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settings.c
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settings.c
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/*
settings.c - non-volatile storage configuration handling
Part of grblHAL
Copyright (c) 2017-2023 Terje Io
Copyright (c) 2011-2015 Sungeun K. Jeon
Copyright (c) 2009-2011 Simen Svale Skogsrud
Grbl 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.
Grbl 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 Grbl. If not, see <http://www.gnu.org/licenses/>.
*/
#include <math.h>
#include <string.h>
#include <stdint.h>
#include <stdbool.h>
#include <assert.h>
#include "hal.h"
#include "config.h"
#include "machine_limits.h"
#include "nvs_buffer.h"
#include "tool_change.h"
#include "state_machine.h"
#if ENABLE_BACKLASH_COMPENSATION
#include "motion_control.h"
#endif
#if ENABLE_SPINDLE_LINEARIZATION
#include <stdio.h>
#endif
settings_t settings;
const settings_restore_t settings_all = {
.defaults = SETTINGS_RESTORE_DEFAULTS,
.parameters = SETTINGS_RESTORE_PARAMETERS,
.startup_lines = SETTINGS_RESTORE_STARTUP_LINES,
.build_info = SETTINGS_RESTORE_BUILD_INFO,
.driver_parameters = SETTINGS_RESTORE_DRIVER_PARAMETERS
};
PROGMEM const settings_t defaults = {
.version = SETTINGS_VERSION,
.junction_deviation = DEFAULT_JUNCTION_DEVIATION,
.arc_tolerance = DEFAULT_ARC_TOLERANCE,
.g73_retract = DEFAULT_G73_RETRACT,
.report_interval = DEFAULT_AUTOREPORT_INTERVAL,
.timezone = DEFAULT_TIMEZONE_OFFSET,
.planner_buffer_blocks = DEFAULT_PLANNER_BUFFER_BLOCKS,
.flags.legacy_rt_commands = DEFAULT_LEGACY_RTCOMMANDS,
.flags.report_inches = DEFAULT_REPORT_INCHES,
.flags.sleep_enable = DEFAULT_SLEEP_ENABLE,
.flags.compatibility_level = COMPATIBILITY_LEVEL,
#if DEFAULT_DISABLE_G92_PERSISTENCE
.flags.g92_is_volatile = 1,
#else
.flags.g92_is_volatile = 0,
#endif
#if DEFAULT_LASER_MODE
.mode = Mode_Laser,
.flags.disable_laser_during_hold = DEFAULT_ENABLE_LASER_DURING_HOLD,
#else
.flags.disable_laser_during_hold = 0,
#if DEFAULT_LATHE_MODE
.mode = Mode_Lathe,
#endif
#endif
.flags.restore_after_feed_hold = DEFAULT_RESTORE_AFTER_FEED_HOLD,
.flags.force_initialization_alarm = DEFAULT_FORCE_INITIALIZATION_ALARM,
.flags.restore_overrides = DEFAULT_RESET_OVERRIDES,
.flags.no_restore_position_after_M6 = DEFAULT_TOOLCHANGE_NO_RESTORE_POSITION,
.probe.disable_probe_pullup = DEFAULT_PROBE_SIGNAL_DISABLE_PULLUP,
.probe.allow_feed_override = DEFAULT_ALLOW_FEED_OVERRIDE_DURING_PROBE_CYCLES,
.probe.invert_probe_pin = DEFAULT_PROBE_SIGNAL_INVERT,
.steppers.pulse_microseconds = DEFAULT_STEP_PULSE_MICROSECONDS,
.steppers.pulse_delay_microseconds = DEFAULT_STEP_PULSE_DELAY,
.steppers.idle_lock_time = DEFAULT_STEPPER_IDLE_LOCK_TIME,
.steppers.step_invert.mask = DEFAULT_STEP_SIGNALS_INVERT_MASK,
.steppers.dir_invert.mask = DEFAULT_DIR_SIGNALS_INVERT_MASK,
.steppers.ganged_dir_invert.mask = DEFAULT_GANGED_DIRECTION_INVERT_MASK,
#if COMPATIBILITY_LEVEL <= 2
.steppers.enable_invert.mask = DEFAULT_ENABLE_SIGNALS_INVERT_MASK,
#elif DEFAULT_ENABLE_SIGNALS_INVERT_MASK
.steppers.enable_invert.mask = 0,
#else
.steppers.enable_invert.mask = AXES_BITMASK,
#endif
.steppers.deenergize.mask = DEFAULT_STEPPER_DEENERGIZE_MASK,
#if N_AXIS > 3
.steppers.is_rotational.mask = (DEFAULT_AXIS_ROTATIONAL_MASK & AXES_BITMASK) & 0b11111000,
#endif
#if DEFAULT_HOMING_ENABLE
.homing.flags.enabled = DEFAULT_HOMING_ENABLE,
.homing.flags.init_lock = DEFAULT_HOMING_INIT_LOCK,
.homing.flags.single_axis_commands = DEFAULT_HOMING_SINGLE_AXIS_COMMANDS,
.homing.flags.force_set_origin = DEFAULT_HOMING_FORCE_SET_ORIGIN,
.homing.flags.manual = DEFAULT_HOMING_ALLOW_MANUAL,
.homing.flags.override_locks = DEFAULT_HOMING_OVERRIDE_LOCKS,
.homing.flags.keep_on_reset = DEFAULT_HOMING_KEEP_STATUS_ON_RESET,
#else
.homing.flags.value = 0,
#endif
.homing.dir_mask.value = DEFAULT_HOMING_DIR_MASK,
.homing.feed_rate = DEFAULT_HOMING_FEED_RATE,
.homing.seek_rate = DEFAULT_HOMING_SEEK_RATE,
.homing.debounce_delay = DEFAULT_HOMING_DEBOUNCE_DELAY,
.homing.pulloff = DEFAULT_HOMING_PULLOFF,
.homing.locate_cycles = DEFAULT_N_HOMING_LOCATE_CYCLE,
.homing.cycle[0].mask = DEFAULT_HOMING_CYCLE_0,
.homing.cycle[1].mask = DEFAULT_HOMING_CYCLE_1,
.homing.cycle[2].mask = DEFAULT_HOMING_CYCLE_2,
.homing.dual_axis.fail_length_percent = DEFAULT_DUAL_AXIS_HOMING_FAIL_AXIS_LENGTH_PERCENT,
.homing.dual_axis.fail_distance_min = DEFAULT_DUAL_AXIS_HOMING_FAIL_DISTANCE_MIN,
.homing.dual_axis.fail_distance_max = DEFAULT_DUAL_AXIS_HOMING_FAIL_DISTANCE_MAX,
.status_report.machine_position = DEFAULT_REPORT_MACHINE_POSITION,
.status_report.buffer_state = DEFAULT_REPORT_BUFFER_STATE,
.status_report.line_numbers = DEFAULT_REPORT_LINE_NUMBERS,
.status_report.feed_speed = DEFAULT_REPORT_CURRENT_FEED_SPEED,
.status_report.pin_state = DEFAULT_REPORT_PIN_STATE,
.status_report.work_coord_offset = DEFAULT_REPORT_WORK_COORD_OFFSET,
.status_report.overrides = DEFAULT_REPORT_OVERRIDES,
.status_report.probe_coordinates = DEFAULT_REPORT_PROBE_COORDINATES,
.status_report.sync_on_wco_change = DEFAULT_REPORT_SYNC_ON_WCO_CHANGE,
.status_report.parser_state = DEFAULT_REPORT_PARSER_STATE,
.status_report.alarm_substate = DEFAULT_REPORT_ALARM_SUBSTATE,
.status_report.run_substate = DEFAULT_REPORT_RUN_SUBSTATE,
.limits.flags.hard_enabled = DEFAULT_HARD_LIMIT_ENABLE,
.limits.flags.soft_enabled = DEFAULT_SOFT_LIMIT_ENABLE,
.limits.flags.jog_soft_limited = DEFAULT_JOG_LIMIT_ENABLE,
.limits.flags.check_at_init = DEFAULT_CHECK_LIMITS_AT_INIT,
.limits.flags.two_switches = DEFAULT_LIMITS_TWO_SWITCHES_ON_AXES,
.limits.invert.mask = DEFAULT_LIMIT_SIGNALS_INVERT_MASK,
.limits.disable_pullup.mask = DEFAULT_LIMIT_SIGNALS_PULLUP_DISABLE_MASK,
.control_invert.mask = DEFAULT_CONTROL_SIGNALS_INVERT_MASK,
.control_disable_pullup.mask = DEFAULT_DISABLE_CONTROL_PINS_PULL_UP_MASK,
.spindle.rpm_max = DEFAULT_SPINDLE_RPM_MAX,
.spindle.rpm_min = DEFAULT_SPINDLE_RPM_MIN,
.spindle.flags.pwm_disable = false,
.spindle.flags.enable_rpm_controlled = DEFAULT_SPINDLE_ENABLE_OFF_WITH_ZERO_SPEED,
.spindle.invert.on = DEFAULT_INVERT_SPINDLE_ENABLE_PIN,
.spindle.invert.ccw = DEFAULT_INVERT_SPINDLE_CCW_PIN,
.spindle.invert.pwm = DEFAULT_INVERT_SPINDLE_PWM_PIN,
.spindle.pwm_freq = DEFAULT_SPINDLE_PWM_FREQ,
.spindle.pwm_off_value = DEFAULT_SPINDLE_PWM_OFF_VALUE,
.spindle.pwm_min_value = DEFAULT_SPINDLE_PWM_MIN_VALUE,
.spindle.pwm_max_value = DEFAULT_SPINDLE_PWM_MAX_VALUE,
.spindle.at_speed_tolerance = DEFAULT_SPINDLE_AT_SPEED_TOLERANCE,
.spindle.ppr = DEFAULT_SPINDLE_PPR,
.spindle.pid.p_gain = DEFAULT_SPINDLE_P_GAIN,
.spindle.pid.i_gain = DEFAULT_SPINDLE_I_GAIN,
.spindle.pid.d_gain = DEFAULT_SPINDLE_D_GAIN,
.spindle.pid.i_max_error = DEFAULT_SPINDLE_I_MAX,
#if ENABLE_SPINDLE_LINEARIZATION
#if SPINDLE_NPWM_PIECES > 0
.spindle.pwm_piece[0] = { .rpm = DEFAULT_RPM_POINT01, .start = DEFAULT_RPM_LINE_A1, .end = DEFAULT_RPM_LINE_B1 },
#endif
