muele-marlin/Marlin/src/module/configuration_store.cpp

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/**
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* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
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*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
/**
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* configuration_store.cpp
*
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* Settings and EEPROM storage
*
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* IMPORTANT: Whenever there are changes made to the variables stored in EEPROM
* in the functions below, also increment the version number. This makes sure that
* the default values are used whenever there is a change to the data, to prevent
* wrong data being written to the variables.
*
* ALSO: Variables in the Store and Retrieve sections must be in the same order.
* If a feature is disabled, some data must still be written that, when read,
* either sets a Sane Default, or results in No Change to the existing value.
*
*/
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// Change EEPROM version if the structure changes
#define EEPROM_VERSION "V78"
#define EEPROM_OFFSET 100
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// Check the integrity of data offsets.
// Can be disabled for production build.
//#define DEBUG_EEPROM_READWRITE
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#include "configuration_store.h"
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#include "endstops.h"
#include "planner.h"
#include "stepper.h"
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#include "temperature.h"
#include "../lcd/ultralcd.h"
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#include "../libs/vector_3.h" // for matrix_3x3
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#include "../gcode/gcode.h"
#include "../MarlinCore.h"
#if EITHER(EEPROM_SETTINGS, SD_FIRMWARE_UPDATE)
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#include "../HAL/shared/eeprom_api.h"
#endif
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#include "probe.h"
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#if HAS_LEVELING
#include "../feature/bedlevel/bedlevel.h"
#endif
#if ENABLED(Z_STEPPER_AUTO_ALIGN)
#include "../feature/z_stepper_align.h"
#endif
#if ENABLED(EXTENSIBLE_UI)
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#include "../lcd/extui/ui_api.h"
#endif
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#if HAS_SERVOS
#include "servo.h"
#endif
#if HAS_SERVOS && HAS_SERVO_ANGLES
#define EEPROM_NUM_SERVOS NUM_SERVOS
#else
#define EEPROM_NUM_SERVOS NUM_SERVO_PLUGS
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#endif
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#include "../feature/fwretract.h"
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#if ENABLED(POWER_LOSS_RECOVERY)
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#include "../feature/powerloss.h"
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#endif
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#include "../feature/pause.h"
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#if ENABLED(BACKLASH_COMPENSATION)
#include "../feature/backlash.h"
#endif
#if HAS_FILAMENT_SENSOR
#include "../feature/runout.h"
#endif
#if ENABLED(EXTRA_LIN_ADVANCE_K)
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extern float other_extruder_advance_K[EXTRUDERS];
#endif
#if EXTRUDERS > 1
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#include "tool_change.h"
void M217_report(const bool eeprom);
#endif
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#if ENABLED(BLTOUCH)
#include "../feature/bltouch.h"
#endif
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#if HAS_TRINAMIC_CONFIG
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#include "stepper/indirection.h"
#include "../feature/tmc_util.h"
#endif
#if ENABLED(PROBE_TEMP_COMPENSATION)
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#include "../feature/probe_temp_comp.h"
#endif
#include "../feature/controllerfan.h"
#if ENABLED(CONTROLLER_FAN_EDITABLE)
void M710_report(const bool forReplay);
#endif
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#if ENABLED(CASE_LIGHT_MENU) && DISABLED(CASE_LIGHT_NO_BRIGHTNESS)
#include "../feature/caselight.h"
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#define HAS_CASE_LIGHT_BRIGHTNESS 1
#endif
#pragma pack(push, 1) // No padding between variables
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typedef struct { uint16_t X, Y, Z, X2, Y2, Z2, Z3, Z4, E0, E1, E2, E3, E4, E5, E6, E7; } tmc_stepper_current_t;
typedef struct { uint32_t X, Y, Z, X2, Y2, Z2, Z3, Z4, E0, E1, E2, E3, E4, E5, E6, E7; } tmc_hybrid_threshold_t;
typedef struct { int16_t X, Y, Z, X2, Y2, Z2, Z3, Z4; } tmc_sgt_t;
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typedef struct { bool X, Y, Z, X2, Y2, Z2, Z3, Z4, E0, E1, E2, E3, E4, E5, E6, E7; } tmc_stealth_enabled_t;
// Limit an index to an array size
#define ALIM(I,ARR) _MIN(I, COUNT(ARR) - 1)
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// Defaults for reset / fill in on load
static const uint32_t _DMA[] PROGMEM = DEFAULT_MAX_ACCELERATION;
static const float _DASU[] PROGMEM = DEFAULT_AXIS_STEPS_PER_UNIT;
static const feedRate_t _DMF[] PROGMEM = DEFAULT_MAX_FEEDRATE;
extern const char SP_X_STR[], SP_Y_STR[], SP_Z_STR[], SP_E_STR[];
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/**
* Current EEPROM Layout
*
* Keep this data structure up to date so
* EEPROM size is known at compile time!
*/
typedef struct SettingsDataStruct {
char version[4]; // Vnn\0
uint16_t crc; // Data Checksum
//
// DISTINCT_E_FACTORS
//
uint8_t esteppers; // XYZE_N - XYZ
planner_settings_t planner_settings;
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xyze_float_t planner_max_jerk; // M205 XYZE planner.max_jerk
float planner_junction_deviation_mm; // M205 J planner.junction_deviation_mm
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xyz_pos_t home_offset; // M206 XYZ / M665 TPZ
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#if HAS_HOTEND_OFFSET
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xyz_pos_t hotend_offset[HOTENDS - 1]; // M218 XYZ
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#endif
//
// FILAMENT_RUNOUT_SENSOR
//
bool runout_sensor_enabled; // M412 S
float runout_distance_mm; // M412 D
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//
// ENABLE_LEVELING_FADE_HEIGHT
//
float planner_z_fade_height; // M420 Zn planner.z_fade_height
//
// MESH_BED_LEVELING
//
float mbl_z_offset; // mbl.z_offset
uint8_t mesh_num_x, mesh_num_y; // GRID_MAX_POINTS_X, GRID_MAX_POINTS_Y
float mbl_z_values[TERN(MESH_BED_LEVELING, GRID_MAX_POINTS_X, 3)] // mbl.z_values
[TERN(MESH_BED_LEVELING, GRID_MAX_POINTS_Y, 3)];
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//
// HAS_BED_PROBE
//
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xyz_pos_t probe_offset;
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//
// ABL_PLANAR
//
matrix_3x3 planner_bed_level_matrix; // planner.bed_level_matrix
//
// AUTO_BED_LEVELING_BILINEAR
//
uint8_t grid_max_x, grid_max_y; // GRID_MAX_POINTS_X, GRID_MAX_POINTS_Y
xy_pos_t bilinear_grid_spacing, bilinear_start; // G29 L F
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#if ENABLED(AUTO_BED_LEVELING_BILINEAR)
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bed_mesh_t z_values; // G29
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#else
float z_values[3][3];
#endif
//
// AUTO_BED_LEVELING_UBL
//
bool planner_leveling_active; // M420 S planner.leveling_active
int8_t ubl_storage_slot; // ubl.storage_slot
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//
// SERVO_ANGLES
//
uint16_t servo_angles[EEPROM_NUM_SERVOS][2]; // M281 P L U
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//
// Temperature first layer compensation values
//
#if ENABLED(PROBE_TEMP_COMPENSATION)
int16_t z_offsets_probe[COUNT(temp_comp.z_offsets_probe)], // M871 P I V
z_offsets_bed[COUNT(temp_comp.z_offsets_bed)] // M871 B I V
#if ENABLED(USE_TEMP_EXT_COMPENSATION)
, z_offsets_ext[COUNT(temp_comp.z_offsets_ext)] // M871 E I V
#endif
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;
#endif
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//
// BLTOUCH
//
bool bltouch_last_written_mode;
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//
// DELTA / [XYZ]_DUAL_ENDSTOPS
//
#if ENABLED(DELTA)
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float delta_height; // M666 H
abc_float_t delta_endstop_adj; // M666 XYZ
float delta_radius, // M665 R
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delta_diagonal_rod, // M665 L
delta_segments_per_second; // M665 S
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abc_float_t delta_tower_angle_trim; // M665 XYZ
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#elif HAS_EXTRA_ENDSTOPS
float x2_endstop_adj, // M666 X
y2_endstop_adj, // M666 Y
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z2_endstop_adj, // M666 (S2) Z
z3_endstop_adj, // M666 (S3) Z
z4_endstop_adj; // M666 (S4) Z
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#endif
//
// Z_STEPPER_AUTO_ALIGN, Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS
//
#if ENABLED(Z_STEPPER_AUTO_ALIGN)
xy_pos_t z_stepper_align_xy[NUM_Z_STEPPER_DRIVERS]; // M422 S X Y
#if ENABLED(Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS)
xy_pos_t z_stepper_align_stepper_xy[NUM_Z_STEPPER_DRIVERS]; // M422 W X Y
#endif
#endif
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//
// ULTIPANEL
//
int16_t ui_preheat_hotend_temp[2], // M145 S0 H
ui_preheat_bed_temp[2]; // M145 S0 B
uint8_t ui_preheat_fan_speed[2]; // M145 S0 F
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//
// PIDTEMP
//
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PIDCF_t hotendPID[HOTENDS]; // M301 En PIDCF / M303 En U
int16_t lpq_len; // M301 L
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//
// PIDTEMPBED
//
PID_t bedPID; // M304 PID / M303 E-1 U
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//
// User-defined Thermistors
//
#if HAS_USER_THERMISTORS
user_thermistor_t user_thermistor[USER_THERMISTORS]; // M305 P0 R4700 T100000 B3950
#endif
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//
// HAS_LCD_CONTRAST
//
int16_t lcd_contrast; // M250 C
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//
// Controller fan settings
//
controllerFan_settings_t controllerFan_settings; // M710
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//
// POWER_LOSS_RECOVERY
//
bool recovery_enabled; // M413 S
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//
// FWRETRACT
//
fwretract_settings_t fwretract_settings; // M207 S F Z W, M208 S F W R
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bool autoretract_enabled; // M209 S
//
// !NO_VOLUMETRIC
//
bool parser_volumetric_enabled; // M200 D parser.volumetric_enabled
float planner_filament_size[EXTRUDERS]; // M200 T D planner.filament_size[]
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//
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// HAS_TRINAMIC_CONFIG
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//
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tmc_stepper_current_t tmc_stepper_current; // M906 X Y Z X2 Y2 Z2 Z3 Z4 E0 E1 E2 E3 E4 E5
tmc_hybrid_threshold_t tmc_hybrid_threshold; // M913 X Y Z X2 Y2 Z2 Z3 Z4 E0 E1 E2 E3 E4 E5
tmc_sgt_t tmc_sgt; // M914 X Y Z X2 Y2 Z2 Z3 Z4
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tmc_stealth_enabled_t tmc_stealth_enabled; // M569 X Y Z X2 Y2 Z2 Z3 Z4 E0 E1 E2 E3 E4 E5
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//
// LIN_ADVANCE
//
float planner_extruder_advance_K[_MAX(EXTRUDERS, 1)]; // M900 K planner.extruder_advance_K
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//
// HAS_MOTOR_CURRENT_PWM
//
uint32_t motor_current_setting[3]; // M907 X Z E
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//
// CNC_COORDINATE_SYSTEMS
//
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xyz_pos_t coordinate_system[MAX_COORDINATE_SYSTEMS]; // G54-G59.3
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//
// SKEW_CORRECTION
//
skew_factor_t planner_skew_factor; // M852 I J K planner.skew_factor
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//
// ADVANCED_PAUSE_FEATURE
//
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#if EXTRUDERS
fil_change_settings_t fc_settings[EXTRUDERS]; // M603 T U L
#endif
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//
// Tool-change settings
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//
#if EXTRUDERS > 1
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toolchange_settings_t toolchange_settings; // M217 S P R
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#endif
//
// BACKLASH_COMPENSATION
//
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xyz_float_t backlash_distance_mm; // M425 X Y Z
uint8_t backlash_correction; // M425 F
float backlash_smoothing_mm; // M425 S
//
// EXTENSIBLE_UI
//
#if ENABLED(EXTENSIBLE_UI)
// This is a significant hardware change; don't reserve space when not present
uint8_t extui_data[ExtUI::eeprom_data_size];
#endif
//
// HAS_CASE_LIGHT_BRIGHTNESS
//
#if HAS_CASE_LIGHT_BRIGHTNESS
uint8_t case_light_brightness;
#endif
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} SettingsData;
//static_assert(sizeof(SettingsData) <= E2END + 1, "EEPROM too small to contain SettingsData!");
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MarlinSettings settings;
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uint16_t MarlinSettings::datasize() { return sizeof(SettingsData); }
/**
* Post-process after Retrieve or Reset
*/
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#if ENABLED(ENABLE_LEVELING_FADE_HEIGHT)
float new_z_fade_height;
#endif
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void MarlinSettings::postprocess() {
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xyze_pos_t oldpos = current_position;
// steps per s2 needs to be updated to agree with units per s2
planner.reset_acceleration_rates();
// Make sure delta kinematics are updated before refreshing the
// planner position so the stepper counts will be set correctly.
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TERN_(DELTA, recalc_delta_settings());
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TERN_(PIDTEMP, thermalManager.updatePID());
#if DISABLED(NO_VOLUMETRICS)
planner.calculate_volumetric_multipliers();
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#elif EXTRUDERS
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for (uint8_t i = COUNT(planner.e_factor); i--;)
planner.refresh_e_factor(i);
#endif
// Software endstops depend on home_offset
LOOP_XYZ(i) {
update_workspace_offset((AxisEnum)i);
update_software_endstops((AxisEnum)i);
}
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TERN_(ENABLE_LEVELING_FADE_HEIGHT, set_z_fade_height(new_z_fade_height, false)); // false = no report
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TERN_(AUTO_BED_LEVELING_BILINEAR, refresh_bed_level());
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TERN_(HAS_MOTOR_CURRENT_PWM, stepper.refresh_motor_power());
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TERN_(FWRETRACT, fwretract.refresh_autoretract());
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TERN_(HAS_LINEAR_E_JERK, planner.recalculate_max_e_jerk());
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TERN_(HAS_CASE_LIGHT_BRIGHTNESS, update_case_light());
// Refresh steps_to_mm with the reciprocal of axis_steps_per_mm
// and init stepper.count[], planner.position[] with current_position
planner.refresh_positioning();
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// Various factors can change the current position
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if (oldpos != current_position)
report_current_position();
}
#if BOTH(PRINTCOUNTER, EEPROM_SETTINGS)
#include "printcounter.h"
static_assert(
!WITHIN(STATS_EEPROM_ADDRESS, EEPROM_OFFSET, EEPROM_OFFSET + sizeof(SettingsData)) &&
!WITHIN(STATS_EEPROM_ADDRESS + sizeof(printStatistics), EEPROM_OFFSET, EEPROM_OFFSET + sizeof(SettingsData)),
"STATS_EEPROM_ADDRESS collides with EEPROM settings storage."
);
#endif
#if ENABLED(SD_FIRMWARE_UPDATE)
#if ENABLED(EEPROM_SETTINGS)
static_assert(
!WITHIN(SD_FIRMWARE_UPDATE_EEPROM_ADDR, EEPROM_OFFSET, EEPROM_OFFSET + sizeof(SettingsData)),
"SD_FIRMWARE_UPDATE_EEPROM_ADDR collides with EEPROM settings storage."
);
#endif
bool MarlinSettings::sd_update_status() {
uint8_t val;
persistentStore.read_data(SD_FIRMWARE_UPDATE_EEPROM_ADDR, &val);
return (val == SD_FIRMWARE_UPDATE_ACTIVE_VALUE);
}
bool MarlinSettings::set_sd_update_status(const bool enable) {
if (enable != sd_update_status())
persistentStore.write_data(
SD_FIRMWARE_UPDATE_EEPROM_ADDR,
enable ? SD_FIRMWARE_UPDATE_ACTIVE_VALUE : SD_FIRMWARE_UPDATE_INACTIVE_VALUE
);
return true;
}
#endif // SD_FIRMWARE_UPDATE
#ifdef ARCHIM2_SPI_FLASH_EEPROM_BACKUP_SIZE
static_assert(
EEPROM_OFFSET + sizeof(SettingsData) < ARCHIM2_SPI_FLASH_EEPROM_BACKUP_SIZE,
"ARCHIM2_SPI_FLASH_EEPROM_BACKUP_SIZE is insufficient to capture all EEPROM data."
