Some probe_pt error-handling
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@ -4743,12 +4743,12 @@ void home_all_axes() { gcode_G28(true); }
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// Retain the last probe position
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xProbe = LOGICAL_X_POSITION(points[i].x);
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yProbe = LOGICAL_Y_POSITION(points[i].y);
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measured_z = points[i].z = faux ? 0.001 * random(-100, 101) : probe_pt(xProbe, yProbe, stow_probe_after_each, verbose_level);
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}
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if (isnan(measured_z)) {
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planner.abl_enabled = abl_should_enable;
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return;
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measured_z = faux ? 0.001 * random(-100, 101) : probe_pt(xProbe, yProbe, stow_probe_after_each, verbose_level);
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if (isnan(measured_z)) {
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planner.abl_enabled = abl_should_enable;
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return;
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}
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points[i].z = measured_z;
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}
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if (!dryrun) {
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@ -5021,9 +5021,11 @@ void home_all_axes() { gcode_G28(true); }
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const float measured_z = probe_pt(xpos, ypos, !code_seen('S') || code_value_bool(), 1);
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SERIAL_PROTOCOLPAIR("Bed X: ", FIXFLOAT(xpos));
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SERIAL_PROTOCOLPAIR(" Y: ", FIXFLOAT(ypos));
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SERIAL_PROTOCOLLNPAIR(" Z: ", FIXFLOAT(measured_z));
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if (!isnan(measured_z)) {
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SERIAL_PROTOCOLPAIR("Bed X: ", FIXFLOAT(xpos));
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SERIAL_PROTOCOLPAIR(" Y: ", FIXFLOAT(ypos));
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SERIAL_PROTOCOLLNPAIR(" Z: ", FIXFLOAT(measured_z));
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}
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clean_up_after_endstop_or_probe_move();
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@ -5170,13 +5172,13 @@ void home_all_axes() { gcode_G28(true); }
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if (!do_all_positions && !do_circle_x3) { // probe the center
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setup_for_endstop_or_probe_move();
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z_at_pt[0] += probe_pt(0.0, 0.0 , true, 1);
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z_at_pt[0] += probe_pt(0.0, 0.0 , true, 1); // TODO: Needs error handling
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clean_up_after_endstop_or_probe_move();
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}
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if (probe_center_plus_3) { // probe extra center points
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for (int8_t axis = probe_center_plus_6 ? 11 : 9; axis > 0; axis -= probe_center_plus_6 ? 2 : 4) {
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setup_for_endstop_or_probe_move();
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z_at_pt[0] += probe_pt(
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z_at_pt[0] += probe_pt( // TODO: Needs error handling
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cos(RADIANS(180 + 30 * axis)) * (0.1 * delta_calibration_radius),
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sin(RADIANS(180 + 30 * axis)) * (0.1 * delta_calibration_radius), true, 1);
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clean_up_after_endstop_or_probe_move();
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@ -5192,7 +5194,7 @@ void home_all_axes() { gcode_G28(true); }
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do_circle_x2 ? (zig_zag ? 0.5 : 0.0) : 0);
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for (float circles = -offset_circles ; circles <= offset_circles; circles++) {
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setup_for_endstop_or_probe_move();
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z_at_pt[axis] += probe_pt(
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z_at_pt[axis] += probe_pt( // TODO: Needs error handling
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cos(RADIANS(180 + 30 * axis)) * delta_calibration_radius *
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(1 + circles * 0.1 * (zig_zag ? 1 : -1)),
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sin(RADIANS(180 + 30 * axis)) * delta_calibration_radius *
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@ -6372,7 +6374,8 @@ inline void gcode_M42() {
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setup_for_endstop_or_probe_move();
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// Move to the first point, deploy, and probe
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probe_pt(X_probe_location, Y_probe_location, stow_probe_after_each, verbose_level);
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const float t = probe_pt(X_probe_location, Y_probe_location, stow_probe_after_each, verbose_level);
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if (isnan(t)) return;
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randomSeed(millis());
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@ -393,19 +393,24 @@
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ubl.save_ubl_active_state_and_disable();
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ubl.tilt_mesh_based_on_probed_grid(code_seen('T'));
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ubl.restore_ubl_active_state_and_leave();
