Fix large Z corrections when nozzle moves off of UBL mesh (#7415)
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ce65c13a97
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27
Marlin/ubl.h
27
Marlin/ubl.h
@ -152,7 +152,7 @@
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static void save_ubl_active_state_and_disable();
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static void save_ubl_active_state_and_disable();
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static void restore_ubl_active_state_and_leave();
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static void restore_ubl_active_state_and_leave();
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static void display_map(const int);
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static void display_map(const int);
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static mesh_index_pair find_closest_mesh_point_of_type(const MeshPointType, const float&, const float&, const bool, unsigned int[16], bool);
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static mesh_index_pair find_closest_mesh_point_of_type(const MeshPointType, const float&, const float&, const bool, uint16_t[16], bool);
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static void reset();
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static void reset();
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static void invalidate();
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static void invalidate();
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static void set_all_mesh_points_to_value(float);
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static void set_all_mesh_points_to_value(float);
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@ -247,10 +247,10 @@
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/**
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/**
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* z_correction_for_x_on_horizontal_mesh_line is an optimization for
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* z_correction_for_x_on_horizontal_mesh_line is an optimization for
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* the rare occasion when a point lies exactly on a Mesh line (denoted by index yi).
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* the case where the printer is making a vertical line that only crosses horizontal mesh lines.
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*/
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*/
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inline static float z_correction_for_x_on_horizontal_mesh_line(const float &lx0, const int x1_i, const int yi) {
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inline static float z_correction_for_x_on_horizontal_mesh_line(const float &lx0, const int x1_i, const int yi) {
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if (!WITHIN(x1_i, 0, GRID_MAX_POINTS_X - 1) || !WITHIN(yi, 0, GRID_MAX_POINTS_Y - 1)) {
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if (!WITHIN(x1_i, 0, GRID_MAX_POINTS_X - 2) || !WITHIN(yi, 0, GRID_MAX_POINTS_Y - 1)) {
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serialprintPGM( !WITHIN(x1_i, 0, GRID_MAX_POINTS_X - 1) ? PSTR("x1l_i") : PSTR("yi") );
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serialprintPGM( !WITHIN(x1_i, 0, GRID_MAX_POINTS_X - 1) ? PSTR("x1l_i") : PSTR("yi") );
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SERIAL_ECHOPAIR(" out of bounds in z_correction_for_x_on_horizontal_mesh_line(lx0=", lx0);
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SERIAL_ECHOPAIR(" out of bounds in z_correction_for_x_on_horizontal_mesh_line(lx0=", lx0);
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SERIAL_ECHOPAIR(",x1_i=", x1_i);
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SERIAL_ECHOPAIR(",x1_i=", x1_i);
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@ -270,7 +270,7 @@
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// See comments above for z_correction_for_x_on_horizontal_mesh_line
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// See comments above for z_correction_for_x_on_horizontal_mesh_line
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//
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//
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inline static float z_correction_for_y_on_vertical_mesh_line(const float &ly0, const int xi, const int y1_i) {
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inline static float z_correction_for_y_on_vertical_mesh_line(const float &ly0, const int xi, const int y1_i) {
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if (!WITHIN(xi, 0, GRID_MAX_POINTS_X - 1) || !WITHIN(y1_i, 0, GRID_MAX_POINTS_Y - 1)) {
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if (!WITHIN(xi, 0, GRID_MAX_POINTS_X - 1) || !WITHIN(y1_i, 0, GRID_MAX_POINTS_Y - 2)) {
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serialprintPGM( !WITHIN(xi, 0, GRID_MAX_POINTS_X - 1) ? PSTR("xi") : PSTR("yl_i") );
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serialprintPGM( !WITHIN(xi, 0, GRID_MAX_POINTS_X - 1) ? PSTR("xi") : PSTR("yl_i") );
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SERIAL_ECHOPAIR(" out of bounds in z_correction_for_y_on_vertical_mesh_line(ly0=", ly0);
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SERIAL_ECHOPAIR(" out of bounds in z_correction_for_y_on_vertical_mesh_line(ly0=", ly0);
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SERIAL_ECHOPAIR(", xi=", xi);
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SERIAL_ECHOPAIR(", xi=", xi);
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@ -296,7 +296,7 @@
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const int8_t cx = get_cell_index_x(RAW_X_POSITION(lx0)),
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const int8_t cx = get_cell_index_x(RAW_X_POSITION(lx0)),
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cy = get_cell_index_y(RAW_Y_POSITION(ly0));
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cy = get_cell_index_y(RAW_Y_POSITION(ly0));
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if (!WITHIN(cx, 0, GRID_MAX_POINTS_X - 1) || !WITHIN(cy, 0, GRID_MAX_POINTS_Y - 1)) {
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if (!WITHIN(cx, 0, GRID_MAX_POINTS_X - 2) || !WITHIN(cy, 0, GRID_MAX_POINTS_Y - 2)) {
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SERIAL_ECHOPAIR("? in get_z_correction(lx0=", lx0);
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SERIAL_ECHOPAIR("? in get_z_correction(lx0=", lx0);
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SERIAL_ECHOPAIR(", ly0=", ly0);
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SERIAL_ECHOPAIR(", ly0=", ly0);
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@ -307,7 +307,7 @@
