/** * anycubic_i3mega_lcd.cpp --- Support for Anycubic i3 Mega TFT * Created by Christian Hopp on 09.12.17. * Improved by David Ramiro * Converted to ExtUI by John BouAntoun 21 June 2020 * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include "../../../inc/MarlinConfigPre.h" #if ENABLED(ANYCUBIC_LCD_I3MEGA) #include "anycubic_i3mega_lcd.h" #include "../ui_api.h" #include "../../../libs/numtostr.h" #include "../../../module/stepper.h" // for disable_all_steppers #include "../../../module/motion.h" // for quickstop_stepper, A20 read printing speed, feedrate_percentage #include "../../../MarlinCore.h" // for disable_steppers #include "../../../inc/MarlinConfig.h" // command sending macro's with debugging capability #define SEND_PGM(x) send_P(PSTR(x)) #define SENDLINE_PGM(x) sendLine_P(PSTR(x)) #define SEND_PGM_VAL(x,y) (send_P(PSTR(x)), sendLine(i16tostr3rj(y))) #define SEND(x) send(x) #define SENDLINE(x) sendLine(x) #if ENABLED(ANYCUBIC_LCD_DEBUG) #define SENDLINE_DBG_PGM(x,y) do{ sendLine_P(PSTR(x)); SERIAL_ECHOLNPGM(y); }while(0) #define SENDLINE_DBG_PGM_VAL(x,y,z) do{ sendLine_P(PSTR(x)); SERIAL_ECHOLNPGM(y, z); }while(0) #else #define SENDLINE_DBG_PGM(x,y) sendLine_P(PSTR(x)) #define SENDLINE_DBG_PGM_VAL(x,y,z) sendLine_P(PSTR(x)) #endif AnycubicTFTClass AnycubicTFT; char AnycubicTFTClass::TFTcmdbuffer[TFTBUFSIZE][TFT_MAX_CMD_SIZE]; int AnycubicTFTClass::TFTbuflen = 0, AnycubicTFTClass::TFTbufindr = 0, AnycubicTFTClass::TFTbufindw = 0; char AnycubicTFTClass::serial3_char; int AnycubicTFTClass::serial3_count = 0; char* AnycubicTFTClass::TFTstrchr_pointer; uint8_t AnycubicTFTClass::SpecialMenu = false; AnycubicMediaPrintState AnycubicTFTClass::mediaPrintingState = AMPRINTSTATE_NOT_PRINTING; AnycubicMediaPauseState AnycubicTFTClass::mediaPauseState = AMPAUSESTATE_NOT_PAUSED; char AnycubicTFTClass::SelectedDirectory[30]; char AnycubicTFTClass::SelectedFile[FILENAME_LENGTH]; // Serial helpers static void sendNewLine(void) { LCD_SERIAL.write('\r'); LCD_SERIAL.write('\n'); } static void send(const char *str) { LCD_SERIAL.print(str); } static void send_P(PGM_P str) { while (const char c = pgm_read_byte(str++)) LCD_SERIAL.write(c); } static void sendLine(const char *str) { send(str); sendNewLine(); } static void sendLine_P(PGM_P str) { send_P(str); sendNewLine(); } using namespace ExtUI; AnycubicTFTClass::AnycubicTFTClass() {} void AnycubicTFTClass::OnSetup() { #ifndef LCD_BAUDRATE #define LCD_BAUDRATE 115200 #endif LCD_SERIAL.begin(LCD_BAUDRATE); SENDLINE_DBG_PGM("J17", "TFT Serial Debug: Main board reset... J17"); // J17 Main board reset delay_ms(10); // initialise the state of the key pins running on the tft #if ENABLED(SDSUPPORT) && PIN_EXISTS(SD_DETECT) SET_INPUT_PULLUP(SD_DETECT_PIN); #endif #if ENABLED(FILAMENT_RUNOUT_SENSOR) SET_INPUT_PULLUP(FIL_RUNOUT1_PIN); #endif mediaPrintingState = AMPRINTSTATE_NOT_PRINTING; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; // DoSDCardStateCheck(); SENDLINE_DBG_PGM("J12", "TFT Serial Debug: Ready... J12"); // J12 Ready delay_ms(10); DoFilamentRunoutCheck(); SelectedFile[0] = 0; #if ENABLED(STARTUP_CHIME) injectCommands(F("M300 P250 S554\nM300 P250 S554\nM300 P250 S740\nM300 P250 S554\nM300 P250 S740\nM300 P250 S554\nM300 P500 S831")); #endif #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: Finished startup"); #endif } void AnycubicTFTClass::OnCommandScan() { static millis_t nextStopCheck = 0; // used to slow the stopped