);
#endif
#define DEBUG_OUT ENABLED(EEPROM_CHITCHAT)
#include "../core/debug_out.h"
#if ENABLED(EEPROM_SETTINGS)
#define EEPROM_START() if (!persistentStore.access_start()) { SERIAL_ECHO_MSG("No EEPROM."); return false; } \
int eeprom_index = EEPROM_OFFSET
#define EEPROM_FINISH() persistentStore.access_finish()
#define EEPROM_SKIP(VAR) (eeprom_index += sizeof(VAR))
#define EEPROM_WRITE(VAR) do{ persistentStore.write_data(eeprom_index, (uint8_t*)&VAR, sizeof(VAR), &working_crc); }while(0)
#define EEPROM_READ(VAR) do{ persistentStore.read_data(eeprom_index, (uint8_t*)&VAR, sizeof(VAR), &working_crc, !validating); }while(0)
#define EEPROM_READ_ALWAYS(VAR) do{ persistentStore.read_data(eeprom_index, (uint8_t*)&VAR, sizeof(VAR), &working_crc); }while(0)
#define EEPROM_ASSERT(TST,ERR) do{ if (!(TST)) { SERIAL_ERROR_MSG(ERR); eeprom_error = true; } }while(0)
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#if ENABLED(DEBUG_EEPROM_READWRITE)
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#define _FIELD_TEST(FIELD) \
EEPROM_ASSERT( \
eeprom_error || eeprom_index == offsetof(SettingsData, FIELD) + EEPROM_OFFSET, \
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"Field " STRINGIFY(FIELD) " mismatch." \
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)
#else
#define _FIELD_TEST(FIELD) NOOP
#endif
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const char version[4] = EEPROM_VERSION;
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bool MarlinSettings::eeprom_error, MarlinSettings::validating;
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bool MarlinSettings::size_error(const uint16_t size) {
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if (size != datasize()) {
DEBUG_ERROR_MSG("EEPROM datasize error.");
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return true;
}
return false;
}
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/**
* M500 - Store Configuration
*/
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bool MarlinSettings::save() {
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float dummyf = 0;
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char ver[4] = "ERR";
uint16_t working_crc = 0;
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EEPROM_START();
eeprom_error = false;
// Write or Skip version. (Flash doesn't allow rewrite without erase.)
TERN(FLASH_EEPROM_EMULATION, EEPROM_SKIP, EEPROM_WRITE)(ver);
EEPROM_SKIP(working_crc); // Skip the checksum slot
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working_crc = 0; // clear before first "real data"
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_FIELD_TEST(esteppers);
const uint8_t esteppers = COUNT(planner.settings.axis_steps_per_mm) - XYZ;
EEPROM_WRITE(esteppers);
//
// Planner Motion
//
{
EEPROM_WRITE(planner.settings);
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#if HAS_CLASSIC_JERK
EEPROM_WRITE(planner.max_jerk);
#if HAS_LINEAR_E_JERK
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dummyf = float(DEFAULT_EJERK);
EEPROM_WRITE(dummyf);
#endif
#else
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const xyze_pos_t planner_max_jerk = { 10, 10, 0.4, float(DEFAULT_EJERK) };
EEPROM_WRITE(planner_max_jerk);
#endif
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TERN_(CLASSIC_JERK, dummyf = 0.02f);
EEPROM_WRITE(TERN(CLASSIC_JERK, dummyf, planner.junction_deviation_mm));
}
//
// Home Offset
//
{
_FIELD_TEST(home_offset);
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#if HAS_SCARA_OFFSET
EEPROM_WRITE(scara_home_offset);
#else
#if !HAS_HOME_OFFSET
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const xyz_pos_t home_offset{0};
#endif
EEPROM_WRITE(home_offset);
#endif
#if HAS_HOTEND_OFFSET
// Skip hotend 0 which must be 0
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LOOP_S_L_N(e, 1, HOTENDS)
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EEPROM_WRITE(hotend_offset[e]);
#endif
}
//
// Filament Runout Sensor
//
{
#if HAS_FILAMENT_SENSOR
const bool &runout_sensor_enabled = runout.enabled;
#else
constexpr bool runout_sensor_enabled = true;
#endif
#if HAS_FILAMENT_SENSOR && defined(FILAMENT_RUNOUT_DISTANCE_MM)
const float &runout_distance_mm = runout.runout_distance();
#else
constexpr float runout_distance_mm = 0;
#endif
_FIELD_TEST(runout_sensor_enabled);
EEPROM_WRITE(runout_sensor_enabled);
EEPROM_WRITE(runout_distance_mm);
}
//
// Global Leveling
//
{
const float zfh = TERN(ENABLE_LEVELING_FADE_HEIGHT, planner.z_fade_height, 10.0f);
EEPROM_WRITE(zfh);
}
//
// Mesh Bed Leveling
//
{
#if ENABLED(MESH_BED_LEVELING)
static_assert(
sizeof(mbl.z_values) == (GRID_MAX_POINTS) * sizeof(mbl.z_values[0][0]),
"MBL Z array is the wrong size."
);
#else
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dummyf = 0;
#endif
const uint8_t mesh_num_x = TERN(MESH_BED_LEVELING, GRID_MAX_POINTS_X, 3),
mesh_num_y = TERN(MESH_BED_LEVELING, GRID_MAX_POINTS_Y, 3);
EEPROM_WRITE(TERN(MESH_BED_LEVELING, mbl.z_offset, dummyf));
EEPROM_WRITE(mesh_num_x);
EEPROM_WRITE(mesh_num_y);
#if ENABLED(MESH_BED_LEVELING)
EEPROM_WRITE(mbl.z_values);
#else
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for (uint8_t q = mesh_num_x * mesh_num_y; q--;) EEPROM_WRITE(dummyf);
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#endif
}
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//
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// Probe XYZ Offsets
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//
{
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_FIELD_TEST(probe_offset);
#if HAS_BED_PROBE
const xyz_pos_t &zpo = probe.offset;
#else
constexpr xyz_pos_t zpo{0};
#endif
EEPROM_WRITE(zpo);
}
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//
// Planar Bed Leveling matrix
//
{
#if ABL_PLANAR
EEPROM_WRITE(planner.bed_level_matrix);
#else
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dummyf = 0;
for (uint8_t q = 9; q--;) EEPROM_WRITE(dummyf);
#endif
}
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2016-12-10 06:17:49 +00:00
//
// Bilinear Auto Bed Leveling
//
{
#if ENABLED(AUTO_BED_LEVELING_BILINEAR)
static_assert(
sizeof(z_values) == (GRID_MAX_POINTS) * sizeof(z_values[0][0]),
"Bilinear Z array is the wrong size."
);
#else
const xy_pos_t bilinear_start{0}, bilinear_grid_spacing{0};
#endif
const uint8_t grid_max_x = TERN(AUTO_BED_LEVELING_BILINEAR, GRID_MAX_POINTS_X, 3),
grid_max_y = TERN(AUTO_BED_LEVELING_BILINEAR, GRID_MAX_POINTS_Y, 3);
EEPROM_WRITE(grid_max_x);
EEPROM_WRITE(grid_max_y);
EEPROM_WRITE(bilinear_grid_spacing);
EEPROM_WRITE(bilinear_start);
#if ENABLED(AUTO_BED_LEVELING_BILINEAR)
EEPROM_WRITE(z_values); // 9-256 floats
#else
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dummyf = 0;
for (uint16_t q = grid_max_x * grid_max_y; q--;) EEPROM_WRITE(dummyf);
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#endif
}
//
// Unified Bed Leveling
//
{
_FIELD_TEST(planner_leveling_active);
const bool ubl_active = TERN(AUTO_BED_LEVELING_UBL, planner.leveling_active, false);
const int8_t storage_slot = TERN(AUTO_BED_LEVELING_UBL, ubl.storage_slot, -1);
EEPROM_WRITE(ubl_active);
EEPROM_WRITE(storage_slot);
}
//
// Servo Angles
//
{
_FIELD_TEST(servo_angles);
#if !HAS_SERVO_ANGLES
uint16_t servo_angles[EEPROM_NUM_SERVOS][2] = { { 0, 0 } };
#endif
EEPROM_WRITE(servo_angles);
}
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//
// Thermal first layer compensation values
//
#if ENABLED(PROBE_TEMP_COMPENSATION)
EEPROM_WRITE(temp_comp.z_offsets_probe);
EEPROM_WRITE(temp_comp.z_offsets_bed);
#if ENABLED(USE_TEMP_EXT_COMPENSATION)
EEPROM_WRITE(temp_comp.z_offsets_ext);
#endif
#else
// No placeholder data for this feature
#endif
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//
// BLTOUCH
//
{
_FIELD_TEST(bltouch_last_written_mode);
const bool bltouch_last_written_mode = TERN(BLTOUCH, bltouch.last_written_mode, false);
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EEPROM_WRITE(bltouch_last_written_mode);
}
//
// DELTA Geometry or Dual Endstops offsets
//
{
#if ENABLED(DELTA)
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_FIELD_TEST(delta_height);
EEPROM_WRITE(delta_height); // 1 float
EEPROM_WRITE(delta_endstop_adj); // 3 floats
EEPROM_WRITE(delta_radius); // 1 float
EEPROM_WRITE(delta_diagonal_rod); // 1 float
EEPROM_WRITE(delta_segments_per_second); // 1 float
EEPROM_WRITE(delta_tower_angle_trim); // 3 floats
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#elif HAS_EXTRA_ENDSTOPS
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_FIELD_TEST(x2_endstop_adj);
// Write dual endstops in X, Y, Z order. Unused = 0.0
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dummyf = 0;
EEPROM_WRITE(TERN(X_DUAL_ENDSTOPS, endstops.x2_endstop_adj, dummyf)); // 1 float
EEPROM_WRITE(TERN(Y_DUAL_ENDSTOPS, endstops.y2_endstop_adj, dummyf)); // 1 float
EEPROM_WRITE(TERN(Z_MULTI_ENDSTOPS, endstops.z2_endstop_adj, dummyf)); // 1 float
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#if ENABLED(Z_MULTI_ENDSTOPS) && NUM_Z_STEPPER_DRIVERS >= 3
EEPROM_WRITE(endstops.z3_endstop_adj); // 1 float
#else
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EEPROM_WRITE(dummyf);
#endif
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#if ENABLED(Z_MULTI_ENDSTOPS) && NUM_Z_STEPPER_DRIVERS >= 4
EEPROM_WRITE(endstops.z4_endstop_adj); // 1 float
#else
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EEPROM_WRITE(dummyf);
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#endif
#endif
}
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#if ENABLED(Z_STEPPER_AUTO_ALIGN)
EEPROM_WRITE(z_stepper_align.xy);
#if ENABLED(Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS)
EEPROM_WRITE(z_stepper_align.stepper_xy);
#endif
#endif
//
// LCD Preheat settings
//
{
_FIELD_TEST(ui_preheat_hotend_temp);
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#if HAS_HOTEND && HAS_LCD_MENU
const int16_t (&ui_preheat_hotend_temp)[2] = ui.preheat_hotend_temp,
(&ui_preheat_bed_temp)[2] = ui.preheat_bed_temp;
const uint8_t (&ui_preheat_fan_speed)[2] = ui.preheat_fan_speed;
#else
constexpr int16_t ui_preheat_hotend_temp[2] = { PREHEAT_1_TEMP_HOTEND, PREHEAT_2_TEMP_HOTEND },
ui_preheat_bed_temp[2] = { PREHEAT_1_TEMP_BED, PREHEAT_2_TEMP_BED };
constexpr uint8_t ui_preheat_fan_speed[2] = { PREHEAT_1_FAN_SPEED, PREHEAT_2_FAN_SPEED };
#endif
EEPROM_WRITE(ui_preheat_hotend_temp);
EEPROM_WRITE(ui_preheat_bed_temp);
EEPROM_WRITE(ui_preheat_fan_speed);
}
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//
// PIDTEMP
//
{
_FIELD_TEST(hotendPID);
HOTEND_LOOP() {
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PIDCF_t pidcf = {
#if DISABLED(PIDTEMP)
NAN, NAN, NAN,
NAN, NAN
#else
PID_PARAM(Kp, e),
unscalePID_i(PID_PARAM(Ki, e)),
unscalePID_d(PID_PARAM(Kd, e)),
PID_PARAM(Kc, e),
PID_PARAM(Kf, e)
#endif
};
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EEPROM_WRITE(pidcf);
}
_FIELD_TEST(lpq_len);
#if DISABLED(PID_EXTRUSION_SCALING)
const int16_t lpq_len = 20;
#endif
EEPROM_WRITE(TERN(PID_EXTRUSION_SCALING, thermalManager.lpq_len, lpq_len));
}
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//
// PIDTEMPBED
//
{
_FIELD_TEST(bedPID);
const PID_t bed_pid = {
#if DISABLED(PIDTEMPBED)
NAN, NAN, NAN
#else
// Store the unscaled PID values
thermalManager.temp_bed.pid.Kp,
unscalePID_i(thermalManager.temp_bed.pid.Ki),
unscalePID_d(thermalManager.temp_bed.pid.Kd)
#endif
};
EEPROM_WRITE(bed_pid);
}
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2019-05-06 23:51:06 +00:00
//
// User-defined Thermistors
//
#if HAS_USER_THERMISTORS
{
_FIELD_TEST(user_thermistor);
EEPROM_WRITE(thermalManager.user_thermistor);
}
#endif
//
// LCD Contrast
//
{
_FIELD_TEST(lcd_contrast);
2015-04-03 23:38:05 +00:00
const int16_t lcd_contrast =
#if HAS_LCD_CONTRAST
ui.contrast
#else
127
#endif
;
EEPROM_WRITE(lcd_contrast);
}
//
// Controller Fan
//
{
_FIELD_TEST(controllerFan_settings);
#if ENABLED(USE_CONTROLLER_FAN)
const controllerFan_settings_t &cfs = controllerFan.settings;
#else
controllerFan_settings_t cfs = controllerFan_defaults;
#endif
EEPROM_WRITE(cfs);
}
2018-11-17 02:47:07 +00:00
//
// Power-Loss Recovery
//
{
_FIELD_TEST(recovery_enabled);
const bool recovery_enabled = TERN(POWER_LOSS_RECOVERY, recovery.enabled, ENABLED(PLR_ENABLED_DEFAULT));
2018-11-17 02:47:07 +00:00
EEPROM_WRITE(recovery_enabled);
}
//
// Firmware Retraction
//
{
_FIELD_TEST(fwretract_settings);
#if DISABLED(FWRETRACT)
const fwretract_settings_t autoretract_defaults = { 3, 45, 0, 0, 0, 13, 0, 8 };
#endif
EEPROM_WRITE(TERN(FWRETRACT, fwretract.settings, autoretract_defaults));
#if DISABLED(FWRETRACT_AUTORETRACT)
const bool autoretract_enabled = false;
#endif
EEPROM_WRITE(TERN(FWRETRACT_AUTORETRACT, fwretract.autoretract_enabled, autoretract_enabled));
}
//
// Volumetric & Filament Size
//
{
_FIELD_TEST(parser_volumetric_enabled);
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#if DISABLED(NO_VOLUMETRICS)
EEPROM_WRITE(parser.volumetric_enabled);
EEPROM_WRITE(planner.filament_size);
#else
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const bool volumetric_enabled = false;
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dummyf = DEFAULT_NOMINAL_FILAMENT_DIA;
EEPROM_WRITE(volumetric_enabled);
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for (uint8_t q = EXTRUDERS; q--;) EEPROM_WRITE(dummyf);
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#endif
}
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//
// TMC Configuration
2018-01-05 01:47:42 +00:00
//
{
_FIELD_TEST(tmc_stepper_current);
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tmc_stepper_current_t tmc_stepper_current = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
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#if HAS_TRINAMIC_CONFIG
#if AXIS_IS_TMC(X)
tmc_stepper_current.X = stepperX.getMilliamps();
#endif
#if AXIS_IS_TMC(Y)
tmc_stepper_current.Y = stepperY.getMilliamps();
#endif
#if AXIS_IS_TMC(Z)
tmc_stepper_current.Z = stepperZ.getMilliamps();
#endif
#if AXIS_IS_TMC(X2)
tmc_stepper_current.X2 = stepperX2.getMilliamps();
#endif
#if AXIS_IS_TMC(Y2)
tmc_stepper_current.Y2 = stepperY2.getMilliamps();
#endif
#if AXIS_IS_TMC(Z2)
tmc_stepper_current.Z2 = stepperZ2.getMilliamps();
#endif
#if AXIS_IS_TMC(Z3)
tmc_stepper_current.Z3 = stepperZ3.getMilliamps();
#endif
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#if AXIS_IS_TMC(Z4)
tmc_stepper_current.Z4 = stepperZ4.getMilliamps();
#endif
#if MAX_EXTRUDERS
#if AXIS_IS_TMC(E0)
