static void setLayerInfoFromCurrentExperiment(shared_ptr<NEAT::LayeredSubstrate<float> > substrate) { int experimentType = int(NEAT::Globals::getSingleton()->getParameterValue("ExperimentType")+0.001); HCUBE::ExperimentRun experimentRun; experimentRun.setupExperiment(experimentType,""); substrate->setLayerInfo( experimentRun.getExperiment()->getLayerInfo() ); }
int HyperNEAT_main(int argc,char **argv) { CommandLineParser commandLineParser(argc,argv); // Quit if we don't have I/O/G if (!commandLineParser.HasSwitch("-I") || !commandLineParser.HasSwitch("-O") || !commandLineParser.HasSwitch("-G")) { cout << "./atari_generate [-R (seed)] -I (datafile) -O (outputfile) -G (ROMFile) [-P (populationfile) -F (fitnessprefix) [-E (evaluationFile)] ]\n"; cout << "\t(datafile) experiment data file - typically data/AtariExperiment.dat\n"; cout << "\t(outputfile) the next generation file to be created - typically generationXX.xml\n"; cout << "\t(populationfile) the current generation file (required when outputfile is > generation0) - typically generationXX(-1).xml.gz\n"; cout << "\t(fitnessprefix) used to locate the fitness files for individuals in the current generation (required for generation > 0) - typically fitness.XX.\n"; cout << "\t(evaluationfile) populationfile + fitness + speciation (output only - not required for next cycle) - typicall generationXX(-1).eval.xml\n"; return 0; } Globals *globals = Globals::init(commandLineParser.GetArgument("-I",0)); // Setup the experiment int experimentType = int(globals->getParameterValue("ExperimentType") + 0.001); HCUBE::ExperimentRun experimentRun; string out_file = commandLineParser.GetArgument("-O",0); experimentRun.setupExperiment(experimentType, out_file); string rom_file = commandLineParser.GetArgument("-G",0); // Is this an experiment in progress? If so we should load the current experiment if (commandLineParser.HasSwitch("-P") && commandLineParser.HasSwitch("-F")) { string populationFile = commandLineParser.GetArgument("-P",0); string fitnessFunctionPrefix = commandLineParser.GetArgument("-F",0); string evaluationFile = commandLineParser.GetSafeArgument("-E",0,""); cout << "[HyperNEAT core] Population for existing generation created from: " << populationFile << endl; experimentRun.createPopulationFromCondorRun(populationFile, fitnessFunctionPrefix, evaluationFile, rom_file); } else { cout << "[HyperNEAT core] Population for first generation created" << endl; shared_ptr<Experiment> e = experimentRun.getExperiment(); if (experimentType == 30 || experimentType == 35 || experimentType == 36) { shared_ptr<AtariExperiment> exp = static_pointer_cast<AtariExperiment>(e); exp->initializeExperiment(rom_file.c_str()); } else if (experimentType == 31 || experimentType == 39 || experimentType == 40) { shared_ptr<AtariNoGeomExperiment> exp = static_pointer_cast<AtariNoGeomExperiment>(e); exp->initializeExperiment(rom_file.c_str()); } else if (experimentType == 32 || experimentType == 37 || experimentType == 38) { shared_ptr<AtariFTNeatExperiment> exp = static_pointer_cast<AtariFTNeatExperiment>(e); exp->initializeExperiment(rom_file.c_str()); } else if (experimentType == 33) { // This is the Hybrid experiment but always starts as HyperNEAT shared_ptr<AtariExperiment> exp = static_pointer_cast<AtariExperiment>(e); exp->initializeExperiment(rom_file.c_str()); } else if (experimentType == 34) { shared_ptr<AtariIntrinsicExperiment> exp = static_pointer_cast<AtariIntrinsicExperiment>(e); exp->initializeExperiment(rom_file.c_str()); } else if (experimentType == 41) { shared_ptr<AtariCMAExperiment> exp = static_pointer_cast<AtariCMAExperiment>(e); exp->setResultsPath(out_file); exp->initializeExperiment(rom_file.c_str()); } experimentRun.createPopulation(); } if (commandLineParser.HasSwitch("-R")) { double seed = stringTo<double>(commandLineParser.GetArgument("-R",0)); globals->setParameterValue("RandomSeed",seed); globals->initRandom(); } experimentRun.startCondor(); NEAT::Globals::deinit(); }