print check down to reasonable times const millis_t ms = millis(); if (ELAPSED(ms, nextStopCheck)) { nextStopCheck = ms + 1000UL; if (mediaPrintingState == AMPRINTSTATE_STOP_REQUESTED && IsNozzleHomed()) { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: Finished stopping print, releasing motors ..."); #endif mediaPrintingState = AMPRINTSTATE_NOT_PRINTING; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; injectCommands(F("M84\nM27")); // disable stepper motors and force report of SD status delay_ms(200); // tell printer to release resources of print to indicate it is done SENDLINE_DBG_PGM("J14", "TFT Serial Debug: SD Print Stopped... J14"); } } if (TFTbuflen < (TFTBUFSIZE - 1)) GetCommandFromTFT(); if (TFTbuflen) { TFTbuflen = (TFTbuflen - 1); TFTbufindr = (TFTbufindr + 1) % TFTBUFSIZE; } } void AnycubicTFTClass::OnKillTFT() { SENDLINE_DBG_PGM("J11", "TFT Serial Debug: Kill command... J11"); } void AnycubicTFTClass::OnSDCardStateChange(bool isInserted) { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: OnSDCardStateChange event triggered...", isInserted); #endif DoSDCardStateCheck(); } void AnycubicTFTClass::OnSDCardError() { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: OnSDCardError event triggered..."); #endif SENDLINE_DBG_PGM("J21", "TFT Serial Debug: On SD Card Error ... J21"); } void AnycubicTFTClass::OnFilamentRunout() { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: FilamentRunout triggered..."); #endif DoFilamentRunoutCheck(); } void AnycubicTFTClass::OnUserConfirmRequired(const char * const msg) { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: OnUserConfirmRequired triggered... ", msg); #endif #if ENABLED(SDSUPPORT) /** * Need to handle the process of following states * "Nozzle Parked" * "Load Filament" * "Filament Purging..." * "HeaterTimeout" * "Reheat finished." * * NOTE: The only way to handle these states is strcmp_P with the msg unfortunately (very expensive) */ if (strcmp_P(msg, PSTR("Nozzle Parked")) == 0) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_PARKED; // enable continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: UserConfirm SD print paused done... J18"); } else if (strcmp_P(msg, PSTR("Load Filament")) == 0) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_FILAMENT_OUT; // enable continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: UserConfirm Filament is out... J18"); SENDLINE_DBG_PGM("J23", "TFT Serial Debug: UserConfirm Blocking filament prompt... J23"); } else if (strcmp_P(msg, PSTR("Filament Purging...")) == 0) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_PARKING; // TODO: JBA I don't think J05 just disables the continue button, i think it injects a rogue M25. So taking this out // disable continue button // SENDLINE_DBG_PGM("J05", "TFT Serial Debug: UserConfirm SD Filament Purging... J05"); // J05 printing pause // enable continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: UserConfirm Filament is purging... J18"); } else if (strcmp_P(msg, PSTR("HeaterTimeout")) == 0) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_HEATER_TIMEOUT; // enable continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: UserConfirm SD Heater timeout... J18"); } else if (strcmp_P(msg, PSTR("Reheat finished.")) == 0) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_REHEAT_FINISHED; // enable continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: UserConfirm SD Reheat