342 lines
15 KiB
C++
342 lines
15 KiB
C++
//! @file
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#include "Marlin.h"
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#include "planner.h"
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#include "temperature.h"
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#include "ultralcd.h"
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#include "ConfigurationStore.h"
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#include "Configuration_prusa.h"
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#ifdef MESH_BED_LEVELING
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#include "mesh_bed_leveling.h"
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#endif
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#ifdef TMC2130
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#include "tmc2130.h"
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#endif
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M500_conf cs;
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//! @brief Write data to EEPROM
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//! @param pos destination in EEPROM, 0 is start
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//! @param value value to be written
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//! @param size size of type pointed by value
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//! @param name name of variable written, used only for debug input if DEBUG_EEPROM_WRITE defined
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//! @retval true success
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//! @retval false failed
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#ifdef DEBUG_EEPROM_WRITE
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static bool EEPROM_writeData(uint8_t* pos, uint8_t* value, uint8_t size, const char* name)
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#else //DEBUG_EEPROM_WRITE
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static bool EEPROM_writeData(uint8_t* pos, uint8_t* value, uint8_t size, const char*)
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#endif //DEBUG_EEPROM_WRITE
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{
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#ifdef DEBUG_EEPROM_WRITE
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printf_P(PSTR("EEPROM_WRITE_VAR addr=0x%04x size=0x%02hhx name=%s\n"), pos, size, name);
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#endif //DEBUG_EEPROM_WRITE
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while (size--)
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{
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eeprom_update_byte(pos, *value);
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if (eeprom_read_byte(pos) != *value) {
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SERIAL_ECHOLNPGM("EEPROM Error");
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return false;
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}
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pos++;
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value++;
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}
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return true;
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}
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#ifdef DEBUG_EEPROM_READ
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static void EEPROM_readData(uint8_t* pos, uint8_t* value, uint8_t size, const char* name)
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#else //DEBUG_EEPROM_READ
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static void EEPROM_readData(uint8_t* pos, uint8_t* value, uint8_t size, const char*)
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#endif //DEBUG_EEPROM_READ
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{
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#ifdef DEBUG_EEPROM_READ
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printf_P(PSTR("EEPROM_READ_VAR addr=0x%04x size=0x%02hhx name=%s\n"), pos, size, name);
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#endif //DEBUG_EEPROM_READ
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while(size--)
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{
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*value = eeprom_read_byte(pos);
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pos++;
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value++;
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}
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}
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#define EEPROM_VERSION "V2"
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#ifdef EEPROM_SETTINGS
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void Config_StoreSettings()
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{
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strcpy(cs.version,"000"); //!< invalidate data first @TODO use erase to save one erase cycle
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if (EEPROM_writeData(reinterpret_cast<uint8_t*>(EEPROM_M500_base),reinterpret_cast<uint8_t*>(&cs),sizeof(cs),0), "cs, invalid version")
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{
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strcpy(cs.version,EEPROM_VERSION); //!< validate data if write succeed
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EEPROM_writeData(reinterpret_cast<uint8_t*>(EEPROM_M500_base->version), reinterpret_cast<uint8_t*>(cs.version), sizeof(cs.version), "cs.version valid");
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}
