ed417220e1
- Added a new optional compile-time feature for ‘realtime’ (within 50ms) feed rate reporting. When querying for a status report, a new data value will state the current operating rate. It’s only beta at the moment and has some kinks to work out. - Updated the code for printing floating point values to N decimal places. Generalized the main floating point print code to accept a new decimal places value and created a set of handler functions to print certain floating point value types used in Grbl, like position, rates, coordinate offsets, etc. All of these have different decimal requirements and change when printed in mm or inches mode. - Number of decimal places for the different value types can be re-defined in config.h, but there shouldn’t be a need for this, as these are physically limited. - Removed the decimal places settings, as this was now obsoleted by the new decimal places code. - The new decimal places code also saves almost 300kB in flash space, as it’s more efficient.
247 lines
9.5 KiB
C
247 lines
9.5 KiB
C
/*
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settings.c - eeprom configuration handling
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Part of Grbl
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Copyright (c) 2011-2014 Sungeun K. Jeon
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Copyright (c) 2009-2011 Simen Svale Skogsrud
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Grbl is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Grbl is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Grbl. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "system.h"
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#include "settings.h"
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#include "eeprom.h"
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#include "protocol.h"
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#include "report.h"
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#include "limits.h"
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settings_t settings;
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// Method to store startup lines into EEPROM
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void settings_store_startup_line(uint8_t n, char *line)
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{
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uint16_t addr = n*(LINE_BUFFER_SIZE+1)+EEPROM_ADDR_STARTUP_BLOCK;
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memcpy_to_eeprom_with_checksum(addr,(char*)line, LINE_BUFFER_SIZE);
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}
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// Method to store build info into EEPROM
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void settings_store_build_info(char *line)
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{
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memcpy_to_eeprom_with_checksum(EEPROM_ADDR_BUILD_INFO,(char*)line, LINE_BUFFER_SIZE);
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}
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// Method to store coord data parameters into EEPROM
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void settings_write_coord_data(uint8_t coord_select, float *coord_data)
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{
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uint16_t addr = coord_select*(sizeof(float)*N_AXIS+1) + EEPROM_ADDR_PARAMETERS;
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memcpy_to_eeprom_with_checksum(addr,(char*)coord_data, sizeof(float)*N_AXIS);
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}
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// Method to store Grbl global settings struct and version number into EEPROM
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void write_global_settings()
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{
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eeprom_put_char(0, SETTINGS_VERSION);
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memcpy_to_eeprom_with_checksum(EEPROM_ADDR_GLOBAL, (char*)&settings, sizeof(settings_t));
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}
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// Method to reset Grbl global settings back to defaults.
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void settings_reset() {
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settings.steps_per_mm[X_AXIS] = DEFAULT_X_STEPS_PER_MM;
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settings.steps_per_mm[Y_AXIS] = DEFAULT_Y_STEPS_PER_MM;
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settings.steps_per_mm[Z_AXIS] = DEFAULT_Z_STEPS_PER_MM;
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settings.pulse_microseconds = DEFAULT_STEP_PULSE_MICROSECONDS;
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settings.max_rate[X_AXIS] = DEFAULT_X_MAX_RATE;
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settings.max_rate[Y_AXIS] = DEFAULT_Y_MAX_RATE;
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settings.max_rate[Z_AXIS] = DEFAULT_Z_MAX_RATE;
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settings.acceleration[X_AXIS] = DEFAULT_X_ACCELERATION;
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settings.acceleration[Y_AXIS] = DEFAULT_Y_ACCELERATION;
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settings.acceleration[Z_AXIS] = DEFAULT_Z_ACCELERATION;
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settings.arc_tolerance = DEFAULT_ARC_TOLERANCE;
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settings.step_invert_mask = DEFAULT_STEPPING_INVERT_MASK;
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settings.dir_invert_mask = DEFAULT_DIRECTION_INVERT_MASK;
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settings.junction_deviation = DEFAULT_JUNCTION_DEVIATION;
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settings.flags = 0;
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if (DEFAULT_REPORT_INCHES) { settings.flags |= BITFLAG_REPORT_INCHES; }
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if (DEFAULT_AUTO_START) { settings.flags |= BITFLAG_AUTO_START; }
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if (DEFAULT_INVERT_ST_ENABLE) { settings.flags |= BITFLAG_INVERT_ST_ENABLE; }
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if (DEFAULT_INVERT_LIMIT_PINS) { settings.flags |= BITFLAG_INVERT_LIMIT_PINS; }
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if (DEFAULT_SOFT_LIMIT_ENABLE) { settings.flags |= BITFLAG_SOFT_LIMIT_ENABLE; }
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if (DEFAULT_HARD_LIMIT_ENABLE) { settings.flags |= BITFLAG_HARD_LIMIT_ENABLE; }
