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- #include <avr/pgmspace.h>
- #include <stdio.h>
- #include <util/atomic.h>
- #include "Filament_sensor.h"
- #include "Timer.h"
- #include "cardreader.h"
- #include "eeprom.h"
- #include "menu.h"
- #include "planner.h"
- #include "temperature.h"
- #include "ultralcd.h"
- #ifdef FILAMENT_SENSOR
- FSensorBlockRunout::FSensorBlockRunout() {
- fsensor.setRunoutEnabled(false); //suppress filament runouts while loading filament.
- fsensor.setAutoLoadEnabled(false); //suppress filament autoloads while loading filament.
- #if (FILAMENT_SENSOR_TYPE == FSENSOR_PAT9125)
- fsensor.setJamDetectionEnabled(false); //suppress filament jam detection while loading filament.
- #endif //(FILAMENT_SENSOR_TYPE == FSENSOR_PAT9125)
- // SERIAL_ECHOLNPGM("FSBlockRunout");
- }
- FSensorBlockRunout::~FSensorBlockRunout() {
- fsensor.settings_init(); // restore filament runout state.
- // SERIAL_ECHOLNPGM("FSUnBlockRunout");
- }
- # if FILAMENT_SENSOR_TYPE == FSENSOR_IR
- IR_sensor fsensor;
- # elif FILAMENT_SENSOR_TYPE == FSENSOR_IR_ANALOG
- IR_sensor_analog fsensor;
- # elif FILAMENT_SENSOR_TYPE == FSENSOR_PAT9125
- PAT9125_sensor fsensor;
- # endif
- #else // FILAMENT_SENSOR
- FSensorBlockRunout::FSensorBlockRunout() { }
- FSensorBlockRunout::~FSensorBlockRunout() { }
- #endif // FILAMENT_SENSOR
- void Filament_sensor::setEnabled(bool enabled) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENSOR, enabled);
- if (enabled) {
- fsensor.init();
- } else {
- fsensor.deinit();
- }
- }
- void Filament_sensor::setAutoLoadEnabled(bool state, bool updateEEPROM) {
- autoLoadEnabled = state;
- if (updateEEPROM) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENS_AUTOLOAD_ENABLED, state);
- }
- }
- void Filament_sensor::setRunoutEnabled(bool state, bool updateEEPROM) {
- runoutEnabled = state;
- if (updateEEPROM) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENS_RUNOUT_ENABLED, state);
- }
- }
- void Filament_sensor::setActionOnError(SensorActionOnError state, bool updateEEPROM) {
- sensorActionOnError = state;
- if (updateEEPROM) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENSOR_ACTION_NA, (uint8_t)state);
- }
- }
- void Filament_sensor::settings_init_common() {
- bool enabled = eeprom_read_byte((uint8_t *)EEPROM_FSENSOR);
- if ((state != State::disabled) != enabled) {
- state = enabled ? State::initializing : State::disabled;
- }
- autoLoadEnabled = eeprom_read_byte((uint8_t *)EEPROM_FSENS_AUTOLOAD_ENABLED);
- runoutEnabled = eeprom_read_byte((uint8_t *)EEPROM_FSENS_RUNOUT_ENABLED);
- sensorActionOnError = (SensorActionOnError)eeprom_read_byte((uint8_t *)EEPROM_FSENSOR_ACTION_NA);
- if (sensorActionOnError == SensorActionOnError::_Undef) {
- sensorActionOnError = SensorActionOnError::_Continue;
- }
- }
- bool Filament_sensor::checkFilamentEvents() {
- if (state != State::ready)
- return false;
- if (eventBlankingTimer.running() && !eventBlankingTimer.expired(100)) { // event blanking for 100ms
- return false;
- }
- bool newFilamentPresent = fsensor.getFilamentPresent();
- if (oldFilamentPresent != newFilamentPresent) {
- oldFilamentPresent = newFilamentPresent;
