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110 lines
4.4 KiB
C++
110 lines
4.4 KiB
C++
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#include <sys/time.h>
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#include "trick/MonteCarlo.hh"
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#include "trick/command_line_protos.h"
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#include "trick/message_proto.h"
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#include "trick/message_type.h"
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#include "trick/tc_proto.h"
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#include "trick/exec_proto.h"
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/** @par Detailed Design: */
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void Trick::MonteCarlo::master_shutdown() {
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/** <ul><li> Run the user-defined shutdown jobs. */
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run_queue(&master_shutdown_queue, "in master_shutdown queue") ;
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/** <ul><li> Shutdown the active slaves. */
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shutdown_slaves() ;
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/** <li> Shut down the sockets. */
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tc_disconnect(&listen_device);
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tc_disconnect(&connection_device);
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struct timeval time_val;
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gettimeofday(&time_val, NULL) ;
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end_time = time_val.tv_sec + (double)time_val.tv_usec / 1000000;
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/** <li> Print the statistics. */
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if (!except_file.empty()) {
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message_publish(MSG_INFO, "SIMULATION TERMINATED IN\n");
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message_publish(MSG_INFO, " PROCESS: %d\n", exec_get_process_id());
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message_publish(MSG_INFO, " ROUTINE: %s\n", except_file.c_str());
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message_publish(MSG_INFO, " DIAGNOSTIC: %s\n\n", except_message.c_str());
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}
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FILE *file_ptr;
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if (open_file(run_directory + std::string("/run_summary"), &file_ptr) == -1) exit(-2) ;
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print_statistics(&file_ptr) ;
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print_statistics(&stdout) ;
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fclose(file_ptr) ;
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if ( !except_return and failed_runs.size() > 0 ) {
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except_return = -2 ;
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}
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exit(except_return);
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}
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void Trick::MonteCarlo::shutdown_slaves() {
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if (verbosity >= MC_INFORMATIONAL) {
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message_publish(MSG_INFO, "Monte [Master] Simulation complete. Shutting down slaves.\n\n") ;
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}
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for (std::vector<MonteSlave *>::size_type i = 0; i < slaves.size() ; ++i) {
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slaves[i]->state = MonteSlave::MC_FINISHED;
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connection_device.hostname = (char*)slaves[i]->machine_name.c_str();
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connection_device.port = slaves[i]->port;
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if (tc_connect(&connection_device) == TC_SUCCESS) {
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int command = htonl(MonteSlave::MC_SHUTDOWN);
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tc_write(&connection_device, (char*)&command, sizeof(command));
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}
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}
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}
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void Trick::MonteCarlo::print_statistics(FILE** fp) {
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static const char *exit_status_string[] =
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{"Incomplete", "Complete", "Core Dumped", "Timed Out",
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"No Permission to Output Directory", "Bad Input" } ;
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fprintf(*fp,
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"\nMonte Carlo complete: %u runs (%zu successful) (%zu errors) (%u out of range)\n",
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num_runs, num_results - failed_runs.size(), failed_runs.size(),
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num_runs - num_results);
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fprintf(*fp, "\nMachine work unit breakdown:\n");
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fprintf(*fp, "----------------------------------------------------------------------\n");
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fprintf(*fp, "%25s %7s (%7s) %12s %12s\n",
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"machine", "units", "units %", "cpu_time (s)", "cpu/unit (s)");
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fprintf(*fp, "----------------------------------------------------------------------\n");
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double total_time = 0.0;
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for (std::vector<MonteSlave *>::size_type j = 0; j < slaves.size(); ++j) {
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fprintf(*fp, "%3d. %20s %7u (%6.2f%%) %12.2lf %12.2lf\n",
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slaves[j]->id, slaves[j]->machine_name.c_str(),
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slaves[j]->num_results,
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num_results ? slaves[j]->num_results / (float)num_results * 100 : 0,
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slaves[j]->cpu_time,
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slaves[j]->num_results ? slaves[j]->cpu_time / slaves[j]->num_results : 0);
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total_time += slaves[j]->cpu_time;
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}
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double monte_time = end_time - start_time;
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double average_time = actual_num_runs ? total_time / actual_num_runs : 0;
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double effective_time = actual_num_runs ? monte_time / actual_num_runs : 0;
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double speed_up = total_time / monte_time;
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double efficency = speed_up * 100.0 / slaves.size();
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fprintf(*fp, "\nTotal monte carlo time taken: %.2lf\n", monte_time);
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fprintf(*fp, "Actual average time per unit (sum of CPU time / number of runs): %.2lf\n", average_time);
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fprintf(*fp, "Effective average time per unit (total time / number of runs): %.2lf\n", effective_time);
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fprintf(*fp, "Speedup (sum of CPU time / total time): %.2lf\n", speed_up);
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fprintf(*fp, "Efficency (speedup / num slaves): %.2lf%%\n", efficency);
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if (failed_runs.size()) {
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fprintf(*fp, "\nError Summary\n");
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for (std::vector<MonteRun *>::size_type j = 0; j < failed_runs.size(); ++j) {
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fprintf(*fp, "RUN_%05d exit status = %s (%d)\n", failed_runs[j]->id,
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exit_status_string[failed_runs[j]->exit_status], failed_runs[j]->exit_status);
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}
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}
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}
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