/** * Marlin 3D Printer Firmware * Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin] * * Based on Sprinter and grbl. * Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include "../../../inc/MarlinConfigPre.h" #if HAS_DGUS_LCD #include "DGUSScreenHandler.h" #include "../../../MarlinCore.h" #include "../../../gcode/queue.h" #include "../../../libs/duration_t.h" #include "../../../module/settings.h" #include "../../../module/temperature.h" #include "../../../module/motion.h" #include "../../../module/planner.h" #include "../../../module/printcounter.h" #include "../../../sd/cardreader.h" #if ENABLED(POWER_LOSS_RECOVERY) #include "../../../feature/powerloss.h" #endif DGUSScreenHandler ScreenHandler; uint16_t DGUSScreenHandler::ConfirmVP; DGUSLCD_Screens DGUSScreenHandler::current_screen; DGUSLCD_Screens DGUSScreenHandler::past_screens[NUM_PAST_SCREENS]; uint8_t DGUSScreenHandler::update_ptr; uint16_t DGUSScreenHandler::skipVP; bool DGUSScreenHandler::ScreenComplete; void (*DGUSScreenHandler::confirm_action_cb)() = nullptr; #if ENABLED(SDSUPPORT) int16_t DGUSScreenHandler::top_file = 0, DGUSScreenHandler::file_to_print = 0; static ExtUI::FileList filelist; #endif #if ENABLED(DGUS_FILAMENT_LOADUNLOAD) filament_data_t filament_data; #endif void DGUSScreenHandler::sendinfoscreen(const char *line1, const char *line2, const char *line3, const char *line4, bool l1inflash, bool l2inflash, bool l3inflash, bool l4inflash) { DGUS_VP_Variable ramcopy; if (populate_VPVar(VP_MSGSTR1, &ramcopy)) { ramcopy.memadr = (void*) line1; l1inflash ? DGUSScreenHandler::DGUSLCD_SendStringToDisplayPGM(ramcopy) : DGUSScreenHandler::DGUSLCD_SendStringToDisplay(ramcopy); } if (populate_VPVar(VP_MSGSTR2, &ramcopy)) { ramcopy.memadr = (void*) line2; l2inflash ? DGUSScreenHandler::DGUSLCD_SendStringToDisplayPGM(ramcopy) : DGUSScreenHandler::DGUSLCD_SendStringToDisplay(ramcopy); } if (populate_VPVar(VP_MSGSTR3, &ramcopy)) { ramcopy.memadr = (void*) line3; l3inflash ? DGUSScreenHandler::DGUSLCD_SendStringToDisplayPGM(ramcopy) : DGUSScreenHandler::DGUSLCD_SendStringToDisplay(ramcopy); } if (populate_VPVar(VP_MSGSTR4, &ramcopy)) { ramcopy.memadr = (void*) line4; l4inflash ? DGUSScreenHandler::DGUSLCD_SendStringToDisplayPGM(ramcopy) : DGUSScreenHandler::DGUSLCD_SendStringToDisplay(ramcopy); } } void DGUSScreenHandler::HandleUserConfirmationPopUp(uint16_t VP, const char *line1, const char *line2, const char *line3, const char *line4, bool l1, bool l2, bool l3, bool l4) { if (current_screen == DGUSLCD_SCREEN_CONFIRM) // Already showing a pop up, so we need to cancel that first. PopToOldScreen(); ConfirmVP = VP; sendinfoscreen(line1, line2, line3, line4, l1, l2, l3, l4); GotoScreen(DGUSLCD_SCREEN_CONFIRM); } void DGUSScreenHandler::setstatusmessage(const char *msg) { DGUS_VP_Variable ramcopy; if (populate_VPVar(VP_M117, &ramcopy)) { ramcopy.memadr = (void*) msg; DGUSLCD_SendStringToDisplay(ramcopy); } } void DGUSScreenHandler::setstatusmessagePGM(PGM_P const msg) { DGUS_VP_Variable ramcopy; if (populate_VPVar(VP_M117, &ramcopy)) { ramcopy.memadr = (void*) msg; DGUSLCD_SendStringToDisplayPGM(ramcopy); } } // Send an 8 bit or 16 bit value to the display. void DGUSScreenHandler::DGUSLCD_SendWordValueToDisplay(DGUS_VP_Variable &var) { if (var.memadr) { //DEBUG_ECHOPAIR(" DGUS_LCD_SendWordValueToDisplay ", var.VP); //DEBUG_ECHOLNPAIR(" data ", *(uint16_t *)var.memadr); if (var.size > 1) dgusdisplay.WriteVariable(var.VP, *(int16_t*)var.memadr); else dgusdisplay.WriteVariable(var.VP, *(int8_t*)var.memadr); } } // Send an uint8_t between 0 and 255 to the display, but scale to a percentage (0..100) void DGUSScreenHandler::DGUSLCD_SendPercentageToDisplay(DGUS_VP_Variable &var) { if (var.memadr) { //DEBUG_ECHOPAIR(" DGUS_LCD_SendWordValueToDisplay ", var.VP); //DEBUG_ECHOLNPAIR(" data ", *(uint16_t *)var.memadr); uint16_t tmp = *(uint8_t *) var.memadr + 1; // +1 -> avoid rounding issues for the display. tmp = map(tmp, 0, 255, 0, 100); dgusdisplay.WriteVariable(var.VP, tmp); } } // Send the current print progress to the display. void DGUSScreenHandler::DGUSLCD_SendPrintProgressToDisplay(DGUS_VP_Variable &var) { //DEBUG_ECHOPAIR(" DGUSLCD_SendPrintProgressToDisplay ", var.VP); uint16_t tmp = ExtUI::getProgress_percent(); //DEBUG_ECHOLNPAIR(" data ", tmp); dgusdisplay.WriteVariable(var.VP, tmp); } // Send the current print time to the display. // It is using a hex display for that: It expects BSD coded data in the format xxyyzz void DGUSScreenHandler::DGUSLCD_SendPrintTimeToDisplay(DGUS_VP_Variable &var) { duration_t elapsed = print_job_timer.duration(); char buf[32]; elapsed.toString(buf); dgusdisplay.WriteVariable(VP_PrintTime, buf, var.size, true); } // Send an uint8_t between 0 and 100 to a variable scale to 0..255 void DGUSScreenHandler::DGUSLCD_PercentageToUint8(DGUS_VP_Variable &var, void *val_ptr) { if (var.memadr) { uint16_t value = swap16(*(uint16_t*)val_ptr); DEBUG_ECHOLNPAIR("FAN value get:", value); *(uint8_t*)var.memadr = map(constrain(value, 0, 100), 0, 100, 0, 255); DEBUG_ECHOLNPAIR("FAN value change:", *(uint8_t*)var.memadr); } } // Sends a (RAM located) string to the DGUS Display // (Note: The DGUS Display does not clear after the \0, you have to // overwrite the remainings with spaces.// var.size has the display buffer size! void DGUSScreenHandler::DGUSLCD_SendStringToDisplay(DGUS_VP_Variable &var) { char *tmp = (char*) var.memadr; dgusdisplay.WriteVariable(var.VP, tmp, var.size, true); } // Sends a (flash located) string to the DGUS Display // (Note: The DGUS Display does not clear after the \0, you have to // overwrite the remainings with spaces.// var.size has the display buffer size! void DGUSScreenHandler::DGUSLCD_SendStringToDisplayPGM(DGUS_VP_Variable &var) { char *tmp = (char*) var.memadr; dgusdisplay.WriteVariablePGM(var.VP, tmp, var.size, true); } #if HAS_PID_HEATING void DGUSScreenHandler::DGUSLCD_SendTemperaturePID(DGUS_VP_Variable &var) { float value = *(float *)var.memadr; value /= 10; float valuesend = 0; switch (var.VP) { default: return; #if HOTENDS >= 1 case VP_E0_PID_P: valuesend = value; break; case VP_E0_PID_I: valuesend = unscalePID_i(value); break; case VP_E0_PID_D: valuesend = unscalePID_d(value); break; #endif #if HOTENDS >= 2 case VP_E1_PID_P: valuesend = value; break; case VP_E1_PID_I: valuesend = unscalePID_i(value); break; case VP_E1_PID_D: valuesend = unscalePID_d(value); break; #endif #if HAS_HEATED_BED case VP_BED_PID_P: valuesend = value; break; case VP_BED_PID_I: valuesend = unscalePID_i(value); break; case VP_BED_PID_D: valuesend = unscalePID_d(value); break; #endif } valuesend *= cpow(10, 1); union { int16_t i; char lb[2]; } endian; char tmp[2]; endian.i = valuesend; tmp[0] = endian.lb[1]; tmp[1] = endian.lb[0]; dgusdisplay.WriteVariable(var.VP, tmp, 2); } #endif #if ENABLED(PRINTCOUNTER) // Send the accumulate print time to the display. // It is using a hex display for that: It expects BSD coded data in the format xxyyzz void DGUSScreenHandler::DGUSLCD_SendPrintAccTimeToDisplay(DGUS_VP_Variable &var) { printStatistics state = print_job_timer.getStats(); char buf[22]; duration_t elapsed = state.printTime; elapsed.toString(buf); dgusdisplay.WriteVariable(VP_PrintAccTime, buf, var.size, true); } void DGUSScreenHandler::DGUSLCD_SendPrintsTotalToDisplay(DGUS_VP_Variable &var) { printStatistics state = print_job_timer.getStats(); char buf[10]; sprintf_P(buf, PSTR("%u"), state.totalPrints); dgusdisplay.WriteVariable(VP_PrintsTotal, buf, var.size, true); } #endif // Send fan status value to the display. #if HAS_FAN void DGUSScreenHandler::DGUSLCD_SendFanStatusToDisplay(DGUS_VP_Variable &var) { if (var.memadr) { DEBUG_ECHOPAIR(" DGUSLCD_SendFanStatusToDisplay ", var.VP); DEBUG_ECHOLNPAIR(" data ", *(uint8_t *)var.memadr); uint16_t data_to_send = 0; if (*(uint8_t *) var.memadr) data_to_send = 1; dgusdisplay.WriteVariable(var.VP, data_to_send); } } #endif // Send heater status value to the display. void DGUSScreenHandler::DGUSLCD_SendHeaterStatusToDisplay(DGUS_VP_Variable &var) { if (var.memadr) { DEBUG_ECHOPAIR(" DGUSLCD_SendHeaterStatusToDisplay ", var.VP); DEBUG_ECHOLNPAIR(" data ", *(int16_t *)var.memadr); uint16_t data_to_send = 0; if (*(int16_t *) var.memadr) data_to_send = 1; dgusdisplay.WriteVariable(var.VP, data_to_send); } } #if ENABLED(DGUS_UI_WAITING) void DGUSScreenHandler::DGUSLCD_SendWaitingStatusToDisplay(DGUS_VP_Variable &var) { // In FYSETC UI design there are 10 statuses to loop static uint16_t period = 0; static uint16_t index = 0; //DEBUG_ECHOPAIR(" DGUSLCD_SendWaitingStatusToDisplay ", var.VP); //DEBUG_ECHOLNPAIR(" data ", swap16(index)); if (period++ > DGUS_UI_WAITING_STATUS_PERIOD) { dgusdisplay.WriteVariable(var.VP, index); //DEBUG_ECHOLNPAIR(" data ", swap16(index)); if (++index >= DGUS_UI_WAITING_STATUS) index = 0; period = 0; } } #endif #if ENABLED(SDSUPPORT) void DGUSScreenHandler::ScreenChangeHookIfSD(DGUS_VP_Variable &var, void *val_ptr) { // default action executed when there is a SD card, but not printing if (ExtUI::isMediaInserted() && !ExtUI::isPrintingFromMedia()) { ScreenChangeHook(var, val_ptr); dgusdisplay.RequestScreen(current_screen); return; } // if we are printing, we jump to two screens after the requested one. // This should host e.g a print pause / print abort / print resume dialog. // This concept allows to recycle this hook for other file if (ExtUI::isPrintingFromMedia() && !card.flag.abort_sd_printing) { GotoScreen(DGUSLCD_SCREEN_SDPRINTMANIPULATION); return; } // Don't let the user in the dark why there is no reaction. if (!ExtUI::isMediaInserted()) { setstatusmessagePGM(GET_TEXT(MSG_NO_MEDIA)); return; } if (card.flag.abort_sd_printing) { setstatusmessagePGM(GET_TEXT(MSG_MEDIA_ABORTING)); return; } } void DGUSScreenHandler::DGUSLCD_SD_ScrollFilelist(DGUS_VP_Variable& var, void *val_ptr) { auto old_top = top_file; const int16_t scroll = (int16_t)swap16(*(uint16_t*)val_ptr); if (scroll) { top_file += scroll; DEBUG_ECHOPAIR("new topfile calculated:", top_file); if (top_file < 0) { top_file = 0; DEBUG_ECHOLNPGM("Top of filelist reached"); } else { int16_t max_top = filelist.count() - DGUS_SD_FILESPERSCREEN; NOLESS(max_top, 0); NOMORE(top_file, max_top); } DEBUG_ECHOPAIR("new topfile adjusted:", top_file); } else if (!filelist.isAtRootDir()) { IF_DISABLED(DGUS_LCD_UI_MKS, filelist.upDir()); top_file = 0; ForceCompleteUpdate(); } if (old_top != top_file) ForceCompleteUpdate(); } void DGUSScreenHandler::DGUSLCD_SD_ReallyAbort(DGUS_VP_Variable &var, void *val_ptr) { ExtUI::stopPrint(); GotoScreen(DGUSLCD_SCREEN_MAIN); } void DGUSScreenHandler::DGUSLCD_SD_PrintTune(DGUS_VP_Variable &var, void *val_ptr) { if (!ExtUI::isPrintingFromMedia()) return; // avoid race condition when user stays in this menu and printer finishes. GotoScreen(DGUSLCD_SCREEN_SDPRINTTUNE); } void DGUSScreenHandler::SDCardError() { DGUSScreenHandler::SDCardRemoved(); sendinfoscreen(PSTR("NOTICE"), nullptr, PSTR("SD card error"), nullptr, true, true, true, true); SetupConfirmAction(nullptr); GotoScreen(DGUSLCD_SCREEN_POPUP); } #endif // SDSUPPORT void DGUSScreenHandler::ScreenConfirmedOK(DGUS_VP_Variable &var, void *val_ptr) { DGUS_VP_Variable ramcopy; if (!populate_VPVar(ConfirmVP, &ramcopy)) return; if (ramcopy.set_by_display_handler) ramcopy.set_by_display_handler(ramcopy, val_ptr); } const uint16_t* DGUSLCD_FindScreenVPMapList(uint8_t screen) { const uint16_t *ret; const struct VPMapping *map = VPMap; while ((ret = (uint16_t*) pgm_read_ptr(&(map->VPList)))) { if (pgm_read_byte(&(map->screen)) == screen) return ret; map++; } return nullptr; } const DGUS_VP_Variable* DGUSLCD_FindVPVar(const uint16_t vp) { const DGUS_VP_Variable *ret = ListOfVP; do { const uint16_t vpcheck = pgm_read_word(&(ret->VP)); if (vpcheck == 0) break; if (vpcheck == vp) return ret; ++ret; } while (1); DEBUG_ECHOLNPAIR("FindVPVar NOT FOUND ", vp); return nullptr; } void DGUSScreenHandler::ScreenChangeHookIfIdle(DGUS_VP_Variable &var, void *val_ptr) { if (!ExtUI::isPrinting()) { ScreenChangeHook(var, val_ptr); dgusdisplay.RequestScreen(current_screen); } } void DGUSScreenHandler::HandleAllHeatersOff(DGUS_VP_Variable &var, void *val_ptr) { thermalManager.disable_all_heaters(); ForceCompleteUpdate(); // hint to send all data. } void DGUSScreenHandler::HandleTemperatureChanged(DGUS_VP_Variable &var, void *val_ptr) { celsius_t newvalue = swap16(*(uint16_t*)val_ptr); celsius_t acceptedvalue; switch (var.VP) { default: return; #if HOTENDS >= 1 case VP_T_E0_Set: NOMORE(newvalue, HEATER_0_MAXTEMP); thermalManager.setTargetHotend(newvalue, 0); acceptedvalue = thermalManager.degTargetHotend(0); break; #endif #if HOTENDS >= 2 case VP_T_E1_Set: NOMORE(newvalue, HEATER_1_MAXTEMP); thermalManager.setTargetHotend(newvalue, 1); acceptedvalue = thermalManager.degTargetHotend(1); break; #endif #if HAS_HEATED_BED case VP_T_Bed_Set: NOMORE(newvalue, BED_MAXTEMP); thermalManager.setTargetBed(newvalue); acceptedvalue = thermalManager.degTargetBed(); break; #endif } // reply to display the new value to update the view if the new value was rejected by the Thermal Manager. if (newvalue != acceptedvalue && var.send_to_display_handler) var.send_to_display_handler(var); skipVP = var.VP; // don't