/** * Marlin 3D Printer Firmware * Copyright (c) 2021 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 ENABLED(DGUS_LCD_UI_RELOADED) #include "DGUSTxHandler.h" #include "DGUSScreenHandler.h" #include "config/DGUS_Data.h" #include "../ui_api.h" #include "../../../module/stepper.h" #include "../../../module/printcounter.h" #if ENABLED(ADVANCED_PAUSE_FEATURE) #include "../../../feature/pause.h" #endif #if ENABLED(SDSUPPORT) void DGUSTxHandler::SetFileControlState(int file, bool state) { DGUS_Control control; switch (file) { default: return; case 0: control = DGUS_Control::FILE0; break; case 1: control = DGUS_Control::FILE1; break; case 2: control = DGUS_Control::FILE2; break; case 3: control = DGUS_Control::FILE3; break; case 4: control = DGUS_Control::FILE4; break; } if (state) { dgus_display.EnableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, control); } else { dgus_display.DisableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, control); } } void DGUSTxHandler::FileType(DGUS_VP &vp) { // Batch send uint16_t data[DGUS_FILE_COUNT]; for (int i = 0; i < DGUS_FILE_COUNT; i++) { if (!dgus_screen_handler.filelist.seek(dgus_screen_handler.filelist_offset + i)) { data[i] = Swap16((uint16_t)DGUS_Data::SDType::NONE); SetFileControlState(i, false); continue; } data[i] = dgus_screen_handler.filelist.isDir() ? Swap16((uint16_t)DGUS_Data::SDType::DIRECTORY) : Swap16((uint16_t)DGUS_Data::SDType::FILE); SetFileControlState(i, true); } dgus_display.Write((uint16_t)vp.addr, data, sizeof(*data) * DGUS_FILE_COUNT); } void DGUSTxHandler::FileName(DGUS_VP &vp) { uint8_t offset; switch (vp.addr) { default: return; case DGUS_Addr::SD_FileName0: offset = 0; break; case DGUS_Addr::SD_FileName1: offset = 1; break; case DGUS_Addr::SD_FileName2: offset = 2; break; case DGUS_Addr::SD_FileName3: offset = 3; break; case DGUS_Addr::SD_FileName4: offset = 4; break; } if (dgus_screen_handler.filelist.seek(dgus_screen_handler.filelist_offset + offset)) { dgus_display.WriteString((uint16_t)vp.addr, dgus_screen_handler.filelist.filename(), vp.size); } else { dgus_display.WriteStringPGM((uint16_t)vp.addr, NUL_STR, vp.size); } } void DGUSTxHandler::ScrollIcons(DGUS_VP &vp) { uint16_t icons = 0; if (!dgus_screen_handler.filelist.isAtRootDir()) { icons |= (uint16_t)DGUS_Data::ScrollIcon::GO_BACK; dgus_display.EnableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::GO_BACK); } else { dgus_display.DisableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::GO_BACK); } if (dgus_screen_handler.filelist_offset > 0) { icons |= (uint16_t)DGUS_Data::ScrollIcon::UP; dgus_display.EnableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::SCROLL_UP); } else { dgus_display.DisableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::SCROLL_UP); } if (dgus_screen_handler.filelist_offset + DGUS_FILE_COUNT < dgus_screen_handler.filelist.count()) { icons |= (uint16_t)DGUS_Data::ScrollIcon::DOWN; dgus_display.EnableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::SCROLL_DOWN); } else { dgus_display.DisableControl(DGUS_Screen::PRINT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::SCROLL_DOWN); } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::SelectedFileName(DGUS_VP &vp) { if (dgus_screen_handler.filelist_selected < 0 || !dgus_screen_handler.filelist.seek(dgus_screen_handler.filelist_selected)) { dgus_display.WriteStringPGM((uint16_t)vp.addr, NUL_STR, vp.size); return; } dgus_display.WriteString((uint16_t)vp.addr, dgus_screen_handler.filelist.filename(), vp.size); } #endif // SDSUPPORT void DGUSTxHandler::PositionZ(DGUS_VP &vp) { float position = ExtUI::isAxisPositionKnown(ExtUI::Z) ? planner.get_axis_position_mm(Z_AXIS) : 0; const int16_t data = dgus_display.ToFixedPoint(position); dgus_display.Write((uint16_t)vp.addr, Swap16(data)); } void DGUSTxHandler::Ellapsed(DGUS_VP &vp) { char buffer[21]; duration_t(print_job_timer.duration()).toString(buffer); dgus_display.WriteString((uint16_t)vp.addr, buffer, vp.size); } void DGUSTxHandler::Percent(DGUS_VP &vp) { uint16_t progress; switch (vp.addr) { default: return; case DGUS_Addr::STATUS_Percent: progress = constrain(ExtUI::getProgress_percent(), 0, 100); break; case DGUS_Addr::STATUS_Percent_Complete: progress = 100; break; } dgus_display.Write((uint16_t)DGUS_Addr::STATUS_Percent, Swap16(progress)); } void DGUSTxHandler::StatusIcons(DGUS_VP &vp) { uint16_t icons = 0; if (ExtUI::isPrinting()) { icons |= (uint16_t)DGUS_Data::StatusIcon::PAUSE; dgus_display.EnableControl(DGUS_Screen::PRINT_STATUS, DGUSDisplay::POPUP_WINDOW, DGUS_Control::PAUSE); } else { dgus_display.DisableControl(DGUS_Screen::PRINT_STATUS, DGUSDisplay::POPUP_WINDOW, DGUS_Control::PAUSE); } if (ExtUI::isPrintingPaused()) { icons |= (uint16_t)DGUS_Data::StatusIcon::RESUME; dgus_display.EnableControl(DGUS_Screen::PRINT_STATUS, DGUSDisplay::POPUP_WINDOW, DGUS_Control::RESUME); } else { dgus_display.DisableControl(DGUS_Screen::PRINT_STATUS, DGUSDisplay::POPUP_WINDOW, DGUS_Control::RESUME); } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::Flowrate(DGUS_VP &vp) { int16_t flowrate; switch (vp.addr) { default: return; case DGUS_Addr::ADJUST_Flowrate_CUR: flowrate = ExtUI::getFlow_percent(TERN(HAS_MULTI_EXTRUDER, ExtUI::getActiveTool(), ExtUI::E0)); break; #if HAS_MULTI_EXTRUDER case DGUS_Addr::ADJUST_Flowrate_E0: flowrate = ExtUI::getFlow_percent(ExtUI::E0); break; case DGUS_Addr::ADJUST_Flowrate_E1: flowrate = ExtUI::getFlow_percent(ExtUI::E1); break; #endif } dgus_display.Write((uint16_t)vp.addr, Swap16(flowrate)); } void DGUSTxHandler::TempMax(DGUS_VP &vp) { uint16_t temp; switch (vp.addr) { default: return; case DGUS_Addr::TEMP_Max_Bed: temp = BED_MAX_TARGET; break; case DGUS_Addr::TEMP_Max_H0: temp = HEATER_0_MAXTEMP - HOTEND_OVERSHOOT; break; #if HAS_MULTI_HOTEND case DGUS_Addr::TEMP_Max_H1: temp = HEATER_1_MAXTEMP - HOTEND_OVERSHOOT; break; #endif } dgus_display.Write((uint16_t)vp.addr, Swap16(temp)); } void DGUSTxHandler::StepperStatus(DGUS_VP &vp) { const bool motor_on = stepper.axis_enabled.bits & (_BV(LINEAR_AXES) - 1); dgus_display.Write((uint16_t)vp.addr, Swap16(uint16_t(motor_on ? DGUS_Data::Status::ENABLED : DGUS_Data::Status::DISABLED))); } void DGUSTxHandler::StepIcons(DGUS_VP &vp) { if (!vp.extra) return; uint16_t icons = 0; DGUS_Data::StepSize size = *(DGUS_Data::StepSize*)vp.extra; switch (size) { case DGUS_Data::StepSize::MM10: icons |= (uint16_t)DGUS_Data::StepIcon::MM10; break; case DGUS_Data::StepSize::MM1: icons |= (uint16_t)DGUS_Data::StepIcon::MM1; break; case DGUS_Data::StepSize::MMP1: icons |= (uint16_t)DGUS_Data::StepIcon::MMP1; break; case DGUS_Data::StepSize::MMP01: icons |= (uint16_t)DGUS_Data::StepIcon::MMP01; break; } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::ABLDisableIcon(DGUS_VP &vp) { uint16_t data; if (ExtUI::getLevelingActive()) { data = (uint16_t)DGUS_Data::Status::ENABLED; dgus_display.EnableControl(DGUS_Screen::LEVELING_AUTOMATIC, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::DISABLE); } else { data = (uint16_t)DGUS_Data::Status::DISABLED; dgus_display.DisableControl(DGUS_Screen::LEVELING_AUTOMATIC, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::DISABLE); } dgus_display.Write((uint16_t)vp.addr, Swap16(data)); } void DGUSTxHandler::ABLGrid(DGUS_VP &vp) { // Batch send int16_t data[DGUS_LEVEL_GRID_SIZE]; xy_uint8_t point; int16_t fixed; for (int i = 0; i < DGUS_LEVEL_GRID_SIZE; i++) { point.x = i % (GRID_MAX_POINTS_X); point.y = i / (GRID_MAX_POINTS_X); fixed = dgus_display.ToFixedPoint(ExtUI::getMeshPoint(point)); data[i] = Swap16(fixed); } dgus_display.Write((uint16_t)vp.addr, data, sizeof(*data) * DGUS_LEVEL_GRID_SIZE); } void DGUSTxHandler::FilamentIcons(DGUS_VP &vp) { uint16_t icons = 0; switch (dgus_screen_handler.filament_extruder) { default: return; case DGUS_Data::Extruder::CURRENT: #if HAS_MULTI_EXTRUDER switch (ExtUI::getActiveTool()) { default: break; case ExtUI::E0: icons |= (uint16_t)DGUS_Data::ExtruderIcon::E0; break; case ExtUI::E1: icons |= (uint16_t)DGUS_Data::ExtruderIcon::E1; break; } break; #endif case DGUS_Data::Extruder::E0: icons |= (uint16_t)DGUS_Data::ExtruderIcon::E0; break; case DGUS_Data::Extruder::E1: icons |= (uint16_t)DGUS_Data::ExtruderIcon::E1; break; } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::BLTouch(DGUS_VP &vp) { #if ENABLED(BLTOUCH) dgus_display.EnableControl(DGUS_Screen::SETTINGS_MENU2, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::EXTRA2); dgus_display.Write((uint16_t)vp.addr, Swap16((uint16_t)DGUS_Data::Status::ENABLED)); #else dgus_display.DisableControl(DGUS_Screen::SETTINGS_MENU2, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::EXTRA2); dgus_display.Write((uint16_t)vp.addr, Swap16((uint16_t)DGUS_Data::Status::DISABLED)); #endif } void DGUSTxHandler::PIDIcons(DGUS_VP &vp) { uint16_t icons = 0; switch (dgus_screen_handler.pid_heater) { default: return; case DGUS_Data::Heater::BED: icons |= (uint16_t)DGUS_Data::HeaterIcon::BED; break; case DGUS_Data::Heater::H0: icons |= (uint16_t)DGUS_Data::HeaterIcon::H0; break; case DGUS_Data::Heater::H1: icons |= (uint16_t)DGUS_Data::HeaterIcon::H1; break; } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::PIDKp(DGUS_VP &vp) { float value; switch (dgus_screen_handler.pid_heater) { default: return; #if ENABLED(PIDTEMPBED) case DGUS_Data::Heater::BED: value = ExtUI::getBedPIDValues_Kp(); break; #endif #if ENABLED(PIDTEMP) case DGUS_Data::Heater::H0: value = ExtUI::getPIDValues_Kp(ExtUI::E0); break; #if HAS_MULTI_HOTEND case DGUS_Data::Heater::H1: value = ExtUI::getPIDValues_Kp(ExtUI::E1); break; #endif #endif } const int32_t data = dgus_display.ToFixedPoint(value); dgus_display.Write((uint16_t)vp.addr, dgus_display.SwapBytes(data)); } void DGUSTxHandler::PIDKi(DGUS_VP &vp) { float value; switch (dgus_screen_handler.pid_heater) { default: return; #if ENABLED(PIDTEMPBED) case DGUS_Data::Heater::BED: value = ExtUI::getBedPIDValues_Ki(); break; #endif #if ENABLED(PIDTEMP) case DGUS_Data::Heater::H0: value = ExtUI::getPIDValues_Ki(ExtUI::E0); break; #if HAS_MULTI_HOTEND case DGUS_Data::Heater::H1: value = ExtUI::getPIDValues_Ki(ExtUI::E1); break; #endif #endif } const int32_t data = dgus_display.ToFixedPoint(value); dgus_display.Write((uint16_t)vp.addr, dgus_display.SwapBytes(data)); } void DGUSTxHandler::PIDKd(DGUS_VP &vp) { float value; switch (dgus_screen_handler.pid_heater) { default: return; #if ENABLED(PIDTEMPBED) case DGUS_Data::Heater::BED: value = ExtUI::getBedPIDValues_Kd(); break; #endif #if ENABLED(PIDTEMP) case DGUS_Data::Heater::H0: value = ExtUI::getPIDValues_Kd(ExtUI::E0); break; #if HAS_MULTI_HOTEND case DGUS_Data::Heater::H1: value = ExtUI::getPIDValues_Kd(ExtUI::E1); break; #endif #endif } const int32_t data = dgus_display.ToFixedPoint(value); dgus_display.Write((uint16_t)vp.addr, dgus_display.SwapBytes(data)); } void DGUSTxHandler::BuildVolume(DGUS_VP &vp) { char buffer[vp.size]; snprintf_P(buffer, vp.size, PSTR("%dx%dx%d"), X_BED_SIZE, Y_BED_SIZE, (Z_MAX_POS - Z_MIN_POS)); dgus_display.WriteString((uint16_t)vp.addr, buffer, vp.size); } void DGUSTxHandler::TotalPrints(DGUS_VP &vp) { #if ENABLED(PRINTCOUNTER) dgus_display.Write((uint16_t)vp.addr, dgus_display.SwapBytes(print_job_timer.getStats().totalPrints)); #else UNUSED(vp); #endif } void DGUSTxHandler::FinishedPrints(DGUS_VP &vp) { #if ENABLED(PRINTCOUNTER) dgus_display.Write((uint16_t)vp.addr, dgus_display.SwapBytes(print_job_timer.getStats().finishedPrints)); #else UNUSED(vp); #endif } void DGUSTxHandler::PrintTime(DGUS_VP &vp) { #if ENABLED(PRINTCOUNTER) char buffer[21]; ExtUI::getTotalPrintTime_str(buffer); dgus_display.WriteString((uint16_t)vp.addr, buffer, vp.size); #else dgus_display.WriteStringPGM((uint16_t)vp.addr, DGUS_MSG_UNDEF, vp.size); #endif } void DGUSTxHandler::LongestPrint(DGUS_VP &vp) { #if ENABLED(PRINTCOUNTER) char buffer[21]; ExtUI::getLongestPrint_str(buffer); dgus_display.WriteString((uint16_t)vp.addr, buffer, vp.size); #else dgus_display.WriteStringPGM((uint16_t)vp.addr, DGUS_MSG_UNDEF, vp.size); #endif } void DGUSTxHandler::FilamentUsed(DGUS_VP &vp) { #if ENABLED(PRINTCOUNTER) char buffer[21]; ExtUI::getFilamentUsed_str(buffer); dgus_display.WriteString((uint16_t)vp.addr, buffer, vp.size); #else dgus_display.WriteStringPGM((uint16_t)vp.addr, DGUS_MSG_UNDEF, vp.size); #endif } void DGUSTxHandler::WaitIcons(DGUS_VP &vp) { uint16_t icons = 0; if (ExtUI::isPrintingPaused()) { icons |= (uint16_t)DGUS_Data::WaitIcon::ABORT; dgus_display.EnableControl(DGUS_Screen::WAIT, DGUSDisplay::POPUP_WINDOW, DGUS_Control::ABORT); } else { dgus_display.DisableControl(DGUS_Screen::WAIT, DGUSDisplay::POPUP_WINDOW, DGUS_Control::ABORT); } if (dgus_screen_handler.wait_continue) { icons |= (uint16_t)DGUS_Data::WaitIcon::CONTINUE; dgus_display.EnableControl(DGUS_Screen::WAIT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::CONTINUE); } else { dgus_display.DisableControl(DGUS_Screen::WAIT, DGUSDisplay::RETURN_KEY_CODE, DGUS_Control::CONTINUE); } dgus_display.Write((uint16_t)vp.addr, Swap16(icons)); } void DGUSTxHandler::FanSpeed(DGUS_VP &vp) { uint16_t fan_speed; switch (vp.addr) { default: return; case DGUS_Addr::FAN0_Speed: fan_speed = ExtUI::getTargetFan_percent(ExtUI::FAN0); break; } dgus_display.Write((uint16_t)vp.addr, Swap16(fan_speed)); } void DGUSTxHandler::Volume(DGUS_VP &vp) { const uint16_t volume = dgus_display.GetVolume(); dgus_display.Write((uint16_t)vp.addr, Swap16(volume)); } void DGUSTxHandler::Brightness(DGUS_VP &vp) { const uint16_t brightness = dgus_display.GetBrightness(); dgus_display.Write((uint16_t)vp.addr, Swap16(brightness)); } void DGUSTxHandler::ExtraToString(DGUS_VP &vp) { if (!vp.size || !vp.extra) return; dgus_display.WriteString((uint16_t)vp.addr, vp.extra, vp.size, true, false, false); } void DGUSTxHandler::ExtraPGMToString(DGUS_VP &vp) { if (!vp.size || !vp.extra) return; dgus_display.WriteStringPGM((uint16_t)vp.addr, vp.extra, vp.size, true, false, false); } #endif // DGUS_LCD_UI_RELOADED