bool RoadRunnerData::append(const RoadRunnerData& data) { //When appending data, the number of rows have to match with current data if(mTheData.RSize() > 0) { if(data.rSize() != rSize()) { return false; } } else { (*this) = data; return true; } int currColSize = cSize(); RoadRunnerData temp(mColumnNames, mTheData); int newCSize = cSize() + data.cSize(); mTheData.resize(data.rSize(), newCSize ); for(int row = 0; row < temp.rSize(); row++) { for( int col = 0; col < temp.cSize(); col++) { mTheData(row, col) = temp(row, col); } } for(int row = 0; row < mTheData.RSize(); row++) { for(int col = 0; col < data.cSize(); col++) { mTheData(row, col + currColSize) = data(row, col); } } for(int col = 0; col < data.cSize(); col++) { mColumnNames.push_back(data.getColumnName(col)); } return true; }
RRCDataPtr createRRCData(const RoadRunnerData& result) { RRCData* rrCData = new RRCData; memset(rrCData, 0, sizeof(RRCData)); rrCData->ColumnHeaders = new char*[result.cSize()]; for(int i = 0; i < result.cSize(); i++) { rrCData->ColumnHeaders[i] = rr::createText(result.getColumnNames()[i]); } rrCData->RSize = result.rSize(); rrCData->CSize = result.cSize(); int size = rrCData->RSize*rrCData->CSize; rrCData->Data = new double[size]; if(result.hasWeights()) { rrCData->Weights = new double[size]; } int index = 0; //The data layout is simple row after row, in one single long row... for(int row = 0; row < rrCData->RSize; row++) { for(int col = 0; col < rrCData->CSize; col++) { rrCData->Data[index] = result(row, col); if(result.hasWeights()) { rrCData->Weights[index] = result.weight(row, col); } ++index; } } return rrCData; }
void __fastcall TMForm::PlotTestTestSuiteDataExecute(TObject *Sender) { //Read the test suite data string file = FSF->GetSelectedFileInTree(); string path = rr::extractFilePath(file); vector<string> dirs = rr::splitString(path,"\\"); string tsDataFile; if(dirs.size()) { string caseNr = dirs[dirs.size() -1]; tsDataFile = rr::joinPath(path, (caseNr + "-results.csv")); } RoadRunnerData result; if(!result.load(tsDataFile)) { return; } //Fill out data for all series int nrOfSeries = result.cSize() -1; //First one is time StringList colNames = result.getColumnNames(); vector<TLineSeries*> series; for(int i = 0; i < nrOfSeries; i++) { TLineSeries* aSeries = new TLineSeries(Chart1); aSeries->Title = colNames[i+1].c_str(); aSeries->Color = clGray; aSeries->LinePen->Width = 1; aSeries->Pointer->Visible = true; series.push_back(aSeries); Chart1->AddSeries(aSeries); } for(int j = 0; j < result.rSize(); j++) { double xVal = result(j,0); for(int i = 0; i < nrOfSeries; i++) { double yData = result(j, i+1); series[i]->AddXY(xVal, yData); } } Chart1->Update(); }