/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * * Copyright 2016 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // This is an INTERNAL header for Wasm baseline compiler: inline BaseCompiler // methods that don't fit in any other group in particular. #ifndef wasm_wasm_baseline_object_inl_h #define wasm_wasm_baseline_object_inl_h namespace js { namespace wasm { const FuncType& BaseCompiler::funcType() const { return *moduleEnv_.funcs[func_.index].type; } bool BaseCompiler::usesMemory() const { return moduleEnv_.memories.length() > 0; } bool BaseCompiler::usesSharedMemory(uint32_t memoryIndex) const { return moduleEnv_.usesSharedMemory(memoryIndex); } const Local& BaseCompiler::localFromSlot(uint32_t slot, MIRType type) { MOZ_ASSERT(localInfo_[slot].type == type); return localInfo_[slot]; } BytecodeOffset BaseCompiler::bytecodeOffset() const { return iter_.bytecodeOffset(); } bool BaseCompiler::isMem32(uint32_t memoryIndex) const { return moduleEnv_.memories[memoryIndex].indexType() == IndexType::I32; } bool BaseCompiler::isMem64(uint32_t memoryIndex) const { return moduleEnv_.memories[memoryIndex].indexType() == IndexType::I64; } bool BaseCompiler::hugeMemoryEnabled(uint32_t memoryIndex) const { return moduleEnv_.hugeMemoryEnabled(memoryIndex); } uint32_t BaseCompiler::instanceOffsetOfMemoryBase(uint32_t memoryIndex) const { if (memoryIndex == 0) { return Instance::offsetOfMemory0Base(); } return Instance::offsetInData( moduleEnv_.offsetOfMemoryInstanceData(memoryIndex) + offsetof(MemoryInstanceData, base)); } uint32_t BaseCompiler::instanceOffsetOfBoundsCheckLimit( uint32_t memoryIndex) const { if (memoryIndex == 0) { return Instance::offsetOfMemory0BoundsCheckLimit(); } return Instance::offsetInData( moduleEnv_.offsetOfMemoryInstanceData(memoryIndex) + offsetof(MemoryInstanceData, boundsCheckLimit)); } // The results parameter for BaseCompiler::emitCallArgs is used for // regular Wasm calls. struct NormalCallResults final { const StackResultsLoc& results; explicit NormalCallResults(const StackResultsLoc& results) : results(results) {} inline uint32_t onStackCount() const { return results.count(); } inline StackResults stackResults() const { return results.stackResults(); } inline void getStackResultArea(BaseStackFrame fr, RegPtr dest) const { fr.computeOutgoingStackResultAreaPtr(results, dest); } }; // The results parameter for BaseCompiler::emitCallArgs is used for // Wasm return/tail calls. struct TailCallResults final { bool hasStackResults; explicit TailCallResults(const FuncType& funcType) { hasStackResults = ABIResultIter::HasStackResults(ResultType::Vector(funcType.results())); } inline uint32_t onStackCount() const { return 0; } inline StackResults stackResults() const { return hasStackResults ? StackResults::HasStackResults : StackResults::NoStackResults; } inline void getStackResultArea(BaseStackFrame fr, RegPtr dest) const { fr.loadIncomingStackResultAreaPtr(dest); } }; // The results parameter for BaseCompiler::emitCallArgs is used when // no result (area) is expected. struct NoCallResults final { inline uint32_t onStackCount() const { return 0; } inline StackResults stackResults() const { return StackResults::NoStackResults; } inline void getStackResultArea(BaseStackFrame fr, RegPtr dest) const { MOZ_CRASH(); } }; } // namespace wasm } // namespace js #endif // wasm_wasm_baseline_object_inl_h