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@ -8698,7 +8698,68 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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mesh_line_to_destination(fr_mm_s, x_splits, y_splits);
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mesh_line_to_destination(fr_mm_s, x_splits, y_splits);
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}
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}
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#endif // MESH_BED_LEVELING
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#elif ENABLED(AUTO_BED_LEVELING_BILINEAR)
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/**
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* Prepare a mesh-leveled linear move in a Cartesian setup,
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* splitting the move where it crosses mesh borders.
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*/
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void bilinear_line_to_destination(float fr_mm_s, uint8_t x_splits = 0xff, uint8_t y_splits = 0xff) {
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int cx1 = RAW_CURRENT_POSITION(X_AXIS) / bilinear_grid_spacing[X_AXIS],
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cy1 = RAW_CURRENT_POSITION(Y_AXIS) / bilinear_grid_spacing[Y_AXIS],
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cx2 = RAW_X_POSITION(destination[X_AXIS]) / bilinear_grid_spacing[X_AXIS],
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cy2 = RAW_Y_POSITION(destination[Y_AXIS]) / bilinear_grid_spacing[Y_AXIS];
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NOMORE(cx1, ABL_GRID_POINTS_X - 2);
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NOMORE(cy1, ABL_GRID_POINTS_Y - 2);
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NOMORE(cx2, ABL_GRID_POINTS_X - 2);
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NOMORE(cy2, ABL_GRID_POINTS_Y - 2);
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if (cx1 == cx2 && cy1 == cy2) {
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// Start and end on same mesh square
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line_to_destination(fr_mm_s);
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set_current_to_destination();
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return;
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}
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#define LINE_SEGMENT_END(A) (current_position[A ##_AXIS] + (destination[A ##_AXIS] - current_position[A ##_AXIS]) * normalized_dist)
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float normalized_dist, end[NUM_AXIS];
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// Split at the left/front border of the right/top square
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int8_t gcx = max(cx1, cx2), gcy = max(cy1, cy2);
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if (cx2 != cx1 && TEST(x_splits, gcx)) {
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memcpy(end, destination, sizeof(end));
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destination[X_AXIS] = LOGICAL_X_POSITION(bilinear_start[X_AXIS] + bilinear_grid_spacing[X_AXIS] * gcx);
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normalized_dist = (destination[X_AXIS] - current_position[X_AXIS]) / (end[X_AXIS] - current_position[X_AXIS]);
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destination[Y_AXIS] = LINE_SEGMENT_END(Y);
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CBI(x_splits, gcx);
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}
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else if (cy2 != cy1 && TEST(y_splits, gcy)) {
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memcpy(end, destination, sizeof(end));
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destination[Y_AXIS] = LOGICAL_Y_POSITION(bilinear_start[Y_AXIS] + bilinear_grid_spacing[Y_AXIS] * gcy);
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normalized_dist = (destination[Y_AXIS] - current_position[Y_AXIS]) / (end[Y_AXIS] - current_position[Y_AXIS]);
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destination[X_AXIS] = LINE_SEGMENT_END(X);
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CBI(y_splits, gcy);
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}
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else {
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// Already split on a border
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line_to_destination(fr_mm_s);
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set_current_to_destination();
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return;
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}
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destination[Z_AXIS] = LINE_SEGMENT_END(Z);
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destination[E_AXIS] = LINE_SEGMENT_END(E);
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// Do the split and look for more borders
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bilinear_line_to_destination(fr_mm_s, x_splits, y_splits);
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// Restore destination from stack
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memcpy(destination, end, sizeof(end));
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bilinear_line_to_destination(fr_mm_s, x_splits, y_splits);
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}
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#endif // AUTO_BED_LEVELING_BILINEAR
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#if IS_KINEMATIC
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#if IS_KINEMATIC
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@ -8892,6 +8953,12 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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return false;
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return false;
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}
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}
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else
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else
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#elif ENABLED(AUTO_BED_LEVELING_BILINEAR)
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if (planner.abl_enabled) {
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bilinear_line_to_destination(MMS_SCALED(feedrate_mm_s));
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return false;
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}
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else
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#endif
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#endif
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line_to_destination(MMS_SCALED(feedrate_mm_s));
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line_to_destination(MMS_SCALED(feedrate_mm_s));
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}
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}
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