tmc_stepper_current.E0 = stepperE0.getMilliamps();
#endif
#if MAX_EXTRUDERS > 1
#if AXIS_IS_TMC(E1)
tmc_stepper_current.E1 = stepperE1.getMilliamps();
#endif
#if MAX_EXTRUDERS > 2
#if AXIS_IS_TMC(E2)
tmc_stepper_current.E2 = stepperE2.getMilliamps();
#endif
#if MAX_EXTRUDERS > 3
#if AXIS_IS_TMC(E3)
tmc_stepper_current.E3 = stepperE3.getMilliamps();
#endif
#if MAX_EXTRUDERS > 4
#if AXIS_IS_TMC(E4)
tmc_stepper_current.E4 = stepperE4.getMilliamps();
#endif
#if MAX_EXTRUDERS > 5
#if AXIS_IS_TMC(E5)
tmc_stepper_current.E5 = stepperE5.getMilliamps();
#endif
#if MAX_EXTRUDERS > 6
#if AXIS_IS_TMC(E6)
tmc_stepper_current.E6 = stepperE6.getMilliamps();
#endif
#if MAX_EXTRUDERS > 7
#if AXIS_IS_TMC(E7)
tmc_stepper_current.E7 = stepperE7.getMilliamps();
#endif
#endif // MAX_EXTRUDERS > 7
#endif // MAX_EXTRUDERS > 6
#endif // MAX_EXTRUDERS > 5
#endif // MAX_EXTRUDERS > 4
#endif // MAX_EXTRUDERS > 3
#endif // MAX_EXTRUDERS > 2
#endif // MAX_EXTRUDERS > 1
#endif // MAX_EXTRUDERS
#endif
EEPROM_WRITE(tmc_stepper_current);
}
2018-03-15 03:03:53 +00:00
//
// TMC Hybrid Threshold, and placeholder values
2018-03-15 03:03:53 +00:00
//
{
_FIELD_TEST(tmc_hybrid_threshold);
2018-03-15 03:03:53 +00:00
#if ENABLED(HYBRID_THRESHOLD)
tmc_hybrid_threshold_t tmc_hybrid_threshold = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
#if AXIS_HAS_STEALTHCHOP(X)
tmc_hybrid_threshold.X = stepperX.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
tmc_hybrid_threshold.Y = stepperY.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
tmc_hybrid_threshold.Z = stepperZ.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(X2)
tmc_hybrid_threshold.X2 = stepperX2.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
tmc_hybrid_threshold.Y2 = stepperY2.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
tmc_hybrid_threshold.Z2 = stepperZ2.get_pwm_thrs();
#endif
#if AXIS_HAS_STEALTHCHOP(Z3)
tmc_hybrid_threshold.Z3 = stepperZ3.get_pwm_thrs();
#endif
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#if AXIS_HAS_STEALTHCHOP(Z4)
tmc_hybrid_threshold.Z4 = stepperZ4.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS
#if AXIS_HAS_STEALTHCHOP(E0)
tmc_hybrid_threshold.E0 = stepperE0.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 1
#if AXIS_HAS_STEALTHCHOP(E1)
tmc_hybrid_threshold.E1 = stepperE1.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 2
#if AXIS_HAS_STEALTHCHOP(E2)
tmc_hybrid_threshold.E2 = stepperE2.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 3
#if AXIS_HAS_STEALTHCHOP(E3)
tmc_hybrid_threshold.E3 = stepperE3.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 4
#if AXIS_HAS_STEALTHCHOP(E4)
tmc_hybrid_threshold.E4 = stepperE4.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 5
#if AXIS_HAS_STEALTHCHOP(E5)
tmc_hybrid_threshold.E5 = stepperE5.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 6
#if AXIS_HAS_STEALTHCHOP(E6)
tmc_hybrid_threshold.E6 = stepperE6.get_pwm_thrs();
#endif
#if MAX_EXTRUDERS > 7
#if AXIS_HAS_STEALTHCHOP(E7)
tmc_hybrid_threshold.E7 = stepperE7.get_pwm_thrs();
#endif
#endif // MAX_EXTRUDERS > 7
#endif // MAX_EXTRUDERS > 6
#endif // MAX_EXTRUDERS > 5
#endif // MAX_EXTRUDERS > 4
#endif // MAX_EXTRUDERS > 3
#endif // MAX_EXTRUDERS > 2
#endif // MAX_EXTRUDERS > 1
#endif // MAX_EXTRUDERS
#else
const tmc_hybrid_threshold_t tmc_hybrid_threshold = {
.X = 100, .Y = 100, .Z = 3,
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.X2 = 100, .Y2 = 100, .Z2 = 3, .Z3 = 3, .Z4 = 3,
.E0 = 30, .E1 = 30, .E2 = 30,
.E3 = 30, .E4 = 30, .E5 = 30
};
#endif
EEPROM_WRITE(tmc_hybrid_threshold);
}
2017-12-15 21:03:14 +00:00
//
2018-10-03 07:48:49 +00:00
// TMC StallGuard threshold
2017-12-15 21:03:14 +00:00
//
{
2019-09-29 09:25:39 +00:00
tmc_sgt_t tmc_sgt{0};
#if USE_SENSORLESS
TERN_(X_SENSORLESS, tmc_sgt.X = stepperX.homing_threshold());
2020-04-22 21:35:03 +00:00
TERN_(X2_SENSORLESS, tmc_sgt.X2 = stepperX2.homing_threshold());
TERN_(Y_SENSORLESS, tmc_sgt.Y = stepperY.homing_threshold());
TERN_(Y2_SENSORLESS, tmc_sgt.Y2 = stepperY2.homing_threshold());
TERN_(Z_SENSORLESS, tmc_sgt.Z = stepperZ.homing_threshold());
TERN_(Z2_SENSORLESS, tmc_sgt.Z2 = stepperZ2.homing_threshold());
TERN_(Z3_SENSORLESS, tmc_sgt.Z3 = stepperZ3.homing_threshold());
TERN_(Z4_SENSORLESS, tmc_sgt.Z4 = stepperZ4.homing_threshold());
2018-10-03 07:48:49 +00:00
#endif
EEPROM_WRITE(tmc_sgt);
}
2017-12-15 21:03:14 +00:00
//
// TMC stepping mode
//
{
_FIELD_TEST(tmc_stealth_enabled);
tmc_stealth_enabled_t tmc_stealth_enabled = { false, false, false, false, false, false, false, false, false, false, false, false, false };
#if HAS_STEALTHCHOP
#if AXIS_HAS_STEALTHCHOP(X)
tmc_stealth_enabled.X = stepperX.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
tmc_stealth_enabled.Y = stepperY.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
tmc_stealth_enabled.Z = stepperZ.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(X2)
tmc_stealth_enabled.X2 = stepperX2.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
tmc_stealth_enabled.Y2 = stepperY2.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
tmc_stealth_enabled.Z2 = stepperZ2.get_stealthChop_status();
#endif
#if AXIS_HAS_STEALTHCHOP(Z3)
tmc_stealth_enabled.Z3 = stepperZ3.get_stealthChop_status();
#endif
2020-01-20 05:35:07 +00:00
#if AXIS_HAS_STEALTHCHOP(Z4)
tmc_stealth_enabled.Z4 = stepperZ4.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS
#if AXIS_HAS_STEALTHCHOP(E0)
tmc_stealth_enabled.E0 = stepperE0.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 1
#if AXIS_HAS_STEALTHCHOP(E1)
tmc_stealth_enabled.E1 = stepperE1.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 2
#if AXIS_HAS_STEALTHCHOP(E2)
tmc_stealth_enabled.E2 = stepperE2.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 3
#if AXIS_HAS_STEALTHCHOP(E3)
tmc_stealth_enabled.E3 = stepperE3.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 4
#if AXIS_HAS_STEALTHCHOP(E4)
tmc_stealth_enabled.E4 = stepperE4.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 5
#if AXIS_HAS_STEALTHCHOP(E5)
tmc_stealth_enabled.E5 = stepperE5.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 6
#if AXIS_HAS_STEALTHCHOP(E6)
tmc_stealth_enabled.E6 = stepperE6.get_stealthChop_status();
#endif
#if MAX_EXTRUDERS > 7
#if AXIS_HAS_STEALTHCHOP(E7)
tmc_stealth_enabled.E7 = stepperE7.get_stealthChop_status();
#endif
#endif // MAX_EXTRUDERS > 7
#endif // MAX_EXTRUDERS > 6
#endif // MAX_EXTRUDERS > 5
#endif // MAX_EXTRUDERS > 4
#endif // MAX_EXTRUDERS > 3
#endif // MAX_EXTRUDERS > 2
#endif // MAX_EXTRUDERS > 1
#endif // MAX_EXTRUDERS
#endif
EEPROM_WRITE(tmc_stealth_enabled);
}
//
// Linear Advance
//
{
_FIELD_TEST(planner_extruder_advance_K);
2018-10-03 16:32:09 +00:00
#if ENABLED(LIN_ADVANCE)
EEPROM_WRITE(planner.extruder_advance_K);
#else
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dummyf = 0;
for (uint8_t q = _MAX(EXTRUDERS, 1); q--;) EEPROM_WRITE(dummyf);
#endif
}
2018-01-10 00:33:44 +00:00
2018-10-03 16:32:09 +00:00
//
// Motor Current PWM
//
{
_FIELD_TEST(motor_current_setting);
2018-10-03 16:32:09 +00:00
#if HAS_MOTOR_CURRENT_PWM
EEPROM_WRITE(stepper.motor_current_setting);
#else
2020-03-25 22:20:23 +00:00
const uint32_t no_current[3] = { 0 };
2019-09-29 09:25:39 +00:00
EEPROM_WRITE(no_current);
#endif
}
2017-12-01 22:42:23 +00:00
//
// CNC Coordinate Systems
//
2018-01-10 00:33:44 +00:00
2018-01-05 02:27:17 +00:00
_FIELD_TEST(coordinate_system);
2018-01-10 00:33:44 +00:00
#if DISABLED(CNC_COORDINATE_SYSTEMS)
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const xyz_pos_t coordinate_system[MAX_COORDINATE_SYSTEMS] = { { 0 } };
2017-11-04 21:36:41 +00:00
#endif
EEPROM_WRITE(TERN(CNC_COORDINATE_SYSTEMS, gcode.coordinate_system, coordinate_system));
2017-11-04 21:36:41 +00:00
2017-12-01 22:42:23 +00:00
//
// Skew correction factors
//
_FIELD_TEST(planner_skew_factor);
EEPROM_WRITE(planner.skew_factor);
2017-12-01 22:42:23 +00:00
//
// Advanced Pause filament load & unload lengths
//
2019-09-10 07:20:49 +00:00
#if EXTRUDERS
{
#if DISABLED(ADVANCED_PAUSE_FEATURE)
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const fil_change_settings_t fc_settings[EXTRUDERS] = { 0, 0 };
#endif
_FIELD_TEST(fc_settings);
EEPROM_WRITE(fc_settings);
}
2019-09-10 07:20:49 +00:00
#endif
2018-10-07 22:06:14 +00:00
//
// Multiple Extruders
2018-10-07 22:06:14 +00:00
//
#if EXTRUDERS > 1
_FIELD_TEST(toolchange_settings);
EEPROM_WRITE(toolchange_settings);
2018-10-07 22:06:14 +00:00
#endif
//
// Backlash Compensation
//
{
#if ENABLED(BACKLASH_GCODE)
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const xyz_float_t &backlash_distance_mm = backlash.distance_mm;
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const uint8_t &backlash_correction = backlash.correction;
#else
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const xyz_float_t backlash_distance_mm{0};
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const uint8_t backlash_correction = 0;
#endif
#if ENABLED(BACKLASH_GCODE) && defined(BACKLASH_SMOOTHING_MM)
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const float &backlash_smoothing_mm = backlash.smoothing_mm;
#else
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const float backlash_smoothing_mm = 3;
#endif
_FIELD_TEST(backlash_distance_mm);
EEPROM_WRITE(backlash_distance_mm);
EEPROM_WRITE(backlash_correction);
EEPROM_WRITE(backlash_smoothing_mm);
}
//
// Extensible UI User Data
//
#if ENABLED(EXTENSIBLE_UI)
{
char extui_data[ExtUI::eeprom_data_size] = { 0 };
ExtUI::onStoreSettings(extui_data);
_FIELD_TEST(extui_data);
EEPROM_WRITE(extui_data);
}
#endif
//
// Case Light Brightness
//
#if HAS_CASE_LIGHT_BRIGHTNESS
EEPROM_WRITE(case_light_brightness);
#endif
2018-01-05 01:51:18 +00:00
//
2018-01-05 02:01:25 +00:00
// Validate CRC and Data Size
2018-01-05 01:51:18 +00:00
//
if (!eeprom_error) {
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const uint16_t eeprom_size = eeprom_index - (EEPROM_OFFSET),
final_crc = working_crc;
2017-05-11 14:48:16 +00:00
// Write the EEPROM header
eeprom_index = EEPROM_OFFSET;
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EEPROM_WRITE(version);
EEPROM_WRITE(final_crc);
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// Report storage size
DEBUG_ECHO_START();
DEBUG_ECHOLNPAIR("Settings Stored (", eeprom_size, " bytes; crc ", (uint32_t)final_crc, ")");
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eeprom_error |= size_error(eeprom_size);
}
EEPROM_FINISH();
2018-01-05 01:51:18 +00:00
//
// UBL Mesh
//
#if ENABLED(UBL_SAVE_ACTIVE_ON_M500)
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if (ubl.storage_slot >= 0)
store_mesh(ubl.storage_slot);
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#endif
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if (!eeprom_error) LCD_MESSAGEPGM(MSG_SETTINGS_STORED);
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TERN_(EXTENSIBLE_UI, ExtUI::onConfigurationStoreWritten(!eeprom_error));
return !eeprom_error;
2016-10-28 23:55:42 +00:00
}
/**
* M501 - Retrieve Configuration
*/
2019-02-24 04:53:01 +00:00
bool MarlinSettings::_load() {
uint16_t working_crc = 0;
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EEPROM_START();
char stored_ver[4];
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EEPROM_READ_ALWAYS(stored_ver);
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uint16_t stored_crc;
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EEPROM_READ_ALWAYS(stored_crc);
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// Version has to match or defaults are used
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if (strncmp(version, stored_ver, 3) != 0) {
2018-01-06 01:00:26 +00:00
if (stored_ver[3] != '\0') {
stored_ver[0] = '?';
stored_ver[1] = '\0';
}
DEBUG_ECHO_START();
DEBUG_ECHOLNPAIR("EEPROM version mismatch (EEPROM=", stored_ver, " Marlin=" EEPROM_VERSION ")");
#if HAS_LCD_MENU && DISABLED(EEPROM_AUTO_INIT)
2020-04-01 23:53:58 +00:00
LCD_MESSAGEPGM(MSG_ERR_EEPROM_VERSION);
#endif
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eeprom_error = true;
2016-06-30 01:12:23 +00:00
}
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else {
2020-03-03 03:55:56 +00:00
float dummyf = 0;
working_crc = 0; // Init to 0. Accumulated by EEPROM_READ
2016-10-28 23:55:42 +00:00
2018-01-10 00:33:44 +00:00
_FIELD_TEST(esteppers);
// Number of esteppers may change
uint8_t esteppers;
2018-01-05 01:51:18 +00:00
EEPROM_READ_ALWAYS(esteppers);
2017-11-04 20:34:24 +00:00
//
// Planner Motion
//
2018-10-31 21:39:49 +00:00
{
// Get only the number of E stepper parameters previously stored
// Any steppers added later are set to their defaults
uint32_t tmp1[XYZ + esteppers];
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float tmp2[XYZ + esteppers];
feedRate_t tmp3[XYZ + esteppers];
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EEPROM_READ(tmp1); // max_acceleration_mm_per_s2
EEPROM_READ(planner.settings.min_segment_time_us);
EEPROM_READ(tmp2); // axis_steps_per_mm
EEPROM_READ(tmp3); // max_feedrate_mm_s
2019-09-26 06:28:09 +00:00
2018-10-31 21:39:49 +00:00
if (!validating) LOOP_XYZE_N(i) {
const bool in = (i < esteppers + XYZ);
2019-09-26 06:28:09 +00:00
planner.settings.max_acceleration_mm_per_s2[i] = in ? tmp1[i] : pgm_read_dword(&_DMA[ALIM(i, _DMA)]);
planner.settings.axis_steps_per_mm[i] = in ? tmp2[i] : pgm_read_float(&_DASU[ALIM(i, _DASU)]);
planner.settings.max_feedrate_mm_s[i] = in ? tmp3[i] : pgm_read_float(&_DMF[ALIM(i, _DMF)]);
2018-10-31 21:39:49 +00:00
}
2017-11-04 20:34:24 +00:00
2018-10-31 21:39:49 +00:00
EEPROM_READ(planner.settings.acceleration);
EEPROM_READ(planner.settings.retract_acceleration);
EEPROM_READ(planner.settings.travel_acceleration);
EEPROM_READ(planner.settings.min_feedrate_mm_s);
EEPROM_READ(planner.settings.min_travel_feedrate_mm_s);
2016-10-28 23:55:42 +00:00
2018-10-31 21:39:49 +00:00
#if HAS_CLASSIC_JERK
EEPROM_READ(planner.max_jerk);
#if HAS_LINEAR_E_JERK
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EEPROM_READ(dummyf);
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#endif
#else
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for (uint8_t q = 4; q--;) EEPROM_READ(dummyf);
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#endif
2017-03-05 00:01:33 +00:00
EEPROM_READ(TERN(CLASSIC_JERK, dummyf, planner.junction_deviation_mm));
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}
2017-11-04 20:34:24 +00:00
//
// Home Offset (M206 / M665)
2017-11-04 20:34:24 +00:00
//
2018-10-31 21:39:49 +00:00
{
