Mercurial > hg > batch-feature-extraction-tool
view Source/WriteCSV.cpp @ 0:25bf17994ef1
First commit. VS2013, Codeblocks and Mac OSX configuration
| author | Geogaddi\David <d.m.ronan@qmul.ac.uk> |
|---|---|
| date | Thu, 09 Jul 2015 01:12:16 +0100 |
| parents | |
| children | e86e9c111b29 |
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/* ============================================================================== WriteCSV.cpp Created: 29 Aug 2014 3:57:27pm Author: david.ronan ============================================================================== */ #include "WriteCSV.h" #include <fstream> #include <iostream> #include <string> #include <vector> #include <time.h> #include <windows.h> WriteCSV::WriteCSV(){}; WriteCSV::~WriteCSV(){}; static int count = 1; void WriteCSV::Write(std::string filename, FeatureData data) { //Pooled std::string pooledfilename = filename + "Pooled" + std::to_string(data.GetPoolingTimeFactor()) + "Sec.csv"; std::ofstream foutPooled(pooledfilename, std::ios::app|std::ios::out); std::vector<ObservationData> observationDataAverage = data.GetPooldedObservationDataAverage(); std::vector<ObservationData> observationDataStd = data.GetPooldedObservationDataStd(); std::vector<ObservationData> observationDataMax = data.GetPooldedObservationDataMax(); std::vector<ObservationData> observationDataMin = data.GetPooldedObservationDataMin(); std::string label = data.GetLabel(); if (foutPooled.is_open()) { for(size_t j = 0; j < observationDataAverage.size(); j++) { foutPooled << observationDataAverage[j].GetRMS() << ',' << observationDataStd[j].GetRMS() << ',' << observationDataMax[j].GetRMS() << ',' << observationDataMin[j].GetRMS() << ',' << observationDataAverage[j].GetPeak() << ',' << observationDataStd[j].GetPeak() << ',' << observationDataMax[j].GetPeak() << ',' << observationDataMin[j].GetPeak() << ',' << observationDataAverage[j].GetCrestFactor() << ',' << observationDataStd[j].GetCrestFactor() << ',' << observationDataMax[j].GetCrestFactor() << ',' << observationDataMin[j].GetCrestFactor() << ',' << observationDataAverage[j].GetZCR() << ',' << observationDataStd[j].GetZCR() << ',' << observationDataMax[j].GetZCR() << ',' << observationDataMin[j].GetZCR() << ',' << observationDataAverage[j].GetCentroid() << ',' << observationDataStd[j].GetCentroid() << ',' << observationDataMax[j].GetCentroid() << ',' << observationDataMin[j].GetCentroid() << ',' << observationDataAverage[j].GetSpread() << ',' << observationDataStd[j].GetSpread() << ',' << observationDataMax[j].GetSpread() << ',' << observationDataMin[j].GetSpread() << ',' << observationDataAverage[j].GetSkewness() << ',' << observationDataStd[j].GetSkewness() << ',' << observationDataMax[j].GetSkewness() << ',' << observationDataMin[j].GetSkewness() << ',' << observationDataAverage[j].GetKurtosis() << ',' << observationDataStd[j].GetKurtosis() << ',' << observationDataMax[j].GetKurtosis() << ',' << observationDataMin[j].GetKurtosis() << ',' << observationDataAverage[j].GetBrightness() << ',' << observationDataStd[j].GetBrightness() << ',' << observationDataMax[j].GetBrightness() << ',' << observationDataMin[j].GetBrightness() << ',' << observationDataAverage[j].GetFlatness() << ',' << observationDataStd[j].GetFlatness() << ',' << observationDataMax[j].GetFlatness() << ',' << observationDataMin[j].GetFlatness() << ',' << observationDataAverage[j].GetRollOff85() << ',' << observationDataStd[j].GetRollOff85() << ',' << observationDataMax[j].GetRollOff85() << ',' << observationDataMin[j].GetRollOff85() << ',' << observationDataAverage[j].GetRollOff95() << ',' << observationDataStd[j].GetRollOff95() << ',' << observationDataMax[j].GetRollOff95() << ',' << observationDataMin[j].GetRollOff95() << ',' << observationDataAverage[j].GetSpectralEntropy() << ',' << observationDataStd[j].GetSpectralEntropy() << ',' << observationDataMax[j].GetSpectralEntropy() << ',' << observationDataMin[j].GetSpectralEntropy() << ',' << observationDataAverage[j].GetSpectralCF() << ',' << observationDataStd[j].GetSpectralCF() << ',' << observationDataMax[j].GetSpectralCF() << ',' << observationDataMin[j].GetSpectralCF() << ',' << observationDataAverage[j].GetSpectralFlux() << ',' << observationDataStd[j].GetSpectralFlux() << ',' << observationDataMax[j].GetSpectralFlux() << ',' << observationDataMin[j].GetSpectralFlux() << ',' << observationDataAverage[j].GetMFCCs()[0] << ',' << observationDataStd[j].GetMFCCs()[0] << ',' << observationDataMax[j].GetMFCCs()[0] << ',' << observationDataMin[j].GetMFCCs()[0] << ',' << observationDataAverage[j].GetMFCCs()[1] << ',' << observationDataStd[j].GetMFCCs()[1] << ',' << observationDataMax[j].GetMFCCs()[1] << ',' << observationDataMin[j].GetMFCCs()[1] << ',' << observationDataAverage[j].GetMFCCs()[2] << ',' << observationDataStd[j].GetMFCCs()[2] << ',' << observationDataMax[j].GetMFCCs()[2] << ',' << observationDataMin[j].GetMFCCs()[2] << ',' << observationDataAverage[j].GetMFCCs()[3] << ',' << observationDataStd[j].GetMFCCs()[3] << ',' << observationDataMax[j].GetMFCCs()[3] << ',' << observationDataMin[j].GetMFCCs()[3] << ',' << observationDataAverage[j].GetMFCCs()[4] << ',' << observationDataStd[j].GetMFCCs()[4] << ',' << observationDataMax[j].GetMFCCs()[4] << ',' << observationDataMin[j].GetMFCCs()[4] << ',' << observationDataAverage[j].GetMFCCs()[5] << ',' << observationDataStd[j].GetMFCCs()[5] << ',' << observationDataMax[j].GetMFCCs()[5] << ',' << observationDataMin[j].GetMFCCs()[5] << ',' << observationDataAverage[j].GetMFCCs()[6] << ',' << observationDataStd[j].GetMFCCs()[6] << ',' << observationDataMax[j].GetMFCCs()[6] << ',' << observationDataMin[j].GetMFCCs()[6] << ',' << observationDataAverage[j].GetMFCCs()[7] << ',' << observationDataStd[j].GetMFCCs()[7] << ',' << observationDataMax[j].GetMFCCs()[7] << ',' << observationDataMin[j].GetMFCCs()[7] << ',' << observationDataAverage[j].GetMFCCs()[8] << ',' << observationDataStd[j].GetMFCCs()[8] << ',' << observationDataMax[j].GetMFCCs()[8] << ',' << observationDataMin[j].GetMFCCs()[8] << ',' << observationDataAverage[j].GetMFCCs()[9] << ',' << observationDataStd[j].GetMFCCs()[9] << ',' << observationDataMax[j].GetMFCCs()[9] << ',' << observationDataMin[j].GetMFCCs()[9] << ',' << observationDataAverage[j].GetMFCCs()[10] << ',' << observationDataStd[j].GetMFCCs()[10] << ',' << observationDataMax[j].GetMFCCs()[10] << ',' << observationDataMin[j].GetMFCCs()[10] << ',' << observationDataAverage[j].GetMFCCs()[11] << ',' << observationDataStd[j].GetMFCCs()[11] << ',' << observationDataMax[j].GetMFCCs()[11] << ',' << observationDataMin[j].GetMFCCs()[11] << ',' << observationDataAverage[j].GetDeltaMFCCs()[0] << ',' << observationDataStd[j].GetDeltaMFCCs()[0] << ',' << observationDataMax[j].GetDeltaMFCCs()[0] << ',' << observationDataMin[j].GetDeltaMFCCs()[0] << ',' << observationDataAverage[j].GetDeltaMFCCs()[1] << ',' << observationDataStd[j].GetDeltaMFCCs()[1] << ',' << observationDataMax[j].GetDeltaMFCCs()[1] << ',' << observationDataMin[j].GetDeltaMFCCs()[1] << ',' << observationDataAverage[j].GetDeltaMFCCs()[2] << ',' << observationDataStd[j].GetDeltaMFCCs()[2] << ',' << observationDataMax[j].GetDeltaMFCCs()[2] << ',' << observationDataMin[j].GetDeltaMFCCs()[2] << ',' << observationDataAverage[j].GetDeltaMFCCs()[3] << ',' << observationDataStd[j].GetDeltaMFCCs()[3] << ',' << observationDataMax[j].GetDeltaMFCCs()[3] << ',' << observationDataMin[j].GetDeltaMFCCs()[3] << ',' << observationDataAverage[j].GetDeltaMFCCs()[4] << ',' << observationDataStd[j].GetDeltaMFCCs()[4] << ',' << observationDataMax[j].GetDeltaMFCCs()[4] << ',' << observationDataMin[j].GetDeltaMFCCs()[4] << ',' << observationDataAverage[j].GetDeltaMFCCs()[5] << ',' << observationDataStd[j].GetDeltaMFCCs()[5] << ',' << observationDataMax[j].GetDeltaMFCCs()[5] << ',' << observationDataMin[j].GetDeltaMFCCs()[5] << ',' << observationDataAverage[j].GetDeltaMFCCs()[6] << ',' << observationDataStd[j].GetDeltaMFCCs()[6] << ',' << observationDataMax[j].GetDeltaMFCCs()[6] << ',' << observationDataMin[j].GetDeltaMFCCs()[6] << ',' << observationDataAverage[j].GetDeltaMFCCs()[7] << ',' << observationDataStd[j].GetDeltaMFCCs()[7] << ',' << observationDataMax[j].GetDeltaMFCCs()[7] << ',' << observationDataMin[j].GetDeltaMFCCs()[7] << ',' << observationDataAverage[j].GetDeltaMFCCs()[8] << ',' << observationDataStd[j].GetDeltaMFCCs()[8] << ',' << observationDataMax[j].GetDeltaMFCCs()[8] << ',' << observationDataMin[j].GetDeltaMFCCs()[8] << ',' << observationDataAverage[j].GetDeltaMFCCs()[9] << ',' << observationDataStd[j].GetDeltaMFCCs()[9] << ',' << observationDataMax[j].GetDeltaMFCCs()[9] << ',' << observationDataMin[j].GetDeltaMFCCs()[9] << ',' << observationDataAverage[j].GetDeltaMFCCs()[10] << ',' << observationDataStd[j].GetDeltaMFCCs()[10] << ',' << observationDataMax[j].GetDeltaMFCCs()[10] << ',' << observationDataMin[j].GetDeltaMFCCs()[10] << ',' << observationDataAverage[j].GetDeltaMFCCs()[11] << ',' << observationDataStd[j].GetDeltaMFCCs()[11] << ',' << observationDataMax[j].GetDeltaMFCCs()[11] << ',' << observationDataMin[j].GetDeltaMFCCs()[11] << ',' << observationDataAverage[j].GetLowEnergy() << ',' << observationDataAverage[j].GetPeriodicity() << ',' << observationDataAverage[j].GetEntropyOfEnergy() << ',' << label << ',' ; foutPooled << "\n"; } } else { std::cout << "ERROR: Can't write to .csv."; } foutPooled.close(); //WholeTrack std::string wholetrackfilename = filename + "Whole" + std::to_string(data.GetPoolingTimeFactor()) + "Sec.csv"; std::ofstream foutWholeTrack(wholetrackfilename, std::ios::app|std::ios::out); std::vector<ObservationData> wholeTrackobservationDataAverage = data.GetWholeTrackObservationDataAverage(); std::vector<ObservationData> wholeTrackobservationDataStd = data.GetWholeTrackObservationDataStd(); std::vector<ObservationData> wholeTrackobservationDataMax = data.GetWholeTrackObservationDataMax(); std::vector<ObservationData> wholeTrackobservationDataMin = data.GetWholeTrackObservationDataMin(); if (foutWholeTrack.is_open()) { for(size_t j = 0; j < wholeTrackobservationDataAverage.size(); j++) { foutWholeTrack << wholeTrackobservationDataAverage[j].GetRMS() << ','//1 << wholeTrackobservationDataStd[j].GetRMS() << ','//2 << wholeTrackobservationDataMax[j].GetRMS() << ','//3 << wholeTrackobservationDataMin[j].GetRMS() << ','//4 << wholeTrackobservationDataAverage[j].GetPeak() << ','//5 << wholeTrackobservationDataStd[j].GetPeak() << ','//6 << wholeTrackobservationDataMax[j].GetPeak() << ','//7 << wholeTrackobservationDataMin[j].GetPeak() << ','//8 << wholeTrackobservationDataAverage[j].GetCrestFactor() << ',' //9 << wholeTrackobservationDataStd[j].GetCrestFactor() << ',' //10 << wholeTrackobservationDataMax[j].GetCrestFactor() << ',' //11 << wholeTrackobservationDataMin[j].GetCrestFactor() << ',' //12 << wholeTrackobservationDataAverage[j].GetZCR() << ',' //13 << wholeTrackobservationDataStd[j].GetZCR() << ',' //14 << wholeTrackobservationDataMax[j].GetZCR()<< ',' //15 << wholeTrackobservationDataMin[j].GetZCR()<< ',' //16 << wholeTrackobservationDataAverage[j].GetCentroid() << ',' //17 << wholeTrackobservationDataStd[j].GetCentroid() << ',' //18 << wholeTrackobservationDataMax[j].GetCentroid() << ',' //19 << wholeTrackobservationDataMin[j].GetCentroid() << ',' //20 << wholeTrackobservationDataAverage[j].GetSpread() << ',' //21 << wholeTrackobservationDataStd[j].GetSpread() << ',' //22 << wholeTrackobservationDataMax[j].GetSpread() << ',' //23 << wholeTrackobservationDataMin[j].GetSpread() << ',' //24 << wholeTrackobservationDataAverage[j].GetSkewness() << ',' //25 << wholeTrackobservationDataStd[j].GetSkewness() << ',' //26 << wholeTrackobservationDataMax[j].GetSkewness() << ',' //27 << wholeTrackobservationDataMin[j].GetSkewness() << ',' //28 << wholeTrackobservationDataAverage[j].GetKurtosis() << ',' //29 << wholeTrackobservationDataStd[j].GetKurtosis() << ',' //30 << wholeTrackobservationDataMax[j].GetKurtosis() << ',' //31 << wholeTrackobservationDataMin[j].GetKurtosis() << ',' //32 << wholeTrackobservationDataAverage[j].GetBrightness() << ',' //33 << wholeTrackobservationDataStd[j].GetBrightness() << ',' //34 << wholeTrackobservationDataMax[j].GetBrightness() << ',' //35 << wholeTrackobservationDataMin[j].GetBrightness() << ',' //36 << wholeTrackobservationDataAverage[j].GetFlatness() << ',' //37 << wholeTrackobservationDataStd[j].GetFlatness() << ',' //38 << wholeTrackobservationDataMax[j].GetFlatness() << ','//39 << wholeTrackobservationDataMin[j].GetFlatness() << ','//40 << wholeTrackobservationDataAverage[j].GetRollOff85() << ',' //41 << wholeTrackobservationDataStd[j].GetRollOff85() << ',' //42 << wholeTrackobservationDataMax[j].GetRollOff85() << ',' //43 << wholeTrackobservationDataMin[j].GetRollOff85() << ',' //44 << wholeTrackobservationDataAverage[j].GetRollOff95() << ',' //45 << wholeTrackobservationDataStd[j].GetRollOff95() << ',' //46 << wholeTrackobservationDataMax[j].GetRollOff95() << ',' //47 << wholeTrackobservationDataMin[j].GetRollOff95() << ',' //48 << wholeTrackobservationDataAverage[j].GetSpectralEntropy() << ','//49 << wholeTrackobservationDataStd[j].GetSpectralEntropy() << ',' //50 << wholeTrackobservationDataMax[j].GetSpectralEntropy() << ','//51 << wholeTrackobservationDataMin[j].GetSpectralEntropy() << ','//52 << wholeTrackobservationDataAverage[j].GetSpectralCF() << ','//53 << wholeTrackobservationDataStd[j].GetSpectralCF() << ',' //54 << wholeTrackobservationDataMax[j].GetSpectralCF() << ','//55 << wholeTrackobservationDataMin[j].GetSpectralCF() << ','//56 << wholeTrackobservationDataAverage[j].GetSpectralFlux() << ','//57 << wholeTrackobservationDataStd[j].GetSpectralFlux() << ',' //58 << wholeTrackobservationDataMax[j].GetSpectralFlux() << ','//59 << wholeTrackobservationDataMin[j].GetSpectralFlux() << ','//60 << wholeTrackobservationDataAverage[j].GetMFCCs()[0] << ','//61 << wholeTrackobservationDataStd[j].GetMFCCs()[0] << ',' //62 << wholeTrackobservationDataMax[j].GetMFCCs()[0] << ',' //47 << wholeTrackobservationDataMin[j].GetMFCCs()[0] << ',' //48 << wholeTrackobservationDataAverage[j].GetMFCCs()[1] << ',' //49 << wholeTrackobservationDataStd[j].GetMFCCs()[1] << ',' //50 << wholeTrackobservationDataMax[j].GetMFCCs()[1] << ',' //51 << wholeTrackobservationDataMin[j].GetMFCCs()[1] << ',' //52 << wholeTrackobservationDataAverage[j].GetMFCCs()[2] << ',' //53 << wholeTrackobservationDataStd[j].GetMFCCs()[2] << ',' //54 << wholeTrackobservationDataMax[j].GetMFCCs()[2] << ',' //55 << wholeTrackobservationDataMin[j].GetMFCCs()[2] << ',' //56 << wholeTrackobservationDataAverage[j].GetMFCCs()[3] << ',' //57 << wholeTrackobservationDataStd[j].GetMFCCs()[3] << ',' //58 << wholeTrackobservationDataMax[j].GetMFCCs()[3] << ',' //59 << wholeTrackobservationDataMin[j].GetMFCCs()[3] << ',' //60 << wholeTrackobservationDataAverage[j].GetMFCCs()[4] << ',' //61 << wholeTrackobservationDataStd[j].GetMFCCs()[4] << ',' //62 << wholeTrackobservationDataMax[j].GetMFCCs()[4] << ',' //63 << wholeTrackobservationDataMin[j].GetMFCCs()[4] << ',' //64 << wholeTrackobservationDataAverage[j].GetMFCCs()[5] << ',' //65 << wholeTrackobservationDataStd[j].GetMFCCs()[5] << ',' //66 << wholeTrackobservationDataMax[j].GetMFCCs()[5] << ',' //67 << wholeTrackobservationDataMin[j].GetMFCCs()[5] << ',' //68 << wholeTrackobservationDataAverage[j].GetMFCCs()[6] << ',' //69 << wholeTrackobservationDataStd[j].GetMFCCs()[6] << ',' //70 << wholeTrackobservationDataMax[j].GetMFCCs()[6] << ',' //71 << wholeTrackobservationDataMin[j].GetMFCCs()[6] << ',' //72 << wholeTrackobservationDataAverage[j].GetMFCCs()[7] << ',' //73 << wholeTrackobservationDataStd[j].GetMFCCs()[7] << ',' //74 << wholeTrackobservationDataMax[j].GetMFCCs()[7] << ',' //75 << wholeTrackobservationDataMin[j].GetMFCCs()[7] << ',' //76 << wholeTrackobservationDataAverage[j].GetMFCCs()[8] << ',' //77 << wholeTrackobservationDataStd[j].GetMFCCs()[8] << ',' //78 << wholeTrackobservationDataMax[j].GetMFCCs()[8] << ',' //79 << wholeTrackobservationDataMin[j].GetMFCCs()[8] << ',' //80 << wholeTrackobservationDataAverage[j].GetMFCCs()[9] << ',' //81 << wholeTrackobservationDataStd[j].GetMFCCs()[9] << ',' //82 << wholeTrackobservationDataMax[j].GetMFCCs()[9] << ',' //83 << wholeTrackobservationDataMin[j].GetMFCCs()[9] << ',' //84 << wholeTrackobservationDataAverage[j].GetMFCCs()[10] << ',' //85 << wholeTrackobservationDataStd[j].GetMFCCs()[10] << ',' //86 << wholeTrackobservationDataMax[j].GetMFCCs()[10] << ',' //87 << wholeTrackobservationDataMin[j].GetMFCCs()[10] << ',' //88 << wholeTrackobservationDataAverage[j].GetMFCCs()[11] << ',' //89 << wholeTrackobservationDataStd[j].GetMFCCs()[11] << ',' //90 << wholeTrackobservationDataMax[j].GetMFCCs()[11] << ',' //91 << wholeTrackobservationDataMin[j].GetMFCCs()[11] << ',' //92 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[0] << ','//45 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[0] << ',' //46 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[0] << ',' //47 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[0] << ',' //48 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[1] << ',' //49 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[1] << ',' //50 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[1] << ',' //51 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[1] << ',' //52 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[2] << ',' //53 