#if SPINDLE_NPWM_PIECES > 1
.spindle.pwm_piece[1] = { .rpm = DEFAULT_RPM_POINT12, .start = DEFAULT_RPM_LINE_A2, .end = DEFAULT_RPM_LINE_B2 },
#endif
#if SPINDLE_NPWM_PIECES > 2
.spindle.pwm_piece[2] = { .rpm = DEFAULT_RPM_POINT23, .start = DEFAULT_RPM_LINE_A3, .end = DEFAULT_RPM_LINE_B3 },
#endif
#if SPINDLE_NPWM_PIECES > 3
.spindle.pwm_piece[3] = { .rpm = DEFAULT_RPM_POINT34, .start = DEFAULT_RPM_LINE_A4, .end = DEFAULT_RPM_LINE_B4 },
#endif
#else
#if SPINDLE_NPWM_PIECES > 0
.spindle.pwm_piece[0] = { .rpm = NAN, .start = 0.0f, .end = 0.0f },
#endif
#if SPINDLE_NPWM_PIECES > 1
.spindle.pwm_piece[1] = { .rpm = NAN, .start = 0.0f, .end = 0.0f },
#endif
#if SPINDLE_NPWM_PIECES > 2
.spindle.pwm_piece[2] = { .rpm = NAN, .start = 0.0f, .end = 0.0f },
#endif
#if SPINDLE_NPWM_PIECES > 3
.spindle.pwm_piece[3] = { .rpm = NAN, .start = 0.0f, .end = 0.0f },
#endif
#endif
.coolant_invert.flood = DEFAULT_INVERT_COOLANT_FLOOD_PIN,
.coolant_invert.mist = DEFAULT_INVERT_COOLANT_MIST_PIN,
.axis[X_AXIS].steps_per_mm = DEFAULT_X_STEPS_PER_MM,
.axis[X_AXIS].max_rate = DEFAULT_X_MAX_RATE,
.axis[X_AXIS].acceleration = (DEFAULT_X_ACCELERATION * 60.0f * 60.0f),
.axis[X_AXIS].max_travel = (-DEFAULT_X_MAX_TRAVEL),
.axis[X_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[X_AXIS].backlash = 0.0f,
#endif
.axis[Y_AXIS].steps_per_mm = DEFAULT_Y_STEPS_PER_MM,
.axis[Y_AXIS].max_rate = DEFAULT_Y_MAX_RATE,
.axis[Y_AXIS].max_travel = (-DEFAULT_Y_MAX_TRAVEL),
.axis[Y_AXIS].acceleration = (DEFAULT_Y_ACCELERATION * 60.0f * 60.0f),
.axis[Y_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[Y_AXIS].backlash = 0.0f,
#endif
.axis[Z_AXIS].steps_per_mm = DEFAULT_Z_STEPS_PER_MM,
.axis[Z_AXIS].max_rate = DEFAULT_Z_MAX_RATE,
.axis[Z_AXIS].acceleration = (DEFAULT_Z_ACCELERATION * 60.0f * 60.0f),
.axis[Z_AXIS].max_travel = (-DEFAULT_Z_MAX_TRAVEL),
.axis[Z_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[Z_AXIS].backlash = 0.0f,
#endif
#ifdef A_AXIS
.axis[A_AXIS].steps_per_mm = DEFAULT_A_STEPS_PER_MM,
.axis[A_AXIS].max_rate = DEFAULT_A_MAX_RATE,
.axis[A_AXIS].acceleration =(DEFAULT_A_ACCELERATION * 60.0f * 60.0f),
.axis[A_AXIS].max_travel = (-DEFAULT_A_MAX_TRAVEL),
.axis[A_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[A_AXIS].backlash = 0.0f,
#endif
.homing.cycle[3].mask = DEFAULT_HOMING_CYCLE_3,
#endif
#ifdef B_AXIS
.axis[B_AXIS].steps_per_mm = DEFAULT_B_STEPS_PER_MM,
.axis[B_AXIS].max_rate = DEFAULT_B_MAX_RATE,
.axis[B_AXIS].acceleration = (DEFAULT_B_ACCELERATION * 60.0f * 60.0f),
.axis[B_AXIS].max_travel = (-DEFAULT_B_MAX_TRAVEL),
.axis[B_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[B_AXIS].backlash = 0.0f,
#endif
.homing.cycle[4].mask = DEFAULT_HOMING_CYCLE_4,
#endif
#ifdef C_AXIS
.axis[C_AXIS].steps_per_mm = DEFAULT_C_STEPS_PER_MM,
.axis[C_AXIS].acceleration = (DEFAULT_C_ACCELERATION * 60.0f * 60.0f),
.axis[C_AXIS].max_rate = DEFAULT_C_MAX_RATE,
.axis[C_AXIS].max_travel = (-DEFAULT_C_MAX_TRAVEL),
.axis[C_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[C_AXIS].backlash = 0.0f,
#endif
.homing.cycle[5].mask = DEFAULT_HOMING_CYCLE_5,
#endif
#ifdef U_AXIS
.axis[U_AXIS].steps_per_mm = DEFAULT_U_STEPS_PER_MM,
.axis[U_AXIS].acceleration = (DEFAULT_U_ACCELERATION * 60.0f * 60.0f),
.axis[U_AXIS].max_rate = DEFAULT_U_MAX_RATE,
.axis[U_AXIS].max_travel = (-DEFAULT_U_MAX_TRAVEL),
.axis[U_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[U_AXIS].backlash = 0.0f,
#endif
#endif
#ifdef V_AXIS
.axis[V_AXIS].steps_per_mm = DEFAULT_V_STEPS_PER_MM,
.axis[V_AXIS].acceleration = (DEFAULT_V_ACCELERATION * 60.0f * 60.0f),
.axis[V_AXIS].max_rate = DEFAULT_V_MAX_RATE,
.axis[V_AXIS].max_travel = (-DEFAULT_V_MAX_TRAVEL),
.axis[V_AXIS].dual_axis_offset = 0.0f,
#if ENABLE_BACKLASH_COMPENSATION
.axis[V_AXIS].backlash = 0.0f,
#endif
#endif
.tool_change.mode = (toolchange_mode_t)DEFAULT_TOOLCHANGE_MODE,
.tool_change.probing_distance = DEFAULT_TOOLCHANGE_PROBING_DISTANCE,
.tool_change.feed_rate = DEFAULT_TOOLCHANGE_FEED_RATE,
.tool_change.seek_rate = DEFAULT_TOOLCHANGE_SEEK_RATE,
.tool_change.pulloff_rate = DEFAULT_TOOLCHANGE_PULLOFF_RATE,
.parking.flags.enabled = DEFAULT_PARKING_ENABLE,
.parking.flags.deactivate_upon_init = DEFAULT_DEACTIVATE_PARKING_UPON_INIT,
.parking.flags.enable_override_control= DEFAULT_ENABLE_PARKING_OVERRIDE_CONTROL,
.parking.axis = DEFAULT_PARKING_AXIS,
.parking.target = DEFAULT_PARKING_TARGET,
.parking.rate = DEFAULT_PARKING_RATE,
.parking.pullout_rate = DEFAULT_PARKING_PULLOUT_RATE,
.parking.pullout_increment = DEFAULT_PARKING_PULLOUT_INCREMENT,
.safety_door.flags.ignore_when_idle = DEFAULT_DOOR_IGNORE_WHEN_IDLE,
.safety_door.flags.keep_coolant_on = DEFAULT_DOOR_KEEP_COOLANT_ON,
.safety_door.spindle_on_delay = DEFAULT_SAFETY_DOOR_SPINDLE_DELAY,
.safety_door.coolant_on_delay = DEFAULT_SAFETY_DOOR_COOLANT_DELAY
};
PROGMEM static const setting_group_detail_t setting_group_detail [] = {
{ Group_Root, Group_Root, "Root"},
{ Group_Root, Group_General, "General"},
{ Group_Root, Group_ControlSignals, "Control signals"},
{ Group_Root, Group_Limits, "Limits"},
{ Group_Limits, Group_Limits_DualAxis, "Dual axis"},
{ Group_Root, Group_Coolant, "Coolant"},
{ Group_Root, Group_Spindle, "Spindle"},
{ Group_Spindle, Group_Spindle_Sync, "Spindle sync"},
{ Group_Root, Group_Toolchange, "Tool change"},
{ Group_Root, Group_Homing, "Homing"},
{ Group_Root, Group_Probing, "Probing"},
{ Group_Root, Group_SafetyDoor, "Safety door"},
{ Group_Root, Group_Jogging, "Jogging"},
{ Group_Root, Group_Stepper, "Stepper"},
{ Group_Root, Group_MotorDriver, "Stepper driver"},
{ Group_Root, Group_Axis, "Axis"},
{ Group_Axis, Group_XAxis, "X-axis"},
{ Group_Axis, Group_YAxis, "Y-axis"},
{ Group_Axis, Group_ZAxis, "Z-axis"},
#if !AXIS_REMAP_ABC2UVW
#ifdef A_AXIS
{ Group_Axis, Group_AAxis, "A-axis"},
#endif
#ifdef B_AXIS
{ Group_Axis, Group_BAxis, "B-axis"},
#endif
#ifdef C_AXIS
{ Group_Axis, Group_CAxis, "C-axis"},
#endif
#ifdef U_AXIS
{ Group_Axis, Group_UAxis, "U-axis"},
#endif
#ifdef V_AXIS
{ Group_Axis, Group_VAxis, "V-axis"}
#endif
#else
#ifdef A_AXIS
{ Group_Axis, Group_AAxis, "U-axis"},
#endif
#ifdef B_AXIS
{ Group_Axis, Group_BAxis, "V-axis"},
#endif
#ifdef C_AXIS
{ Group_Axis, Group_CAxis, "W-axis"},
#endif
#endif
};