_FIELD_TEST(home_offset);
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#if HAS_SCARA_OFFSET
EEPROM_READ(scara_home_offset);
#else
#if !HAS_HOME_OFFSET
2019-09-29 09:25:39 +00:00
xyz_pos_t home_offset;
#endif
EEPROM_READ(home_offset);
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#endif
}
2016-10-28 23:55:42 +00:00
2017-11-04 20:34:24 +00:00
//
// Hotend Offsets, if any
//
2018-10-31 21:39:49 +00:00
{
#if HAS_HOTEND_OFFSET
// Skip hotend 0 which must be 0
2020-03-14 04:18:16 +00:00
LOOP_S_L_N(e, 1, HOTENDS)
2019-09-29 09:25:39 +00:00
EEPROM_READ(hotend_offset[e]);
2018-10-31 21:39:49 +00:00
#endif
}
2016-10-28 23:55:42 +00:00
//
// Filament Runout Sensor
//
{
#if HAS_FILAMENT_SENSOR
const bool &runout_sensor_enabled = runout.enabled;
#else
bool runout_sensor_enabled;
#endif
_FIELD_TEST(runout_sensor_enabled);
EEPROM_READ(runout_sensor_enabled);
float runout_distance_mm;
EEPROM_READ(runout_distance_mm);
#if HAS_FILAMENT_SENSOR && defined(FILAMENT_RUNOUT_DISTANCE_MM)
if (!validating) runout.set_runout_distance(runout_distance_mm);
#endif
}
//
// Global Leveling
//
EEPROM_READ(TERN(ENABLE_LEVELING_FADE_HEIGHT, new_z_fade_height, dummyf));
2016-12-10 06:17:49 +00:00
//
// Mesh (Manual) Bed Leveling
//
2018-10-31 21:39:49 +00:00
{
uint8_t mesh_num_x, mesh_num_y;
2020-03-03 03:55:56 +00:00
EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
EEPROM_READ_ALWAYS(mesh_num_x);
EEPROM_READ_ALWAYS(mesh_num_y);
#if ENABLED(MESH_BED_LEVELING)
2020-03-03 03:55:56 +00:00
if (!validating) mbl.z_offset = dummyf;
2018-10-31 21:39:49 +00:00
if (mesh_num_x == GRID_MAX_POINTS_X && mesh_num_y == GRID_MAX_POINTS_Y) {
// EEPROM data fits the current mesh
EEPROM_READ(mbl.z_values);
}
else {
// EEPROM data is stale
if (!validating) mbl.reset();
2020-03-03 03:55:56 +00:00
for (uint16_t q = mesh_num_x * mesh_num_y; q--;) EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
}
#else
// MBL is disabled - skip the stored data
2020-03-03 03:55:56 +00:00
for (uint16_t q = mesh_num_x * mesh_num_y; q--;) EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
#endif // MESH_BED_LEVELING
}
2016-10-28 23:55:42 +00:00
2018-10-31 21:39:49 +00:00
//
// Probe Z Offset
//
{
2019-09-29 09:25:39 +00:00
_FIELD_TEST(probe_offset);
2019-09-25 02:29:21 +00:00
#if HAS_BED_PROBE
const xyz_pos_t &zpo = probe.offset;
2019-09-25 02:29:21 +00:00
#else
2019-09-29 09:25:39 +00:00
xyz_pos_t zpo;
2018-10-31 21:39:49 +00:00
#endif
2019-09-25 02:29:21 +00:00
EEPROM_READ(zpo);
2018-10-31 21:39:49 +00:00
}
2016-10-28 23:55:42 +00:00
2016-12-14 07:50:06 +00:00
//
// Planar Bed Leveling matrix
//
2018-10-31 21:39:49 +00:00
{
#if ABL_PLANAR
EEPROM_READ(planner.bed_level_matrix);
#else
2020-03-03 03:55:56 +00:00
for (uint8_t q = 9; q--;) EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
#endif
}
2016-12-14 07:50:06 +00:00
2016-12-10 06:17:49 +00:00
//
// Bilinear Auto Bed Leveling
//
2018-10-31 21:39:49 +00:00
{
uint8_t grid_max_x, grid_max_y;
2020-03-03 03:55:56 +00:00
EEPROM_READ_ALWAYS(grid_max_x); // 1 byte
EEPROM_READ_ALWAYS(grid_max_y); // 1 byte
2018-10-31 21:39:49 +00:00
#if ENABLED(AUTO_BED_LEVELING_BILINEAR)
if (grid_max_x == GRID_MAX_POINTS_X && grid_max_y == GRID_MAX_POINTS_Y) {
if (!validating) set_bed_leveling_enabled(false);
EEPROM_READ(bilinear_grid_spacing); // 2 ints
EEPROM_READ(bilinear_start); // 2 ints
EEPROM_READ(z_values); // 9 to 256 floats
}
else // EEPROM data is stale
#endif // AUTO_BED_LEVELING_BILINEAR
{
// Skip past disabled (or stale) Bilinear Grid data
xy_pos_t bgs, bs;
2018-10-31 21:39:49 +00:00
EEPROM_READ(bgs);
EEPROM_READ(bs);
2020-03-03 03:55:56 +00:00
for (uint16_t q = grid_max_x * grid_max_y; q--;) EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
}
}
2016-12-10 06:17:49 +00:00
2017-11-04 20:34:24 +00:00
//
// Unified Bed Leveling active state
//
2018-10-31 21:39:49 +00:00
{
_FIELD_TEST(planner_leveling_active);
#if ENABLED(AUTO_BED_LEVELING_UBL)
2020-03-03 20:18:31 +00:00
const bool &planner_leveling_active = planner.leveling_active;
const int8_t &ubl_storage_slot = ubl.storage_slot;
2018-10-31 21:39:49 +00:00
#else
bool planner_leveling_active;
int8_t ubl_storage_slot;
2018-10-31 21:39:49 +00:00
#endif
2020-03-03 03:55:56 +00:00
EEPROM_READ(planner_leveling_active);
EEPROM_READ(ubl_storage_slot);
2018-10-31 21:39:49 +00:00
}
2018-08-07 15:04:46 +00:00
//
// SERVO_ANGLES
//
2018-10-31 21:39:49 +00:00
{
_FIELD_TEST(servo_angles);
#if ENABLED(EDITABLE_SERVO_ANGLES)
uint16_t (&servo_angles_arr)[EEPROM_NUM_SERVOS][2] = servo_angles;
#else
uint16_t servo_angles_arr[EEPROM_NUM_SERVOS][2];
2018-10-31 21:39:49 +00:00
#endif
EEPROM_READ(servo_angles_arr);
2018-10-31 21:39:49 +00:00
}
2018-08-07 15:04:46 +00:00
//
// Thermal first layer compensation values
//
#if ENABLED(PROBE_TEMP_COMPENSATION)
EEPROM_READ(temp_comp.z_offsets_probe);
EEPROM_READ(temp_comp.z_offsets_bed);
#if ENABLED(USE_TEMP_EXT_COMPENSATION)
EEPROM_READ(temp_comp.z_offsets_ext);
#endif
temp_comp.reset_index();
#else
// No placeholder data for this feature
#endif
2019-05-26 02:56:47 +00:00
//
// BLTOUCH
//
{
_FIELD_TEST(bltouch_last_written_mode);
#if ENABLED(BLTOUCH)
2020-03-03 20:18:31 +00:00
const bool &bltouch_last_written_mode = bltouch.last_written_mode;
2019-05-26 02:56:47 +00:00
#else
bool bltouch_last_written_mode;
#endif
EEPROM_READ(bltouch_last_written_mode);
}
2017-11-04 20:34:24 +00:00
//
// DELTA Geometry or Dual Endstops offsets
//
2018-10-31 21:39:49 +00:00
{
#if ENABLED(DELTA)
2017-11-04 20:34:24 +00:00
2018-10-31 21:39:49 +00:00
_FIELD_TEST(delta_height);
2018-01-10 00:33:44 +00:00
2018-10-31 21:39:49 +00:00
EEPROM_READ(delta_height); // 1 float
EEPROM_READ(delta_endstop_adj); // 3 floats
EEPROM_READ(delta_radius); // 1 float
EEPROM_READ(delta_diagonal_rod); // 1 float
EEPROM_READ(delta_segments_per_second); // 1 float
EEPROM_READ(delta_tower_angle_trim); // 3 floats
2018-01-10 00:33:44 +00:00
2020-01-20 05:35:07 +00:00
#elif HAS_EXTRA_ENDSTOPS
2018-10-31 21:39:49 +00:00
_FIELD_TEST(x2_endstop_adj);
EEPROM_READ(TERN(X_DUAL_ENDSTOPS, endstops.x2_endstop_adj, dummyf)); // 1 float
EEPROM_READ(TERN(Y_DUAL_ENDSTOPS, endstops.y2_endstop_adj, dummyf)); // 1 float
EEPROM_READ(TERN(Z_MULTI_ENDSTOPS, endstops.z2_endstop_adj, dummyf)); // 1 float
2020-01-20 05:35:07 +00:00
#if ENABLED(Z_MULTI_ENDSTOPS) && NUM_Z_STEPPER_DRIVERS >= 3
2018-10-31 21:39:49 +00:00
EEPROM_READ(endstops.z3_endstop_adj); // 1 float
#else
2020-03-03 03:55:56 +00:00
EEPROM_READ(dummyf);
2018-10-31 21:39:49 +00:00
#endif
2020-01-20 05:35:07 +00:00
#if ENABLED(Z_MULTI_ENDSTOPS) && NUM_Z_STEPPER_DRIVERS >= 4
EEPROM_READ(endstops.z4_endstop_adj); // 1 float
#else
2020-03-03 03:55:56 +00:00
EEPROM_READ(dummyf);
2020-01-20 05:35:07 +00:00
#endif
2018-01-10 00:33:44 +00:00
#endif
2018-10-31 21:39:49 +00:00
}
2016-10-28 23:55:42 +00:00
#if ENABLED(Z_STEPPER_AUTO_ALIGN)
EEPROM_READ(z_stepper_align.xy);
#if ENABLED(Z_STEPPER_ALIGN_KNOWN_STEPPER_POSITIONS)
EEPROM_READ(z_stepper_align.stepper_xy);
#endif
#endif
2017-11-04 20:34:24 +00:00
//
// LCD Preheat settings
//
2018-10-31 21:39:49 +00:00
{
_FIELD_TEST(ui_preheat_hotend_temp);
2017-11-04 20:34:24 +00:00
2020-04-28 03:35:25 +00:00
#if HAS_HOTEND && HAS_LCD_MENU
int16_t (&ui_preheat_hotend_temp)[2] = ui.preheat_hotend_temp,
(&ui_preheat_bed_temp)[2] = ui.preheat_bed_temp;
uint8_t (&ui_preheat_fan_speed)[2] = ui.preheat_fan_speed;
#else
int16_t ui_preheat_hotend_temp[2], ui_preheat_bed_temp[2];
uint8_t ui_preheat_fan_speed[2];
2018-10-31 21:39:49 +00:00
#endif
EEPROM_READ(ui_preheat_hotend_temp); // 2 floats
EEPROM_READ(ui_preheat_bed_temp); // 2 floats
EEPROM_READ(ui_preheat_fan_speed); // 2 floats
2018-10-31 21:39:49 +00:00
}
2016-10-28 23:55:42 +00:00
2017-11-04 20:34:24 +00:00
//
// Hotend PID
//
{
HOTEND_LOOP() {
2019-11-26 09:34:43 +00:00
PIDCF_t pidcf;
EEPROM_READ(pidcf);
#if ENABLED(PIDTEMP)
if (!validating && !isnan(pidcf.Kp)) {
// Scale PID values since EEPROM values are unscaled
2019-11-26 09:34:43 +00:00
PID_PARAM(Kp, e) = pidcf.Kp;
PID_PARAM(Ki, e) = scalePID_i(pidcf.Ki);
PID_PARAM(Kd, e) = scalePID_d(pidcf.Kd);
2020-04-22 21:35:03 +00:00
TERN_(PID_EXTRUSION_SCALING, PID_PARAM(Kc, e) = pidcf.Kc);
TERN_(PID_FAN_SCALING, PID_PARAM(Kf, e) = pidcf.Kf);
}
#endif
2016-10-28 23:55:42 +00:00
}
}
2016-10-28 23:55:42 +00:00
2017-11-04 20:34:24 +00:00
//
// PID Extrusion Scaling
//
{
_FIELD_TEST(lpq_len);
#if ENABLED(PID_EXTRUSION_SCALING)
2020-03-03 20:18:31 +00:00
const int16_t &lpq_len = thermalManager.lpq_len;
#else
int16_t lpq_len;
#endif
2020-03-03 03:55:56 +00:00
EEPROM_READ(lpq_len);
}
2016-10-28 23:55:42 +00:00
2017-11-04 20:34:24 +00:00
//
// Heated Bed PID
//
{
PID_t pid;
EEPROM_READ(pid);
#if ENABLED(PIDTEMPBED)
if (!validating && !isnan(pid.Kp)) {
// Scale PID values since EEPROM values are unscaled
thermalManager.temp_bed.pid.Kp = pid.Kp;
thermalManager.temp_bed.pid.Ki = scalePID_i(pid.Ki);
thermalManager.temp_bed.pid.Kd = scalePID_d(pid.Kd);
}
#endif
}
2016-10-28 23:55:42 +00:00
2019-05-06 23:51:06 +00:00
//
// User-defined Thermistors
//
#if HAS_USER_THERMISTORS
{
_FIELD_TEST(user_thermistor);
EEPROM_READ(thermalManager.user_thermistor);
}
#endif
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//
// LCD Contrast
//
{
_FIELD_TEST(lcd_contrast);
int16_t lcd_contrast;
EEPROM_READ(lcd_contrast);
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TERN_(HAS_LCD_CONTRAST, ui.set_contrast(lcd_contrast));
}
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//
// Controller Fan
//
{
_FIELD_TEST(controllerFan_settings);
#if ENABLED(CONTROLLER_FAN_EDITABLE)
const controllerFan_settings_t &cfs = controllerFan.settings;
#else
controllerFan_settings_t cfs = { 0 };
#endif
EEPROM_READ(cfs);
}
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//
// Power-Loss Recovery
//
{
_FIELD_TEST(recovery_enabled);
#if ENABLED(POWER_LOSS_RECOVERY)
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const bool &recovery_enabled = recovery.enabled;
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#else
bool recovery_enabled;
#endif
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EEPROM_READ(recovery_enabled);
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}
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//
// Firmware Retraction
//
{
_FIELD_TEST(fwretract_settings);
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#if ENABLED(FWRETRACT)
EEPROM_READ(fwretract.settings);
#else
fwretract_settings_t fwretract_settings;
EEPROM_READ(fwretract_settings);
#endif
#if BOTH(FWRETRACT, FWRETRACT_AUTORETRACT)
EEPROM_READ(fwretract.autoretract_enabled);
#else
bool autoretract_enabled;
EEPROM_READ(autoretract_enabled);
#endif
}
2016-10-28 23:55:42 +00:00
2017-11-04 20:34:24 +00:00
//
// Volumetric & Filament Size
//
{
struct {
bool volumetric_enabled;
float filament_size[EXTRUDERS];
} storage;
_FIELD_TEST(parser_volumetric_enabled);
EEPROM_READ(storage);
#if DISABLED(NO_VOLUMETRICS)
if (!validating) {
parser.volumetric_enabled = storage.volumetric_enabled;
COPY(planner.filament_size, storage.filament_size);
}
#endif
}
2018-03-15 03:03:53 +00:00
2017-11-04 20:34:24 +00:00
//
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// TMC Stepper Settings
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//
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if (!validating) reset_stepper_drivers();
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// TMC Stepper Current
{
_FIELD_TEST(tmc_stepper_current);
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tmc_stepper_current_t currents;
EEPROM_READ(currents);
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#if HAS_TRINAMIC_CONFIG
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#define SET_CURR(Q) stepper##Q.rms_current(currents.Q ? currents.Q : Q##_CURRENT)
if (!validating) {
#if AXIS_IS_TMC(X)
SET_CURR(X);
#endif
#if AXIS_IS_TMC(Y)
SET_CURR(Y);
#endif
#if AXIS_IS_TMC(Z)
SET_CURR(Z);
#endif
#if AXIS_IS_TMC(X2)
SET_CURR(X2);
#endif
#if AXIS_IS_TMC(Y2)
SET_CURR(Y2);
#endif
#if AXIS_IS_TMC(Z2)
SET_CURR(Z2);
#endif
#if AXIS_IS_TMC(Z3)
SET_CURR(Z3);
#endif
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#if AXIS_IS_TMC(Z4)
SET_CURR(Z4);
#endif
#if AXIS_IS_TMC(E0)
SET_CURR(E0);
#endif
#if AXIS_IS_TMC(E1)
SET_CURR(E1);
#endif
#if AXIS_IS_TMC(E2)
SET_CURR(E2);
#endif
#if AXIS_IS_TMC(E3)
SET_CURR(E3);
#endif
#if AXIS_IS_TMC(E4)
SET_CURR(E4);
#endif
#if AXIS_IS_TMC(E5)
SET_CURR(E5);
#endif
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#if AXIS_IS_TMC(E6)
SET_CURR(E6);
#endif
#if AXIS_IS_TMC(E7)
SET_CURR(E7);
#endif
}
#endif
}
// TMC Hybrid Threshold
{
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tmc_hybrid_threshold_t tmc_hybrid_threshold;
_FIELD_TEST(tmc_hybrid_threshold);
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EEPROM_READ(tmc_hybrid_threshold);
#if ENABLED(HYBRID_THRESHOLD)
if (!validating) {
#if AXIS_HAS_STEALTHCHOP(X)
stepperX.set_pwm_thrs(tmc_hybrid_threshold.X);
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
stepperY.set_pwm_thrs(tmc_hybrid_threshold.Y);
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
stepperZ.set_pwm_thrs(tmc_hybrid_threshold.Z);
#endif
#if AXIS_HAS_STEALTHCHOP(X2)
stepperX2.set_pwm_thrs(tmc_hybrid_threshold.X2);
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
stepperY2.set_pwm_thrs(tmc_hybrid_threshold.Y2);
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
stepperZ2.set_pwm_thrs(tmc_hybrid_threshold.Z2);
#endif
#if AXIS_HAS_STEALTHCHOP(Z3)
stepperZ3.set_pwm_thrs(tmc_hybrid_threshold.Z3);
#endif
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#if AXIS_HAS_STEALTHCHOP(Z4)
stepperZ4.set_pwm_thrs(tmc_hybrid_threshold.Z4);
#endif
#if AXIS_HAS_STEALTHCHOP(E0)
stepperE0.set_pwm_thrs(tmc_hybrid_threshold.E0);
#endif
#if AXIS_HAS_STEALTHCHOP(E1)
stepperE1.set_pwm_thrs(tmc_hybrid_threshold.E1);
#endif
#if AXIS_HAS_STEALTHCHOP(E2)
stepperE2.set_pwm_thrs(tmc_hybrid_threshold.E2);
#endif
#if AXIS_HAS_STEALTHCHOP(E3)
stepperE3.set_pwm_thrs(tmc_hybrid_threshold.E3);
#endif
#if AXIS_HAS_STEALTHCHOP(E4)
stepperE4.set_pwm_thrs(tmc_hybrid_threshold.E4);
#endif
#if AXIS_HAS_STEALTHCHOP(E5)
stepperE5.set_pwm_thrs(tmc_hybrid_threshold.E5);
#endif
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#if AXIS_HAS_STEALTHCHOP(E6)
stepperE6.set_pwm_thrs(tmc_hybrid_threshold.E6);
#endif
#if AXIS_HAS_STEALTHCHOP(E7)
stepperE7.set_pwm_thrs(tmc_hybrid_threshold.E7);
#endif
}
#endif
}
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//
// TMC StallGuard threshold.