done... J18"); } #endif } float AnycubicTFTClass::CodeValue() { return (strtod(&TFTcmdbuffer[TFTbufindr][TFTstrchr_pointer - TFTcmdbuffer[TFTbufindr] + 1], nullptr)); } bool AnycubicTFTClass::CodeSeen(char code) { TFTstrchr_pointer = strchr(TFTcmdbuffer[TFTbufindr], code); return !!TFTstrchr_pointer; // Return True if a character was found } bool AnycubicTFTClass::IsNozzleHomed() { const float xPosition = getAxisPosition_mm((axis_t) X); const float yPosition = getAxisPosition_mm((axis_t) Y); return WITHIN(xPosition, X_MIN_POS - 0.1, X_MIN_POS + 0.1) && WITHIN(yPosition, Y_MIN_POS - 0.1, Y_MIN_POS + 0.1); } void AnycubicTFTClass::HandleSpecialMenu() { /** * NOTE: that the file selection command actual lowercases the entire selected file/foldername, so charracter comparisons need to be lowercase. */ if (SelectedDirectory[0] == '<') { switch (SelectedDirectory[1]) { case 'e': // "" SpecialMenu = false; return; break; #if ENABLED(PROBE_MANUALLY) case '0': switch (SelectedDirectory[2]) { case '1': // "<01ZUp0.1>" SERIAL_ECHOLNPGM("Special Menu: Z Up 0.1"); injectCommands(F("G91\nG1 Z+0.1\nG90")); break; case '2': // "<02ZUp0.02>" SERIAL_ECHOLNPGM("Special Menu: Z Up 0.02"); injectCommands(F("G91\nG1 Z+0.02\nG90")); break; case '3': // "<03ZDn0.02>" SERIAL_ECHOLNPGM("Special Menu: Z Down 0.02"); injectCommands(F("G91\nG1 Z-0.02\nG90")); break; case '4': // "<04ZDn0.1>" SERIAL_ECHOLNPGM("Special Menu: Z Down 0.1"); injectCommands(F("G91\nG1 Z-0.1\nG90")); break; case '5': // "<05PrehtBed>" SERIAL_ECHOLNPGM("Special Menu: Preheat Bed"); injectCommands(F("M140 S65")); break; case '6': // "<06SMeshLvl>" SERIAL_ECHOLNPGM("Special Menu: Start Mesh Leveling"); injectCommands(F("G29S1")); break; case '7': // "<07MeshNPnt>" SERIAL_ECHOLNPGM("Special Menu: Next Mesh Point"); injectCommands(F("G29S2")); break; case '8': // "<08HtEndPID>" SERIAL_ECHOLNPGM("Special Menu: Auto Tune Hotend PID"); // need to dwell for half a second to give the fan a chance to start before the pid tuning starts injectCommands(F("M106 S204\nG4 P500\nM303 E0 S215 C15 U1")); break; case '9': // "<09HtBedPID>" SERIAL_ECHOLNPGM("Special Menu: Auto Tune Hotbed Pid"); injectCommands(F("M303 E-1 S65 C6 U1")); break; default: break; } break; case '1': switch (SelectedDirectory[2]) { case '0': // "<10FWDeflts>" SERIAL_ECHOLNPGM("Special Menu: Load FW Defaults"); injectCommands(F("M502\nM300 P105 S1661\nM300 P210 S1108")); break; case '1': // "<11SvEEPROM>" SERIAL_ECHOLNPGM("Special Menu: Save EEPROM"); injectCommands(F("M500\nM300 P105 S1108\nM300 P210 S1661")); break; default: break; } break; #else // if ENABLED(PROBE_MANUALLY) case '0': switch (SelectedDirectory[2]) { case '1': // "<01PrehtBed>" SERIAL_ECHOLNPGM("Special Menu: Preheat Bed"); injectCommands(F("M140 S65")); break; case '2': // "<02ABL>" SERIAL_ECHOLNPGM("Special Menu: Auto Bed Leveling"); injectCommands(F("G29N")); break; case '3': // "<03HtendPID>" SERIAL_ECHOLNPGM("Special Menu: Auto Tune Hotend PID"); // need to dwell for half a second to give the fan a chance to start before the pid tuning starts injectCommands(F("M106 S204\nG4 P500\nM303 E0 S215 C15 U1")); break; case '4': // "<04HtbedPID>" SERIAL_ECHOLNPGM("Special Menu: Auto Tune Hotbed Pid"); injectCommands(F("M303 E-1 S65 C6 U1")); break; case '5': // "<05FWDeflts>" SERIAL_ECHOLNPGM("Special Menu: Load FW Defaults"); injectCommands(F("M502\nM300 P105 S1661\nM300 P210 S1108")); break; case '6': // "<06SvEEPROM>" SERIAL_ECHOLNPGM("Special Menu: Save EEPROM"); injectCommands(F("M500\nM300 P105 S1108\nM300 P210 S1661")); break; case '7': // <07SendM108> SERIAL_ECHOLNPGM("Special Menu: Send User Confirmation"); injectCommands(F("M108")); break; default: break; } break; #endif // PROBE_MANUALLY default: break; } #if ENABLED(ANYCUBIC_LCD_DEBUG) } else { SERIAL_ECHOPGM("TFT Serial Debug: Attempted to HandleSpecialMenu on non-special menu... "); SERIAL_ECHOLN(SelectedDirectory); #endif } } void AnycubicTFTClass::RenderCurrentFileList() { #if ENABLED(SDSUPPORT) uint16_t selectedNumber = 0; SelectedDirectory[0] = 0; SelectedFile[0] = 0; FileList currentFileList; SENDLINE_PGM("FN "); // Filelist start if (!isMediaInserted() && !SpecialMenu) { SENDLINE_DBG_PGM("J02", "TFT Serial Debug: No SD Card mounted to render Current File List... J02"); SENDLINE_PGM(""); SENDLINE_PGM(""); } else { if (CodeSeen('S')) selectedNumber = CodeValue(); if (SpecialMenu) RenderSpecialMenu(selectedNumber); else if (selectedNumber <= currentFileList.count()) RenderCurrentFolder(selectedNumber); } SENDLINE_PGM("END"); // Filelist stop #endif // SDSUPPORT } void AnycubicTFTClass::RenderSpecialMenu(uint16_t selectedNumber) { switch (selectedNumber) { #if ENABLED(PROBE_MANUALLY) case 0: // First Page SENDLINE_PGM("<01ZUp0.1>"); SENDLINE_PGM(""); SENDLINE_PGM("<02ZUp0.02>"); SENDLINE_PGM(""); SENDLINE_PGM("<03ZDn0.02>"); SENDLINE_PGM(""); SENDLINE_PGM("<04ZDn0.1>"); SENDLINE_PGM(""); break; case 4: // Second Page SENDLINE_PGM("<05PrehtBed>"); SENDLINE_PGM(""); SENDLINE_PGM("<06SMeshLvl>"); SENDLINE_PGM(""); SENDLINE_PGM("<07MeshNPnt>"); SENDLINE_PGM(""); SENDLINE_PGM("<08HtEndPID>"); SENDLINE_PGM(""); break; case 8: // Third Page SENDLINE_PGM("<09HtBedPID>"); SENDLINE_PGM(""); SENDLINE_PGM("<10FWDeflts>"); SENDLINE_PGM(""); SENDLINE_PGM("<11SvEEPROM>"); SENDLINE_PGM(""); SENDLINE_PGM(""); SENDLINE_PGM(""); break; #else case 0: // First Page SENDLINE_PGM("<01PrehtBed>"); SENDLINE_PGM(""); SENDLINE_PGM("<02ABL>"); SENDLINE_PGM(""); SENDLINE_PGM("<03HtEndPID>"); SENDLINE_PGM(""); SENDLINE_PGM("<04HtBedPID>"); SENDLINE_PGM(""); break; case 4: // Second Page SENDLINE_PGM("<05FWDeflts>"); SENDLINE_PGM(""); SENDLINE_PGM("<06SvEEPROM>"); SENDLINE_PGM(""); SENDLINE_PGM("<07SendM108>"); SENDLINE_PGM(""); SENDLINE_PGM(""); SENDLINE_PGM(""); break; #endif // PROBE_MANUALLY default: break; } } void AnycubicTFTClass::RenderCurrentFolder(uint16_t selectedNumber) { FileList currentFileList; uint16_t cnt = selectedNumber; uint16_t max_files; uint16_t dir_files = currentFileList.count(); if ((dir_files - selectedNumber) < 4) max_files = dir_files; else max_files = selectedNumber + 3; for (cnt = selectedNumber; cnt <= max_files; cnt++) { if (cnt == 0) { // Special Entry if (currentFileList.isAtRootDir()) { SENDLINE_PGM(""); SENDLINE_PGM(""); } else { SENDLINE_PGM("/.."); SENDLINE_PGM("/.."); } } else { currentFileList.seek(cnt - 1, false); #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLN(currentFileList.filename()); #endif if (currentFileList.isDir()) { SEND_PGM("/"); SENDLINE(currentFileList.shortFilename()); SEND_PGM("/"); SENDLINE(currentFileList.filename()); } else { SENDLINE(currentFileList.shortFilename()); SENDLINE(currentFileList.filename()); } } } } void AnycubicTFTClass::OnPrintTimerStarted() { #if ENABLED(SDSUPPORT) if (mediaPrintingState == AMPRINTSTATE_PRINTING) SENDLINE_DBG_PGM("J04", "TFT Serial Debug: Starting SD