Initialisation du test de l'homologation + fonction pour définir la position

This commit is contained in:
Samuel 2023-03-26 16:56:34 +02:00
parent 2710dadaa2
commit 0e66ae9e4b
5 changed files with 99 additions and 7 deletions

View File

@ -13,6 +13,24 @@ void Localisation_init(){
position.angle_radian = 0; position.angle_radian = 0;
} }
void Localisation_set(double x_mm, double y_mm, double angle_radian){
position.x_mm = x_mm;
position.y_mm = y_mm;
position.angle_radian = angle_radian;
}
void Localisation_set_x(double x_mm){
position.x_mm = x_mm;
}
void Localisation_set_y(double y_mm){
position.y_mm = y_mm;
}
void Localisation_set_angle(double angle_radian){
position.angle_radian = angle_radian;
}
void Localisation_gestion(){ void Localisation_gestion(){
struct t_angle_gyro_double angle_gyro; struct t_angle_gyro_double angle_gyro;
// Voir http://poivron-robotique.fr/Robot-holonome-localisation-partie-2.html // Voir http://poivron-robotique.fr/Robot-holonome-localisation-partie-2.html

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@ -3,3 +3,8 @@
struct position_t Localisation_get(void); struct position_t Localisation_get(void);
void Localisation_gestion(); void Localisation_gestion();
void Localisation_init(); void Localisation_init();
void Localisation_set(double x_mm, double y_mm, double angle_radian);
void Localisation_set_x(double x_mm);
void Localisation_set_y(double y_mm);
void Localisation_set_angle(double angle_radian);

12
Strategie.c Normal file
View File

@ -0,0 +1,12 @@
void Homologation(void){
static enum etat_strategie_t{
STRATEGIE_INIT
}etat_strategie;
switch(etat_strategie){
case STRATEGIE_INIT:
}
}

View File

@ -10,3 +10,4 @@ enum longer_direction_t{
enum etat_action_t cerise_accostage(void); enum etat_action_t cerise_accostage(void);
enum etat_action_t cerise_longer_bord(enum longer_direction_t longer_direction); enum etat_action_t cerise_longer_bord(enum longer_direction_t longer_direction);
void Homologation(void);

View File

@ -15,8 +15,9 @@
#include "Trajectoire.h" #include "Trajectoire.h"
#include "Test.h" #include "Test.h"
int test_accostage(); int test_accostage(void);
int test_longe(); int test_longe(void);
int test_homologation(void);
void affichage_test_strategie(){ void affichage_test_strategie(){
uint32_t temps; uint32_t temps;
@ -34,20 +35,28 @@ void affichage_test_strategie(){
int test_strategie(){ int test_strategie(){
printf("L - longer.\n"); printf("L - longer.\n");
printf("A - Accoster.\n"); printf("A - Accoster.\n");
printf("H - Homologation.\n");
int lettre; int lettre;
do{ do{
lettre = getchar_timeout_us(0); lettre = getchar_timeout_us(0);
}while(lettre == PICO_ERROR_TIMEOUT || lettre == 0); }while(lettre == PICO_ERROR_TIMEOUT || lettre == 0);
switch(lettre){ switch(lettre){
case 'a':
case 'A':
while(test_accostage());
break;
case 'h':
case 'H':
while(test_homologation());
break;
case 'l': case 'l':
case 'L': case 'L':
while(test_longe()); while(test_longe());
break; break;
case 'a':
case 'A':
while(test_accostage());
break;
case 'q': case 'q':
case 'Q': case 'Q':
@ -57,6 +66,53 @@ int test_strategie(){
} }
} }
int test_homologation(){
int lettre, _step_ms = 1, temps_ms=0, _step_ms_gyro=2,temps_ms_init;
i2c_maitre_init();
Trajet_init();
//printf("Init gyroscope\n");
Gyro_Init();
stdio_flush();
set_position_avec_gyroscope(1);
temps_ms = Temps_get_temps_ms();
temps_ms_init = temps_ms;
do{
i2c_gestion(i2c0);
i2c_annexe_gestion();
// Routines à 1 ms
if(temps_ms != Temps_get_temps_ms()){
temps_ms = Temps_get_temps_ms();
QEI_update();
Localisation_gestion();
AsserMoteur_Gestion(_step_ms);
// Routine à 2 ms
if(temps_ms % _step_ms_gyro == 0){
// Gyro_Read(_step_ms_gyro);
}
if(temps_ms > temps_ms_init + 200){
if(cerise_longer_bord(LONGER_VERS_A) == ACTION_TERMINEE){
printf("Accostage_terminee\n");
}
}
}
lettre = getchar_timeout_us(0);
}while((lettre == PICO_ERROR_TIMEOUT) || (lettre == 0));
printf("Lettre : %d; %c\n", lettre, lettre);
if(lettre == 'q' && lettre == 'Q'){
return 0;
}
return 1;
}
int test_longe(){ int test_longe(){
int lettre, _step_ms = 1, temps_ms=0, _step_ms_gyro=2,temps_ms_init; int lettre, _step_ms = 1, temps_ms=0, _step_ms_gyro=2,temps_ms_init;