/* * Copyright (C) 2014 The Android Open Source Project * * 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. */ #ifndef ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_ #define ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_ #include "base/macros.h" #include "base/mutex.h" #include "dex_file.h" #include "dex_instruction.h" #include "method_reference.h" /* * NOTE: This code is part of the quick compiler. It lives in the runtime * only to allow the debugger to check whether a method has been inlined. */ namespace art { namespace verifier { class MethodVerifier; } // namespace verifier enum InlineMethodOpcode : uint16_t { kIntrinsicDoubleCvt, kIntrinsicFloatCvt, kIntrinsicReverseBits, kIntrinsicReverseBytes, kIntrinsicAbsInt, kIntrinsicAbsLong, kIntrinsicAbsFloat, kIntrinsicAbsDouble, kIntrinsicMinMaxInt, kIntrinsicMinMaxLong, kIntrinsicMinMaxFloat, kIntrinsicMinMaxDouble, kIntrinsicSqrt, kIntrinsicCeil, kIntrinsicFloor, kIntrinsicRint, kIntrinsicRoundFloat, kIntrinsicRoundDouble, kIntrinsicReferenceGetReferent, kIntrinsicCharAt, kIntrinsicCompareTo, kIntrinsicIsEmptyOrLength, kIntrinsicIndexOf, kIntrinsicCurrentThread, kIntrinsicPeek, kIntrinsicPoke, kIntrinsicCas, kIntrinsicUnsafeGet, kIntrinsicUnsafePut, kIntrinsicSystemArrayCopyCharArray, kInlineOpNop, kInlineOpReturnArg, kInlineOpNonWideConst, kInlineOpIGet, kInlineOpIPut, }; std::ostream& operator<<(std::ostream& os, const InlineMethodOpcode& rhs); enum InlineMethodFlags : uint16_t { kNoInlineMethodFlags = 0x0000, kInlineIntrinsic = 0x0001, kInlineSpecial = 0x0002, }; // IntrinsicFlags are stored in InlineMethod::d::raw_data enum IntrinsicFlags { kIntrinsicFlagNone = 0, // kIntrinsicMinMaxInt kIntrinsicFlagMax = kIntrinsicFlagNone, kIntrinsicFlagMin = 1, // kIntrinsicIsEmptyOrLength kIntrinsicFlagLength = kIntrinsicFlagNone, kIntrinsicFlagIsEmpty = kIntrinsicFlagMin, // kIntrinsicIndexOf kIntrinsicFlagBase0 = kIntrinsicFlagMin, // kIntrinsicUnsafeGet, kIntrinsicUnsafePut, kIntrinsicUnsafeCas kIntrinsicFlagIsLong = kIntrinsicFlagMin, // kIntrinsicUnsafeGet, kIntrinsicUnsafePut kIntrinsicFlagIsVolatile = 2, // kIntrinsicUnsafePut, kIntrinsicUnsafeCas kIntrinsicFlagIsObject = 4, // kIntrinsicUnsafePut kIntrinsicFlagIsOrdered = 8, }; struct InlineIGetIPutData { // The op_variant below is opcode-Instruction::IGET for IGETs and // opcode-Instruction::IPUT for IPUTs. This is because the runtime // doesn't know the OpSize enumeration. uint16_t op_variant : 3; uint16_t method_is_static : 1; uint16_t object_arg : 4; uint16_t src_arg : 4; // iput only uint16_t return_arg_plus1 : 4; // iput only, method argument to return + 1, 0 = return void. uint16_t field_idx; uint32_t is_volatile : 1; uint32_t field_offset : 31; }; COMPILE_ASSERT(sizeof(InlineIGetIPutData) == sizeof(uint64_t), InvalidSizeOfInlineIGetIPutData); struct InlineReturnArgData { uint16_t arg; uint16_t is_wide : 1; uint16_t is_object : 1; uint16_t reserved : 14; uint32_t reserved2; }; COMPILE_ASSERT(sizeof(InlineReturnArgData) == sizeof(uint64_t), InvalidSizeOfInlineReturnArgData); struct InlineMethod { InlineMethodOpcode opcode; InlineMethodFlags flags; union { uint64_t data; InlineIGetIPutData ifield_data; InlineReturnArgData return_data; } d; }; class InlineMethodAnalyser { public: /** * Analyse method code to determine if the method is a candidate for inlining. * If it is, record the inlining data. * * @param verifier the method verifier holding data about the method to analyse. * @param method placeholder for the inline method data. * @return true if the method is a candidate for inlining, false otherwise. */ static bool AnalyseMethodCode(verifier::MethodVerifier* verifier, InlineMethod* method) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); static constexpr bool IsInstructionIGet(Instruction::Code opcode) { return Instruction::IGET <= opcode && opcode <= Instruction::IGET_SHORT; } static constexpr bool IsInstructionIPut(Instruction::Code opcode) { return Instruction::IPUT <= opcode && opcode <= Instruction::IPUT_SHORT; } static constexpr uint16_t IGetVariant(Instruction::Code opcode) { return opcode - Instruction::IGET; } static constexpr uint16_t IPutVariant(Instruction::Code opcode) { return opcode - Instruction::IPUT; } // Determines whether the method is a synthetic accessor (method name starts with "access$"). static bool IsSyntheticAccessor(MethodReference ref); private: static bool AnalyseReturnMethod(const DexFile::CodeItem* code_item, InlineMethod* result); static bool AnalyseConstMethod(const DexFile::CodeItem* code_item, InlineMethod* result); static bool AnalyseIGetMethod(verifier::MethodVerifier* verifier, InlineMethod* result) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); static bool AnalyseIPutMethod(verifier::MethodVerifier* verifier, InlineMethod* result) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); // Can we fast path instance field access in a verified accessor? // If yes, computes field's offset and volatility and whether the method is static or not. static bool ComputeSpecialAccessorInfo(uint32_t field_idx, bool is_put, verifier::MethodVerifier* verifier, InlineIGetIPutData* result) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_); }; } // namespace art #endif // ART_RUNTIME_QUICK_INLINE_METHOD_ANALYSER_H_