Print... J04"); // J04 Starting Print #endif } void AnycubicTFTClass::OnPrintTimerPaused() { #if ENABLED(SDSUPPORT) if (isPrintingFromMedia()) { mediaPrintingState = AMPRINTSTATE_PAUSED; mediaPauseState = AMPAUSESTATE_PARKING; } #endif } void AnycubicTFTClass::OnPrintTimerStopped() { #if ENABLED(SDSUPPORT) if (mediaPrintingState == AMPRINTSTATE_PRINTING) { mediaPrintingState = AMPRINTSTATE_NOT_PRINTING; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; SENDLINE_DBG_PGM("J14", "TFT Serial Debug: SD Print Completed... J14"); } // otherwise it was stopped by the printer so don't send print completed signal to TFT #endif } #define ROUND(val) int((val)+0.5f) void AnycubicTFTClass::GetCommandFromTFT() { char *starpos = nullptr; while (LCD_SERIAL.available() > 0 && TFTbuflen < TFTBUFSIZE) { serial3_char = LCD_SERIAL.read(); if (serial3_char == '\n' || serial3_char == '\r' || serial3_char == ':' || serial3_count >= (TFT_MAX_CMD_SIZE - 1) ) { if (!serial3_count) return; // if empty line TFTcmdbuffer[TFTbufindw][serial3_count] = 0; // terminate string if ((strchr(TFTcmdbuffer[TFTbufindw], 'A') != nullptr)) { int16_t a_command; TFTstrchr_pointer = strchr(TFTcmdbuffer[TFTbufindw], 'A'); a_command = ((int)((strtod(&TFTcmdbuffer[TFTbufindw][TFTstrchr_pointer - TFTcmdbuffer[TFTbufindw] + 1], nullptr)))); #if ENABLED(ANYCUBIC_LCD_DEBUG) if ((a_command > 7) && (a_command != 20)) // No debugging of status polls, please! SERIAL_ECHOLNPGM("TFT Serial Command: ", TFTcmdbuffer[TFTbufindw]); #endif switch (a_command) { case 0: { // A0 GET HOTEND TEMP const celsius_float_t hotendActualTemp = getActualTemp_celsius(E0); SEND_PGM_VAL("A0V ", ROUND(hotendActualTemp)); } break; case 1: { // A1 GET HOTEND TARGET TEMP const celsius_float_t hotendTargetTemp = getTargetTemp_celsius(E0); SEND_PGM_VAL("A1V ", ROUND(hotendTargetTemp)); } break; case 2: { // A2 GET HOTBED TEMP const celsius_float_t heatedBedActualTemp = getActualTemp_celsius(BED); SEND_PGM_VAL("A2V ", ROUND(heatedBedActualTemp)); } break; case 3: { // A3 GET HOTBED TARGET TEMP const celsius_float_t heatedBedTargetTemp = getTargetTemp_celsius(BED); SEND_PGM_VAL("A3V ", ROUND(heatedBedTargetTemp)); } break; case 4: { // A4 GET FAN SPEED SEND_PGM_VAL("A4V ", int(getActualFan_percent(FAN0))); } break; case 5: { // A5 GET CURRENT COORDINATE const float xPosition = getAxisPosition_mm(X), yPosition = getAxisPosition_mm(Y), zPosition = getAxisPosition_mm(Z); SEND_PGM("A5V X: "); LCD_SERIAL.print(xPosition); SEND_PGM( " Y: "); LCD_SERIAL.print(yPosition); SEND_PGM( " Z: "); LCD_SERIAL.print(zPosition); SENDLINE_PGM(""); } break; case 6: // A6 GET SD CARD PRINTING STATUS #if ENABLED(SDSUPPORT) if (isPrintingFromMedia()) { SEND_PGM("A6V "); if (isMediaInserted()) SENDLINE(ui8tostr3rj(getProgress_percent())); else SENDLINE_DBG_PGM("J02", "TFT Serial Debug: No SD Card mounted to return printing status... J02"); } else SENDLINE_PGM("A6V ---"); #endif break; case 7: { // A7 GET PRINTING TIME const uint32_t elapsedSeconds = getProgress_seconds_elapsed(); SEND_PGM("A7V "); if (elapsedSeconds != 0) { // print time const uint32_t elapsedMinutes = elapsedSeconds / 60; SEND(ui8tostr2(elapsedMinutes / 60)); SEND_PGM(" H "); SEND(ui8tostr2(elapsedMinutes % 60)); SENDLINE_PGM(" M"); } else SENDLINE_PGM(" 999:999"); } break; case 8: // A8 GET SD LIST #if ENABLED(SDSUPPORT) SelectedFile[0] = 0; RenderCurrentFileList(); #endif break; case 9: // A9 pause sd print #if