2023-03-28 21:03:35 +00:00
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#include "hardware/gpio.h"
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#include "i2c_annexe.h"
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#include "Geometrie_robot.h"
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2023-03-26 19:28:13 +00:00
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#include "Localisation.h"
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2023-03-28 21:03:35 +00:00
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#include "Moteurs.h"
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#include "Strategie_prise_cerises.h"
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#include "Strategie.h"
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#include "Trajet.h"
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#include "math.h"
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2023-03-26 19:28:13 +00:00
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#define DEGREE_EN_RADIAN (M_PI / 180.)
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#define SEUIL_RECAL_DIST_MM 75
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#define SEUIL_RECAL_ANGLE_RADIAN (5 * DEGREE_EN_RADIAN)
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enum etat_action_t parcourt_trajet_simple(struct trajectoire_t trajectoire, uint32_t step_ms);
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enum etat_action_t calage_angle(enum longer_direction_t longer_direction, double x_mm, double y_mm, double angle_radian);
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enum etat_action_t lance_balles(uint32_t step_ms);
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enum etat_strategie_t etat_strategie=STRATEGIE_INIT;
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void Homologation(uint32_t step_ms){
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enum etat_action_t etat_action;
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enum etat_trajet_t etat_trajet;
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struct trajectoire_t trajectoire;
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switch(etat_strategie){
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case STRATEGIE_INIT:
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Localisation_set(775., 109., -60. * DEGREE_EN_RADIAN);
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etat_strategie = APPROCHE_CERISE_1_A;
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break;
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case APPROCHE_CERISE_1_A:
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Trajet_config(250, 500);
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Trajectoire_droite(&trajectoire,775, 109, 857, 156, -60. * DEGREE_EN_RADIAN, +30. * DEGREE_EN_RADIAN);
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Trajet_debut_trajectoire(trajectoire);
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etat_strategie = APPROCHE_CERISE_1_B;
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break;
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case APPROCHE_CERISE_1_B:
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etat_trajet = Trajet_avance(step_ms/1000.);
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if(etat_trajet == TRAJET_TERMINE){
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etat_strategie = ATTRAPE_CERISE_1;
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}
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break;
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case ATTRAPE_CERISE_1:
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etat_action = cerise_attraper_bordure(LONGER_VERS_C, step_ms);
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if(etat_action == ACTION_TERMINEE){
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etat_strategie = APPROCHE_PANIER_1;
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}
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break;
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case APPROCHE_PANIER_1:
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Trajet_config(500, 500);
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Trajectoire_bezier(&trajectoire,Localisation_get().x_mm, Localisation_get().y_mm,
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485, Localisation_get().y_mm,
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465, 857,
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465,2830,
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+30. * DEGREE_EN_RADIAN, +120. * DEGREE_EN_RADIAN);
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if(parcourt_trajet_simple(trajectoire, step_ms) == ACTION_TERMINEE){
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etat_strategie = CALAGE_PANIER_1;
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}
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break;
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case CALAGE_PANIER_1:
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if(calage_angle(LONGER_VERS_A, RAYON_ROBOT, 3000 - (RAYON_ROBOT/(RACINE_DE_3/2)), 120. *DEGREE_EN_RADIAN) == ACTION_TERMINEE){
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etat_strategie = RECULE_PANIER;
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}
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break;
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case RECULE_PANIER:
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Trajet_config(250, 500);
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Trajectoire_droite(&trajectoire,Localisation_get().x_mm, Localisation_get().y_mm,
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225, 3000 - (RAYON_ROBOT/(RACINE_DE_3/2)) - 120,
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120. * DEGREE_EN_RADIAN, +240. * DEGREE_EN_RADIAN);
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if(parcourt_trajet_simple(trajectoire, step_ms) == ACTION_TERMINEE){
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etat_strategie = LANCE_DANS_PANIER;
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}
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break;
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case LANCE_DANS_PANIER:
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if(lance_balles(step_ms) == ACTION_TERMINEE){
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etat_strategie = STRATEGIE_FIN;
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}
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break;
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case STRATEGIE_FIN:
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Moteur_Stop();
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break;
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}
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}
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/// @brief Active le propulseur, ouvre la porte, attend qql secondes.