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} else { // grid_size==0 which means a 3-Point leveling has been requested
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float z1 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_1_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_1_Y), false, g29_verbose_level),
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z2 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_2_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_2_Y), false, g29_verbose_level),
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z3 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_3_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_3_Y), true, g29_verbose_level);
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}
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else { // grid_size == 0 : A 3-Point leveling has been requested
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float z3, z2, z1 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_1_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_1_Y), false, g29_verbose_level);
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if (!isnan(z1)) {
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z2 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_2_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_2_Y), false, g29_verbose_level);
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if (!isnan(z2))
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z3 = probe_pt(LOGICAL_X_POSITION(UBL_PROBE_PT_3_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_3_Y), true, g29_verbose_level);
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}
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if ( isnan(z1) || isnan(z2) || isnan(z3)) { // probe_pt will return NAN if unreachable
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if (isnan(z1) || isnan(z2) || isnan(z3)) { // probe_pt will return NAN if unreachable
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SERIAL_ERROR_START;
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SERIAL_ERRORLNPGM("Attempt to probe off the bed.");
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goto LEAVE;
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}
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// We need to adjust z1, z2, z3 by the Mesh Height at these points. Just because they are non-zero doesn't mean
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// the Mesh is tilted! (We need to compensate each probe point by what the Mesh says that location's height is)
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// Adjust z1, z2, z3 by the Mesh Height at these points. Just because they're non-zero
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// doesn't mean the Mesh is tilted! (Compensate each probe point by what the Mesh says
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// its height is.)
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ubl.save_ubl_active_state_and_disable();
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z1 -= ubl.get_z_correction(LOGICAL_X_POSITION(UBL_PROBE_PT_1_X), LOGICAL_Y_POSITION(UBL_PROBE_PT_1_Y)) /* + zprobe_zoffset */ ;
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@ -706,7 +711,7 @@
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const float mean = sum / n;
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//
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// Now do the sumation of the squares of difference from mean
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// Sum the squares of difference from mean
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//
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float sum_of_diff_squared = 0.0;
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for (uint8_t x = 0; x < GRID_MAX_POINTS_X; x++)
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@ -769,12 +774,13 @@
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const float rawx = pgm_read_float(&ubl.mesh_index_to_xpos[location.x_index]),
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rawy = pgm_read_float(&ubl.mesh_index_to_ypos[location.y_index]);
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const float measured_z = probe_pt(LOGICAL_X_POSITION(rawx), LOGICAL_Y_POSITION(rawy), stow_probe, g29_verbose_level);
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const float measured_z = probe_pt(LOGICAL_X_POSITION(rawx), LOGICAL_Y_POSITION(rawy), stow_probe, g29_verbose_level); // TODO: Needs error handling
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ubl.z_values[location.x_index][location.y_index] = measured_z;
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}
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if (do_ubl_mesh_map) ubl.display_map(map_type);
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} while ((location.x_index >= 0) && (--max_iterations));
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} while (location.x_index >= 0 && --max_iterations);
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STOW_PROBE();
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ubl.restore_ubl_active_state_and_leave();
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@ -1548,7 +1554,7 @@
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const float x = float(x_min) + ix * dx;
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for (int8_t iy = 0; iy < grid_size; iy++) {
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const float y = float(y_min) + dy * (zig_zag ? grid_size - 1 - iy : iy);
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float measured_z = probe_pt(LOGICAL_X_POSITION(x), LOGICAL_Y_POSITION(y), code_seen('E'), g29_verbose_level);
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float measured_z = probe_pt(LOGICAL_X_POSITION(x), LOGICAL_Y_POSITION(y), code_seen('E'), g29_verbose_level); // TODO: Needs error handling
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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SERIAL_CHAR('(');
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