/** * 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 . * */ /** * DWIN Enhanced implementation for PRO UI * Author: Miguel A. Risco-Castillo (MRISCOC) * Version: 3.17.2 * Date: 2022/04/08 */ #include "../../../inc/MarlinConfig.h" #if ENABLED(DWIN_LCD_PROUI) #include "dwin.h" #include "menus.h" #include "dwin_popup.h" #include "../../fontutils.h" #include "../../marlinui.h" #include "../../../sd/cardreader.h" #include "../../../MarlinCore.h" #include "../../../core/serial.h" #include "../../../core/macros.h" #include "../../../module/temperature.h" #include "../../../module/printcounter.h" #include "../../../module/motion.h" #include "../../../module/planner.h" #include "../../../gcode/gcode.h" #include "../../../gcode/queue.h" #if HAS_FILAMENT_SENSOR #include "../../../feature/runout.h" #endif #if ENABLED(EEPROM_SETTINGS) #include "../../../module/settings.h" #endif #if ENABLED(HOST_ACTION_COMMANDS) #include "../../../feature/host_actions.h" #endif #if DISABLED(PROBE_MANUALLY) && ANY(AUTO_BED_LEVELING_BILINEAR, AUTO_BED_LEVELING_LINEAR, AUTO_BED_LEVELING_3POINT) #define HAS_ONESTEP_LEVELING 1 #endif #if HAS_MESH || HAS_ONESTEP_LEVELING #include "../../../feature/bedlevel/bedlevel.h" #endif #if HAS_BED_PROBE #include "../../../module/probe.h" #endif #ifdef BLTOUCH_HS_MODE #include "../../../feature/bltouch.h" #endif #if ANY(BABYSTEPPING, HAS_BED_PROBE, HAS_WORKSPACE_OFFSET) #define HAS_ZOFFSET_ITEM 1 #if ENABLED(BABYSTEPPING) #include "../../../feature/babystep.h" #if !HAS_BED_PROBE #define JUST_BABYSTEP 1 #endif #endif #endif #if ENABLED(POWER_LOSS_RECOVERY) #include "../../../feature/powerloss.h" #endif #if HAS_ESDIAG #include "endstop_diag.h" #endif #if HAS_MESH #include "meshviewer.h" #endif #if ENABLED(AUTO_BED_LEVELING_UBL) #include "ubl_tools.h" #endif #if ENABLED(PRINTCOUNTER) #include "printstats.h" #endif #if ENABLED(CASE_LIGHT_MENU) #include "../../../feature/caselight.h" #endif #if ENABLED(LED_CONTROL_MENU) #include "../../../feature/leds/leds.h" #endif #include #include #include #ifndef MACHINE_SIZE #define MACHINE_SIZE STRINGIFY(X_BED_SIZE) "x" STRINGIFY(Y_BED_SIZE) "x" STRINGIFY(Z_MAX_POS) #endif #include "lockscreen.h" #define PAUSE_HEAT #define MENU_CHAR_LIMIT 24 // Print speed limit #define MIN_PRINT_SPEED 10 #define MAX_PRINT_SPEED 999 // Print flow limit #define MIN_PRINT_FLOW 10 #define MAX_PRINT_FLOW 299 // Load and Unload limits #define MAX_LOAD_UNLOAD 500 // Feedspeed limit (max feedspeed = MAX_FEEDRATE_EDIT_VALUES) #define MIN_MAXFEEDSPEED 1 #define MIN_MAXACCELERATION 1 #define MIN_MAXJERK 0.1 #define MIN_STEP 1 #define MAX_STEP 999.9 // Editable temperature limits #define MIN_ETEMP 0 #define MAX_ETEMP (HEATER_0_MAXTEMP - (HOTEND_OVERSHOOT)) #define MIN_BEDTEMP 0 #define MAX_BEDTEMP BED_MAX_TARGET #define FEEDRATE_E (60) #define DWIN_VAR_UPDATE_INTERVAL 1024 #define DWIN_SCROLL_UPDATE_INTERVAL SEC_TO_MS(2) #define DWIN_REMAIN_TIME_UPDATE_INTERVAL SEC_TO_MS(20) #define BABY_Z_VAR TERN(HAS_BED_PROBE, probe.offset.z, HMI_data.ManualZOffset) // Structs HMI_value_t HMI_value; HMI_flag_t HMI_flag{0}; HMI_data_t HMI_data; millis_t dwin_heat_time = 0; uint8_t checkkey = 255, last_checkkey = MainMenu; enum SelectItem : uint8_t { PAGE_PRINT = 0, PAGE_PREPARE, PAGE_CONTROL, PAGE_ADVANCE, PAGE_COUNT, PRINT_SETUP = 0, PRINT_PAUSE_RESUME, PRINT_STOP, PRINT_COUNT }; typedef struct { uint8_t now, last; void set(uint8_t v) { now = last = v; } void reset() { set(0); } bool changed() { bool c = (now != last); if (c) last = now; return c; } bool dec() { if (now) now--; return changed(); } bool inc(uint8_t v) { if (now < (v - 1)) now++; else now = (v - 1); return changed(); } } select_t; select_t select_page{0}, select_file{0}, select_print{0}; uint8_t index_file = MROWS; bool hash_changed = true; // Flag to know if message status was changed constexpr float max_feedrate_edit_values[] = MAX_FEEDRATE_EDIT_VALUES; constexpr float max_acceleration_edit_values[] = MAX_ACCEL_EDIT_VALUES; #if HAS_CLASSIC_JERK constexpr float max_jerk_edit_values[] = MAX_JERK_EDIT_VALUES; #endif static uint8_t _percent_done = 0; static uint32_t _remain_time = 0; // Additional Aux Host Support static bool sdprint = false; #if HAS_HOTEND float last_E = 0; #endif // New menu system pointers MenuClass *PrepareMenu = nullptr; MenuClass *TrammingMenu = nullptr; MenuClass *MoveMenu = nullptr; MenuClass *ControlMenu = nullptr; MenuClass *AdvancedSettings = nullptr; #if HAS_HOME_OFFSET MenuClass *HomeOffMenu = nullptr; #endif #if HAS_BED_PROBE MenuClass *ProbeSetMenu = nullptr; #endif MenuClass *FilSetMenu = nullptr; MenuClass *SelectColorMenu = nullptr; MenuClass *GetColorMenu = nullptr; MenuClass *TuneMenu = nullptr; MenuClass *MotionMenu = nullptr; MenuClass *FilamentMenu = nullptr; #if ENABLED(MESH_BED_LEVELING) MenuClass *ManualMesh = nullptr; #endif #if HAS_HOTEND MenuClass *PreheatMenu = nullptr; #endif MenuClass *TemperatureMenu = nullptr; MenuClass *MaxSpeedMenu = nullptr; MenuClass *MaxAccelMenu = nullptr; MenuClass *MaxJerkMenu = nullptr; MenuClass *StepsMenu = nullptr; MenuClass *HotendPIDMenu = nullptr; MenuClass *BedPIDMenu = nullptr; #if ENABLED(CASELIGHT_USES_BRIGHTNESS) MenuClass *CaseLightMenu = nullptr; #endif #if ENABLED(LED_CONTROL_MENU) MenuClass *LedControlMenu = nullptr; #endif #if HAS_BED_PROBE MenuClass *ZOffsetWizMenu = nullptr; #endif #if ENABLED(INDIVIDUAL_AXIS_HOMING_SUBMENU) MenuClass *HomingMenu = nullptr; #endif #if ENABLED(FWRETRACT) MenuClass *FWRetractMenu = nullptr; #endif #if HAS_MESH MenuClass *MeshMenu = nullptr; #if ENABLED(MESH_EDIT_MENU) MenuClass *EditMeshMenu = nullptr; #endif #endif // Updatable menuitems pointers MenuItemClass *HotendTargetItem = nullptr; MenuItemClass *BedTargetItem = nullptr; MenuItemClass *FanSpeedItem = nullptr; MenuItemClass *MMeshMoveZItem = nullptr; MenuItemClass *EditZValueItem = nullptr; #define DWIN_LANGUAGE_EEPROM_ADDRESS 0x01 // Between 0x01 and 0x63 (EEPROM_OFFSET-1) // BL24CXX::check() uses 0x00 inline bool HMI_IsChinese() { return HMI_flag.language == DWIN_CHINESE; } void HMI_SetLanguageCache() { DWIN_JPG_CacheTo1(HMI_IsChinese() ? Language_Chinese : Language_English); } void HMI_SetLanguage() { #if BOTH(EEPROM_SETTINGS, IIC_BL24CXX_EEPROM) BL24CXX::read(DWIN_LANGUAGE_EEPROM_ADDRESS, (uint8_t*)&HMI_flag.language, sizeof(HMI_flag.language)); #endif HMI_SetLanguageCache(); } void HMI_ToggleLanguage() { HMI_flag.language = HMI_IsChinese() ? DWIN_ENGLISH : DWIN_CHINESE; HMI_SetLanguageCache(); #if BOTH(EEPROM_SETTINGS, IIC_BL24CXX_EEPROM) BL24CXX::write(DWIN_LANGUAGE_EEPROM_ADDRESS, (uint8_t*)&HMI_flag.language, sizeof(HMI_flag.language)); #endif } //----------------------------------------------------------------------------- // Main Buttons //----------------------------------------------------------------------------- typedef struct { uint16_t x, y[2], w, h; } text_info_t; void ICON_Button(const bool selected, const int iconid, const frame_rect_t &ico, const text_info_t (&txt), FSTR_P caption) { DWIN_ICON_Show(true, false, false, ICON, iconid + selected, ico.x, ico.y); if (selected) DWINUI::Draw_Box(0, HMI_data.Highlight_Color, ico); if (HMI_IsChinese()) { DWIN_Frame_AreaCopy(1, txt.x, txt.y[selected], txt.x + txt.w - 1, txt.y[selected] + txt.h - 1, ico.x + (ico.w - txt.w) / 2, (ico.y + ico.h - 25) - txt.h/2); } else { const uint16_t x = ico.x + (ico.w - strlen_P(FTOP(caption)) * DWINUI::fontWidth()) / 2, y = (ico.y + ico.h - 20) - DWINUI::fontHeight() / 2; DWINUI::Draw_String(x, y, caption); } } // // Main Menu: "Print" // void ICON_Print() { constexpr frame_rect_t ico = { 17, 110, 110, 100 }; constexpr text_info_t txt = { 1, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_page.now == PAGE_PRINT, ICON_Print_0, ico, txt, GET_TEXT_F(MSG_BUTTON_PRINT)); } // // Main Menu: "Prepare" // void ICON_Prepare() { constexpr frame_rect_t ico = { 145, 110, 110, 100 }; constexpr text_info_t txt = { 31, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_page.now == PAGE_PREPARE, ICON_Prepare_0, ico, txt, GET_TEXT_F(MSG_PREPARE)); } // // Main Menu: "Control" // void ICON_Control() { constexpr frame_rect_t ico = { 17, 226, 110, 100 }; constexpr text_info_t txt = { 61, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_page.now == PAGE_CONTROL, ICON_Control_0, ico, txt, GET_TEXT_F(MSG_CONTROL)); } // // Main Menu: "Advanced Settings" // void ICON_AdvSettings() { constexpr frame_rect_t ico = { 145, 226, 110, 100 }; constexpr text_info_t txt = { 91, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_page.now == PAGE_ADVANCE, ICON_Info_0, ico, txt, GET_TEXT_F(MSG_BUTTON_ADVANCED)); } // // Printing: "Tune" // void ICON_Tune() { constexpr frame_rect_t ico = { 8, 232, 80, 100 }; constexpr text_info_t txt = { 121, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_print.now == PRINT_SETUP, ICON_Setup_0, ico, txt, GET_TEXT_F(MSG_TUNE)); } // // Printing: "Pause" // void ICON_Pause() { constexpr frame_rect_t ico = { 96, 232, 80, 100 }; constexpr text_info_t txt = { 181, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_print.now == PRINT_PAUSE_RESUME, ICON_Pause_0, ico, txt, GET_TEXT_F(MSG_BUTTON_PAUSE)); } // // Printing: "Resume" // void ICON_Resume() { constexpr frame_rect_t ico = { 96, 232, 80, 100 }; constexpr text_info_t txt = { 1, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 15 }; ICON_Button(select_print.now == PRINT_PAUSE_RESUME, ICON_Continue_0, ico, txt, GET_TEXT_F(MSG_BUTTON_RESUME)); } // // Printing: "Stop" // void ICON_Stop() { constexpr frame_rect_t ico = { 184, 232, 80, 100 }; constexpr text_info_t txt = { 151, { 405, TERN(USE_STOCK_DWIN_SET, 446, 447) }, 27, 12 }; ICON_Button(select_print.now == PRINT_STOP, ICON_Stop_0, ico, txt, GET_TEXT_F(MSG_BUTTON_STOP)); } //----------------------------------------------------------------------------- // Drawing routines //----------------------------------------------------------------------------- void Move_Highlight(const int8_t from, const int8_t newline) { Erase_Menu_Cursor(newline - from); Draw_Menu_Cursor(newline); } void Add_Menu_Line() { Move_Highlight(1, MROWS); DWIN_Draw_HLine(HMI_data.SplitLine_Color, 16, MYPOS(MROWS + 1), 240); } void Scroll_Menu(const uint8_t dir) { DWIN_Frame_AreaMove(1, dir, MLINE, HMI_data.Background_Color, 0, 31, DWIN_WIDTH, 349); switch (dir) { case DWIN_SCROLL_DOWN: Move_Highlight(-1, 0); break; case DWIN_SCROLL_UP: Add_Menu_Line(); break; } } inline uint16_t nr_sd_menu_items() { return card.get_num_Files() + !card.flag.workDirIsRoot; } void Erase_Menu_Text(const uint8_t line) { DWIN_Draw_Rectangle(1, HMI_data.Background_Color, LBLX, MBASE(line) - 14, 271, MBASE(line) + 28); } // Draw "Back" line at the top void Draw_Back_First(const bool is_sel=true) { Draw_Menu_Line(0, ICON_Back); if (HMI_IsChinese()) DWIN_Frame_AreaCopy(1, 129, 72, 156, 84, LBLX, MBASE(0)); else DWINUI::Draw_String(LBLX, MBASE(0), GET_TEXT_F(MSG_BACK)); if (is_sel) Draw_Menu_Cursor(0); } //PopUps void Popup_window_PauseOrStop() { if (HMI_IsChinese()) { DWINUI::ClearMainArea(); Draw_Popup_Bkgd(); if (select_print.now == PRINT_PAUSE_RESUME) DWIN_Frame_AreaCopy(1, 237, 338, 269, 356, 98, 150); else if (select_print.now == PRINT_STOP) DWIN_Frame_AreaCopy(1, 221, 320, 253, 336, 98, 150); DWIN_Frame_AreaCopy(1, 220, 304, 264, 319, 130, 150); DWINUI::Draw_IconWB(ICON_Confirm_C, 26, 280); DWINUI::Draw_IconWB(ICON_Cancel_C, 146, 280); Draw_Select_Highlight(true); DWIN_UpdateLCD(); } else DWIN_Popup_ConfirmCancel(ICON_BLTouch, select_print.now == PRINT_PAUSE_RESUME ? GET_TEXT_F(MSG_PAUSE_PRINT) : GET_TEXT_F(MSG_STOP_PRINT)); } #if HAS_HOTEND void Popup_Window_ETempTooLow() { if (HMI_IsChinese()) { HMI_SaveProcessID(WaitResponse); DWINUI::ClearMainArea(); Draw_Popup_Bkgd(); DWINUI::Draw_Icon(ICON_TempTooLow, 102, 105); DWIN_Frame_AreaCopy(1, 103, 371, 136, 386, 69, 240); DWIN_Frame_AreaCopy(1, 170, 371, 270, 386, 102, 240); DWINUI::Draw_IconWB(ICON_Confirm_C, 86, 280); DWIN_UpdateLCD(); } else DWIN_Popup_Confirm(ICON_TempTooLow, GET_TEXT_F(MSG_HOTEND_TOO_COLD), GET_TEXT_F(MSG_PLEASE_PREHEAT)); } #endif #if HAS_HOTEND || HAS_HEATED_BED void DWIN_Popup_Temperature(const bool toohigh) { HMI_SaveProcessID(WaitResponse); if (HMI_IsChinese()) { DWINUI::ClearMainArea(); Draw_Popup_Bkgd(); if (toohigh) { DWINUI::Draw_Icon(ICON_TempTooHigh, 102, 165); DWIN_Frame_AreaCopy(1, 103, 371, 237, 386, 52, 285); DWIN_Frame_AreaCopy(1, 151, 389, 185, 402, 187, 285); DWIN_Frame_AreaCopy(1, 189, 389, 271, 402, 95, 310); } else { DWINUI::Draw_Icon(ICON_TempTooLow, 102, 165); DWIN_Frame_AreaCopy(1, 103, 371, 270, 386, 52, 285); DWIN_Frame_AreaCopy(1, 189, 389, 271, 402, 95, 310); } } else DWIN_Show_Popup(toohigh ? ICON_TempTooHigh : ICON_TempTooLow, F("Nozzle or Bed temperature"), toohigh ? F("is too high") : F("is too low"), BTN_Continue); } #endif // Draw status line void DWIN_DrawStatusLine(const char *text) { DWIN_Draw_Rectangle(1, HMI_data.StatusBg_Color, 0, STATUS_Y, DWIN_WIDTH, STATUS_Y + 20); if (text) DWINUI::Draw_CenteredString(HMI_data.StatusTxt_Color, STATUS_Y + 2, text); } void DWIN_DrawStatusLine(FSTR_P fstr) { DWIN_Draw_Rectangle(1, HMI_data.StatusBg_Color, 0, STATUS_Y, DWIN_WIDTH, STATUS_Y + 20); if (fstr) DWINUI::Draw_CenteredString(HMI_data.StatusTxt_Color, STATUS_Y + 2, fstr); } // Clear & reset status line void DWIN_ResetStatusLine() { ui.status_message[0] = 0; DWIN_CheckStatusMessage(); } // Djb2 hash algorithm void DWIN_CheckStatusMessage() { static uint32_t old_hash = 0; char * str = &ui.status_message[0]; uint32_t hash = 5381; char c; while ((c = *str++)) hash = ((hash << 5) + hash) + c; /* hash * 33 + c */ hash_changed = hash != old_hash; old_hash = hash; }; void DWIN_DrawStatusMessage() { #if ENABLED(STATUS_MESSAGE_SCROLLING) // Get the UTF8 character count of the string uint8_t slen = utf8_strlen(ui.status_message); // If the string fits the status line do not scroll it if (slen <= LCD_WIDTH) { if (hash_changed) { DWIN_DrawStatusLine(ui.status_message); hash_changed = false; } } else { // String is