Cleanup after vim and vigor
This commit is contained in:
parent
423bf9955e
commit
89165326b4
2 changed files with 78 additions and 79 deletions
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@ -83,7 +83,7 @@ class unified_bed_leveling {
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#if ENABLED(NEWPANEL)
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static void move_z_with_encoder(const float &multiplier);
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static float measure_point_with_encoder();
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static float measure_business_card_thickness(float);
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static float measure_business_card_thickness(float in_height);
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static void manually_probe_remaining_mesh(const float&, const float&, const float&, const float&, const bool);
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static void fine_tune_mesh(const float &rx, const float &ry, const bool do_ubl_mesh_map);
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#endif
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@ -51,7 +51,7 @@
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#if ENABLED(NEWPANEL)
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void lcd_return_to_status();
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extern void _lcd_ubl_output_map_lcd();
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void _lcd_ubl_output_map_lcd();
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#endif
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extern float meshedit_done;
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@ -96,8 +96,8 @@
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* previous measurements.
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*
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* C G29 P2 C tells the Manual Probe subsystem to not use the current nozzle
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* location in its search for the closest unmeasured Mesh Point. Instead, attempt to
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* start at one end of the uprobed points and Continue sequentually.
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* location in its search for the closest unmeasured Mesh Point. Instead, attempt to
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* start at one end of the uprobed points and Continue sequentially.
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*
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* G29 P3 C specifies the Constant for the fill. Otherwise, uses a "reasonable" value.
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*
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@ -1038,12 +1038,12 @@
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static uint8_t ubl_state_at_invocation = 0;
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#if ENABLED(UBL_DEVEL_DEBUGGING)
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#ifdef UBL_DEVEL_DEBUGGING
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static uint8_t ubl_state_recursion_chk = 0;
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#endif
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void unified_bed_leveling::save_ubl_active_state_and_disable() {
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#if ENABLED(UBL_DEVEL_DEBUGGING)
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#ifdef UBL_DEVEL_DEBUGGING
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ubl_state_recursion_chk++;
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if (ubl_state_recursion_chk != 1) {
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SERIAL_ECHOLNPGM("save_ubl_active_state_and_disabled() called multiple times in a row.");
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@ -1059,7 +1059,7 @@
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}
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void unified_bed_leveling::restore_ubl_active_state_and_leave() {
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#if ENABLED(UBL_DEVEL_DEBUGGING)
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#ifdef UBL_DEVEL_DEBUGGING
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if (--ubl_state_recursion_chk) {
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SERIAL_ECHOLNPGM("restore_ubl_active_state_and_leave() called too many times.");
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#if ENABLED(NEWPANEL)
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@ -1143,7 +1143,7 @@
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SERIAL_EOL();
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safe_delay(50);
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#if ENABLED(UBL_DEVEL_DEBUGGING)
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#ifdef UBL_DEVEL_DEBUGGING
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SERIAL_PROTOCOLLNPAIR("ubl_state_at_invocation :", ubl_state_at_invocation);
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SERIAL_EOL();
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SERIAL_PROTOCOLLNPAIR("ubl_state_recursion_chk :", ubl_state_recursion_chk);
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@ -1257,22 +1257,22 @@
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found_a_NAN = true;
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int8_t closest_x=-1, closest_y=-1;
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int8_t closest_x = -1, closest_y = -1;
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float d1, d2 = 99999.9;
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for (int8_t k = 0; k < GRID_MAX_POINTS_X; k++) {
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for (int8_t l = 0; l < GRID_MAX_POINTS_Y; l++) {
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if (!isnan(z_values[k][l])) {
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found_a_real = true;
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// Add in a random weighting factor that scrambles the probing of the
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// last half of the mesh (when every unprobed mesh point is one index
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// from a probed location).
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// Add in a random weighting factor that scrambles the probing of the
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// last half of the mesh (when every unprobed mesh point is one index
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// from a probed location).
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d1 = HYPOT(i - k, j - l) + (1.0 / ((millis() % 47) + 13));
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if (d1 < d2) { // found a closer distance from invalid mesh point at (i,j) to defined mesh point at (k,l)
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d2 = d1; // found a closer location with
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closest_x = i; // an assigned mesh point value
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d2 = d1; // found a closer location with
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closest_x = i; // an assigned mesh point value
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closest_y = j;
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}
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}
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@ -1280,7 +1280,7 @@
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}
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//
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// at this point d2 should have the closest defined mesh point to invalid mesh point (i,j)
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// At this point d2 should have the closest defined mesh point to invalid mesh point (i,j)
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//
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if (found_a_real && (closest_x >= 0) && (d2 > out_mesh.distance)) {
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@ -1523,7 +1523,7 @@
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y_min = max(MIN_PROBE_Y, MESH_MIN_Y),
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y_max = min(MAX_PROBE_Y, MESH_MAX_Y);
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bool abort_flag=false;
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bool abort_flag = false;
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float measured_z;
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@ -1532,7 +1532,7 @@
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struct linear_fit_data lsf_results;
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// float z1, z2, z3; // Needed for algorithm validation down below.