//
{
tmc_sgt_t tmc_sgt;
_FIELD_TEST(tmc_sgt);
EEPROM_READ(tmc_sgt);
#if USE_SENSORLESS
if (!validating) {
TERN_(X_SENSORLESS, stepperX.homing_threshold(tmc_sgt.X));
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TERN_(X2_SENSORLESS, stepperX2.homing_threshold(tmc_sgt.X2));
TERN_(Y_SENSORLESS, stepperY.homing_threshold(tmc_sgt.Y));
TERN_(Y2_SENSORLESS, stepperY2.homing_threshold(tmc_sgt.Y2));
TERN_(Z_SENSORLESS, stepperZ.homing_threshold(tmc_sgt.Z));
TERN_(Z2_SENSORLESS, stepperZ2.homing_threshold(tmc_sgt.Z2));
TERN_(Z3_SENSORLESS, stepperZ3.homing_threshold(tmc_sgt.Z3));
TERN_(Z4_SENSORLESS, stepperZ4.homing_threshold(tmc_sgt.Z4));
}
#endif
}
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// TMC stepping mode
{
_FIELD_TEST(tmc_stealth_enabled);
tmc_stealth_enabled_t tmc_stealth_enabled;
EEPROM_READ(tmc_stealth_enabled);
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#if HAS_TRINAMIC_CONFIG
#define SET_STEPPING_MODE(ST) stepper##ST.stored.stealthChop_enabled = tmc_stealth_enabled.ST; stepper##ST.refresh_stepping_mode();
if (!validating) {
#if AXIS_HAS_STEALTHCHOP(X)
SET_STEPPING_MODE(X);
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
SET_STEPPING_MODE(Y);
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
SET_STEPPING_MODE(Z);
#endif
#if AXIS_HAS_STEALTHCHOP(X2)
SET_STEPPING_MODE(X2);
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
SET_STEPPING_MODE(Y2);
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
SET_STEPPING_MODE(Z2);
#endif
#if AXIS_HAS_STEALTHCHOP(Z3)
SET_STEPPING_MODE(Z3);
#endif
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#if AXIS_HAS_STEALTHCHOP(Z4)
SET_STEPPING_MODE(Z4);
#endif
#if AXIS_HAS_STEALTHCHOP(E0)
SET_STEPPING_MODE(E0);
#endif
#if AXIS_HAS_STEALTHCHOP(E1)
SET_STEPPING_MODE(E1);
#endif
#if AXIS_HAS_STEALTHCHOP(E2)
SET_STEPPING_MODE(E2);
#endif
#if AXIS_HAS_STEALTHCHOP(E3)
SET_STEPPING_MODE(E3);
#endif
#if AXIS_HAS_STEALTHCHOP(E4)
SET_STEPPING_MODE(E4);
#endif
#if AXIS_HAS_STEALTHCHOP(E5)
SET_STEPPING_MODE(E5);
#endif
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#if AXIS_HAS_STEALTHCHOP(E6)
SET_STEPPING_MODE(E6);
#endif
#if AXIS_HAS_STEALTHCHOP(E7)
SET_STEPPING_MODE(E7);
#endif
}
#endif
}
//
// Linear Advance
//
{
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float extruder_advance_K[_MAX(EXTRUDERS, 1)];
_FIELD_TEST(planner_extruder_advance_K);
EEPROM_READ(extruder_advance_K);
#if ENABLED(LIN_ADVANCE)
if (!validating)
COPY(planner.extruder_advance_K, extruder_advance_K);
#endif
}
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//
// Motor Current PWM
//
{
uint32_t motor_current_setting[3];
_FIELD_TEST(motor_current_setting);
EEPROM_READ(motor_current_setting);
#if HAS_MOTOR_CURRENT_PWM
if (!validating)
COPY(stepper.motor_current_setting, motor_current_setting);
#endif
}
2017-11-04 21:36:41 +00:00
//
// CNC Coordinate System
//
{
_FIELD_TEST(coordinate_system);
#if ENABLED(CNC_COORDINATE_SYSTEMS)
if (!validating) (void)gcode.select_coordinate_system(-1); // Go back to machine space
EEPROM_READ(gcode.coordinate_system);
#else
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xyz_pos_t coordinate_system[MAX_COORDINATE_SYSTEMS];
EEPROM_READ(coordinate_system);
#endif
}
2017-11-04 21:36:41 +00:00
2017-12-01 22:42:23 +00:00
//
// Skew correction factors
//
{
skew_factor_t skew_factor;
_FIELD_TEST(planner_skew_factor);
EEPROM_READ(skew_factor);
#if ENABLED(SKEW_CORRECTION_GCODE)
if (!validating) {
planner.skew_factor.xy = skew_factor.xy;
#if ENABLED(SKEW_CORRECTION_FOR_Z)
planner.skew_factor.xz = skew_factor.xz;
planner.skew_factor.yz = skew_factor.yz;
#endif
}
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#endif
}
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//
// Advanced Pause filament load & unload lengths
//
2019-09-10 07:20:49 +00:00
#if EXTRUDERS
{
#if DISABLED(ADVANCED_PAUSE_FEATURE)
fil_change_settings_t fc_settings[EXTRUDERS];
#endif
_FIELD_TEST(fc_settings);
EEPROM_READ(fc_settings);
}
2019-09-10 07:20:49 +00:00
#endif
2018-10-07 22:06:14 +00:00
//
// Tool-change settings
2018-10-07 22:06:14 +00:00
//
#if EXTRUDERS > 1
_FIELD_TEST(toolchange_settings);
EEPROM_READ(toolchange_settings);
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#endif
//
// Backlash Compensation
//
{
#if ENABLED(BACKLASH_GCODE)
const xyz_float_t &backlash_distance_mm = backlash.distance_mm;
const uint8_t &backlash_correction = backlash.correction;
#else
float backlash_distance_mm[XYZ];
uint8_t backlash_correction;
#endif
#if ENABLED(BACKLASH_GCODE) && defined(BACKLASH_SMOOTHING_MM)
const float &backlash_smoothing_mm = backlash.smoothing_mm;
#else
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float backlash_smoothing_mm;
#endif
_FIELD_TEST(backlash_distance_mm);
EEPROM_READ(backlash_distance_mm);
EEPROM_READ(backlash_correction);
EEPROM_READ(backlash_smoothing_mm);
}
//
// Extensible UI User Data
//
#if ENABLED(EXTENSIBLE_UI)
// This is a significant hardware change; don't reserve EEPROM space when not present
{
const char extui_data[ExtUI::eeprom_data_size] = { 0 };
_FIELD_TEST(extui_data);
EEPROM_READ(extui_data);
if (!validating) ExtUI::onLoadSettings(extui_data);
}
#endif
//
// Case Light Brightness
//
#if HAS_CASE_LIGHT_BRIGHTNESS
_FIELD_TEST(case_light_brightness);
EEPROM_READ(case_light_brightness);
#endif
2018-01-05 02:01:25 +00:00
eeprom_error = size_error(eeprom_index - (EEPROM_OFFSET));
if (eeprom_error) {
DEBUG_ECHO_START();
DEBUG_ECHOLNPAIR("Index: ", int(eeprom_index - (EEPROM_OFFSET)), " Size: ", datasize());
#if HAS_LCD_MENU && DISABLED(EEPROM_AUTO_INIT)
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LCD_MESSAGEPGM(MSG_ERR_EEPROM_INDEX);
#endif
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}
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else if (working_crc != stored_crc) {
eeprom_error = true;
DEBUG_ERROR_START();
DEBUG_ECHOLNPAIR("EEPROM CRC mismatch - (stored) ", stored_crc, " != ", working_crc, " (calculated)!");
#if HAS_LCD_MENU && DISABLED(EEPROM_AUTO_INIT)
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LCD_MESSAGEPGM(MSG_ERR_EEPROM_CRC);
#endif
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}
else if (!validating) {
DEBUG_ECHO_START();
DEBUG_ECHO(version);
DEBUG_ECHOLNPAIR(" stored settings retrieved (", eeprom_index - (EEPROM_OFFSET), " bytes; crc ", (uint32_t)working_crc, ")");
2018-01-05 02:01:25 +00:00
}
2018-05-11 23:06:04 +00:00
if (!validating && !eeprom_error) postprocess();
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2017-03-18 15:15:54 +00:00
#if ENABLED(AUTO_BED_LEVELING_UBL)
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if (!validating) {
ubl.report_state();
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if (!ubl.sanity_check()) {
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SERIAL_EOL();
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#if ENABLED(EEPROM_CHITCHAT)
ubl.echo_name();
DEBUG_ECHOLNPGM(" initialized.\n");
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#endif
}
else {
eeprom_error = true;
#if ENABLED(EEPROM_CHITCHAT)
DEBUG_ECHOPGM("?Can't enable ");
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ubl.echo_name();
DEBUG_ECHOLNPGM(".");
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#endif
ubl.reset();
}
2017-03-18 15:15:54 +00:00
2018-01-05 01:51:18 +00:00
if (ubl.storage_slot >= 0) {
load_mesh(ubl.storage_slot);
DEBUG_ECHOLNPAIR("Mesh ", ubl.storage_slot, " loaded from storage.");
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}
else {
ubl.reset();
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DEBUG_ECHOLNPGM("UBL reset");
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}
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}
#endif
}
#if ENABLED(EEPROM_CHITCHAT) && DISABLED(DISABLE_M503)
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// Report the EEPROM settings
if (!validating && (DISABLED(EEPROM_BOOT_SILENT) || IsRunning())) report();
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#endif
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EEPROM_FINISH();
return !eeprom_error;
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}
#ifdef ARCHIM2_SPI_FLASH_EEPROM_BACKUP_SIZE
extern bool restoreEEPROM();
#endif
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bool MarlinSettings::validate() {
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validating = true;
#ifdef ARCHIM2_SPI_FLASH_EEPROM_BACKUP_SIZE
bool success = _load();
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if (!success && restoreEEPROM()) {
SERIAL_ECHOLNPGM("Recovered backup EEPROM settings from SPI Flash");
success = _load();
}
#else
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const bool success = _load();
#endif
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validating = false;
return success;
}
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bool MarlinSettings::load() {
if (validate()) {
const bool success = _load();
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TERN_(EXTENSIBLE_UI, ExtUI::onConfigurationStoreRead(success));
return success;
}
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reset();
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#if ENABLED(EEPROM_AUTO_INIT)
(void)save();
SERIAL_ECHO_MSG("EEPROM Initialized");
#endif
return false;
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}
#if ENABLED(AUTO_BED_LEVELING_UBL)
inline void ubl_invalid_slot(const int s) {
#if ENABLED(EEPROM_CHITCHAT)
DEBUG_ECHOLNPGM("?Invalid slot.");
DEBUG_ECHO(s);
DEBUG_ECHOLNPGM(" mesh slots available.");
#else
UNUSED(s);
#endif
}
2017-05-16 07:34:36 +00:00
const uint16_t MarlinSettings::meshes_end = persistentStore.capacity() - 129; // 128 (+1 because of the change to capacity rather than last valid address)
// is a placeholder for the size of the MAT; the MAT will always
// live at the very end of the eeprom
2018-06-15 20:51:45 +00:00
uint16_t MarlinSettings::meshes_start_index() {
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return (datasize() + EEPROM_OFFSET + 32) & 0xFFF8; // Pad the end of configuration data so it can float up
// or down a little bit without disrupting the mesh data
}
2018-01-05 03:09:56 +00:00
uint16_t MarlinSettings::calc_num_meshes() {
return (meshes_end - meshes_start_index()) / sizeof(ubl.z_values);
}
int MarlinSettings::mesh_slot_offset(const int8_t slot) {
return meshes_end - (slot + 1) * sizeof(ubl.z_values);
}
void MarlinSettings::store_mesh(const int8_t slot) {
#if ENABLED(AUTO_BED_LEVELING_UBL)
const int16_t a = calc_num_meshes();
if (!WITHIN(slot, 0, a - 1)) {
ubl_invalid_slot(a);
DEBUG_ECHOLNPAIR("E2END=", persistentStore.capacity() - 1, " meshes_end=", meshes_end, " slot=", slot);
DEBUG_EOL();
return;
}
int pos = mesh_slot_offset(slot);
uint16_t crc = 0;
// Write crc to MAT along with other data, or just tack on to the beginning or end
persistentStore.access_start();
const bool status = persistentStore.write_data(pos, (uint8_t *)&ubl.z_values, sizeof(ubl.z_values), &crc);
persistentStore.access_finish();
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if (status) SERIAL_ECHOLNPGM("?Unable to save mesh data.");
else DEBUG_ECHOLNPAIR("Mesh saved in slot ", slot);
#else
// Other mesh types
#endif
}
void MarlinSettings::load_mesh(const int8_t slot, void * const into/*=nullptr*/) {
#if ENABLED(AUTO_BED_LEVELING_UBL)
const int16_t a = settings.calc_num_meshes();
if (!WITHIN(slot, 0, a - 1)) {
ubl_invalid_slot(a);
return;
}
int pos = mesh_slot_offset(slot);
uint16_t crc = 0;
uint8_t * const dest = into ? (uint8_t*)into : (uint8_t*)&ubl.z_values;
persistentStore.access_start();
const uint16_t status = persistentStore.read_data(pos, dest, sizeof(ubl.z_values), &crc);
persistentStore.access_finish();
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if (status) SERIAL_ECHOLNPGM("?Unable to load mesh data.");
else DEBUG_ECHOLNPAIR("Mesh loaded from slot ", slot);
EEPROM_FINISH();
#else
// Other mesh types
#endif
}
//void MarlinSettings::delete_mesh() { return; }
//void MarlinSettings::defrag_meshes() { return; }
#endif // AUTO_BED_LEVELING_UBL
#else // !EEPROM_SETTINGS
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bool MarlinSettings::save() {
DEBUG_ERROR_MSG("EEPROM disabled");
return false;
}
#endif // !EEPROM_SETTINGS
/**
* M502 - Reset Configuration
*/
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void MarlinSettings::reset() {
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LOOP_XYZE_N(i) {
2019-09-26 06:28:09 +00:00
planner.settings.max_acceleration_mm_per_s2[i] = pgm_read_dword(&_DMA[ALIM(i, _DMA)]);
planner.settings.axis_steps_per_mm[i] = pgm_read_float(&_DASU[ALIM(i, _DASU)]);
planner.settings.max_feedrate_mm_s[i] = pgm_read_float(&_DMF[ALIM(i, _DMF)]);
}
planner.settings.min_segment_time_us = DEFAULT_MINSEGMENTTIME;
planner.settings.acceleration = DEFAULT_ACCELERATION;
planner.settings.retract_acceleration = DEFAULT_RETRACT_ACCELERATION;
planner.settings.travel_acceleration = DEFAULT_TRAVEL_ACCELERATION;
2019-09-26 06:28:09 +00:00
planner.settings.min_feedrate_mm_s = feedRate_t(DEFAULT_MINIMUMFEEDRATE);
