stepcompress: Merge stepcompress_delta_const and stepcompress_delta_accel
It's not necessary to have separate C delta kinematic functions for constant acceleration and constant velocity as constant velocity can be obtained by using a constant acceleration of zero. Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -24,11 +24,7 @@ defs_stepcompress = """
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, int32_t sdir);
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int32_t stepcompress_push_const(struct stepcompress *sc, double clock_offset
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, double step_offset, double steps, double start_sv, double accel);
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int32_t stepcompress_push_delta_const(struct stepcompress *sc
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, double clock_offset, double start_pos, double steps, double cruise_sv
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, double height, double closestxy_sd
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, double closest_height2, double movez_r);
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int32_t stepcompress_push_delta_accel(struct stepcompress *sc
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int32_t stepcompress_push_delta(struct stepcompress *sc
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, double clock_offset, double start_pos, double steps, double start_sv
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, double accel, double height, double closestxy_sd
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, double closest_height2, double movez_r);
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@ -228,28 +228,28 @@ class DeltaKinematics:
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mcu_stepper = self.steppers[i].mcu_stepper
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mcu_time = mcu_stepper.print_to_mcu_time(move_time)
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if accel_up_d > 0.:
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mcu_stepper.step_delta_accel(
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mcu_stepper.step_delta(
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mcu_time, 0., accel_up_d, move.start_v, accel,
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origz, closestxy_d, closest_height2, movez_r)
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if cruise_up_d > 0.:
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mcu_stepper.step_delta_const(
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mcu_time + accel_t, accel_d, cruise_up_d, cruise_v,
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mcu_stepper.step_delta(
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mcu_time + accel_t, accel_d, cruise_up_d, cruise_v, 0.,
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origz, closestxy_d, closest_height2, movez_r)
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if decel_up_d > 0.:
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mcu_stepper.step_delta_accel(
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mcu_stepper.step_delta(
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mcu_time + cruise_end_t, cruise_end_d, decel_up_d,
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cruise_v, -accel,
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origz, closestxy_d, closest_height2, movez_r)
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if accel_down_d > 0.:
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mcu_stepper.step_delta_accel(
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mcu_stepper.step_delta(
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mcu_time, 0., -accel_down_d, move.start_v, accel,
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origz, closestxy_d, closest_height2, movez_r)
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if cruise_down_d > 0.:
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mcu_stepper.step_delta_const(
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mcu_time + accel_t, accel_d, -cruise_down_d, cruise_v,
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mcu_stepper.step_delta(
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mcu_time + accel_t, accel_d, -cruise_down_d, cruise_v, 0.,
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origz, closestxy_d, closest_height2, movez_r)
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if decel_down_d > 0.:
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mcu_stepper.step_delta_accel(
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mcu_stepper.step_delta(
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mcu_time + cruise_end_t, cruise_end_d, -decel_down_d,
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cruise_v, -accel,
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origz, closestxy_d, closest_height2, movez_r)
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@ -128,24 +128,11 @@ class MCU_stepper:
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if count == STEPCOMPRESS_ERROR_RET:
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raise error("Internal error in stepcompress")
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self._commanded_pos += count
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def step_delta_const(self, mcu_time, start_pos, dist, cruise_v
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def step_delta(self, mcu_time, start_pos, dist, start_v, accel
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, height_base, closestxy_d, closest_height2, movez_r):
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inv_step_dist = self._inv_step_dist
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height = self._commanded_pos - height_base * inv_step_dist
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count = self._ffi_lib.stepcompress_push_delta_const(
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self._stepqueue, mcu_time * self._mcu_freq,
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-start_pos * inv_step_dist, dist * inv_step_dist,
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cruise_v * self._velocity_factor,
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height, closestxy_d * inv_step_dist,
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closest_height2 * inv_step_dist**2, movez_r)
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if count == STEPCOMPRESS_ERROR_RET:
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raise error("Internal error in stepcompress")
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self._commanded_pos += count
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def step_delta_accel(self, mcu_time, start_pos, dist, start_v, accel
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, height_base, closestxy_d, closest_height2, movez_r):
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inv_step_dist = self._inv_step_dist
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height = self._commanded_pos - height_base * inv_step_dist
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count = self._ffi_lib.stepcompress_push_delta_accel(
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count = self._ffi_lib.stepcompress_push_delta(
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self._stepqueue, mcu_time * self._mcu_freq,
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-start_pos * inv_step_dist, dist * inv_step_dist,
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start_v * self._velocity_factor, accel * self._accel_factor,
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@ -530,11 +530,11 @@ stepcompress_push_const(
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return res;
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}
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// Schedule 'count' number of steps using the delta kinematic const speed
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// Schedule steps using delta kinematics
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int32_t
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stepcompress_push_delta_const(