- eventBlankingTimer.start();
- if (newFilamentPresent) { // filament insertion
- // puts_P(PSTR("filament inserted"));
- triggerFilamentInserted();
- postponedLoadEvent = true;
- } else { // filament removal
- // puts_P(PSTR("filament removed"));
- triggerFilamentRemoved();
- }
- return true;
- }
- return false;
- }
- void Filament_sensor::triggerFilamentInserted() {
- if (autoLoadEnabled
- && (eFilamentAction == FilamentAction::None)
- && (! MMU2::mmu2.Enabled() ) // quick and dirty hack to prevent spurious runouts while the MMU is in charge
- && !(
- moves_planned() != 0
- || IS_SD_PRINTING
- || usb_timer.running()
- || (lcd_commands_type == LcdCommands::Layer1Cal)
- || eeprom_read_byte((uint8_t *)EEPROM_WIZARD_ACTIVE)
- )
- ) {
- filAutoLoad();
- }
- }
- void Filament_sensor::triggerFilamentRemoved() {
- // SERIAL_ECHOLNPGM("triggerFilamentRemoved");
- if (runoutEnabled
- && (! MMU2::mmu2.Enabled() ) // quick and dirty hack to prevent spurious runouts just before the toolchange
- && (eFilamentAction == FilamentAction::None)
- && !saved_printing
- && (
- moves_planned() != 0
- || IS_SD_PRINTING
- || usb_timer.running()
- || (lcd_commands_type == LcdCommands::Layer1Cal)
- || eeprom_read_byte((uint8_t *)EEPROM_WIZARD_ACTIVE)
- )
- ){
- // SERIAL_ECHOPGM("runoutEnabled="); SERIAL_ECHOLN((int)runoutEnabled);
- // SERIAL_ECHOPGM("eFilamentAction="); SERIAL_ECHOLN((int)eFilamentAction);
- // SERIAL_ECHOPGM("saved_printing="); SERIAL_ECHOLN((int)saved_printing);
- filRunout();
- }
- }
- void Filament_sensor::filAutoLoad() {
- eFilamentAction = FilamentAction::AutoLoad;
- if (target_temperature[0] >= EXTRUDE_MINTEMP) {
- bFilamentPreheatState = true;
- menu_submenu(mFilamentItemForce);
- } else {
- menu_submenu(lcd_generic_preheat_menu);
- lcd_timeoutToStatus.start();
- }
- }
- void Filament_sensor::filRunout() {
- // SERIAL_ECHOLNPGM("filRunout");
- runoutEnabled = false;
- autoLoadEnabled = false;
- stop_and_save_print_to_ram(0, 0);
- restore_print_from_ram_and_continue(0);
- eeprom_increment_byte((uint8_t *)EEPROM_FERROR_COUNT);
- eeprom_increment_word((uint16_t *)EEPROM_FERROR_COUNT_TOT);
- enquecommand_front_P((PSTR("M600")));
- }
- void Filament_sensor::triggerError() {
- state = State::error;
- /// some message, idk
- ; //
- }
- #if (FILAMENT_SENSOR_TYPE == FSENSOR_IR) || (FILAMENT_SENSOR_TYPE == FSENSOR_IR_ANALOG)
- void IR_sensor::init() {
- if (state == State::error) {
- fsensor.deinit(); // deinit first if there was an error.
- }
- // puts_P(PSTR("fsensor::init()"));
- SET_INPUT(IR_SENSOR_PIN); // input mode
- WRITE(IR_SENSOR_PIN, 1); // pullup
- settings_init(); // also sets the state to State::initializing
- }
- void IR_sensor::deinit() {
- // puts_P(PSTR("fsensor::deinit()"));
- SET_INPUT(IR_SENSOR_PIN); // input mode
- WRITE(IR_SENSOR_PIN, 0); // no pullup
- state = State::disabled;
- }
- bool IR_sensor::update() {
- switch (state) {
- case State::initializing:
- state = State::ready; // the IR sensor gets ready instantly as it's just a gpio read operation.
- // initialize the current filament state so that we don't create a switching event right after the sensor is ready.
