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Minor speedup for SCARA scaling
And cleanup of Delta IK macros...
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@ -321,17 +321,17 @@ void report_current_position();
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#endif
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// Macro to obtain the Z position of an individual tower
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#define DELTA_Z(T) raw[Z_AXIS] + _SQRT( \
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delta_diagonal_rod_2_tower[T] - HYPOT2( \
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delta_tower[T][X_AXIS] - raw[X_AXIS], \
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delta_tower[T][Y_AXIS] - raw[Y_AXIS] \
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) \
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#define DELTA_Z(V,T) V[Z_AXIS] + _SQRT( \
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delta_diagonal_rod_2_tower[T] - HYPOT2( \
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delta_tower[T][X_AXIS] - V[X_AXIS], \
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delta_tower[T][Y_AXIS] - V[Y_AXIS] \
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) \
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)
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#define DELTA_RAW_IK() do { \
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delta[A_AXIS] = DELTA_Z(A_AXIS); \
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delta[B_AXIS] = DELTA_Z(B_AXIS); \
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delta[C_AXIS] = DELTA_Z(C_AXIS); \
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#define DELTA_IK(V) do { \
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delta[A_AXIS] = DELTA_Z(V, A_AXIS); \
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delta[B_AXIS] = DELTA_Z(V, B_AXIS); \
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delta[C_AXIS] = DELTA_Z(V, C_AXIS); \
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}while(0)
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#elif IS_SCARA
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@ -12749,7 +12749,7 @@ void ok_to_send() {
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}while(0)
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void inverse_kinematics(const float raw[XYZ]) {
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DELTA_RAW_IK();
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DELTA_IK(raw);
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// DELTA_DEBUG();
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}
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@ -13186,6 +13186,7 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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// SCARA needs to scale the feed rate from mm/s to degrees/s
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// i.e., Complete the angular vector in the given time.
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const float inv_segment_length = min(10.0, float(segments) / cartesian_mm), // 1/mm/segs
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inverse_secs = inv_segment_length * _feedrate_mm_s;
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float oldA = stepper.get_axis_position_degrees(A_AXIS),
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@ -13209,7 +13210,7 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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LOOP_XYZE(i) raw[i] += segment_distance[i];
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#if ENABLED(DELTA)
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DELTA_RAW_IK(); // Delta can inline its kinematics
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DELTA_IK(raw); // Delta can inline its kinematics
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#else
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inverse_kinematics(raw);
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#endif
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@ -13218,23 +13219,19 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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// For SCARA scale the feed rate from mm/s to degrees/s
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// Use ratio between the length of the move and the larger angle change
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const float adiff = FABS(delta[A_AXIS] - oldA), bdiff = FABS(delta[B_AXIS] - oldB);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(adiff, bdiff) * inverse_secs, active_extruder);
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// i.e., Complete the angular vector in the given time.
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder);
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS];
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#else
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], _feedrate_mm_s, active_extruder);
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#endif
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}
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// Since segment_distance is only approximate,
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// the final move must be to the exact destination.
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// Ensure last segment arrives at target location.
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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inverse_kinematics(rtarget);
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ADJUST_DELTA(rtarget);
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const float adiff = FABS(delta[A_AXIS] - oldA), bdiff = FABS(delta[B_AXIS] - oldB);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], rtarget[Z_AXIS], rtarget[E_AXIS], HYPOT(adiff, bdiff) * inverse_secs, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], rtarget[Z_AXIS], rtarget[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder);
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#else
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planner.buffer_line_kinematic(rtarget, _feedrate_mm_s, active_extruder);
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#endif
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@ -13572,20 +13569,12 @@ void prepare_move_to_destination() {
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clamp_to_software_endstops(raw);
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#if IS_KINEMATIC
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#if ENABLED(DELTA)
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DELTA_RAW_IK(); // Delta can inline its kinematics
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#else
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inverse_kinematics(raw);
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#endif
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ADJUST_DELTA(raw); // Adjust Z if bed leveling is enabled
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#endif
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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// For SCARA scale the feed rate from mm/s to degrees/s
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// With segments > 1 length is 1 segment, otherwise total length
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const float adiff = FABS(delta[A_AXIS] - oldA), bdiff = FABS(delta[B_AXIS] - oldB);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(adiff, bdiff) * inverse_secs, active_extruder);
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// i.e., Complete the angular vector in the given time.
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inverse_kinematics(raw);
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ADJUST_DELTA(raw);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], raw[Z_AXIS], raw[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder);
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oldA = delta[A_AXIS]; oldB = delta[B_AXIS];
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#else
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planner.buffer_line_kinematic(raw, fr_mm_s, active_extruder);
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@ -13596,8 +13585,7 @@ void prepare_move_to_destination() {
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#if ENABLED(SCARA_FEEDRATE_SCALING)
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inverse_kinematics(cart);
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ADJUST_DELTA(cart);
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const float adiff = FABS(delta[A_AXIS] - oldA), bdiff = FABS(delta[B_AXIS] - oldB);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], cart[Z_AXIS], cart[E_AXIS], HYPOT(adiff, bdiff) * inverse_secs, active_extruder);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], cart[Z_AXIS], cart[E_AXIS], HYPOT(delta[A_AXIS] - oldA, delta[B_AXIS] - oldB) * inverse_secs, active_extruder);
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#else
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planner.buffer_line_kinematic(cart, fr_mm_s, active_extruder);
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#endif
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@ -422,7 +422,7 @@
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#if ENABLED(DELTA) // apply delta inverse_kinematics
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DELTA_RAW_IK();
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DELTA_IK(raw);
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planner.buffer_segment(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], in_raw[E_AXIS], fr, active_extruder);
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#elif IS_SCARA // apply scara inverse_kinematics (should be changed to save raw->logical->raw)
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