// Copyright (c) 2019 PaddlePaddle Authors. All Rights Reserved. // // 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. #include #if !defined(_WIN32) #include #else #include #include "lite/backends/x86/port.h" #endif #define GLOG_NO_ABBREVIATED_SEVERITIES // msvc conflict logging with windows.h #include #include #include #include #include #include #include #include #include "lite/api/paddle_api.h" #include "lite/core/device_info.h" #include "lite/utils/cp_logging.h" #include "lite/utils/string.h" DEFINE_string(optimized_model_path, "", "the path of the model that is optimized by opt."); DEFINE_string(model_dir, "", "the path of the model, the model and param files is under " "model_dir."); DEFINE_string(model_filename, "", "the filename of model file. When the model is combined formate, " "please set model_file."); DEFINE_string(param_filename, "", "the filename of param file, set param_file when the model is " "combined formate."); DEFINE_string(input_shape, "1,3,224,224", "set input shapes according to the model, " "separated by colon and comma, " "such as 1,3,244,244"); DEFINE_string(input_img_path, "", "the path of input image, if not set " "input_img_path, the input of model will be 1.0."); DEFINE_int32(warmup, 0, "warmup times"); DEFINE_int32(repeats, 1, "repeats times"); DEFINE_int32(power_mode, 3, "arm power mode: " "0 for big cluster, " "1 for little cluster, " "2 for all cores, " "3 for no bind"); DEFINE_int32(threads, 1, "threads num"); DEFINE_string(result_filename, "result.txt", "save the inference time to the file."); DEFINE_bool(show_output, false, "Wether to show the output in shell."); namespace paddle { namespace lite_api { inline double GetCurrentUS() { struct timeval time; gettimeofday(&time, NULL); return 1e+6 * time.tv_sec + time.tv_usec; } void OutputOptModel(const std::string& save_optimized_model_dir) { lite_api::CxxConfig config; config.set_model_dir(FLAGS_model_dir); if (!FLAGS_model_filename.empty() && !FLAGS_param_filename.empty()) { config.set_model_file(FLAGS_model_dir + "/" + FLAGS_model_filename); config.set_param_file(FLAGS_model_dir + "/" + FLAGS_param_filename); } std::vector vaild_places = { Place{TARGET(kARM), PRECISION(kFloat)}, }; config.set_valid_places(vaild_places); auto predictor = lite_api::CreatePaddlePredictor(config); int ret = system( paddle::lite::string_format("rm -rf %s", save_optimized_model_dir.c_str()) .c_str()); if (ret == 0) { LOG(INFO) << "Delete old optimized model " << save_optimized_model_dir; } predictor->SaveOptimizedModel(save_optimized_model_dir, LiteModelType::kNaiveBuffer); LOG(INFO) << "Load model from " << FLAGS_model_dir; LOG(INFO) << "Save optimized model to " << save_optimized_model_dir; } int64_t ShapeProduction(const std::vector& shape) { int64_t num = 1; for (auto i : shape) { num *= i; } return num; } #ifdef LITE_WITH_LIGHT_WEIGHT_FRAMEWORK void Run(const std::vector& input_shape, const std::string& model_path, const std::string model_name) { // set config and create predictor lite_api::MobileConfig config; config.set_threads(FLAGS_threads); config.set_power_mode(static_cast(FLAGS_power_mode)); config.set_model_from_file(model_path); auto predictor = lite_api::CreatePaddlePredictor(config); // set input auto input_tensor = predictor->GetInput(0); input_tensor->Resize(input_shape); auto input_data = input_tensor->mutable_data(); int64_t input_num = ShapeProduction(input_shape); if (FLAGS_input_img_path.empty()) { for (int i = 0; i < input_num; ++i) { input_data[i] = 1.f; } } else { std::fstream fs(FLAGS_input_img_path); if (!fs.is_open()) { LOG(FATAL) << "open input image " << FLAGS_input_img_path << " error."; } for (int i = 0; i < input_num; i++) { fs >> input_data[i]; } // LOG(INFO) << "input data:" << input_data[0] << " " << // input_data[input_num-1]; } // warmup for (int i = 0; i < FLAGS_warmup; ++i) { predictor->Run(); } // run std::vector perf_vct; for (int i = 0; i < FLAGS_repeats; ++i) { auto start = GetCurrentUS(); predictor->Run(); auto end = GetCurrentUS(); perf_vct.push_back((end - start) / 1000.0); } std::sort(perf_vct.begin(), perf_vct.end()); float min_res = perf_vct.back(); float max_res = perf_vct.front(); float total_res = accumulate(perf_vct.begin(), perf_vct.end(), 