCleanup()
/// indicates whether the destructor must be called in order to correctly
/// free all allocated memory.
bool needsCleanup() const;
/// Swaps the contents of this and the given APValue.
void swap(APValue &RHS);
/// profile this value. There is no guarantee that values of different
/// types will not produce the same profiled value, so the type should
/// typically also be profiled if it's not implied by the context.
void Profile(llvm::FoldingSetNodeID &ID) const;
ValueKind getKind() const { return Kind; }
bool isAbsent() const { return Kind == None; }
bool isIndeterminate() const { return Kind == Indeterminate; }
bool hasValue() const { return Kind != None && Kind != Indeterminate; }
bool isInt() const { return Kind == Int; }
bool isFloat() const { return Kind == Float; }
bool isFixedPoint() const { return Kind == FixedPoint; }
bool isComplexInt() const { return Kind == ComplexInt; }
bool isComplexFloat() const { return Kind == ComplexFloat; }
bool isLValue() const { return Kind == LValue; }
bool isVector() const { return Kind == Vector; }
bool isArray() const { return Kind == Array; }
bool isStruct() const { return Kind == Struct; }
bool isUnion() const { return Kind == Union; }
bool isMemberPointer() const { return Kind == MemberPointer; }
bool isAddrLabelDiff() const { return Kind == AddrLabelDiff; }
void dump() const;
void dump(raw_ostream &OS, const ASTContext &Context) const;
void printPretty(raw_ostream &OS, const ASTContext &Ctx, QualType Ty) const;
void printPretty(raw_ostream &OS, const PrintingPolicy &Policy, QualType Ty,
const ASTContext *Ctx = nullptr) const;
std::string getAsString(const ASTContext &Ctx, QualType Ty) const;
APSInt &getInt() {
assert(isInt() && "Invalid accessor");
return *(APSInt *)(char *)&Data;
}
const APSInt &getInt() const {
return const_cast<APValue*>(this)->getInt();
}
/// Try to convert this value to an integral constant. This works if it's an
/// integer, null pointer, or offset from a null pointer. Returns true on
/// success.
bool toIntegralConstant(APSInt &Result, QualType SrcTy,
const ASTContext &Ctx) const;
APFloat &getFloat() {
assert(isFloat() && "Invalid accessor");
return *(APFloat *)(char *)&Data;
}
const APFloat &getFloat() const {
return const_cast<APValue*>(this)->getFloat();
}
APFixedPoint &getFixedPoint() {
assert(isFixedPoint() && "Invalid accessor");
return *(APFixedPoint *)(char *)&Data;
}
const APFixedPoint &getFixedPoint() const {
return const_cast<APValue *>(this)->getFixedPoint();
}
APSInt &getComplexIntReal() {
assert(isComplexInt() && "Invalid accessor");
return ((ComplexAPSInt *)(char *)&Data)->Real;
}
const APSInt &getComplexIntReal() const {
return const_cast<APValue*>(this)->getComplexIntReal();
}
APSInt &getComplexIntImag() {
assert(isComplexInt() && "Invalid accessor");
return ((ComplexAPSInt *)(char *)&Data)->Imag;
}
const APSInt &getComplexIntImag() const {
return const_cast<APValue*>(this)->getComplexIntImag();
}
APFloat &getComplexFloatReal() {
assert(isComplexFloat() && "Invalid accessor");
return ((ComplexAPFloat *)(char *)&Data)->Real;
}
const APFloat &getComplexFloatReal() const {
return const_cast<APValue*>(this)->getComplexFloatReal();
}
APFloat &getComplexFloatImag() {
assert(isComplexFloat() && "Invalid accessor");
return ((ComplexAPFloat *)(char *)&Data)->Imag;
}
const APFloat &getComplexFloatImag() const {
return const_cast<APValue*>(this)->getComplexFloatImag();
}
const LValueBase getLValueBase() const;
CharUnits &getLValueOffset();
const CharUnits &getLValueOffset() const {
return const_cast<APValue*>(this)->getLValueOffset();
}
bool isLValueOnePastTheEnd() const;