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if (DEFAULT_HOMING_ENABLE) { settings.flags |= BITFLAG_HOMING_ENABLE; }
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settings.homing_dir_mask = DEFAULT_HOMING_DIR_MASK;
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settings.homing_feed_rate = DEFAULT_HOMING_FEED_RATE;
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settings.homing_seek_rate = DEFAULT_HOMING_SEEK_RATE;
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settings.homing_debounce_delay = DEFAULT_HOMING_DEBOUNCE_DELAY;
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settings.homing_pulloff = DEFAULT_HOMING_PULLOFF;
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settings.stepper_idle_lock_time = DEFAULT_STEPPER_IDLE_LOCK_TIME;
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settings.max_travel[X_AXIS] = (-DEFAULT_X_MAX_TRAVEL);
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settings.max_travel[Y_AXIS] = (-DEFAULT_Y_MAX_TRAVEL);
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settings.max_travel[Z_AXIS] = (-DEFAULT_Z_MAX_TRAVEL);
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write_global_settings();
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}
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// Reads startup line from EEPROM. Updated pointed line string data.
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uint8_t settings_read_startup_line(uint8_t n, char *line)
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{
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uint16_t addr = n*(LINE_BUFFER_SIZE+1)+EEPROM_ADDR_STARTUP_BLOCK;
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if (!(memcpy_from_eeprom_with_checksum((char*)line, addr, LINE_BUFFER_SIZE))) {
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// Reset line with default value
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line[0] = 0; // Empty line
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settings_store_startup_line(n, line);
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return(false);
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} else {
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return(true);
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}
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}
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// Reads startup line from EEPROM. Updated pointed line string data.
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uint8_t settings_read_build_info(char *line)
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{
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if (!(memcpy_from_eeprom_with_checksum((char*)line, EEPROM_ADDR_BUILD_INFO, LINE_BUFFER_SIZE))) {
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// Reset line with default value
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line[0] = 0; // Empty line
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settings_store_build_info(line);
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return(false);
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} else {
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return(true);
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}
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}
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// Read selected coordinate data from EEPROM. Updates pointed coord_data value.
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uint8_t settings_read_coord_data(uint8_t coord_select, float *coord_data)
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{
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uint16_t addr = coord_select*(sizeof(float)*N_AXIS+1) + EEPROM_ADDR_PARAMETERS;
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if (!(memcpy_from_eeprom_with_checksum((char*)coord_data, addr, sizeof(float)*N_AXIS))) {
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// Reset with default zero vector
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clear_vector_float(coord_data);
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settings_write_coord_data(coord_select,coord_data);
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return(false);
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} else {
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return(true);
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}
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}
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// Reads Grbl global settings struct from EEPROM.
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uint8_t read_global_settings() {
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// Check version-byte of eeprom
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uint8_t version = eeprom_get_char(0);
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if (version == SETTINGS_VERSION) {
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// Read settings-record and check checksum
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if (!(memcpy_from_eeprom_with_checksum((char*)&settings, EEPROM_ADDR_GLOBAL, sizeof(settings_t)))) {
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return(false);
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}
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} else {
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return(false);
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}
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return(true);
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}
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// A helper method to set settings from command line
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uint8_t settings_store_global_setting(int parameter, float value) {
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if (value < 0.0) { return(STATUS_NEGATIVE_VALUE); }
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switch(parameter) {
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case 0: case 1: case 2:
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settings.steps_per_mm[parameter] = value; break;
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case 3: settings.max_rate[X_AXIS] = value; break;
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case 4: settings.max_rate[Y_AXIS] = value; break;
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case 5: settings.max_rate[Z_AXIS] = value; break;
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case 6: settings.acceleration[X_AXIS] = value*60*60; break; // Convert to mm/min^2 for grbl internal use.