larger than the available line space // Get a pointer to the next valid UTF8 character // and the string remaining length uint8_t rlen; const char *stat = MarlinUI::status_and_len(rlen); DWIN_Draw_Rectangle(1, HMI_data.StatusBg_Color, 0, STATUS_Y, DWIN_WIDTH, STATUS_Y + 20); DWINUI::MoveTo(0, STATUS_Y + 2); DWINUI::Draw_String(HMI_data.StatusTxt_Color, stat, LCD_WIDTH); // If the string doesn't completely fill the line... if (rlen < LCD_WIDTH) { DWINUI::Draw_Char(HMI_data.StatusTxt_Color, '.'); // Always at 1+ spaces left, draw a dot uint8_t chars = LCD_WIDTH - rlen; // Amount of space left in characters if (--chars) { // Draw a second dot if there's space DWINUI::Draw_Char(HMI_data.StatusTxt_Color, '.'); if (--chars) DWINUI::Draw_String(HMI_data.StatusTxt_Color, ui.status_message, chars); // Print a second copy of the message } } MarlinUI::advance_status_scroll(); } #else if (hash_changed) { ui.status_message[LCD_WIDTH] = 0; DWIN_DrawStatusLine(ui.status_message); hash_changed = false; } #endif } void Draw_Print_Labels() { if (HMI_IsChinese()) { DWIN_Frame_AreaCopy(1, 0, 72, 63, 86, 41, 173); // Printing Time DWIN_Frame_AreaCopy(1, 65, 72, 128, 86, 176, 173); // Remain } else { DWINUI::Draw_String( 46, 173, GET_TEXT_F(MSG_INFO_PRINT_TIME)); DWINUI::Draw_String(181, 173, GET_TEXT_F(MSG_REMAINING_TIME)); } } void Draw_Print_ProgressBar() { DWIN_ICON_Show(true, false, false, ICON, ICON_Bar, 15, 93); DWIN_Draw_Rectangle(1, HMI_data.Barfill_Color, 16 + _percent_done * 240 / 100, 93, 256, 113); DWINUI::Draw_Int(HMI_data.PercentTxt_Color, HMI_data.Background_Color, 3, 117, 133, _percent_done); DWINUI::Draw_String(HMI_data.PercentTxt_Color, 142, 133, F("%")); } void Draw_Print_ProgressElapsed() { char buf[10]; duration_t elapsed = print_job_timer.duration(); // print timer sprintf_P(buf, PSTR("%02i:%02i "), (uint16_t)(elapsed.value / 3600), ((uint16_t)elapsed.value % 3600) / 60); DWINUI::Draw_String(HMI_data.Text_Color, HMI_data.Background_Color, 47, 192, buf); } void Draw_Print_ProgressRemain() { char buf[10]; sprintf_P(buf, PSTR("%02i:%02i "), (uint16_t)(_remain_time / 3600), ((uint16_t)_remain_time % 3600) / 60); DWINUI::Draw_String(HMI_data.Text_Color, HMI_data.Background_Color, 181, 192, buf); } void ICON_ResumeOrPause() { if (checkkey == PrintProcess) printingIsPaused() ? ICON_Resume() : ICON_Pause(); } // Update filename on print void DWIN_Print_Header(const char *text = nullptr) { static char headertxt[31] = ""; // Print header text if (text) { const int8_t size = _MIN(30U, strlen_P(text)); LOOP_L_N(i, size) headertxt[i] = text[i]; headertxt[size] = '\0'; } if (checkkey == PrintProcess || checkkey == PrintDone) { DWIN_Draw_Rectangle(1, HMI_data.Background_Color, 0, 60, DWIN_WIDTH, 60+16); DWINUI::Draw_CenteredString(60, headertxt); } } void Draw_PrintProcess() { if (HMI_IsChinese()) Title.FrameCopy(30, 1, 42, 14); // "Printing" else Title.ShowCaption(GET_TEXT_F(MSG_PRINTING)); DWINUI::ClearMainArea(); DWIN_Print_Header(sdprint ? card.longest_filename() : nullptr); Draw_Print_Labels(); DWINUI::Draw_Icon(ICON_PrintTime, 15, 173); DWINUI::Draw_Icon(ICON_RemainTime, 150, 171); Draw_Print_ProgressBar(); Draw_Print_ProgressElapsed(); Draw_Print_ProgressRemain(); ICON_Tune(); ICON_ResumeOrPause(); ICON_Stop(); } void Goto_PrintProcess() { if (checkkey == PrintProcess) ICON_ResumeOrPause(); else { checkkey = PrintProcess; Draw_PrintProcess(); TERN_(DASH_REDRAW, DWIN_RedrawDash()); } DWIN_UpdateLCD(); } void Draw_PrintDone() { // show percent bar and value _percent_done = 100; _remain_time = 0; Title.ShowCaption(GET_TEXT_F(MSG_PRINT_DONE)); DWINUI::ClearMainArea(); DWIN_Print_Header(nullptr); Draw_Print_ProgressBar(); Draw_Print_Labels(); DWINUI::Draw_Icon(ICON_PrintTime, 15, 173); DWINUI::Draw_Icon(ICON_RemainTime, 150, 171); Draw_Print_ProgressElapsed(); Draw_Print_ProgressRemain(); DWINUI::Draw_Button(BTN_Continue, 86, 273); } void Goto_PrintDone() { wait_for_user = true; if (checkkey != PrintDone) { checkkey = PrintDone; Draw_PrintDone(); DWIN_UpdateLCD(); } } void Draw_Main_Menu() { DWINUI::ClearMainArea(); if (HMI_IsChinese()) Title.FrameCopy(2, 2, 26, 13); // "Home" etc else Title.ShowCaption(MACHINE_NAME); DWINUI::Draw_Icon(ICON_LOGO, 71, 52); // CREALITY logo DWIN_ResetStatusLine(); ICON_Print(); ICON_Prepare(); ICON_Control(); ICON_AdvSettings(); } void Goto_Main_Menu() { if (checkkey == MainMenu) return; checkkey = MainMenu; Draw_Main_Menu(); DWIN_UpdateLCD(); } // Draw X, Y, Z and blink if in an un-homed or un-trusted state void _update_axis_value(const AxisEnum axis, const uint16_t x, const uint16_t y, const bool blink, const bool force) { const bool draw_qmark = axis_should_home(axis), draw_empty = NONE(HOME_AFTER_DEACTIVATE, DISABLE_REDUCED_ACCURACY_WARNING) && !draw_qmark && !axis_is_trusted(axis); // Check for a position change static xyz_pos_t oldpos = { -1, -1, -1 }; const float p = current_position[axis]; const bool changed = oldpos[axis] != p; if (changed) oldpos[axis] = p; if (force || changed || draw_qmark || draw_empty) { if (blink && draw_qmark) DWINUI::Draw_String(HMI_data.Coordinate_Color, HMI_data.Background_Color, x, y, F(" - ? -")); else if (blink && draw_empty) DWINUI::Draw_String(HMI_data.Coordinate_Color, HMI_data.Background_Color, x, y, F(" ")); else DWINUI::Draw_Signed_Float(HMI_data.Coordinate_Color, HMI_data.Background_Color, 3, 2, x, y, p); } } void _draw_xyz_position(const bool force) { //SERIAL_ECHOPGM("Draw XYZ:"); static bool _blink = false; const bool blink = !!(millis() & 0x400UL); if (force || blink != _blink) { _blink = blink; //SERIAL_ECHOPGM(" (blink)"); _update_axis_value(X_AXIS, 27, 459, blink, true); _update_axis_value(Y_AXIS, 112, 459, blink, true); _update_axis_value(Z_AXIS, 197, 459, blink, true); } //SERIAL_EOL(); } void update_variable() { #if HAS_HOTEND static celsius_t _hotendtemp = 0, _hotendtarget = 0; const celsius_t hc = thermalManager.wholeDegHotend(0), ht = thermalManager.degTargetHotend(0); const bool _new_hotend_temp = _hotendtemp != hc, _new_hotend_target = _hotendtarget != ht; if (_new_hotend_temp) _hotendtemp = hc; if (_new_hotend_target) _hotendtarget = ht; #endif #if HAS_HEATED_BED static celsius_t _bedtemp = 0, _bedtarget = 0; const celsius_t bc = thermalManager.wholeDegBed(), bt = thermalManager.degTargetBed(); const bool _new_bed_temp = _bedtemp != bc, _new_bed_target = _bedtarget != bt; if (_new_bed_temp) _bedtemp = bc; if (_new_bed_target) _bedtarget = bt; #endif #if HAS_FAN static uint8_t _fanspeed = 0; const bool _new_fanspeed = _fanspeed != thermalManager.fan_speed[0]; if (_new_fanspeed) _fanspeed = thermalManager.fan_speed[0]; #endif if (checkkey == Menu && (CurrentMenu == TuneMenu || CurrentMenu == TemperatureMenu)) { // Tune page temperature update #if HAS_HOTEND if (_new_hotend_target) HotendTargetItem->redraw(); #endif #if HAS_HEATED_BED if (_new_bed_target) BedTargetItem->redraw(); #endif #if HAS_FAN if (_new_fanspeed) FanSpeedItem->redraw(); #endif } // Bottom temperature update #if HAS_HOTEND if (_new_hotend_temp) DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 28, 384, _hotendtemp); if (_new_hotend_target) DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 25 + 4 * STAT_CHR_W + 6, 384, _hotendtarget); static int16_t _flow = planner.flow_percentage[0]; if (_flow != planner.flow_percentage[0]) { _flow = planner.flow_percentage[0]; DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 116 + 2 * STAT_CHR_W, 417, _flow); } #endif #if HAS_HEATED_BED if (_new_bed_temp) DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 28, 417, _bedtemp); if (_new_bed_target) DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 25 + 4 * STAT_CHR_W + 6, 417, _bedtarget); #endif static int16_t _feedrate = 100; if (_feedrate != feedrate_percentage) { _feedrate = feedrate_percentage; DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 116 + 2 * STAT_CHR_W, 384, _feedrate); } #if HAS_FAN if (_new_fanspeed) { _fanspeed = thermalManager.fan_speed[0]; DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 195 + 2 * STAT_CHR_W, 384, _fanspeed); } #endif static float _offset = 0; if (BABY_Z_VAR != _offset) { _offset = BABY_Z_VAR; DWINUI::Draw_Signed_Float(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 2, 2, 204, 417, _offset); } #if HAS_MESH static bool _leveling_active = false; if (_leveling_active != planner.leveling_active) { _leveling_active = planner.leveling_active; DWIN_Draw_Box(1, HMI_data.Background_Color, 186, 416, 20, 20); if (_leveling_active) DWINUI::Draw_Icon(ICON_SetZOffset, 186, 416); else DWINUI::Draw_Icon(ICON_Zoffset, 187, 416); } #endif _draw_xyz_position(false); } /** * Read and cache the working directory. * * TODO: New code can follow the pattern of menu_media.cpp * and rely on Marlin caching for performance. No need to * cache files here. */ #ifndef strcasecmp_P #define strcasecmp_P(a, b) strcasecmp((a), (b)) #endif void make_name_without_ext(char *dst, char *src, size_t maxlen=MENU_CHAR_LIMIT) { size_t pos = strlen(src); // index of ending nul // For files, remove the extension // which may be .gcode, .gco, or .g if (!card.flag.filenameIsDir) while (pos && src[pos] != '.') pos--; // find last '.' (stop at 0) if (!pos) pos = strlen(src); // pos = 0 ('.' not found) restore pos size_t len = pos; // nul or '.' if (len > maxlen) { // Keep the name short pos = len = maxlen; // move nul down dst[--pos] = '.'; // insert dots dst[--pos] = '.'; dst[--pos] = '.'; } dst[len] = '\0'; // end it // Copy down to 0 while (pos--) dst[pos] = src[pos]; } void HMI_SDCardInit() { card.cdroot(); } #if ENABLED(SCROLL_LONG_FILENAMES) char shift_name[LONG_FILENAME_LENGTH + 1]; int8_t shift_amt; // = 0 millis_t shift_ms; // = 0 // Init the shift name based on the highlighted item void Init_Shift_Name() { const bool is_subdir = !card.flag.workDirIsRoot; const int8_t filenum = select_file.now - 1 - is_subdir; // Skip "Back" and ".." const uint16_t fileCnt = card.get_num_Files(); if (WITHIN(filenum, 0, fileCnt - 1)) { card.getfilename_sorted(SD_ORDER(filenum, fileCnt)); char * const name = card.longest_filename(); make_name_without_ext(shift_name, name, 100); } } void Init_SDItem_Shift() { shift_amt = 0; shift_ms = select_file.now > 0 && strlen(shift_name) > MENU_CHAR_LIMIT ? millis() + 750UL : 0; } #endif /** * Display an SD item, adding a CDUP for subfolders. */ void Draw_SDItem(const uint16_t item, int16_t row=-1) { if (row < 0) row = item + 1 + MROWS - index_file; const bool is_subdir = !card.flag.workDirIsRoot; if (is_subdir && item == 0) return Draw_Menu_Line(row, ICON_Folder, ".."); card.getfilename_sorted(SD_ORDER(item - is_subdir, card.get_num_Files())); char * const name = card.longest_filename(); #if ENABLED(SCROLL_LONG_FILENAMES) // Init the current selected name // This is used during scroll drawing if (item == select_file.now - 1) { make_name_without_ext(shift_name, name, 100); Init_SDItem_Shift(); } #endif // Draw the file/folder with name aligned left char str[strlen(name) + 1]; make_name_without_ext(str, name); const uint8_t icon = card.flag.filenameIsDir ? ICON_Folder : card.fileIsBinary() ? ICON_Binary : ICON_File; Draw_Menu_Line(row, icon, str); } #if ENABLED(SCROLL_LONG_FILENAMES) void Draw_SDItem_Shifted(uint8_t &shift) { // Limit to the number of chars past the cutoff const size_t len = strlen(shift_name); NOMORE(shift, _MAX(len - MENU_CHAR_LIMIT, 0U)); // Shorten to the available space const size_t lastchar = _MIN((signed)len, shift + MENU_CHAR_LIMIT); const char c = shift_name[lastchar]; shift_name[lastchar] = '\0'; const uint8_t row = select_file.now + MROWS - index_file; // skip "Back" and scroll Erase_Menu_Text(row); Draw_Menu_Line(row, 0, &shift_name[shift]); shift_name[lastchar] = c; } #endif // Redraw the first set of SD Files void Redraw_SD_List() { select_file.reset(); index_file = MROWS; DWINUI::ClearMainArea(); // Leave title bar unchanged Draw_Back_First(); if (card.isMounted()) { // As many files as will fit LOOP_L_N(i, _MIN(nr_sd_menu_items(), MROWS)) Draw_SDItem(i, i + 1); TERN_(SCROLL_LONG_FILENAMES, Init_SDItem_Shift()); } else { DWIN_Draw_Rectangle(1, HMI_data.AlertBg_Color, 10, MBASE(3) - 10, DWIN_WIDTH - 10, MBASE(4)); DWINUI::Draw_CenteredString(font12x24, HMI_data.AlertTxt_Color, MBASE(3), GET_TEXT_F(MSG_MEDIA_NOT_INSERTED)); } } bool DWIN_lcd_sd_status = false; void SDCard_Up() { card.cdup(); Redraw_SD_List(); DWIN_lcd_sd_status = false; // On next DWIN_Update } void SDCard_Folder(char * const dirname) { card.cd(dirname); Redraw_SD_List(); DWIN_lcd_sd_status = false; // On next DWIN_Update } // // Watch for media mount / unmount // void HMI_SDCardUpdate() { if (HMI_flag.home_flag) return; if (DWIN_lcd_sd_status != card.isMounted()) { DWIN_lcd_sd_status = card.isMounted(); //SERIAL_ECHOLNPGM("HMI_SDCardUpdate: ", DWIN_lcd_sd_status); if (DWIN_lcd_sd_status) { // Media inserted if (checkkey == SelectFile) Redraw_SD_List(); } else { // Media removed // clean file icon if (checkkey == SelectFile) { Redraw_SD_List(); } else if (sdprint && card.isPrinting() && printingIsActive()) { wait_for_heatup = wait_for_user = false; HMI_flag.abort_flag = true; // Abort print } } DWIN_UpdateLCD(); } } // // The Dashboard is always on-screen, except during // full-screen modal dialogs. // void DWIN_Draw_Dashboard() { DWIN_Draw_Rectangle(1, HMI_data.Background_Color, 0, STATUS_Y + 21, DWIN_WIDTH, DWIN_HEIGHT - 1); #if HAS_HOTEND DWINUI::Draw_Icon(ICON_HotendTemp, 10, 383); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 28, 384, thermalManager.wholeDegHotend(0)); DWINUI::Draw_String(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 25 + 3 * STAT_CHR_W + 5, 384, F("/")); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 25 + 4 * STAT_CHR_W + 6, 384, thermalManager.degTargetHotend(0)); DWINUI::Draw_Icon(ICON_StepE, 112, 417); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 116 + 2 * STAT_CHR_W, 417, planner.flow_percentage[0]); DWINUI::Draw_String(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 