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM("Settings Stored");
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}
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#endif //EEPROM_SETTINGS
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#ifndef DISABLE_M503
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void Config_PrintSettings(uint8_t level)
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{ // Always have this function, even with EEPROM_SETTINGS disabled, the current values will be shown
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#ifdef TMC2130
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printf_P(PSTR(
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"%SSteps per unit:\n%S M92 X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SUStep resolution: \n%S M350 X%d Y%d Z%d E%d\n"
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"%SMaximum feedrates - normal (mm/s):\n%S M203 X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SMaximum feedrates - stealth (mm/s):\n%S M203 X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SMaximum acceleration - normal (mm/s2):\n%S M201 X%lu Y%lu Z%lu E%lu\n"
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"%SMaximum acceleration - stealth (mm/s2):\n%S M201 X%lu Y%lu Z%lu E%lu\n"
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"%SAcceleration: S=acceleration, T=retract acceleration\n%S M204 S%.2f T%.2f\n"
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"%SAdvanced variables: S=Min feedrate (mm/s), T=Min travel feedrate (mm/s), B=minimum segment time (ms), X=maximum XY jerk (mm/s), Z=maximum Z jerk (mm/s), E=maximum E jerk (mm/s)\n%S M205 S%.2f T%.2f B%.2f X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SHome offset (mm):\n%S M206 X%.2f Y%.2f Z%.2f\n"
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),
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echomagic, echomagic, cs.axis_steps_per_unit[X_AXIS], cs.axis_steps_per_unit[Y_AXIS], cs.axis_steps_per_unit[Z_AXIS], cs.axis_steps_per_unit[E_AXIS],
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echomagic, echomagic, cs.axis_ustep_resolution[X_AXIS], cs.axis_ustep_resolution[Y_AXIS], cs.axis_ustep_resolution[Z_AXIS], cs.axis_ustep_resolution[E_AXIS],
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echomagic, echomagic, cs.max_feedrate_normal[X_AXIS], cs.max_feedrate_normal[Y_AXIS], cs.max_feedrate_normal[Z_AXIS], cs.max_feedrate_normal[E_AXIS],
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echomagic, echomagic, cs.max_feedrate_silent[X_AXIS], cs.max_feedrate_silent[Y_AXIS], cs.max_feedrate_silent[Z_AXIS], cs.max_feedrate_silent[E_AXIS],
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echomagic, echomagic, cs.max_acceleration_units_per_sq_second_normal[X_AXIS], cs.max_acceleration_units_per_sq_second_normal[Y_AXIS], cs.max_acceleration_units_per_sq_second_normal[Z_AXIS], cs.max_acceleration_units_per_sq_second_normal[E_AXIS],
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echomagic, echomagic, cs.max_acceleration_units_per_sq_second_silent[X_AXIS], cs.max_acceleration_units_per_sq_second_silent[Y_AXIS], cs.max_acceleration_units_per_sq_second_silent[Z_AXIS], cs.max_acceleration_units_per_sq_second_silent[E_AXIS],
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echomagic, echomagic, cs.acceleration, cs.retract_acceleration,
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echomagic, echomagic, cs.minimumfeedrate, cs.mintravelfeedrate, cs.minsegmenttime, cs.max_jerk[X_AXIS], cs.max_jerk[Y_AXIS], cs.max_jerk[Z_AXIS], cs.max_jerk[E_AXIS],
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echomagic, echomagic, cs.add_homing[X_AXIS], cs.add_homing[Y_AXIS], cs.add_homing[Z_AXIS]
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#else //TMC2130
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printf_P(PSTR(
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"%SSteps per unit:\n%S M92 X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SMaximum feedrates (mm/s):\n%S M203 X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SMaximum acceleration (mm/s2):\n%S M201 X%lu Y%lu Z%lu E%lu\n"
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"%SAcceleration: S=acceleration, T=retract acceleration\n%S M204 S%.2f T%.2f\n"
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"%SAdvanced variables: S=Min feedrate (mm/s), T=Min travel feedrate (mm/s), B=minimum segment time (ms), X=maximum XY jerk (mm/s), Z=maximum Z jerk (mm/s), E=maximum E jerk (mm/s)\n%S M205 S%.2f T%.2f B%.2f X%.2f Y%.2f Z%.2f E%.2f\n"
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"%SHome offset (mm):\n%S M206 X%.2f Y%.2f Z%.2f\n"
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),
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echomagic, echomagic, cs.axis_steps_per_unit[X_AXIS], cs.axis_steps_per_unit[Y_AXIS], cs.axis_steps_per_unit[Z_AXIS], cs.axis_steps_per_unit[E_AXIS],
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echomagic, echomagic, max_feedrate[X_AXIS], max_feedrate[Y_AXIS], max_feedrate[Z_AXIS], max_feedrate[E_AXIS],
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echomagic, echomagic, max_acceleration_units_per_sq_second[X_AXIS], max_acceleration_units_per_sq_second[Y_AXIS], max_acceleration_units_per_sq_second[Z_AXIS], max_acceleration_units_per_sq_second[E_AXIS],
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echomagic, echomagic, cs.acceleration, cs.retract_acceleration,
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echomagic, echomagic, cs.minimumfeedrate, cs.mintravelfeedrate, cs.minsegmenttime, cs.max_jerk[X_AXIS], cs.max_jerk[Y_AXIS], cs.max_jerk[Z_AXIS], cs.max_jerk[E_AXIS],
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echomagic, echomagic, cs.add_homing[X_AXIS], cs.add_homing[Y_AXIS], cs.add_homing[Z_AXIS]