- oldFilamentPresent = fsensor.getFilamentPresent();
- [[fallthrough]];
- case State::ready: {
- postponedLoadEvent = false;
- return checkFilamentEvents();
- } break;
- case State::disabled:
- case State::error:
- default:
- return false;
- }
- return false;
- }
- #ifdef FSENSOR_PROBING
- bool IR_sensor::probeOtherType() { return pat9125_probe(); }
- #endif
- void IR_sensor::settings_init() { Filament_sensor::settings_init_common(); }
- #if (FILAMENT_SENSOR_TYPE == FSENSOR_IR_ANALOG)
- void IR_sensor_analog::init() {
- IR_sensor::init();
- IR_sensor::settings_init();
- sensorRevision = (SensorRevision)eeprom_read_byte((uint8_t *)EEPROM_FSENSOR_PCB);
- }
- bool IR_sensor_analog::update() {
- bool event = IR_sensor::update();
- if (state == State::ready) {
- if (getVoltReady()) {
- clearVoltReady();
- uint16_t volt = getVoltRaw();
- // printf_P(PSTR("newVoltRaw:%u\n"), volt / OVERSAMPLENR);
- // detect min-max, some long term sliding window for filtration may be added
- // avoiding floating point operations, thus computing in raw
- if (volt > maxVolt) {
- maxVolt = volt;
- } else if (volt < minVolt) {
- minVolt = volt;
- }
- //! The trouble is, I can hold the filament in the hole in such a way, that it creates the exact voltage
- //! to be detected as the new fsensor
- //! We can either fake it by extending the detection window to a looooong time
- //! or do some other countermeasures
- //! what we want to detect:
- //! if minvolt gets below ~0.3V, it means there is an old fsensor
- //! if maxvolt gets above 4.6V, it means we either have an old fsensor or broken cables/fsensor
- //! So I'm waiting for a situation, when minVolt gets to range <0, 1.5> and maxVolt gets into range <3.0, 5>
- //! If and only if minVolt is in range <0.3, 1.5> and maxVolt is in range <3.0, 4.6>, I'm considering a situation with the new fsensor
- if (minVolt >= IRsensor_Ldiode_TRESHOLD && minVolt <= IRsensor_Lmax_TRESHOLD && maxVolt >= IRsensor_Hmin_TRESHOLD &&
- maxVolt <= IRsensor_Hopen_TRESHOLD) {
- IR_ANALOG_Check(SensorRevision::_Old, SensorRevision::_Rev04);
- }
- //! If and only if minVolt is in range <0.0, 0.3> and maxVolt is in range <4.6, 5.0V>, I'm considering a situation with the old fsensor
- //! Note, we are not relying on one voltage here - getting just +5V can mean an old fsensor or a broken new sensor - that's why
- //! we need to have both voltages detected correctly to allow switching back to the old fsensor.
- else if (minVolt < IRsensor_Ldiode_TRESHOLD && maxVolt > IRsensor_Hopen_TRESHOLD && maxVolt <= IRsensor_VMax_TRESHOLD) {
- IR_ANALOG_Check(SensorRevision::_Rev04, SensorRevision::_Old);
- }
- if (!checkVoltage(volt)) {
- triggerError();
- }
- }
- }
- ; //
- return event;
- }
- void IR_sensor_analog::voltUpdate(uint16_t raw) { // to be called from the ADC ISR when a cycle is finished
- voltRaw = raw;
- voltReady = true;
- }
- uint16_t IR_sensor_analog::getVoltRaw() {
- uint16_t ret;
- ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { ret = voltRaw; }
- return ret;
- }
- const char *IR_sensor_analog::getIRVersionText() {
- switch (sensorRevision) {
- case SensorRevision::_Old:
- return _T(MSG_IR_03_OR_OLDER);
- case SensorRevision::_Rev04:
- return _T(MSG_IR_04_OR_NEWER);
- default:
- return _T(MSG_IR_UNKNOWN);
- }
- }
- void IR_sensor_analog::setSensorRevision(SensorRevision rev, bool updateEEPROM) {
- sensorRevision = rev;
- if (updateEEPROM) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENSOR_PCB, (uint8_t)rev);
- }
- }
- bool IR_sensor_analog::checkVoltage(uint16_t raw) {
- if (IRsensor_Lmax_TRESHOLD <= raw && raw <= IRsensor_Hmin_TRESHOLD) {
- /// If the voltage is in forbidden range, the fsensor is ok, but the lever is mounted improperly.