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//float z1, z2, z3; // Needed for algorithm validation down below.
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incremental_LSF_reset(&lsf_results);
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@ -1542,8 +1542,8 @@
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abort_flag = true;
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else {
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measured_z -= get_z_correction(UBL_PROBE_PT_1_X, UBL_PROBE_PT_1_Y);
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// z1 = measured_z;
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if (g29_verbose_level>3) {
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//z1 = measured_z;
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if (g29_verbose_level > 3) {
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serial_spaces(16);
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SERIAL_ECHOLNPAIR("Corrected_Z=", measured_z);
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}
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@ -1552,12 +1552,12 @@
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if (!abort_flag) {
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measured_z = probe_pt(UBL_PROBE_PT_2_X, UBL_PROBE_PT_2_Y, false, g29_verbose_level);
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// z2 = measured_z;
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//z2 = measured_z;
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if (isnan(measured_z))
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abort_flag = true;
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else {
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measured_z -= get_z_correction(UBL_PROBE_PT_2_X, UBL_PROBE_PT_2_Y);
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if (g29_verbose_level>3) {
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if (g29_verbose_level > 3) {
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serial_spaces(16);
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SERIAL_ECHOLNPAIR("Corrected_Z=", measured_z);
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}
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@ -1567,12 +1567,12 @@
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if (!abort_flag) {
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measured_z = probe_pt(UBL_PROBE_PT_3_X, UBL_PROBE_PT_3_Y, true, g29_verbose_level);
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// z3 = measured_z;
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//z3 = measured_z;
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if (isnan(measured_z))
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abort_flag = true;
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else {
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measured_z -= get_z_correction(UBL_PROBE_PT_3_X, UBL_PROBE_PT_3_Y);
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if (g29_verbose_level>3) {
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if (g29_verbose_level > 3) {
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serial_spaces(16);
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SERIAL_ECHOLNPAIR("Corrected_Z=", measured_z);
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}
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@ -1584,54 +1584,54 @@
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SERIAL_ECHOPGM("?Error probing point. Aborting operation.\n");
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return;
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}
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} else {
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}
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else { // !do_3_pt_leveling
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bool zig_zag = false;
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for (uint8_t ix = 0; ix < g29_grid_size; ix++) {
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const float rx = float(x_min) + ix * dx;
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for (int8_t iy = 0; iy < g29_grid_size; iy++) {
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const float ry = float(y_min) + dy * (zig_zag ? g29_grid_size - 1 - iy : iy);
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bool zig_zag = false;
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for (uint8_t ix = 0; ix < g29_grid_size; ix++) {
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const float rx = float(x_min) + ix * dx;
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for (int8_t iy = 0; iy < g29_grid_size; iy++) {
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const float ry = float(y_min) + dy * (zig_zag ? g29_grid_size - 1 - iy : iy);
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if (!abort_flag) {
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measured_z = probe_pt(rx, ry, parser.seen('E'), g29_verbose_level); // TODO: Needs error handling
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if (isnan(measured_z))
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abort_flag = true;
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abort_flag = isnan(measured_z);
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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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SERIAL_PROTOCOL_F(rx, 7);
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SERIAL_CHAR(',');
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SERIAL_PROTOCOL_F(ry, 7);
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SERIAL_ECHOPGM(") logical: ");
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SERIAL_CHAR('(');
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SERIAL_PROTOCOL_F(LOGICAL_X_POSITION(rx), 7);
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SERIAL_CHAR(',');
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SERIAL_PROTOCOL_F(LOGICAL_Y_POSITION(ry), 7);
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SERIAL_ECHOPGM(") measured: ");
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SERIAL_PROTOCOL_F(measured_z, 7);
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SERIAL_ECHOPGM(" correction: ");
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SERIAL_PROTOCOL_F(get_z_correction(rx, ry), 7);
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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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SERIAL_PROTOCOL_F(rx, 7);
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SERIAL_CHAR(',');
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SERIAL_PROTOCOL_F(ry, 7);
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SERIAL_ECHOPGM(") logical: ");
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SERIAL_CHAR('(');
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SERIAL_PROTOCOL_F(LOGICAL_X_POSITION(rx), 7);
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SERIAL_CHAR(',');
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SERIAL_PROTOCOL_F(LOGICAL_Y_POSITION(ry), 7);
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SERIAL_ECHOPGM(") measured: ");
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SERIAL_PROTOCOL_F(measured_z, 7);
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SERIAL_ECHOPGM(" correction: ");
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SERIAL_PROTOCOL_F(get_z_correction(rx, ry), 7);
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}
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#endif
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measured_z -= get_z_correction(rx, ry) /* + zprobe_zoffset */ ;
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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SERIAL_ECHOPGM(" final >>>---> ");
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SERIAL_PROTOCOL_F(measured_z, 7);
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SERIAL_EOL();
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}
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#endif
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incremental_LSF(&lsf_results, rx, ry, measured_z);
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}
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#endif
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measured_z -= get_z_correction(rx, ry) /* + zprobe_zoffset */ ;
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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SERIAL_ECHOPGM(" final >>>---> ");
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SERIAL_PROTOCOL_F(measured_z, 7);
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SERIAL_EOL();
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}
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#endif
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incremental_LSF(&lsf_results, rx, ry, measured_z);
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}
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}
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zig_zag ^= true;
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}
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zig_zag ^= true;
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}
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}
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@ -1640,7 +1640,6 @@
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return;
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}
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vector_3 normal = vector_3(lsf_results.A, lsf_results.B, 1.0000).get_normal();
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if (g29_verbose_level > 2) {
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@ -1714,22 +1713,22 @@
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SERIAL_ECHOPGM("]\n");
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SERIAL_EOL();
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/*
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* The following code can be used to check the validity of the mesh tilting algorithm.