bool hasLValuePath() const;
ArrayRef<LValuePathEntry> getLValuePath() const;
unsigned getLValueCallIndex() const;
unsigned getLValueVersion() const;
bool isNullPointer() const;
APValue &getVectorElt(unsigned I) {
assert(isVector() && "Invalid accessor");
assert(I < getVectorLength() && "Index out of range");
return ((Vec *)(char *)&Data)->Elts[I];
}
const APValue &getVectorElt(unsigned I) const {
return const_cast<APValue*>(this)->getVectorElt(I);
}
unsigned getVectorLength() const {
assert(isVector() && "Invalid accessor");
return ((const Vec *)(const void *)&Data)->NumElts;
}
APValue &getArrayInitializedElt(unsigned I) {
assert(isArray() && "Invalid accessor");
assert(I < getArrayInitializedElts() && "Index out of range");
return ((Arr *)(char *)&Data)->Elts[I];
}
const APValue &getArrayInitializedElt(unsigned I) const {
return const_cast<APValue*>(this)->getArrayInitializedElt(I);
}
bool hasArrayFiller() const {
return getArrayInitializedElts() != getArraySize();
}
APValue &getArrayFiller() {
assert(isArray() && "Invalid accessor");
assert(hasArrayFiller() && "No array filler");
return ((Arr *)(char *)&Data)->Elts[getArrayInitializedElts()];
}
const APValue &getArrayFiller() const {
return const_cast<APValue*>(this)->getArrayFiller();
}
unsigned getArrayInitializedElts() const {
assert(isArray() && "Invalid accessor");
return ((const Arr *)(const void *)&Data)->NumElts;
}
unsigned getArraySize() const {
assert(isArray() && "Invalid accessor");
return ((const Arr *)(const void *)&Data)->ArrSize;
}
unsigned getStructNumBases() const {
assert(isStruct() && "Invalid accessor");
return ((const StructData *)(const char *)&Data)->NumBases;
}
unsigned getStructNumFields() const {
assert(isStruct() && "Invalid accessor");
return ((const StructData *)(const char *)&Data)->NumFields;
}
APValue &getStructBase(unsigned i) {
assert(isStruct() && "Invalid accessor");
assert(i < getStructNumBases() && "base class index OOB");
return ((StructData *)(char *)&Data)->Elts[i];
}
APValue &getStructField(unsigned i) {
assert(isStruct() && "Invalid accessor");
assert(i < getStructNumFields() && "field index OOB");
return ((StructData *)(char *)&Data)->Elts[getStructNumBases() + i];
}
const APValue &getStructBase(unsigned i) const {
return const_cast<APValue*>(this)->getStructBase(i);
}
const APValue &getStructField(unsigned i) const {
return const_cast<APValue*>(this)->getStructField(i);
}
const FieldDecl *getUnionField() const {
assert(isUnion() && "Invalid accessor");
return ((const UnionData *)(const char *)&Data)->Field;
}
APValue &getUnionValue() {
assert(isUnion() && "Invalid accessor");
return *((UnionData *)(char *)&Data)->Value;
}
const APValue &getUnionValue() const {
return const_cast<APValue*>(this)->getUnionValue();
}
const ValueDecl *getMemberPointerDecl() const;
bool isMemberPointerToDerivedMember() const;
ArrayRef<const CXXRecordDecl*> getMemberPointerPath() const;
const AddrLabelExpr* getAddrLabelDiffLHS() const {
assert(isAddrLabelDiff() && "Invalid accessor");
return ((const AddrLabelDiffData *)(const char *)&Data)->LHSExpr;
}
const AddrLabelExpr* getAddrLabelDiffRHS() const {
assert(isAddrLabelDiff() && "Invalid accessor");
return ((const AddrLabelDiffData *)(const char *)&Data)->RHSExpr;
}
void setInt(APSInt I) {
assert(isInt() && "Invalid accessor");
*(APSInt *)(char *)&Data = std::move(I);
}
void setFloat(APFloat F) {
assert(isFloat() && "Invalid accessor");
*(APFloat *)(char *)&Data = std::move(F);
}
void setFixedPoint(APFixedPoint FX) {
assert(isFixedPoint() && "Invalid accessor");
*(APFixedPoint *)(char *)&Data = std::move(FX);
}
