//===--- InterpStack.cpp - Stack implementation for the VM ------*- 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 // //===----------------------------------------------------------------------===// #include "InterpStack.h" #include "Boolean.h" #include "Floating.h" #include "Integral.h" #include "Pointer.h" #include #include using namespace clang; using namespace clang::interp; InterpStack::~InterpStack() { clear(); } void InterpStack::clear() { if (Chunk && Chunk->Next) std::free(Chunk->Next); if (Chunk) std::free(Chunk); Chunk = nullptr; StackSize = 0; #ifndef NDEBUG ItemTypes.clear(); #endif } void *InterpStack::grow(size_t Size) { assert(Size < ChunkSize - sizeof(StackChunk) && "Object too large"); if (!Chunk || sizeof(StackChunk) + Chunk->size() + Size > ChunkSize) { if (Chunk && Chunk->Next) { Chunk = Chunk->Next; } else { StackChunk *Next = new (std::malloc(ChunkSize)) StackChunk(Chunk); if (Chunk) Chunk->Next = Next; Chunk = Next; } } auto *Object = reinterpret_cast(Chunk->End); Chunk->End += Size; StackSize += Size; return Object; } void *InterpStack::peekData(size_t Size) const { assert(Chunk && "Stack is empty!"); StackChunk *Ptr = Chunk; while (Size > Ptr->size()) { Size -= Ptr->size(); Ptr = Ptr->Prev; assert(Ptr && "Offset too large"); } return reinterpret_cast(Ptr->End - Size); } void InterpStack::shrink(size_t Size) { assert(Chunk && "Chunk is empty!"); while (Size > Chunk->size()) { Size -= Chunk->size(); if (Chunk->Next) { std::free(Chunk->Next); Chunk->Next = nullptr; } Chunk->End = Chunk->start(); Chunk = Chunk->Prev; assert(Chunk && "Offset too large"); } Chunk->End -= Size; StackSize -= Size; } void InterpStack::dump() const { #ifndef NDEBUG llvm::errs() << "Items: " << ItemTypes.size() << ". Size: " << size() << '\n'; if (ItemTypes.empty()) return; size_t Index = 0; size_t Offset = 0; // The type of the item on the top of the stack is inserted to the back // of the vector, so the iteration has to happen backwards. for (auto TyIt = ItemTypes.rbegin(); TyIt != ItemTypes.rend(); ++TyIt) { Offset += align(primSize(*TyIt)); llvm::errs() << Index << '/' << Offset << ": "; TYPE_SWITCH(*TyIt, { const T &V = peek(Offset); llvm::errs() << V; }); llvm::errs() << '\n'; ++Index; } #endif }