overwrite value the next update time as the display might autoincrement in parallel } void DGUSScreenHandler::HandleFlowRateChanged(DGUS_VP_Variable &var, void *val_ptr) { #if HAS_EXTRUDERS uint16_t newvalue = swap16(*(uint16_t*)val_ptr); uint8_t target_extruder; switch (var.VP) { default: return; #if HOTENDS >= 1 case VP_Flowrate_E0: target_extruder = 0; break; #endif #if HOTENDS >= 2 case VP_Flowrate_E1: target_extruder = 1; break; #endif } planner.set_flow(target_extruder, newvalue); skipVP = var.VP; // don't overwrite value the next update time as the display might autoincrement in parallel #else UNUSED(var); UNUSED(val_ptr); #endif } void DGUSScreenHandler::HandleManualExtrude(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleManualExtrude"); int16_t movevalue = swap16(*(uint16_t*)val_ptr); float target = movevalue * 0.01f; ExtUI::extruder_t target_extruder; switch (var.VP) { #if HOTENDS >= 1 case VP_MOVE_E0: target_extruder = ExtUI::extruder_t::E0; break; #endif #if HOTENDS >= 2 case VP_MOVE_E1: target_extruder = ExtUI::extruder_t::E1; break; #endif default: return; } target += ExtUI::getAxisPosition_mm(target_extruder); ExtUI::setAxisPosition_mm(target, target_extruder); skipVP = var.VP; } #if ENABLED(DGUS_UI_MOVE_DIS_OPTION) void DGUSScreenHandler::HandleManualMoveOption(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleManualMoveOption"); *(uint16_t*)var.memadr = swap16(*(uint16_t*)val_ptr); } #endif void DGUSScreenHandler::HandleMotorLockUnlock(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleMotorLockUnlock"); char buf[4]; const int16_t lock = swap16(*(uint16_t*)val_ptr); strcpy_P(buf, lock ? PSTR("M18") : PSTR("M17")); //DEBUG_ECHOPAIR(" ", buf); queue.enqueue_one_now(buf); } void DGUSScreenHandler::HandleSettings(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleSettings"); uint16_t value = swap16(*(uint16_t*)val_ptr); switch (value) { default: break; case 1: TERN_(PRINTCOUNTER, print_job_timer.initStats()); settings.reset(); settings.save(); break; case 2: settings.load(); break; case 3: settings.save(); break; } } void DGUSScreenHandler::HandleStepPerMMChanged(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleStepPerMMChanged"); uint16_t value_raw = swap16(*(uint16_t*)val_ptr); DEBUG_ECHOLNPAIR("value_raw:", value_raw); float value = (float)value_raw / 10; ExtUI::axis_t axis; switch (var.VP) { case VP_X_STEP_PER_MM: axis = ExtUI::axis_t::X; break; case VP_Y_STEP_PER_MM: axis = ExtUI::axis_t::Y; break; case VP_Z_STEP_PER_MM: axis = ExtUI::axis_t::Z; break; default: return; } DEBUG_ECHOLNPAIR_F("value:", value); ExtUI::setAxisSteps_per_mm(value, axis); DEBUG_ECHOLNPAIR_F("value_set:", ExtUI::getAxisSteps_per_mm(axis)); skipVP = var.VP; // don't overwrite value the next update time as the display might autoincrement in parallel return; } void DGUSScreenHandler::HandleStepPerMMExtruderChanged(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleStepPerMMExtruderChanged"); uint16_t value_raw = swap16(*(uint16_t*)val_ptr); DEBUG_ECHOLNPAIR("value_raw:", value_raw); float value = (float)value_raw / 10; ExtUI::extruder_t extruder; switch (var.VP) { default: return; #if HOTENDS >= 1 case VP_E0_STEP_PER_MM: extruder = ExtUI::extruder_t::E0; break; #endif #if HOTENDS >= 2 case VP_E1_STEP_PER_MM: extruder = ExtUI::extruder_t::E1; break; #endif } DEBUG_ECHOLNPAIR_F("value:", value); ExtUI::setAxisSteps_per_mm(value, extruder); DEBUG_ECHOLNPAIR_F("value_set:", ExtUI::getAxisSteps_per_mm(extruder)); skipVP = var.VP; // don't overwrite value the next update time as the display might autoincrement in parallel } #if HAS_PID_HEATING void DGUSScreenHandler::HandlePIDAutotune(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandlePIDAutotune"); char buf[32] = {0}; switch (var.VP) { default: break; #if ENABLED(PIDTEMP) #if HOTENDS >= 1 case VP_PID_AUTOTUNE_E0: // Autotune Extruder 0 sprintf_P(buf, PSTR("M303 E%d C5 S210 U1"), ExtUI::extruder_t::E0); break; #endif #if HOTENDS >= 2 case VP_PID_AUTOTUNE_E1: sprintf_P(buf, PSTR("M303 E%d C5 S210 U1"), ExtUI::extruder_t::E1); break; #endif #endif #if ENABLED(PIDTEMPBED) case VP_PID_AUTOTUNE_BED: sprintf_P(buf, PSTR("M303 E-1 C5 S70 U1")); break; #endif } if (buf[0]) queue.enqueue_one_now(buf); #if ENABLED(DGUS_UI_WAITING) sendinfoscreen(PSTR("PID is autotuning"), PSTR("please wait"), NUL_STR, NUL_STR, true, true, true, true); GotoScreen(DGUSLCD_SCREEN_WAITING); #endif } #endif // HAS_PID_HEATING #if HAS_BED_PROBE void DGUSScreenHandler::HandleProbeOffsetZChanged(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleProbeOffsetZChanged"); const float offset = float(int16_t(swap16(*(uint16_t*)val_ptr))) / 100.0f; ExtUI::setZOffset_mm(offset); skipVP = var.VP; // don't overwrite value the next update time as the display might autoincrement in parallel return; } #endif #if HAS_FAN void DGUSScreenHandler::HandleFanControl(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleFanControl"); *(uint8_t*)var.memadr = *(uint8_t*)var.memadr > 0 ? 0 : 255; } #endif void DGUSScreenHandler::HandleHeaterControl(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandleHeaterControl"); uint8_t preheat_temp = 0; switch (var.VP) { #if HOTENDS >= 1 case VP_E0_CONTROL: #endif #if HOTENDS >= 2 case VP_E1_CONTROL: #endif #if HOTENDS >= 3 case VP_E2_CONTROL: #endif preheat_temp = PREHEAT_1_TEMP_HOTEND; break; case VP_BED_CONTROL: preheat_temp = PREHEAT_1_TEMP_BED; break; } *(int16_t*)var.memadr = *(int16_t*)var.memadr > 0 ? 0 : preheat_temp; } #if ENABLED(DGUS_PREHEAT_UI) void DGUSScreenHandler::HandlePreheat(DGUS_VP_Variable &var, void *val_ptr) { DEBUG_ECHOLNPGM("HandlePreheat"); uint8_t e_temp = 0; #if ENABLED(HAS_HEATED_BED) uint8_t bed_temp = 0; #endif const uint16_t preheat_option = swap16(*(uint16_t*)val_ptr); switch (preheat_option) { default: case 0: // Preheat PLA #if defined(PREHEAT_1_TEMP_HOTEND) && defined(PREHEAT_1_TEMP_BED) e_temp = PREHEAT_1_TEMP_HOTEND; TERN_(HAS_HEATED_BED, bed_temp = PREHEAT_1_TEMP_BED); #endif break; case 1: // Preheat ABS #if defined(PREHEAT_2_TEMP_HOTEND) && defined(PREHEAT_2_TEMP_BED) e_temp = PREHEAT_2_TEMP_HOTEND; TERN_(HAS_HEATED_BED, bed_temp = PREHEAT_2_TEMP_BED); #endif break; case 2: // Preheat PET #if defined(PREHEAT_3_TEMP_HOTEND) && defined(PREHEAT_3_TEMP_BED) e_temp = PREHEAT_3_TEMP_HOTEND; TERN_(HAS_HEATED_BED, bed_temp = PREHEAT_3_TEMP_BED); #endif break; case 3: // Preheat FLEX #if defined(PREHEAT_4_TEMP_HOTEND) && defined(PREHEAT_4_TEMP_BED) e_temp = PREHEAT_4_TEMP_HOTEND; TERN_(HAS_HEATED_BED, bed_temp = PREHEAT_4_TEMP_BED); #endif break; case 7: break; // Custom