116 + 5 * STAT_CHR_W + 2, 417, F("%")); #endif #if HAS_HEATED_BED DWINUI::Draw_Icon(ICON_BedTemp, 10, 416); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 28, 417, thermalManager.wholeDegBed()); DWINUI::Draw_String(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 25 + 3 * STAT_CHR_W + 5, 417, F("/")); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 25 + 4 * STAT_CHR_W + 6, 417, thermalManager.degTargetBed()); #endif DWINUI::Draw_Icon(ICON_Speed, 113, 383); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 116 + 2 * STAT_CHR_W, 384, feedrate_percentage); DWINUI::Draw_String(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 116 + 5 * STAT_CHR_W + 2, 384, F("%")); #if HAS_FAN DWINUI::Draw_Icon(ICON_FanSpeed, 187, 383); DWINUI::Draw_Int(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 3, 195 + 2 * STAT_CHR_W, 384, thermalManager.fan_speed[0]); #endif #if BOTH(BABYSTEPPING, HAS_BED_PROBE) DWINUI::Draw_Icon(planner.leveling_active ? ICON_SetZOffset : ICON_Zoffset, 187, 416); #endif DWINUI::Draw_Signed_Float(DWIN_FONT_STAT, HMI_data.Indicator_Color, HMI_data.Background_Color, 2, 2, 204, 417, BABY_Z_VAR); DWIN_Draw_Rectangle(1, HMI_data.SplitLine_Color, 0, 449, DWIN_WIDTH, 451); DWINUI::Draw_Icon(ICON_MaxSpeedX, 10, 456); DWINUI::Draw_Icon(ICON_MaxSpeedY, 95, 456); DWINUI::Draw_Icon(ICON_MaxSpeedZ, 180, 456); _draw_xyz_position(true); } void Draw_Info_Menu() { DWINUI::ClearMainArea(); Draw_Back_First(); if (HMI_IsChinese()) Title.FrameCopy(30, 17, 28, 13); // "Info" else Title.ShowCaption(GET_TEXT_F(MSG_INFO_SCREEN)); if (HMI_IsChinese()) { DWIN_Frame_AreaCopy(1, 197, 149, 252, 161, 108, 102); // "Size" DWIN_Frame_AreaCopy(1, 1, 164, 56, 176, 108, 175); // "Firmware Version" DWIN_Frame_AreaCopy(1, 58, 164, 113, 176, 105, 248); // "Contact Details" DWINUI::Draw_CenteredString(268, F(CORP_WEBSITE)); } else { DWINUI::Draw_CenteredString(102, F("Size")); DWINUI::Draw_CenteredString(175, F("Firmware version")); DWINUI::Draw_CenteredString(248, F("Build Datetime")); DWINUI::Draw_CenteredString(268, F(STRING_DISTRIBUTION_DATE)); } DWINUI::Draw_CenteredString(122, F(MACHINE_SIZE)); DWINUI::Draw_CenteredString(195, F(SHORT_BUILD_VERSION)); LOOP_L_N(i, 3) { DWINUI::Draw_Icon(ICON_PrintSize + i, ICOX, 99 + i * 73); DWIN_Draw_HLine(HMI_data.SplitLine_Color, 16, MBASE(2) + i * 73, 240); } } void Draw_Print_File_Menu() { if (HMI_IsChinese()) Title.FrameCopy(0, 31, 56, 14); // "Print file" else Title.ShowCaption(GET_TEXT_F(MSG_MEDIA_MENU)); Redraw_SD_List(); TERN_(DASH_REDRAW, DWIN_RedrawDash()); } // Main Process void HMI_MainMenu() { EncoderState encoder_diffState = get_encoder_state(); if (encoder_diffState == ENCODER_DIFF_NO) return; if (encoder_diffState == ENCODER_DIFF_CW) { if (select_page.inc(PAGE_COUNT)) { switch (select_page.now) { case PAGE_PRINT: ICON_Print(); break; case PAGE_PREPARE: ICON_Print(); ICON_Prepare(); break; case PAGE_CONTROL: ICON_Prepare(); ICON_Control(); break; case PAGE_ADVANCE: ICON_Control(); ICON_AdvSettings(); break; } } } else if (encoder_diffState == ENCODER_DIFF_CCW) { if (select_page.dec()) { switch (select_page.now) { case PAGE_PRINT: ICON_Print(); ICON_Prepare(); break; case PAGE_PREPARE: ICON_Prepare(); ICON_Control(); break; case PAGE_CONTROL: ICON_Control(); ICON_AdvSettings(); break; case PAGE_ADVANCE: ICON_AdvSettings(); break; } } } else if (encoder_diffState == ENCODER_DIFF_ENTER) { switch (select_page.now) { case PAGE_PRINT: checkkey = SelectFile; card.mount(); safe_delay(300); Draw_Print_File_Menu(); break; case PAGE_PREPARE: Draw_Prepare_Menu(); break; case PAGE_CONTROL: Draw_Control_Menu(); break; case PAGE_ADVANCE: Draw_AdvancedSettings_Menu(); break; } } DWIN_UpdateLCD(); } // Select (and Print) File void HMI_SelectFile() { EncoderState encoder_diffState = get_encoder_state(); const uint16_t hasUpDir = !card.flag.workDirIsRoot; if (encoder_diffState == ENCODER_DIFF_NO) { #if ENABLED(SCROLL_LONG_FILENAMES) if (shift_ms && select_file.now >= 1 + hasUpDir) { // Scroll selected filename every second const millis_t ms = millis(); if (ELAPSED(ms, shift_ms)) { const bool was_reset = shift_amt < 0; shift_ms = ms + 375UL + was_reset * 250UL; // ms per character uint8_t shift_new = shift_amt + 1; // Try to shift by... Draw_SDItem_Shifted(shift_new); // Draw the item if (!was_reset && shift_new == 0) // Was it limited to 0? shift_ms = 0; // No scrolling needed else if (shift_new == shift_amt) // Scroll reached the end shift_new = -1; // Reset shift_amt = shift_new; // Set new scroll } } #endif return; } // First pause is long. Easy. // On reset, long pause must be after 0. const uint16_t fullCnt = nr_sd_menu_items(); if (encoder_diffState == ENCODER_DIFF_CW && fullCnt) { if (select_file.inc(1 + fullCnt)) { const uint8_t itemnum = select_file.now - 1; // -1 for "Back" if (TERN0(SCROLL_LONG_FILENAMES, shift_ms)) { // If line was shifted Erase_Menu_Text(itemnum + MROWS - index_file); // Erase and Draw_SDItem(itemnum - 1); // redraw } if (select_file.now > MROWS && select_file.now > index_file) { // Cursor past the bottom index_file = select_file.now; // New bottom line Scroll_Menu(DWIN_SCROLL_UP); Draw_SDItem(itemnum, MROWS); // Draw and init the shift name } else { Move_Highlight(1, select_file.now + MROWS - index_file); // Just move highlight TERN_(SCROLL_LONG_FILENAMES, Init_Shift_Name()); // ...and init the shift name } TERN_(SCROLL_LONG_FILENAMES, Init_SDItem_Shift()); } } else if (encoder_diffState == ENCODER_DIFF_CCW && fullCnt) { if (select_file.dec()) { const uint8_t itemnum = select_file.now - 1; // -1 for "Back" if (TERN0(SCROLL_LONG_FILENAMES, shift_ms)) { // If line was shifted Erase_Menu_Text(select_file.now + 1 + MROWS - index_file); // Erase and Draw_SDItem(itemnum + 1); // redraw } if (select_file.now < index_file - MROWS) { // Cursor past the top index_file--; // New bottom line Scroll_Menu(DWIN_SCROLL_DOWN); if (index_file == MROWS) { Draw_Back_First(); TERN_(SCROLL_LONG_FILENAMES, shift_ms = 0); } else { Draw_SDItem(itemnum, 0); // Draw the item (and init shift name) } } else { Move_Highlight(-1, select_file.now + MROWS - index_file); // Just move highlight TERN_(SCROLL_LONG_FILENAMES, Init_Shift_Name()); // ...and init the shift name } TERN_(SCROLL_LONG_FILENAMES, Init_SDItem_Shift()); // Reset left. Init timer. } } else if (encoder_diffState == ENCODER_DIFF_ENTER) { if (select_file.now == 0) { // Back select_page.set(PAGE_PRINT); return Goto_Main_Menu(); } else if (hasUpDir && select_file.now == 1) { // CD-Up SDCard_Up(); goto HMI_SelectFileExit; } else { const uint16_t filenum = select_file.now - 1 - hasUpDir; card.getfilename_sorted(SD_ORDER(filenum, card.get_num_Files())); // Enter that folder! if (card.flag.filenameIsDir) { SDCard_Folder(card.filename); goto HMI_SelectFileExit; } // Reset highlight for next entry select_print.reset(); select_file.reset(); // Start choice and print SD file HMI_flag.heat_flag = true; HMI_flag.print_finish = false; if (card.fileIsBinary()) return DWIN_Popup_Confirm(ICON_Error, F("Please check filenames"), F("Only G-code can be printed")); else return Goto_ConfirmToPrint(); } } HMI_SelectFileExit: DWIN_UpdateLCD(); } // Pause or Stop popup void onClick_PauseOrStop() { switch (select_print.now) { case PRINT_PAUSE_RESUME: if (HMI_flag.select_flag) HMI_flag.pause_flag = true; break; // confirm pause case PRINT_STOP: if (HMI_flag.select_flag) HMI_flag.abort_flag = true; break; // stop confirmed then abort print default: break; } return Goto_PrintProcess(); } // Printing void HMI_Printing() { EncoderState encoder_diffState = get_encoder_state(); if (encoder_diffState == ENCODER_DIFF_NO) return; // Avoid flicker by updating only the previous menu if (encoder_diffState == ENCODER_DIFF_CW) { if (select_print.inc(PRINT_COUNT)) { switch (select_print.now) { case PRINT_SETUP: ICON_Tune(); break; case PRINT_PAUSE_RESUME: ICON_Tune(); ICON_ResumeOrPause(); break; case PRINT_STOP: ICON_ResumeOrPause(); ICON_Stop(); break; } } } else if (encoder_diffState == ENCODER_DIFF_CCW) { if (select_print.dec()) { switch (select_print.now) { case PRINT_SETUP: ICON_Tune(); ICON_ResumeOrPause(); break; case PRINT_PAUSE_RESUME: ICON_ResumeOrPause(); ICON_Stop(); break; case PRINT_STOP: ICON_Stop(); break; } } } else if (encoder_diffState == ENCODER_DIFF_ENTER) { switch (select_print.now) { case PRINT_SETUP: Draw_Tune_Menu(); break; case PRINT_PAUSE_RESUME: if (printingIsPaused()) { // if printer is already in pause ui.resume_print(); break; } else return Goto_Popup(Popup_window_PauseOrStop, onClick_PauseOrStop); case PRINT_STOP: return Goto_Popup(Popup_window_PauseOrStop, onClick_PauseOrStop); default: break; } } DWIN_UpdateLCD(); } #include "../../../libs/buzzer.h" void Draw_Main_Area() { switch (checkkey) { case MainMenu: Draw_Main_Menu(); break; case SelectFile: Draw_Print_File_Menu(); break; case PrintProcess: Draw_PrintProcess(); break; case PrintDone: Draw_PrintDone(); break; #if HAS_ESDIAG case ESDiagProcess: Draw_EndStopDiag(); break; #endif case Popup: popupDraw(); break; case Locked: lockScreen.draw(); break; case Menu: case SetInt: case SetPInt: case SetIntNoDraw: case SetFloat: case SetPFloat: ReDrawMenu(); break; default: break; } } void HMI_ReturnScreen() { checkkey = last_checkkey; wait_for_user = false; Draw_Main_Area(); } void HMI_WaitForUser() { get_encoder_state(); if (!wait_for_user) { switch (checkkey) { case PrintDone: select_page.reset(); Goto_Main_Menu(); break; TERN_(HAS_ONESTEP_LEVELING, case Leveling:) default: HMI_ReturnScreen(); break; } } } void HMI_Init() { DWINUI::Draw_Box(1, Color_Black, {5, 220, DWIN_WIDTH-5, DWINUI::fontHeight()}); DWINUI::Draw_CenteredString(Color_White, 220, F("Professional Firmware ")); for (uint16_t t = 0; t <= 100; t += 2) { DWINUI::Draw_Icon(ICON_Bar, 15, 260); DWIN_Draw_Rectangle(1, HMI_data.Background_Color, 15 + t * 242 / 100, 260, 257, 280); DWIN_UpdateLCD(); delay(20); } HMI_SetLanguage(); } void EachMomentUpdate() { static millis_t next_var_update_ms = 0, next_rts_update_ms = 0, next_status_update_ms = 0; const millis_t ms = millis(); if (ELAPSED(ms, next_var_update_ms)) { next_var_update_ms = ms + DWIN_VAR_UPDATE_INTERVAL; update_variable(); #if HAS_ESDIAG if (checkkey == ESDiagProcess) ESDiag.Update(); #endif } #if HAS_STATUS_MESSAGE_TIMEOUT bool did_expire = ui.status_reset_callback && (*ui.status_reset_callback)(); did_expire |= ui.status_message_expire_ms && ELAPSED(ms, ui.status_message_expire_ms); if (did_expire) ui.reset_status(); #endif if (ELAPSED(ms, next_status_update_ms)) { next_status_update_ms = ms + 500; DWIN_DrawStatusMessage(); } if (PENDING(ms, next_rts_update_ms)) return; next_rts_update_ms = ms + DWIN_SCROLL_UPDATE_INTERVAL; if (checkkey == PrintProcess) { // print process // Print pause if (HMI_flag.pause_flag && !HMI_flag.home_flag) { HMI_flag.pause_flag = false; if (!HMI_flag.pause_action) { HMI_flag.pause_action = true; return ui.pause_print(); } } // if print done if (HMI_flag.print_finish && !HMI_flag.home_flag) { HMI_flag.print_finish = false; return DWIN_Print_Finished(); } // if print was aborted if (HMI_flag.abort_flag && !HMI_flag.home_flag) { // Print Stop HMI_flag.abort_flag = false; if (!HMI_flag.abort_action) { HMI_flag.abort_action = true; ui.abort_print(); return Goto_PrintDone(); } } duration_t elapsed = print_job_timer.duration(); // print timer if (sdprint && card.isPrinting() && !HMI_flag.percent_flag) { uint8_t percentDone = card.percentDone(); if (_percent_done != percentDone) { // print percent _percent_done = percentDone; Draw_Print_ProgressBar(); } // Estimate remaining time every 20 seconds static millis_t next_remain_time_update = 0; if (_percent_done > 1 && ELAPSED(ms, next_remain_time_update) && !HMI_flag.heat_flag && !HMI_flag.remain_flag) { _remain_time = (elapsed.value - dwin_heat_time) / (_percent_done * 0.01f) - (elapsed.value - dwin_heat_time); next_remain_time_update += DWIN_REMAIN_TIME_UPDATE_INTERVAL; Draw_Print_ProgressRemain(); } } // Print time so far static uint16_t last_Printtime = 0; const uint16_t min = (elapsed.value % 3600) / 60; if (last_Printtime != min) { // 1 minute update last_Printtime = min; Draw_Print_ProgressElapsed(); } } #if ENABLED(POWER_LOSS_RECOVERY) else if (DWIN_lcd_sd_status && recovery.dwin_flag) { // resume print before power off return Goto_PowerLossRecovery(); } #endif // POWER_LOSS_RECOVERY DWIN_UpdateLCD(); } #if ENABLED(POWER_LOSS_RECOVERY) void Popup_PowerLossRecovery() { DWINUI::ClearMainArea(); Draw_Popup_Bkgd(); if (HMI_IsChinese()) { DWIN_Frame_AreaCopy(1, 160, 338, 235, 354, 98, 115); DWIN_Frame_AreaCopy(1, 103, 321, 271, 335, 52, 167); DWINUI::Draw_IconWB(ICON_Cancel_C, 26, 280); DWINUI::Draw_IconWB(ICON_Continue_C, 146, 280); } else { DWINUI::Draw_CenteredString(HMI_data.PopupTxt_Color, 70, GET_TEXT_F(MSG_OUTAGE_RECOVERY)); DWINUI::Draw_CenteredString(HMI_data.PopupTxt_Color, 147, F("It looks like the last")); DWINUI::Draw_CenteredString(HMI_data.PopupTxt_Color, 167, F("file was interrupted.")); DWINUI::Draw_Button(BTN_Cancel, 26, 280); DWINUI::Draw_Button(BTN_Continue, 146, 280); } SdFile *dir = nullptr; const char * const filename = card.diveToFile(true, dir, recovery.info.sd_filename); card.selectFileByName(filename); DWINUI::Draw_CenteredString(HMI_data.PopupTxt_Color, 207, card.longest_filename()); Draw_Select_Highlight(HMI_flag.select_flag); DWIN_UpdateLCD(); } void onClick_PowerLossRecovery() { if (HMI_flag.select_flag) { queue.inject(F("M1000C")); select_page.reset(); return Goto_Main_Menu(); } else { select_print.set(PRINT_SETUP); queue.inject(F("M1000")); sdprint = true; return Goto_PrintProcess(); } } void Goto_PowerLossRecovery() { recovery.dwin_flag = false; LCD_MESSAGE(MSG_CONTINUE_PRINT_JOB); Goto_Popup(Popup_PowerLossRecovery, onClick_PowerLossRecovery); } #endif // POWER_LOSS_RECOVERY void DWIN_HandleScreen() { switch (checkkey) { case MainMenu: HMI_MainMenu(); break; case Menu: HMI_Menu(); break; case SetInt: HMI_SetInt(); break; case SetPInt: