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root/branch/lacheze/sp4a12/main.c @ 278

#include <stdio.h>
#include <stdlib.h>
#include <strings.h>
#include "trame.h"
#include <math.h>

/*Trames de tests ? modifier si n?cessaire.*/
char * trames[]= {"$GPGSV,3,2,10,15,03,077,,18,04,041,42,19,85,271,,20,08,214,*7C",
"$GPGSV,3,3,10,22,39,053,50,28,15,320,*7E",
"$GPRMC,141914.00,A,4545.6424,N,00306.6036,E,0.4,99.4,010206,,*0C",
"$GPGLL,4545.6424,N,00306.6036,E,141914.00,A*0E",
"$GPGGA,141914.00,4545.0000,N,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",
"$GPGSA,A,3,,03,,22,14,,01,,18,,,,3.9,3.4,1.9*39",
"$GPVTG,99.4,T,,M,0.4,N,0.7,K*57",
"$GPZDA,141914.00,01,02,2006,00,00*69",
0};

typedef struct {
float latitude;
float longitude;
}position;
position p1;
position p2;

int trame_cmp(char* trame, char* type)
{
int i ;
int res;
res=1;
for(i=0;i<5;i++)
{
if (trame[i+1]!=type[i])
{
res=0;
}
}
return res;
}

int decode_int(char c)
{
int res;
res=c-48;
if(res>9 || res<0)
{
res=-1;
}
return res;
}
int decode_nombre(char* ch, int n)
{
int i;
int s=0;
for(i=0;i<n;i++)
{
s=(s*10)+decode_int(ch[i]);
}
return s;
}

float latitude(char* ch)
{
float deg;
float minute;
float diminute;
float resultat;
deg=(float)decode_nombre(&ch[0], 2);
minute=(float)decode_nombre(&ch[0+2],2);
minute=minute/60;
diminute=(float)decode_nombre(&ch[0+5],4);
diminute=diminute/600000;
resultat=deg+minute+diminute;
return resultat;
}

float longitude(char* ch)
{
int deg;
float minute;
float diminute;
float resultat;
deg=decode_nombre(&ch[0],3);
minute=(float)decode_nombre(&ch[0+3],2);
minute=minute/60;
diminute=(float)decode_nombre(&ch[0+6],4);
diminute=diminute/600000;
resultat=(float)deg+minute+diminute;
return resultat;
}

float lat_long(char* ch)
{
float res;
if (ch[4]==46)
{
res=latitude(ch);
}
else
{
res=longitude(ch);
}
return res;
}
int decode_trame(char* trame, position *p)
{
int res;
int trame_ok;
int i;
if(trame_cmp(trame,"GPGGA")==1)
{
trame_ok=1;
for (i=0;i<40;i++)
{
if(trame[i]==trame[i+1]&&trame[i]==',')
{
trame_ok=0;
res=0;
p->latitude=0;
p->longitude=0;
}
}
if(trame_ok==1)
{
p->latitude=latitude(&trame[17]);
p->longitude=longitude(&trame[29]);

res=1;
}
}
else{
res=0;
}
return res;
}

float calcule_distance(position p1, position p2)
{
float distance;
distance=(2*3.14*6370/360)*sqrt((p1.latitude-p2.latitude)*(p1.latitude-p2.latitude)+(p1.longitude-p2.longitude)*(p1.longitude-p2.longitude));
return distance;
}
float calcule_vitesse(position p1, position p2)
{

float vitesse;
vitesse=calcule_distance(p1,p2)*3600;
return vitesse;
}

/*Fonction ? modifier !!!!!*/
void traitement(char * trame)
{
static int cpt=0;
cpt++;
printf ("> %s\n",trame);
decode_trame("$GPGGA,141914.00,4545.0000,N,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1);
printf("lat=%f long=%f \n",p1.latitude, p1.longitude);
decode_trame("$GPGGA,141915.00,4545.0242,N,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1);
printf("lat=%f long=%f \n",p1.latitude, p1.longitude);
decode_trame("$GPGGA,141915.00,,,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1);
printf("lat=%f long=%f \n",p1.latitude, p1.longitude);
decode_trame("$GPGGC,141914.00,4545.0000,N,,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1);
printf("lat=%f long=%f \n",p1.latitude, p1.longitude);