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#endif //TMC2130
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);
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#ifdef PIDTEMP
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printf_P(PSTR("%SPID settings:\n%S M301 P%.2f I%.2f D%.2f\n"),
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echomagic, echomagic, cs.Kp, unscalePID_i(cs.Ki), unscalePID_d(cs.Kd));
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#endif
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#ifdef PIDTEMPBED
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printf_P(PSTR("%SPID heatbed settings:\n%S M304 P%.2f I%.2f D%.2f\n"),
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echomagic, echomagic, cs.bedKp, unscalePID_i(cs.bedKi), unscalePID_d(cs.bedKd));
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#endif
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#ifdef FWRETRACT
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printf_P(PSTR(
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"%SRetract: S=Length (mm) F:Speed (mm/m) Z: ZLift (mm)\n%S M207 S%.2f F%.2f Z%.2f\n"
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"%SRecover: S=Extra length (mm) F:Speed (mm/m)\n%S M208 S%.2f F%.2f\n"
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"%SAuto-Retract: S=0 to disable, 1 to interpret extrude-only moves as retracts or recoveries\n%S M209 S%d\n"
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),
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echomagic, echomagic, cs.retract_length, cs.retract_feedrate*60, cs.retract_zlift,
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echomagic, echomagic, cs.retract_recover_length, cs.retract_recover_feedrate*60,
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echomagic, echomagic, (cs.autoretract_enabled ? 1 : 0)
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);
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#if EXTRUDERS > 1
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printf_P(PSTR("%SMulti-extruder settings:\n%S Swap retract length (mm): %.2f\n%S Swap rec. addl. length (mm): %.2f\n"),
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echomagic, echomagic, retract_length_swap, echomagic, retract_recover_length_swap);
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#endif
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if (cs.volumetric_enabled) {
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printf_P(PSTR("%SFilament settings:\n%S M200 D%.2f\n"),
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echomagic, echomagic, cs.filament_size[0]);
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#if EXTRUDERS > 1
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printf_P(PSTR("%S M200 T1 D%.2f\n"),
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echomagic, echomagic, cs.filament_size[1]);
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#if EXTRUDERS > 2
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printf_P(PSTR("%S M200 T1 D%.2f\n"),
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echomagic, echomagic, cs.filament_size[2]);
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#endif
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#endif
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} else {
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printf_P(PSTR("%SFilament settings: Disabled\n"), echomagic);
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}
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#endif
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if (level >= 10) {
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#ifdef LIN_ADVANCE
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printf_P(PSTR("%SLinear advance settings:\n M900 K%.2f E/D = %.2f\n"),
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echomagic, extruder_advance_k, advance_ed_ratio);
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#endif //LIN_ADVANCE
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}
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}
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#endif
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#ifdef EEPROM_SETTINGS
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static_assert (EXTRUDERS == 1, "ConfigurationStore M500_conf not implemented for more extruders, fix filament_size array size.");
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static_assert (NUM_AXIS == 4, "ConfigurationStore M500_conf not implemented for more axis."
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"Fix axis_steps_per_unit max_feedrate_normal max_acceleration_units_per_sq_second_normal max_jerk max_feedrate_silent"
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" max_acceleration_units_per_sq_second_silent array size.");
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#ifdef ENABLE_AUTO_BED_LEVELING
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static_assert (false, "zprobe_zoffset was not initialized in printers in field to -(Z_PROBE_OFFSET_FROM_EXTRUDER), so it contains"
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"0.0, if this is not acceptable, increment EEPROM_VERSION to force use default_conf");
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#endif
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static_assert (sizeof(M500_conf) == 192, "sizeof(M500_conf) has changed, ensure that EEPROM_VERSION has been incremented, "
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"or if you added members in the end of struct, ensure that historically uninitialized values will be initialized."