HMI_SetPInt(); break; case SetIntNoDraw: HMI_SetIntNoDraw(); break; case SetFloat: HMI_SetFloat(); break; case SetPFloat: HMI_SetPFloat(); break; case SelectFile: HMI_SelectFile(); break; case PrintProcess: HMI_Printing(); break; case Popup: HMI_Popup(); break; case Leveling: break; case Locked: HMI_LockScreen(); break; case PrintDone: TERN_(HAS_ESDIAG, case ESDiagProcess:) case WaitResponse: HMI_WaitForUser(); break; case Homing: case PidProcess: case NothingToDo: break; default: break; } } bool IDisPopUp() { // If ID is popup... return (checkkey == NothingToDo) || (checkkey == WaitResponse) || (checkkey == Homing) || (checkkey == Leveling) || (checkkey == PidProcess) || TERN0(HAS_ESDIAG, (checkkey == ESDiagProcess)) || (checkkey == Popup); } void HMI_SaveProcessID(const uint8_t id) { if (checkkey != id) { if (!IDisPopUp()) last_checkkey = checkkey; // if previous is not a popup if ((id == Popup) || TERN0(HAS_ESDIAG, (id == ESDiagProcess)) || (id == PrintDone) || (id == Leveling) || (id == WaitResponse)) wait_for_user = true; checkkey = id; } } void DWIN_HomingStart() { HMI_flag.home_flag = true; HMI_SaveProcessID(Homing); Title.ShowCaption(GET_TEXT_F(MSG_HOMING)); DWIN_Show_Popup(ICON_BLTouch, GET_TEXT_F(MSG_HOMING), GET_TEXT_F(MSG_PLEASE_WAIT)); } void DWIN_HomingDone() { HMI_flag.home_flag = false; #if ENABLED(MESH_BED_LEVELING) && EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) planner.synchronize(); babystep.add_mm(Z_AXIS, HMI_data.ManualZOffset); #endif if (HMI_flag.abort_action) DWIN_Print_Aborted(); else HMI_ReturnScreen(); } void DWIN_LevelingStart() { #if HAS_ONESTEP_LEVELING HMI_SaveProcessID(Leveling); Title.ShowCaption(GET_TEXT_F(MSG_BED_LEVELING)); DWIN_Show_Popup(ICON_AutoLeveling, GET_TEXT_F(MSG_BED_LEVELING), GET_TEXT_F(MSG_PLEASE_WAIT)); #if BOTH(AUTO_BED_LEVELING_UBL, PREHEAT_BEFORE_LEVELING) #if HAS_HOTEND if (thermalManager.degTargetHotend(0) < LEVELING_NOZZLE_TEMP) thermalManager.setTargetHotend(LEVELING_NOZZLE_TEMP, 0); #endif #if HAS_HEATED_BED if (thermalManager.degTargetBed() < HMI_data.BedLevT) thermalManager.setTargetBed(HMI_data.BedLevT); #endif TERN_(HAS_HOTEND, thermalManager.wait_for_hotend(0)); TERN_(HAS_HEATED_BED, thermalManager.wait_for_bed_heating()); #endif #elif ENABLED(MESH_BED_LEVELING) Draw_ManualMesh_Menu(); #endif } void DWIN_LevelingDone() { TERN_(HAS_MESH, Goto_MeshViewer()); } #if HAS_MESH void DWIN_MeshUpdate(const int8_t xpos, const int8_t ypos, const_float_t zval) { char msg[33] = ""; char str_1[6] = ""; sprintf_P(msg, PSTR(S_FMT " %i/%i Z=%s"), GET_TEXT(MSG_PROBING_POINT), xpos, ypos, dtostrf(zval, 1, 2, str_1)); ui.set_status(msg); } #endif // PID process void DWIN_PidTuning(pidresult_t result) { switch (result) { case PID_BED_START: HMI_SaveProcessID(NothingToDo); DWIN_Draw_Popup(ICON_TempTooHigh, GET_TEXT_F(MSG_PID_AUTOTUNE), F("for BED is running.")); break; case PID_EXTR_START: HMI_SaveProcessID(NothingToDo); DWIN_Draw_Popup(ICON_TempTooHigh, GET_TEXT_F(MSG_PID_AUTOTUNE), F("for Nozzle is running.")); break; case PID_BAD_EXTRUDER_NUM: checkkey = last_checkkey; DWIN_Popup_Confirm(ICON_TempTooLow, GET_TEXT_F(MSG_PID_AUTOTUNE_FAILED), GET_TEXT_F(MSG_BAD_EXTRUDER_NUM)); break; case PID_TUNING_TIMEOUT: checkkey = last_checkkey; DWIN_Popup_Confirm(ICON_TempTooHigh, GET_TEXT_F(MSG_ERROR), GET_TEXT_F(MSG_PID_TIMEOUT)); break; case PID_TEMP_TOO_HIGH: checkkey = last_checkkey; DWIN_Popup_Confirm(ICON_TempTooHigh, GET_TEXT_F(MSG_PID_AUTOTUNE_FAILED), GET_TEXT_F(MSG_TEMP_TOO_HIGH)); break; case PID_DONE: checkkey = last_checkkey; DWIN_Popup_Confirm(ICON_TempTooLow, GET_TEXT_F(MSG_PID_AUTOTUNE), GET_TEXT_F(MSG_BUTTON_DONE)); break; default: checkkey = last_checkkey; break; } } // Started a Print Job void DWIN_Print_Started(const bool sd) { sdprint = IS_SD_PRINTING() || sd; _percent_done = 0; _remain_time = 0; HMI_flag.percent_flag = false; HMI_flag.remain_flag = false; HMI_flag.pause_flag = false; HMI_flag.pause_action = false; HMI_flag.abort_flag = false; HMI_flag.abort_action = false; HMI_flag.print_finish = false; Goto_PrintProcess(); } // Pause a print job void DWIN_Print_Pause() { ICON_ResumeOrPause(); } // Resume print job void DWIN_Print_Resume() { HMI_flag.pause_action = false; ICON_ResumeOrPause(); if (printJobOngoing()) { LCD_MESSAGE(MSG_RESUME_PRINT); Goto_PrintProcess(); } } // Ended print job void DWIN_Print_Finished() { if (HMI_flag.abort_flag || checkkey == PrintDone) return; TERN_(POWER_LOSS_RECOVERY, if (card.isPrinting()) recovery.cancel()); HMI_flag.pause_flag = false; wait_for_heatup = false; planner.finish_and_disable(); thermalManager.cooldown(); Goto_PrintDone(); } // Print was aborted void DWIN_Print_Aborted() { TERN_(DEBUG_DWIN, SERIAL_ECHOLNPGM("DWIN_Print_Aborted")); HMI_flag.abort_action = false; wait_for_heatup = false; planner.finish_and_disable(); thermalManager.cooldown(); Goto_PrintDone(); } // Progress Bar update void DWIN_M73() { if (parser.seenval('P')) { _percent_done = parser.value_byte(); HMI_flag.percent_flag = true; } if (parser.seenval('R')) { _remain_time = parser.value_ulong() * 60; HMI_flag.remain_flag = true; } if (checkkey == PrintProcess) { Draw_Print_ProgressBar(); Draw_Print_ProgressRemain(); Draw_Print_ProgressElapsed(); } } #if HAS_FILAMENT_SENSOR // Filament Runout process void DWIN_FilamentRunout(const uint8_t extruder) { LCD_MESSAGE(MSG_RUNOUT_SENSOR); } #endif void DWIN_SetColorDefaults() { HMI_data.Background_Color = Def_Background_Color; HMI_data.Cursor_color = Def_Cursor_color; HMI_data.TitleBg_color = Def_TitleBg_color; HMI_data.TitleTxt_color = Def_TitleTxt_color; HMI_data.Text_Color = Def_Text_Color; HMI_data.Selected_Color = Def_Selected_Color; HMI_data.SplitLine_Color = Def_SplitLine_Color; HMI_data.Highlight_Color = Def_Highlight_Color; HMI_data.StatusBg_Color = Def_StatusBg_Color; HMI_data.StatusTxt_Color = Def_StatusTxt_Color; HMI_data.PopupBg_color = Def_PopupBg_color; HMI_data.PopupTxt_Color = Def_PopupTxt_Color; HMI_data.AlertBg_Color = Def_AlertBg_Color; HMI_data.AlertTxt_Color = Def_AlertTxt_Color; HMI_data.PercentTxt_Color = Def_PercentTxt_Color; HMI_data.Barfill_Color = Def_Barfill_Color; HMI_data.Indicator_Color = Def_Indicator_Color; HMI_data.Coordinate_Color = Def_Coordinate_Color; } void DWIN_SetDataDefaults() { DWIN_SetColorDefaults(); DWINUI::SetColors(HMI_data.Text_Color, HMI_data.Background_Color, HMI_data.StatusBg_Color); TERN_(HAS_HOTEND, HMI_data.HotendPidT = PREHEAT_1_TEMP_HOTEND); TERN_(HAS_HEATED_BED, HMI_data.BedPidT = PREHEAT_1_TEMP_BED); TERN_(HAS_HOTEND, HMI_data.PidCycles = 5); #if ENABLED(PREVENT_COLD_EXTRUSION) HMI_data.ExtMinT = EXTRUDE_MINTEMP; ApplyExtMinT(); #endif #if BOTH(HAS_HEATED_BED, PREHEAT_BEFORE_LEVELING) HMI_data.BedLevT = LEVELING_BED_TEMP; #endif TERN_(BAUD_RATE_GCODE, SetBaud250K()); #if BOTH(LED_CONTROL_MENU, HAS_COLOR_LEDS) leds.set_default(); ApplyLEDColor(); #endif } void DWIN_CopySettingsTo(char * const buff) { memcpy(buff, &HMI_data, eeprom_data_size); } void DWIN_CopySettingsFrom(const char * const buff) { memcpy(&HMI_data, buff, sizeof(HMI_data_t)); if (HMI_data.Text_Color == HMI_data.Background_Color) DWIN_SetColorDefaults(); DWINUI::SetColors(HMI_data.Text_Color, HMI_data.Background_Color, HMI_data.StatusBg_Color); TERN_(PREVENT_COLD_EXTRUSION, ApplyExtMinT()); feedrate_percentage = 100; TERN_(BAUD_RATE_GCODE, HMI_SetBaudRate()); #if BOTH(CASE_LIGHT_MENU, CASELIGHT_USES_BRIGHTNESS) // Apply Case light brightness caselight.brightness = HMI_data.CaseLight_Brightness; caselight.update_brightness(); #endif #if BOTH(LED_CONTROL_MENU, HAS_COLOR_LEDS) leds.set_color( (HMI_data.LED_Color >> 16) & 0xFF, (HMI_data.LED_Color >> 8) & 0xFF, (HMI_data.LED_Color >> 0) & 0xFF OPTARG(HAS_WHITE_LED, (HMI_data.LED_Color >> 24) & 0xFF) ); leds.update(); #endif } // Initialize or re-initialize the LCD void MarlinUI::init_lcd() { TERN_(DEBUG_DWIN, SERIAL_ECHOLNPGM("DWIN_Startup")); DWINUI::init(); DWIN_JPG_CacheTo1(Language_English); Encoder_Configuration(); } void DWIN_InitScreen() { HMI_Init(); // draws boot screen onCursorDraw = Draw_Menu_Cursor; onCursorErase = Erase_Menu_Cursor; DWINUI::onTitleDraw = Draw_Title; onMenuDraw = Draw_Menu; checkkey = 255; CurrentMenu = nullptr; PreviousMenu = nullptr; index_file = MROWS; hash_changed = true; last_E = 0; DWIN_DrawStatusLine(FSTR_P(nullptr)); DWIN_Draw_Dashboard(); Goto_Main_Menu(); } void MarlinUI::update() { EachMomentUpdate(); // Status update HMI_SDCardUpdate(); // SD card update DWIN_HandleScreen(); // Rotary encoder update } void MarlinUI::refresh() { /* Nothing to see here */ } #if HAS_LCD_BRIGHTNESS void MarlinUI::_set_brightness() { DWIN_LCD_Brightness(backlight ? brightness : 0); } #endif void MarlinUI::kill_screen(FSTR_P const lcd_error, FSTR_P const lcd_component) { DWIN_Draw_Popup(ICON_BLTouch, GET_TEXT_F(MSG_PRINTER_KILLED), lcd_error); DWINUI::Draw_CenteredString(HMI_data.PopupTxt_Color, 270, GET_TEXT_F(MSG_TURN_OFF)); DWIN_UpdateLCD(); } void DWIN_RebootScreen() { DWIN_Frame_Clear(Color_Bg_Black); DWIN_JPG_ShowAndCache(0); DWINUI::Draw_CenteredString(Color_White, 220, GET_TEXT_F(MSG_PLEASE_WAIT_REBOOT)); DWIN_UpdateLCD(); safe_delay(500); } void DWIN_RedrawDash() { hash_changed = true; DWIN_DrawStatusMessage(); DWIN_Draw_Dashboard(); } void DWIN_RedrawScreen() { Draw_Main_Area(); DWIN_RedrawDash(); } #if ENABLED(ADVANCED_PAUSE_FEATURE) void DWIN_Popup_Pause(FSTR_P const fmsg, uint8_t button /*= 0*/) { HMI_SaveProcessID(button ? WaitResponse : NothingToDo); DWIN_Show_Popup(ICON_BLTouch, GET_TEXT_F(MSG_ADVANCED_PAUSE), fmsg, button); } void MarlinUI::pause_show_message(const PauseMessage message, const PauseMode mode/*=PAUSE_MODE_SAME*/, const uint8_t extruder/*=active_extruder*/) { //if (mode == PAUSE_MODE_SAME) return; pause_mode = mode; switch (message) { case PAUSE_MESSAGE_PARKING: DWIN_Popup_Pause(GET_TEXT_F(MSG_PAUSE_PRINT_PARKING)); break; // M125 case PAUSE_MESSAGE_CHANGING: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_INIT)); break; // pause_print (M125, M600) case PAUSE_MESSAGE_WAITING: DWIN_Popup_Pause(GET_TEXT_F(MSG_ADVANCED_PAUSE_WAITING), BTN_Continue); break; case PAUSE_MESSAGE_INSERT: DWIN_Popup_Continue(ICON_BLTouch, GET_TEXT_F(MSG_ADVANCED_PAUSE), GET_TEXT_F(MSG_FILAMENT_CHANGE_INSERT)); break; case PAUSE_MESSAGE_LOAD: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_LOAD)); break; case PAUSE_MESSAGE_UNLOAD: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_UNLOAD)); break; // Unload of pause and Unload of M702 case PAUSE_MESSAGE_PURGE: #if ENABLED(ADVANCED_PAUSE_CONTINUOUS_PURGE) DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_CONT_PURGE)); #else DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_PURGE)); #endif break; case PAUSE_MESSAGE_OPTION: Goto_FilamentPurge(); break; case PAUSE_MESSAGE_RESUME: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_RESUME)); break; case PAUSE_MESSAGE_HEAT: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_HEAT), BTN_Continue); break; case PAUSE_MESSAGE_HEATING: DWIN_Popup_Pause(GET_TEXT_F(MSG_FILAMENT_CHANGE_HEATING)); break; case PAUSE_MESSAGE_STATUS: HMI_ReturnScreen(); break; // Exit from Pause, Load and Unload default: break; } } void Draw_Popup_FilamentPurge() { DWIN_Draw_Popup(ICON_BLTouch, GET_TEXT_F(MSG_ADVANCED_PAUSE), GET_TEXT_F(MSG_FILAMENT_CHANGE_PURGE_CONTINUE)); DWINUI::Draw_Button(BTN_Purge, 26, 280); DWINUI::Draw_Button(BTN_Continue, 146, 280); Draw_Select_Highlight(true); } void onClick_FilamentPurge() { if (HMI_flag.select_flag) pause_menu_response = PAUSE_RESPONSE_EXTRUDE_MORE; // "Purge More" button else { HMI_SaveProcessID(NothingToDo); pause_menu_response = PAUSE_RESPONSE_RESUME_PRINT; // "Continue" button } } void Goto_FilamentPurge() { pause_menu_response = PAUSE_RESPONSE_WAIT_FOR; Goto_Popup(Draw_Popup_FilamentPurge, onClick_FilamentPurge); } #endif // ADVANCED_PAUSE_FEATURE #if HAS_MESH void DWIN_MeshViewer() { if (!leveling_is_valid()) DWIN_Popup_Continue(ICON_BLTouch, GET_TEXT_F(MSG_MESH_VIEWER), GET_TEXT_F(MSG_NO_VALID_MESH)); else { HMI_SaveProcessID(WaitResponse); MeshViewer.Draw(); } } #endif // HAS_MESH void DWIN_LockScreen() { if (checkkey != Locked) { lockScreen.rprocess = checkkey; checkkey = Locked; lockScreen.init(); } } void DWIN_UnLockScreen() { if (checkkey == Locked) { checkkey = lockScreen.rprocess; Draw_Main_Area(); } } void HMI_LockScreen() { EncoderState encoder_diffState = get_encoder_state(); if (encoder_diffState == ENCODER_DIFF_NO) return; lockScreen.onEncoder(encoder_diffState); if (lockScreen.isUnlocked()) DWIN_UnLockScreen(); } void Goto_ConfirmToPrint() { card.openAndPrintFile(card.filename); DWIN_Print_Started(true); } #if HAS_ESDIAG void Draw_EndStopDiag() { HMI_SaveProcessID(ESDiagProcess); ESDiag.Draw(); } #endif //============================================================================= // NEW MENU SUBSYSTEM //============================================================================= // Tool functions #if ENABLED(EEPROM_SETTINGS) void WriteEeprom() { DWIN_DrawStatusLine(GET_TEXT_F(MSG_STORE_EEPROM)); DWIN_UpdateLCD(); DONE_BUZZ(settings.save()); } void ReadEeprom() { const bool success = settings.load(); DWIN_RedrawScreen(); DONE_BUZZ(success); } void ResetEeprom() { settings.reset(); DWIN_RedrawScreen(); DONE_BUZZ(true); } #if HAS_MESH void SaveMesh() { TERN(AUTO_BED_LEVELING_UBL, UBLSaveMesh(), WriteEeprom()); } #endif #endif // Reset Printer void RebootPrinter() { wait_for_heatup = wait_for_user = false; // Stop waiting for heating/user thermalManager.disable_all_heaters(); planner.finish_and_disable(); DWIN_RebootScreen(); hal.reboot(); } void Goto_Info_Menu() { Draw_Info_Menu(); DWIN_UpdateLCD(); HMI_SaveProcessID(WaitResponse); } void Goto_Move_Menu() { #if HAS_HOTEND gcode.process_subcommands_now(F("G92E0")); // reset extruder position #endif Draw_Move_Menu(); } void DisableMotors() { queue.inject(F("M84")); } void AutoLev() { // Always reacquire the Z "home" position queue.inject(F(TERN(AUTO_BED_LEVELING_UBL, "G28Z\nG29P1", "G28XYO\nG28Z\nG29"))); } void