/* * Copyright (C) 2011 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_COMPILER_DEX_COMPILER_IR_H_ #define ART_COMPILER_DEX_COMPILER_IR_H_ #include "jni.h" #include <string> #include <vector> #include "arch/instruction_set.h" #include "base/arena_allocator.h" #include "base/scoped_arena_allocator.h" #include "base/timing_logger.h" #include "invoke_type.h" #include "safe_map.h" namespace art { class ClassLinker; class CompilerDriver; class DexFile; class Mir2Lir; class MIRGraph; constexpr size_t kOptionStringMaxLength = 2048; /** * Structure abstracting pass option values, which can be of type string or integer. */ struct OptionContent { OptionContent(const OptionContent& option) : type(option.type), container(option.container, option.type) {} explicit OptionContent(const char* value) : type(kString), container(value) {} explicit OptionContent(int value) : type(kInteger), container(value) {} explicit OptionContent(int64_t value) : type(kInteger), container(value) {} ~OptionContent() { if (type == kString) { container.StringDelete(); } } /** * Allows for a transparent display of the option content. */ friend std::ostream& operator<<(std::ostream& out, const OptionContent& option) { if (option.type == kString) { out << option.container.s; } else { out << option.container.i; } return out; } inline const char* GetString() const { return container.s; } inline int64_t GetInteger() const { return container.i; } /** * @brief Used to compare a string option value to a given @p value. * @details Will return whether the internal string option is equal to * the parameter @p value. It will return false if the type of the * object is not a string. * @param value The string to compare to. * @return Returns whether the internal string option is equal to the * parameter @p value. */ inline bool Equals(const char* value) const { DCHECK(value != nullptr); if (type != kString) { return false; } return !strncmp(container.s, value, kOptionStringMaxLength); } /** * @brief Used to compare an integer option value to a given @p value. * @details Will return whether the internal integer option is equal to * the parameter @p value. It will return false if the type of the * object is not an integer. * @param value The integer to compare to. * @return Returns whether the internal integer option is equal to the * parameter @p value. */ inline bool Equals(int64_t value) const { if (type != kInteger) { return false; } return container.i == value; } /** * Describes the type of parameters allowed as option values. */ enum OptionType { kString = 0, kInteger }; OptionType type; private: /** * Union containing the option value of either type. */ union OptionContainer { explicit OptionContainer(const OptionContainer& c, OptionType t) { if (t == kString) { DCHECK(c.s != nullptr); s = strndup(c.s, kOptionStringMaxLength); } else { i = c.i; } } explicit OptionContainer(const char* value) { DCHECK(value != nullptr); s = strndup(value, kOptionStringMaxLength); } explicit OptionContainer(int64_t value) : i(value) {} ~OptionContainer() {} void StringDelete() { if (s != nullptr) { free(s); } } char* s; int64_t i; }; OptionContainer container; }; struct CompilationUnit { CompilationUnit(ArenaPool* pool, InstructionSet isa, CompilerDriver* driver, ClassLinker* linker); ~CompilationUnit(); void StartTimingSplit(const char* label); void NewTimingSplit(const char* label); void EndTiming(); /* * Fields needed/generated by common frontend and generally used throughout * the compiler. */ CompilerDriver* const compiler_driver; ClassLinker* const class_linker; // Linker to resolve fields and methods. const DexFile* dex_file; // DexFile containing the method being compiled. jobject class_loader; // compiling method's class loader. uint16_t class_def_idx; // compiling method's defining class definition index. uint32_t method_idx; // compiling method's index into method_ids of DexFile. uint32_t access_flags; // compiling method's access flags. InvokeType invoke_type; // compiling method's invocation type. const char* shorty; // compiling method's shorty. uint32_t disable_opt; // opt_control_vector flags. uint32_t enable_debug; // debugControlVector flags. bool verbose; const InstructionSet instruction_set; const bool target64; // TODO: move memory management to mir_graph, or just switch to using standard containers. ArenaAllocator arena; ArenaStack arena_stack; // Arenas for ScopedArenaAllocator. std::unique_ptr<MIRGraph> mir_graph; // MIR container. std::unique_ptr<Mir2Lir> cg; // Target-specific codegen. TimingLogger timings; bool print_pass; // Do we want to print a pass or not? /** * @brief Holds pass options for current pass being applied to compilation unit. * @details This is updated for every pass to contain the overridden pass options * that were specified by user. The pass itself will check this to see if the * default settings have been changed. The key is simply the option string without * the pass name. */ SafeMap<const std::string, const OptionContent> overridden_pass_options; }; } // namespace art #endif // ART_COMPILER_DEX_COMPILER_IR_H_