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case 7: settings.acceleration[Y_AXIS] = value*60*60; break; // Convert to mm/min^2 for grbl internal use.
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case 8: settings.acceleration[Z_AXIS] = value*60*60; break; // Convert to mm/min^2 for grbl internal use.
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case 9: settings.max_travel[X_AXIS] = -value; break; // Store as negative for grbl internal use.
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case 10: settings.max_travel[Y_AXIS] = -value; break; // Store as negative for grbl internal use.
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case 11: settings.max_travel[Z_AXIS] = -value; break; // Store as negative for grbl internal use.
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case 12:
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if (value < 3) { return(STATUS_SETTING_STEP_PULSE_MIN); }
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settings.pulse_microseconds = round(value); break;
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case 13: settings.step_invert_mask = trunc(value); break;
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case 14: settings.dir_invert_mask = trunc(value); break;
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case 15: settings.stepper_idle_lock_time = round(value); break;
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case 16: settings.junction_deviation = fabs(value); break;
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case 17: settings.arc_tolerance = value; break;
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case 19:
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if (value) { settings.flags |= BITFLAG_REPORT_INCHES; }
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else { settings.flags &= ~BITFLAG_REPORT_INCHES; }
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break;
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case 20: // Reset to ensure change. Immediate re-init may cause problems.
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if (value) { settings.flags |= BITFLAG_AUTO_START; }
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else { settings.flags &= ~BITFLAG_AUTO_START; }
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break;
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case 21: // Reset to ensure change. Immediate re-init may cause problems.
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if (value) { settings.flags |= BITFLAG_INVERT_ST_ENABLE; }
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else { settings.flags &= ~BITFLAG_INVERT_ST_ENABLE; }
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break;
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case 22: // Reset to ensure change. Immediate re-init may cause problems.
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if (value) { settings.flags |= BITFLAG_INVERT_LIMIT_PINS; }
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else { settings.flags &= ~BITFLAG_INVERT_LIMIT_PINS; }
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break;
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case 23:
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if (value) {
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if (bit_isfalse(settings.flags, BITFLAG_HOMING_ENABLE)) { return(STATUS_SOFT_LIMIT_ERROR); }
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settings.flags |= BITFLAG_SOFT_LIMIT_ENABLE;
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} else { settings.flags &= ~BITFLAG_SOFT_LIMIT_ENABLE; }
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break;
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case 24:
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if (value) { settings.flags |= BITFLAG_HARD_LIMIT_ENABLE; }
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else { settings.flags &= ~BITFLAG_HARD_LIMIT_ENABLE; }
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limits_init(); // Re-init to immediately change. NOTE: Nice to have but could be problematic later.
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break;
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case 25:
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if (value) { settings.flags |= BITFLAG_HOMING_ENABLE; }
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else {
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settings.flags &= ~BITFLAG_HOMING_ENABLE;
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settings.flags &= ~BITFLAG_SOFT_LIMIT_ENABLE; // Force disable soft-limits.
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}
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break;
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case 26: settings.homing_dir_mask = trunc(value); break;
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case 27: settings.homing_feed_rate = value; break;
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case 28: settings.homing_seek_rate = value; break;
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case 29: settings.homing_debounce_delay = round(value); break;
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case 30: settings.homing_pulloff = value; break;
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default:
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return(STATUS_INVALID_STATEMENT);
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}
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write_global_settings();
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return(STATUS_OK);
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}
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// Initialize the config subsystem
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void settings_init() {
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if(!read_global_settings()) {
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report_status_message(STATUS_SETTING_READ_FAIL);
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settings_reset();
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report_grbl_settings();
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}
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// Read all parameter data into a dummy variable. If error, reset to zero, otherwise do nothing.
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float coord_data[N_AXIS];
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uint8_t i;
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for (i=0; i<=SETTING_INDEX_NCOORD; i++) {
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if (!settings_read_coord_data(i, coord_data)) {
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report_status_message(STATUS_SETTING_READ_FAIL);
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}
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}
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// NOTE: Startup lines are handled and called by main.c at the end of initialization.
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}
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