AutoHome() { queue.inject_P(G28_STR); } void HomeX() { queue.inject(F("G28X")); } void HomeY() { queue.inject(F("G28Y")); } void HomeZ() { queue.inject(F("G28Z")); } void SetHome() { // Apply workspace offset, making the current position 0,0,0 queue.inject(F("G92X0Y0Z0")); DONE_BUZZ(true); } #if HAS_ZOFFSET_ITEM void ApplyZOffset() { TERN_(EEPROM_SETTINGS, settings.save()); } void LiveZOffset() { #if EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) const_float_t step_zoffset = round((MenuData.Value / 100.0f) * planner.settings.axis_steps_per_mm[Z_AXIS]) - babystep.accum; if (BABYSTEP_ALLOWED()) babystep.add_steps(Z_AXIS, step_zoffset); #endif } #if EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) void SetZOffset() { babystep.accum = round(planner.settings.axis_steps_per_mm[Z_AXIS] * BABY_Z_VAR); SetPFloatOnClick(Z_PROBE_OFFSET_RANGE_MIN, Z_PROBE_OFFSET_RANGE_MAX, 2, ApplyZOffset, LiveZOffset); } #endif void SetMoveZto0() { #if ENABLED(Z_SAFE_HOMING) char cmd[54], str_1[5], str_2[5]; sprintf_P(cmd, PSTR("G28XYO\nG28Z\nG0X%sY%sF5000\nM420S0\nG0Z0F300\nM400"), dtostrf(Z_SAFE_HOMING_X_POINT, 1, 1, str_1), dtostrf(Z_SAFE_HOMING_Y_POINT, 1, 1, str_2) ); gcode.process_subcommands_now(cmd); #else gcode.process_subcommands_now(F("G28O\nM420S0\nG0Z0F300\nM400")); #endif ui.reset_status(); DONE_BUZZ(true); } void HomeZandDisable() { SetMoveZto0(); DisableMotors(); } #endif // HAS_ZOFFSET_ITEM #if HAS_PREHEAT void DoPreheat0() { ui.preheat_all(0); } #if PREHEAT_COUNT >= 2 void DoPreheat1() { ui.preheat_all(1); } #if PREHEAT_COUNT >= 3 void DoPreheat2() { ui.preheat_all(2); } #endif #endif #endif void DoCoolDown() { thermalManager.cooldown(); } void SetLanguage() { HMI_ToggleLanguage(); CurrentMenu = nullptr; // Invalidate menu to full redraw Draw_Prepare_Menu(); } void LiveMove() { *MenuData.P_Float = MenuData.Value / MINUNITMULT; if (!planner.is_full()) { planner.synchronize(); planner.buffer_line(current_position, homing_feedrate(HMI_value.axis)); } } void ApplyMoveE() { last_E = MenuData.Value / MINUNITMULT; if (!planner.is_full()) { planner.synchronize(); planner.buffer_line(current_position, MMM_TO_MMS(FEEDRATE_E)); } } void SetMoveX() { HMI_value.axis = X_AXIS; SetPFloatOnClick(X_MIN_POS, X_MAX_POS, UNITFDIGITS, planner.synchronize, LiveMove); } void SetMoveY() { HMI_value.axis = Y_AXIS; SetPFloatOnClick(Y_MIN_POS, Y_MAX_POS, UNITFDIGITS, planner.synchronize, LiveMove); } void SetMoveZ() { HMI_value.axis = Z_AXIS; SetPFloatOnClick(Z_MIN_POS, Z_MAX_POS, UNITFDIGITS, planner.synchronize, LiveMove); } #if HAS_HOTEND void SetMoveE() { #if ENABLED(PREVENT_COLD_EXTRUSION) if (thermalManager.tooColdToExtrude(0)) return DWIN_Popup_Confirm(ICON_TempTooLow, GET_TEXT_F(MSG_HOTEND_TOO_COLD), GET_TEXT_F(MSG_PLEASE_PREHEAT)); #endif SetPFloatOnClick(last_E - (EXTRUDE_MAXLENGTH), last_E + (EXTRUDE_MAXLENGTH), UNITFDIGITS, ApplyMoveE); } #endif void SetPID(celsius_t t, heater_id_t h) { char cmd[53] = ""; char str_1[5] = "", str_2[5] = ""; sprintf_P(cmd, PSTR("G28OXY\nG0Z5F300\nG0X%sY%sF5000\nM84\nM400"), dtostrf(X_CENTER, 1, 1, str_1), dtostrf(Y_CENTER, 1, 1, str_2) ); gcode.process_subcommands_now(cmd); thermalManager.PID_autotune(t, h, HMI_data.PidCycles, true); } #if HAS_HOTEND void HotendPID() { SetPID(HMI_data.HotendPidT, H_E0); } #endif #if HAS_HEATED_BED void BedPID() { SetPID(HMI_data.BedPidT, H_BED); } #endif #if ENABLED(POWER_LOSS_RECOVERY) void SetPwrLossr() { recovery.enable(!recovery.enabled); Draw_Chkb_Line(CurrentMenu->line(), recovery.enabled); DWIN_UpdateLCD(); } #endif #if ENABLED(BAUD_RATE_GCODE) void HMI_SetBaudRate() { if (HMI_data.Baud115K) SetBaud115K(); else SetBaud250K(); } void SetBaudRate() { HMI_SetBaudRate(); Draw_Chkb_Line(CurrentMenu->line(), HMI_data.Baud115K); DWIN_UpdateLCD(); } void SetBaud115K() { queue.inject(F("M575 P0 B115200")); HMI_data.Baud115K = true; } void SetBaud250K() { queue.inject(F("M575 P0 B250000")); HMI_data.Baud115K = false; } #endif #if HAS_LCD_BRIGHTNESS void ApplyBrightness() { ui.set_brightness(MenuData.Value); } void LiveBrightness() { DWIN_LCD_Brightness(MenuData.Value); } void SetBrightness() { SetIntOnClick(LCD_BRIGHTNESS_MIN, LCD_BRIGHTNESS_MAX, ui.brightness, ApplyBrightness, LiveBrightness); } void TurnOffBacklight() { HMI_SaveProcessID(WaitResponse); ui.set_brightness(0); DWIN_RedrawScreen(); } #endif #if ENABLED(CASE_LIGHT_MENU) void SetCaseLight() { caselight.on = !caselight.on; caselight.update_enabled(); Draw_Chkb_Line(CurrentMenu->line(), caselight.on); DWIN_UpdateLCD(); } #if ENABLED(CASELIGHT_USES_BRIGHTNESS) void LiveCaseLightBrightness() { caselight.brightness = MenuData.Value; caselight.update_brightness(); } void SetCaseLightBrightness() { SetIntOnClick(0, 255, caselight.brightness, nullptr, LiveCaseLightBrightness); } #endif #endif #if ENABLED(LED_CONTROL_MENU) #if !BOTH(CASE_LIGHT_MENU, CASE_LIGHT_USE_NEOPIXEL) void SetLedStatus() { leds.toggle(); Draw_Chkb_Line(CurrentMenu->line(), leds.lights_on); DWIN_UpdateLCD(); } #endif #if HAS_COLOR_LEDS void ApplyLEDColor() { HMI_data.LED_Color = TERN0(HAS_WHITE_LED, (leds.color.w << 24)) | (leds.color.r << 16) | (leds.color.g << 8) | leds.color.b; } void LiveLEDColor(uint8_t *color) { *color = MenuData.Value; leds.update(); } void LiveLEDColorR() { LiveLEDColor(&leds.color.r); } void LiveLEDColorG() { LiveLEDColor(&leds.color.g); } void LiveLEDColorB() { LiveLEDColor(&leds.color.b); } void SetLEDColorR() { SetIntOnClick(0, 255, leds.color.r, ApplyLEDColor, LiveLEDColorR); } void SetLEDColorG() { SetIntOnClick(0, 255, leds.color.g, ApplyLEDColor, LiveLEDColorG); } void SetLEDColorB() { SetIntOnClick(0, 255, leds.color.b, ApplyLEDColor, LiveLEDColorB); } #if HAS_WHITE_LED void LiveLEDColorW() { LiveLEDColor(&leds.color.w); } void SetLEDColorW() { SetIntOnClick(0, 255, leds.color.w, ApplyLEDColor, LiveLEDColorW); } #endif #endif #endif #if ENABLED(SOUND_MENU_ITEM) void SetEnableSound() { ui.buzzer_enabled = !ui.buzzer_enabled; Draw_Chkb_Line(CurrentMenu->line(), ui.buzzer_enabled); DWIN_UpdateLCD(); } #endif #if HAS_HOME_OFFSET void ApplyHomeOffset() { set_home_offset(HMI_value.axis, MenuData.Value / MINUNITMULT); } void SetHomeOffsetX() { HMI_value.axis = X_AXIS; SetPFloatOnClick(-50, 50, UNITFDIGITS, ApplyHomeOffset); } void SetHomeOffsetY() { HMI_value.axis = Y_AXIS; SetPFloatOnClick(-50, 50, UNITFDIGITS, ApplyHomeOffset); } void SetHomeOffsetZ() { HMI_value.axis = Z_AXIS; SetPFloatOnClick( -2, 2, UNITFDIGITS, ApplyHomeOffset); } #endif #if HAS_BED_PROBE void SetProbeOffsetX() { SetPFloatOnClick(-60, 60, UNITFDIGITS); } void SetProbeOffsetY() { SetPFloatOnClick(-60, 60, UNITFDIGITS); } void SetProbeOffsetZ() { SetPFloatOnClick(-10, 10, 2); } void ProbeTest() { LCD_MESSAGE(MSG_M48_TEST); queue.inject(F("G28O\nM48 P10")); } void ProbeStow() { probe.stow(); } void ProbeDeploy() { probe.deploy(); } #ifdef BLTOUCH_HS_MODE void SetHSMode() { bltouch.high_speed_mode = !bltouch.high_speed_mode; Draw_Chkb_Line(CurrentMenu->line(), bltouch.high_speed_mode); DWIN_UpdateLCD(); } #endif #endif #if HAS_FILAMENT_SENSOR void SetRunoutEnable() { runout.reset(); runout.enabled = !runout.enabled; Draw_Chkb_Line(CurrentMenu->line(), runout.enabled); DWIN_UpdateLCD(); } #if HAS_FILAMENT_RUNOUT_DISTANCE void ApplyRunoutDistance() { runout.set_runout_distance(MenuData.Value / MINUNITMULT); } void SetRunoutDistance() { SetFloatOnClick(0, 999, UNITFDIGITS, runout.runout_distance(), ApplyRunoutDistance); } #endif #endif #if ENABLED(ADVANCED_PAUSE_FEATURE) void SetFilLoad() { SetPFloatOnClick(0, MAX_LOAD_UNLOAD, UNITFDIGITS); } void SetFilUnload() { SetPFloatOnClick(0, MAX_LOAD_UNLOAD, UNITFDIGITS); } #endif #if ENABLED(PREVENT_COLD_EXTRUSION) void ApplyExtMinT() { thermalManager.extrude_min_temp = HMI_data.ExtMinT; thermalManager.allow_cold_extrude = (HMI_data.ExtMinT == 0); } void SetExtMinT() { SetPIntOnClick(MIN_ETEMP, MAX_ETEMP, ApplyExtMinT); } #endif void RestoreDefaultsColors() { DWIN_SetColorDefaults(); DWINUI::SetColors(HMI_data.Text_Color, HMI_data.Background_Color, HMI_data.StatusBg_Color); DWIN_RedrawScreen(); } void SelColor() { MenuData.P_Int = (int16_t*)static_cast(CurrentMenu->SelectedItem())->value; HMI_value.Color[0] = GetRColor(*MenuData.P_Int); // Red HMI_value.Color[1] = GetGColor(*MenuData.P_Int); // Green HMI_value.Color[2] = GetBColor(*MenuData.P_Int); // Blue Draw_GetColor_Menu(); } void LiveRGBColor() { HMI_value.Color[CurrentMenu->line() - 2] = MenuData.Value; uint16_t color = RGB(HMI_value.Color[0], HMI_value.Color[1], HMI_value.Color[2]); DWIN_Draw_Rectangle(1, color, 20, 315, DWIN_WIDTH - 20, 335); } void SetRGBColor() { const uint8_t color = CurrentMenu->SelectedItem()->icon; SetIntOnClick(0, (color == 1) ? 63 : 31, HMI_value.Color[color], nullptr, LiveRGBColor); } void DWIN_ApplyColor() { *MenuData.P_Int = RGB(HMI_value.Color[0], HMI_value.Color[1], HMI_value.Color[2]); DWINUI::SetColors(HMI_data.Text_Color, HMI_data.Background_Color, HMI_data.StatusBg_Color); Draw_SelectColors_Menu(); hash_changed = true; LCD_MESSAGE(MSG_COLORS_APPLIED); DWIN_Draw_Dashboard(); } void SetSpeed() { SetPIntOnClick(MIN_PRINT_SPEED, MAX_PRINT_SPEED); } #if HAS_HOTEND void ApplyHotendTemp() { thermalManager.setTargetHotend(MenuData.Value, 0); } void SetHotendTemp() { SetIntOnClick(MIN_ETEMP, MAX_ETEMP, thermalManager.degTargetHotend(0), ApplyHotendTemp); } #endif #if HAS_HEATED_BED void ApplyBedTemp() { thermalManager.setTargetBed(MenuData.Value); } void SetBedTemp() { SetIntOnClick(MIN_BEDTEMP, MAX_BEDTEMP, thermalManager.degTargetBed(), ApplyBedTemp); } #endif #if HAS_FAN void ApplyFanSpeed() { thermalManager.set_fan_speed(0, MenuData.Value); } void SetFanSpeed() { SetIntOnClick(0, 255, thermalManager.fan_speed[0], ApplyFanSpeed); } #endif #if ENABLED(ADVANCED_PAUSE_FEATURE) void ChangeFilament() { HMI_SaveProcessID(NothingToDo); queue.inject(F("M600 B2")); } void ParkHead() { LCD_MESSAGE(MSG_FILAMENT_PARK_ENABLED); queue.inject(F("G28O\nG27")); } #if ENABLED(FILAMENT_LOAD_UNLOAD_GCODES) void UnloadFilament() { LCD_MESSAGE(MSG_FILAMENTUNLOAD); queue.inject(F("M702 Z20")); } void LoadFilament() { LCD_MESSAGE(MSG_FILAMENTLOAD); queue.inject(F("M701 Z20")); } #endif #endif // ADVANCED_PAUSE_FEATURE void ApplyFlow() { planner.refresh_e_factor(0); } void SetFlow() { SetPIntOnClick(MIN_PRINT_FLOW, MAX_PRINT_FLOW, ApplyFlow); } // Bed Tramming TERN(HAS_BED_PROBE, float, void) Tram(uint8_t point) { char cmd[100] = ""; #if HAS_BED_PROBE static bool inLev = false; float xpos = 0, ypos = 0, zval = 0, margin = 0; char str_1[6] = "", str_2[6] = "", str_3[6] = ""; if (inLev) return NAN; margin = HMI_data.FullManualTramming ? 30 : PROBING_MARGIN; #else int16_t xpos = 0, ypos = 0; int16_t margin = 30; #endif switch (point) { case 0: LCD_MESSAGE(MSG_LEVBED_FL); xpos = ypos = margin; break; case 1: LCD_MESSAGE(MSG_LEVBED_FR); xpos = X_BED_SIZE - margin; ypos = margin; break; case 2: LCD_MESSAGE(MSG_LEVBED_BR); xpos = X_BED_SIZE - margin; ypos = Y_BED_SIZE - margin; break; case 3: LCD_MESSAGE(MSG_LEVBED_BL); xpos = margin; ypos = Y_BED_SIZE - margin; break; case 4: LCD_MESSAGE(MSG_LEVBED_C); xpos = X_BED_SIZE / 2; ypos = Y_BED_SIZE / 2; break; } planner.synchronize(); #if HAS_BED_PROBE if (HMI_data.FullManualTramming) { planner.synchronize(); sprintf_P(cmd, PSTR("M420S0\nG28O\nG90\nG0Z5F300\nG0X%sY%sF5000\nG0Z0F300"), dtostrf(xpos, 1, 1, str_1), dtostrf(ypos, 1, 1, str_2) ); queue.inject(cmd); } else { LIMIT(xpos, MESH_MIN_X, MESH_MAX_X); LIMIT(ypos, MESH_MIN_Y, MESH_MAX_Y); probe.stow(); gcode.process_subcommands_now(F("M420S0\nG28O")); inLev = true; zval = probe.probe_at_point(xpos, ypos, PROBE_PT_STOW); if (isnan(zval)) LCD_MESSAGE(MSG_ZPROBE_OUT); else { sprintf_P(cmd, PSTR("X:%s, Y:%s, Z:%s"), dtostrf(xpos, 1, 1, str_1), dtostrf(ypos, 1, 1, str_2), dtostrf(zval, 1, 2, str_3) ); ui.set_status(cmd); } inLev = false; } return zval; #else // !HAS_BED_PROBE sprintf_P(cmd, PSTR("M420S0\nG28O\nG90\nG0Z5F300\nG0X%iY%iF5000\nG0Z0F300"), xpos, ypos); queue.inject(cmd); #endif } void TramFL() { Tram(0); } void TramFR() { Tram(1); } void TramBR() { Tram(2); } void TramBL() { Tram(3); } void TramC () { Tram(4); } #if HAS_BED_PROBE void Trammingwizard() { bed_mesh_t zval = {0}; if (HMI_data.FullManualTramming) { LCD_MESSAGE_F("Disable manual tramming"); return; } zval[0][0] = Tram(0); checkkey = NothingToDo; MeshViewer.DrawMesh(zval, 2, 2); zval[1][0] = Tram(1); MeshViewer.DrawMesh(zval, 2, 2); zval[1][1] = Tram(2); MeshViewer.DrawMesh(zval, 2, 2); zval[0][1] = Tram(3); MeshViewer.DrawMesh(zval, 2, 2); DWINUI::Draw_CenteredString(140, F("Calculating average")); DWINUI::Draw_CenteredString(160, F("and relative heights")); safe_delay(1000); float avg = 0.0f; LOOP_L_N(x, 2) LOOP_L_N(y, 2) avg += zval[x][y]; avg /= 4.0f; LOOP_L_N(x, 2) LOOP_L_N(y, 2) zval[x][y] -= avg; MeshViewer.DrawMesh(zval, 2, 2); ui.reset_status(); if (ABS(MeshViewer.max - MeshViewer.min) < 0.05) { DWINUI::Draw_CenteredString(140,F("Corners leveled")); DWINUI::Draw_CenteredString(160,F("Tolerance achieved!")); } else { uint8_t p = 0; float max = 0; FSTR_P plabel; bool s = true; LOOP_L_N(x, 2) LOOP_L_N(y, 2) { const float d = ABS(zval[x][y]); if (max < d) { s = (zval[x][y] >= 0); max = d; p = x + 2 * y; } } switch (p) { case 0b00 : plabel = GET_TEXT_F(MSG_LEVBED_FL); break; case 0b01 : plabel = GET_TEXT_F(MSG_LEVBED_FR); break; case 0b10 : plabel = GET_TEXT_F(MSG_LEVBED_BL); break; case 0b11 : plabel = GET_TEXT_F(MSG_LEVBED_BR); break; default : plabel = F(""); break; } DWINUI::Draw_CenteredString(120, F("Corners not leveled")); DWINUI::Draw_CenteredString(140, F("Knob adjustment required")); DWINUI::Draw_CenteredString(Color_Green, 160, s ? F("Lower") : F("Raise")); DWINUI::Draw_CenteredString(Color_Green, 180, plabel); } DWINUI::Draw_Button(BTN_Continue, 86, 305); checkkey = Menu; HMI_SaveProcessID(WaitResponse); } void SetManualTramming() { HMI_data.FullManualTramming = !HMI_data.FullManualTramming; Draw_Chkb_Line(CurrentMenu->line(), HMI_data.FullManualTramming); DWIN_UpdateLCD(); } #endif // HAS_BED_PROBE #if ENABLED(MESH_BED_LEVELING) void ManualMeshStart() { LCD_MESSAGE(MSG_UBL_BUILD_MESH_MENU); gcode.process_subcommands_now(F("G28XYO\nG28Z\nM211S0\nG29S1")); #ifdef MANUAL_PROBE_START_Z const uint8_t line = CurrentMenu->line(MMeshMoveZItem->pos); DWINUI::Draw_Signed_Float(HMI_data.Text_Color, HMI_data.Background_Color, 3, 2, VALX - 2 * DWINUI::fontWidth(DWIN_FONT_MENU), MBASE(line), MANUAL_PROBE_START_Z); #endif } void LiveMeshMoveZ() { *MenuData.P_Float = MenuData.Value / POW(10, 2); if (!planner.is_full()) { planner.synchronize(); planner.buffer_line(current_position, homing_feedrate(Z_AXIS)); } } void SetMMeshMoveZ() { SetPFloatOnClick(-1, 1, 2, planner.synchronize, LiveMeshMoveZ); } void ManualMeshContinue() { gcode.process_subcommands_now(F("G29S2")); MMeshMoveZItem->redraw(); } void ManualMeshSave() { LCD_MESSAGE(MSG_UBL_STORAGE_MESH_MENU); queue.inject(F("M211S1\nM500")); } #endif // MESH_BED_LEVELING #if HAS_PREHEAT #if HAS_HOTEND void SetPreheatEndTemp() { SetPIntOnClick(MIN_ETEMP, MAX_ETEMP); } #endif #if HAS_HEATED_BED void SetPreheatBedTemp() { SetPIntOnClick(MIN_BEDTEMP, MAX_BEDTEMP); } #endif #if HAS_FAN void SetPreheatFanSpeed() { SetPIntOnClick(0, 255); } #endif #endif void ApplyMaxSpeed() { planner.set_max_feedrate(HMI_value.axis, MenuData.Value / MINUNITMULT); } void SetMaxSpeedX() { HMI_value.axis = X_AXIS, SetFloatOnClick(MIN_MAXFEEDSPEED, max_feedrate_edit_values[X_AXIS], UNITFDIGITS, planner.settings.max_feedrate_mm_s[X_AXIS], ApplyMaxSpeed); } void SetMaxSpeedY() { HMI_value.axis = Y_AXIS, SetFloatOnClick(MIN_MAXFEEDSPEED, max_feedrate_edit_values[Y_AXIS], UNITFDIGITS, planner.settings.max_feedrate_mm_s[Y_AXIS], ApplyMaxSpeed); } void SetMaxSpeedZ() { HMI_value.axis = Z_AXIS, SetFloatOnClick(MIN_MAXFEEDSPEED, max_feedrate_edit_values[Z_AXIS], UNITFDIGITS, planner.settings.max_feedrate_mm_s[Z_AXIS], ApplyMaxSpeed); } #if HAS_HOTEND void SetMaxSpeedE() { HMI_value.axis = E_AXIS; SetFloatOnClick(MIN_MAXFEEDSPEED, max_feedrate_edit_values[E_AXIS], UNITFDIGITS, planner.settings.max_feedrate_mm_s[E_AXIS], ApplyMaxSpeed); } #endif void ApplyMaxAccel() { planner.set_max_acceleration(HMI_value.axis, MenuData.Value); } void SetMaxAccelX() { HMI_value.axis = X_AXIS, SetIntOnClick(MIN_MAXACCELERATION, max_acceleration_edit_values[X_AXIS], planner.settings.max_acceleration_mm_per_s2[X_AXIS], ApplyMaxAccel); } void SetMaxAccelY() { HMI_value.axis = Y_AXIS, SetIntOnClick(MIN_MAXACCELERATION, max_acceleration_edit_values[Y_AXIS], planner.settings.max_acceleration_mm_per_s2[Y_AXIS], ApplyMaxAccel); } void SetMaxAccelZ() { HMI_value.axis = Z_AXIS, SetIntOnClick(MIN_MAXACCELERATION, max_acceleration_edit_values[Z_AXIS], planner.settings.max_acceleration_mm_per_s2[Z_AXIS], ApplyMaxAccel); } #if HAS_HOTEND void SetMaxAccelE() { HMI_value.axis = E_AXIS; SetIntOnClick(MIN_MAXACCELERATION, max_acceleration_edit_values[E_AXIS], planner.settings.max_acceleration_mm_per_s2[E_AXIS], ApplyMaxAccel); } #endif #if HAS_CLASSIC_JERK void ApplyMaxJerk() { planner.set_max_jerk(HMI_value.axis, MenuData.Value / MINUNITMULT); } void SetMaxJerkX() { HMI_value.axis = X_AXIS, SetFloatOnClick(MIN_MAXJERK, max_jerk_edit_values[X_AXIS], UNITFDIGITS, planner.max_jerk[X_AXIS], ApplyMaxJerk); } void SetMaxJerkY() { HMI_value.axis = Y_AXIS, SetFloatOnClick(MIN_MAXJERK, max_jerk_edit_values[Y_AXIS], UNITFDIGITS, planner.max_jerk[Y_AXIS], ApplyMaxJerk); } void SetMaxJerkZ() { HMI_value.axis = Z_AXIS, SetFloatOnClick(MIN_MAXJERK, max_jerk_edit_values[Z_AXIS], UNITFDIGITS, planner.max_jerk[Z_AXIS], ApplyMaxJerk); } #if HAS_HOTEND void SetMaxJerkE() { HMI_value.axis = E_AXIS; SetFloatOnClick(MIN_MAXJERK, max_jerk_edit_values[E_AXIS], UNITFDIGITS, planner.max_jerk[E_AXIS], ApplyMaxJerk); } #endif #endif void SetStepsX() { HMI_value.axis = X_AXIS, SetPFloatOnClick( MIN_STEP, MAX_STEP, UNITFDIGITS); } void SetStepsY() { HMI_value.axis = Y_AXIS, SetPFloatOnClick( MIN_STEP, MAX_STEP, UNITFDIGITS); } void SetStepsZ() { HMI_value.axis = Z_AXIS, SetPFloatOnClick( MIN_STEP, MAX_STEP, UNITFDIGITS); } #if HAS_HOTEND void SetStepsE() { HMI_value.axis = E_AXIS; SetPFloatOnClick( MIN_STEP, MAX_STEP, UNITFDIGITS); } void SetHotendPidT() { SetPIntOnClick(MIN_ETEMP, MAX_ETEMP); } #endif #if HAS_HEATED_BED void SetBedPidT() { SetPIntOnClick(MIN_BEDTEMP, MAX_BEDTEMP); } #endif #if HAS_HOTEND || HAS_HEATED_BED void SetPidCycles() { SetPIntOnClick(3, 50); } void SetKp() { SetPFloatOnClick(0, 1000, 2); } void ApplyPIDi() { *MenuData.P_Float = scalePID_i(MenuData.Value / POW(10, 2)); thermalManager.updatePID(); } void ApplyPIDd() { *MenuData.P_Float = scalePID_d(MenuData.Value / POW(10, 2)); thermalManager.updatePID(); } void SetKi() { MenuData.P_Float = (float*)static_cast(CurrentMenu->SelectedItem())->value; const float value = unscalePID_i(*MenuData.P_Float); SetFloatOnClick(0, 1000, 2, value, ApplyPIDi); } void SetKd() { MenuData.P_Float = (float*)static_cast(CurrentMenu->SelectedItem())->value; const float value = unscalePID_d(*MenuData.P_Float); SetFloatOnClick(0, 1000, 2, value, ApplyPIDd); } #endif #if ENABLED(FWRETRACT) void Return_FWRetract_Menu() { (PreviousMenu == FilSetMenu) ? Draw_FilSet_Menu() : Draw_Tune_Menu(); } void SetRetractLength() { SetPFloatOnClick( 0, 10, UNITFDIGITS); } void SetRetractSpeed() { SetPFloatOnClick( 1, 90, UNITFDIGITS); } void SetZRaise() { SetPFloatOnClick( 0, 2, 2); } void SetRecoverSpeed() { SetPFloatOnClick( 1, 90, UNITFDIGITS); } void SetAddRecover() { SetPFloatOnClick(-5, 5, UNITFDIGITS); } #endif // Special Menuitem Drawing functions ================================================= void onDrawBack(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 129, 72, 156, 84); onDrawMenuItem(menuitem, line); } void onDrawTempSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 57, 104, 84, 116); onDrawSubMenu(menuitem, line); } void onDrawMotionSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 87, 104, 114, 116); onDrawSubMenu(menuitem, line); } #if ENABLED(EEPROM_SETTINGS) void onDrawWriteEeprom(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 117, 104, 172, 116); onDrawMenuItem(menuitem, line); } void onDrawReadEeprom(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 174, 103, 229, 116); onDrawMenuItem(menuitem, line); } void onDrawResetEeprom(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 1, 118, 56, 131); onDrawMenuItem(menuitem, line); } #endif void onDrawInfoSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 231, 104, 258, 116); onDrawSubMenu(menuitem, line); } void onDrawMoveX(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 58, 118, 106, 132); onDrawPFloatMenu(menuitem, line); } void onDrawMoveY(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 109, 118, 157, 132); onDrawPFloatMenu(menuitem, line); } void onDrawMoveZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 160, 118, 209, 132); onDrawPFloatMenu(menuitem, line); } #if HAS_HOTEND void onDrawMoveE(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 212, 118, 253, 131); onDrawPFloatMenu(menuitem, line); } #endif void onDrawMoveSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 159, 70, 200, 84); onDrawSubMenu(menuitem, line); } void onDrawDisableMotors(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 204, 70, 259, 82); onDrawMenuItem(menuitem, line); } void onDrawAutoHome(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 0, 89, 41, 101); onDrawMenuItem(menuitem, line); } #if HAS_ZOFFSET_ITEM #if EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) void onDrawZOffset(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 174, 164, 223, 177); onDrawPFloat2Menu(menuitem, line); } #else void onDrawHomeOffset(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 43, 89, 98, 101); onDrawMenuItem(menuitem, line); } #endif #endif #if HAS_HOTEND void onDrawPreheat1(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 100, 89, 151, 101); onDrawMenuItem(menuitem, line); } #if PREHEAT_COUNT > 1 void onDrawPreheat2(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 180, 89, 233, 100); onDrawMenuItem(menuitem, line); } #endif #endif #if HAS_PREHEAT void onDrawCooldown(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 1, 104, 56, 117); onDrawMenuItem(menuitem, line); } #endif void onDrawLanguage(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 239, 134, 266, 146); onDrawMenuItem(menuitem, line); DWINUI::Draw_String(VALX, MBASE(line), HMI_IsChinese() ? F("CN") : F("EN")); } void onDrawSelColorItem(MenuItemClass* menuitem, int8_t line) { const uint16_t color = *(uint16_t*)static_cast(menuitem)->value; DWIN_Draw_Rectangle(0, HMI_data.Highlight_Color, ICOX + 1, MBASE(line) - 1 + 1, ICOX + 18, MBASE(line) - 1 + 18); DWIN_Draw_Rectangle(1, color, ICOX + 2, MBASE(line) - 1 + 2, ICOX + 17, MBASE(line) - 1 + 17); onDrawMenuItem(menuitem, line); } void onDrawGetColorItem(MenuItemClass* menuitem, int8_t line) { const uint8_t i = menuitem->icon; uint16_t color; switch (i) { case 0: color = RGB(31, 0, 0); break; // Red case 1: color = RGB(0, 63, 0); break; // Green case 2: color = RGB(0, 0, 31); break; // Blue default: color = 0; break; } DWIN_Draw_Rectangle(0, HMI_data.Highlight_Color, ICOX + 1, MBASE(line) - 1 + 1, ICOX + 18, MBASE(line) - 1 + 18); DWIN_Draw_Rectangle(1, color, ICOX + 2, MBASE(line) - 1 + 2, ICOX + 17, MBASE(line) - 1 + 17); DWINUI::Draw_String(LBLX, MBASE(line) - 1, menuitem->caption); Draw_Menu_IntValue(HMI_data.Background_Color, line, 4, HMI_value.Color[i]); DWIN_Draw_HLine(HMI_data.SplitLine_Color, 16, MYPOS(line + 1), 240); } #if HAS_FILAMENT_SENSOR void onDrawRunoutEnable(MenuItemClass* menuitem, int8_t line) { onDrawChkbMenu(menuitem, line, runout.enabled); } #endif void onDrawPIDi(MenuItemClass* menuitem, int8_t line) { onDrawFloatMenu(menuitem, line, 2, unscalePID_i(*(float*)static_cast(menuitem)->value)); } void onDrawPIDd(MenuItemClass* menuitem, int8_t line) { onDrawFloatMenu(menuitem, line, 2, unscalePID_d(*(float*)static_cast(menuitem)->value)); } void onDrawSpeedItem(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 116, 164, 171, 176); onDrawPIntMenu(menuitem, line); } #if HAS_HOTEND void onDrawHotendTemp(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 1, 134, 56, 146); onDrawPIntMenu(menuitem, line); } #endif #if HAS_HEATED_BED void onDrawBedTemp(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 58, 134, 113, 146); onDrawPIntMenu(menuitem, line); } #endif #if HAS_FAN void onDrawFanSpeed(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 115, 134, 170, 146); onDrawPInt8Menu(menuitem, line); } #endif void onDrawSteps(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 153, 148, 194, 161); onDrawSubMenu(menuitem, line); } #if ENABLED(MESH_BED_LEVELING) void onDrawMMeshMoveZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 160, 118, 209, 132); onDrawPFloat2Menu(menuitem, line); } #endif #if HAS_PREHEAT #if HAS_HOTEND void onDrawSetPreheatHotend(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 1, 134, 56, 146); onDrawPIntMenu(menuitem, line); } #endif #if HAS_HEATED_BED void onDrawSetPreheatBed(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 58, 134, 113, 146); onDrawPIntMenu(menuitem, line); } #endif #if HAS_FAN void onDrawSetPreheatFan(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 115, 134, 170, 146); onDrawPIntMenu(menuitem, line); } #endif void onDrawPLAPreheatSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 100, 89, 178, 101); onDrawSubMenu(menuitem,line); } #if PREHEAT_COUNT >= 2 void onDrawABSPreheatSubMenu(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 180, 89, 260, 100); onDrawSubMenu(menuitem,line); } #endif #endif // HAS_PREHEAT void onDrawSpeed(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) menuitem->SetFrame(1, 173, 133, 228, 147); onDrawSubMenu(menuitem, line); } void onDrawMaxSpeedX(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 228, 147); DWIN_Frame_AreaCopy(1, 229, 133, 236, 147, LBLX + 58, MBASE(line)); // X } onDrawPFloatMenu(menuitem, line); } void onDrawMaxSpeedY(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 228, 147); DWIN_Frame_AreaCopy(1, 1, 150, 7, 160, LBLX + 58, MBASE(line)); // Y } onDrawPFloatMenu(menuitem, line); } void onDrawMaxSpeedZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 228, 147); DWIN_Frame_AreaCopy(1, 9, 150, 16, 160, LBLX + 58, MBASE(line) + 3); // Z } onDrawPFloatMenu(menuitem, line); } #if HAS_HOTEND void onDrawMaxSpeedE(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 228, 147); DWIN_Frame_AreaCopy(1, 18, 150, 25, 160, LBLX + 58, MBASE(line)); // E } onDrawPFloatMenu(menuitem, line); } #endif void onDrawAcc(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 28, 149, 69, 161, LBLX + 27, MBASE(line) + 1); // ...Acceleration } onDrawSubMenu(menuitem, line); } void onDrawMaxAccelX(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 28, 149, 69, 161, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 229, 133, 236, 147, LBLX + 71, MBASE(line)); // X } onDrawPInt32Menu(menuitem, line); } void onDrawMaxAccelY(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 28, 149, 69, 161, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 1, 150, 7, 160, LBLX + 71, MBASE(line)); // Y } onDrawPInt32Menu(menuitem, line); } void onDrawMaxAccelZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 28, 149, 69, 161, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 9, 150, 16, 160, LBLX + 71, MBASE(line)); // Z } onDrawPInt32Menu(menuitem, line); } #if HAS_HOTEND void onDrawMaxAccelE(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 28, 149, 69, 161, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 18, 150, 25, 160, LBLX + 71, MBASE(line)); // E } onDrawPInt32Menu(menuitem, line); } #endif #if HAS_CLASSIC_JERK void onDrawJerk(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 1, 180, 28, 192, LBLX + 27, MBASE(line) + 1); // ... DWIN_Frame_AreaCopy(1, 202, 133, 228, 147, LBLX + 54, MBASE(line)); // ...Jerk } onDrawSubMenu(menuitem, line); } void onDrawMaxJerkX(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 1, 180, 28, 192, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 202, 133, 228, 147, LBLX + 53, MBASE(line)); DWIN_Frame_AreaCopy(1, 229, 133, 236, 147, LBLX + 83, MBASE(line)); } onDrawPFloatMenu(menuitem, line); } void onDrawMaxJerkY(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 1, 180, 28, 192, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 202, 133, 228, 147, LBLX + 53, MBASE(line)); DWIN_Frame_AreaCopy(1, 1, 150, 7, 160, LBLX + 83, MBASE(line)); } onDrawPFloatMenu(menuitem, line); } void onDrawMaxJerkZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 1, 180, 28, 192, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 202, 133, 228, 147, LBLX + 53, MBASE(line)); DWIN_Frame_AreaCopy(1, 9, 150, 16, 160, LBLX + 83, MBASE(line)); } onDrawPFloatMenu(menuitem, line); } #if HAS_HOTEND void onDrawMaxJerkE(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 173, 133, 200, 147); DWIN_Frame_AreaCopy(1, 1, 180, 28, 192, LBLX + 27, MBASE(line)); DWIN_Frame_AreaCopy(1, 202, 133, 228, 147, LBLX + 53, MBASE(line)); DWIN_Frame_AreaCopy(1, 18, 150, 25, 160, LBLX + 83, MBASE(line)); } onDrawPFloatMenu(menuitem, line); } #endif #endif // HAS_CLASSIC_JERK void onDrawStepsX(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 153, 148, 194, 161); DWIN_Frame_AreaCopy(1, 229, 133, 236, 147, LBLX + 44, MBASE(line)); // X } onDrawPFloatMenu(menuitem, line); } void onDrawStepsY(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 153, 148, 194, 161); DWIN_Frame_AreaCopy(1, 1, 150, 7, 160, LBLX + 44, MBASE(line)); // Y } onDrawPFloatMenu(menuitem, line); } void onDrawStepsZ(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 153, 148, 194, 161); DWIN_Frame_AreaCopy(1, 9, 150, 16, 160, LBLX + 44, MBASE(line)); // Z } onDrawPFloatMenu(menuitem, line); } #if HAS_HOTEND void onDrawStepsE(MenuItemClass* menuitem, int8_t line) { if (HMI_IsChinese()) { menuitem->SetFrame(1, 153, 148, 194, 161); DWIN_Frame_AreaCopy(1, 18, 150, 25, 160, LBLX + 44, MBASE(line)); // E } onDrawPFloatMenu(menuitem, line); } #endif #if HAS_ONESTEP_LEVELING void onDrawManualTramming(MenuItemClass* menuitem, int8_t line) { onDrawChkbMenu(menuitem, line, HMI_data.FullManualTramming); } #endif // Menu Creation and Drawing functions ====================================================== void SetMenuTitle(frame_rect_t cn, const __FlashStringHelper* fstr) { if (HMI_IsChinese() && (cn.w != 0)) CurrentMenu->MenuTitle.SetFrame(cn.x, cn.y, cn.w, cn.h); else CurrentMenu->MenuTitle.SetCaption(fstr); } void Draw_Prepare_Menu() { checkkey = Menu; if (!PrepareMenu) PrepareMenu = new MenuClass(); if (CurrentMenu != PrepareMenu) { CurrentMenu = PrepareMenu; SetMenuTitle({133, 1, 28, 13}, GET_TEXT_F(MSG_PREPARE)); MenuItemsPrepare(13); BACK_ITEM(Goto_Main_Menu); #if ENABLED(ADVANCED_PAUSE_FEATURE) MENU_ITEM_F(ICON_FilMan, MSG_FILAMENT_MAN, onDrawSubMenu, Draw_FilamentMan_Menu); #endif MENU_ITEM_F(ICON_Axis, MSG_MOVE_AXIS, onDrawMoveSubMenu, Goto_Move_Menu); MENU_ITEM_F(ICON_Tram, MSG_BED_TRAMMING, onDrawSubMenu, Draw_Tramming_Menu); MENU_ITEM_F(ICON_CloseMotor, MSG_DISABLE_STEPPERS, onDrawDisableMotors, DisableMotors); #if ENABLED(INDIVIDUAL_AXIS_HOMING_SUBMENU) MENU_ITEM_F(ICON_Homing, MSG_HOMING, onDrawSubMenu, Draw_Homing_Menu); #else MENU_ITEM_F(ICON_Homing, MSG_AUTO_HOME, onDrawAutoHome, AutoHome); #endif #if ENABLED(MESH_BED_LEVELING) MENU_ITEM_F(ICON_ManualMesh, MSG_MANUAL_MESH, onDrawSubMenu, Draw_ManualMesh_Menu); #endif #if HAS_ONESTEP_LEVELING MENU_ITEM_F(ICON_Level, MSG_AUTO_MESH, onDrawMenuItem, AutoLev); #endif #if HAS_ZOFFSET_ITEM #if ENABLED(BABYSTEP_ZPROBE_OFFSET) MENU_ITEM_F(ICON_SetZOffset, MSG_PROBE_WIZARD, onDrawSubMenu, Draw_ZOffsetWiz_Menu); #elif JUST_BABYSTEP EDIT_ITEM_F(ICON_Zoffset, MSG_ZPROBE_ZOFFSET, onDrawPFloat2Menu, SetZOffset, &BABY_Z_VAR); #else MENU_ITEM_F(ICON_SetHome, MSG_SET_HOME_OFFSETS, onDrawHomeOffset, SetHome); #endif #endif #if HAS_PREHEAT MENU_ITEM_F(ICON_PLAPreheat, MSG_PREHEAT_1, onDrawPreheat1, DoPreheat0); #if PREHEAT_COUNT > 1 MENU_ITEM(ICON_ABSPreheat, F("Preheat " PREHEAT_2_LABEL), onDrawPreheat2, DoPreheat1); #if PREHEAT_COUNT > 2 MENU_ITEM(ICON_CustomPreheat, F("Preheat " PREHEAT_3_LABEL), onDrawMenuItem, DoPreheat2); #endif #endif #endif MENU_ITEM_F(ICON_Cool, MSG_COOLDOWN, onDrawCooldown, DoCoolDown); MENU_ITEM_F(ICON_Language, MSG_UI_LANGUAGE, onDrawLanguage, SetLanguage); } ui.reset_status(true); CurrentMenu->draw(); } void Draw_Tramming_Menu() { checkkey = Menu; if (SetMenu(TrammingMenu, GET_TEXT_F(MSG_BED_TRAMMING), 8)) { BACK_ITEM(Draw_Prepare_Menu); #if HAS_BED_PROBE MENU_ITEM_F(ICON_ProbeSet, MSG_TRAMMING_WIZARD, onDrawMenuItem, Trammingwizard); EDIT_ITEM_F(ICON_ProbeSet, MSG_BED_TRAMMING_MANUAL, onDrawChkbMenu, SetManualTramming, &HMI_data.FullManualTramming); #else MENU_ITEM(ICON_MoveZ0, F("Home Z and disable"), onDrawMenuItem, HomeZandDisable); #endif MENU_ITEM_F(ICON_Axis, MSG_LEVBED_FL, onDrawMenuItem, TramFL); MENU_ITEM_F(ICON_Axis, MSG_LEVBED_FR, onDrawMenuItem, TramFR); MENU_ITEM_F(ICON_Axis, MSG_LEVBED_BR, onDrawMenuItem, TramBR); MENU_ITEM_F(ICON_Axis, MSG_LEVBED_BL, onDrawMenuItem, TramBL); MENU_ITEM(ICON_Axis, GET_TEXT_F(MSG_LEVBED_C ), onDrawMenuItem, TramC ); } UpdateMenu(TrammingMenu); } void Draw_Control_Menu() { checkkey = Menu; if (!ControlMenu) ControlMenu = new MenuClass(); if (CurrentMenu != ControlMenu) { CurrentMenu = ControlMenu; SetMenuTitle({103, 1, 28, 14}, GET_TEXT_F(MSG_CONTROL)); MenuItemsPrepare(10); BACK_ITEM(Goto_Main_Menu); MENU_ITEM_F(ICON_Temperature, MSG_TEMPERATURE, onDrawTempSubMenu, Draw_Temperature_Menu); MENU_ITEM_F(ICON_Motion, MSG_MOTION, onDrawMotionSubMenu, Draw_Motion_Menu); #if ENABLED(EEPROM_SETTINGS) MENU_ITEM_F(ICON_WriteEEPROM, MSG_STORE_EEPROM, onDrawWriteEeprom, WriteEeprom); MENU_ITEM_F(ICON_ReadEEPROM, MSG_LOAD_EEPROM, onDrawReadEeprom, ReadEeprom); MENU_ITEM_F(ICON_ResumeEEPROM, MSG_RESTORE_DEFAULTS, onDrawResetEeprom, ResetEeprom); #endif MENU_ITEM_F(ICON_Reboot, MSG_RESET_PRINTER, onDrawMenuItem, RebootPrinter); #if ENABLED(CASE_LIGHT_MENU) #if ENABLED(CASELIGHT_USES_BRIGHTNESS) MENU_ITEM_F(ICON_CaseLight, MSG_CASE_LIGHT, onDrawSubMenu, Draw_CaseLight_Menu); #else MENU_ITEM_F(ICON_CaseLight, MSG_CASE_LIGHT, onDrawChkbMenu, SetCaseLight, &caselight.on); #endif #endif #if ENABLED(LED_CONTROL_MENU) MENU_ITEM_F(ICON_LedControl, MSG_LED_CONTROL, onDrawSubMenu, Draw_LedControl_Menu); #endif MENU_ITEM_F(ICON_Info, MSG_INFO_SCREEN, onDrawInfoSubMenu, Goto_Info_Menu); } ui.reset_status(true); CurrentMenu->draw(); } void Draw_AdvancedSettings_Menu() { checkkey = Menu; if (SetMenu(AdvancedSettings, GET_TEXT_F(MSG_ADVANCED_SETTINGS), 20)) { BACK_ITEM(Goto_Main_Menu); #if ENABLED(EEPROM_SETTINGS) MENU_ITEM_F(ICON_WriteEEPROM, MSG_STORE_EEPROM, onDrawMenuItem, WriteEeprom); #endif #if HAS_BED_PROBE MENU_ITEM_F(ICON_ProbeSet, MSG_ZPROBE_SETTINGS, onDrawSubMenu, Draw_ProbeSet_Menu); #endif #if HAS_MESH MENU_ITEM_F(ICON_ProbeSet, MSG_MESH_LEVELING, onDrawSubMenu, Draw_MeshSet_Menu); #endif #if HAS_HOME_OFFSET MENU_ITEM_F(ICON_HomeOffset, MSG_SET_HOME_OFFSETS, onDrawSubMenu, Draw_HomeOffset_Menu); #endif #if HAS_HOTEND MENU_ITEM(ICON_PIDNozzle, F(STR_HOTEND_PID " Settings"), onDrawSubMenu, Draw_HotendPID_Menu); #endif #if HAS_HEATED_BED MENU_ITEM(ICON_PIDbed, F(STR_BED_PID " Settings"), onDrawSubMenu, Draw_BedPID_Menu); #endif MENU_ITEM_F(ICON_FilSet, MSG_FILAMENT_SET, onDrawSubMenu, Draw_FilSet_Menu); #if ENABLED(POWER_LOSS_RECOVERY) EDIT_ITEM_F(ICON_Pwrlossr, MSG_OUTAGE_RECOVERY, onDrawChkbMenu, SetPwrLossr, &recovery.enabled); #endif #if ENABLED(BAUD_RATE_GCODE) EDIT_ITEM(ICON_SetBaudRate, F("115K baud"), onDrawChkbMenu, SetBaudRate, &HMI_data.Baud115K); #endif #if HAS_LCD_BRIGHTNESS EDIT_ITEM_F(ICON_Brightness, MSG_BRIGHTNESS, onDrawPInt8Menu, SetBrightness, &ui.brightness); MENU_ITEM_F(ICON_Brightness, MSG_BRIGHTNESS_OFF, onDrawMenuItem, TurnOffBacklight); #endif MENU_ITEM_F(ICON_Scolor, MSG_COLORS_SELECT, onDrawSubMenu, Draw_SelectColors_Menu); #if ENABLED(SOUND_MENU_ITEM) EDIT_ITEM_F(ICON_Sound, MSG_SOUND_ENABLE, onDrawChkbMenu, SetEnableSound, &ui.sound_on); #endif #if HAS_ESDIAG MENU_ITEM(ICON_ESDiag, F("End-stops diag."), onDrawSubMenu, Draw_EndStopDiag); #endif #if ENABLED(PRINTCOUNTER) MENU_ITEM_F(ICON_PrintStats, MSG_INFO_STATS_MENU, onDrawSubMenu, Goto_PrintStats); MENU_ITEM_F(ICON_PrintStatsReset, MSG_INFO_PRINT_COUNT_RESET, onDrawSubMenu, PrintStats.Reset); #endif MENU_ITEM_F(ICON_Lock, MSG_LOCKSCREEN, onDrawMenuItem, DWIN_LockScreen); } ui.reset_status(true); UpdateMenu(AdvancedSettings); } void Draw_Move_Menu() { checkkey = Menu; if (!MoveMenu) MoveMenu = new MenuClass(); if (CurrentMenu != MoveMenu) { CurrentMenu = MoveMenu; SetMenuTitle({192, 1, 42, 14}, GET_TEXT_F(MSG_MOVE_AXIS)); MenuItemsPrepare(5); BACK_ITEM(Draw_Prepare_Menu); EDIT_ITEM_F(ICON_MoveX, MSG_MOVE_X, onDrawMoveX, SetMoveX, ¤t_position.x); EDIT_ITEM_F(ICON_MoveY, MSG_MOVE_Y, onDrawMoveY, SetMoveY, ¤t_position.y); EDIT_ITEM_F(ICON_MoveZ, MSG_MOVE_Z, onDrawMoveZ, SetMoveZ, ¤t_position.z); #if HAS_HOTEND EDIT_ITEM_F(ICON_Extruder, MSG_MOVE_E, onDrawMoveE, SetMoveE, ¤t_position.e); #endif } CurrentMenu->draw(); if (!all_axes_trusted()) LCD_MESSAGE_F("WARNING: Current position unknown. Home axes."); } #if HAS_HOME_OFFSET void Draw_HomeOffset_Menu() { checkkey = Menu; if (SetMenu(HomeOffMenu, GET_TEXT_F(MSG_SET_HOME_OFFSETS), 4)) { BACK_ITEM(Draw_AdvancedSettings_Menu); EDIT_ITEM_F(ICON_HomeOffsetX, MSG_HOME_OFFSET_X, onDrawPFloatMenu, SetHomeOffsetX, &home_offset.x); EDIT_ITEM_F(ICON_HomeOffsetY, MSG_HOME_OFFSET_Y, onDrawPFloatMenu, SetHomeOffsetY, &home_offset.y); EDIT_ITEM_F(ICON_HomeOffsetZ, MSG_HOME_OFFSET_Z, onDrawPFloatMenu, SetHomeOffsetZ, &home_offset.z); } UpdateMenu(HomeOffMenu); } #endif #if HAS_BED_PROBE void Draw_ProbeSet_Menu() { checkkey = Menu; if (SetMenu(ProbeSetMenu, GET_TEXT_F(MSG_ZPROBE_SETTINGS), 8)) { BACK_ITEM(Draw_AdvancedSettings_Menu); EDIT_ITEM_F(ICON_ProbeOffsetX, MSG_ZPROBE_XOFFSET, onDrawPFloatMenu, SetProbeOffsetX, &probe.offset.x); EDIT_ITEM_F(ICON_ProbeOffsetY, MSG_ZPROBE_YOFFSET, onDrawPFloatMenu, SetProbeOffsetY, &probe.offset.y); EDIT_ITEM_F(ICON_ProbeOffsetZ, MSG_ZPROBE_ZOFFSET, onDrawPFloat2Menu, SetProbeOffsetZ, &probe.offset.z); #ifdef BLTOUCH_HS_MODE EDIT_ITEM_F(ICON_HSMode, MSG_ENABLE_HS_MODE, onDrawChkbMenu, SetHSMode, &bltouch.high_speed_mode); #endif MENU_ITEM_F(ICON_ProbeTest, MSG_M48_TEST, onDrawMenuItem, ProbeTest); MENU_ITEM_F(ICON_ProbeStow, MSG_MANUAL_STOW, onDrawMenuItem, ProbeStow); MENU_ITEM_F(ICON_ProbeDeploy, MSG_MANUAL_DEPLOY, onDrawMenuItem, ProbeDeploy); } UpdateMenu(ProbeSetMenu); } #endif void Draw_FilSet_Menu() { checkkey = Menu; if (SetMenu(FilSetMenu, GET_TEXT_F(MSG_FILAMENT_SET), 9)) { BACK_ITEM(Draw_AdvancedSettings_Menu); #if HAS_FILAMENT_SENSOR EDIT_ITEM_F(ICON_Runout, MSG_RUNOUT_ENABLE, onDrawChkbMenu, SetRunoutEnable, &runout.enabled); #endif #if HAS_FILAMENT_RUNOUT_DISTANCE EDIT_ITEM_F(ICON_Runout, MSG_RUNOUT_DISTANCE_MM, onDrawPFloatMenu, SetRunoutDistance, &runout.runout_distance()); #endif #if ENABLED(PREVENT_COLD_EXTRUSION) EDIT_ITEM_F(ICON_ExtrudeMinT, MSG_EXTRUDER_MIN_TEMP, onDrawPIntMenu, SetExtMinT, &HMI_data.ExtMinT); #endif #if ENABLED(ADVANCED_PAUSE_FEATURE) EDIT_ITEM_F(ICON_FilLoad, MSG_FILAMENT_LOAD, onDrawPFloatMenu, SetFilLoad, &fc_settings[0].load_length); EDIT_ITEM_F(ICON_FilUnload, MSG_FILAMENT_UNLOAD, onDrawPFloatMenu, SetFilUnload, &fc_settings[0].unload_length); #endif #if ENABLED(FWRETRACT) MENU_ITEM_F(ICON_FWRetract, MSG_FWRETRACT, onDrawSubMenu, Draw_FWRetract_Menu); #endif } UpdateMenu(FilSetMenu); } void Draw_SelectColors_Menu() { checkkey = Menu; if (SetMenu(SelectColorMenu, GET_TEXT_F(MSG_COLORS_SELECT), 20)) { BACK_ITEM(Draw_AdvancedSettings_Menu); MENU_ITEM_F(ICON_StockConfiguration, MSG_RESTORE_DEFAULTS, onDrawMenuItem, RestoreDefaultsColors); EDIT_ITEM(0, F("Screen Background"), onDrawSelColorItem, SelColor, &HMI_data.Background_Color); EDIT_ITEM(0, F("Cursor"), onDrawSelColorItem, SelColor, &HMI_data.Cursor_color); EDIT_ITEM(0, F("Title Background"), onDrawSelColorItem, SelColor, &HMI_data.TitleBg_color); EDIT_ITEM(0, F("Title Text"), onDrawSelColorItem, SelColor, &HMI_data.TitleTxt_color); EDIT_ITEM(0, F("Text"), onDrawSelColorItem, SelColor, &HMI_data.Text_Color); EDIT_ITEM(0, F("Selected"), onDrawSelColorItem, SelColor, &HMI_data.Selected_Color); EDIT_ITEM(0, F("Split Line"), onDrawSelColorItem, SelColor, &HMI_data.SplitLine_Color); EDIT_ITEM(0, F("Highlight"), onDrawSelColorItem, SelColor, &HMI_data.Highlight_Color); EDIT_ITEM(0, F("Status Background"), onDrawSelColorItem, SelColor, &HMI_data.StatusBg_Color); EDIT_ITEM(0, F("Status Text"), onDrawSelColorItem, SelColor, &HMI_data.StatusTxt_Color); EDIT_ITEM(0, F("Popup Background"), onDrawSelColorItem, SelColor, &HMI_data.PopupBg_color); EDIT_ITEM(0, F("Popup Text"), onDrawSelColorItem, SelColor, &HMI_data.PopupTxt_Color); EDIT_ITEM(0, F("Alert Background"), onDrawSelColorItem, SelColor, &HMI_data.AlertBg_Color); EDIT_ITEM(0, F("Alert Text"), onDrawSelColorItem, SelColor, &HMI_data.AlertTxt_Color); EDIT_ITEM(0, F("Percent Text"), onDrawSelColorItem, SelColor, &HMI_data.PercentTxt_Color); EDIT_ITEM(0, F("Bar Fill"), onDrawSelColorItem, SelColor, &HMI_data.Barfill_Color); EDIT_ITEM(0, F("Indicator value"), onDrawSelColorItem, SelColor, &HMI_data.Indicator_Color); EDIT_ITEM(0, F("Coordinate value"), onDrawSelColorItem, SelColor, &HMI_data.Coordinate_Color); } UpdateMenu(SelectColorMenu); } void Draw_GetColor_Menu() { checkkey = Menu; if (SetMenu(GetColorMenu, GET_TEXT_F(MSG_COLORS_GET), 5)) { BACK_ITEM(DWIN_ApplyColor); MENU_ITEM_F(ICON_Cancel, MSG_BUTTON_CANCEL, onDrawMenuItem, Draw_SelectColors_Menu); MENU_ITEM_F(0, MSG_COLORS_RED, onDrawGetColorItem, SetRGBColor); MENU_ITEM_F(1, MSG_COLORS_GREEN, onDrawGetColorItem, SetRGBColor); MENU_ITEM_F(2, MSG_COLORS_BLUE, onDrawGetColorItem, SetRGBColor); } UpdateMenu(GetColorMenu); DWIN_Draw_Rectangle(1, *MenuData.P_Int, 