- /// Or the user is so creative so that he can hold a piece of fillament in the hole in such a genius way,
- /// that the IR fsensor reading is within 1.5 and 3V ... this would have been highly unusual
- /// and would have been considered more like a sabotage than normal printer operation
- if (voltageErrorCnt++ > 4) {
- puts_P(PSTR("fsensor in forbidden range 1.5-3V - check sensor"));
- return false;
- }
- } else {
- voltageErrorCnt = 0;
- }
- if (sensorRevision == SensorRevision::_Rev04) {
- /// newer IR sensor cannot normally produce 4.6-5V, this is considered a failure/bad mount
- if (IRsensor_Hopen_TRESHOLD <= raw && raw <= IRsensor_VMax_TRESHOLD) {
- puts_P(PSTR("fsensor v0.4 in fault range 4.6-5V - unconnected"));
- return false;
- }
- /// newer IR sensor cannot normally produce 0-0.3V, this is considered a failure
- #if 0 // Disabled as it has to be decided if we gonna use this or not.
- if(IRsensor_Hopen_TRESHOLD <= raw && raw <= IRsensor_VMax_TRESHOLD) {
- puts_P(PSTR("fsensor v0.4 in fault range 0.0-0.3V - wrong IR sensor"));
- return false;
- }
- #endif
- }
- /// If IR sensor is "uknown state" and filament is not loaded > 1.5V return false
- #if 0
- #error "I really think this code can't be enabled anymore because we are constantly checking this voltage."
- if((sensorRevision == SensorRevision::_Undef) && (raw > IRsensor_Lmax_TRESHOLD)) {
- puts_P(PSTR("Unknown IR sensor version and no filament loaded detected."));
- return false;
- }
- #endif
- // otherwise the IR fsensor is considered working correctly
- return true;
- }
- bool IR_sensor_analog::getVoltReady() const {
- bool ret;
- ATOMIC_BLOCK(ATOMIC_RESTORESTATE){ ret = voltReady; }
- return ret;
- }
- void IR_sensor_analog::clearVoltReady(){
- ATOMIC_BLOCK(ATOMIC_RESTORESTATE){ voltReady = false; }
- }
- void IR_sensor_analog::IR_ANALOG_Check(SensorRevision isVersion, SensorRevision switchTo) {
- bool bTemp = (!CHECK_ALL_HEATERS);
- bTemp = bTemp && (menu_menu == lcd_status_screen);
- bTemp = bTemp && ((sensorRevision == isVersion) || (sensorRevision == SensorRevision::_Undef));
- bTemp = bTemp && (state == State::ready);
- if (bTemp) {
- nFSCheckCount++;
- if (nFSCheckCount > FS_CHECK_COUNT) {
- nFSCheckCount = 0; // not necessary
- setSensorRevision(switchTo, true);
- printf_IRSensorAnalogBoardChange();
- switch (switchTo) {
- case SensorRevision::_Old:
- lcd_setstatuspgm(_T(MSG_IR_03_OR_OLDER));
- break;
- case SensorRevision::_Rev04:
- lcd_setstatuspgm(_T(MSG_IR_04_OR_NEWER));
- break;
- default:
- break;
- }
- }
- } else {
- nFSCheckCount = 0;
- }
- }
- #endif //(FILAMENT_SENSOR_TYPE == FSENSOR_IR_ANALOG)
- #endif //(FILAMENT_SENSOR_TYPE == FSENSOR_IR) || (FILAMENT_SENSOR_TYPE == FSENSOR_IR_ANALOG)
- #if (FILAMENT_SENSOR_TYPE == FSENSOR_PAT9125)
- void PAT9125_sensor::init() {
- if (state == State::error) {
- deinit(); // deinit first if there was an error.
- }
- // puts_P(PSTR("fsensor::init()"));
- settings_init(); // also sets the state to State::initializing
- calcChunkSteps(cs.axis_steps_per_unit[E_AXIS]); // for jam detection
- if (!pat9125_init()) {
- deinit();
- triggerError();
- ; //
- }
- #ifdef IR_SENSOR_PIN
- else if (!READ(IR_SENSOR_PIN)) {
- ; // MK3 fw on MK3S printer
- }
- #endif // IR_SENSOR_PIN
- }
- void PAT9125_sensor::deinit() {
- // puts_P(PSTR("fsensor::deinit()"));
- ; //
- state = State::disabled;
- filter = 0;
- }
- bool PAT9125_sensor::update() {
- switch (state) {
- case State::initializing:
- if (!updatePAT9125()) {
- break; // still not stable. Stay in the initialization state.