static status_code_t set_probe_invert (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_report_mask (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_report_inches (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_control_invert (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_spindle_invert (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_pwm_mode (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_pwm_options (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_spindle_type (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_control_disable_pullup (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_probe_disable_pullup (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_soft_limits_enable (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_hard_limits_enable (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_jog_soft_limited (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_homing_enable (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_enable_legacy_rt_commands (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_homing_cycle (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_mode (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_sleep_enable (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_hold_actions (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_force_initialization_alarm (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_probe_allow_feed_override (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_tool_change_mode (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_tool_change_probing_distance (setting_id_t id, float value);
static status_code_t set_tool_restore_pos (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_ganged_dir_invert (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_stepper_deenergize_mask (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_report_interval (setting_id_t setting, uint_fast16_t int_value);
#ifndef NO_SAFETY_DOOR_SUPPORT
static status_code_t set_parking_enable (setting_id_t id, uint_fast16_t int_value);
static status_code_t set_restore_overrides (setting_id_t id, uint_fast16_t int_value);
#endif
#if ENABLE_SPINDLE_LINEARIZATION
static status_code_t set_linear_piece (setting_id_t id, char *svalue);
static char *get_linear_piece (setting_id_t id);
#endif
#if N_AXIS > 3
static status_code_t set_rotational_axes (setting_id_t id, uint_fast16_t int_value);
#endif
#if COMPATIBILITY_LEVEL > 2
static status_code_t set_enable_invert_mask (setting_id_t id, uint_fast16_t int_value);
#endif
#if COMPATIBILITY_LEVEL > 1
static status_code_t set_limits_invert_mask (setting_id_t id, uint_fast16_t int_value);
#endif
static status_code_t set_axis_setting (setting_id_t setting, float value);
#if COMPATIBILITY_LEVEL <= 1
static status_code_t set_g92_disable_persistence (setting_id_t id, uint_fast16_t int_value);
#endif
static float get_float (setting_id_t setting);
static uint32_t get_int (setting_id_t id);
static bool is_setting_available (const setting_detail_t *setting);
static bool is_group_available (const setting_detail_t *setting);
static bool machine_mode_changed = false;
static char control_signals[] = "Reset,Feed hold,Cycle start,Safety door,Block delete,Optional stop,EStop,Probe connected,Motor fault";
static char spindle_signals[] = "Spindle enable,Spindle direction,PWM";
static char coolant_signals[] = "Flood,Mist";
static char ganged_axes[] = "X-Axis,Y-Axis,Z-Axis";
static char spindle_types[100] = "";
static char axis_dist[4] = "mm";
static char axis_rate[8] = "mm/min";
static char axis_accel[10] = "mm/sec^2";
static char axis_steps[9] = "step/mm";
PROGMEM static const setting_detail_t setting_detail[] = {
{ Setting_PulseMicroseconds, Group_Stepper, "Step pulse time", "microseconds", Format_Decimal, "#0.0", "2.0", NULL, Setting_IsLegacy, &settings.steppers.pulse_microseconds, NULL, NULL },
{ Setting_StepperIdleLockTime, Group_Stepper, "Step idle delay", "milliseconds", Format_Int16, "####0", NULL, "65535", Setting_IsLegacy, &settings.steppers.idle_lock_time, NULL, NULL },
{ Setting_StepInvertMask, Group_Stepper, "Step pulse invert", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsLegacy, &settings.steppers.step_invert.mask, NULL, NULL },
{ Setting_DirInvertMask, Group_Stepper, "Step direction invert", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsLegacy, &settings.steppers.dir_invert.mask, NULL, NULL },
#if COMPATIBILITY_LEVEL <= 2
{ Setting_InvertStepperEnable, Group_Stepper, "Invert stepper enable pin(s)", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsLegacy, &settings.steppers.enable_invert.mask, NULL, NULL },
#else
{ Setting_InvertStepperEnable, Group_Stepper, "Invert stepper enable pins", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_enable_invert_mask, get_int, NULL },
#endif
#if COMPATIBILITY_LEVEL <= 1
{ Setting_LimitPinsInvertMask, Group_Limits, "Invert limit pins", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsLegacy, &settings.limits.invert.mask, NULL, NULL },
#else
{ Setting_LimitPinsInvertMask, Group_Limits, "Invert limit pins", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_limits_invert_mask, get_int, NULL },
#endif
{ Setting_InvertProbePin, Group_Probing, "Invert probe pin", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_probe_invert, get_int, is_setting_available },
{ Setting_SpindlePWMBehaviour, Group_Spindle, "Deprecated", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_pwm_mode, get_int, is_setting_available },
{ Setting_GangedDirInvertMask, Group_Stepper, "Ganged axes direction invert", NULL, Format_Bitfield, ganged_axes, NULL, NULL, Setting_IsExtendedFn, set_ganged_dir_invert, get_int, is_setting_available },
{ Setting_SpindlePWMOptions, Group_Spindle, "PWM Spindle", NULL, Format_XBitfield, "Enable,RPM controls spindle enable signal", NULL, NULL, Setting_IsExtendedFn, set_pwm_options, get_int, is_setting_available },
#if COMPATIBILITY_LEVEL <= 1
{ Setting_StatusReportMask, Group_General, "Status report options", NULL, Format_Bitfield, "Position in machine coordinate,Buffer state,Line numbers,Feed & speed,Pin state,Work coordinate offset,Overrides,Probe coordinates,Buffer sync on WCO change,Parser state,Alarm substatus,Run substatus", NULL, NULL, Setting_IsExtendedFn, set_report_mask, get_int, NULL },
#else
{ Setting_StatusReportMask, Group_General, "Status report options", NULL, Format_Bitfield, "Position in machine coordinate,Buffer state", NULL, NULL, Setting_IsLegacyFn, set_report_mask, get_int, NULL },
#endif
{ Setting_JunctionDeviation, Group_General, "Junction deviation", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacy, &settings.junction_deviation, NULL, NULL },
{ Setting_ArcTolerance, Group_General, "Arc tolerance", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacy, &settings.arc_tolerance, NULL, NULL },
{ Setting_ReportInches, Group_General, "Report in inches", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_report_inches, get_int, NULL },
{ Setting_ControlInvertMask, Group_ControlSignals, "Invert control pins", NULL, Format_Bitfield, control_signals, NULL, NULL, Setting_IsExpandedFn, set_control_invert, get_int, NULL },
{ Setting_CoolantInvertMask, Group_Coolant, "Invert coolant pins", NULL, Format_Bitfield, coolant_signals, NULL, NULL, Setting_IsExtended, &settings.coolant_invert.mask, NULL, NULL },
{ Setting_SpindleInvertMask, Group_Spindle, "Invert spindle signals", NULL, Format_Bitfield, spindle_signals, NULL, NULL, Setting_IsExtendedFn, set_spindle_invert, get_int, NULL, { .reboot_required = On } },