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strcpy(lcd_status_message, "get_z_correction() indexes out of range.");
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strcpy(lcd_status_message, "get_z_correction() indexes out of range.");
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lcd_quick_feedback();
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lcd_quick_feedback();
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#endif
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#endif
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return 0.0; // this used to return state.z_offset
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return NAN; // this used to return state.z_offset
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}
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}
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const float z1 = calc_z0(RAW_X_POSITION(lx0),
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const float z1 = calc_z0(RAW_X_POSITION(lx0),
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@ -384,8 +384,19 @@
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FORCE_INLINE static float fade_scaling_factor_for_z(const float &lz) { return 1.0; }
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FORCE_INLINE static float fade_scaling_factor_for_z(const float &lz) { return 1.0; }
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#endif
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#endif
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FORCE_INLINE static float mesh_index_to_xpos(const uint8_t i) { return pgm_read_float(&_mesh_index_to_xpos[i]); }
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FORCE_INLINE static float mesh_index_to_xpos(const uint8_t i) {
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FORCE_INLINE static float mesh_index_to_ypos(const uint8_t i) { return pgm_read_float(&_mesh_index_to_ypos[i]); }
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if (i<GRID_MAX_POINTS_X)
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return pgm_read_float(&_mesh_index_to_xpos[i]);
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else
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return UBL_MESH_MIN_X + i * (MESH_X_DIST);
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}
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FORCE_INLINE static float mesh_index_to_ypos(const uint8_t i) {
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if (i<GRID_MAX_POINTS_Y)
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return pgm_read_float(&_mesh_index_to_ypos[i]);
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else
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return UBL_MESH_MIN_Y + i * (MESH_Y_DIST);
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}
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static bool prepare_segmented_line_to(const float ltarget[XYZE], const float &feedrate);
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static bool prepare_segmented_line_to(const float ltarget[XYZE], const float &feedrate);
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static void line_to_destination_cartesian(const float &fr, uint8_t e);
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static void line_to_destination_cartesian(const float &fr, uint8_t e);
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@ -173,12 +173,18 @@
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* to create a 1-over number for us. That will allow us to do a floating point multiply instead of a floating point divide.
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* to create a 1-over number for us. That will allow us to do a floating point multiply instead of a floating point divide.
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*/
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*/
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const float xratio = (RAW_X_POSITION(end[X_AXIS]) - mesh_index_to_xpos(cell_dest_xi)) * (1.0 / (MESH_X_DIST)),
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const float xratio = (RAW_X_POSITION(end[X_AXIS]) - mesh_index_to_xpos(cell_dest_xi)) * (1.0 / (MESH_X_DIST));
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z1 = z_values[cell_dest_xi ][cell_dest_yi ] + xratio *
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float z1 = z_values[cell_dest_xi ][cell_dest_yi ] + xratio *
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(z_values[cell_dest_xi + 1][cell_dest_yi ] - z_values[cell_dest_xi][cell_dest_yi ]),
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(z_values[cell_dest_xi + 1][cell_dest_yi ] - z_values[cell_dest_xi][cell_dest_yi ]),
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z2 = z_values[cell_dest_xi ][cell_dest_yi + 1] + xratio *
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z2 = z_values[cell_dest_xi ][cell_dest_yi + 1] + xratio *
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(z_values[cell_dest_xi + 1][cell_dest_yi + 1] - z_values[cell_dest_xi][cell_dest_yi + 1]);
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(z_values[cell_dest_xi + 1][cell_dest_yi + 1] - z_values[cell_dest_xi][cell_dest_yi + 1]);
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if ( cell_dest_xi >= GRID_MAX_POINTS_X-1) {
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z1 = 0.0;
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z2 = 0.0;
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}
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// we are done with the fractional X distance into the cell. Now with the two Z-Heights we have calculated, we
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// we are done with the fractional X distance into the cell. Now with the two Z-Heights we have calculated, we
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// are going to apply the Y-Distance into the cell to interpolate the final Z correction.
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// are going to apply the Y-Distance into the cell to interpolate the final Z correction.
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@ -186,6 +192,9 @@
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float z0 = z1 + (z2 - z1) * yratio;
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float z0 = z1 + (z2 - z1) * yratio;
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if ( cell_dest_yi >= GRID_MAX_POINTS_Y-1)
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z0 = 0.0;
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z0 *= fade_scaling_factor_for_z(end[Z_AXIS]);
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z0 *= fade_scaling_factor_for_z(end[Z_AXIS]);
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/**
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/**
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