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[2] << ',' //54 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[2] << ',' //55 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[2] << ',' //56 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[3] << ',' //57 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[3] << ',' //58 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[3] << ',' //59 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[3] << ',' //60 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[4] << ',' //61 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[4] << ',' //62 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[4] << ',' //63 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[4] << ',' //64 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[5] << ',' //65 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[5] << ',' //66 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[5] << ',' //67 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[5] << ',' //68 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[6] << ',' //69 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[6] << ',' //70 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[6] << ',' //71 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[6] << ',' //72 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[7] << ',' //73 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[7] << ',' //74 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[7] << ',' //75 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[7] << ',' //76 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[8] << ',' //77 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[8] << ',' //78 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[8] << ',' //79 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[8] << ',' //80 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[9] << ',' //81 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[9] << ',' //82 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[9] << ',' //83 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[9] << ',' //84 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[10] << ',' //85 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[10] << ',' //86 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[10] << ',' //87 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[10] << ',' //88 << wholeTrackobservationDataAverage[j].GetDeltaMFCCs()[11] << ',' //89 << wholeTrackobservationDataStd[j].GetDeltaMFCCs()[11] << ',' //90 << wholeTrackobservationDataMax[j].GetDeltaMFCCs()[11] << ',' //91 << wholeTrackobservationDataMin[j].GetDeltaMFCCs()[11] << ',' //92 << wholeTrackobservationDataAverage[j].GetLowEnergy() << ',' //93 << wholeTrackobservationDataAverage[j].GetPeriodicity() << ',' //94 << wholeTrackobservationDataAverage[j].GetEntropyOfEnergy() << ',' //95 << label << ',' ; foutWholeTrack << "\n"; } } else { std::cout << "ERROR: Can't write to .csv."; } foutWholeTrack.close(); std::string dave = "Files written: " + std::to_string(count) + " Obs Data Size:" + std::to_string(wholeTrackobservationDataAverage.size())+ "\n"; OutputDebugString(dave.c_str()); count++; }; // Get current date/time, format is YYYY-MM-DD.HH:mm:ss const std::string WriteCSV::currentDateTime() { time_t now = time(0); struct tm tstruct; char buf[80]; tstruct = *localtime(&now); strftime(buf, sizeof(buf), "%Y-%m-%d.%H-%M-%S", &tstruct); return buf; }