ENABLED(SDSUPPORT) if (isPrintingFromMedia()) PausePrint(); #endif break; case 10: // A10 resume sd print #if ENABLED(SDSUPPORT) if (isPrintingFromMediaPaused()) ResumePrint(); #endif break; case 11: // A11 STOP SD PRINT TERN_(SDSUPPORT, StopPrint()); break; case 12: // A12 kill kill(PSTR(STR_ERR_KILLED)); break; case 13: // A13 SELECTION FILE #if ENABLED(SDSUPPORT) if (isMediaInserted()) { starpos = (strchr(TFTstrchr_pointer + 4, '*')); if (TFTstrchr_pointer[4] == '/') { strcpy(SelectedDirectory, TFTstrchr_pointer + 5); SelectedFile[0] = 0; SENDLINE_DBG_PGM("J21", "TFT Serial Debug: Clear file selection... J21 "); // J21 Not File Selected SENDLINE_PGM(""); } else if (TFTstrchr_pointer[4] == '<') { strcpy(SelectedDirectory, TFTstrchr_pointer + 4); SpecialMenu = true; SelectedFile[0] = 0; SENDLINE_DBG_PGM("J21", "TFT Serial Debug: Clear file selection... J21 "); // J21 Not File Selected SENDLINE_PGM(""); } else { SelectedDirectory[0] = 0; if (starpos) *(starpos - 1) = '\0'; strcpy(SelectedFile, TFTstrchr_pointer + 4); SENDLINE_DBG_PGM_VAL("J20", "TFT Serial Debug: File Selected... J20 ", SelectedFile); // J20 File Selected } } #endif break; case 14: // A14 START PRINTING #if ENABLED(SDSUPPORT) if (!isPrinting() && strlen(SelectedFile) > 0) StartPrint(); #endif break; case 15: // A15 RESUMING FROM OUTAGE // TODO: JBA implement resume form outage break; case 16: { // A16 set hotend temp unsigned int tempvalue; if (CodeSeen('S')) { tempvalue = constrain(CodeValue(), 0, 275); setTargetTemp_celsius(tempvalue, (extruder_t)E0); } else if (CodeSeen('C') && !isPrinting()) { if (getAxisPosition_mm(Z) < 10) injectCommands(F("G1 Z10")); // RASE Z AXIS tempvalue = constrain(CodeValue(), 0, 275); setTargetTemp_celsius(tempvalue, (extruder_t)E0); } } break; case 17: { // A17 set heated bed temp unsigned int tempbed; if (CodeSeen('S')) { tempbed = constrain(CodeValue(), 0, 100); setTargetTemp_celsius(tempbed, (heater_t)BED); } } break; case 18: { // A18 set fan speed float fanPercent; if (CodeSeen('S')) { fanPercent = CodeValue(); fanPercent = constrain(fanPercent, 0, 100); setTargetFan_percent(fanPercent, FAN0); } else fanPercent = 100; setTargetFan_percent(fanPercent, FAN0); SENDLINE_PGM(""); } break; case 19: // A19 stop stepper drivers - sent on stop extrude command and on turn motors off command if (!isPrinting()) { quickstop_stepper(); stepper.disable_all_steppers(); } SENDLINE_PGM(""); break; case 20: // A20 read printing speed if (CodeSeen('S')) feedrate_percentage = constrain(CodeValue(), 40, 999); else SEND_PGM_VAL("A20V ", feedrate_percentage); break; case 21: // A21 all home if (!isPrinting() && !isPrintingFromMediaPaused()) { if (CodeSeen('X') || CodeSeen('Y') || CodeSeen('Z')) { if (CodeSeen('X')) injectCommands(F("G28X")); if (CodeSeen('Y')) injectCommands(F("G28Y")); if (CodeSeen('Z')) injectCommands(F("G28Z")); } else if (CodeSeen('C')) { injectCommands_P(G28_STR); } } break; case 22: // A22 move X/Y/Z or extrude if (!isPrinting()) { float coorvalue; unsigned int movespeed = 0; char commandStr[30]; char fullCommandStr[38]; commandStr[0] = 0; // empty string if (CodeSeen('F')) // Set feedrate movespeed = CodeValue(); if (CodeSeen('X')) { // Move in X direction coorvalue = CodeValue(); if ((coorvalue <= 0.2) && coorvalue > 0) sprintf_P(commandStr, PSTR("G1 X0.1F%i"), movespeed); else if ((coorvalue <= -0.1) && coorvalue > -1) sprintf_P(commandStr, PSTR("G1 X-0.1F%i"), movespeed); else