/*if (trame_cmp(trame, "GPGGA")==1)
{
printf ("> %s\n",trame);
}*/

}

/*Ajouter vos tests unitaires dans cette fonction.*/
void tests_unitaires(void){
if (5!=5){
printf ("Erreur Test unitaire basique.\n");
exit(-1);
}
/*test trame*/
/*if (trame_cmp("$GPGGA suite chaine","GPGGA")!=1){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if (trame_cmp("$GPRMC suite chaine","GPGGA")!=0){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if (trame_cmp("$GPRMC... ", "GPRMC" )!=1){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if (trame_cmp("$APRMC...", "GPGGA")!=0){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}*/
/*test decode_int*/
/*if(decode_int('5')!=5){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if(decode_int('0')!=0){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if(decode_int('9')!=9){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if(decode_int('A')!=-1){
printf ("Erreur Test unitaire traif(decode_nombre("7541",2)!=75){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}me_cmp.\n");
exit(-1);
}
if(decode_int('Z')!=-1){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}*/
/*test decode_nombre*/
/*if(decode_nombre("7541",2)!=75){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if(decode_nombre("7541",3)!=754){
printf ("Erreur Test unitaire trif(decode_nombre("7541",2)!=75){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}ame_cmp.\n");
exit(-1);
}
if(decode_nombre("123",3)!=123){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
if(decode_nombre("987654321",2)!=98){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);if(decode_nombre("7541",2)!=75){
printf ("Erreur Test unitaire trame_cmp.\n");
exit(-1);
}
}*/
/*if ((lat_long("00306.6036")-003.11005)>0.01)
{
printf("Erreur Test unitaire trame\n");
exit(-1);
}
if ((lat_long("4545.0242")-45.75)>0.01)
{
printf("Erreur Test unitaire trame\n");
exit(-1);
}*/

/*if (decode_trame("$GPGGA,141914.00,4545.0000,N,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1)!=1)
{
printf("valeur de retour differente de 1 ");
if(decode_trame("$GPGGA,141914.00,4545.0000,N,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1)!=0)
{
printf("Erreur test unitaire trame \n");
exit(-1);
}
}

if (decode_trame("$GPGGA,141915.00,4545.0242,N,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1)!=1)
{
printf("valeur de retour differente de 1 ");
if(decode_trame("$GPGGA,141915.00,4545.0242,N,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1)!=0)
{
printf("Erreur test unitaire trame \n");
exit(-1);
}
}

if (decode_trame("$GPGGA,141915.00,,,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1)!=1)
{
printf("valeur de retour differente de 1 ");
if(decode_trame("$GPGGA,141915.00,,,00306.6039,E,1,05,3.4,499.5,M,,M,,*72",&p1)!=0)
{
printf("Erreur test unitaire trame \n");
exit(-1);
}
}

if (decode_trame("$GPGGC,141914.00,4545.0000,N,,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1)!=1)
{
printf("valeur de retour differente de 1 ");
if(decode_trame("$GPGGC,141914.00,4545.0000,N,,00306.6036,E,1,05,3.4,499.3,M,,M,,*7D",&p1)!=0)
{
printf("Erreur test unitaire trame \n");
exit(-1);
}
}*/
p1.latitude=latitude("4545.0000");
p1.longitude=longitude("00306.6036");
p2.latitude=latitude("4545.0242");
p2.longitude=longitude("00306.6039");
/*if((calcule_distance(p1,p2)-0.044)>2)
{
printf("Erreur test unitaire calcul distance\n");
exit(-1);
}*/

if((161,78-calcule_vitesse(p1,p2))>1)
{
printf("Erreur test unitaire calcul distance\n");
exit(-1);
}

}

/* Ne pas modifier cette fonction*/
int main(int argc,char ** argv)
{

tests_unitaires();

/* Affichage des trames definies dans la table trames.*/
printf ("Trames de tests tableau trames:\n");
int i=0;
while (trames[i])
traitement(trames[i++]);

if (!trame_init())
exit(-1);
/* Affichage des trames du fichier gps.log*/
char *trame;
printf ("Trames de tests du fichier gps.log\n");
while ((trame = trame_suivante()))
traitement(trame);

return 0;
}
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