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| #include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <string.h>
#include <math.h>
#include <algorithm>
int random_SSD;
int experiment;
int N;
int Eccentricity;
int subfix;
int looptrial;
int looptrialCTM;
int Ntrials;
int NtrialsCTM;
int tnum;
//int SSD_nb;
int SSD_times;
int a;
float x, y, x2, y2;
int init_fix_min;
int init_time_fix_nb;
int init_fix_max;
int targ_time_fix_nb;
int targ_fix_min;
int targ_fix_max;
char name[128];
char extension[5]=".txt";
char filename;
int random_nb;
void ecrire_fct1( FILE* fp, double angle )
{
if( random_nb >= 0 && random_nb <= 7 )
{
x=cos(angle*random_nb)*Eccentricity;
y=sin(angle*random_nb)*Eccentricity;
}
else
random_nb = rand() % tnum;
init_time_fix_nb = ( rand() % ( init_fix_max - init_fix_min + 1) + init_fix_min );
fprintf(fp,"4%d%d 0 \n", Eccentricity, random_nb );
fprintf(fp,"0 %d 10 8 1 0 0 5 5 0 \n",init_time_fix_nb);
//fprintf(fp,"%d%s",init_time_fix_nb, " " );
targ_time_fix_nb = ( rand() % ( targ_fix_max - targ_fix_min + 1 ) + targ_fix_min );
fprintf(fp,"%d %d 10 8 1 %.1f %.1f 7 5 0 \n",init_time_fix_nb,targ_time_fix_nb, x, y );
//fprintf(fp,"%d%s",init_time_fix_nb, " " );
fprintf(fp,"%d %d 0 8 2 %.1f %.1f 7 5 0 \n \n \n",init_time_fix_nb,targ_time_fix_nb, x * -1, y * -1 );
}
void ecrire_fct2( FILE* fp, double angle )
{
int SSD_nb=0;
int Tab[SSD_nb];
int i;
int nbr = 0;
printf("Combien de SDD ?: ");
scanf("%d",&SSD_nb);
for ( i = 0 ; i < SSD_nb ; i++ )
{
printf("Entrez une valeur: ");
scanf("%d",Tab + i);
}
nbr = rand() % SSD_nb;
random_nb = rand() % tnum;
fprintf(fp,"%s","3");
fprintf(fp,"%d",Eccentricity);
fprintf(fp,"%d",random_nb);
fprintf(fp,"%s"," ");
fprintf(fp,"%s \n","0");
fprintf(fp,"%s","0");
fprintf(fp,"%s"," ");
if( random_nb >= 0 && random_nb <= 7 )
{
x=cos(angle*random_nb)*Eccentricity;
y=sin(angle*random_nb)*Eccentricity;
}
else
init_time_fix_nb = (rand() % (init_fix_max - init_fix_min+1) + init_fix_min);
fprintf(fp,"%d 10 8 1 0 0 5 5 0 \n",init_time_fix_nb);
fprintf(fp,"%d%s",init_time_fix_nb, " ");
fprintf(fp,"%d 0 8 0 2 %.1f %.1f 7 5 0 \n",targ_time_fix_nb, x, y);
fprintf(fp,"%d%s",init_time_fix_nb, " ");
targ_time_fix_nb = (rand() % (targ_fix_max - targ_fix_min+1) + targ_fix_min);
int po = (targ_time_fix_nb + Tab[nbr]);
fprintf(fp,"%d 10 8 1 0 0 5 5 0 \n \n \n",po );
}
/* main a 2 prototype
int main( void ) ou
int main( int argc, char** argv )
*/
int main( void )
{
double angle = 0.;
FILE *fp = NULL;
int nb_pharse1_a_ecrire = 0;
int nb_pharse2_a_ecrire = 0;
int nb_aleatoire = 0;
srand(time(NULL));
printf("This programm will generate the experimental setup \n");
printf(" \n");
printf(" \n");
/* type of experiment */
printf("**** Last update 23 December 2008******************************** \n");
printf(" \n");
printf(" \n");
printf("Type of experiment 1-PS,2-AS,3-CTM,4-Memory guided: ");
scanf("%d",&experiment);
printf("Calibration name (max 20 char): ");
/* sans le "&" ca suffira par contre cette lecture est pas securisé du tout pour plusieurs raisons
