Reduce code size of mesh_buffer_line
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@ -7850,44 +7850,31 @@ void mesh_buffer_line(float x, float y, float z, const float e, float fr_mm_s, c
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NOMORE(pcy, MESH_NUM_Y_POINTS - 2);
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NOMORE(pcy, MESH_NUM_Y_POINTS - 2);
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NOMORE(cx, MESH_NUM_X_POINTS - 2);
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NOMORE(cx, MESH_NUM_X_POINTS - 2);
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NOMORE(cy, MESH_NUM_Y_POINTS - 2);
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NOMORE(cy, MESH_NUM_Y_POINTS - 2);
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if (pcx == cx && pcy == cy) {
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if (pcx == cx && pcy == cy) {
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// Start and end on same mesh square
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// Start and end on same mesh square
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planner.buffer_line(x, y, z, e, fr_mm_s, extruder);
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planner.buffer_line(x, y, z, e, fr_mm_s, extruder);
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set_current_to_destination();
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set_current_to_destination();
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return;
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return;
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}
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}
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float nx, ny, nz, ne, normalized_dist;
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float nx, ny, nz, ne, normalized_dist;
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if (cx > pcx && TEST(x_splits, cx)) {
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int8_t gcx = max(pcx, cx), gcy = max(pcy, cy);
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nx = mbl.get_probe_x(cx) + home_offset[X_AXIS] + position_shift[X_AXIS];
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if (cx != pcx && TEST(x_splits, gcx)) {
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nx = mbl.get_probe_x(gcx) + home_offset[X_AXIS] + position_shift[X_AXIS];
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normalized_dist = (nx - current_position[X_AXIS]) / (x - current_position[X_AXIS]);
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normalized_dist = (nx - current_position[X_AXIS]) / (x - current_position[X_AXIS]);
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ny = current_position[Y_AXIS] + (y - current_position[Y_AXIS]) * normalized_dist;
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ny = current_position[Y_AXIS] + (y - current_position[Y_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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CBI(x_splits, cx);
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CBI(x_splits, gcx);
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}
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}
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else if (cx < pcx && TEST(x_splits, pcx)) {
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else if (cy != pcy && TEST(y_splits, gcy)) {
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nx = mbl.get_probe_x(pcx) + home_offset[X_AXIS] + position_shift[X_AXIS];
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ny = mbl.get_probe_y(gcy) + home_offset[Y_AXIS] + position_shift[Y_AXIS];
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normalized_dist = (nx - current_position[X_AXIS]) / (x - current_position[X_AXIS]);
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ny = current_position[Y_AXIS] + (y - current_position[Y_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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CBI(x_splits, pcx);
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}
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else if (cy > pcy && TEST(y_splits, cy)) {
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ny = mbl.get_probe_y(cy) + home_offset[Y_AXIS] + position_shift[Y_AXIS];
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normalized_dist = (ny - current_position[Y_AXIS]) / (y - current_position[Y_AXIS]);
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normalized_dist = (ny - current_position[Y_AXIS]) / (y - current_position[Y_AXIS]);
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nx = current_position[X_AXIS] + (x - current_position[X_AXIS]) * normalized_dist;
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nx = current_position[X_AXIS] + (x - current_position[X_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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CBI(y_splits, cy);
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CBI(y_splits, gcy);
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}
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else if (cy < pcy && TEST(y_splits, pcy)) {
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ny = mbl.get_probe_y(pcy) + home_offset[Y_AXIS] + position_shift[Y_AXIS];
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normalized_dist = (ny - current_position[Y_AXIS]) / (y - current_position[Y_AXIS]);
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nx = current_position[X_AXIS] + (x - current_position[X_AXIS]) * normalized_dist;
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nz = current_position[Z_AXIS] + (z - current_position[Z_AXIS]) * normalized_dist;
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ne = current_position[E_AXIS] + (e - current_position[E_AXIS]) * normalized_dist;
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CBI(y_splits, pcy);
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}
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}
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else {
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else {
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// Already split on a border
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// Already split on a border
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