#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include class TreePrinter { struct Info{ std::string name; std::string info; }; std::vector m_rows; public: TreePrinter(){ } void addNewRow(int level) { } void printTree() { for (auto& row : m_rows){ std::cout << row.name << " " << row.info << std::endl; } } }; void printTree(TreePrinter& printer, const ::profiler::BlocksTree& tree, int level = 0, profiler::timestamp_t parent_dur = 0, profiler::timestamp_t root_dur = 0) { // //if (tree.node){ // auto duration = tree.node->block()->duration(); // float duration_ms = duration / 1e6f; // float percent = parent_dur ? float(duration) / float(parent_dur)*100.0f : 100.0f; // float rpercent = root_dur ? float(duration) / float(root_dur)*100.0f : 100.0f; // std::cout << std::string(level, '\t') << tree.node->getName() // << std::string(5 - level, '\t') // /*<< std::string(level, ' ')*/ << percent << "%| " // << rpercent << "%| " // << duration_ms << " ms" // << std::endl; // if (root_dur == 0){ // root_dur = tree.node->block()->duration(); // } //} //else{ // root_dur = 0; //} // //for (const auto& i : tree.children){ // printTree(printer, i, level + 1, tree.node ? tree.node->block()->duration() : 0, root_dur); //} } int main(int argc, char* argv[]) { ::profiler::thread_blocks_tree_t threaded_trees; ::std::string filename;// = "test.prof"; if (argc > 1 && argv[1]) { filename = argv[1]; } else { std::cout << "Specify prof file: "; std::getline(std::cin, filename); //return 255; } ::std::string dump_filename; if (argc > 2 && argv[2]) { dump_filename = argv[2]; } else { std::cout << "Specify output prof file: "; std::getline(std::cin, dump_filename); } if (dump_filename.size() > 2) { EASY_PROFILER_ENABLE; std::cout << "Will dump reader prof file to " << dump_filename << std::endl; } else { dump_filename.clear(); } auto start = std::chrono::system_clock::now(); ::profiler::SerializedData serialized_blocks, serialized_descriptors; ::profiler::descriptors_list_t descriptors; ::profiler::blocks_t blocks; ::std::stringstream errorMessage; uint32_t descriptorsNumberInFile = 0; uint32_t version = 0; auto blocks_counter = fillTreesFromFile(filename.c_str(), serialized_blocks, serialized_descriptors, descriptors, blocks, threaded_trees, descriptorsNumberInFile, version, true, errorMessage); if (blocks_counter == 0) std::cout << "Can not read blocks from file " << filename.c_str() << "\nReason: " << errorMessage.str(); auto end = std::chrono::system_clock::now(); std::cout << "Blocks count: " << blocks_counter << std::endl; std::cout << "dT = " << std::chrono::duration_cast(end - start).count() << " usec" << std::endl; //for (const auto & i : threaded_trees){ // TreePrinter p; // std::cout << std::string(20, '=') << " thread "<< i.first << " "<< std::string(20, '=') << std::endl; // printTree(p, i.second.tree,-1); //} if (!dump_filename.empty()) { auto bcount = profiler::dumpBlocksToFile(dump_filename.c_str()); std::cout << "Blocks count for reader: " << bcount << std::endl; } //char c; //::std::cin >> c; return 0; }