Merge branch 'SimulFlux'

This commit is contained in:
quentin.perret 2022-06-14 11:42:00 +02:00
commit 9bb5e5e99d
16 changed files with 178 additions and 56 deletions

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@ -1,7 +1,7 @@
CC = gcc
all:
$(CC) fileGestion.c getArray.c power.c queue.c simulateFlux.c main.c -lm -lpthread -o main
$(CC) fileGestion.c getArray.c average.c power.c queue.c simulateFlux.c main.c -lm -lpthread -o main
# $(CC) queue.c simulateFlux.c main.c -lm -lpthread -o main
./main < ../02400031.TXT

42
Code-C/average.c Normal file
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@ -0,0 +1,42 @@
#include "average.h"
#include "getArray.h"
#include "fileGestion.h"
#include "initialParameters.h"
#include "queue.h"
/**
* @brief realize the average calcul
*
* @param p array with all the values that will be used for the calcul
* @param averageArray array where results are stocked
* @param N number of rows in p
* @param M number of columns in p
*/
void averageCalculation(long **p, double averageArray[] , int N, int M){
for(int i = 0; i < M-1; i++){
int j = 0;
averageArray[i] = 0;
while(j < N){
averageArray[i] += p[i][j];
j++;
}
averageArray[i] /= N;
//printf("%f\n", powerArray[i]);
}
}
/**
* @brief function that realize all the action to write one lign in the file averageData.csv
*
* @param rawDataFileName name of the raw data file to use to realize the calcul
* @param N number of rows in the file
* @param M number of columns in the file
*/
void average(char* rawDataFileName,int N , int M){
long **p = getRawDataArray(rawDataFileName,N, M);
double aver[8];
if(p !=NULL){
averageCalculation(p,aver,N,M);
writeDataInFile("averageData.csv",aver,8);
freeArray(p,N);
}
}

4
Code-C/average.h Normal file
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@ -0,0 +1,4 @@
#include <math.h>
#include <stdbool.h>
void average(char* rawDataFileName,int N , int M);

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@ -43,6 +43,8 @@ void b2hd()
}
}
}
int main(int argc , char** argv){
b2hd();
}

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@ -21,18 +21,18 @@ void clearRawData(int nRow){
fclose(f); fclose(g);
}
/**
* @brief use to write the file powerData.csv that contaign all power calculous results
* @brief use to write one lign in the file "fileName"
*
* @param powerArray
* @param nCol size of the power array, correspond to the number of captor used
* @param array array that contaign all the values to write in the file
* @param nCol size of the array (correspond to the number of captor used)
*/
void writePowerData(double powerArray[], int nCol){
FILE *f = fopen("powerData.csv","a+");
void writeDataInFile(char* fileName , double array[], int nCol){
FILE *f = fopen(fileName,"a+");
for(int i = 0 ; i < nCol ; i++){
if( i < nCol-1){
fprintf(f, "%f , ", powerArray[i]);
fprintf(f, "%f , ", array[i]);
} else {
fprintf(f, "%f\n", powerArray[i]);
fprintf(f, "%f\n", array[i]);
}
}
fclose(f);

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@ -5,4 +5,4 @@
void clearRawData(int N);
void writePowerData(double a[], int N);
void writeDataInFile(char* fileName , double a[], int N);