preheat case 9: break; // Cool down } switch (var.VP) { default: return; #if HOTENDS >= 1 case VP_E0_BED_PREHEAT: thermalManager.setTargetHotend(e_temp, 0); TERN_(HAS_HEATED_BED, thermalManager.setTargetBed(bed_temp)); break; #endif #if HOTENDS >= 2 case VP_E1_BED_PREHEAT: thermalManager.setTargetHotend(e_temp, 1); TERN_(HAS_HEATED_BED, thermalManager.setTargetBed(bed_temp)); break; #endif } // Go to the preheat screen to show the heating progress GotoScreen(DGUSLCD_SCREEN_PREHEAT); } #endif // DGUS_PREHEAT_UI #if ENABLED(POWER_LOSS_RECOVERY) void DGUSScreenHandler::HandlePowerLossRecovery(DGUS_VP_Variable &var, void *val_ptr) { uint16_t value = swap16(*(uint16_t*)val_ptr); if (value) { queue.inject_P(PSTR("M1000")); dgusdisplay.WriteVariable(VP_SD_Print_Filename, filelist.filename(), 32, true); GotoScreen(PLR_SCREEN_RECOVER); } else { recovery.cancel(); GotoScreen(PLR_SCREEN_CANCEL); } } #endif void DGUSScreenHandler::UpdateNewScreen(DGUSLCD_Screens newscreen, bool popup) { DEBUG_ECHOLNPAIR("SetNewScreen: ", newscreen); if (!popup) { memmove(&past_screens[1], &past_screens[0], sizeof(past_screens) - 1); past_screens[0] = current_screen; } current_screen = newscreen; skipVP = 0; ForceCompleteUpdate(); } void DGUSScreenHandler::PopToOldScreen() { DEBUG_ECHOLNPAIR("PopToOldScreen s=", past_screens[0]); GotoScreen(past_screens[0], true); memmove(&past_screens[0], &past_screens[1], sizeof(past_screens) - 1); past_screens[sizeof(past_screens) - 1] = DGUSLCD_SCREEN_MAIN; } void DGUSScreenHandler::UpdateScreenVPData() { DEBUG_ECHOPAIR(" UpdateScreenVPData Screen: ", current_screen); const uint16_t *VPList = DGUSLCD_FindScreenVPMapList(current_screen); if (!VPList) { DEBUG_ECHOLNPAIR(" NO SCREEN FOR: ", current_screen); ScreenComplete = true; return; // nothing to do, likely a bug or boring screen. } // Round-robin updating of all VPs. VPList += update_ptr; bool sent_one = false; do { uint16_t VP = pgm_read_word(VPList); DEBUG_ECHOPAIR(" VP: ", VP); if (!VP) { update_ptr = 0; DEBUG_ECHOLNPGM(" UpdateScreenVPData done"); ScreenComplete = true; return; // Screen completed. } if (VP == skipVP) { skipVP = 0; continue; } DGUS_VP_Variable rcpy; if (populate_VPVar(VP, &rcpy)) { uint8_t expected_tx = 6 + rcpy.size; // expected overhead is 6 bytes + payload. // Send the VP to the display, but try to avoid overrunning the Tx Buffer. // But send at least one VP, to avoid getting stalled. if (rcpy.send_to_display_handler && (!sent_one || expected_tx <= dgusdisplay.GetFreeTxBuffer())) { //DEBUG_ECHOPAIR(" calling handler for ", rcpy.VP); sent_one = true; rcpy.send_to_display_handler(rcpy); } else { // auto x=dgusdisplay.GetFreeTxBuffer(); //DEBUG_ECHOLNPAIR(" tx almost full: ", x); //DEBUG_ECHOPAIR(" update_ptr ", update_ptr); ScreenComplete = false; return; // please call again! } } } while (++update_ptr, ++VPList, true); } void DGUSScreenHandler::GotoScreen(DGUSLCD_Screens screen, bool ispopup) { dgusdisplay.RequestScreen(screen); UpdateNewScreen(screen, ispopup); } void DGUSDisplay::RequestScreen(DGUSLCD_Screens screen) { DEBUG_ECHOLNPAIR("GotoScreen ", screen); const unsigned char gotoscreen[] = { 0x5A, 0x01, (unsigned char) (screen >> 8U), (unsigned char) (screen & 0xFFU) }; WriteVariable(0x84, gotoscreen, sizeof(gotoscreen)); } #endif // HAS_DGUS_LCD