{ Setting_ControlPullUpDisableMask, Group_ControlSignals, "Pullup disable control pins", NULL, Format_Bitfield, control_signals, NULL, NULL, Setting_IsExtendedFn, set_control_disable_pullup, get_int, NULL },
{ Setting_LimitPullUpDisableMask, Group_Limits, "Pullup disable limit pins", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtended, &settings.limits.disable_pullup.mask, NULL, NULL },
{ Setting_ProbePullUpDisable, Group_Probing, "Pullup disable probe pin", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_probe_disable_pullup, get_int, is_setting_available },
{ Setting_SoftLimitsEnable, Group_Limits, "Soft limits enable", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_soft_limits_enable, get_int, NULL },
#if COMPATIBILITY_LEVEL <= 1
{ Setting_HardLimitsEnable, Group_Limits, "Hard limits enable", NULL, Format_XBitfield, "Enable,Strict mode", NULL, NULL, Setting_IsExpandedFn, set_hard_limits_enable, get_int, NULL },
#else
{ Setting_HardLimitsEnable, Group_Limits, "Hard limits enable", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_hard_limits_enable, get_int, NULL },
#endif
#if COMPATIBILITY_LEVEL <= 1
{ Setting_HomingEnable, Group_Homing, "Homing cycle", NULL, Format_XBitfield, "Enable,Enable single axis commands,Homing on startup required,Set machine origin to 0,Two switches shares one input pin,Allow manual,Override locks,Keep homed status on reset", NULL, NULL, Setting_IsExpandedFn, set_homing_enable, get_int, NULL },
#else
{ Setting_HomingEnable, Group_Homing, "Homing cycle enable", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsLegacyFn, set_homing_enable, get_int, NULL },
#endif
{ Setting_HomingDirMask, Group_Homing, "Homing direction invert", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsLegacy, &settings.homing.dir_mask.value, NULL, NULL },
{ Setting_HomingFeedRate, Group_Homing, "Homing locate feed rate", "mm/min", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsLegacy, &settings.homing.feed_rate, NULL, NULL },
{ Setting_HomingSeekRate, Group_Homing, "Homing search seek rate", "mm/min", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsLegacy, &settings.homing.seek_rate, NULL, NULL },
{ Setting_HomingDebounceDelay, Group_Homing, "Homing switch debounce delay", "milliseconds", Format_Int16, "##0", NULL, NULL, Setting_IsLegacy, &settings.homing.debounce_delay, NULL, NULL },
{ Setting_HomingPulloff, Group_Homing, "Homing switch pull-off distance", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacy, &settings.homing.pulloff, NULL, NULL },
{ Setting_G73Retract, Group_General, "G73 Retract distance", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsExtended, &settings.g73_retract, NULL, NULL },
{ Setting_PulseDelayMicroseconds, Group_Stepper, "Pulse delay", "microseconds", Format_Decimal, "#0.0", NULL, "10", Setting_IsExtended, &settings.steppers.pulse_delay_microseconds, NULL, NULL },
{ Setting_RpmMax, Group_Spindle, "Maximum spindle speed", "RPM", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacy, &settings.spindle.rpm_max, NULL, is_setting_available },
{ Setting_RpmMin, Group_Spindle, "Minimum spindle speed", "RPM", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacy, &settings.spindle.rpm_min, NULL, is_setting_available },
{ Setting_Mode, Group_General, "Mode of operation", NULL, Format_RadioButtons, "Normal,Laser mode,Lathe mode", NULL, NULL, Setting_IsLegacyFn, set_mode, get_int, NULL },
{ Setting_PWMFreq, Group_Spindle, "Spindle PWM frequency", "Hz", Format_Decimal, "#####0", NULL, NULL, Setting_IsExtended, &settings.spindle.pwm_freq, NULL, is_setting_available },
{ Setting_PWMOffValue, Group_Spindle, "Spindle PWM off value", "percent", Format_Decimal, "##0.0", NULL, "100", Setting_IsExtended, &settings.spindle.pwm_off_value, NULL, is_setting_available },
{ Setting_PWMMinValue, Group_Spindle, "Spindle PWM min value", "percent", Format_Decimal, "##0.0", NULL, "100", Setting_IsExtended, &settings.spindle.pwm_min_value, NULL, is_setting_available },
{ Setting_PWMMaxValue, Group_Spindle, "Spindle PWM max value", "percent", Format_Decimal, "##0.0", NULL, "100", Setting_IsExtended, &settings.spindle.pwm_max_value, NULL, is_setting_available },
{ Setting_StepperDeenergizeMask, Group_Stepper, "Steppers deenergize", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_stepper_deenergize_mask, get_int, NULL },
{ Setting_SpindlePPR, Group_Spindle, "Spindle pulses per revolution (PPR)", NULL, Format_Int16, "###0", NULL, NULL, Setting_IsExtended, &settings.spindle.ppr, NULL, is_setting_available, { .reboot_required = On } },
{ Setting_EnableLegacyRTCommands, Group_General, "Enable legacy RT commands", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_enable_legacy_rt_commands, get_int, NULL },
{ Setting_JogSoftLimited, Group_Jogging, "Limit jog commands", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_jog_soft_limited, get_int, NULL },
#ifndef NO_SAFETY_DOOR_SUPPORT
{ Setting_ParkingEnable, Group_SafetyDoor, "Parking cycle", NULL, Format_XBitfield, "Enable,Enable parking override control,Deactivate upon init", NULL, NULL, Setting_IsExtendedFn, set_parking_enable, get_int, is_setting_available },
{ Setting_ParkingAxis, Group_SafetyDoor, "Parking axis", NULL, Format_RadioButtons, "X,Y,Z", NULL, NULL, Setting_IsExtended, &settings.parking.axis, NULL, is_setting_available },
#endif
{ Setting_HomingLocateCycles, Group_Homing, "Homing passes", NULL, Format_Int8, "##0", "1", "128", Setting_IsExtended, &settings.homing.locate_cycles, NULL, NULL },
{ Setting_HomingCycle_1, Group_Homing, "Axes homing, first pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
{ Setting_HomingCycle_2, Group_Homing, "Axes homing, second pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
{ Setting_HomingCycle_3, Group_Homing, "Axes homing, third pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
#ifdef A_AXIS
{ Setting_HomingCycle_4, Group_Homing, "Axes homing, fourth pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
#endif
#ifdef B_AXIS
{ Setting_HomingCycle_5, Group_Homing, "Axes homing, fifth pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
#endif
#ifdef C_AXIS
{ Setting_HomingCycle_6, Group_Homing, "Axes homing, sixth pass", NULL, Format_AxisMask, NULL, NULL, NULL, Setting_IsExtendedFn, set_homing_cycle, get_int, NULL },
#endif
#ifndef NO_SAFETY_DOOR_SUPPORT
{ Setting_ParkingPulloutIncrement, Group_SafetyDoor, "Parking pull-out distance", "mm", Format_Decimal, "###0.0", NULL, NULL, Setting_IsExtended, &settings.parking.pullout_increment, NULL, is_setting_available },
{ Setting_ParkingPulloutRate, Group_SafetyDoor, "Parking pull-out rate", "mm/min", Format_Decimal, "###0.0", NULL, NULL, Setting_IsExtended, &settings.parking.pullout_rate, NULL, is_setting_available },
