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@ -6948,6 +6948,9 @@ inline void gcode_M503() {
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stepper.synchronize();
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stepper.synchronize();
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if (code_seen('S')) dual_x_carriage_mode = (DualXMode)code_value_byte();
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if (code_seen('S')) dual_x_carriage_mode = (DualXMode)code_value_byte();
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switch (dual_x_carriage_mode) {
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switch (dual_x_carriage_mode) {
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case DXC_FULL_CONTROL_MODE:
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case DXC_AUTO_PARK_MODE:
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break;
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case DXC_DUPLICATION_MODE:
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case DXC_DUPLICATION_MODE:
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if (code_seen('X')) duplicate_extruder_x_offset = max(code_value_axis_units(X_AXIS), X2_MIN_POS - x_home_pos(0));
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if (code_seen('X')) duplicate_extruder_x_offset = max(code_value_axis_units(X_AXIS), X2_MIN_POS - x_home_pos(0));
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if (code_seen('R')) duplicate_extruder_temp_offset = code_value_temp_diff();
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if (code_seen('R')) duplicate_extruder_temp_offset = code_value_temp_diff();
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@ -6962,9 +6965,6 @@ inline void gcode_M503() {
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SERIAL_CHAR(',');
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SERIAL_CHAR(',');
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SERIAL_ECHOLN(hotend_offset[Y_AXIS][1]);
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SERIAL_ECHOLN(hotend_offset[Y_AXIS][1]);
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break;
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break;
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case DXC_FULL_CONTROL_MODE:
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case DXC_AUTO_PARK_MODE:
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break;
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default:
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default:
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dual_x_carriage_mode = DEFAULT_DUAL_X_CARRIAGE_MODE;
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dual_x_carriage_mode = DEFAULT_DUAL_X_CARRIAGE_MODE;
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break;
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break;
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@ -7254,9 +7254,9 @@ void tool_change(const uint8_t tmp_extruder, const float fr_mm_s/*=0.0*/, bool n
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if (DEBUGGING(LEVELING)) {
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if (DEBUGGING(LEVELING)) {
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SERIAL_ECHOPGM("Dual X Carriage Mode ");
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SERIAL_ECHOPGM("Dual X Carriage Mode ");
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switch (dual_x_carriage_mode) {
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switch (dual_x_carriage_mode) {
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case DXC_DUPLICATION_MODE: SERIAL_ECHOLNPGM("DXC_DUPLICATION_MODE"); break;
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case DXC_AUTO_PARK_MODE: SERIAL_ECHOLNPGM("DXC_AUTO_PARK_MODE"); break;
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case DXC_FULL_CONTROL_MODE: SERIAL_ECHOLNPGM("DXC_FULL_CONTROL_MODE"); break;
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case DXC_FULL_CONTROL_MODE: SERIAL_ECHOLNPGM("DXC_FULL_CONTROL_MODE"); break;
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case DXC_AUTO_PARK_MODE: SERIAL_ECHOLNPGM("DXC_AUTO_PARK_MODE"); break;
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case DXC_DUPLICATION_MODE: SERIAL_ECHOLNPGM("DXC_DUPLICATION_MODE"); break;
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}
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}
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}
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}
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#endif
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#endif
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@ -8974,39 +8974,45 @@ void set_current_from_steppers_for_axis(const AxisEnum axis) {
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*/
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*/
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inline bool prepare_move_to_destination_dualx() {
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inline bool prepare_move_to_destination_dualx() {
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if (active_extruder_parked) {
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if (active_extruder_parked) {
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if (dual_x_carriage_mode == DXC_DUPLICATION_MODE && active_extruder == 0) {
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switch (dual_x_carriage_mode) {
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// move duplicate extruder into correct duplication position.
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case DXC_FULL_CONTROL_MODE:
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planner.set_position_mm(
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break;
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LOGICAL_X_POSITION(inactive_extruder_x_pos),
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case DXC_DUPLICATION_MODE:
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current_position[Y_AXIS],
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if (active_extruder == 0) {
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current_position[Z_AXIS],
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// move duplicate extruder into correct duplication position.
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current_position[E_AXIS]
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planner.set_position_mm(
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);
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LOGICAL_X_POSITION(inactive_extruder_x_pos),
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planner.buffer_line(current_position[X_AXIS] + duplicate_extruder_x_offset,
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current_position[Y_AXIS],
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current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[X_AXIS], 1);
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current_position[Z_AXIS],
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SYNC_PLAN_POSITION_KINEMATIC();
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current_position[E_AXIS]
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stepper.synchronize();
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);
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extruder_duplication_enabled = true;
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planner.buffer_line(current_position[X_AXIS] + duplicate_extruder_x_offset,
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active_extruder_parked = false;
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current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[X_AXIS], 1);
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}
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SYNC_PLAN_POSITION_KINEMATIC();
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else if (dual_x_carriage_mode == DXC_AUTO_PARK_MODE) { // handle unparking of head
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stepper.synchronize();
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if (current_position[E_AXIS] == destination[E_AXIS]) {
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extruder_duplication_enabled = true;
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// This is a travel move (with no extrusion)
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active_extruder_parked = false;
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// Skip it, but keep track of the current position
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// (so it can be used as the start of the next non-travel move)
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if (delayed_move_time != 0xFFFFFFFFUL) {
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set_current_to_destination();
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NOLESS(raised_parked_position[Z_AXIS], destination[Z_AXIS]);
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delayed_move_time = millis();
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return false;
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}
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}
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}
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break;
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delayed_move_time = 0;
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case DXC_AUTO_PARK_MODE:
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// unpark extruder: 1) raise, 2) move into starting XY position, 3) lower
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if (current_position[E_AXIS] == destination[E_AXIS]) {
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planner.buffer_line(raised_parked_position[X_AXIS], raised_parked_position[Y_AXIS], raised_parked_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[Z_AXIS], active_extruder);
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// This is a travel move (with no extrusion)
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], raised_parked_position[Z_AXIS], current_position[E_AXIS], PLANNER_XY_FEEDRATE(), active_extruder);
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// Skip it, but keep track of the current position
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[Z_AXIS], active_extruder);
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// (so it can be used as the start of the next non-travel move)
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active_extruder_parked = false;
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if (delayed_move_time != 0xFFFFFFFFUL) {
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set_current_to_destination();
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NOLESS(raised_parked_position[Z_AXIS], destination[Z_AXIS]);
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delayed_move_time = millis();
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return false;
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}
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}
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delayed_move_time = 0;
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// unpark extruder: 1) raise, 2) move into starting XY position, 3) lower
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planner.buffer_line(raised_parked_position[X_AXIS], raised_parked_position[Y_AXIS], raised_parked_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[Z_AXIS], active_extruder);
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], raised_parked_position[Z_AXIS], current_position[E_AXIS], PLANNER_XY_FEEDRATE(), active_extruder);
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], planner.max_feedrate_mm_s[Z_AXIS], active_extruder);
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active_extruder_parked = false;
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break;
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}
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}
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}
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}
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return true;
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return true;
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