sprintf_P(commandStr, PSTR("G1 X%iF%i"), int(coorvalue), movespeed); } else if (CodeSeen('Y')) { // Move in Y direction coorvalue = CodeValue(); if ((coorvalue <= 0.2) && coorvalue > 0) sprintf_P(commandStr, PSTR("G1 Y0.1F%i"), movespeed); else if ((coorvalue <= -0.1) && coorvalue > -1) sprintf_P(commandStr, PSTR("G1 Y-0.1F%i"), movespeed); else sprintf_P(commandStr, PSTR("G1 Y%iF%i"), int(coorvalue), movespeed); } else if (CodeSeen('Z')) { // Move in Z direction coorvalue = CodeValue(); if ((coorvalue <= 0.2) && coorvalue > 0) sprintf_P(commandStr, PSTR("G1 Z0.1F%i"), movespeed); else if ((coorvalue <= -0.1) && coorvalue > -1) sprintf_P(commandStr, PSTR("G1 Z-0.1F%i"), movespeed); else sprintf_P(commandStr, PSTR("G1 Z%iF%i"), int(coorvalue), movespeed); } else if (CodeSeen('E')) { // Extrude coorvalue = CodeValue(); if ((coorvalue <= 0.2) && coorvalue > 0) sprintf_P(commandStr, PSTR("G1 E0.1F%i"), movespeed); else if ((coorvalue <= -0.1) && coorvalue > -1) sprintf_P(commandStr, PSTR("G1 E-0.1F%i"), movespeed); else sprintf_P(commandStr, PSTR("G1 E%iF500"), int(coorvalue)); } if (strlen(commandStr) > 0) { sprintf_P(fullCommandStr, PSTR("G91\n%s\nG90"), commandStr); #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOPGM("TFT Serial Debug: A22 Move final request with gcode... "); SERIAL_ECHOLN(fullCommandStr); #endif injectCommands(fullCommandStr); } } SENDLINE_PGM(""); break; case 23: // A23 preheat pla if (!isPrinting()) { if (getAxisPosition_mm(Z) < 10) injectCommands(F("G1 Z10")); // RASE Z AXIS setTargetTemp_celsius(PREHEAT_1_TEMP_BED, (heater_t)BED); setTargetTemp_celsius(PREHEAT_1_TEMP_HOTEND, (extruder_t)E0); SENDLINE_PGM("OK"); } break; case 24:// A24 preheat abs if (!isPrinting()) { if (getAxisPosition_mm(Z) < 10) injectCommands(F("G1 Z10")); // RASE Z AXIS setTargetTemp_celsius(PREHEAT_2_TEMP_BED, (heater_t)BED); setTargetTemp_celsius(PREHEAT_2_TEMP_HOTEND, (extruder_t)E0); SENDLINE_PGM("OK"); } break; case 25: // A25 cool down if (!isPrinting()) { setTargetTemp_celsius(0, (heater_t) BED); setTargetTemp_celsius(0, (extruder_t) E0); SENDLINE_DBG_PGM("J12", "TFT Serial Debug: Cooling down... J12"); // J12 cool down } break; case 26: // A26 refresh SD #if ENABLED(SDSUPPORT) if (isMediaInserted()) { if (strlen(SelectedDirectory) > 0) { FileList currentFileList; if ((SelectedDirectory[0] == '.') && (SelectedDirectory[1] == '.')) { currentFileList.upDir(); } else { if (SelectedDirectory[0] == '<') HandleSpecialMenu(); else currentFileList.changeDir(SelectedDirectory); } } } else { SENDLINE_DBG_PGM("J02", "TFT Serial Debug: No SD Card mounted to refresh SD A26... J02"); } SelectedDirectory[0] = 0; #endif break; #if ENABLED(SERVO_ENDSTOPS) case 27: break; // A27 servos angles adjust #endif case 28: // A28 filament test if (CodeSeen('O')) NOOP; else if (CodeSeen('C')) NOOP; SENDLINE_PGM(""); break; case 33: // A33 get version info SEND_PGM("J33 "); SENDLINE_PGM(DETAILED_BUILD_VERSION); break; default: break; } } TFTbufindw = (TFTbufindw + 1) % TFTBUFSIZE; TFTbuflen += 1; serial3_count = 0; // clear buffer } else { TFTcmdbuffer[TFTbufindw][serial3_count++] = serial3_char; } } } void AnycubicTFTClass::DoSDCardStateCheck() { #if ENABLED(SDSUPPORT) && PIN_EXISTS(SD_DETECT) bool isInserted = isMediaInserted(); if (isInserted) SENDLINE_DBG_PGM("J00", "TFT Serial Debug: SD card state changed... isInserted"); else SENDLINE_DBG_PGM("J01", "TFT Serial Debug: SD card state