{ Setting_ParkingTarget, Group_SafetyDoor, "Parking target", "mm", Format_Decimal, "-###0.0", "-100000", NULL, Setting_IsExtended, &settings.parking.target, NULL, is_setting_available },
{ Setting_ParkingFastRate, Group_SafetyDoor, "Parking fast rate", "mm/min", Format_Decimal, "###0.0", NULL, NULL, Setting_IsExtended, &settings.parking.rate, NULL, is_setting_available },
{ Setting_RestoreOverrides, Group_General, "Restore overrides", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_restore_overrides, get_int, is_setting_available },
{ Setting_DoorOptions, Group_SafetyDoor, "Safety door options", NULL, Format_Bitfield, "Ignore when idle,Keep coolant state on open", NULL, NULL, Setting_IsExtended, &settings.safety_door.flags.value, NULL, is_setting_available },
#endif
{ Setting_SleepEnable, Group_General, "Sleep enable", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_sleep_enable, get_int, NULL },
{ Setting_HoldActions, Group_General, "Feed hold actions", NULL, Format_Bitfield, "Disable laser during hold,Restore spindle and coolant state on resume", NULL, NULL, Setting_IsExtendedFn, set_hold_actions, get_int, NULL },
{ Setting_ForceInitAlarm, Group_General, "Force init alarm", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_force_initialization_alarm, get_int, NULL },
{ Setting_ProbingFeedOverride, Group_Probing, "Probing feed override", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_probe_allow_feed_override, get_int, is_setting_available },
#if ENABLE_SPINDLE_LINEARIZATION
{ Setting_LinearSpindlePiece1, Group_Spindle, "Spindle linearisation, 1st point", NULL, Format_String, "x(39)", NULL, "39", Setting_IsExtendedFn, set_linear_piece, get_linear_piece, NULL },
#if SPINDLE_NPWM_PIECES > 1
{ Setting_LinearSpindlePiece2, Group_Spindle, "Spindle linearisation, 2nd point", NULL, Format_String, "x(39)", NULL, "39", Setting_IsExtendedFn, set_linear_piece, get_linear_piece, NULL },
#endif
#if SPINDLE_NPWM_PIECES > 2
{ Setting_LinearSpindlePiece3, Group_Spindle, "Spindle linearisation, 3rd point", NULL, Format_String, "x(39)", NULL, "39", Setting_IsExtendedFn, set_linear_piece, get_linear_piece, NULL },
#endif
#if SPINDLE_NPWM_PIECES > 3
{ Setting_LinearSpindlePiece4, Group_Spindle, "Spindle linearisation, 4th point", NULL, Format_String, "x(39)", NULL, "39", Setting_IsExtendedFn, set_linear_piece, get_linear_piece, NULL },
#endif
#endif
{ Setting_SpindlePGain, Group_Spindle_ClosedLoop, "Spindle P-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.spindle.pid.p_gain, NULL, is_group_available },
{ Setting_SpindleIGain, Group_Spindle_ClosedLoop, "Spindle I-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.spindle.pid.i_gain, NULL, is_group_available },
{ Setting_SpindleDGain, Group_Spindle_ClosedLoop, "Spindle D-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.spindle.pid.d_gain, NULL, is_group_available },
{ Setting_SpindleMaxError, Group_Spindle_ClosedLoop, "Spindle PID max error", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.spindle.pid.max_error, NULL, is_group_available },
{ Setting_SpindleIMaxError, Group_Spindle_ClosedLoop, "Spindle PID max I error", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.spindle.pid.i_max_error, NULL, is_group_available },
{ Setting_PositionPGain, Group_Spindle_Sync, "Spindle sync P-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.position.pid.p_gain, NULL, is_group_available },
{ Setting_PositionIGain, Group_Spindle_Sync, "Spindle sync I-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.position.pid.i_gain, NULL, is_group_available },
{ Setting_PositionDGain, Group_Spindle_Sync, "Spindle sync D-gain", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.position.pid.d_gain, NULL, is_group_available },
{ Setting_PositionIMaxError, Group_Spindle_Sync, "Spindle sync PID max I error", NULL, Format_Decimal, "###0.000", NULL, NULL, Setting_IsExtended, &settings.position.pid.i_max_error, NULL, is_group_available },
{ Setting_AxisStepsPerMM, Group_Axis0, "?-axis travel resolution", axis_steps, Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacyFn, set_axis_setting, get_float, NULL },
{ Setting_AxisMaxRate, Group_Axis0, "?-axis maximum rate", axis_rate, Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacyFn, set_axis_setting, get_float, NULL },
{ Setting_AxisAcceleration, Group_Axis0, "?-axis acceleration", axis_accel, Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacyFn, set_axis_setting, get_float, NULL },
{ Setting_AxisMaxTravel, Group_Axis0, "?-axis maximum travel", axis_dist, Format_Decimal, "#####0.000", NULL, NULL, Setting_IsLegacyFn, set_axis_setting, get_float, NULL },
#if ENABLE_BACKLASH_COMPENSATION
{ Setting_AxisBacklash, Group_Axis0, "?-axis backlash compensation", axis_dist, Format_Decimal, "#####0.000", NULL, NULL, Setting_IsExtendedFn, set_axis_setting, get_float, NULL },
#endif
{ Setting_AxisAutoSquareOffset, Group_Axis0, "?-axis dual axis offset", "mm", Format_Decimal, "-0.000", "-10", "10", Setting_IsExtendedFn, set_axis_setting, get_float, is_setting_available },
{ Setting_SpindleAtSpeedTolerance, Group_Spindle, "Spindle at speed tolerance", "percent", Format_Decimal, "##0.0", NULL, NULL, Setting_IsExtended, &settings.spindle.at_speed_tolerance, NULL, is_setting_available },
{ Setting_ToolChangeMode, Group_Toolchange, "Tool change mode", NULL, Format_RadioButtons, "Normal,Manual touch off,Manual touch off @ G59.3,Automatic touch off @ G59.3,Ignore M6", NULL, NULL, Setting_IsExtendedFn, set_tool_change_mode, get_int, NULL },
{ Setting_ToolChangeProbingDistance, Group_Toolchange, "Tool change probing distance", "mm", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsExtendedFn, set_tool_change_probing_distance, get_float, NULL },
{ Setting_ToolChangeFeedRate, Group_Toolchange, "Tool change locate feed rate", "mm/min", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsExtended, &settings.tool_change.feed_rate, NULL, NULL },
{ Setting_ToolChangeSeekRate, Group_Toolchange, "Tool change search seek rate", "mm/min", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsExtended, &settings.tool_change.seek_rate, NULL, NULL },
{ Setting_ToolChangePulloffRate, Group_Toolchange, "Tool change probe pull-off rate", "mm/min", Format_Decimal, "#####0.0", NULL, NULL, Setting_IsExtended, &settings.tool_change.pulloff_rate, NULL, NULL },
{ Setting_ToolChangeRestorePosition, Group_Toolchange, "Restore position after M6", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_tool_restore_pos, get_int, NULL },
{ Setting_DualAxisLengthFailPercent, Group_Limits_DualAxis, "Dual axis length fail", "percent", Format_Decimal, "##0.0", "0", "100", Setting_IsExtended, &settings.homing.dual_axis.fail_length_percent, NULL, is_setting_available },
{ Setting_DualAxisLengthFailMin, Group_Limits_DualAxis, "Dual axis length fail min", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsExtended, &settings.homing.dual_axis.fail_distance_min, NULL, is_setting_available },
