X-Git-Url: http://git.droids-corp.org/?p=aversive.git;a=blobdiff_plain;f=modules%2Fdevices%2Frobot%2Ftrajectory_manager%2Ftrajectory_manager_core.c;h=e4f2df6ac7179e778378edd42bc3ff10dafe96bf;hp=c6c70fcd38f76648b810fd44ee884d4ecb4a862f;hb=98771f58df62cfce41b04d866a91752fcda12c80;hpb=aed049ab6be4e1916457743d53f6b610a21b4854 diff --git a/modules/devices/robot/trajectory_manager/trajectory_manager_core.c b/modules/devices/robot/trajectory_manager/trajectory_manager_core.c index c6c70fc..e4f2df6 100644 --- a/modules/devices/robot/trajectory_manager/trajectory_manager_core.c +++ b/modules/devices/robot/trajectory_manager/trajectory_manager_core.c @@ -186,6 +186,7 @@ void trajectory_d_a_rel(struct trajectory *traj, double d_mm, double a_deg) /** set relative angle and distance consign to 0 */ void trajectory_stop(struct trajectory *traj) { + DEBUG(E_TRAJECTORY, "stop"); __trajectory_goto_d_a_rel(traj, 0, 0, READY, UPDATE_A | UPDATE_D | RESET_D | RESET_A); } @@ -196,6 +197,8 @@ void trajectory_hardstop(struct trajectory *traj) { struct quadramp_filter *q_d, *q_a; + DEBUG(E_TRAJECTORY, "hardstop"); + q_d = traj->csm_distance->consign_filter_params; q_a = traj->csm_angle->consign_filter_params; __trajectory_goto_d_a_rel(traj, 0, 0, READY, @@ -1004,15 +1007,15 @@ static void start_clitoid(struct trajectory *traj) double R_mm = traj->target.line.R; double d; - delete_event(traj); DEBUG(E_TRAJECTORY, "%s() Va=%2.2f Aa=%2.2f", __FUNCTION__, Va, Aa); - traj->state = RUNNING_CLITOID_CURVE; + delete_event(traj); d = fabs(R_mm * a_rad); d *= 3.; /* margin to avoid deceleration */ trajectory_d_a_rel(traj, d, DEG(a_rad)); set_quadramp_acc(traj, traj->d_acc, Aa); set_quadramp_speed(traj, traj->d_speed, Va); + traj->state = RUNNING_CLITOID_CURVE; } @@ -1051,8 +1054,11 @@ int8_t trajectory_clitoid(struct trajectory *traj, Vd = traj->d_speed; if (calc_clitoid(traj, x, y, a_rad, alpha_deg, beta_deg, R_mm, Vd, traj->a_acc, d_inter_mm, - &Aa, &Va, &remain) < 0) + &Aa, &Va, &remain) < 0) { + DEBUG(E_TRAJECTORY, "%s() calc_clitoid returned an error", + __FUNCTION__); return -1; + } delete_event(traj); turnx = x + cos(a_rad) * remain;