Traitement-signal-plantes/Code-C/main.c

#include <pthread.h>
#include <stdbool.h>
#include "simulateFlux.h"
#include "power.h"
#include "initialParameters.h"
#include "queue.h"
#include "average.h"

bool rawDataWriteFlag;
int nRow = 500;
int nCol = 9;
double freqEch = 250;

Pqueue firstRawDataQueue;

int selectionCaptors[] =  {1,2,3,4,5,6,7,8};
int sizeSelectionArray = 8;

int cptData = 0; 
int cptFile = 1;

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);
            power(fileName,nRow,nCol,period,invTimeBandWidth);
            remove(fileName);
        }
    }
}

void *threadCalculAverage(void *vargp){
    Pqueue rawDataQueue = firstRawDataQueue;
    char* fileName;
    while(rawDataWriteFlag){
        while(queueGetNextE(rawDataQueue) != NULL){
            rawDataQueue = queueGetNextE(rawDataQueue);
            fileName = queueGetTabChar(rawDataQueue);
            average(fileName,nRow,nCol);
            remove(fileName);
        }
    }
}

void *threadCalculBoth(void *vargp){
    Pqueue rawDataQueue = firstRawDataQueue;
    char* fileName;
    while(rawDataWriteFlag){
        while(queueGetNextE(rawDataQueue) != NULL){
            rawDataQueue = queueGetNextE(rawDataQueue);
            fileName = queueGetTabChar(rawDataQueue);
            power(fileName,nRow,nCol,period,invTimeBandWidth);
            average(fileName,nRow,nCol);
            //remove(fileName);
        }
    }
}

int main(int argc , char** argv){

    for(int i = 0 ; i < 8 ; i++){
        if(selectionCaptors[i]){
            nCol++;
        }
    }

    rawDataWriteFlag = true;

    period = 1 / freqEch;
    invTimeBandWidth = 1 /(nRow * period);
    firstRawDataQueue = queueCreateEmpty(); // change this for create empty
    
    pthread_t rawData;
    pthread_create(&rawData , NULL, threadSimulateFlux, (void *)&rawData);

    pthread_t calcul;
    pthread_create(&calcul , NULL, threadCalculBoth, (void *)&calcul);

    pthread_exit(NULL);
}