#include #include #include #include "./Include/simulateFlux.h" #include "./Include/power.h" #include "./Include/initialParameters.h" #include "./Include/queue.h" #include "./Include/average.h" #include "./Include/growthRate.h" #include "./Include/getArray.h" #include "./Include/database.h" bool rawDataWriteFlag; int nRowRawData = 5000; int nRowGR = 150; int nCol = 1; double freqEch = 250; int nbRowBinFile = 900011; int nbRowIgnore = 19; Pqueue firstRawDataQueue; // Captor 1 2 3 4 5 6 7 8 bool selectionCaptors[] = {true, false, true, false, false, false, true, false}; int cptData = 0; int cptFile = 1; int cptValue = 0; double period = 0; double invTimeBandWidth = 0; void *threadCalculPower(void *vargp) { Pqueue rawDataQueue = firstRawDataQueue; char *fileName; while (rawDataWriteFlag) { while (queueGetNextE(rawDataQueue) != NULL) { rawDataQueue = queueGetNextE(rawDataQueue); fileName = queueGetTabChar(rawDataQueue); powerFunction(fileName, NULL); remove(fileName); } } return NULL; } void *threadCalculAverage(void *vargp) { Pqueue rawDataQueue = firstRawDataQueue; char *fileName; while (rawDataWriteFlag) { while (queueGetNextE(rawDataQueue) != NULL) { rawDataQueue = queueGetNextE(rawDataQueue); fileName = queueGetTabChar(rawDataQueue); printf("%s\n", fileName); averageFunction(fileName, NULL); remove(fileName); } } return NULL; } void *threadCalculBoth(void *vargp) { Pqueue rawDataQueue = firstRawDataQueue; char *fileName; while (rawDataWriteFlag) { while (queueGetNextE(rawDataQueue) != NULL) { rawDataQueue = queueGetNextE(rawDataQueue); fileName = queueGetTabChar(rawDataQueue); powerFunction(fileName, NULL); averageFunction(fileName, NULL); remove(fileName); } } return NULL; } void *threadCalculGrowthRate(void *vargp) { Pqueue rawDataQueue = firstRawDataQueue; char *fileName; // double pw[nCol-1]; double **dataLignPw = getDoubleArray(2, nCol); double **dataLignAv = getDoubleArray(2, nCol); int i = 0; while (rawDataWriteFlag) { while (queueGetNextE(rawDataQueue) != NULL) { rawDataQueue = queueGetNextE(rawDataQueue); fileName = queueGetTabChar(rawDataQueue); printf("%s\n", fileName); if (i < 2) { if (i == 1) { powerFunction(fileName, dataLignPw); averageFunction(fileName, dataLignAv); growthRateFunction(dataLignPw, "growthRatePw.csv"); growthRateFunction(dataLignAv, "growthRateAv.csv"); } else { averageFunction(fileName, dataLignAv); powerFunction(fileName, dataLignPw); } i++; } else { for (int y = 0; y < (nCol - 1); y++) { dataLignPw[0][y] = dataLignPw[1][y]; dataLignAv[0][y] = dataLignAv[1][y]; } powerFunction(fileName, dataLignPw); averageFunction(fileName, dataLignAv); growthRateFunction(dataLignPw, "growthRatePw.csv"); growthRateFunction(dataLignPw, "growthRateAv.csv"); } remove(fileName); } } return NULL; } int main(int argc, char **argv) { for (int i = 0; i < 8; i++) { if (selectionCaptors[i]) { nCol++; } } printf("%d", nCol); rawDataWriteFlag = true; period = 1 / freqEch; invTimeBandWidth = 1 / (nRowRawData * period); firstRawDataQueue = queueCreateEmpty(); // change this for create empty // launch DB related function sqlite3_initialize(); createDb(); // Created the Db if not exist initiaizeNewTrial("test", freqEch, selectionCaptors); // Initialize Trials data and tables // pthread_t rawData; // if (pthread_create(&rawData, NULL, threadSimulateFlux, "threadSimulflux") != 0) // { // perror("threadSimulflux() error"); // exit(1); // } // pthread_t calculAverage; // if (pthread_create(&calculAverage, NULL, threadCalculAverage, "threadCalculAverage")) // { // perror("threadCalculAverage() error"); // exit(1); // } // pthread_t calculGrowthRate; // if (pthread_create(&calculGrowthRate, NULL, threadCalculGrowthRate, "threadCalculGrowthRate")) // { // perror("threadcalculGrowthRate() error"); // exit(1); // } // pthread_exit(NULL); sqlite3_shutdown(); }