Robot secondaire
Dependencies: RoboClaw mbed StepperMotor
Fork of RoboClaw by
Functions/func.cpp
- Committer:
- sype
- Date:
- 2016-05-05
- Revision:
- 76:a862cb10559c
- Parent:
- 67:244bc1cc6678
File content as of revision 76:a862cb10559c:
#include "func.h" void init_interrupt(void) { EndL.fall(&ELpressed); EndL.rise(&ELunpressed); EndZ.fall(&EZpressed); EndZ.rise(&EZunpressed); EndR.fall(&ERpressed); EndR.rise(&ERunpressed); ticker.attach_us(&update_main, dt); // 100 Hz } void pressed(void) { if(SIMON_i==0) { roboclaw.ForwardM1(0); roboclaw.ForwardM2(0); SIMON_i++; } } void unpressed(void) { if(SIMON_i==1) { SIMON_i--; } } void ELpressed(void) { bleu = 1; SIMON_EL = true; } void ELunpressed(void) { bleu = 0; SIMON_EL = false; } void EZpressed(void) { blanc = 1; SIMON_EZ = true; } void EZunpressed(void) { blanc = 0; SIMON_EZ = false; } void ERpressed(void) { rouge = 1; SIMON_ER = true; } void ERunpressed(void) { rouge = 0; SIMON_ER = 0; } void JPO(void) { char c = logger.getc(); if(c=='z') { if (SIMON_state != 1) { SIMON_state = 1; logger.printf("Avant (Z) \r\n"); roboclaw.SpeedAccelM1(accel_angle, vitesse_angle); roboclaw.SpeedAccelM2(accel_angle, vitesse_angle); } } else if(c == 's') { if (SIMON_state != 2) { SIMON_state = 2; logger.printf("Stop (S) \r\n"); roboclaw.SpeedAccelM1(accel_angle, 0); roboclaw.SpeedAccelM2(accel_angle, 0); } } else if(c == 'd') { if (SIMON_state != 3) { SIMON_state = 3; logger.printf("Droite (D) \r\n"); roboclaw.SpeedAccelM1(accel_angle, -vitesse_angle); roboclaw.SpeedAccelM2(accel_angle, vitesse_angle); } } else if(c == 'q') { if (SIMON_state != 4) { SIMON_state = 4; logger.printf("Gauche (Q)\r\n"); roboclaw.SpeedAccelM1(accel_angle, vitesse_angle); roboclaw.SpeedAccelM2(accel_angle, -vitesse_angle); } } else if(c == 'x') { if (SIMON_state != 5) { SIMON_state = 5; roboclaw.SpeedAccelM1(accel_angle, -vitesse_angle); roboclaw.SpeedAccelM2(accel_angle, -vitesse_angle); } } else { if (SIMON_state != 0) { roboclaw.SpeedAccelM1M2(accel_angle, 0, 0); SIMON_state = 0; } } } void goHome(void) { goHomeZ(); goHomeL(); goHomeR(); } void goHomeL(void) { while(EnL==true) LMot.step(1, BAS, DELAY); LMot.step(10, HAUT, DELAY+0.01); LMot.step(5, BAS, DELAY); } void goHomeZ(void) { while(EnZ==true) ZMot.step(1, BAS, DELAY); ZMot.step(10, HAUT, DELAY+0.01); ZMot.step(5, BAS, DELAY); } void goHomeR(void) { while(EnR==true) RMot.step(1, BAS, DELAY); RMot.step(10, HAUT, DELAY+0.01); RMot.step(5, BAS, DELAY); } void checkAround(void) { if(capt1.read() > SEUIL+0.1) SGauche = true; else SGauche = false; if(capt2.read() > SEUIL) SDevant = true; else SDevant = false; if(capt3.read() > SEUIL+0.1) SDroite = true; else SDroite = false; } void homologation(void) { //goHomeZ(); //ZMot.mm(50, HAUT); //goHomeL(); //goHomeR(); //LMot.mm(50, HAUT); //RMot.mm(50, HAUT); while(START==0) logger.printf("%1.3f\t%1.3f\t%1.3f\n\r", capt1.read(), capt2.read(), capt3.read()); roboclaw.SpeedAccelM1M2(accel_dista, vitesse_dista, vitesse_dista); while(1) { while(capt2.read() < SEUIL) checkAround(); roboclaw.ForwardM1(0); roboclaw.ForwardM2(0); while(1); } } /*void init_ax12(void) { left_hand.setMode(0); wait_ms(10); right_hand.setMode(0); wait_ms(50); left_hand.setMode(0); wait_ms(10); right_hand.setMode(0); wait_ms(50); right_hand.setGoal(0); left_hand.setGoal(0); wait(2); right_hand.setGoal(180); left_hand.setGoal(180); wait(2); }*/ void changeCamp(void) { if(SCouleur==VERT) { SCouleur = VIOLET; LEDR = 1; LEDV = 0; } else { SCouleur = VERT; LEDV = 1; LEDR = 0; } } void depart(void) { while(button==1) { if(CAMP==0) { changeCamp(); } wait_ms(100); } if(SCouleur == VERT)logger.printf("Couleur VERT !\n\r"); else logger.printf("Couleur ROUGE !\n\r"); while(START==0) { drapeau = SSchema; if(CAMP==0) { SSchema++; if(SSchema == 6) SSchema = 1; drapeau = SSchema; } wait_ms(100); } logger.printf("Schema numero : %d !\n\r", SSchema); }