planner.settings.min_travel_feedrate_mm_s = feedRate_t(DEFAULT_MINTRAVELFEEDRATE);
#if HAS_CLASSIC_JERK
#ifndef DEFAULT_XJERK
#define DEFAULT_XJERK 0
#endif
#ifndef DEFAULT_YJERK
#define DEFAULT_YJERK 0
#endif
#ifndef DEFAULT_ZJERK
#define DEFAULT_ZJERK 0
#endif
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planner.max_jerk.set(DEFAULT_XJERK, DEFAULT_YJERK, DEFAULT_ZJERK);
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TERN_(HAS_CLASSIC_E_JERK, planner.max_jerk.e = DEFAULT_EJERK;);
#endif
2020-04-24 01:49:11 +00:00
#if HAS_JUNCTION_DEVIATION
planner.junction_deviation_mm = float(JUNCTION_DEVIATION_MM);
#endif
#if HAS_SCARA_OFFSET
2019-09-29 09:25:39 +00:00
scara_home_offset.reset();
#elif HAS_HOME_OFFSET
2019-09-29 09:25:39 +00:00
home_offset.reset();
2017-03-05 00:01:33 +00:00
#endif
2020-04-22 21:35:03 +00:00
TERN_(HAS_HOTEND_OFFSET, reset_hotend_offsets());
//
// Filament Runout Sensor
//
#if HAS_FILAMENT_SENSOR
runout.enabled = true;
runout.reset();
#ifdef FILAMENT_RUNOUT_DISTANCE_MM
runout.set_runout_distance(FILAMENT_RUNOUT_DISTANCE_MM);
#endif
#endif
//
// Tool-change Settings
//
#if EXTRUDERS > 1
#if ENABLED(TOOLCHANGE_FILAMENT_SWAP)
toolchange_settings.swap_length = TOOLCHANGE_FS_LENGTH;
toolchange_settings.extra_resume = TOOLCHANGE_FS_EXTRA_RESUME_LENGTH;
toolchange_settings.retract_speed = TOOLCHANGE_FS_RETRACT_SPEED;
toolchange_settings.unretract_speed = TOOLCHANGE_FS_UNRETRACT_SPEED;
toolchange_settings.extra_prime = TOOLCHANGE_FS_EXTRA_PRIME;
toolchange_settings.prime_speed = TOOLCHANGE_FS_PRIME_SPEED;
toolchange_settings.fan_speed = TOOLCHANGE_FS_FAN_SPEED;
toolchange_settings.fan_time = TOOLCHANGE_FS_FAN_TIME;
#endif
#if ENABLED(TOOLCHANGE_FS_PRIME_FIRST_USED)
enable_first_prime = false;
#endif
#if ENABLED(TOOLCHANGE_PARK)
2019-09-29 09:25:39 +00:00
constexpr xyz_pos_t tpxy = TOOLCHANGE_PARK_XY;
toolchange_settings.enable_park = true;
2019-09-29 09:25:39 +00:00
toolchange_settings.change_point = tpxy;
#endif
toolchange_settings.z_raise = TOOLCHANGE_ZRAISE;
#if ENABLED(TOOLCHANGE_MIGRATION_FEATURE)
migration = migration_defaults;
#endif
2018-10-07 22:06:14 +00:00
#endif
#if ENABLED(BACKLASH_GCODE)
backlash.correction = (BACKLASH_CORRECTION) * 255;
2019-09-29 09:25:39 +00:00
constexpr xyz_float_t tmp = BACKLASH_DISTANCE_MM;
backlash.distance_mm = tmp;
#ifdef BACKLASH_SMOOTHING_MM
backlash.smoothing_mm = BACKLASH_SMOOTHING_MM;
#endif
#endif
2020-04-22 21:35:03 +00:00
TERN_(EXTENSIBLE_UI, ExtUI::onFactoryReset());
//
// Case Light Brightness
//
2020-04-22 21:35:03 +00:00
TERN_(HAS_CASE_LIGHT_BRIGHTNESS, case_light_brightness = CASE_LIGHT_DEFAULT_BRIGHTNESS);
//
// Magnetic Parking Extruder
//
2020-04-22 21:35:03 +00:00
TERN_(MAGNETIC_PARKING_EXTRUDER, mpe_settings_init());
2019-02-06 12:30:53 +00:00
//
// Global Leveling
//
2020-04-22 21:35:03 +00:00
TERN_(ENABLE_LEVELING_FADE_HEIGHT, new_z_fade_height = 0.0);
TERN_(HAS_LEVELING, reset_bed_level());
2015-03-26 06:06:33 +00:00
2016-06-15 01:05:20 +00:00
#if HAS_BED_PROBE
2020-01-09 02:00:06 +00:00
constexpr float dpo[] = NOZZLE_TO_PROBE_OFFSET;
2019-09-25 02:29:21 +00:00
static_assert(COUNT(dpo) == 3, "NOZZLE_TO_PROBE_OFFSET must contain offsets for X, Y, and Z.");
#if HAS_PROBE_XY_OFFSET
LOOP_XYZ(a) probe.offset[a] = dpo[a];
#else
probe.offset.x = probe.offset.y = 0;
probe.offset.z = dpo[Z_AXIS];
#endif
2015-03-26 06:06:33 +00:00
#endif
2015-03-15 22:18:11 +00:00
//
// Z Stepper Auto-alignment points
//
2020-04-22 21:35:03 +00:00
TERN_(Z_STEPPER_AUTO_ALIGN, z_stepper_align.reset_to_default());
2018-08-07 15:04:46 +00:00
//
// Servo Angles
//
2020-04-22 21:35:03 +00:00
TERN_(EDITABLE_SERVO_ANGLES, COPY(servo_angles, base_servo_angles)); // When not editable only one copy of servo angles exists
2018-08-07 15:04:46 +00:00
2019-05-26 02:56:47 +00:00
//
// BLTOUCH
//
//#if ENABLED(BLTOUCH)
// bltouch.last_written_mode;
//#endif
//
// Endstop Adjustments
//
2018-08-07 15:04:46 +00:00
#if ENABLED(DELTA)
2019-09-29 09:25:39 +00:00
const abc_float_t adj = DELTA_ENDSTOP_ADJ, dta = DELTA_TOWER_ANGLE_TRIM;
delta_height = DELTA_HEIGHT;
2019-09-29 09:25:39 +00:00
delta_endstop_adj = adj;
2016-12-10 06:17:49 +00:00
delta_radius = DELTA_RADIUS;
delta_diagonal_rod = DELTA_DIAGONAL_ROD;
delta_segments_per_second = DELTA_SEGMENTS_PER_SECOND;
2019-09-29 09:25:39 +00:00
delta_tower_angle_trim = dta;
2020-01-20 05:35:07 +00:00
#endif
2020-01-20 05:35:07 +00:00
#if ENABLED(X_DUAL_ENDSTOPS)
#ifndef X2_ENDSTOP_ADJUSTMENT
#define X2_ENDSTOP_ADJUSTMENT 0
#endif
2020-01-20 05:35:07 +00:00
endstops.x2_endstop_adj = X2_ENDSTOP_ADJUSTMENT;
#endif
#if ENABLED(Y_DUAL_ENDSTOPS)
#ifndef Y2_ENDSTOP_ADJUSTMENT
#define Y2_ENDSTOP_ADJUSTMENT 0
#endif
2020-01-20 05:35:07 +00:00
endstops.y2_endstop_adj = Y2_ENDSTOP_ADJUSTMENT;
#endif
2020-01-20 05:35:07 +00:00
#if ENABLED(Z_MULTI_ENDSTOPS)
#ifndef Z2_ENDSTOP_ADJUSTMENT
#define Z2_ENDSTOP_ADJUSTMENT 0
#endif
endstops.z2_endstop_adj = Z2_ENDSTOP_ADJUSTMENT;
#if NUM_Z_STEPPER_DRIVERS >= 3
#ifndef Z3_ENDSTOP_ADJUSTMENT
#define Z3_ENDSTOP_ADJUSTMENT 0
#endif
endstops.z3_endstop_adj = Z3_ENDSTOP_ADJUSTMENT;
#endif
#if NUM_Z_STEPPER_DRIVERS >= 4
#ifndef Z4_ENDSTOP_ADJUSTMENT
#define Z4_ENDSTOP_ADJUSTMENT 0
#endif
endstops.z4_endstop_adj = Z4_ENDSTOP_ADJUSTMENT;
#endif
#endif
//
// Preheat parameters
//
2020-04-28 03:35:25 +00:00
#if HAS_HOTEND && HAS_LCD_MENU
ui.preheat_hotend_temp[0] = PREHEAT_1_TEMP_HOTEND;
ui.preheat_hotend_temp[1] = PREHEAT_2_TEMP_HOTEND;
ui.preheat_bed_temp[0] = PREHEAT_1_TEMP_BED;
ui.preheat_bed_temp[1] = PREHEAT_2_TEMP_BED;
ui.preheat_fan_speed[0] = PREHEAT_1_FAN_SPEED;
ui.preheat_fan_speed[1] = PREHEAT_2_FAN_SPEED;
#endif
//
// Hotend PID
//
#if ENABLED(PIDTEMP)
HOTEND_LOOP() {
PID_PARAM(Kp, e) = float(DEFAULT_Kp);
PID_PARAM(Ki, e) = scalePID_i(DEFAULT_Ki);
PID_PARAM(Kd, e) = scalePID_d(DEFAULT_Kd);
2020-04-22 21:35:03 +00:00
TERN_(PID_EXTRUSION_SCALING, PID_PARAM(Kc, e) = DEFAULT_Kc);
TERN_(PID_FAN_SCALING, PID_PARAM(Kf, e) = DEFAULT_Kf);
}
#endif
//
// PID Extrusion Scaling
//
2020-04-22 21:35:03 +00:00
TERN_(PID_EXTRUSION_SCALING, thermalManager.lpq_len = 20); // Default last-position-queue size
//
// Heated Bed PID
//
#if ENABLED(PIDTEMPBED)
thermalManager.temp_bed.pid.Kp = DEFAULT_bedKp;
thermalManager.temp_bed.pid.Ki = scalePID_i(DEFAULT_bedKi);
thermalManager.temp_bed.pid.Kd = scalePID_d(DEFAULT_bedKd);
2015-04-03 23:38:05 +00:00
#endif
2019-05-06 23:51:06 +00:00
//
// User-Defined Thermistors
//
2020-04-22 21:35:03 +00:00
TERN_(HAS_USER_THERMISTORS, thermalManager.reset_user_thermistors());
2019-05-06 23:51:06 +00:00
//
// LCD Contrast
//
2020-04-22 21:35:03 +00:00
TERN_(HAS_LCD_CONTRAST, ui.set_contrast(DEFAULT_LCD_CONTRAST));
//
// Controller Fan
//
2020-04-22 21:35:03 +00:00
TERN_(USE_CONTROLLER_FAN, controllerFan.reset());
//
// Power-Loss Recovery
//
2020-04-22 21:35:03 +00:00
TERN_(POWER_LOSS_RECOVERY, recovery.enable(ENABLED(PLR_ENABLED_DEFAULT)));
2018-11-17 02:47:07 +00:00
//
// Firmware Retraction
//
2020-04-22 21:35:03 +00:00
TERN_(FWRETRACT, fwretract.reset());
//
// Volumetric & Filament Size
//
#if DISABLED(NO_VOLUMETRICS)
2020-04-22 21:35:03 +00:00
parser.volumetric_enabled = ENABLED(VOLUMETRIC_DEFAULT_ON);
LOOP_L_N(q, COUNT(planner.filament_size))
planner.filament_size[q] = DEFAULT_NOMINAL_FILAMENT_DIA;
#endif
2020-04-22 21:35:03 +00:00
endstops.enable_globally(ENABLED(ENDSTOPS_ALWAYS_ON_DEFAULT));
2018-03-15 03:03:53 +00:00
reset_stepper_drivers();
//
// Linear Advance
//
#if ENABLED(LIN_ADVANCE)
LOOP_L_N(i, EXTRUDERS) {
planner.extruder_advance_K[i] = LIN_ADVANCE_K;
2020-04-22 21:35:03 +00:00
TERN_(EXTRA_LIN_ADVANCE_K, other_extruder_advance_K[i] = LIN_ADVANCE_K);
}
#endif
//
// Motor Current PWM
//
#if HAS_MOTOR_CURRENT_PWM
constexpr uint32_t tmp_motor_current_setting[3] = PWM_MOTOR_CURRENT;
2020-03-26 00:17:50 +00:00
LOOP_L_N(q, 3)
stepper.digipot_current(q, (stepper.motor_current_setting[q] = tmp_motor_current_setting[q]));
#endif
//
// CNC Coordinate System
//
2020-04-22 21:35:03 +00:00
TERN_(CNC_COORDINATE_SYSTEMS, (void)gcode.select_coordinate_system(-1)); // Go back to machine space
//
// Skew Correction
//
2017-12-01 22:42:23 +00:00
#if ENABLED(SKEW_CORRECTION_GCODE)
planner.skew_factor.xy = XY_SKEW_FACTOR;
2017-12-01 22:42:23 +00:00
#if ENABLED(SKEW_CORRECTION_FOR_Z)
planner.skew_factor.xz = XZ_SKEW_FACTOR;
planner.skew_factor.yz = YZ_SKEW_FACTOR;
2017-12-01 22:42:23 +00:00
#endif
#endif
//
// Advanced Pause filament load & unload lengths
//
#if ENABLED(ADVANCED_PAUSE_FEATURE)
LOOP_L_N(e, EXTRUDERS) {
fc_settings[e].unload_length = FILAMENT_CHANGE_UNLOAD_LENGTH;
fc_settings[e].load_length = FILAMENT_CHANGE_FAST_LOAD_LENGTH;
}
#endif
2017-04-10 02:47:49 +00:00
postprocess();
DEBUG_ECHO_START();
DEBUG_ECHOLNPGM("Hardcoded Default Settings Loaded");
2020-04-22 21:35:03 +00:00
TERN_(EXTENSIBLE_UI, ExtUI::onFactoryReset());
}
#if DISABLED(DISABLE_M503)
2020-02-21 02:09:59 +00:00
static void config_heading(const bool repl, PGM_P const pstr, const bool eol=true) {
if (!repl) {
2020-02-21 02:56:13 +00:00
SERIAL_ECHO_START();
2020-02-21 02:09:59 +00:00
SERIAL_ECHOPGM("; ");
serialprintPGM(pstr);
if (eol) SERIAL_EOL();
}
}
2019-02-24 04:53:01 +00:00
#define CONFIG_ECHO_START() do{ if (!forReplay) SERIAL_ECHO_START(); }while(0)
#define CONFIG_ECHO_MSG(STR) do{ CONFIG_ECHO_START(); SERIAL_ECHOLNPGM(STR); }while(0)
2020-02-21 02:56:13 +00:00
#define CONFIG_ECHO_HEADING(STR) config_heading(forReplay, PSTR(STR))
2020-03-02 18:03:43 +00:00
#if HAS_TRINAMIC_CONFIG
inline void say_M906(const bool forReplay) { CONFIG_ECHO_START(); SERIAL_ECHOPGM(" M906"); }
#if HAS_STEALTHCHOP
void say_M569(const bool forReplay, const char * const etc=nullptr, const bool newLine = false) {
CONFIG_ECHO_START();
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" M569 S1");
if (etc) {
2019-02-24 04:53:01 +00:00
SERIAL_CHAR(' ');
serialprintPGM(etc);
}
if (newLine) SERIAL_EOL();
}
#endif
#if ENABLED(HYBRID_THRESHOLD)
inline void say_M913(const bool forReplay) { CONFIG_ECHO_START(); SERIAL_ECHOPGM(" M913"); }
#endif
2018-09-09 19:59:12 +00:00
#if USE_SENSORLESS
inline void say_M914() { SERIAL_ECHOPGM(" M914"); }
#endif
#endif
2018-03-15 03:03:53 +00:00
#if ENABLED(ADVANCED_PAUSE_FEATURE)
inline void say_M603(const bool forReplay) { CONFIG_ECHO_START(); SERIAL_ECHOPGM(" M603 "); }
2018-03-15 03:03:53 +00:00
#endif
2019-02-24 04:53:01 +00:00
inline void say_units(const bool colon) {
serialprintPGM(
2018-05-08 11:29:53 +00:00
#if ENABLED(INCH_MODE_SUPPORT)
parser.linear_unit_factor != 1.0 ? PSTR(" (in)") :
#endif
PSTR(" (mm)")
);
2019-02-24 04:53:01 +00:00
if (colon) SERIAL_ECHOLNPGM(":");
2018-05-08 11:29:53 +00:00
}
2019-02-24 04:53:01 +00:00
void report_M92(const bool echo=true, const int8_t e=-1);
2016-10-28 23:55:42 +00:00
/**
2017-04-10 02:47:49 +00:00
* M503 - Report current settings in RAM
*
2017-04-10 02:47:49 +00:00
* Unless specifically disabled, M503 is available even without EEPROM
2016-10-28 23:55:42 +00:00
*/
2019-02-24 04:53:01 +00:00
void MarlinSettings::report(const bool forReplay) {
/**
* Announce current units, in case inches are being displayed
*/
CONFIG_ECHO_START();
#if ENABLED(INCH_MODE_SUPPORT)
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" G2");
SERIAL_CHAR(parser.linear_unit_factor == 1.0 ? '1' : '0');
SERIAL_ECHOPGM(" ;");
say_units(false);
#else
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" G21 ; Units in mm");
say_units(false);
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
2018-11-08 15:48:09 +00:00
#if HAS_LCD_MENU
2017-05-07 00:41:50 +00:00
// Temperature units - for Ultipanel temperature options
CONFIG_ECHO_START();
2017-05-07 00:41:50 +00:00
#if ENABLED(TEMPERATURE_UNITS_SUPPORT)
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" M149 ");
SERIAL_CHAR(parser.temp_units_code());
SERIAL_ECHOPGM(" ; Units in ");
serialprintPGM(parser.temp_units_name());
2017-05-07 00:41:50 +00:00
#else
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPGM(" M149 C ; Units in Celsius");
2017-05-07 00:41:50 +00:00
#endif
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
2017-05-25 23:02:29 +00:00
#if DISABLED(NO_VOLUMETRICS)
/**
* Volumetric extrusion M200
*/
if (!forReplay) {
2020-02-21 02:56:13 +00:00
config_heading(forReplay, PSTR("Filament settings:"), false);
if (parser.volumetric_enabled)
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
else
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPGM(" Disabled");
}
#if EXTRUDERS == 1
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(" M200 D", LINEAR_UNIT(planner.filament_size[0]));
#elif EXTRUDERS
LOOP_L_N(i, EXTRUDERS) {
CONFIG_ECHO_START();
SERIAL_ECHOPGM(" M200");
if (i) SERIAL_ECHOPAIR_P(SP_T_STR, int(i));
SERIAL_ECHOLNPAIR(" D", LINEAR_UNIT(planner.filament_size[i]));
}
#endif
if (!parser.volumetric_enabled)
CONFIG_ECHO_MSG(" M200 D0");
#endif // !NO_VOLUMETRICS
CONFIG_ECHO_HEADING("Steps per unit:");
2019-02-24 04:53:01 +00:00
report_M92(!forReplay);
2016-10-28 23:55:42 +00:00
CONFIG_ECHO_HEADING("Maximum feedrates (units/s):");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M203 X"), LINEAR_UNIT(planner.settings.max_feedrate_mm_s[X_AXIS])
