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@ -107,6 +107,34 @@ static void G33_cleanup(
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#endif
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}
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/**
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* G33 - Delta '1-4-7-point' Auto-Calibration
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* Calibrate height, endstops, delta radius, and tower angles.
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*
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* Parameters:
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*
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* Pn Number of probe points:
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*
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* P0 No probe. Normalize only.
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* P1 Probe center and set height only.
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* P2 Probe center and towers. Set height, endstops, and delta radius.
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* P3 Probe all positions: center, towers and opposite towers. Set all.
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* P4-P7 Probe all positions at different locations and average them.
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*
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* T0 Don't calibrate tower angle corrections
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*
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* Cn.nn Calibration precision; when omitted calibrates to maximum precision
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*
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* Fn Force to run at least n iterations and takes the best result
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*
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* Vn Verbose level:
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*
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* V0 Dry-run mode. Report settings and probe results. No calibration.
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* V1 Report settings
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* V2 Report settings and probe results
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*
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* E Engage the probe for each point
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*/
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void GcodeSuite::G33() {
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const int8_t probe_points = parser.intval('P', DELTA_CALIBRATION_DEFAULT_POINTS);
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@ -134,6 +162,7 @@ void GcodeSuite::G33() {
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}
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const bool towers_set = parser.boolval('T', true),
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stow_after_each = parser.boolval('E'),
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_0p_calibration = probe_points == 0,
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_1p_calibration = probe_points == 1,
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_4p_calibration = probe_points == 2,
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@ -146,15 +175,9 @@ void GcodeSuite::G33() {
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_7p_quadruple_circle = probe_points == 7,
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_7p_multi_circle = _7p_double_circle || _7p_triple_circle || _7p_quadruple_circle,
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_7p_intermed_points = _7p_calibration && !_7p_half_circle;
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#if DISABLED(PROBE_MANUALLY)
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const bool stow_after_each = parser.boolval('E');
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const float dx = (X_PROBE_OFFSET_FROM_EXTRUDER),
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dy = (Y_PROBE_OFFSET_FROM_EXTRUDER);
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#endif
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const static char save_message[] PROGMEM = "Save with M500 and/or copy to Configuration.h";
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const float dx = (X_PROBE_OFFSET_FROM_EXTRUDER),
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dy = (Y_PROBE_OFFSET_FROM_EXTRUDER);
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int8_t iterations = 0;
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float test_precision,
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zero_std_dev = (verbose_level ? 999.0 : 0.0), // 0.0 in dry-run mode : forced end
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@ -189,7 +212,6 @@ void GcodeSuite::G33() {
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SERIAL_PROTOCOLLNPGM("G33 Auto Calibrate");
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stepper.synchronize();
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#if HAS_LEVELING
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reset_bed_level(); // After calibration bed-level data is no longer valid
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#endif
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@ -220,19 +242,11 @@ void GcodeSuite::G33() {
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print_G33_settings(!_1p_calibration, _7p_calibration && towers_set);
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#if DISABLED(PROBE_MANUALLY)
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if (!_0p_calibration) {
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const float measured_z = probe_pt(dx, dy, stow_after_each, 1, false); // 1st probe to set height
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if (isnan(measured_z)) return G33_CLEANUP();
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home_offset[Z_AXIS] -= measured_z;
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}
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#endif
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do {
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float z_at_pt[13] = { 0.0 };
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test_precision = _0p_calibration ? 0.00 : zero_std_dev_old != 999.0 ? (zero_std_dev + zero_std_dev_old) / 2 : zero_std_dev;