je t invite a faire une recherche sur le forum, le sujet est souvent traité et sera plus complet que ne pourrait t en dire */
scanf("%19s", name);
/* vider le buffer, si le mec rentre une chaine plus grande que 20 t aura des
surpises a la prochaine saisie */
while( getchar() != '\n' )
{
}
strcat(name,extension);
fp = fopen(name,"w");
/* il faut tester ce retour, si on peut pas ouvrir le fichier, ca donnera un joli comportement indertermié
qui donne souvent un beau plantage */
if( fp == NULL )
{
fprintf( stderr, "Erreur lors de l ouverture du fichier : %s\n", name );
}
else
{
printf("Eccentricy of Target (degree): ");
scanf("%d",&Eccentricity);
printf("Number of Target (1-8): ");
scanf("%d",&tnum);
printf("# Number of Trials? - KEEP IN MIND: this will be adjusted depending on the conditions- \n");
scanf("%d",&Ntrials);
printf("************** Timing information ***************************************** \n");
printf("Minimum Initial Fixation Time(0ms): ");
scanf("%d",&init_fix_min);
printf("Maximum Initial Fixation Time(5000ms): ");
scanf("%d",&init_fix_max);
printf("Minimum Target presentation Time(0ms): ");
scanf("%d",&targ_fix_min);
printf("Maximum Target presentation Time 5000ms): ");
scanf("%d",&targ_fix_max);
printf("**************************************************************** \n");
printf(" \n");
printf(" \n");
angle = ((360/tnum) *(3.14159 / 180));
/* HERE THE PRINTING PART -IN FILE STARTS */
if (experiment==1)
{
/* In PRO-SACC paradigm only two event are present
1- The central fixation comes on
2- The peripheral target is presented
*/
N=3;
fprintf(fp,"# N Visual Event \n");
fprintf(fp,"%d \n",N);
fprintf(fp,"# PRO-SACC: Pro-saccade paradigm \n");
fprintf(fp,"# Target eccentricity \n");
fprintf(fp,"%d \n",Eccentricity);
fprintf(fp,"# Ps: VGS cibles vertes \n");
fprintf(fp,"# Fixation centrale = 700ms \n");
fprintf(fp,"# Cible Laterale = 900 ms \n");
fprintf(fp,"# Intertrial 2000-2500 ms \n");
fprintf(fp,"# temps/duree/couleur/taille fenetre ok(1) ou erreur(2) x et y tailles wind \n");
fprintf(fp," \n");
/* Determine the number of trial
*/
//Ntrials
while(looptrial<Ntrials)
{
random_nb = rand() % tnum;
init_time_fix_nb = (rand() % (init_fix_max - init_fix_min+1) + init_fix_min);
//fprintf(fp,"# Trial INFOS \n");
fprintf(fp,"4%d%d 0 \n",Eccentricity,random_nb);
//rand() % (HIGH - LOW + 1) + LOW;
if( random_nb >= 0 && random_nb <= 7 )
{
x=cos(angle*random_nb)*Eccentricity;
y=sin(angle*random_nb)*Eccentricity;
}
else
init_time_fix_nb = (rand() % (init_fix_max - init_fix_min+1) + init_fix_min);
targ_time_fix_nb = (rand() % (targ_fix_max - targ_fix_min+1) + targ_fix_min);
fprintf(fp,"0 %d 10 8 1 0 0 5 5 0 \n",init_time_fix_nb);
// fprintf(fp,"%d%s",init_time_fix_nb, " ");
fprintf(fp,"%d %d 10 1 1 %.1f %.1f 7 5 0 \n",init_time_fix_nb, targ_time_fix_nb, x, y);
//fprintf(fp,"%d%s",init_time_fix_nb, " ");
fprintf(fp,"%d %d 0 8 2 %.1f %.1f 7 5 0 \n \n \n",init_time_fix_nb, targ_time_fix_nb, x*-1, y*-1);
++looptrial;
}
} /* end of PRO SACCADE LOOP */
else if (experiment==2)
{
/* In ANTI-SACC paradigm only two event are present
1- The central fixation comes on
