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@ -1062,6 +1062,9 @@ void Planner::_buffer_line(const float &a, const float &b, const float &c, const
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float current_speed[NUM_AXIS], speed_factor = 1.0; // factor <1 decreases speed
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float current_speed[NUM_AXIS], speed_factor = 1.0; // factor <1 decreases speed
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LOOP_XYZE(i) {
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LOOP_XYZE(i) {
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const float cs = fabs(current_speed[i] = delta_mm[i] * inverse_mm_s);
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const float cs = fabs(current_speed[i] = delta_mm[i] * inverse_mm_s);
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#if ENABLED(DISTINCT_E_FACTORS)
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if (i == E_AXIS) i += extruder;
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#endif
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if (cs > max_feedrate_mm_s[i]) NOMORE(speed_factor, max_feedrate_mm_s[i] / cs);
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if (cs > max_feedrate_mm_s[i]) NOMORE(speed_factor, max_feedrate_mm_s[i] / cs);
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}
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}
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@ -1135,18 +1138,24 @@ void Planner::_buffer_line(const float &a, const float &b, const float &c, const
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// Start with print or travel acceleration
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// Start with print or travel acceleration
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accel = ceil((esteps ? acceleration : travel_acceleration) * steps_per_mm);
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accel = ceil((esteps ? acceleration : travel_acceleration) * steps_per_mm);
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#if ENABLED(DISTINCT_E_FACTORS)
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#define ACCEL_IDX extruder
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#else
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#define ACCEL_IDX 0
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#endif
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// Limit acceleration per axis
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// Limit acceleration per axis
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if (block->step_event_count <= cutoff_long) {
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if (block->step_event_count <= cutoff_long) {
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LIMIT_ACCEL_LONG(X_AXIS,0);
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LIMIT_ACCEL_LONG(X_AXIS,0);
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LIMIT_ACCEL_LONG(Y_AXIS,0);
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LIMIT_ACCEL_LONG(Y_AXIS,0);
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LIMIT_ACCEL_LONG(Z_AXIS,0);
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LIMIT_ACCEL_LONG(Z_AXIS,0);
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LIMIT_ACCEL_LONG(E_AXIS,extruder);
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LIMIT_ACCEL_LONG(E_AXIS,ACCEL_IDX);
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}
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}
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else {
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else {
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LIMIT_ACCEL_FLOAT(X_AXIS,0);
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LIMIT_ACCEL_FLOAT(X_AXIS,0);
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LIMIT_ACCEL_FLOAT(Y_AXIS,0);
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LIMIT_ACCEL_FLOAT(Y_AXIS,0);
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LIMIT_ACCEL_FLOAT(Z_AXIS,0);
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LIMIT_ACCEL_FLOAT(Z_AXIS,0);
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LIMIT_ACCEL_FLOAT(E_AXIS,extruder);
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LIMIT_ACCEL_FLOAT(E_AXIS,ACCEL_IDX);
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}
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}
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}
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}
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block->acceleration_steps_per_s2 = accel;
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block->acceleration_steps_per_s2 = accel;
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