acceleration_st
=> acceleration_steps_per_s2
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cb4704e07a
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3b08eb1eeb
2 changed files with 8 additions and 8 deletions
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@ -155,7 +155,7 @@ void Planner::calculate_trapezoid_for_block(block_t* block, float entry_factor,
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NOLESS(initial_rate, 120);
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NOLESS(final_rate, 120);
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long accel = block->acceleration_st;
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long accel = block->acceleration_steps_per_s2;
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int32_t accelerate_steps = ceil(estimate_acceleration_distance(initial_rate, block->nominal_rate, accel));
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int32_t decelerate_steps = floor(estimate_acceleration_distance(block->nominal_rate, final_rate, -accel));
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@ -936,27 +936,27 @@ void Planner::check_axes_activity() {
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float steps_per_mm = block->step_event_count / block->millimeters;
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long bsx = block->steps[X_AXIS], bsy = block->steps[Y_AXIS], bsz = block->steps[Z_AXIS], bse = block->steps[E_AXIS];
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if (bsx == 0 && bsy == 0 && bsz == 0) {
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block->acceleration_st = ceil(retract_acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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block->acceleration_steps_per_s2 = ceil(retract_acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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}
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else if (bse == 0) {
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block->acceleration_st = ceil(travel_acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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block->acceleration_steps_per_s2 = ceil(travel_acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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}
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else {
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block->acceleration_st = ceil(acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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block->acceleration_steps_per_s2 = ceil(acceleration * steps_per_mm); // convert to: acceleration steps/sec^2
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}
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// Limit acceleration per axis
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unsigned long acc_st = block->acceleration_st,
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xsteps = max_acceleration_steps_per_s2[X_AXIS],
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ysteps = max_acceleration_steps_per_s2[Y_AXIS],
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zsteps = max_acceleration_steps_per_s2[Z_AXIS],
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esteps = max_acceleration_steps_per_s2[E_AXIS],
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unsigned long acc_st = block->acceleration_steps_per_s2,
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allsteps = block->step_event_count;
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if (xsteps < (acc_st * bsx) / allsteps) acc_st = (xsteps * allsteps) / bsx;
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if (ysteps < (acc_st * bsy) / allsteps) acc_st = (ysteps * allsteps) / bsy;
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if (zsteps < (acc_st * bsz) / allsteps) acc_st = (zsteps * allsteps) / bsz;
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if (esteps < (acc_st * bse) / allsteps) acc_st = (esteps * allsteps) / bse;
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block->acceleration_st = acc_st;
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block->acceleration_steps_per_s2 = acc_st;
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block->acceleration = acc_st / steps_per_mm;
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block->acceleration_rate = (long)(acc_st * 16777216.0 / (F_CPU / 8.0));
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@ -1057,7 +1057,7 @@ void Planner::check_axes_activity() {
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block->advance = 0;
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}
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else {
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long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_st);
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long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_steps_per_s2);
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float advance = ((STEPS_PER_CUBIC_MM_E) * (EXTRUDER_ADVANCE_K)) * (cse * cse * (EXTRUSION_AREA) * (EXTRUSION_AREA)) * 256;
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block->advance = advance;
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block->advance_rate = acc_dist ? advance / (float)acc_dist : 0;
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@ -84,7 +84,7 @@ typedef struct {
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unsigned long nominal_rate; // The nominal step rate for this block in step_events/sec
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unsigned long initial_rate; // The jerk-adjusted step rate at start of block
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unsigned long final_rate; // The minimal rate at exit
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unsigned long acceleration_st; // acceleration steps/sec^2
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unsigned long acceleration_steps_per_s2; // acceleration steps/sec^2
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#if FAN_COUNT > 0
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unsigned long fan_speed[FAN_COUNT];
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