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test_precision = zero_std_dev_old != 999.0 ? (zero_std_dev + zero_std_dev_old) / 2 : zero_std_dev;
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iterations++;
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@ -301,7 +315,7 @@ void GcodeSuite::G33() {
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// Solve matrices
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if ((zero_std_dev < test_precision && zero_std_dev > calibration_precision) || iterations <= force_iterations) {
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if ((zero_std_dev < test_precision || iterations <= force_iterations) && zero_std_dev > calibration_precision) {
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if (zero_std_dev < zero_std_dev_min) {
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COPY(e_old, delta_endstop_adj);
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dr_old = delta_radius;
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@ -311,9 +325,9 @@ void GcodeSuite::G33() {
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float e_delta[ABC] = { 0.0 }, r_delta = 0.0, t_delta[ABC] = { 0.0 };
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const float r_diff = delta_radius - delta_calibration_radius,
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h_factor = (1.00 + r_diff * 0.001) / 6.0, //1.02 / 6 for r_diff = 20mm
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r_factor = -(1.75 + 0.005 * r_diff + 0.001 * sq(r_diff)) / 6.0, //2.25 / 6 for r_diff = 20mm
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a_factor = 66.66 / delta_calibration_radius; //1.25 for cal_rd = 80mm
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h_factor = (1.00 + r_diff * 0.001) / 6.0, // 1.02 for r_diff = 20mm
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r_factor = (-(1.75 + 0.005 * r_diff + 0.001 * sq(r_diff))) / 6.0, // 2.25 for r_diff = 20mm
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a_factor = (66.66 / delta_calibration_radius) / (iterations == 1 ? 16.0 : 2.0); // 0.83 for cal_rd = 80mm
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#define ZP(N,I) ((N) * z_at_pt[I])
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#define Z6(I) ZP(6, I)
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@ -326,8 +340,16 @@ void GcodeSuite::G33() {
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#endif
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switch (probe_points) {
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case 0:
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#if DISABLED(PROBE_MANUALLY)
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test_precision = 0.00; // forced end
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#endif
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break;
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case 1:
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test_precision = 0.00; // forced end
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#if DISABLED(PROBE_MANUALLY)
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test_precision = 0.00; // forced end
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#endif
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LOOP_XYZ(axis) e_delta[axis] = Z1(0);
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break;
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@ -353,9 +375,12 @@ void GcodeSuite::G33() {
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r_delta = (Z6(0) - Z1(1) - Z1(5) - Z1(9) - Z1(7) - Z1(11) - Z1(3)) * r_factor;
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if (towers_set) {
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t_delta[A_AXIS] = ( - Z2(5) + Z1(9) - Z2(11) + Z1(3)) * a_factor;
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t_delta[B_AXIS] = ( Z2(1) - Z1(9) + Z2(7) - Z1(3)) * a_factor;
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t_delta[C_AXIS] = ( -Z2(1) + Z1(5) - Z2(7) + Z1(11) ) * a_factor;
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t_delta[A_AXIS] = ( - Z2(5) + Z2(9) - Z2(11) + Z2(3)) * a_factor;
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t_delta[B_AXIS] = ( Z2(1) - Z2(9) + Z2(7) - Z2(3)) * a_factor;
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t_delta[C_AXIS] = (-Z2(1) + Z2(5) - Z2(7) + Z2(11) ) * a_factor;
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e_delta[A_AXIS] += (t_delta[B_AXIS] - t_delta[C_AXIS]) / 4.5;
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e_delta[B_AXIS] += (t_delta[C_AXIS] - t_delta[A_AXIS]) / 4.5;
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e_delta[C_AXIS] += (t_delta[A_AXIS] - t_delta[B_AXIS]) / 4.5;
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}
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break;
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}
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@ -407,7 +432,7 @@ void GcodeSuite::G33() {
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}
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}
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if (verbose_level != 0) { // !dry run
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if ((zero_std_dev >= test_precision || zero_std_dev <= calibration_precision) && iterations > force_iterations) { // end iterations
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if ((zero_std_dev >= test_precision && iterations > force_iterations) || zero_std_dev <= calibration_precision) { // end iterations
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SERIAL_PROTOCOLPGM("Calibration OK");
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SERIAL_PROTOCOL_SP(36);
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#if DISABLED(PROBE_MANUALLY)
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@ -469,7 +494,7 @@ void GcodeSuite::G33() {
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endstops.not_homing();
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}
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while ((zero_std_dev < test_precision && zero_std_dev > calibration_precision && iterations < 31) || iterations <= force_iterations);
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while (((zero_std_dev < test_precision && iterations < 31) || iterations <= force_iterations) && zero_std_dev > calibration_precision);
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G33_CLEANUP();
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}
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