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* When a 3-Point Mesh Tilt is done, the same algorithm is used as the grid based tilting.
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* The only difference is just 3 points are used in the calculations. That fact guarantees
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* each probed point should have an exact match when a get_z_correction() for that location
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* is calculated. The Z error between the probed point locations and the get_z_correction()
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* numbers for those locations should be 0.000
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*/
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/*
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/**
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* The following code can be used to check the validity of the mesh tilting algorithm.
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* When a 3-Point Mesh Tilt is done, the same algorithm is used as the grid based tilting.
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* The only difference is just 3 points are used in the calculations. That fact guarantees
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* each probed point should have an exact match when a get_z_correction() for that location
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* is calculated. The Z error between the probed point locations and the get_z_correction()
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* numbers for those locations should be 0.000
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*/
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#if 0
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float t, t1, d;
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t = normal.x * (UBL_PROBE_PT_1_X) + normal.y * (UBL_PROBE_PT_1_Y);
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d = t + normal.z * z1;
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SERIAL_ECHOPGM("D from 1st point: ");
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SERIAL_ECHO_F(d, 6);
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SERIAL_ECHOPGM(" Z error: ");
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SERIAL_ECHO_F(normal.z*z1-get_z_correction(UBL_PROBE_PT_1_X, UBL_PROBE_PT_1_Y),6);
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SERIAL_ECHO_F(normal.z*z1-get_z_correction(UBL_PROBE_PT_1_X, UBL_PROBE_PT_1_Y), 6);
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SERIAL_EOL();
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t = normal.x * (UBL_PROBE_PT_2_X) + normal.y * (UBL_PROBE_PT_2_Y);
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SERIAL_ECHOPGM("D from 2nd point: ");
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SERIAL_ECHO_F(d, 6);
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SERIAL_ECHOPGM(" Z error: ");
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SERIAL_ECHO_F(normal.z*z2-get_z_correction(UBL_PROBE_PT_2_X, UBL_PROBE_PT_2_Y),6);
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SERIAL_ECHO_F(normal.z*z2-get_z_correction(UBL_PROBE_PT_2_X, UBL_PROBE_PT_2_Y), 6);
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SERIAL_EOL();
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t = normal.x * (UBL_PROBE_PT_3_X) + normal.y * (UBL_PROBE_PT_3_Y);
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SERIAL_ECHOPGM("D from 3rd point: ");
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SERIAL_ECHO_F(d, 6);
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SERIAL_ECHOPGM(" Z error: ");
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SERIAL_ECHO_F(normal.z*z3-get_z_correction(UBL_PROBE_PT_3_X, UBL_PROBE_PT_3_Y),6);
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SERIAL_ECHO_F(normal.z*z3-get_z_correction(UBL_PROBE_PT_3_X, UBL_PROBE_PT_3_Y), 6);
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SERIAL_EOL();
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t = normal.x * (Z_SAFE_HOMING_X_POINT) + normal.y * (Z_SAFE_HOMING_Y_POINT);
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SERIAL_ECHOPGM("D from home location using mesh value for Z: ");
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SERIAL_ECHO_F(d, 6);
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SERIAL_ECHOPAIR(" Z error: (", Z_SAFE_HOMING_X_POINT );
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SERIAL_ECHOPAIR(" Z error: (", Z_SAFE_HOMING_X_POINT);
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SERIAL_ECHOPAIR(",", Z_SAFE_HOMING_Y_POINT );
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SERIAL_ECHOPGM(") = ");
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SERIAL_ECHO_F( get_z_correction(Z_SAFE_HOMING_X_POINT, Z_SAFE_HOMING_Y_POINT),6);
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SERIAL_ECHO_F(get_z_correction(Z_SAFE_HOMING_X_POINT, Z_SAFE_HOMING_Y_POINT), 6);
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SERIAL_EOL();
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*/
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}
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#endif
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} // DEBUGGING(LEVELING)
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#endif
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}
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