//===------------ Value.cpp - Definition of interpreter value -------------===// // // 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 class that used to represent a value in incremental // C++. // //===----------------------------------------------------------------------===// #include "clang/Interpreter/Value.h" #include "clang/AST/ASTContext.h" #include "clang/AST/Type.h" #include "clang/Interpreter/Interpreter.h" #include "llvm/ADT/StringExtras.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/raw_os_ostream.h" #include #include #include namespace { // This is internal buffer maintained by Value, used to hold temporaries. class ValueStorage { public: using DtorFunc = void (*)(void *); static unsigned char *CreatePayload(void *DtorF, size_t AllocSize, size_t ElementsSize) { if (AllocSize < sizeof(Canary)) AllocSize = sizeof(Canary); unsigned char *Buf = new unsigned char[ValueStorage::getPayloadOffset() + AllocSize]; ValueStorage *VS = new (Buf) ValueStorage(DtorF, AllocSize, ElementsSize); std::memcpy(VS->getPayload(), Canary, sizeof(Canary)); return VS->getPayload(); } unsigned char *getPayload() { return Storage; } const unsigned char *getPayload() const { return Storage; } static unsigned getPayloadOffset() { static ValueStorage Dummy(nullptr, 0, 0); return Dummy.getPayload() - reinterpret_cast(&Dummy); } static ValueStorage *getFromPayload(void *Payload) { ValueStorage *R = reinterpret_cast( (unsigned char *)Payload - getPayloadOffset()); return R; } void Retain() { ++RefCnt; } void Release() { assert(RefCnt > 0 && "Can't release if reference count is already zero"); if (--RefCnt == 0) { // We have a non-trivial dtor. if (Dtor && IsAlive()) { assert(Elements && "We at least should have 1 element in Value"); size_t Stride = AllocSize / Elements; for (size_t Idx = 0; Idx < Elements; ++Idx) (*Dtor)(getPayload() + Idx * Stride); } delete[] reinterpret_cast(this); } } // Check whether the storage is valid by validating the canary bits. // If someone accidentally write some invalid bits in the storage, the canary // will be changed first, and `IsAlive` will return false then. bool IsAlive() const { return std::memcmp(getPayload(), Canary, sizeof(Canary)) != 0; } private: ValueStorage(void *DtorF, size_t AllocSize, size_t ElementsNum) : RefCnt(1), Dtor(reinterpret_cast(DtorF)), AllocSize(AllocSize), Elements(ElementsNum) {} mutable unsigned RefCnt; DtorFunc Dtor = nullptr; size_t AllocSize = 0; size_t Elements = 0; unsigned char Storage[1]; // These are some canary bits that are used for protecting the storage been // damaged. static constexpr unsigned char Canary[8] = {0x4c, 0x37, 0xad, 0x8f, 0x2d, 0x23, 0x95, 0x91}; }; } // namespace namespace clang { static Value::Kind ConvertQualTypeToKind(const ASTContext &Ctx, QualType QT) { if (Ctx.hasSameType(QT, Ctx.VoidTy)) return Value::K_Void; if (const auto *ET = QT->getAs()) QT = ET->getDecl()->getIntegerType(); const auto *BT = QT->getAs(); if (!BT || BT->isNullPtrType()) return Value::K_PtrOrObj; switch (QT->castAs()->getKind()) { default: assert(false && "Type not supported"); return Value::K_Unspecified; #define X(type, name) \ case BuiltinType::name: \ return Value::K_##name; REPL_BUILTIN_TYPES #undef X } } Value::Value(Interpreter *In, void *Ty) : Interp(In), OpaqueType(Ty) { setKind(ConvertQualTypeToKind(getASTContext(), getType())); if (ValueKind == K_PtrOrObj) { QualType Canon = getType().getCanonicalType(); if ((Canon->isPointerType() || Canon->isObjectType() || Canon->isReferenceType()) && (Canon->isRecordType() || Canon->isConstantArrayType() || Canon->isMemberPointerType())) { IsManuallyAlloc = true; // Compile dtor function. Interpreter &Interp = getInterpreter(); void *DtorF = nullptr; size_t ElementsSize = 1; QualType DtorTy = getType(); if (const auto *ArrTy = llvm::dyn_cast(DtorTy.getTypePtr())) { DtorTy = ArrTy->getElementType(); llvm::APInt ArrSize(sizeof(size_t) * 8, 1); do { ArrSize *= ArrTy->getSize(); ArrTy = llvm::dyn_cast( ArrTy->getElementType().getTypePtr()); } while (ArrTy); ElementsSize = static_cast(ArrSize.getZExtValue()); } if (const auto *RT = DtorTy->getAs()) { if (CXXRecordDecl *CXXRD = llvm::dyn_cast(RT->getDecl())) { if (llvm::Expected Addr = Interp.CompileDtorCall(CXXRD)) DtorF = reinterpret_cast(Addr->getValue()); else llvm::logAllUnhandledErrors(Addr.takeError(), llvm::errs()); } } size_t AllocSize = getASTContext().getTypeSizeInChars(getType()).getQuantity(); unsigned char *Payload = ValueStorage::CreatePayload(DtorF, AllocSize, ElementsSize); setPtr((void *)Payload); } } } Value::Value(const Value &RHS) : Interp(RHS.Interp), OpaqueType(RHS.OpaqueType), Data(RHS.Data), ValueKind(RHS.ValueKind), IsManuallyAlloc(RHS.IsManuallyAlloc) { if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Retain(); } Value::Value(Value &&RHS) noexcept { Interp = std::exchange(RHS.Interp, nullptr); OpaqueType = std::exchange(RHS.OpaqueType, nullptr); Data = RHS.Data; ValueKind = std::exchange(RHS.ValueKind, K_Unspecified); IsManuallyAlloc = std::exchange(RHS.IsManuallyAlloc, false); if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Release(); } Value &Value::operator=(const Value &RHS) { if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Release(); Interp = RHS.Interp; OpaqueType = RHS.OpaqueType; Data = RHS.Data; ValueKind = RHS.ValueKind; IsManuallyAlloc = RHS.IsManuallyAlloc; if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Retain(); return *this; } Value &Value::operator=(Value &&RHS) noexcept { if (this != &RHS) { if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Release(); Interp = std::exchange(RHS.Interp, nullptr); OpaqueType = std::exchange(RHS.OpaqueType, nullptr); ValueKind = std::exchange(RHS.ValueKind, K_Unspecified); IsManuallyAlloc = std::exchange(RHS.IsManuallyAlloc, false); Data = RHS.Data; } return *this; } void Value::clear() { if (IsManuallyAlloc) ValueStorage::getFromPayload(getPtr())->Release(); ValueKind = K_Unspecified; OpaqueType = nullptr; Interp = nullptr; IsManuallyAlloc = false; } Value::~Value() { clear(); } void *Value::getPtr() const { assert(ValueKind == K_PtrOrObj); return Data.m_Ptr; } QualType Value::getType() const { return QualType::getFromOpaquePtr(OpaqueType); } Interpreter &Value::getInterpreter() { assert(Interp != nullptr && "Can't get interpreter from a default constructed value"); return *Interp; } const Interpreter &Value::getInterpreter() const { assert(Interp != nullptr && "Can't get interpreter from a default constructed value"); return *Interp; } ASTContext &Value::getASTContext() { return getInterpreter().getASTContext(); } const ASTContext &Value::getASTContext() const { return getInterpreter().getASTContext(); } void Value::dump() const { print(llvm::outs()); } void Value::printType(llvm::raw_ostream &Out) const { Out << "Not implement yet.\n"; } void Value::printData(llvm::raw_ostream &Out) const { Out << "Not implement yet.\n"; } void Value::print(llvm::raw_ostream &Out) const { assert(OpaqueType != nullptr && "Can't print default Value"); Out << "Not implement yet.\n"; } } // namespace clang