{ Setting_DualAxisLengthFailMax, Group_Limits_DualAxis, "Dual axis length fail max", "mm", Format_Decimal, "#####0.000", NULL, NULL, Setting_IsExtended, &settings.homing.dual_axis.fail_distance_max, NULL, is_setting_available },
#if COMPATIBILITY_LEVEL <= 1
{ Setting_DisableG92Persistence, Group_General, "Disable G92 persistence", NULL, Format_Bool, NULL, NULL, NULL, Setting_IsExtendedFn, set_g92_disable_persistence, get_int, NULL },
#endif
#if !AXIS_REMAP_ABC2UVW
#if N_AXIS == 4
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "A-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 5
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "A-Axis,B-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 6
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "A-Axis,B-Axis,C-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 7
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "A-Axis,B-Axis,C-Axis,U-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 8
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "A-Axis,B-Axis,C-Axis,U-Axis,V-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#endif
#else
#if N_AXIS == 4
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "U-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 5
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "U-Axis,V-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#elif N_AXIS == 6
{ Settings_Axis_Rotational, Group_Stepper, "Rotational axes", NULL, Format_Bitfield, "U-Axis,V-Axis,W-Axis", NULL, NULL, Setting_IsExtendedFn, set_rotational_axes, get_int, NULL },
#endif
#endif
#ifndef NO_SAFETY_DOOR_SUPPORT
{ Setting_DoorSpindleOnDelay, Group_SafetyDoor, "Spindle on delay", "s", Format_Decimal, "#0.0", "0.5", "20", Setting_IsExtended, &settings.safety_door.spindle_on_delay, NULL, is_setting_available },
{ Setting_DoorCoolantOnDelay, Group_SafetyDoor, "Coolant on delay", "s", Format_Decimal, "#0.0", "0.5", "20", Setting_IsExtended, &settings.safety_door.coolant_on_delay, NULL, is_setting_available },
#endif
{ Setting_SpindleOnDelay, Group_Spindle, "Spindle on delay", "s", Format_Decimal, "#0.0", "0.5", "20", Setting_IsExtended, &settings.safety_door.spindle_on_delay, NULL, is_setting_available },
{ Setting_SpindleType, Group_Spindle, "Default spindle", NULL, Format_RadioButtons, spindle_types, NULL, NULL, Setting_IsExtendedFn, set_spindle_type, get_int, is_setting_available },
{ Setting_PlannerBlocks, Group_General, "Planner buffer blocks", NULL, Format_Int16, "####0", "30", "1000", Setting_IsExtended, &settings.planner_buffer_blocks, NULL, NULL, { .reboot_required = On } },
{ Setting_AutoReportInterval, Group_General, "Autoreport interval", "ms", Format_Int16, "###0", "100", "1000", Setting_IsExtendedFn, set_report_interval, get_int, NULL, { .reboot_required = On, .allow_null = On } },
// { Setting_TimeZoneOffset, Group_General, "Timezone offset", NULL, Format_Decimal, "-#0.00", "0", "12", Setting_IsExtended, &settings.timezone, NULL, NULL },
};
#ifndef NO_SETTINGS_DESCRIPTIONS
PROGMEM static const setting_descr_t setting_descr[] = {
{ Setting_PulseMicroseconds, "Sets time length per step. Minimum 2 microseconds.\\n\\n"
"This needs to be reduced from the default value of 10 when max. step rates exceed approximately 80 kHz."
},
{ Setting_StepperIdleLockTime, "Sets a short hold delay when stopping to let dynamics settle before disabling steppers. Value 255 keeps motors enabled." },
{ Setting_StepInvertMask, "Inverts the step signals (active low)." },
{ Setting_DirInvertMask, "Inverts the direction signals (active low)." },
#if COMPATIBILITY_LEVEL <= 2
{ Setting_InvertStepperEnable, "Inverts the stepper driver enable signals. Most drivers uses active low enable requiring inversion.\\n\\n"
"NOTE: If the stepper drivers shares the same enable signal only X is used."
},
#else
{ Setting_InvertStepperEnable, "Inverts the stepper driver enable signals. Drivers using active high enable require inversion.\\n\\n" },
#endif
{ Setting_LimitPinsInvertMask, "Inverts the axis limit input signals." },
{ Setting_InvertProbePin, "Inverts the probe input pin signal." },
{ Setting_SpindlePWMOptions, "Enable controls PWM output availability.\\n"
"When `RPM controls spindle enable signal` is checked and M3 or M4 is active S0 switches it off and S > 0 switches it on."
},
{ Setting_GangedDirInvertMask, "Inverts the direction signals for the second motor used for ganged axes.\\n\\n"
"NOTE: This inversion will be applied in addition to the inversion from setting $3."
},
{ Setting_StatusReportMask, "Specifies optional data included in status reports.\\n"
"If Run substatus is enabled it may be used for simple probe protection.\\n\\n"
"NOTE: Parser state will be sent separately after the status report and only on changes."
},
{ Setting_JunctionDeviation, "Sets how fast Grbl travels through consecutive motions. Lower value slows it down." },
{ Setting_ArcTolerance, "Sets the G2 and G3 arc tracing accuracy based on radial error. Beware: A very small value may effect performance." },
{ Setting_ReportInches, "Enables inch units when returning any position and rate value that is not a settings value." },
{ Setting_ControlInvertMask, "Inverts the control signals (active low).\\n"
"NOTE: Block delete, Optional stop, EStop and Probe connected are optional signals, availability is driver dependent."
},
{ Setting_CoolantInvertMask, "Inverts the coolant and mist signals (active low)." },
{ Setting_SpindleInvertMask, "Inverts the spindle on, counterclockwise and PWM signals (active low)." },
{ Setting_ControlPullUpDisableMask, "Disable the control signals pullup resistors. Potentially enables pulldown resistor if available.\\n"
"NOTE: Block delete, Optional stop and EStop are optional signals, availability is driver dependent."
},
{ Setting_LimitPullUpDisableMask, "Disable the limit signals pullup resistors. Potentially enables pulldown resistor if available."},
{ Setting_ProbePullUpDisable, "Disable the probe signal pullup resistor. Potentially enables pulldown resistor if available." },
{ Setting_SoftLimitsEnable, "Enables soft limits checks within machine travel and sets alarm when exceeded. Requires homing." },
{ Setting_HardLimitsEnable, "When enabled immediately halts motion and throws an alarm when a limit switch is triggered. In strict mode only homing is possible when a switch is engaged." },
{ Setting_HomingEnable, "Enables homing cycle. Requires limit switches on axes to be automatically homed.\\n\\n"
"When `Enable single axis commands` is checked, single axis homing can be performed by $H<axis letter> commands.\\n\\n"
"When `Allow manual` is checked, axes not homed automatically may be homed manually by $H or $H<axis letter> commands.\\n\\n"
"`Override locks` is for allowing a soft reset to disable `Homing on startup required`."
