void Lottery::run() { srand(time(NULL)); generateTeams(); generateLotteryNumbers(); assignTeams(); generateOutputFile(); }
void CRebuildGraph::CompareAndGenerateResults(SettingsSimulation settingsSimulation, gslGraph *targetGraph, gslGraph *bestGraph, char* inputFilename, time_t timeStart, double Tk, double *&bestBC, double costBest, double &compareResult, char *outputGraphFilename ){ CFuncTrace lFuncTrace(false,string("CRebuildGraph::CompareAndGenerateResults")); time_t timeEnd; gsl_matrix *targetGraphGsl = gsl_matrix_calloc(targetGraph->getOrder(), targetGraph->getOrder()); gsl_matrix *bestGraphGsl = gsl_matrix_calloc(bestGraph->getOrder(), bestGraph->getOrder()); targetGraph->graphToGsl(targetGraphGsl); bestGraph->graphToGsl(bestGraphGsl); compareResult = this->compareMatrix(targetGraphGsl, bestGraphGsl); // Processing tasks accomplished // Showing results timeEnd=time(NULL); lFuncTrace.trace(CTrace::TRACE_DEBUG,"RESULTS:\n"); lFuncTrace.trace(CTrace::TRACE_DEBUG,"CPU time needed: %f seconds\n",difftime(timeEnd,timeStart)); // printf("Output file: %s\n",outputFilename); double *targetBC = NULL; { graphIndicator * graphIndicator = FactoryMethodGraphIndicator::createGraphIndicator(settingsSimulation.graphProperty,targetGraph); targetBC = graphIndicator->calculateIndicatorWithReescale(settingsSimulation.reescale); delete graphIndicator; } generateOutputFile(targetGraph,inputFilename, Tk, costBest,targetBC, bestBC, timeStart, timeEnd,settingsSimulation); lFuncTrace.trace(CTrace::TRACE_DEBUG,"Reconstructed graph file: %s",outputGraphFilename); bestGraph->printMyGraph(outputGraphFilename,settingsSimulation.outputFormatGraphResultAdjList); gsl_matrix_free(bestGraphGsl); gsl_matrix_free(targetGraphGsl); }
int main(int argc, char * argv[]) { //checks to make sure that there are 2 arguments - one for input and output inputCheck(argv); //Get the input file name... char *inputFileName = *(argv + 1); char *outputFileName = *(argv + 2); //Find out how many students are on the input file... int numberOfStudents = getRecordCount(inputFileName); //Create the number of students depending on the record count... Student listOfStudents[numberOfStudents]; createStudents(listOfStudents, numberOfStudents); //Read the data of the input file... FILE *myFile = openFile(inputFileName); //Fill out all the student's info... fillStudentRecord(myFile, listOfStudents, numberOfStudents); //sortStudents using the array of student struct sortStudents(listOfStudents, numberOfStudents); //Calculate each student's GPA and recorded in the structure... getGPA(listOfStudents, numberOfStudents); //Calculate each student's Letter Grade and record in the structure... getGrade(listOfStudents, numberOfStudents); //Create ClassGrade structure pointer... ClassGrade *classGrade; classGrade = (ClassGrade *)malloc((sizeof classGrade) * 20); //Call functions to calculate the scores... getScoreAverage(listOfStudents, classGrade, numberOfStudents); getMinScore(listOfStudents, classGrade, numberOfStudents); getMaxScore(listOfStudents, classGrade, numberOfStudents); //Generate and output file with the student grade information generateOutputFile(outputFileName, inputFileName, listOfStudents, numberOfStudents); //Print out student's info... printAllStudents(listOfStudents, classGrade, numberOfStudents, inputFileName, outputFileName); return 0; }
void AGActivityGen::makeActivityTrips(int days, int beginSec, int endSec) { durationInDays = days; beginTime = beginSec; endTime = endSec; /** * making the activity trips */ AGActivities acts(&city, durationInDays + 1); acts.generateActivityTrips(); /** * validating the trips with the simulation's time limits */ //list<Trip>* trips = &(acts.trips); std::list<AGTrip> expTrips; std::map<std::string, int> carUsed; std::list<AGTrip>::iterator it; //multiplication of days for (it = acts.trips.begin(); it != acts.trips.end(); ++it) { if (it->isDaily()) { for (int currday = 1; currday < durationInDays + 2; ++currday) { AGTrip tr(it->getDep(), it->getArr(), it->getVehicleName(), it->getTime(), currday); tr.setType(it->getType()); if (carUsed.find(tr.getVehicleName()) != carUsed.end()) { ++carUsed.find(tr.getVehicleName())->second; } else { carUsed[tr.getVehicleName()] = 1; } std::ostringstream os; os << tr.getVehicleName() << ":" << carUsed.find(tr.getVehicleName())->second; tr.setVehicleName(os.str()); tr.addLayOverWithoutDestination(*it); //intermediate destinations are taken in account too varDepTime(tr); //slight variation on each "default" car if (timeTripValidation(tr)) { expTrips.push_back(tr); } //else // std::cout << "trop tard 1 pour " << tr.getVehicleName() << " " << tr.getTime() << " day: " << tr.getDay() << std::endl; } } else { AGTrip tr(it->getDep(), it->getArr(), it->getVehicleName(), it->getTime(), it->getDay()); tr.setType(it->getType()); if (carUsed.find(tr.getVehicleName()) != carUsed.end()) { ++carUsed.find(tr.getVehicleName())->second; } else { carUsed[tr.getVehicleName()] = 1; } std::ostringstream os; os << tr.getVehicleName() << ":" << carUsed.find(tr.getVehicleName())->second; tr.setVehicleName(os.str()); tr.addLayOverWithoutDestination(*it); //intermediate destinations are taken in account too varDepTime(tr); //slight variation on each "default" car if (timeTripValidation(tr)) { expTrips.push_back(tr); } //else // std::cout << "trop tard 2 pour " << tr.getVehicleName() << " " << tr.getTime() << " day: " << tr.getDay() << std::endl; } } std::cout << "total trips generated: " << acts.trips.size() << std::endl; std::cout << "total trips finally taken: " << expTrips.size() << std::endl; /** * re-ordering of trips: SUMO needs routes ordered by departure time. */ expTrips.sort(); //natural order of trips std::cout << "...sorted by departure time.\n" << std::endl; /** * trip file generation */ generateOutputFile(expTrips); }