// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file // for details. All rights reserved. Use of this source code is governed by a // BSD-style license that can be found in the LICENSE file. #ifndef RUNTIME_VM_BENCHMARK_TEST_H_ #define RUNTIME_VM_BENCHMARK_TEST_H_ #include "include/dart_api.h" #include "vm/dart.h" #include "vm/globals.h" #include "vm/isolate.h" #include "vm/malloc_hooks.h" #include "vm/object.h" #include "vm/unit_test.h" #include "vm/zone.h" namespace dart { DECLARE_FLAG(int, code_heap_size); DECLARE_FLAG(int, old_gen_growth_space_ratio); namespace bin { // Snapshot pieces if we link in a snapshot, otherwise initialized to NULL. extern const uint8_t* vm_snapshot_data; extern const uint8_t* vm_snapshot_instructions; extern const uint8_t* core_isolate_snapshot_data; extern const uint8_t* core_isolate_snapshot_instructions; } // namespace bin // The BENCHMARK macros are used for benchmarking a specific functionality // of the VM. #define BENCHMARK_HELPER(name, kind) \ void Dart_Benchmark##name(Benchmark* benchmark); \ static Benchmark kRegister##name(Dart_Benchmark##name, #name, kind); \ static void Dart_BenchmarkHelper##name(Benchmark* benchmark, \ Thread* thread); \ void Dart_Benchmark##name(Benchmark* benchmark) { \ bool __stack_trace_collection_enabled__ = \ MallocHooks::stack_trace_collection_enabled(); \ MallocHooks::set_stack_trace_collection_enabled(false); \ FLAG_old_gen_growth_space_ratio = 100; \ BenchmarkIsolateScope __isolate__(benchmark); \ Thread* __thread__ = Thread::Current(); \ ASSERT(__thread__->isolate() == benchmark->isolate()); \ Dart_BenchmarkHelper##name(benchmark, __thread__); \ MallocHooks::set_stack_trace_collection_enabled( \ __stack_trace_collection_enabled__); \ } \ static void Dart_BenchmarkHelper##name(Benchmark* benchmark, Thread* thread) #define BENCHMARK(name) BENCHMARK_HELPER(name, "RunTime") #define BENCHMARK_SIZE(name) BENCHMARK_HELPER(name, "CodeSize") #define BENCHMARK_MEMORY(name) BENCHMARK_HELPER(name, "MemoryUse") inline Dart_Handle NewString(const char* str) { return Dart_NewStringFromCString(str); } class Benchmark { public: typedef void(RunEntry)(Benchmark* benchmark); Benchmark(RunEntry* run, const char* name, const char* score_kind) : run_(run), name_(name), score_kind_(score_kind), score_(0), isolate_(NULL), next_(NULL) { if (first_ == NULL) { first_ = this; } else { tail_->next_ = this; } tail_ = this; } // Accessors. const char* name() const { return name_; } const char* score_kind() const { return score_kind_; } void set_score(int64_t value) { score_ = value; } int64_t score() const { return score_; } Isolate* isolate() const { return reinterpret_cast(isolate_); } void Run() { (*run_)(this); } void RunBenchmark(); static void RunAll(const char* executable); static void SetExecutable(const char* arg) { executable_ = arg; } static const char* Executable() { return executable_; } void CreateIsolate() { isolate_ = TestCase::CreateTestIsolate(); EXPECT(isolate_ != NULL); } private: static Benchmark* first_; static Benchmark* tail_; static const char* executable_; RunEntry* const run_; const char* name_; const char* score_kind_; int64_t score_; Dart_Isolate isolate_; Benchmark* next_; DISALLOW_COPY_AND_ASSIGN(Benchmark); }; class BenchmarkIsolateScope { public: explicit BenchmarkIsolateScope(Benchmark* benchmark) : benchmark_(benchmark) { benchmark->CreateIsolate(); Dart_EnterScope(); // Create a Dart API scope for unit benchmarks. } ~BenchmarkIsolateScope() { Dart_ExitScope(); // Exit the Dart API scope created for unit tests. ASSERT(benchmark_->isolate() == Isolate::Current()); Dart_ShutdownIsolate(); benchmark_ = NULL; } Benchmark* benchmark() const { return benchmark_; } private: Benchmark* benchmark_; DISALLOW_COPY_AND_ASSIGN(BenchmarkIsolateScope); }; } // namespace dart #endif // RUNTIME_VM_BENCHMARK_TEST_H_