, SP_Y_STR, LINEAR_UNIT(planner.settings.max_feedrate_mm_s[Y_AXIS])
, SP_Z_STR, LINEAR_UNIT(planner.settings.max_feedrate_mm_s[Z_AXIS])
#if DISABLED(DISTINCT_E_FACTORS)
, SP_E_STR, VOLUMETRIC_UNIT(planner.settings.max_feedrate_mm_s[E_AXIS])
#endif
);
2016-12-04 04:02:27 +00:00
#if ENABLED(DISTINCT_E_FACTORS)
LOOP_L_N(i, E_STEPPERS) {
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M203 T"), (int)i
, SP_E_STR, VOLUMETRIC_UNIT(planner.settings.max_feedrate_mm_s[E_AXIS_N(i)])
);
2016-12-04 04:02:27 +00:00
}
#endif
CONFIG_ECHO_HEADING("Maximum Acceleration (units/s2):");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M201 X"), LINEAR_UNIT(planner.settings.max_acceleration_mm_per_s2[X_AXIS])
, SP_Y_STR, LINEAR_UNIT(planner.settings.max_acceleration_mm_per_s2[Y_AXIS])
, SP_Z_STR, LINEAR_UNIT(planner.settings.max_acceleration_mm_per_s2[Z_AXIS])
#if DISABLED(DISTINCT_E_FACTORS)
, SP_E_STR, VOLUMETRIC_UNIT(planner.settings.max_acceleration_mm_per_s2[E_AXIS])
#endif
);
2016-12-04 04:02:27 +00:00
#if ENABLED(DISTINCT_E_FACTORS)
LOOP_L_N(i, E_STEPPERS) {
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M201 T"), (int)i
, SP_E_STR, VOLUMETRIC_UNIT(planner.settings.max_acceleration_mm_per_s2[E_AXIS_N(i)])
);
}
2016-12-04 04:02:27 +00:00
#endif
CONFIG_ECHO_HEADING("Acceleration (units/s2): P<print_accel> R<retract_accel> T<travel_accel>");
CONFIG_ECHO_START();
2020-02-01 23:05:42 +00:00
SERIAL_ECHOLNPAIR_P(
PSTR(" M204 P"), LINEAR_UNIT(planner.settings.acceleration)
, PSTR(" R"), LINEAR_UNIT(planner.settings.retract_acceleration)
, SP_T_STR, LINEAR_UNIT(planner.settings.travel_acceleration)
);
2020-02-21 02:56:13 +00:00
CONFIG_ECHO_HEADING(
"Advanced: B<min_segment_time_us> S<min_feedrate> T<min_travel_feedrate>"
2020-04-24 01:49:11 +00:00
#if HAS_JUNCTION_DEVIATION
2020-02-21 02:56:13 +00:00
" J<junc_dev>"
#endif
#if HAS_CLASSIC_JERK
2020-02-21 02:56:13 +00:00
" X<max_x_jerk> Y<max_y_jerk> Z<max_z_jerk>"
2020-04-22 21:35:03 +00:00
TERN_(HAS_CLASSIC_E_JERK, " E<max_e_jerk>")
#endif
2020-02-21 02:56:13 +00:00
);
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M205 B"), LINEAR_UNIT(planner.settings.min_segment_time_us)
, PSTR(" S"), LINEAR_UNIT(planner.settings.min_feedrate_mm_s)
2020-02-01 23:05:42 +00:00
, SP_T_STR, LINEAR_UNIT(planner.settings.min_travel_feedrate_mm_s)
2020-04-24 01:49:11 +00:00
#if HAS_JUNCTION_DEVIATION
, PSTR(" J"), LINEAR_UNIT(planner.junction_deviation_mm)
#endif
#if HAS_CLASSIC_JERK
, SP_X_STR, LINEAR_UNIT(planner.max_jerk.x)
, SP_Y_STR, LINEAR_UNIT(planner.max_jerk.y)
, SP_Z_STR, LINEAR_UNIT(planner.max_jerk.z)
#if HAS_CLASSIC_E_JERK
, SP_E_STR, LINEAR_UNIT(planner.max_jerk.e)
#endif
#endif
);
#if HAS_M206_COMMAND
CONFIG_ECHO_HEADING("Home offset:");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
2019-03-16 00:18:34 +00:00
#if IS_CARTESIAN
PSTR(" M206 X"), LINEAR_UNIT(home_offset.x)
, SP_Y_STR, LINEAR_UNIT(home_offset.y)
, SP_Z_STR
#else
PSTR(" M206 Z")
2019-03-16 00:18:34 +00:00
#endif
, LINEAR_UNIT(home_offset.z)
);
2017-03-05 00:01:33 +00:00
#endif
2018-08-25 02:26:29 +00:00
#if HAS_HOTEND_OFFSET
CONFIG_ECHO_HEADING("Hotend offsets:");
CONFIG_ECHO_START();
2020-03-14 04:18:16 +00:00
LOOP_S_L_N(e, 1, HOTENDS) {
SERIAL_ECHOPAIR_P(
PSTR(" M218 T"), (int)e,
SP_X_STR, LINEAR_UNIT(hotend_offset[e].x),
SP_Y_STR, LINEAR_UNIT(hotend_offset[e].y)
);
SERIAL_ECHOLNPAIR_F_P(SP_Z_STR, LINEAR_UNIT(hotend_offset[e].z), 3);
}
2016-10-28 23:55:42 +00:00
#endif
2018-01-04 03:55:07 +00:00
/**
* Bed Leveling
*/
#if HAS_LEVELING
2018-01-04 03:55:07 +00:00
#if ENABLED(MESH_BED_LEVELING)
CONFIG_ECHO_HEADING("Mesh Bed Leveling:");
2018-01-04 03:55:07 +00:00
#elif ENABLED(AUTO_BED_LEVELING_UBL)
2020-02-21 02:56:13 +00:00
config_heading(forReplay, PSTR(""), false);
2018-01-04 03:55:07 +00:00
if (!forReplay) {
ubl.echo_name();
2020-02-21 02:56:13 +00:00
SERIAL_CHAR(':');
SERIAL_EOL();
2018-01-04 03:55:07 +00:00
}
2019-02-25 02:29:03 +00:00
#elif HAS_ABL_OR_UBL
2018-01-04 03:55:07 +00:00
CONFIG_ECHO_HEADING("Auto Bed Leveling:");
2018-01-04 03:55:07 +00:00
#endif
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M420 S"), planner.leveling_active ? 1 : 0
#if ENABLED(ENABLE_LEVELING_FADE_HEIGHT)
, SP_Z_STR, LINEAR_UNIT(planner.z_fade_height)
#endif
);
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#if ENABLED(MESH_BED_LEVELING)
2017-05-16 07:34:36 +00:00
2018-02-25 14:07:48 +00:00
if (leveling_is_valid()) {
LOOP_L_N(py, GRID_MAX_POINTS_Y) {
LOOP_L_N(px, GRID_MAX_POINTS_X) {
CONFIG_ECHO_START();
2019-12-12 22:54:54 +00:00
SERIAL_ECHOPAIR_P(PSTR(" G29 S3 I"), (int)px, PSTR(" J"), (int)py);
SERIAL_ECHOLNPAIR_F_P(SP_Z_STR, LINEAR_UNIT(mbl.z_values[px][py]), 5);
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}
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}
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CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_F_P(PSTR(" G29 S4 Z"), LINEAR_UNIT(mbl.z_offset), 5);
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}
2018-01-04 03:55:07 +00:00
#elif ENABLED(AUTO_BED_LEVELING_UBL)
if (!forReplay) {
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SERIAL_EOL();
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ubl.report_state();
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SERIAL_EOL();
config_heading(false, PSTR("Active Mesh Slot: "), false);
SERIAL_ECHOLN(ubl.storage_slot);
config_heading(false, PSTR("EEPROM can hold "), false);
SERIAL_ECHO(calc_num_meshes());
SERIAL_ECHOLNPGM(" meshes.\n");
2018-01-04 03:55:07 +00:00
}
2019-02-24 04:53:01 +00:00
//ubl.report_current_mesh(); // This is too verbose for large meshes. A better (more terse)
// solution needs to be found.
2018-02-25 14:07:48 +00:00
#elif ENABLED(AUTO_BED_LEVELING_BILINEAR)
if (leveling_is_valid()) {
LOOP_L_N(py, GRID_MAX_POINTS_Y) {
LOOP_L_N(px, GRID_MAX_POINTS_X) {
CONFIG_ECHO_START();
SERIAL_ECHOPAIR(" G29 W I", (int)px, " J", (int)py);
SERIAL_ECHOLNPAIR_F_P(SP_Z_STR, LINEAR_UNIT(z_values[px][py]), 5);
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}
}
}
#endif
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#endif // HAS_LEVELING
#if ENABLED(EDITABLE_SERVO_ANGLES)
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CONFIG_ECHO_HEADING("Servo Angles:");
LOOP_L_N(i, NUM_SERVOS) {
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switch (i) {
#if ENABLED(SWITCHING_EXTRUDER)
case SWITCHING_EXTRUDER_SERVO_NR:
#if EXTRUDERS > 3
case SWITCHING_EXTRUDER_E23_SERVO_NR:
#endif
#elif ENABLED(SWITCHING_NOZZLE)
case SWITCHING_NOZZLE_SERVO_NR:
#elif ENABLED(BLTOUCH) || (HAS_Z_SERVO_PROBE && defined(Z_SERVO_ANGLES))
2018-08-25 02:53:42 +00:00
case Z_PROBE_SERVO_NR:
#endif
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(" M281 P", int(i), " L", servo_angles[i][0], " U", servo_angles[i][1]);
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default: break;
}
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}
2018-08-25 02:53:42 +00:00
#endif // EDITABLE_SERVO_ANGLES
2018-08-07 15:04:46 +00:00
#if HAS_SCARA_OFFSET
CONFIG_ECHO_HEADING("SCARA settings: S<seg-per-sec> P<theta-psi-offset> T<theta-offset>");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M665 S"), delta_segments_per_second
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, SP_P_STR, scara_home_offset.a
, SP_T_STR, scara_home_offset.b
, SP_Z_STR, LINEAR_UNIT(scara_home_offset.z)
);
#elif ENABLED(DELTA)
2017-11-05 14:49:38 +00:00
CONFIG_ECHO_HEADING("Endstop adjustment:");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M666 X"), LINEAR_UNIT(delta_endstop_adj.a)
, SP_Y_STR, LINEAR_UNIT(delta_endstop_adj.b)
, SP_Z_STR, LINEAR_UNIT(delta_endstop_adj.c)
);
CONFIG_ECHO_HEADING("Delta settings: L<diagonal_rod> R<radius> H<height> S<segments_per_s> XYZ<tower angle corrections>");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M665 L"), LINEAR_UNIT(delta_diagonal_rod)
, PSTR(" R"), LINEAR_UNIT(delta_radius)
, PSTR(" H"), LINEAR_UNIT(delta_height)
, PSTR(" S"), delta_segments_per_second
, SP_X_STR, LINEAR_UNIT(delta_tower_angle_trim.a)
, SP_Y_STR, LINEAR_UNIT(delta_tower_angle_trim.b)
, SP_Z_STR, LINEAR_UNIT(delta_tower_angle_trim.c)
);
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#elif HAS_EXTRA_ENDSTOPS
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CONFIG_ECHO_HEADING("Endstop adjustment:");
CONFIG_ECHO_START();
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SERIAL_ECHOPGM(" M666");
#if ENABLED(X_DUAL_ENDSTOPS)
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SERIAL_ECHOLNPAIR_P(SP_X_STR, LINEAR_UNIT(endstops.x2_endstop_adj));
#endif
#if ENABLED(Y_DUAL_ENDSTOPS)
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SERIAL_ECHOLNPAIR_P(SP_Y_STR, LINEAR_UNIT(endstops.y2_endstop_adj));
#endif
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#if ENABLED(Z_MULTI_ENDSTOPS)
#if NUM_Z_STEPPER_DRIVERS >= 3
SERIAL_ECHOPAIR(" S2 Z", LINEAR_UNIT(endstops.z3_endstop_adj));
CONFIG_ECHO_START();
SERIAL_ECHOPAIR(" M666 S3 Z", LINEAR_UNIT(endstops.z3_endstop_adj));
#if NUM_Z_STEPPER_DRIVERS >= 4
CONFIG_ECHO_START();
SERIAL_ECHOPAIR(" M666 S4 Z", LINEAR_UNIT(endstops.z4_endstop_adj));
#endif
#else
SERIAL_ECHOLNPAIR_P(SP_Z_STR, LINEAR_UNIT(endstops.z2_endstop_adj));
#endif
#endif
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#endif // [XYZ]_DUAL_ENDSTOPS
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#if HAS_HOTEND && HAS_LCD_MENU
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CONFIG_ECHO_HEADING("Material heatup parameters:");
LOOP_L_N(i, COUNT(ui.preheat_hotend_temp)) {
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(
" M145 S", (int)i
, " H", TEMP_UNIT(ui.preheat_hotend_temp[i])
, " B", TEMP_UNIT(ui.preheat_bed_temp[i])
, " F", int(ui.preheat_fan_speed[i])
);
}
2018-11-08 15:48:09 +00:00
#endif
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#if HAS_PID_HEATING
CONFIG_ECHO_HEADING("PID settings:");
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#if ENABLED(PIDTEMP)
HOTEND_LOOP() {
CONFIG_ECHO_START();
SERIAL_ECHOPAIR_P(
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#if BOTH(HAS_MULTI_HOTEND, PID_PARAMS_PER_HOTEND)
PSTR(" M301 E"), e,
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SP_P_STR
#else
PSTR(" M301 P")
#endif
, PID_PARAM(Kp, e)
, PSTR(" I"), unscalePID_i(PID_PARAM(Ki, e))
, PSTR(" D"), unscalePID_d(PID_PARAM(Kd, e))
);
#if ENABLED(PID_EXTRUSION_SCALING)
SERIAL_ECHOPAIR(" C", PID_PARAM(Kc, e));
if (e == 0) SERIAL_ECHOPAIR(" L", thermalManager.lpq_len);
#endif
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#if ENABLED(PID_FAN_SCALING)
SERIAL_ECHOPAIR(" F", PID_PARAM(Kf, e));
#endif
SERIAL_EOL();
2016-10-28 23:55:42 +00:00
}
#endif // PIDTEMP
#if ENABLED(PIDTEMPBED)
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(
" M304 P", thermalManager.temp_bed.pid.Kp
, " I", unscalePID_i(thermalManager.temp_bed.pid.Ki)
, " D", unscalePID_d(thermalManager.temp_bed.pid.Kd)
);
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#endif
#endif // PIDTEMP || PIDTEMPBED
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#if HAS_USER_THERMISTORS
CONFIG_ECHO_HEADING("User thermistors:");
LOOP_L_N(i, USER_THERMISTORS)
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thermalManager.log_user_thermistor(i, true);
#endif
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#if HAS_LCD_CONTRAST
CONFIG_ECHO_HEADING("LCD Contrast:");
CONFIG_ECHO_START();
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SERIAL_ECHOLNPAIR(" M250 C", ui.contrast);
#endif
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TERN_(CONTROLLER_FAN_EDITABLE, M710_report(forReplay));
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#if ENABLED(POWER_LOSS_RECOVERY)
CONFIG_ECHO_HEADING("Power-Loss Recovery:");
CONFIG_ECHO_START();
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SERIAL_ECHOLNPAIR(" M413 S", int(recovery.enabled));
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#endif
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#if ENABLED(FWRETRACT)
CONFIG_ECHO_HEADING("Retract: S<length> F<units/m> Z<lift>");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M207 S"), LINEAR_UNIT(fwretract.settings.retract_length)
, PSTR(" W"), LINEAR_UNIT(fwretract.settings.swap_retract_length)
, PSTR(" F"), LINEAR_UNIT(MMS_TO_MMM(fwretract.settings.retract_feedrate_mm_s))
, SP_Z_STR, LINEAR_UNIT(fwretract.settings.retract_zraise)
);
CONFIG_ECHO_HEADING("Recover: S<length> F<units/m>");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(
" M208 S", LINEAR_UNIT(fwretract.settings.retract_recover_extra)
, " W", LINEAR_UNIT(fwretract.settings.swap_retract_recover_extra)
2019-09-26 06:28:09 +00:00
, " F", LINEAR_UNIT(MMS_TO_MMM(fwretract.settings.retract_recover_feedrate_mm_s))
);
#if ENABLED(FWRETRACT_AUTORETRACT)
CONFIG_ECHO_HEADING("Auto-Retract: S=0 to disable, 1 to interpret E-only moves as retract/recover");
CONFIG_ECHO_START();
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SERIAL_ECHOLNPAIR(" M209 S", fwretract.autoretract_enabled ? 1 : 0);
#endif // FWRETRACT_AUTORETRACT
#endif // FWRETRACT
2016-10-28 23:55:42 +00:00
