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@ -723,12 +723,16 @@ void MarlinSettings::postprocess() {
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float dummy = 0;
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bool dummyb;
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working_crc = 0; //clear before reading first "real data"
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working_crc = 0; // Init to 0. Accumulated by EEPROM_READ
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// Number of esteppers may change
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uint8_t esteppers;
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EEPROM_READ(esteppers);
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//
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// Planner Motion
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//
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// Get only the number of E stepper parameters previously stored
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// Any steppers added later are set to their defaults
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const float def1[] = DEFAULT_AXIS_STEPS_PER_UNIT, def2[] = DEFAULT_MAX_FEEDRATE;
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@ -752,6 +756,10 @@ void MarlinSettings::postprocess() {
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EEPROM_READ(planner.min_segment_time_us);
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EEPROM_READ(planner.max_jerk);
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//
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// Home Offset (M206)
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//
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#if !HAS_HOME_OFFSET
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float home_offset[XYZ];
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#endif
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@ -763,6 +771,10 @@ void MarlinSettings::postprocess() {
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home_offset[Z_AXIS] -= DELTA_HEIGHT;
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#endif
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//
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// Hotend Offsets, if any
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//
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#if HOTENDS > 1
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// Skip hotend 0 which must be 0
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for (uint8_t e = 1; e < HOTENDS; e++)
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@ -846,6 +858,10 @@ void MarlinSettings::postprocess() {
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for (uint16_t q = grid_max_x * grid_max_y; q--;) EEPROM_READ(dummy);
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}
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//
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// Unified Bed Leveling active state
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//
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#if ENABLED(AUTO_BED_LEVELING_UBL)
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EEPROM_READ(planner.leveling_active);
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EEPROM_READ(ubl.storage_slot);
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@ -855,6 +871,10 @@ void MarlinSettings::postprocess() {
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EEPROM_READ(dummyui8);
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#endif // AUTO_BED_LEVELING_UBL
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//
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// DELTA Geometry or Dual Endstops offsets
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//
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#if ENABLED(DELTA)
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EEPROM_READ(delta_endstop_adj); // 3 floats
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EEPROM_READ(delta_radius); // 1 float
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@ -891,19 +911,26 @@ void MarlinSettings::postprocess() {
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#endif
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//
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// LCD Preheat settings
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//
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#if DISABLED(ULTIPANEL)
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int lcd_preheat_hotend_temp[2], lcd_preheat_bed_temp[2], lcd_preheat_fan_speed[2];
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#endif
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EEPROM_READ(lcd_preheat_hotend_temp);
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EEPROM_READ(lcd_preheat_bed_temp);
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EEPROM_READ(lcd_preheat_fan_speed);
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EEPROM_READ(lcd_preheat_hotend_temp); // 2 floats
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EEPROM_READ(lcd_preheat_bed_temp); // 2 floats
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EEPROM_READ(lcd_preheat_fan_speed); // 2 floats
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//EEPROM_ASSERT(
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// WITHIN(lcd_preheat_fan_speed, 0, 255),
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// "lcd_preheat_fan_speed out of range"
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//);
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//
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// Hotend PID
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//
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#if ENABLED(PIDTEMP)
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for (uint8_t e = 0; e < MAX_EXTRUDERS; e++) {
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EEPROM_READ(dummy); // Kp
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@ -927,11 +954,19 @@ void MarlinSettings::postprocess() {
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for (uint8_t q = MAX_EXTRUDERS * 4; q--;) EEPROM_READ(dummy); // Kp, Ki, Kd, Kc
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#endif // !PIDTEMP
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//
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// PID Extrusion Scaling
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//
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#if DISABLED(PID_EXTRUSION_SCALING)
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int lpq_len;
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#endif
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EEPROM_READ(lpq_len);
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//
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// Heated Bed PID
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//
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#if ENABLED(PIDTEMPBED)
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EEPROM_READ(dummy); // bedKp
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if (dummy != DUMMY_PID_VALUE) {
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@ -943,11 +978,19 @@ void MarlinSettings::postprocess() {
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for (uint8_t q=3; q--;) EEPROM_READ(dummy); // bedKp, bedKi, bedKd
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#endif
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//
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// LCD Contrast
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//
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#if !HAS_LCD_CONTRAST
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uint16_t lcd_contrast;
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#endif
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EEPROM_READ(lcd_contrast);
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//
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// Firmware Retraction
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//
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#if ENABLED(FWRETRACT)
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EEPROM_READ(autoretract_enabled);
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EEPROM_READ(retract_length);
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@ -963,13 +1006,20 @@ void MarlinSettings::postprocess() {
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for (uint8_t q=8; q--;) EEPROM_READ(dummy);
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#endif
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EEPROM_READ(volumetric_enabled);
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//
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// Volumetric & Filament Size
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//
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EEPROM_READ(volumetric_enabled);
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for (uint8_t q = 0; q < MAX_EXTRUDERS; q++) {
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EEPROM_READ(dummy);
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if (q < COUNT(filament_size)) filament_size[q] = dummy;
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}
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//
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// TMC2130 Stepper Current
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//
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uint16_t val;
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#if ENABLED(HAVE_TMC2130)
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EEPROM_READ(val);
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@ -1017,7 +1067,7 @@ void MarlinSettings::postprocess() {
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stepperE4.setCurrent(val, R_SENSE, HOLD_MULTIPLIER);
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#endif
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#else
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for (uint8_t q = 0; q < 11; q++) EEPROM_READ(val);
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for (uint8_t q = 11; --q;) EEPROM_READ(val);
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#endif
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//
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@ -1032,6 +1082,10 @@ void MarlinSettings::postprocess() {
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EEPROM_READ(dummy);
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#endif
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//
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// Motor Current PWM
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//
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#if HAS_MOTOR_CURRENT_PWM
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for (uint8_t q = 3; q--;) EEPROM_READ(stepper.motor_current_setting[q]);
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#else
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