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@ -15,27 +15,23 @@ long **get(int N, int M) /* Allocate the array */
void fillArrayWithRawData(char *rawDataFileName,long** p, int N, int M) {
int i, j;
char *buffer;
size_t bufsize = 200;
buffer = (char *)malloc(bufsize * sizeof(char));
char* token;
FILE *f = fopen(rawDataFileName,"r");
for(i = 0 ; i < N ; i++){
if (!getline(&buffer, &bufsize, f)) break; // condition d'arret de la boucle si fichier fini
//printf("buffer : %s token : ",buffer);
j = 0;
while((token = strsep(&buffer,",")) != NULL){ // séparation valeur par virgule initiale : csv
//printf(token);
p[i][j] = atoi(token);
//printf("%d,", p[i][j]);
//printf("%d, " , p[i][j]);
j++;
}
//printf("\n\n");
}
fclose(f);
}
/**
* @brief print all the element of a bidimensionnal array p of shape : N x M
@ -53,10 +49,11 @@ void printArrayData(long** p, int N, int M) {
/**
* @brief verify if all the element of an array are not NULL, return
*
* @param p
* @param N
* @param M
* @return int
* @param p array to check
* @param N number of rows in p
* @param M number of columns in p
* @return true if the array contaign no NULL element
* @return false if at least one element is null
*/
bool checkArrayFullyFill(long **p, int N , int M){
for(int i = 0 ; i < N ; i++){
@ -65,6 +62,12 @@ bool checkArrayFullyFill(long **p, int N , int M){
return true;
}
/**
* @brief free memory allocate to an array p
*
* @param p array to free memory
* @param N number of rows in array
*/
void freeArray(long **p, int N) {
int i;
for(i = 0 ; i < N ; i++)
@ -72,18 +75,23 @@ void freeArray(long **p, int N) {
free(p);
}
/**
* @brief Get the Raw Data Array object
*
* @param rawDataFileName name of the file to use to file the array
* @param N numbers of rows to have i the array
* @param M numbers of columns to have i the array
* @return long** the array fill with raw data
*/
long **getRawDataArray(char* rawDataFileName , int N , int M){
long **p;
p = get(N, M);
fillArrayWithRawData(rawDataFileName,p ,N, M);
//printf("before test\n");
if(checkArrayFullyFill(p,N,M)==0){
//printf("after test 0\n");
clearRawData(N);
if(checkArrayFullyFill(p,N,M)){
//clearRawData(N);
return p;
}
else{
//printf("after test 1\n");
return NULL;
}
}

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@ -1,7 +1,7 @@
#include <stdbool.h>
#include "queue.h"
extern bool rawDataWriteFlag , stopFlag;
extern bool rawDataWriteFlag;
extern int nRow;
extern int nCol;
extern double freqEch;

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@ -4,9 +4,10 @@
#include "power.h"
#include "initialParameters.h"
#include "queue.h"
#include "average.h"
bool rawDataWriteFlag = 0, stopFlag = 0;
int nRow = 100000;
bool rawDataWriteFlag;
int nRow = 500;
int nCol = 9;
double freqEch = 250;
@ -21,31 +22,59 @@ int cptFile = 1;
double period = 0;
double invTimeBandWidth = 0;
void *threadCalcul(void *vargp){
printf("start thread calcul\n");
void *threadCalculPower(void *vargp){
Pqueue rawDataQueue = firstRawDataQueue;
while(queueGetNextE(rawDataQueue) != NULL){
printf("wile calcul\n");
//pthread_mutex_lock(&mutex);
power(queueGetTabChar(rawDataQueue),nRow,nCol,period,invTimeBandWidth);
/*remove(queueGetTabChar(rawDataQueue));
rawDataQueue = queueRmFrstE(rawDataQueue);*/
char* fileName;
while(rawDataWriteFlag){
while(queueGetNextE(rawDataQueue) != NULL){
rawDataQueue = queueGetNextE(rawDataQueue);
fileName = queueGetTabChar(rawDataQueue);
power(fileName,nRow,nCol,period,invTimeBandWidth);
remove(fileName);
}
}
}
//pthread_mutex_unlock(&mutex);
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){
rawDataWriteFlag = true;
period = 1 / freqEch;
invTimeBandWidth = 1 /(nRow * period);
firstRawDataQueue = queueCreateEmpty(); // change this for create empty
pthread_t rawData;
pthread_create(&rawData , NULL, simulateFlux, (void *)&rawData);
pthread_create(&rawData , NULL, threadSimulateFlux, (void *)&rawData);
//pthread_t calcul;
//pthread_create(&calcul , NULL, threadCalcul, (void *)&calcul);
pthread_t calcul;
pthread_create(&calcul , NULL, threadCalculBoth, (void *)&calcul);
pthread_exit(NULL);
}

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@ -4,6 +4,14 @@
#include "initialParameters.h"
#include "queue.h"
/**
* @brief realize the power calcul
*
* @param p array with all the values that will be used for the calcul
* @param powerArray array where results are stocked
* @param N number of rows in p
* @param M number of columns in p
*/
void powerCalculation(long **p, double powerArray[] , int N, int M , double period , double invTimeBandwidth){
for(int i = 0; i < M-1; i++){
int j = 0;
@ -18,12 +26,20 @@ void powerCalculation(long **p, double powerArray[] , int N, int M , double peri
//printf("%f\n", powerArray[i]);
}
}
/**
* @brief function that realize all the action to write one lign in the file powerData.csv
*
* @param rawDataFileName name of the raw data file to use to realize the calcul
* @param N number of rows in the file
* @param M number of columns in the file
*/
bool power(char* rawDataFileName,int N , int M, double periode , double invTimeBandwidth){
long **p = getRawDataArray(rawDataFileName,N, M);
double pw[8];
if(p !=NULL){
powerCalculation(p,pw,N,M,periode,invTimeBandwidth);
writePowerData(pw,8);
writeDataInFile("powerData.csv",pw,8);
freeArray(p,N);
return true;
}

