Fix/Improve junction deviation
- Respect axis max acceleration limits instead of forcing a fixed acceleration value. - The `junction_unit_vec` ensures proper handling of entry and exit speeds even when the axes involved have different limits.
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@ -447,7 +447,6 @@
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//#define JUNCTION_DEVIATION
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//#define JUNCTION_DEVIATION
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#if ENABLED(JUNCTION_DEVIATION)
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#if ENABLED(JUNCTION_DEVIATION)
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#define JUNCTION_DEVIATION_MM 0.02 // (mm) Distance from real junction edge
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#define JUNCTION_DEVIATION_MM 0.02 // (mm) Distance from real junction edge
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#define JUNCTION_ACCELERATION 1000 // (mm/s²) Maximum centripetal acceleration
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//#define JUNCTION_DEVIATION_INCLUDE_E
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//#define JUNCTION_DEVIATION_INCLUDE_E
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#endif
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#endif
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@ -447,7 +447,6 @@
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//#define JUNCTION_DEVIATION
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//#define JUNCTION_DEVIATION
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#if ENABLED(JUNCTION_DEVIATION)
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#if ENABLED(JUNCTION_DEVIATION)
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#define JUNCTION_DEVIATION_MM 0.02 // (mm) Distance from real junction edge
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#define JUNCTION_DEVIATION_MM 0.02 // (mm) Distance from real junction edge
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#define JUNCTION_ACCELERATION 1000 // (mm/s²) Maximum centripetal acceleration
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//#define JUNCTION_DEVIATION_INCLUDE_E
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//#define JUNCTION_DEVIATION_INCLUDE_E
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#endif
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#endif
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@ -278,7 +278,9 @@
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#elif defined(JUNCTION_DEVIATION_FACTOR)
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#elif defined(JUNCTION_DEVIATION_FACTOR)
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#error "JUNCTION_DEVIATION_FACTOR is now JUNCTION_DEVIATION_MM. Please update your configuration."
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#error "JUNCTION_DEVIATION_FACTOR is now JUNCTION_DEVIATION_MM. Please update your configuration."
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#elif defined(JUNCTION_ACCELERATION_FACTOR)
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#elif defined(JUNCTION_ACCELERATION_FACTOR)
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#error "JUNCTION_ACCELERATION_FACTOR is now JUNCTION_ACCELERATION. Please update your configuration."
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#error "JUNCTION_ACCELERATION_FACTOR is obsolete. Delete it from Configuration_adv.h."
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#elif defined(JUNCTION_ACCELERATION)
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#error "JUNCTION_ACCELERATION is obsolete. Delete it from Configuration_adv.h."
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#endif
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#endif
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#define BOARD_MKS_13 -47
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#define BOARD_MKS_13 -47
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@ -2166,11 +2166,22 @@ bool Planner::_populate_block(block_t * const block, bool split_move,
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}
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}
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else {
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else {
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NOLESS(junction_cos_theta, -0.999999); // Check for numerical round-off to avoid divide by zero.
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NOLESS(junction_cos_theta, -0.999999); // Check for numerical round-off to avoid divide by zero.
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const float sin_theta_d2 = SQRT(0.5 * (1.0 - junction_cos_theta)); // Trig half angle identity. Always positive.
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// TODO: Technically, the acceleration used in calculation needs to be limited by the minimum of the
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float junction_unit_vec[JD_AXES] = {
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// two junctions. However, this shouldn't be a significant problem except in extreme circumstances.
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unit_vec[X_AXIS] - previous_unit_vec[X_AXIS],
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vmax_junction_sqr = (JUNCTION_ACCELERATION * JUNCTION_DEVIATION_MM * sin_theta_d2) / (1.0 - sin_theta_d2);
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unit_vec[Y_AXIS] - previous_unit_vec[Y_AXIS],
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unit_vec[Z_AXIS] - previous_unit_vec[Z_AXIS]
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#if ENABLED(JUNCTION_DEVIATION_INCLUDE_E)
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, unit_vec[E_AXIS] - previous_unit_vec[E_AXIS]
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#endif
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};
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// Convert delta vector to unit vector
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normalize_junction_vector(junction_unit_vec);
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const float junction_acceleration = limit_value_by_axis_maximum(block->acceleration, junction_unit_vec),
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sin_theta_d2 = SQRT(0.5 * (1.0 - junction_cos_theta)); // Trig half angle identity. Always positive.
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vmax_junction_sqr = (junction_acceleration * JUNCTION_DEVIATION_MM * sin_theta_d2) / (1.0 - sin_theta_d2);
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if (block->millimeters < 1.0) {
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if (block->millimeters < 1.0) {
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// Fast acos approximation, minus the error bar to be safe
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// Fast acos approximation, minus the error bar to be safe
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@ -2178,7 +2189,7 @@ bool Planner::_populate_block(block_t * const block, bool split_move,
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// If angle is greater than 135 degrees (octagon), find speed for approximate arc
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// If angle is greater than 135 degrees (octagon), find speed for approximate arc
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if (junction_theta > RADIANS(135)) {
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if (junction_theta > RADIANS(135)) {
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const float limit_sqr = block->millimeters / (RADIANS(180) - junction_theta) * JUNCTION_ACCELERATION;
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const float limit_sqr = block->millimeters / (RADIANS(180) - junction_theta) * junction_acceleration;
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NOMORE(vmax_junction_sqr, limit_sqr);
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NOMORE(vmax_junction_sqr, limit_sqr);
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}
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}
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}
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}
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@ -802,6 +802,29 @@ class Planner {
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static void recalculate();
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static void recalculate();
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#if ENABLED(JUNCTION_DEVIATION)
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#if ENABLED(JUNCTION_DEVIATION_INCLUDE_E)
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#define JD_AXES XYZE
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#else
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#define JD_AXES XYZ
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#endif
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FORCE_INLINE static void normalize_junction_vector(float (&vector)[JD_AXES]) {
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float magnitude_sq = 0.0;
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for (uint8_t idx = 0; idx < JD_AXES; idx++) if (vector[idx]) magnitude_sq += sq(vector[idx]);
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const float inv_magnitude = 1.0 / SQRT(magnitude_sq);
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for (uint8_t idx = 0; idx < JD_AXES; idx++) vector[idx] *= inv_magnitude;
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}
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FORCE_INLINE static float limit_value_by_axis_maximum(const float &max_value, float (&unit_vec)[JD_AXES]) {
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float limit_value = max_value;
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for (uint8_t idx = 0; idx < JD_AXES; idx++) if (unit_vec[idx]) // Avoid divide by zero
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NOMORE(limit_value, ABS(max_acceleration_mm_per_s2[idx] / unit_vec[idx]));
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return limit_value;
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}
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#endif // JUNCTION_DEVIATION
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};
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};
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#define PLANNER_XY_FEEDRATE() (MIN(planner.max_feedrate_mm_s[X_AXIS], planner.max_feedrate_mm_s[Y_AXIS]))
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#define PLANNER_XY_FEEDRATE() (MIN(planner.max_feedrate_mm_s[X_AXIS], planner.max_feedrate_mm_s[Y_AXIS]))
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