void setVector(const APValue *E, unsigned N) {
MutableArrayRef<APValue> InternalElts = setVectorUninit(N);
for (unsigned i = 0; i != N; ++i)
InternalElts[i] = E[i];
}
void setComplexInt(APSInt R, APSInt I) {
assert(R.getBitWidth() == I.getBitWidth() &&
"Invalid complex int (type mismatch).");
assert(isComplexInt() && "Invalid accessor");
((ComplexAPSInt *)(char *)&Data)->Real = std::move(R);
((ComplexAPSInt *)(char *)&Data)->Imag = std::move(I);
}
void setComplexFloat(APFloat R, APFloat I) {
assert(&R.getSemantics() == &I.getSemantics() &&
"Invalid complex float (type mismatch).");
assert(isComplexFloat() && "Invalid accessor");
((ComplexAPFloat *)(char *)&Data)->Real = std::move(R);
((ComplexAPFloat *)(char *)&Data)->Imag = std::move(I);
}
void setLValue(LValueBase B, const CharUnits &O, NoLValuePath,
bool IsNullPtr);
void setLValue(LValueBase B, const CharUnits &O,
ArrayRef<LValuePathEntry> Path, bool OnePastTheEnd,
bool IsNullPtr);
void setUnion(const FieldDecl *Field, const APValue &Value);
void setAddrLabelDiff(const AddrLabelExpr* LHSExpr,
const AddrLabelExpr* RHSExpr) {
((AddrLabelDiffData *)(char *)&Data)->LHSExpr = LHSExpr;
((AddrLabelDiffData *)(char *)&Data)->RHSExpr = RHSExpr;
}
private:
void DestroyDataAndMakeUninit();
void MakeInt() {
assert(isAbsent() && "Bad state change");
new ((void *)&Data) APSInt(1);
Kind = Int;
}
void MakeFloat() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) APFloat(0.0);
Kind = Float;
}
void MakeFixedPoint(APFixedPoint &&FX) {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) APFixedPoint(std::move(FX));
Kind = FixedPoint;
}
void MakeVector() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) Vec();
Kind = Vector;
}
void MakeComplexInt() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) ComplexAPSInt();
Kind = ComplexInt;
}
void MakeComplexFloat() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) ComplexAPFloat();
Kind = ComplexFloat;
}
void MakeLValue();
void MakeArray(unsigned InitElts, unsigned Size);
void MakeStruct(unsigned B, unsigned M) {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) StructData(B, M);
Kind = Struct;
}
void MakeUnion() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) UnionData();
Kind = Union;
}
void MakeMemberPointer(const ValueDecl *Member, bool IsDerivedMember,
ArrayRef<const CXXRecordDecl*> Path);
void MakeAddrLabelDiff() {
assert(isAbsent() && "Bad state change");
new ((void *)(char *)&Data) AddrLabelDiffData();
Kind = AddrLabelDiff;
}
private:
/// The following functions are used as part of initialization, during
/// deserialization and importing. Reserve the space so that it can be
/// filled in by those steps.
MutableArrayRef<APValue> setVectorUninit(unsigned N) {
assert(isVector() && "Invalid accessor");
Vec *V = ((Vec *)(char *)&Data);
V->Elts = new APValue[N];
V->NumElts = N;
return {V->Elts, V->NumElts};
}
MutableArrayRef<LValuePathEntry>
setLValueUninit(LValueBase B, const CharUnits &O, unsigned Size,
bool OnePastTheEnd, bool IsNullPtr);
MutableArrayRef<const CXXRecordDecl *>
setMemberPointerUninit(const ValueDecl *Member, bool IsDerivedMember,
unsigned Size);
};
} // end namespace clang.
namespace llvm {
template<> struct DenseMapInfo<clang::APValue::LValueBase> {
static clang::APValue::LValueBase getEmptyKey();
static clang::APValue::LValueBase getTombstoneKey();
static unsigned getHashValue(const clang::APValue::LValueBase &Base);
static bool isEqual(const clang::APValue::LValueBase &LHS,
const clang::APValue::LValueBase &RHS);
};
}
#endif
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
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