},
{ Setting_HomingDirMask, "Homing searches for a switch in the positive direction. Set axis bit to search in negative direction." },
{ Setting_HomingFeedRate, "Feed rate to slowly engage limit switch to determine its location accurately." },
{ Setting_HomingSeekRate, "Seek rate to quickly find the limit switch before the slower locating phase." },
{ Setting_HomingDebounceDelay, "Sets a short delay between phases of homing cycle to let a switch debounce." },
{ Setting_HomingPulloff, "Retract distance after triggering switch to disengage it. Homing will fail if switch isn't cleared." },
{ Setting_G73Retract, "G73 retract distance (for chip breaking drilling)." },
{ Setting_PulseDelayMicroseconds, "Step pulse delay.\\n\\n"
"Normally leave this at 0 as there is an implicit delay on direction changes when AMASS is active."
},
{ Setting_RpmMax, "Maximum spindle speed, can be overridden by spindle plugins." },
{ Setting_RpmMin, "Minimum spindle speed, can be overridden by spindle plugins." },
{ Setting_Mode, "Laser mode: consecutive G1/2/3 commands will not halt when spindle speed is changed.\\n"
"Lathe mode: allows use of G7, G8, G96 and G97."
},
{ Setting_PWMFreq, "Spindle PWM frequency." },
{ Setting_PWMOffValue, "Spindle PWM off value in percent (duty cycle)." },
{ Setting_PWMMinValue, "Spindle PWM min value in percent (duty cycle)." },
{ Setting_PWMMaxValue, "Spindle PWM max value in percent (duty cycle)." },
{ Setting_StepperDeenergizeMask, "Specifies which steppers not to disable when stopped." },
{ Setting_SpindlePPR, "Spindle encoder pulses per revolution." },
{ Setting_EnableLegacyRTCommands, "Enables \"normal\" processing of ?, ! and ~ characters when part of $-setting or comment. If disabled then they are added to the input string instead." },
{ Setting_JogSoftLimited, "Limit jog commands to machine limits for homed axes." },
{ Setting_ParkingEnable, "Enables parking cycle, requires parking axis homed." },
{ Setting_ParkingAxis, "Define which axis that performs the parking motion." },
{ Setting_HomingLocateCycles, "Number of homing passes. Minimum 1, maximum 128." },
{ Setting_HomingCycle_1, "Axes to home in first pass." },
{ Setting_HomingCycle_2, "Axes to home in second pass." },
{ Setting_HomingCycle_3, "Axes to home in third pass." },
#ifdef A_AXIS
{ Setting_HomingCycle_4, "Axes to home in fourth pass." },
#endif
#ifdef B_AXIS
{ Setting_HomingCycle_5, "Axes to home in fifth pass." },
#endif
#ifdef C_AXIS
{ Setting_HomingCycle_6, "Axes to home in sixth pass." },
#endif
{ Setting_JogStepSpeed, "Step jogging speed in millimeters per minute." },
{ Setting_JogSlowSpeed, "Slow jogging speed in millimeters per minute." },
{ Setting_JogFastSpeed, "Fast jogging speed in millimeters per minute." },
{ Setting_JogStepDistance, "Jog distance for single step jogging." },
{ Setting_JogSlowDistance, "Jog distance before automatic stop." },
{ Setting_JogFastDistance, "Jog distance before automatic stop." },
#ifndef NO_SAFETY_DOOR_SUPPORT
{ Setting_ParkingPulloutIncrement, "Spindle pull-out and plunge distance in mm.Incremental distance." },
{ Setting_ParkingPulloutRate, "Spindle pull-out/plunge slow feed rate in mm/min." },
{ Setting_ParkingTarget, "Parking axis target. In mm, as machine coordinate [-max_travel, 0]." },
{ Setting_ParkingFastRate, "Parking fast rate to target after pull-out in mm/min." },
{ Setting_RestoreOverrides, "Restore overrides to default values at program end." },
{ Setting_DoorOptions, "Enable this if it is desirable to open the safety door when in IDLE mode (eg. for jogging)." },
#endif
{ Setting_SleepEnable, "Enable sleep mode." },
{ Setting_HoldActions, "Actions taken during feed hold and on resume from feed hold." },
{ Setting_ForceInitAlarm, "Starts Grbl in alarm mode after a cold reset." },
{ Setting_ProbingFeedOverride, "Allow feed override during probing." },
#if ENABLE_SPINDLE_LINEARIZATION
{ Setting_LinearSpindlePiece1, "Comma separated list of values: RPM_MIN, RPM_LINE_A1, RPM_LINE_B1, set to blank to disable." },
#if SPINDLE_NPWM_PIECES > 1
{ Setting_LinearSpindlePiece2, "Comma separated list of values: RPM_POINT12, RPM_LINE_A2, RPM_LINE_B2, set to blank to disable." },
#endif
#if SPINDLE_NPWM_PIECES > 2
{ Setting_LinearSpindlePiece3, "Comma separated list of values: RPM_POINT23, RPM_LINE_A3, RPM_LINE_B3, set to blank to disable." },
#endif
#if SPINDLE_NPWM_PIECES > 3
{ Setting_LinearSpindlePiece4, "Comma separated list of values: RPM_POINT34, RPM_LINE_A4, RPM_LINE_B4, set to blank to disable." },
#endif
#endif
{ Setting_SpindlePGain, "" },
{ Setting_SpindleIGain, "" },
{ Setting_SpindleDGain, "" },
{ Setting_SpindleMaxError, "" },
{ Setting_SpindleIMaxError, "Spindle PID max integrator error." },
{ Setting_PositionPGain, "" },
{ Setting_PositionIGain, "" },
{ Setting_PositionDGain, "" },
{ Setting_PositionIMaxError, "Spindle sync PID max integrator error." },
{ Setting_AxisStepsPerMM, "Travel resolution in steps per millimeter." },
{ (setting_id_t)(Setting_AxisStepsPerMM + 1), "Travel resolution in steps per degree." }, // "Hack" to get correct description for rotary axes
{ Setting_AxisMaxRate, "Maximum rate. Used as G0 rapid rate." },
{ Setting_AxisAcceleration, "Acceleration. Used for motion planning to not exceed motor torque and lose steps." },
{ Setting_AxisMaxTravel, "Maximum axis travel distance from homing switch. Determines valid machine space for soft-limits and homing search distances." },
#if ENABLE_BACKLASH_COMPENSATION
{ Setting_AxisBacklash, "Backlash distance to compensate for." },
#endif
{ Setting_AxisAutoSquareOffset, "Offset between sides to compensate for homing switches inaccuracies." },
{ Setting_SpindleAtSpeedTolerance, "Spindle at speed tolerance as percentage deviation from programmed speed, set to 0 to disable.\\n"
"If not within tolerance when checked after spindle on delay ($392) alarm 14 is raised."
},
{ Setting_ToolChangeMode, "Normal: allows jogging for manual touch off. Set new position manually.\\n\\n"
"Manual touch off: retracts tool axis to home position for tool change, use jogging or $TPW for touch off.\\n\\n"
"Manual touch off @ G59.3: retracts tool axis to home position then to G59.3 position for tool change, use jogging or $TPW for touch off.\\n\\n"
"Automatic touch off @ G59.3: retracts tool axis to home position for tool change, then to G59.3 position for automatic touch off.\\n\\n"
"All modes except \"Normal\" and \"Ignore M6\" returns the tool (controlled point) to original position after touch off."
