#ifndef OPENCV_GPU_SAMPLE_PERFORMANCE_H_ #define OPENCV_GPU_SAMPLE_PERFORMANCE_H_ #include #include #include #include #include class Test { public: explicit Test(const std::string& name): name_(name) {} const std::string& name() const { return name_; } void gen(cv::Mat& mat, int rows, int cols, int type); virtual void run() = 0; private: std::string name_; }; class TestSystem { public: static TestSystem* instance() { static TestSystem me; return &me; } void add(Test* test) { tests_.push_back(test); } void run(); void cpuOn() { cpu_started_ = cv::getTickCount(); } void cpuOff() { int64 delta = cv::getTickCount() - cpu_started_; cpu_elapsed_ += delta; cpu_total_ += delta; can_flush_ = true; } void gpuOn() { gpu_started_ = cv::getTickCount(); } void gpuOff() { int64 delta = cv::getTickCount() - gpu_started_; gpu_elapsed_ += delta; gpu_total_ += delta; can_flush_ = true; } // Ends current subtest and starts new one std::stringstream& subtest() { flush(); return description_; } private: TestSystem(): can_flush_(false), cpu_elapsed_(0), cpu_total_(0), gpu_elapsed_(0), gpu_total_(0) {}; void flush(); std::vector tests_; // Current test (subtest) description std::stringstream description_; bool can_flush_; int64 cpu_started_, cpu_elapsed_, cpu_total_; int64 gpu_started_, gpu_elapsed_, gpu_total_; }; #define TEST(name) \ struct name##_test: public Test \ { \ name##_test(): Test(#name) { TestSystem::instance()->add(this); } \ void run(); \ } name##_test_instance; \ void name##_test::run() #define CPU_ON TestSystem::instance()->cpuOn() #define GPU_ON TestSystem::instance()->gpuOn() #define CPU_OFF TestSystem::instance()->cpuOff() #define GPU_OFF TestSystem::instance()->gpuOff() #define SUBTEST TestSystem::instance()->subtest() #define DESCRIPTION TestSystem::instance()->subtest() #endif // OPENCV_GPU_SAMPLE_PERFORMANCE_H_