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stepcompress_push_delta(
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struct stepcompress *sc, double clock_offset, double start_pos
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, double steps, double cruise_sv
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, double steps, double start_sv, double accel
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, double height, double closestxy_sd, double closest_height2, double movez_r)
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{
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// Calculate number of steps to take
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@ -549,9 +549,9 @@ stepcompress_push_delta_const(
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int count = (end_height - height + movez_r*steps) * step_dist + .5;
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if (count <= 0 || count > 10000000) {
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if (count) {
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errorf("push_delta_const invalid count %d %d %f %f %f %f %f %f %f %f"
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, sc->oid, count, clock_offset, start_pos, steps, cruise_sv
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, height, closestxy_sd, closest_height2, movez_r);
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errorf("push_delta invalid count %d %d %f %f %f %f %f %f %f %f %f"
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, sc->oid, count, clock_offset, start_pos, steps, start_sv
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, accel, height, closestxy_sd, closest_height2, movez_r);
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return ERROR_RET;
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}
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return 0;
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@ -562,11 +562,13 @@ stepcompress_push_delta_const(
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int res = step_dist > 0. ? count : -count;
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// Calculate each step time
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double inv_cruise_sv = 1. / cruise_sv;
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clock_offset += 0.5;
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start_pos += movexy_r*closestxy_sd;
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height += .5 * step_dist;
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uint64_t *qn = sc->queue_next, *qend = sc->queue_end;
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if (!accel) {
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// Move at constant velocity (zero acceleration)
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double inv_cruise_sv = 1. / start_sv;
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if (!movez_r) {
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// Optmized case for common XY only moves (no Z movement)
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while (count--) {
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@ -602,50 +604,12 @@ stepcompress_push_delta_const(
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height += step_dist;
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}
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}
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sc->queue_next = qn;
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return res;
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}
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// Schedule 'count' number of steps using delta kinematic acceleration
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int32_t
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stepcompress_push_delta_accel(
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struct stepcompress *sc, double clock_offset, double start_pos
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, double steps, double start_sv, double accel
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, double height, double closestxy_sd, double closest_height2, double movez_r)
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{
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// Calculate number of steps to take
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double step_dist = 1.;
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if (steps < 0) {
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step_dist = -1.;
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steps = -steps;
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}
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double movexy_r = movez_r ? sqrt(1. - movez_r*movez_r) : 1.;
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double reldist = closestxy_sd - movexy_r*steps;
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double end_height = safe_sqrt(closest_height2 - reldist*reldist);
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int count = (end_height - height + movez_r*steps) * step_dist + .5;
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if (count <= 0 || count > 10000000) {
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if (count) {
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errorf("push_delta_accel invalid count %d %d %f %f"
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" %f %f %f %f %f %f %f"
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, sc->oid, count, clock_offset, start_pos
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, steps, start_sv, accel
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, height, closestxy_sd, closest_height2, movez_r);
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return ERROR_RET;
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}
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return 0;
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}
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int ret = set_next_step_dir(sc, step_dist > 0.);
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if (ret)
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return ret;
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int res = step_dist > 0. ? count : -count;
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// Calculate each step time
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} else {
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// Move with constant acceleration
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double inv_accel = 1. / accel;
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clock_offset -= start_sv * inv_accel;
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start_pos += 0.5 * start_sv*start_sv * inv_accel;
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double accel_multiplier = 2. * inv_accel;
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clock_offset += 0.5 - start_sv * inv_accel;
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start_pos += movexy_r*closestxy_sd + 0.5 * start_sv*start_sv * inv_accel;
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height += .5 * step_dist;
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uint64_t *qn = sc->queue_next, *qend = sc->queue_end;
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while (count--) {
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int ret = check_expand(sc, &qn, &qend);
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if (ret)
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@ -657,6 +621,7 @@ stepcompress_push_delta_accel(
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*qn++ = clock_offset + (accel_multiplier >= 0. ? v : -v);
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height += step_dist;
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}
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}
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sc->queue_next = qn;
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return res;
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}
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