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/// @param step_ms : pas de temps.
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/// @return ACTION_EN_COURS ou ACTION_TERMINEE
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enum etat_action_t lance_balles(uint32_t step_ms){
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enum etat_action_t etat_action = ACTION_EN_COURS;
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uint32_t tempo_ms;
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static enum{
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LANCE_PROPULSEUR_ON,
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LANCE_TEMPO_PROP_ON,
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LANCE_PORTE_OUVERTE,
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} etat_lance_balle = LANCE_PROPULSEUR_ON;
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switch(etat_lance_balle){
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case LANCE_PROPULSEUR_ON:
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i2c_annexe_active_propulseur();
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tempo_ms = 2000;
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etat_lance_balle = LANCE_TEMPO_PROP_ON;
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break;
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case LANCE_TEMPO_PROP_ON:
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if (tempo_ms < step_ms){
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etat_lance_balle = LANCE_PORTE_OUVERTE;
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i2c_annexe_ouvre_porte();
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tempo_ms = 6000;
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}else{
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tempo_ms -= step_ms;
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}
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break;
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case LANCE_PORTE_OUVERTE:
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if (tempo_ms < step_ms){
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etat_lance_balle = LANCE_PROPULSEUR_ON;
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i2c_annexe_desactive_propulseur();
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etat_action = ACTION_TERMINEE;
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}
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break;
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}
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return etat_action;
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}
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/// @brief Envoie le robot se caler dans l'angle en face de lui, recale la localisation
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enum etat_action_t calage_angle(enum longer_direction_t longer_direction, double x_mm, double y_mm, double angle_radian){
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enum etat_action_t etat_action = ACTION_EN_COURS;
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struct position_t position;
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avance_puis_longe_bordure(longer_direction);
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if( ((longer_direction == LONGER_VERS_A) && (i2c_annexe_get_contacteur_butee_A() == CONTACTEUR_ACTIF) ) ||
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((longer_direction == LONGER_VERS_C) && (i2c_annexe_get_contacteur_butee_C() == CONTACTEUR_ACTIF) ) ){
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etat_action = ACTION_TERMINEE;
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position = Localisation_get();
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if(fabs(position.x_mm - x_mm) < SEUIL_RECAL_DIST_MM){
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Localisation_set_x(x_mm);
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}
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if(fabs(position.y_mm - y_mm) < SEUIL_RECAL_DIST_MM){
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Localisation_set_y(y_mm);
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}
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if(fabs(position.angle_radian - angle_radian) < SEUIL_RECAL_ANGLE_RADIAN){
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Localisation_set_angle(angle_radian);
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}
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}
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return etat_action;
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}
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enum etat_action_t parcourt_trajet_simple(struct trajectoire_t trajectoire, uint32_t step_ms){
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enum etat_action_t etat_action = ACTION_EN_COURS;
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enum etat_trajet_t etat_trajet;
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static enum {
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PARCOURS_INIT,
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PARCOURS_AVANCE,
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} etat_parcourt=PARCOURS_INIT;
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switch (etat_parcourt){
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case PARCOURS_INIT:
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Trajet_debut_trajectoire(trajectoire);
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etat_parcourt = PARCOURS_AVANCE;
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break;
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case PARCOURS_AVANCE:
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etat_trajet = Trajet_avance(step_ms/1000.);
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if(etat_trajet == TRAJET_TERMINE){
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etat_action = ACTION_TERMINEE;
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etat_parcourt = PARCOURS_INIT;
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}
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break;
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}
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return etat_action;
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}
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/// @brief Renvoi 1 si on doit attendre le déclenchement de la tirette
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uint attente_tirette(void){
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return gpio_get(TIRETTE);
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}
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/// @brief Renvoi COULEUR_VERT ou COULEUR_BLEU
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enum couleur_t lire_couleur(void){
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if (gpio_get(COULEUR))
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return COULEUR_VERT;
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return COULEUR_BLEU;
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}
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