0.0); float avg_res = total_res / FLAGS_repeats; // save result std::ofstream ofs(FLAGS_result_filename, std::ios::app); if (!ofs.is_open()) { LOG(FATAL) << "open result file failed"; } ofs.precision(5); ofs << std::setw(30) << std::fixed << std::left << model_name; ofs << "min = " << std::setw(12) << min_res; ofs << "max = " << std::setw(12) << max_res; ofs << "average = " << std::setw(12) << avg_res; ofs << std::endl; ofs.close(); if (FLAGS_show_output) { auto out_tensor = predictor->GetOutput(0); auto* out_data = out_tensor->data(); int64_t output_num = ShapeProduction(out_tensor->shape()); float max_value = out_data[0]; int max_index = 0; for (int i = 0; i < output_num; i++) { if (max_value < out_data[i]) { max_value = out_data[i]; max_index = i; } } LOG(INFO) << "max_value:" << max_value; LOG(INFO) << "max_index:" << max_index; LOG(INFO) << "output data[0:10]:"; for (int i = 0; i < 10; i++) { LOG(INFO) << out_data[i]; } } } #endif } // namespace lite_api } // namespace paddle void print_usage() { std::string help_info = "Usage: \n" "./benchmark_bin \n" " --optimized_model_path (The path of the model that is optimized\n" " by opt. If the model is optimized, please set the param.) \n" " type: string \n" " --model_dir (The path of the model that is not optimized by opt,\n" " the model and param files is under model_dir.) type: string \n" " --model_filename (The filename of model file. When the model is\n " " combined formate, please set model_file. Otherwise, it is not\n" " necessary to set it.) type: string \n" " --param_filename (The filename of param file, set param_file when\n" " the model is combined formate. Otherwise, it is not necessary\n" " to set it.) type: string \n" " --input_shape (Set input shapes according to the model, separated by\n" " colon and comma, such as 1,3,244,244) type: string\n" " default: 1,3,224,224 \n" " --input_img_path (The path of input image, if not set\n" " input_img_path, the input will be 1.0.) type: string \n " " --power_mode (Arm power mode: 0 for big cluster, 1 for little\n" " cluster, 2 for all cores, 3 for no bind) type: int32 default: 3\n" " --repeats (Repeats times) type: int32 default: 1 \n" " --result_filename (Save the inference time to the file.) type: \n" " string default: result.txt \n" " --threads (Threads num) type: int32 default: 1 \n" " --warmup (Warmup times) type: int32 default: 0 \n" "Note that: \n" " If load the optimized model, set optimized_model_path. Otherwise, \n" " set model_dir, model_filename and param_filename according to \n" " the model. \n"; LOG(INFO) << help_info; } int main(int argc, char** argv) { // Check inputs gflags::ParseCommandLineFlags(&argc, &argv, true); bool is_opt_model = (FLAGS_optimized_model_path != ""); bool is_origin_model = (FLAGS_model_dir != ""); if (!is_origin_model && !is_opt_model) { LOG(INFO) << "Input error, the model path should not be empty.\n"; print_usage(); exit(0); } // Get input shape auto get_shape = [](const std::string& str_shape) -> std::vector { std::vector shape; std::string tmp_str = str_shape; while (!tmp_str.empty()) { int dim = atoi(tmp_str.data()); shape.push_back(dim); size_t next_offset = tmp_str.find(","); if (next_offset == std::string::npos) { break; } else { tmp_str = tmp_str.substr(next_offset + 1); } } return shape; }; std::vector input_shape = get_shape(FLAGS_input_shape); // Get model_name and run_model_path std::string model_name; std::string run_model_path; if (is_origin_model) { if (FLAGS_model_dir.back() == '/') { FLAGS_model_dir.pop_back(); } std::size_t found = FLAGS_model_dir.find_last_of("/"); model_name = FLAGS_model_dir.substr(found + 1); std::string optimized_model_path = FLAGS_model_dir + "_opt2"; paddle::lite_api::OutputOptModel(optimized_model_path); run_model_path = optimized_model_path + ".nb"; } else { size_t found1 = FLAGS_optimized_model_path.find_last_of("/"); size_t found2 = FLAGS_optimized_model_path.find_last_of("."); size_t len = found2 - found1 - 1; model_name = FLAGS_optimized_model_path.substr(found1 + 1, len); run_model_path = FLAGS_optimized_model_path; } #ifdef LITE_WITH_LIGHT_WEIGHT_FRAMEWORK // Run test paddle::lite_api::Run(input_shape, run_model_path, model_name); #endif return 0; }