void TrainingsManager::run(bool print) { double succes = 0; unsigned int i = 0; std::cout << "One session consists off: " << passes << " iterations" << std::endl; //train if (!isTrained) { std::cout << "Starting the training" << std::endl; while (true) { i++; runPasses(); succes = (double)correctAnswers / (double)passes; if (print)std::cout << "Session " << i << " had a succesrate of: " << succes << '%' << std::endl; else std::cout << "."; if (succes > targetSuccesRate) break; } } std::cout << std::endl; if (print) { //show off std::cout << "Running 10 additional runs with output to show off the results" << std::endl; passes = 10; runPasses(true); } else { std::cout << "Training took " << i << " session of " << passes << " passes" << std::endl; std::cout << "Final result rate was: " << succes << std::endl; } }
pGenerator::pGenerator(pSourceModule* mod, LLVMContext& c): llvmModule_(new Module(mod->fileName(), c)), sourceModule_(mod), entryFunction_(NULL), initFunction_(NULL), IRHelper_(llvmModule_) { loadAndLinkRuntimeIR(); createEntryPoint(); runPasses(); }
static void compile_all(void) { testInputFiles(arg_state.nfile_arguments, arg_state.file_argument); runPasses(); }
int main(int argc, char* argv[]) { PhaseTracker tracker; startCatchingSignals(); { astlocMarker markAstLoc(0, "<internal>"); tracker.StartPhase("init"); init_args(&sArgState, argv[0]); fDocs = (strcmp(sArgState.program_name, "chpldoc") == 0) ? true : false; fUseIPE = (strcmp(sArgState.program_name, "chpl-ipe") == 0) ? true : false; // Initialize the arguments for argument state. If chpldoc, use the docs // specific arguments. Otherwise, use the regular arguments. if (fDocs) { init_arg_desc(&sArgState, docs_arg_desc); } else { init_arg_desc(&sArgState, arg_desc); } initFlags(); initRootModule(); initPrimitive(); initPrimitiveTypes(); DefExpr* objectClass = defineObjectClass(); initChplProgram(objectClass); initStringLiteralModule(); process_args(&sArgState, argc, argv); setupChplGlobals(argv[0]); postprocess_args(); initCompilerGlobals(); // must follow argument parsing setupModulePaths(); recordCodeGenStrings(argc, argv); } // astlocMarker scope if (fUseIPE == false) printStuff(argv[0]); if (fRungdb) runCompilerInGDB(argc, argv); if (fRunlldb) runCompilerInLLDB(argc, argv); addSourceFiles(sArgState.nfile_arguments, sArgState.file_argument); if (fUseIPE == false) { runPasses(tracker, fDocs); } else { ipeRun(); } tracker.StartPhase("driverCleanup"); free_args(&sArgState); tracker.Stop(); if (printPasses == true || printPassesFile != NULL) { tracker.ReportPass(); tracker.ReportTotal(); tracker.ReportRollup(); } if (printPassesFile != NULL) { fclose(printPassesFile); } clean_exit(0); return 0; }
int main(int argc, char* argv[]) { PhaseTracker tracker; startCatchingSignals(); { astlocMarker markAstLoc(0, "<internal>"); tracker.StartPhase("init"); initFlags(); initChplProgram(); initPrimitive(); initPrimitiveTypes(); initTheProgram(); setupOrderedGlobals(argv[0]); compute_program_name_loc(argv[0], &(arg_state.program_name), &(arg_state.program_loc)); process_args(&arg_state, argc, argv); initCompilerGlobals(); // must follow argument parsing setupDependentVars(); setupModulePaths(); recordCodeGenStrings(argc, argv); } // astlocMarker scope printStuff(argv[0]); if (rungdb) runCompilerInGDB(argc, argv); if (runlldb) runCompilerInLLDB(argc, argv); testInputFiles(arg_state.nfile_arguments, arg_state.file_argument); if (strcmp(chplBinaryName, "chpldoc") == 0) fDocs = true; runPasses(tracker); tracker.StartPhase("driverCleanup"); if (fEnableTimers) { printf("timer 1: %8.3lf\n", timer1.elapsedSecs()); printf("timer 2: %8.3lf\n", timer2.elapsedSecs()); printf("timer 3: %8.3lf\n", timer3.elapsedSecs()); printf("timer 4: %8.3lf\n", timer4.elapsedSecs()); printf("timer 5: %8.3lf\n", timer5.elapsedSecs()); } free_args(&arg_state); tracker.Stop(); if (printPasses == true || printPassesFile != NULL) { tracker.ReportPass(); tracker.ReportTotal(); tracker.ReportRollup(); } if (printPassesFile != NULL) { fclose(printPassesFile); } clean_exit(0); return 0; }