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"If this is caused by change to more then 8bit processor, decide whether make this struct packed to save EEPROM,"
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"leave as it is to keep fast code, or reorder struct members to pack more tightly.");
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static const M500_conf default_conf PROGMEM =
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{
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EEPROM_VERSION,
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DEFAULT_AXIS_STEPS_PER_UNIT,
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DEFAULT_MAX_FEEDRATE,
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DEFAULT_MAX_ACCELERATION,
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DEFAULT_ACCELERATION,
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DEFAULT_RETRACT_ACCELERATION,
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DEFAULT_MINIMUMFEEDRATE,
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DEFAULT_MINTRAVELFEEDRATE,
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DEFAULT_MINSEGMENTTIME,
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{DEFAULT_XJERK, DEFAULT_YJERK, DEFAULT_ZJERK, DEFAULT_EJERK},
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{0,0,0},
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-(Z_PROBE_OFFSET_FROM_EXTRUDER),
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DEFAULT_Kp,
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DEFAULT_Ki*PID_dT,
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DEFAULT_Kd/PID_dT,
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DEFAULT_bedKp,
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DEFAULT_bedKi*PID_dT,
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DEFAULT_bedKd/PID_dT,
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0,
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false,
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RETRACT_LENGTH,
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RETRACT_FEEDRATE,
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RETRACT_ZLIFT,
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RETRACT_RECOVER_LENGTH,
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RETRACT_RECOVER_FEEDRATE,
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false,
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{DEFAULT_NOMINAL_FILAMENT_DIA,
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#if EXTRUDERS > 1
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DEFAULT_NOMINAL_FILAMENT_DIA,
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#if EXTRUDERS > 2
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DEFAULT_NOMINAL_FILAMENT_DIA,
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#endif
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#endif
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},
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DEFAULT_MAX_FEEDRATE_SILENT,
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DEFAULT_MAX_ACCELERATION_SILENT,
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#ifdef TMC2130
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{ TMC2130_USTEPS_XY, TMC2130_USTEPS_XY, TMC2130_USTEPS_Z, TMC2130_USTEPS_E },
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#else // TMC2130
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{16,16,16,16},
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#endif
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};
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//! @brief Read M500 configuration
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//! @retval true Succeeded. Stored settings retrieved or default settings retrieved in case EEPROM has been erased.
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//! @retval false Failed. Default settings has been retrieved, because of older version or corrupted data.
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bool Config_RetrieveSettings()
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{
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bool previous_settings_retrieved = true;
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char ver[4]=EEPROM_VERSION;
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EEPROM_readData(reinterpret_cast<uint8_t*>(EEPROM_M500_base->version), reinterpret_cast<uint8_t*>(cs.version), sizeof(cs.version), "cs.version"); //read stored version
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// SERIAL_ECHOLN("Version: [" << ver << "] Stored version: [" << cs.version << "]");
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if (strncmp(ver,cs.version,3) == 0) // version number match
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{
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EEPROM_readData(reinterpret_cast<uint8_t*>(EEPROM_M500_base), reinterpret_cast<uint8_t*>(&cs), sizeof(cs), "cs");
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if (cs.max_jerk[X_AXIS] > DEFAULT_XJERK) cs.max_jerk[X_AXIS] = DEFAULT_XJERK;
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if (cs.max_jerk[Y_AXIS] > DEFAULT_YJERK) cs.max_jerk[Y_AXIS] = DEFAULT_YJERK;
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calculate_extruder_multipliers();
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//if max_feedrate_silent and max_acceleration_units_per_sq_second_silent were never stored to eeprom, use default values:
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for (uint8_t i = 0; i < (sizeof(cs.max_feedrate_silent)/sizeof(cs.max_feedrate_silent[0])); ++i)
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{
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const uint32_t erased = 0xffffffff;
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bool initialized = false;
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for(uint8_t j = 0; j < sizeof(float); ++j)
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{
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if(0xff != reinterpret_cast<uint8_t*>(&(cs.max_feedrate_silent[i]))[j]) initialized = true;
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}