/**
* Probe Offset
2016-10-28 23:55:42 +00:00
*/
#if HAS_BED_PROBE
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config_heading(forReplay, PSTR("Z-Probe Offset"), false);
if (!forReplay) say_units(true);
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
#if HAS_PROBE_XY_OFFSET
PSTR(" M851 X"), LINEAR_UNIT(probe.offset_xy.x),
SP_Y_STR, LINEAR_UNIT(probe.offset_xy.y),
SP_Z_STR
#else
PSTR(" M851 X0 Y0 Z")
#endif
, LINEAR_UNIT(probe.offset.z)
);
2016-10-28 23:55:42 +00:00
#endif
2017-12-01 22:42:23 +00:00
/**
* Bed Skew Correction
*/
#if ENABLED(SKEW_CORRECTION_GCODE)
CONFIG_ECHO_HEADING("Skew Factor: ");
CONFIG_ECHO_START();
2017-12-01 22:42:23 +00:00
#if ENABLED(SKEW_CORRECTION_FOR_Z)
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SERIAL_ECHOPAIR_F(" M852 I", LINEAR_UNIT(planner.skew_factor.xy), 6);
SERIAL_ECHOPAIR_F(" J", LINEAR_UNIT(planner.skew_factor.xz), 6);
SERIAL_ECHOLNPAIR_F(" K", LINEAR_UNIT(planner.skew_factor.yz), 6);
2018-03-15 03:03:53 +00:00
#else
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR_F(" M852 S", LINEAR_UNIT(planner.skew_factor.xy), 6);
2017-12-01 22:42:23 +00:00
#endif
#endif
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#if HAS_TRINAMIC_CONFIG
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/**
2018-10-03 07:48:49 +00:00
* TMC stepper driver current
2018-03-15 03:03:53 +00:00
*/
CONFIG_ECHO_HEADING("Stepper driver current:");
#if AXIS_IS_TMC(X) || AXIS_IS_TMC(Y) || AXIS_IS_TMC(Z)
say_M906(forReplay);
2020-04-27 10:06:55 +00:00
#if AXIS_IS_TMC(X)
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX.getMilliamps());
#endif
#if AXIS_IS_TMC(Y)
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY.getMilliamps());
#endif
#if AXIS_IS_TMC(Z)
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ.getMilliamps());
#endif
2020-05-06 08:40:04 +00:00
SERIAL_EOL();
#endif
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#if AXIS_IS_TMC(X2) || AXIS_IS_TMC(Y2) || AXIS_IS_TMC(Z2)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" I1");
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#if AXIS_IS_TMC(X2)
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX2.getMilliamps());
#endif
#if AXIS_IS_TMC(Y2)
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY2.getMilliamps());
#endif
#if AXIS_IS_TMC(Z2)
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ2.getMilliamps());
#endif
2020-05-06 08:40:04 +00:00
SERIAL_EOL();
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_IS_TMC(Z3)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" I2 Z", stepperZ3.getMilliamps());
#endif
2018-10-03 07:48:49 +00:00
2020-01-20 05:35:07 +00:00
#if AXIS_IS_TMC(Z4)
say_M906(forReplay);
SERIAL_ECHOLNPAIR(" I3 Z", stepperZ4.getMilliamps());
#endif
#if AXIS_IS_TMC(E0)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T0 E", stepperE0.getMilliamps());
#endif
2018-09-19 22:06:51 +00:00
#if AXIS_IS_TMC(E1)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T1 E", stepperE1.getMilliamps());
#endif
2018-09-19 22:06:51 +00:00
#if AXIS_IS_TMC(E2)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T2 E", stepperE2.getMilliamps());
#endif
2018-09-19 22:06:51 +00:00
#if AXIS_IS_TMC(E3)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T3 E", stepperE3.getMilliamps());
#endif
2018-09-19 22:06:51 +00:00
#if AXIS_IS_TMC(E4)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T4 E", stepperE4.getMilliamps());
#endif
2018-09-19 22:06:51 +00:00
#if AXIS_IS_TMC(E5)
say_M906(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOLNPAIR(" T5 E", stepperE5.getMilliamps());
#endif
2020-02-04 18:37:20 +00:00
#if AXIS_IS_TMC(E6)
say_M906(forReplay);
SERIAL_ECHOLNPAIR(" T6 E", stepperE6.getMilliamps());
#endif
#if AXIS_IS_TMC(E7)
say_M906(forReplay);
SERIAL_ECHOLNPAIR(" T7 E", stepperE7.getMilliamps());
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
2017-12-15 21:03:14 +00:00
2018-03-15 03:03:53 +00:00
/**
2018-10-03 07:48:49 +00:00
* TMC Hybrid Threshold
2018-03-15 03:03:53 +00:00
*/
#if ENABLED(HYBRID_THRESHOLD)
CONFIG_ECHO_HEADING("Hybrid Threshold:");
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#if AXIS_HAS_STEALTHCHOP(X) || AXIS_HAS_STEALTHCHOP(Y) || AXIS_HAS_STEALTHCHOP(Z)
say_M913(forReplay);
2020-05-06 08:40:04 +00:00
#if AXIS_HAS_STEALTHCHOP(X)
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX.get_pwm_thrs());
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY.get_pwm_thrs());
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ.get_pwm_thrs());
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(X2) || AXIS_HAS_STEALTHCHOP(Y2) || AXIS_HAS_STEALTHCHOP(Z2)
say_M913(forReplay);
2019-02-24 04:53:01 +00:00
SERIAL_ECHOPGM(" I1");
2020-05-06 08:40:04 +00:00
#if AXIS_HAS_STEALTHCHOP(X2)
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX2.get_pwm_thrs());
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY2.get_pwm_thrs());
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ2.get_pwm_thrs());
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(Z3)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" I2 Z", stepperZ3.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
2020-01-20 05:35:07 +00:00
#if AXIS_HAS_STEALTHCHOP(Z4)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" I3 Z", stepperZ4.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E0)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T0 E", stepperE0.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E1)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T1 E", stepperE1.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E2)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T2 E", stepperE2.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E3)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T3 E", stepperE3.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E4)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T4 E", stepperE4.get_pwm_thrs());
#endif
2018-10-03 07:48:49 +00:00
#if AXIS_HAS_STEALTHCHOP(E5)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T5 E", stepperE5.get_pwm_thrs());
#endif
2020-02-04 18:37:20 +00:00
#if AXIS_HAS_STEALTHCHOP(E6)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T6 E", stepperE6.get_pwm_thrs());
#endif
#if AXIS_HAS_STEALTHCHOP(E7)
say_M913(forReplay);
SERIAL_ECHOLNPAIR(" T7 E", stepperE7.get_pwm_thrs());
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
#endif // HYBRID_THRESHOLD
2018-03-15 03:03:53 +00:00
/**
2018-10-03 07:48:49 +00:00
* TMC Sensorless homing thresholds
2018-03-15 03:03:53 +00:00
*/
2018-09-09 19:59:12 +00:00
#if USE_SENSORLESS
CONFIG_ECHO_HEADING("StallGuard threshold:");
#if X_SENSORLESS || Y_SENSORLESS || Z_SENSORLESS
CONFIG_ECHO_START();
2019-02-24 04:53:01 +00:00
say_M914();
#if X_SENSORLESS
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX.homing_threshold());
2018-03-15 03:03:53 +00:00
#endif
#if Y_SENSORLESS
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY.homing_threshold());
#endif
#if Z_SENSORLESS
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ.homing_threshold());
2018-03-15 03:03:53 +00:00
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
#endif
#if X2_SENSORLESS || Y2_SENSORLESS || Z2_SENSORLESS
CONFIG_ECHO_START();
2019-02-24 04:53:01 +00:00
say_M914();
SERIAL_ECHOPGM(" I1");
#if X2_SENSORLESS
SERIAL_ECHOPAIR_P(SP_X_STR, stepperX2.homing_threshold());
#endif
#if Y2_SENSORLESS
SERIAL_ECHOPAIR_P(SP_Y_STR, stepperY2.homing_threshold());
2018-03-15 03:03:53 +00:00
#endif
#if Z2_SENSORLESS
SERIAL_ECHOPAIR_P(SP_Z_STR, stepperZ2.homing_threshold());
#endif
2019-02-24 04:53:01 +00:00
SERIAL_EOL();
#endif
#if Z3_SENSORLESS
CONFIG_ECHO_START();
2019-02-24 04:53:01 +00:00
say_M914();
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SERIAL_ECHOLNPAIR(" I2 Z", stepperZ3.homing_threshold());
#endif
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#if Z4_SENSORLESS
CONFIG_ECHO_START();
say_M914();
SERIAL_ECHOLNPAIR(" I3 Z", stepperZ4.homing_threshold());
#endif
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#endif // USE_SENSORLESS
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/**
* TMC stepping mode
*/
#if HAS_STEALTHCHOP
CONFIG_ECHO_HEADING("Driver stepping mode:");
#if AXIS_HAS_STEALTHCHOP(X)
const bool chop_x = stepperX.get_stealthChop_status();
#else
constexpr bool chop_x = false;
#endif
#if AXIS_HAS_STEALTHCHOP(Y)
const bool chop_y = stepperY.get_stealthChop_status();
#else
constexpr bool chop_y = false;
#endif
#if AXIS_HAS_STEALTHCHOP(Z)
const bool chop_z = stepperZ.get_stealthChop_status();
#else
constexpr bool chop_z = false;
#endif
if (chop_x || chop_y || chop_z) {
say_M569(forReplay);
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if (chop_x) SERIAL_ECHOPGM_P(SP_X_STR);
if (chop_y) SERIAL_ECHOPGM_P(SP_Y_STR);
if (chop_z) SERIAL_ECHOPGM_P(SP_Z_STR);
SERIAL_EOL();
}
#if AXIS_HAS_STEALTHCHOP(X2)
const bool chop_x2 = stepperX2.get_stealthChop_status();
#else
constexpr bool chop_x2 = false;
#endif
#if AXIS_HAS_STEALTHCHOP(Y2)
const bool chop_y2 = stepperY2.get_stealthChop_status();
#else
constexpr bool chop_y2 = false;
#endif
#if AXIS_HAS_STEALTHCHOP(Z2)
const bool chop_z2 = stepperZ2.get_stealthChop_status();
#else
constexpr bool chop_z2 = false;
#endif
if (chop_x2 || chop_y2 || chop_z2) {
say_M569(forReplay, PSTR("I1"));
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if (chop_x2) SERIAL_ECHOPGM_P(SP_X_STR);
if (chop_y2) SERIAL_ECHOPGM_P(SP_Y_STR);
if (chop_z2) SERIAL_ECHOPGM_P(SP_Z_STR);
SERIAL_EOL();
}
#if AXIS_HAS_STEALTHCHOP(Z3)
if (stepperZ3.get_stealthChop_status()) { say_M569(forReplay, PSTR("I2 Z"), true); }
#endif
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#if AXIS_HAS_STEALTHCHOP(Z4)
if (stepperZ4.get_stealthChop_status()) { say_M569(forReplay, PSTR("I3 Z"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E0)
if (stepperE0.get_stealthChop_status()) { say_M569(forReplay, PSTR("T0 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E1)
if (stepperE1.get_stealthChop_status()) { say_M569(forReplay, PSTR("T1 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E2)
if (stepperE2.get_stealthChop_status()) { say_M569(forReplay, PSTR("T2 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E3)
if (stepperE3.get_stealthChop_status()) { say_M569(forReplay, PSTR("T3 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E4)
if (stepperE4.get_stealthChop_status()) { say_M569(forReplay, PSTR("T4 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E5)
if (stepperE5.get_stealthChop_status()) { say_M569(forReplay, PSTR("T5 E"), true); }
#endif
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#if AXIS_HAS_STEALTHCHOP(E6)
if (stepperE6.get_stealthChop_status()) { say_M569(forReplay, PSTR("T6 E"), true); }
#endif
#if AXIS_HAS_STEALTHCHOP(E7)
if (stepperE7.get_stealthChop_status()) { say_M569(forReplay, PSTR("T7 E"), true); }
#endif
#endif // HAS_STEALTHCHOP
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#endif // HAS_TRINAMIC_CONFIG
/**
* Linear Advance
*/
#if ENABLED(LIN_ADVANCE)
CONFIG_ECHO_HEADING("Linear Advance:");
#if EXTRUDERS < 2
CONFIG_ECHO_START();
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SERIAL_ECHOLNPAIR(" M900 K", planner.extruder_advance_K[0]);
#else
LOOP_L_N(i, EXTRUDERS) {
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(" M900 T", int(i), " K", planner.extruder_advance_K[i]);
}
#endif
#endif
#if HAS_MOTOR_CURRENT_PWM
CONFIG_ECHO_HEADING("Stepper motor currents:");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M907 X"), stepper.motor_current_setting[0]
, SP_Z_STR, stepper.motor_current_setting[1]
, SP_E_STR, stepper.motor_current_setting[2]
);
#endif
/**
* Advanced Pause filament load & unload lengths
*/
#if ENABLED(ADVANCED_PAUSE_FEATURE)
CONFIG_ECHO_HEADING("Filament load/unload lengths:");
#if EXTRUDERS == 1
say_M603(forReplay);
SERIAL_ECHOLNPAIR("L", LINEAR_UNIT(fc_settings[0].load_length), " U", LINEAR_UNIT(fc_settings[0].unload_length));
#else
#define _ECHO_603(N) do{ say_M603(forReplay); SERIAL_ECHOLNPAIR("T" STRINGIFY(N) " L", LINEAR_UNIT(fc_settings[N].load_length), " U", LINEAR_UNIT(fc_settings[N].unload_length)); }while(0);
REPEAT(EXTRUDERS, _ECHO_603)
#endif
#endif
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#if EXTRUDERS > 1
CONFIG_ECHO_HEADING("Tool-changing:");
CONFIG_ECHO_START();
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M217_report(true);
#endif
#if ENABLED(BACKLASH_GCODE)
CONFIG_ECHO_HEADING("Backlash compensation:");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR_P(
PSTR(" M425 F"), backlash.get_correction()
, SP_X_STR, LINEAR_UNIT(backlash.distance_mm.x)
, SP_Y_STR, LINEAR_UNIT(backlash.distance_mm.y)
, SP_Z_STR, LINEAR_UNIT(backlash.distance_mm.z)
#ifdef BACKLASH_SMOOTHING_MM
, PSTR(" S"), LINEAR_UNIT(backlash.smoothing_mm)
#endif
);
#endif
#if HAS_FILAMENT_SENSOR
CONFIG_ECHO_HEADING("Filament runout sensor:");
CONFIG_ECHO_START();
SERIAL_ECHOLNPAIR(
" M412 S", int(runout.enabled)
#ifdef FILAMENT_RUNOUT_DISTANCE_MM
, " D", LINEAR_UNIT(runout.runout_distance())
#endif
);
#endif
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}
#endif // !DISABLE_M503
#pragma pack(pop)