changed... !isInserted"); #endif } void AnycubicTFTClass::DoFilamentRunoutCheck() { #if ENABLED(FILAMENT_RUNOUT_SENSOR) // NOTE: getFilamentRunoutState() only returns the runout state if the job is printing // we want to actually check the status of the pin here, regardless of printstate if (READ(FIL_RUNOUT1_PIN)) { if (mediaPrintingState == AMPRINTSTATE_PRINTING || mediaPrintingState == AMPRINTSTATE_PAUSED || mediaPrintingState == AMPRINTSTATE_PAUSE_REQUESTED) { // play tone to indicate filament is out injectCommands(F("\nM300 P200 S1567\nM300 P200 S1174\nM300 P200 S1567\nM300 P200 S1174\nM300 P2000 S1567")); // tell the user that the filament has run out and wait SENDLINE_DBG_PGM("J23", "TFT Serial Debug: Blocking filament prompt... J23"); } else { SENDLINE_DBG_PGM("J15", "TFT Serial Debug: Non blocking filament runout... J15"); } } #endif // FILAMENT_RUNOUT_SENSOR } void AnycubicTFTClass::StartPrint() { #if ENABLED(SDSUPPORT) if (!isPrinting() && strlen(SelectedFile) > 0) { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOPGM("TFT Serial Debug: About to print file ... "); SERIAL_ECHO(isPrinting()); SERIAL_ECHOPGM(" "); SERIAL_ECHOLN(SelectedFile); #endif mediaPrintingState = AMPRINTSTATE_PRINTING; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; printFile(SelectedFile); } #endif // SDUPPORT } void AnycubicTFTClass::PausePrint() { #if ENABLED(SDSUPPORT) if (isPrintingFromMedia() && mediaPrintingState != AMPRINTSTATE_STOP_REQUESTED && mediaPauseState == AMPAUSESTATE_NOT_PAUSED) { mediaPrintingState = AMPRINTSTATE_PAUSE_REQUESTED; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; // need the userconfirm method to update pause state SENDLINE_DBG_PGM("J05", "TFT Serial Debug: SD print pause started... J05"); // J05 printing pause // for some reason pausing the print doesn't retract the extruder so force a manual one here injectCommands(F("G91\nG1 E-2 F1800\nG90")); pausePrint(); } #endif } void AnycubicTFTClass::ResumePrint() { #if ENABLED(SDSUPPORT) #if ENABLED(FILAMENT_RUNOUT_SENSOR) if (READ(FIL_RUNOUT1_PIN)) { #if ENABLED(ANYCUBIC_LCD_DEBUG) SERIAL_ECHOLNPGM("TFT Serial Debug: Resume Print with filament sensor still tripped... "); #endif // trigger the user message box DoFilamentRunoutCheck(); // re-enable the continue button SENDLINE_DBG_PGM("J18", "TFT Serial Debug: Resume Print with filament sensor still tripped... J18"); return; } #endif if (mediaPauseState == AMPAUSESTATE_HEATER_TIMEOUT) { mediaPauseState = AMPAUSESTATE_REHEATING; // TODO: JBA I don't think J05 just disables the continue button, i think it injects a rogue M25. So taking this out // // disable the continue button // SENDLINE_DBG_PGM("J05", "TFT Serial Debug: Resume called with heater timeout... J05"); // J05 printing pause // reheat the nozzle setUserConfirmed(); } else { mediaPrintingState = AMPRINTSTATE_PRINTING; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; SENDLINE_DBG_PGM("J04", "TFT Serial Debug: SD print resumed... J04"); // J04 printing form sd card now resumePrint(); } #endif } void AnycubicTFTClass::StopPrint() { #if ENABLED(SDSUPPORT) mediaPrintingState = AMPRINTSTATE_STOP_REQUESTED; mediaPauseState = AMPAUSESTATE_NOT_PAUSED; SENDLINE_DBG_PGM("J16", "TFT Serial Debug: SD print stop called... J16"); // for some reason stopping the print doesn't retract the extruder so force a manual one here injectCommands(F("G91\nG1 E-2 F1800\nG90")); stopPrint(); #endif } #endif // ANYCUBIC_LCD_I3MEGA