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if (!initialized) memcpy_P(&cs.max_feedrate_silent[i],&default_conf.max_feedrate_silent[i], sizeof(cs.max_feedrate_silent[i]));
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if (erased == cs.max_acceleration_units_per_sq_second_silent[i]) {
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memcpy_P(&cs.max_acceleration_units_per_sq_second_silent[i],&default_conf.max_acceleration_units_per_sq_second_silent[i],sizeof(cs.max_acceleration_units_per_sq_second_silent[i]));
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}
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}
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#ifdef TMC2130
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for (uint8_t j = X_AXIS; j <= Y_AXIS; j++)
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{
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if (cs.max_feedrate_normal[j] > NORMAL_MAX_FEEDRATE_XY)
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cs.max_feedrate_normal[j] = NORMAL_MAX_FEEDRATE_XY;
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if (cs.max_feedrate_silent[j] > SILENT_MAX_FEEDRATE_XY)
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cs.max_feedrate_silent[j] = SILENT_MAX_FEEDRATE_XY;
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if (cs.max_acceleration_units_per_sq_second_normal[j] > NORMAL_MAX_ACCEL_XY)
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cs.max_acceleration_units_per_sq_second_normal[j] = NORMAL_MAX_ACCEL_XY;
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if (cs.max_acceleration_units_per_sq_second_silent[j] > SILENT_MAX_ACCEL_XY)
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cs.max_acceleration_units_per_sq_second_silent[j] = SILENT_MAX_ACCEL_XY;
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}
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if(cs.axis_ustep_resolution[X_AXIS] == 0xff){ cs.axis_ustep_resolution[X_AXIS] = TMC2130_USTEPS_XY; }
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if(cs.axis_ustep_resolution[Y_AXIS] == 0xff){ cs.axis_ustep_resolution[Y_AXIS] = TMC2130_USTEPS_XY; }
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if(cs.axis_ustep_resolution[Z_AXIS] == 0xff){ cs.axis_ustep_resolution[Z_AXIS] = TMC2130_USTEPS_Z; }
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if(cs.axis_ustep_resolution[E_AXIS] == 0xff){ cs.axis_ustep_resolution[E_AXIS] = TMC2130_USTEPS_E; }
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tmc2130_set_res(X_AXIS, cs.axis_ustep_resolution[X_AXIS]);
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tmc2130_set_res(Y_AXIS, cs.axis_ustep_resolution[Y_AXIS]);
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tmc2130_set_res(Z_AXIS, cs.axis_ustep_resolution[Z_AXIS]);
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tmc2130_set_res(E_AXIS, cs.axis_ustep_resolution[E_AXIS]);
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#endif //TMC2130
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reset_acceleration_rates();
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// Call updatePID (similar to when we have processed M301)
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updatePID();
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM("Stored settings retrieved");
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}
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else
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{
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Config_ResetDefault();
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//Return false to inform user that eeprom version was changed and firmware is using default hardcoded settings now.
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//In case that storing to eeprom was not used yet, do not inform user that hardcoded settings are used.
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if (eeprom_read_byte(reinterpret_cast<uint8_t*>(&(EEPROM_M500_base->version[0]))) != 0xFF ||
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eeprom_read_byte(reinterpret_cast<uint8_t*>(&(EEPROM_M500_base->version[1]))) != 0xFF ||
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eeprom_read_byte(reinterpret_cast<uint8_t*>(&(EEPROM_M500_base->version[2]))) != 0xFF)
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{
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previous_settings_retrieved = false;
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}
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}
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#ifdef EEPROM_CHITCHAT
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Config_PrintSettings();
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#endif
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return previous_settings_retrieved;
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}
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#endif
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void Config_ResetDefault()
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{
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memcpy_P(&cs,&default_conf, sizeof(cs));
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// steps per sq second need to be updated to agree with the units per sq second
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reset_acceleration_rates();
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#ifdef PIDTEMP
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updatePID();
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#ifdef PID_ADD_EXTRUSION_RATE
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Kc = DEFAULT_Kc; //this is not stored by Config_StoreSettings
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#endif//PID_ADD_EXTRUSION_RATE
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#endif//PIDTEMP
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calculate_extruder_multipliers();
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM("Hardcoded Default Settings Loaded");
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}
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