int HyperNEAT_main(int argc,char **argv) { //This is for memory debugging //_CrtSetDbgFlag ( _CRTDBG_ALLOC_MEM_DF | _CRTDBG_LEAK_CHECK_DF ); //_CrtSetBreakAlloc(1378); int retval=0; CommandLineParser commandLineParser(argc,argv); #if 1 #if 0 try #endif { if (argc<=1) { #ifndef HCUBE_NOGUI cout_ << "Starting wxEntry...\n"; retval = wxEntry(argc, argv); #else cout_ << "You must pass the parameters and the output file as command " << "parameters!\n"; cout_ << "(If you intended to run in GUI mode, please run cmake and set the USE_GUI flag to true)\n"; #endif } else if (argc==2) { //Run the post-hoc analysis on last generation cout_ << "Running post-hoc analysis on: " << argv[1] << endl; HCUBE::ExperimentRun experimentRun; experimentRun.setupExperimentInProgress( string(argv[1]), "" ); int numGenerations = experimentRun.getPopulation()->getGenerationCount(); HCUBE::Experiment *experiment = experimentRun.getExperiment()->clone(); /* { string outString = (erase_tail_copy(string(argv[1]),4)+string("_fitness.out")); cout_ << "Creating file " << outString << endl; ofstream outfile( outString.c_str() ); string previousSummary; bool doOnce=false; for (int generation=0;generation<numGenerations;generation++) { //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); if ( generation && (*(experimentRun.getIndividual(generation,0).get())) == (*(experimentRun.getIndividual(generation-1,0).get())) ) { outfile << (generation+1) << ' ' << previousSummary << endl; continue; } shared_ptr<NEAT::GeneticIndividual> indiv = shared_ptr<NEAT::GeneticIndividual>( new NEAT::GeneticIndividual( *(experimentRun.getIndividual(generation,0).get()) ) ); //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); cout_ << "Beginning fitness evaluation " << (generation+1) << "/" << numGenerations << "..."; cout_.flush(); experiment->addIndividualToGroup(indiv); experiment->processGroup(experimentRun.getGeneration(generation)); experiment->clearGroup(); cout_ << "done!\n"; //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); if (indiv->getUserData()) { if (!doOnce) { doOnce=true; outfile << "#Generation: " << indiv->getUserData()->summaryHeaderToString() << endl; } previousSummary = indiv->getUserData()->summaryToString(); outfile << (generation+1) << ' ' << previousSummary << endl; } else { throw CREATE_LOCATEDEXCEPTION_INFO("No user data!\n"); } } } */ { string outString = (erase_tail_copy(string(argv[1]),3)+string("_fitness.out")); cout_ << "Creating file " << outString << endl; ofstream outfile( outString.c_str() ); string previousSummary; bool doOnce=false; int firstGen = 0; //int firstGen = numGenerations-1; for (int generation=firstGen;generation<numGenerations;generation++) { //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); #if 0 if ( generation && (*(experimentRun.getIndividual(generation,0).get())) == (*(experimentRun.getIndividual(generation-1,0).get())) ) { outfile << (generation+1) << ' ' << previousSummary << endl; continue; } #endif shared_ptr<NEAT::GeneticIndividual> indiv = shared_ptr<NEAT::GeneticIndividual>( new NEAT::GeneticIndividual( *(experimentRun.getIndividual(generation,0).get()) ) ); if(generation!=firstGen) { shared_ptr<NEAT::GeneticIndividual> lastindiv = shared_ptr<NEAT::GeneticIndividual>( new NEAT::GeneticIndividual( *(experimentRun.getIndividual(generation-1,0).get()) ) ); if(fabsf(indiv->getFitness()-lastindiv->getFitness())<1e-3) { //cout_ << "Skipping redundant individual\n"; continue; } } //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); //cout_ << "Beginning post-hoc evaluation " << (generation+1) << "/" << numGenerations << "..."; //experiment->processIndividualPostHoc(indiv); //cout_ << "done!\n"; //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); #if 0 if (indiv->getUserData().length()) { if (!doOnce) { doOnce=true; outfile << "#Generation: " << indiv->getUserData() << endl; } previousSummary = indiv->getUserData(); outfile << (generation+1) << ' ' << previousSummary << endl; } else { if (!doOnce) { doOnce=true; outfile << "#Generation: " << "Fitness:" << endl; } previousSummary = toString(indiv->getFitness()); outfile << (generation+1) << ' ' << previousSummary << endl; } #endif cout_ << "Beginning post-hoc evaluation " << (generation+1) << "/" << numGenerations << "..."; experiment->processIndividualPostHoc(indiv); cout_ << indiv->getUserData() << endl; cout_ << "done!