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@ -2,4 +2,3 @@
#include <stdbool.h>
bool power(char* rawDataFileName,int N , int M, double periode , double invTimeBandwidth);
void *threadCalcul(void *vargp);

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@ -148,14 +148,11 @@ Pqueue queueRmLastE(Pqueue elem){
* @brief remove and free the first element of queue
*
* @param elem target to remove (the element need to be the first)
* @return Pqueue the second element after remove first
*/
Pqueue queueRmFrstE(Pqueue elem){
void queueRmFrstE(Pqueue elem){
assert(elem);
Pqueue tmp = elem->pNextE;
free(elem->tabChar);
free(elem);
return tmp;
}
/**
@ -177,7 +174,6 @@ Pqueue queueNextDelFrst(Pqueue elem){
* @param elem Pqueue will be added at the end of queue
* @param str the string will be bind at the element
* @param len the lenght of char array
* @return Pqueue pointer to the last element
*/
void queueAddLastQ(Pqueue elem, const char* str, int len){
assert(elem);
@ -208,6 +204,11 @@ void queuePrintE(Pqueue elem){
}
}
/**
* @brief Print all the element starting from @param firstE till the end of the linked list
*
* @param firstE
*/
void queuePrintWholeQ(Pqueue firstE){
queuePrintE(firstE);
Pqueue elem = firstE;

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@ -19,7 +19,7 @@ void queueAddLastQ(Pqueue elem, const char* str, int len);
//Removers
Pqueue queueRmLastE(Pqueue elem);
Pqueue queueRmFrstE(Pqueue elem);
void queueRmFrstE(Pqueue elem);
Pqueue queueNextDelFrst(Pqueue elem);
//print function

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@ -2,7 +2,12 @@
#include "initialParameters.h"
#include "queue.h"
/**
* @brief convert an interger N into a char*
*
* @param N
* @return char*
*/
char* convertIntegerToChar(int N)
{
// Count digits in number N
@ -28,6 +33,11 @@ char* convertIntegerToChar(int N)
return (char*)arr;
}
/**
* @brief Create a New Raw Data File Name
*
* @return char*
*/
char *createNewRawDataFileName(){
char *fileName = "../RawDataFiles/RawData";
char *extension = ".csv\0";
@ -58,13 +68,25 @@ int maxInArray(int *array , int N){
}
return max;
}
/**
* @brief return the unix time in millisecond
*
* @return int64_t
*/
int64_t millis()
{
struct timespec now;
timespec_get(&now, TIME_UTC);
return ((int64_t) now.tv_sec) * 1000 + ((int64_t) now.tv_nsec) / 1000000;
}
/**
* @brief write one lign of rawData in the file @param rawDataFile (simulate of freq of the Vegetal Signals Captor)
*
* @param rawDataFile
* @return true if the lign is correctly write , else :
* @return false
*/
bool writeOneRawData(FILE *rawDataFile){
char buff[26];
char buff2[18];
@ -105,7 +127,7 @@ bool writeOneRawData(FILE *rawDataFile){
}
}
cptData++;
//sleep(0.004); //simul la freq ech
//sleep(0.004); //simul freq here
return true;
}
else {
@ -113,8 +135,7 @@ bool writeOneRawData(FILE *rawDataFile){
}
}
void *simulateFlux(void *vargp){
printf("start thread simul\n");
void *threadSimulateFlux(void *vargp){
char *fileName = createNewRawDataFileName();
FILE *rawDataFile = fopen(fileName,"w+");
@ -131,5 +152,5 @@ void *simulateFlux(void *vargp){
FILE *rawDataFile = fopen(fileName,"w+");
}
}
queuePrintWholeQ(firstRawDataQueue);
rawDataWriteFlag = false;
}

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@ -18,4 +18,4 @@ extern int cptFile;
char *convertIntegerToChar(int N);
bool writeOneRawData(FILE *f);
void *simulateFlux(void *vargp);
void *threadSimulateFlux(void *vargp);