- }
- oldFilamentPresent =
- getFilamentPresent(); // initialize the current filament state so that we don't create a switching event right after the sensor is ready.
- oldPos = pat9125_y;
- state = State::ready;
- break;
- case State::ready: {
- updatePAT9125();
- postponedLoadEvent = false;
- bool event = checkFilamentEvents();
- ; //
- return event;
- } break;
- case State::disabled:
- case State::error:
- default:
- return false;
- }
- return false;
- }
- #ifdef FSENSOR_PROBING
- bool PAT9125_sensor::probeOtherType() {
- SET_INPUT(IR_SENSOR_PIN); // input mode
- WRITE(IR_SENSOR_PIN, 1); // pullup
- _delay_us(100); // wait for the pullup to pull the line high (might be needed, not really sure. The internal pullups are quite weak and there might be a
- // long wire attached).
- bool fsensorDetected = !READ(IR_SENSOR_PIN);
- WRITE(IR_SENSOR_PIN, 0); // no pullup
- return fsensorDetected;
- }
- #endif
- void PAT9125_sensor::setJamDetectionEnabled(bool state, bool updateEEPROM) {
- jamDetection = state;
- oldPos = pat9125_y;
- resetStepCount();
- jamErrCnt = 0;
- if (updateEEPROM) {
- eeprom_update_byte((uint8_t *)EEPROM_FSENSOR_JAM_DETECTION, state);
- }
- }
- void PAT9125_sensor::settings_init() {
- // puts_P(PSTR("settings_init"));
- Filament_sensor::settings_init_common();
- setJamDetectionEnabled(eeprom_read_byte((uint8_t *)EEPROM_FSENSOR_JAM_DETECTION));
- }
- int16_t PAT9125_sensor::getStepCount() {
- int16_t ret;
- ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { ret = stepCount; }
- return ret;
- }
- void PAT9125_sensor::resetStepCount() {
- ATOMIC_BLOCK(ATOMIC_RESTORESTATE) { stepCount = 0; }
- }
- void PAT9125_sensor::filJam() {
- runoutEnabled = false;
- autoLoadEnabled = false;
- jamDetection = false;
- stop_and_save_print_to_ram(0, 0);
- restore_print_from_ram_and_continue(0);
- eeprom_increment_byte((uint8_t *)EEPROM_FERROR_COUNT);
- eeprom_increment_word((uint16_t *)EEPROM_FERROR_COUNT_TOT);
- enquecommand_front_P((PSTR("M600")));
- }
- bool PAT9125_sensor::updatePAT9125() {
- if (jamDetection) {
- int16_t _stepCount = getStepCount();
- if (abs(_stepCount) >= chunkSteps) { // end of chunk. Check distance
- resetStepCount();
- if (!pat9125_update()) { // get up to date data. reinit on error.
- init(); // try to reinit.
- }
- bool fsDir = (pat9125_y - oldPos) > 0;
- bool stDir = _stepCount > 0;
- if (fsDir != stDir) {
- jamErrCnt++;
- } else if (jamErrCnt) {
- jamErrCnt--;
- }
- oldPos = pat9125_y;
- }
- if (jamErrCnt > 10) {
- jamErrCnt = 0;
- filJam();
- }
- }
- if (!pollingTimer.running() || pollingTimer.expired(pollingPeriod)) {
- pollingTimer.start();
- if (!pat9125_update()) {
- init(); // try to reinit.
- }
- bool present = (pat9125_s < 17) || (pat9125_s >= 17 && pat9125_b >= 50);
- if (present != filterFilPresent) {
- filter++;
- } else if (filter) {
- filter--;
- }
- if (filter >= filterCnt) {
- filter = 0;
- filterFilPresent = present;
- }
- }
- return (filter == 0); // return stability
- }
- #endif // #if (FILAMENT_SENSOR_TYPE == FSENSOR_PAT9125)
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