2- The peripheral target is presented
*/
N=3;
fprintf(fp,"# N Visual Event \n");
fprintf(fp,"%d \n",N);
fprintf(fp,"# PRO-SACC: Pro-saccade paradigm \n");
fprintf(fp,"# Target eccentricity \n");
fprintf(fp,"%d \n",Eccentricity);
fprintf(fp,"# Ps: VGS cibles vertes \n");
fprintf(fp,"# Fixation centrale = 700ms \n");
fprintf(fp,"# Cible Laterale = 900 ms \n");
fprintf(fp,"# Intertrial 2000-2500 ms \n");
fprintf(fp,"# temps/duree/couleur/taille fenetre ok(1) ou erreur(2) x et y tailles wind \n");
fprintf(fp," \n");
/* Determine the number of trial
*/
//Ntrials
while(looptrial<Ntrials)
{
random_nb = rand() % tnum;
if( random_nb >= 0 && random_nb <= 7 )
{
x=cos(angle*random_nb)*Eccentricity;
y=sin(angle*random_nb)*Eccentricity;
}
else
init_time_fix_nb = (rand() % (init_fix_max - init_fix_min+1) + init_fix_min);
targ_time_fix_nb = (rand() % (targ_fix_max - targ_fix_min+1) + targ_fix_min);
//fprintf(fp,"# Trial INFOS \n");
fprintf(fp,"3%d%d 0 \n",Eccentricity,random_nb);
//rand() % (HIGH - LOW + 1) + LOW;
init_time_fix_nb = (rand() % (init_fix_max - init_fix_min+1) + init_fix_min);
fprintf(fp,"0 %d 12 8 1 0 0 5 5 0 \n",init_time_fix_nb);
// fprintf(fp,"%d%s",init_time_fix_nb, " ");
fprintf(fp,"%d 8 16 1 1 %.1f %.1f 7 5 0 \n",init_time_fix_nb, x, y);
//fprintf(fp,"%d%s",init_time_fix_nb, " ");
fprintf(fp,"%d %d 10 8 2 %.1f %.1f 7 5 0 \n \n \n",init_time_fix_nb, targ_time_fix_nb, x, y);
++looptrial;
}
}//end of anti-sacc file
if (experiment==3)
{
//
// printf("Number of Stop Signal Delay ? : ");
// scanf("%d",&SSD_nb);
//
// fprintf(fp,"# SSD times (ms)\n");
//
// /* looptrial vaut combien, il est jamais initialisé, il vaut peut etre 4853483754, ss_nb non plus on dirait,
// mais pour lui je sais pas valeur faut lui donner */
// looptrial = 0;
//
// while (looptrial<SSD_nb)
// {
//
// printf("Times of Stop Signal Delay (ms) ? : ");
//
// scanf("%d",&SSD_times);
//
// fprintf(fp,"%d \n",SSD_times);
//
//
//
// ++looptrial;
//
//
// }
N=3;
fprintf(fp,"# CTM-SACC: Countermanding paradigm \n");
fprintf(fp,"# N Visual Event \n");
fprintf(fp,"%d \n",N);
fprintf(fp,"# CTM: countermanding \n");
fprintf(fp,"# code 4 PS normale, 3 countermanding, impair droite, pair gauche \n");
fprintf(fp,"# Target eccentricity \n");
fprintf(fp,"%d \n",Eccentricity);
fprintf(fp,"# Ps: VGS cibles vertes \n");
fprintf(fp,"# Fixation centrale = 700ms \n");
fprintf(fp,"# Cible Laterale = 900 ms \n");
fprintf(fp,"# Intertrial 2000-2500 ms \n");
fprintf(fp,"# temps/duree/couleur/taille fenetre ok(1) ou erreur(2) x et y tailles wind \n");
fprintf(fp," \n");
nb_pharse1_a_ecrire = Ntrials*0.7;
nb_pharse2_a_ecrire = Ntrials*0.3;
while( nb_pharse1_a_ecrire > 0 && nb_pharse2_a_ecrire > 0 )
{
nb_aleatoire = rand();
if( ( nb_aleatoire % 2 ) == 1 )
{
ecrire_fct1( fp, angle );
nb_pharse1_a_ecrire -= 1;
}
else
{
ecrire_fct2( fp, angle );
nb_pharse2_a_ecrire -= 1;
}
}
while( nb_pharse1_a_ecrire-- > 0 )
{
ecrire_fct1( fp, angle );
}
while( nb_pharse2_a_ecrire-- > 0 )
{
ecrire_fct2( fp, angle );
}
}
fclose(fp);
}
return 0;
} |
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