Romain Ame
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Stressed
coucou
Fork of Robot2016_2-0 by
Diff: Odometry/Odometry.cpp
- Revision:
- 47:5658af4e5149
- Parent:
- 39:309f38d1e49c
- Child:
- 49:5e2f7323f280
--- a/Odometry/Odometry.cpp Wed Apr 13 12:47:47 2016 +0000 +++ b/Odometry/Odometry.cpp Mon Apr 25 12:38:58 2016 +0000 @@ -8,9 +8,9 @@ m_distPerTick_left = diameter_left*PI/quadrature; m_distPerTick_right = diameter_right*PI/quadrature; - roboclaw.ForwardM1(ADR, 0); - roboclaw.ForwardM2(ADR, 0); - roboclaw.ResetEnc(ADR); + roboclaw.ForwardM1(0); + roboclaw.ForwardM2(0); + roboclaw.ResetEnc(); // Erreur autorisée sur le déplacement en angle erreur_ang = 0.01; @@ -28,7 +28,7 @@ } void Odometry::getEnc() { - logger.printf("EncM1 : %d\tEncM2 : %d\n\r", roboclaw.ReadEncM1(ADR), roboclaw.ReadEncM2(ADR)); + logger.printf("EncM1 : %d\tEncM2 : %d\n\r", roboclaw.ReadEncM1(), roboclaw.ReadEncM2()); } void Odometry::setX(double x) @@ -48,8 +48,8 @@ void Odometry::update_odo(void) { - int32_t roboclawENCM1 = roboclaw.ReadEncM1(ADR); - int32_t roboclawENCM2 = roboclaw.ReadEncM2(ADR); + int32_t roboclawENCM1 = roboclaw.ReadEncM1(); + int32_t roboclawENCM2 = roboclaw.ReadEncM2(); int32_t delta_right = roboclawENCM1 - m_pulses_right; m_pulses_right = roboclawENCM1; int32_t delta_left = roboclawENCM2 - m_pulses_left; @@ -84,7 +84,6 @@ theta += deltaTheta; while(theta > PI) theta -= 2*PI; while(theta <= -PI) theta += 2*PI; - } void Odometry::GotoXY(double x_goal, double y_goal) @@ -108,7 +107,6 @@ void Odometry::GotoThet(double theta_) { - led = 0; //pos_prog++; //logger.printf("Theta : %3.2f\n\r", theta_*180/PI); //arrived = false; @@ -138,21 +136,19 @@ //logger.printf("X : %3.2f\tY : %3.2f\tTheta : %3.2f\n\r", getX(), getY(), getTheta()*180/PI); //logger.printf("M1 %6d\tM2 %6d\n\r",distance_ticks_right, distance_ticks_left); - roboclaw.SpeedAccelDeccelPositionM1M2(ADR, accel_angle, vitesse_angle, deccel_angle, distance_ticks_right, accel_angle, vitesse_angle, deccel_angle, distance_ticks_left, 1); + roboclaw.SpeedAccelDeccelPositionM1M2(accel_angle, vitesse_angle, deccel_angle, distance_ticks_right, accel_angle, vitesse_angle, deccel_angle, distance_ticks_left, 1); //logger.printf("IniR:%6d\tDistR:%6d\tIniL:%6d\tDistL:%6d\n\r", pos_initiale_right, distance_ticks_right, pos_initiale_left, distance_ticks_left); while((m_pulses_right != distance_ticks_right)&&(m_pulses_left != distance_ticks_left)); //logger.printf("%6d\t%6d\t%6d\t%6d\t%6d\n\r",m_pulses_right - pos_initiale_right, distance_ticks_right, m_pulses_left - pos_initiale_left, distance_ticks_left); wait(0.4); setTheta(theta_); - led = 1; //arrived = true; //logger.printf("arrivey %d\n\r",pos_prog); } void Odometry::GotoDist(double distance) { - led = 0; //pos_prog++; //logger.printf("Dist : %3.2f\n\r", distance); //arrived = false; @@ -162,13 +158,12 @@ int32_t distance_ticks_right = (int32_t) distance/m_distPerTick_right + pos_initiale_right; int32_t distance_ticks_left = (int32_t) distance/m_distPerTick_left + pos_initiale_left; - roboclaw.SpeedAccelDeccelPositionM1M2(ADR, accel_dista, vitesse_dista, deccel_dista, distance_ticks_right, accel_dista, vitesse_dista, deccel_dista, distance_ticks_left, 1); + roboclaw.SpeedAccelDeccelPositionM1M2(accel_dista, vitesse_dista, deccel_dista, distance_ticks_right, accel_dista, vitesse_dista, deccel_dista, distance_ticks_left, 1); //logger.printf("IniR:%6d\tDistR:%6d\tIniL:%6d\tDistL:%6d\n\r", pos_initiale_right, distance_ticks_right, pos_initiale_left, distance_ticks_left); while((m_pulses_right != distance_ticks_right)&&(m_pulses_left != distance_ticks_left)); //logger.printf("PR:%6d\tIR:%6d\tDR:%6d\tPL:%6d\tIL:%6d\tDL:%6d\n\r",m_pulses_right, pos_initiale_right, distance_ticks_right, m_pulses_left, pos_initiale_left, distance_ticks_left); wait(0.4); - led = 1; //logger.printf("arrivey %d\n\r",pos_prog); //logger.printf("X : %3.2f\tY : %3.2f\tTheta : %3.2f\n\r", getX(), getY(), getTheta()*180/PI); } @@ -188,7 +183,7 @@ distance_ticks_right = (int32_t) pos_initiale_right - (erreur_theta*m_v/2)/m_distPerTick_right; } - roboclaw.SpeedAccelDeccelPositionM1M2(ADR, accel_angle, vitesse_angle, deccel_angle, distance_ticks_right, accel_angle, vitesse_angle, deccel_angle, distance_ticks_left, 1); + roboclaw.SpeedAccelDeccelPositionM1M2(accel_angle, vitesse_angle, deccel_angle, distance_ticks_right, accel_angle, vitesse_angle, deccel_angle, distance_ticks_left, 1); while((m_pulses_right != distance_ticks_right)&&(m_pulses_left != distance_ticks_left)); wait(0.4); @@ -200,11 +195,10 @@ int32_t distance_ticks_right = (int32_t) i/m_distPerTick_right + pos_initiale_right; int32_t distance_ticks_left = (int32_t) i/m_distPerTick_left + pos_initiale_left; - roboclaw.SpeedAccelDeccelPositionM1M2(ADR, accel_dista, vitesse_dista, deccel_dista, distance_ticks_right, accel_dista, vitesse_dista, deccel_dista, distance_ticks_left, 1); + roboclaw.SpeedAccelDeccelPositionM1M2(accel_dista, vitesse_dista, deccel_dista, distance_ticks_right, accel_dista, vitesse_dista, deccel_dista, distance_ticks_left, 1); //logger.printf("IniR:%6d\tDistR:%6d\tIniL:%6d\tDistL:%6d\n\r", pos_initiale_right, distance_ticks_right, pos_initiale_left, distance_ticks_left); while((m_pulses_right != distance_ticks_right)&&(m_pulses_left != distance_ticks_left)); //logger.printf("PR:%6d\tIR:%6d\tDR:%6d\tPL:%6d\tIL:%6d\tDL:%6d\n\r",m_pulses_right, pos_initiale_right, distance_ticks_right, m_pulses_left, pos_initiale_left, distance_ticks_left); wait(0.4); - led = 1; } \ No newline at end of file