\n"; //CREATE_PAUSE(string("Error!: ")+toString(__LINE__)); #if 0 if (indiv->getUserData()) { if (!doOnce) { doOnce=true; outfile << "#Generation: " << indiv->getUserData()->summaryHeaderToString() << endl; } previousSummary = indiv->getUserData()->summaryToString(); outfile << (generation+1) << ' ' << previousSummary << endl; } else { if (!doOnce) { doOnce=true; outfile << "#Generation: " << "Fitness:" << endl; } previousSummary = toString(indiv->getFitness()); outfile << (generation+1) << ' ' << previousSummary << endl; } #endif } } } else if ( commandLineParser.HasSwitch("-P") ) { string inputFile = commandLineParser.GetSafeArgument("-P",0,"input.dat"); //Run the post-hoc analysis cout_ << "Running post-hoc analysis on: " << inputFile << endl; HCUBE::ExperimentRun experimentRun; experimentRun.setupExperimentInProgress( inputFile, "" ); int numGenerations = experimentRun.getPopulation()->getGenerationCount(); HCUBE::Experiment *experiment = experimentRun.getExperiment()->clone(); { int firstGen = 0; //int firstGen = numGenerations-1; bool ignoreFirstIfElitism=false; if(commandLineParser.HasSwitch("-G")) { firstGen = atoi(commandLineParser.GetSafeArgument("-G",0,"0").c_str())-1; if(firstGen<numGenerations) numGenerations = firstGen+1; } if(firstGen && commandLineParser.HasSwitch("-S")) ignoreFirstIfElitism=true; for (int generation=firstGen;generation<numGenerations;generation++) { shared_ptr<NEAT::GeneticIndividual> indiv = shared_ptr<NEAT::GeneticIndividual>( new NEAT::GeneticIndividual( *(experimentRun.getIndividual(generation,0).get()) ) ); if(generation!=firstGen || ignoreFirstIfElitism) { shared_ptr<NEAT::GeneticIndividual> lastindiv = shared_ptr<NEAT::GeneticIndividual>( new NEAT::GeneticIndividual( *(experimentRun.getIndividual(generation-1,0).get()) ) ); if(fabsf(indiv->getFitness()-lastindiv->getFitness())<1e-3) { //cout_ << "Skipping redundant individual\n"; continue; } } cout_ << "Beginning post-hoc evaluation " << (generation+1) << "/" << numGenerations << "..." << endl; experiment->processIndividualPostHoc(indiv); cout_ << indiv->getUserData() << endl; cout_ << "done!\n"; } } } else if( commandLineParser.HasSwitch("-I") && commandLineParser.HasSwitch("-O") ) { NEAT::Globals::init(commandLineParser.GetSafeArgument("-I",0,"input.dat")); if(commandLineParser.HasSwitch("-R")) { NEAT::Globals::getSingleton()->seedRandom(stringTo<unsigned int>(commandLineParser.GetSafeArgument("-R",0,"0"))); } int experimentType = int(NEAT::Globals::getSingleton()->getParameterValue("ExperimentType")+0.001); cout_ << "Loading Experiment: " << experimentType << endl; HCUBE::ExperimentRun experimentRun; experimentRun.setupExperiment(experimentType,commandLineParser.GetSafeArgument("-O",0,"output.xml")); cout_ << "Experiment set up\n"; experimentRun.createPopulation(); experimentRun.setCleanup(true); cout_ << "Population Created\n"; experimentRun.start(); } else if( commandLineParser.HasSwitch("-C") ) { HCUBE::ExperimentRun experimentRun; string backupFile = commandLineParser.GetArgument("-C",0); string outputFile = backupFile.substr(0,backupFile.length()-14); //This also calls NEAT::Globals::init(...) experimentRun.setupExperimentInProgress(backupFile,outputFile); cout_ << "Experiment set up\n"; experimentRun.setCleanup(true); experimentRun.start(); } else { cout_ << "Syntax for passing command-line options to HyperNEAT (do not actually type '(' or ')' ):\n"; cout_ << "./HyperNEAT [-R (seed)] -I (datafile) -O (outputfile)\n"; } } #if 0 catch (const std::exception &ex) { cout_ << "CAUGHT ERROR AT " << __FILE__ << " : " << __LINE__ << endl; cout_ << "An exception has occured: " << ex.what() << endl; } catch (string s) { cout_ << "CAUGHT ERROR AT " << __FILE__ << " : " << __LINE__ << endl; cout_ << "An exception has occured: " << s << endl; } catch (...) { cout_ << "CAUGHT ERROR AT " << __FILE__ << " : " << __LINE__ << endl; cout_ << "An error has occured!\n"; } #endif NEAT::Globals::deinit(); #endif return retval; }