},
{ Setting_ToolChangeProbingDistance, "Maximum probing distance for automatic or $TPW touch off." },
{ Setting_ToolChangeFeedRate, "Feed rate to slowly engage tool change sensor to determine the tool offset accurately." },
{ Setting_ToolChangeSeekRate, "Seek rate to quickly find the tool change sensor before the slower locating phase." },
{ Setting_ToolChangePulloffRate, "Pull-off rate for the retract move before the slower locating phase." },
{ Setting_ToolChangeRestorePosition, "When set the spindle is moved so that the controlled point (tool tip) is the same as before the M6 command, if not the spindle is only moved to the Z home position." },
{ Setting_DualAxisLengthFailPercent, "Dual axis length fail in percent of axis max travel." },
{ Setting_DualAxisLengthFailMin, "Dual axis length fail minimum distance." },
{ Setting_DualAxisLengthFailMax, "Dual axis length fail minimum distance." },
#if COMPATIBILITY_LEVEL <= 1
{ Setting_DisableG92Persistence, "Disables save/restore of G92 offset to non-volatile storage (NVS)." },
#endif
#ifndef NO_SAFETY_DOOR_SUPPORT
{ Setting_DoorSpindleOnDelay, "Delay to allow spindle to spin up after safety door is opened." },
{ Setting_DoorCoolantOnDelay, "Delay to allow coolant to restart after safety door is opened." },
#else
{ Setting_DoorSpindleOnDelay, "Delay to allow spindle to spin up when spindle at speed tolerance is > 0." },
#endif
{ Setting_SpindleType, "Spindle selected on startup." },
{ Setting_PlannerBlocks, "Number of blocks in the planner buffer." },
{ Setting_AutoReportInterval, "Interval the real time report will be sent, set to 0 to disable." },
{ Setting_TimeZoneOffset, "Offset in hours from UTC." }
};
#endif
static setting_details_t setting_details = {
.groups = setting_group_detail,
.n_groups = sizeof(setting_group_detail) / sizeof(setting_group_detail_t),
.settings = setting_detail,
.n_settings = sizeof(setting_detail) / sizeof(setting_detail_t),
#ifndef NO_SETTINGS_DESCRIPTIONS
.descriptions = setting_descr,
.n_descriptions = sizeof(setting_descr) / sizeof(setting_descr_t),
#endif
.save = settings_write_global
};
// Acceleration override
static struct {
bool valid;
float acceleration[N_AXIS];
} override_backup = { .valid = false };
static void save_override_backup (void)
{
uint_fast8_t idx = N_AXIS;
do {
idx--;
override_backup.acceleration[idx] = settings.axis[idx].acceleration;
} while(idx);
override_backup.valid = true;
}
static void restore_override_backup (void)
{
uint_fast8_t idx = N_AXIS;
if(override_backup.valid) do {
idx--;
settings.axis[idx].acceleration = override_backup.acceleration[idx];
} while(idx);
}
// Temporarily override acceleration, if 0 restore to setting value.
// Note: only allowed when current state is idle.
bool settings_override_acceleration (uint8_t axis, float acceleration)
{
sys_state_t state = state_get();
if(!(state == STATE_IDLE || (state & (STATE_HOMING|STATE_ALARM))))
return false;
if(acceleration <= 0.0f) {
if(override_backup.valid)
settings.axis[axis].acceleration = override_backup.acceleration[axis];
} else {
if(!override_backup.valid)
save_override_backup();
settings.axis[axis].acceleration = acceleration * 60.0f * 60.0f; // Limit max to setting value?
}
return true;
}
// ---
static setting_details_t *settingsd = &setting_details;
void settings_register (setting_details_t *details)
{
settingsd->next = details;
settingsd = details;
}
setting_details_t *settings_get_details (void)
{
return &setting_details;
}
#if COMPATIBILITY_LEVEL > 2
static status_code_t set_enable_invert_mask (setting_id_t id, uint_fast16_t int_value)
{
settings.steppers.enable_invert.mask = int_value ? 0 : AXES_BITMASK;
return Status_OK;
}
#endif
#if COMPATIBILITY_LEVEL > 1
static status_code_t set_limits_invert_mask (setting_id_t id, uint_fast16_t int_value)
{
settings.limits.invert.mask = (int_value ? ~(DEFAULT_LIMIT_SIGNALS_INVERT_MASK) : DEFAULT_LIMIT_SIGNALS_INVERT_MASK) & AXES_BITMASK;
return Status_OK;
}
#endif
static status_code_t set_probe_invert (setting_id_t id, uint_fast16_t int_value)
{
if(!hal.probe.configure)
return Status_SettingDisabled;
settings.probe.invert_probe_pin = int_value != 0;
hal.probe.configure(false, false);
return Status_OK;
}
static status_code_t set_ganged_dir_invert (setting_id_t id, uint_fast16_t int_value)
{
if(!hal.stepper.get_ganged)
return Status_SettingDisabled;
settings.steppers.ganged_dir_invert.mask = int_value & hal.stepper.get_ganged(false).mask;
return Status_OK;
}
static status_code_t set_stepper_deenergize_mask (setting_id_t id, uint_fast16_t int_value)
{
settings.steppers.deenergize.mask = int_value;
hal.stepper.enable(settings.steppers.deenergize);
return Status_OK;
}
static status_code_t set_report_interval (setting_id_t setting, uint_fast16_t int_value)
{
if((settings.report_interval = int_value) == 0)
sys.flags.auto_reporting = Off;
return Status_OK;
}
static status_code_t set_report_mask (setting_id_t id, uint_fast16_t int_value)
{
#if COMPATIBILITY_LEVEL <= 1
settings.status_report.mask = int_value;
#else
int_value &= 0b11;
settings.status_report.mask = (settings.status_report.mask & ~0b11) | int_value;
#endif
return Status_OK;
}
static status_code_t set_report_inches (setting_id_t id, uint_fast16_t int_value)
{
settings.flags.report_inches = int_value != 0;
report_init();
system_flag_wco_change(); // Make sure WCO is immediately updated.
return Status_OK;
}
static status_code_t set_control_invert (setting_id_t id, uint_fast16_t int_value)
{
settings.control_invert.mask = int_value & hal.signals_cap.mask;
return Status_OK;
}
static status_code_t set_pwm_mode (setting_id_t id, uint_fast16_t int_value)
{
settings.spindle.flags.enable_rpm_controlled = int_value != 0;
return Status_OK;
}
static status_code_t set_pwm_options (setting_id_t id, uint_fast16_t int_value)
{
if(int_value & 0x01) {
if(int_value > 0b11)
return Status_SettingValueOutOfRange;
settings.spindle.flags.pwm_disable = Off;
settings.spindle.flags.enable_rpm_controlled = (int_value & 0b10) >> 1;
} else {
settings.spindle.flags.pwm_disable = On;
settings.spindle.flags.enable_rpm_controlled = Off;
}
return Status_OK;
}
static status_code_t set_spindle_type (setting_id_t id, uint_fast16_t int_value)
{
if(spindle_get_count() < 2)
return Status_SettingDisabled;
else if(int_value >= spindle_get_count())
return Status_SettingValueOutOfRange;
settings.spindle.flags.type = int_value;
spindle_select(settings.spindle.flags.type);
return Status_OK;
}
static status_code_t set_spindle_invert (setting_id_t id, uint_fast16_t int_value)
{
settings.spindle.invert.mask = int_value;
if(settings.spindle.invert.pwm && !spindle_get_caps().pwm_invert) {
settings.spindle.invert.pwm = Off;
return Status_SettingDisabled;
}
return Status_OK;
}
static status_code_t set_control_disable_pullup (setting_id_t id, uint_fast16_t int_value)
{
settings.control_disable_pullup.mask = int_value & hal.signals_cap.mask;
return Status_OK;
}
static status_code_t set_probe_disable_pullup (setting_id_t id, uint_fast16_t int_value)
{
if(!hal.probe.configure)
return Status_SettingDisabled;
settings.probe.disable_probe_pullup = int_value != 0;
return Status_OK;
}
static status_code_t set_soft_limits_enable (setting_id_t id, uint_fast16_t int_value)
{
if (int_value && !settings.homing.flags.enabled)
return Status_SoftLimitError;
settings.limits.flags.soft_enabled = int_value != 0;
return Status_OK;
}
static status_code_t set_hard_limits_enable (setting_id_t id, uint_fast16_t int_value)
{
settings.limits.flags.hard_enabled = bit_istrue(int_value, bit(0));
#if COMPATIBILITY_LEVEL <= 1
settings.limits.flags.check_at_init = bit_istrue(int_value, bit(1));
#endif
hal.limits.enable(settings.limits.flags.hard_enabled, false); // Change immediately. NOTE: Nice to have but could be problematic later.
return Status_OK;