20, 315, DWIN_WIDTH - 20, 335); } #if BOTH(CASE_LIGHT_MENU, CASELIGHT_USES_BRIGHTNESS) void Draw_CaseLight_Menu() { checkkey = Menu; if (SetMenu(CaseLightMenu, GET_TEXT_F(MSG_CASE_LIGHT), 3)) { BACK_ITEM(Draw_Control_Menu); EDIT_ITEM_F(ICON_CaseLight, MSG_CASE_LIGHT, onDrawChkbMenu, SetCaseLight, &caselight.on); EDIT_ITEM_F(ICON_Brightness, MSG_CASE_LIGHT_BRIGHTNESS, onDrawPInt8Menu, SetCaseLightBrightness, &caselight.brightness); } UpdateMenu(CaseLightMenu); } #endif #if ENABLED(LED_CONTROL_MENU) void Draw_LedControl_Menu() { checkkey = Menu; if (SetMenu(LedControlMenu, GET_TEXT_F(MSG_LED_CONTROL), 6)) { BACK_ITEM(Draw_Control_Menu); #if !BOTH(CASE_LIGHT_MENU, CASE_LIGHT_USE_NEOPIXEL) EDIT_ITEM_F(ICON_LedControl, MSG_LEDS, onDrawChkbMenu, SetLedStatus, &leds.lights_on); #endif #if HAS_COLOR_LEDS EDIT_ITEM_F(ICON_LedControl, MSG_COLORS_RED, onDrawPInt8Menu, SetLEDColorR, &leds.color.r); EDIT_ITEM_F(ICON_LedControl, MSG_COLORS_GREEN, onDrawPInt8Menu, SetLEDColorG, &leds.color.g); EDIT_ITEM_F(ICON_LedControl, MSG_COLORS_BLUE, onDrawPInt8Menu, SetLEDColorB, &leds.color.b); #if ENABLED(HAS_WHITE_LED) EDIT_ITEM_F(ICON_LedControl, MSG_COLORS_WHITE, onDrawPInt8Menu, SetLedColorW, &leds.color.w); #endif #endif } UpdateMenu(LedControlMenu); } #endif void Draw_Tune_Menu() { checkkey = Menu; if (!TuneMenu) TuneMenu = new MenuClass(); if (CurrentMenu != TuneMenu) { CurrentMenu = TuneMenu; SetMenuTitle({73, 2, 28, 12}, GET_TEXT_F(MSG_TUNE)); // TODO: Chinese, English "Tune" JPG MenuItemsPrepare(16); BACK_ITEM(Goto_PrintProcess); EDIT_ITEM_F(ICON_Speed, MSG_SPEED, onDrawSpeedItem, SetSpeed, &feedrate_percentage); #if HAS_HOTEND HotendTargetItem = EDIT_ITEM_F(ICON_HotendTemp, MSG_UBL_SET_TEMP_HOTEND, onDrawHotendTemp, SetHotendTemp, &thermalManager.temp_hotend[0].target); #endif #if HAS_HEATED_BED BedTargetItem = EDIT_ITEM_F(ICON_BedTemp, MSG_UBL_SET_TEMP_BED, onDrawBedTemp, SetBedTemp, &thermalManager.temp_bed.target); #endif #if HAS_FAN FanSpeedItem = EDIT_ITEM_F(ICON_FanSpeed, MSG_FAN_SPEED, onDrawFanSpeed, SetFanSpeed, &thermalManager.fan_speed[0]); #endif #if HAS_ZOFFSET_ITEM && EITHER(BABYSTEP_ZPROBE_OFFSET, JUST_BABYSTEP) EDIT_ITEM_F(ICON_Zoffset, MSG_ZPROBE_ZOFFSET, onDrawZOffset, SetZOffset, &BABY_Z_VAR); #endif EDIT_ITEM_F(ICON_Flow, MSG_FLOW, onDrawPIntMenu, SetFlow, &planner.flow_percentage[0]); #if ENABLED(ADVANCED_PAUSE_FEATURE) MENU_ITEM_F(ICON_FilMan, MSG_FILAMENTCHANGE, onDrawMenuItem, ChangeFilament); #endif #if ENABLED(FWRETRACT) MENU_ITEM_F(ICON_FWRetract, MSG_FWRETRACT, onDrawSubMenu, Draw_FWRetract_Menu); #endif MENU_ITEM_F(ICON_Lock, MSG_LOCKSCREEN, onDrawMenuItem, DWIN_LockScreen); #if HAS_LCD_BRIGHTNESS EDIT_ITEM_F(ICON_Brightness, MSG_BRIGHTNESS, onDrawPInt8Menu, SetBrightness, &ui.brightness); MENU_ITEM_F(ICON_Brightness, MSG_BRIGHTNESS_OFF, onDrawMenuItem, TurnOffBacklight); #endif #if ENABLED(CASE_LIGHT_MENU) EDIT_ITEM_F(ICON_CaseLight, MSG_CASE_LIGHT, onDrawChkbMenu, SetCaseLight, &caselight.on); #elif ENABLED(LED_CONTROL_MENU) && DISABLED(CASE_LIGHT_USE_NEOPIXEL) EDIT_ITEM_F(ICON_LedControl, MSG_LEDS, onDrawChkbMenu, SetLedStatus, &leds.lights_on); #endif } CurrentMenu->draw(); } void Draw_Motion_Menu() { checkkey = Menu; if (!MotionMenu) MotionMenu = new MenuClass(); if (CurrentMenu != MotionMenu) { CurrentMenu = MotionMenu; SetMenuTitle({1, 16, 28, 13}, GET_TEXT_F(MSG_MOTION)); // TODO: Chinese, English "Motion" JPG MenuItemsPrepare(6); BACK_ITEM(Draw_Control_Menu); MENU_ITEM_F(ICON_MaxSpeed, MSG_SPEED, onDrawSpeed, Draw_MaxSpeed_Menu); MENU_ITEM_F(ICON_MaxAccelerated, MSG_ACCELERATION, onDrawAcc, Draw_MaxAccel_Menu); #if HAS_CLASSIC_JERK MENU_ITEM_F(ICON_MaxJerk, MSG_JERK, onDrawJerk, Draw_MaxJerk_Menu); #endif MENU_ITEM_F(ICON_Step, MSG_STEPS_PER_MM, onDrawSteps, Draw_Steps_Menu); EDIT_ITEM_F(ICON_Flow, MSG_FLOW, onDrawPIntMenu, SetFlow, &planner.flow_percentage[0]); } CurrentMenu->draw(); } #if ENABLED(ADVANCED_PAUSE_FEATURE) void Draw_FilamentMan_Menu() { checkkey = Menu; if (SetMenu(FilamentMenu, GET_TEXT_F(MSG_FILAMENT_MAN), 5)) { BACK_ITEM(Draw_Prepare_Menu); MENU_ITEM_F(ICON_Park, MSG_FILAMENT_PARK_ENABLED, onDrawMenuItem, ParkHead); MENU_ITEM_F(ICON_FilMan, MSG_FILAMENTCHANGE, onDrawMenuItem, ChangeFilament); #if ENABLED(FILAMENT_LOAD_UNLOAD_GCODES) MENU_ITEM_F(ICON_FilUnload, MSG_FILAMENTUNLOAD, onDrawMenuItem, UnloadFilament); MENU_ITEM_F(ICON_FilLoad, MSG_FILAMENTLOAD, onDrawMenuItem, LoadFilament); #endif } UpdateMenu(FilamentMenu); } #endif #if ENABLED(MESH_BED_LEVELING) void Draw_ManualMesh_Menu() { checkkey = Menu; if (SetMenu(ManualMesh, GET_TEXT_F(MSG_UBL_MANUAL_MESH), 6)) { BACK_ITEM(Draw_Prepare_Menu); MENU_ITEM_F(ICON_ManualMesh, MSG_LEVEL_BED, onDrawMenuItem, ManualMeshStart); MMeshMoveZItem = EDIT_ITEM_F(ICON_Zoffset, MSG_MOVE_Z, onDrawMMeshMoveZ, SetMMeshMoveZ, ¤t_position.z); MENU_ITEM_F(ICON_Axis, MSG_UBL_CONTINUE_MESH, onDrawMenuItem, ManualMeshContinue); MENU_ITEM_F(ICON_MeshViewer, MSG_MESH_VIEW, onDrawSubMenu, DWIN_MeshViewer); MENU_ITEM_F(ICON_MeshSave, MSG_UBL_SAVE_MESH, onDrawMenuItem, ManualMeshSave); } UpdateMenu(ManualMesh); } #endif #if HAS_PREHEAT void Draw_Preheat_Menu(frame_rect_t cn, const __FlashStringHelper* fstr) { checkkey = Menu; if (CurrentMenu != PreheatMenu) { CurrentMenu = PreheatMenu; SetMenuTitle(cn, fstr); MenuItemsPrepare(5); BACK_ITEM(Draw_Temperature_Menu); #if HAS_HOTEND EDIT_ITEM_F(ICON_SetEndTemp, MSG_UBL_SET_TEMP_HOTEND, onDrawSetPreheatHotend, SetPreheatEndTemp, &ui.material_preset[HMI_value.Select].hotend_temp); #endif #if HAS_HEATED_BED EDIT_ITEM_F(ICON_SetBedTemp, MSG_UBL_SET_TEMP_BED, onDrawSetPreheatBed, SetPreheatBedTemp, &ui.material_preset[HMI_value.Select].bed_temp); #endif #if HAS_FAN EDIT_ITEM_F(ICON_FanSpeed, MSG_FAN_SPEED, onDrawSetPreheatFan, SetPreheatFanSpeed, &ui.material_preset[HMI_value.Select].fan_speed); #endif #if ENABLED(EEPROM_SETTINGS) MENU_ITEM_F(ICON_WriteEEPROM, MSG_STORE_EEPROM, onDrawWriteEeprom, WriteEeprom); #endif } CurrentMenu->draw(); } void Draw_Preheat1_Menu() { HMI_value.Select = 0; if (!PreheatMenu) PreheatMenu = new MenuClass(); Draw_Preheat_Menu({59, 16, 81, 14}, F(PREHEAT_1_LABEL " Preheat Settings")); // TODO: English "PLA Settings" JPG } #if PREHEAT_COUNT >= 2 void Draw_Preheat2_Menu() { HMI_value.Select = 1; if (!PreheatMenu) PreheatMenu = new MenuClass(); Draw_Preheat_Menu({142, 16, 82, 14}, F(PREHEAT_2_LABEL " Preheat Settings")); // TODO: English "ABS Settings" JPG } #endif #if PREHEAT_COUNT >= 3 void Draw_Preheat3_Menu() { HMI_value.Select = 2; if (!PreheatMenu) PreheatMenu = new MenuClass(); Draw_Preheat_Menu({225, 16, 82, 14}, F(PREHEAT_3_LABEL " Preheat Settings")); // TODO: English "... Settings" JPG } #endif #endif // HAS_PREHEAT void Draw_Temperature_Menu() { checkkey = Menu; if (!TemperatureMenu) TemperatureMenu = new MenuClass(); if (CurrentMenu != TemperatureMenu) { CurrentMenu = TemperatureMenu; SetMenuTitle({236, 2, 28, 12}, GET_TEXT_F(MSG_TEMPERATURE)); MenuItemsPrepare(7); BACK_ITEM(Draw_Control_Menu); #if HAS_HOTEND HotendTargetItem = EDIT_ITEM_F(ICON_SetEndTemp, MSG_UBL_SET_TEMP_HOTEND, onDrawHotendTemp, SetHotendTemp, &thermalManager.temp_hotend[0].target); #endif #if HAS_HEATED_BED BedTargetItem = EDIT_ITEM_F(ICON_SetBedTemp, MSG_UBL_SET_TEMP_BED, onDrawBedTemp, SetBedTemp, &thermalManager.temp_bed.target); #endif #if HAS_FAN FanSpeedItem = EDIT_ITEM_F(ICON_FanSpeed, MSG_FAN_SPEED, onDrawFanSpeed, SetFanSpeed, &thermalManager.fan_speed[0]); #endif #if HAS_PREHEAT MENU_ITEM_F(ICON_SetPLAPreheat, MSG_PREHEAT_1_SETTINGS, onDrawPLAPreheatSubMenu, Draw_Preheat1_Menu); #if PREHEAT_COUNT >= 2 MENU_ITEM_F(ICON_SetABSPreheat, MSG_PREHEAT_2_SETTINGS, onDrawABSPreheatSubMenu, Draw_Preheat2_Menu); #if PREHEAT_COUNT >= 3 MENU_ITEM_F(ICON_SetCustomPreheat, MSG_PREHEAT_3_SETTINGS, onDrawSubMenu, Draw_Preheat3_Menu); #endif #endif #endif } CurrentMenu->draw(); } void Draw_MaxSpeed_Menu() { checkkey = Menu; if (!MaxSpeedMenu) MaxSpeedMenu = new MenuClass(); if (CurrentMenu != MaxSpeedMenu) { CurrentMenu = MaxSpeedMenu; SetMenuTitle({1, 16, 28, 13}, GET_TEXT_F(MSG_MAXSPEED)); MenuItemsPrepare(5); BACK_ITEM(Draw_Motion_Menu); EDIT_ITEM_F(ICON_MaxSpeedX, MSG_MAXSPEED_X, onDrawMaxSpeedX, SetMaxSpeedX, &planner.settings.max_feedrate_mm_s[X_AXIS]); EDIT_ITEM_F(ICON_MaxSpeedY, MSG_MAXSPEED_Y, onDrawMaxSpeedY, SetMaxSpeedY, &planner.settings.max_feedrate_mm_s[Y_AXIS]); EDIT_ITEM_F(ICON_MaxSpeedZ, MSG_MAXSPEED_Z, onDrawMaxSpeedZ, SetMaxSpeedZ, &planner.settings.max_feedrate_mm_s[Z_AXIS]); #if HAS_HOTEND EDIT_ITEM_F(ICON_MaxSpeedE, MSG_MAXSPEED_E, onDrawMaxSpeedE, SetMaxSpeedE, &planner.settings.max_feedrate_mm_s[E_AXIS]); #endif } CurrentMenu->draw(); } void Draw_MaxAccel_Menu() { checkkey = Menu; if (!MaxAccelMenu) MaxAccelMenu = new MenuClass(); if (CurrentMenu != MaxAccelMenu) { CurrentMenu = MaxAccelMenu; SetMenuTitle({1, 16, 28, 13}, GET_TEXT_F(MSG_ACCELERATION)); MenuItemsPrepare(5); BACK_ITEM(Draw_Motion_Menu); EDIT_ITEM_F(ICON_MaxAccX, MSG_AMAX_A, onDrawMaxAccelX, SetMaxAccelX, &planner.settings.max_acceleration_mm_per_s2[X_AXIS]); EDIT_ITEM_F(ICON_MaxAccY, MSG_AMAX_B, onDrawMaxAccelY, SetMaxAccelY, &planner.settings.max_acceleration_mm_per_s2[Y_AXIS]); EDIT_ITEM_F(ICON_MaxAccZ, MSG_AMAX_C, onDrawMaxAccelZ, SetMaxAccelZ, &planner.settings.max_acceleration_mm_per_s2[Z_AXIS]); #if HAS_HOTEND EDIT_ITEM_F(ICON_MaxAccE, MSG_AMAX_E, onDrawMaxAccelE, SetMaxAccelE, &planner.settings.max_acceleration_mm_per_s2[E_AXIS]); #endif } CurrentMenu->draw(); } #if HAS_CLASSIC_JERK void Draw_MaxJerk_Menu() { checkkey = Menu; if (!MaxJerkMenu) MaxJerkMenu = new MenuClass(); if (CurrentMenu != MaxJerkMenu) { CurrentMenu = MaxJerkMenu; SetMenuTitle({1, 16, 28, 13}, GET_TEXT_F(MSG_JERK)); MenuItemsPrepare(5); BACK_ITEM(Draw_Motion_Menu); EDIT_ITEM_F(ICON_MaxSpeedJerkX, MSG_VA_JERK, onDrawMaxJerkX, SetMaxJerkX, &planner.max_jerk[X_AXIS]); EDIT_ITEM_F(ICON_MaxSpeedJerkY, MSG_VB_JERK, onDrawMaxJerkY, SetMaxJerkY, &planner.max_jerk[Y_AXIS]); EDIT_ITEM_F(ICON_MaxSpeedJerkZ, MSG_VC_JERK, onDrawMaxJerkZ, SetMaxJerkZ, &planner.max_jerk[Z_AXIS]); #if HAS_HOTEND EDIT_ITEM_F(ICON_MaxSpeedJerkE, MSG_VE_JERK, onDrawMaxJerkE, SetMaxJerkE, &planner.max_jerk[E_AXIS]); #endif } CurrentMenu->draw(); } #endif void Draw_Steps_Menu() { checkkey = Menu; if (!StepsMenu) StepsMenu = new MenuClass(); if (CurrentMenu != StepsMenu) { CurrentMenu = StepsMenu; SetMenuTitle({1, 16, 28, 13}, GET_TEXT_F(MSG_STEPS_PER_MM)); MenuItemsPrepare(5); BACK_ITEM(Draw_Motion_Menu); EDIT_ITEM_F(ICON_StepX, MSG_A_STEPS, onDrawStepsX, SetStepsX, &planner.settings.axis_steps_per_mm[X_AXIS]); EDIT_ITEM_F(ICON_StepY, MSG_B_STEPS, onDrawStepsY, SetStepsY, &planner.settings.axis_steps_per_mm[Y_AXIS]); EDIT_ITEM_F(ICON_StepZ, MSG_C_STEPS, onDrawStepsZ, SetStepsZ, &planner.settings.axis_steps_per_mm[Z_AXIS]); #if HAS_HOTEND EDIT_ITEM_F(ICON_StepE, MSG_E_STEPS, onDrawStepsE, SetStepsE, &planner.settings.axis_steps_per_mm[E_AXIS]); #endif } CurrentMenu->draw(); } #if HAS_HOTEND void Draw_HotendPID_Menu() { checkkey = Menu; if (SetMenu(HotendPIDMenu, F(STR_HOTEND_PID " Settings"),8)) { BACK_ITEM(Draw_AdvancedSettings_Menu); MENU_ITEM(ICON_PIDNozzle, F(STR_HOTEND_PID), onDrawMenuItem, HotendPID); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KP), onDrawPFloat2Menu, SetKp, &thermalManager.temp_hotend[0].pid.Kp); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KI), onDrawPIDi, SetKi, &thermalManager.temp_hotend[0].pid.Ki); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KD), onDrawPIDd, SetKd, &thermalManager.temp_hotend[0].pid.Kd); EDIT_ITEM_F(ICON_Temperature, MSG_TEMPERATURE, onDrawPIntMenu, SetHotendPidT, &HMI_data.HotendPidT); EDIT_ITEM_F(ICON_PIDcycles, MSG_PID_CYCLE, onDrawPIntMenu, SetPidCycles, &HMI_data.PidCycles); #if ENABLED(EEPROM_SETTINGS) MENU_ITEM_F(ICON_WriteEEPROM, MSG_STORE_EEPROM, onDrawMenuItem, WriteEeprom); #endif } UpdateMenu(HotendPIDMenu); } #endif #if HAS_HEATED_BED void Draw_BedPID_Menu() { checkkey = Menu; if (SetMenu(BedPIDMenu, F(STR_BED_PID " Settings"),8)) { BACK_ITEM(Draw_AdvancedSettings_Menu); MENU_ITEM(ICON_PIDNozzle, F(STR_BED_PID), onDrawMenuItem,BedPID); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KP), onDrawPFloat2Menu, SetKp, &thermalManager.temp_bed.pid.Kp); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KI), onDrawPIDi, SetKi, &thermalManager.temp_bed.pid.Ki); EDIT_ITEM(ICON_PIDValue, F("Set" STR_KD), onDrawPIDd, SetKd, &thermalManager.temp_bed.pid.Kd); EDIT_ITEM_F(ICON_Temperature, MSG_TEMPERATURE, onDrawPIntMenu, SetBedPidT, &HMI_data.BedPidT); EDIT_ITEM_F(ICON_PIDcycles, MSG_PID_CYCLE, onDrawPIntMenu, SetPidCycles, &HMI_data.PidCycles); #if ENABLED(EEPROM_SETTINGS) MENU_ITEM_F(ICON_WriteEEPROM, MSG_STORE_EEPROM, onDrawMenuItem, WriteEeprom); #endif } UpdateMenu(BedPIDMenu); } #endif #if ENABLED(BABYSTEP_ZPROBE_OFFSET) void Draw_ZOffsetWiz_Menu() { checkkey = Menu; if (SetMenu(ZOffsetWizMenu, GET_TEXT_F(MSG_PROBE_WIZARD), 4)) { BACK_ITEM(Draw_Prepare_Menu); MENU_ITEM_F(ICON_Homing, MSG_AUTO_HOME, onDrawMenuItem, AutoHome); MENU_ITEM(ICON_MoveZ0, F("Move Z to Home"), onDrawMenuItem, SetMoveZto0); EDIT_ITEM_F(ICON_Zoffset, MSG_ZPROBE_ZOFFSET, onDrawPFloat2Menu, SetZOffset, &BABY_Z_VAR); } UpdateMenu(ZOffsetWizMenu); if (!axis_is_trusted(Z_AXIS)) LCD_MESSAGE_F("WARNING: Z position unknown, move Z to home"); } #endif #if ENABLED(INDIVIDUAL_AXIS_HOMING_SUBMENU) void Draw_Homing_Menu() { checkkey = Menu; if (SetMenu(HomingMenu, GET_TEXT_F(MSG_HOMING), 5)) { BACK_ITEM(Draw_Prepare_Menu); MENU_ITEM_F(ICON_Homing, MSG_AUTO_HOME, onDrawMenuItem, AutoHome); MENU_ITEM_F(ICON_HomeX, MSG_AUTO_HOME_X, onDrawMenuItem, HomeX); MENU_ITEM_F(ICON_HomeY, MSG_AUTO_HOME_Y, onDrawMenuItem, HomeY); MENU_ITEM_F(ICON_HomeZ, MSG_AUTO_HOME_Z, onDrawMenuItem, HomeZ); } UpdateMenu(HomingMenu); } #endif #if ENABLED(FWRETRACT) void Draw_FWRetract_Menu() { checkkey = Menu; if (SetMenu(FWRetractMenu, GET_TEXT_F(MSG_FWRETRACT), 6)) { BACK_ITEM(Return_FWRetract_Menu); EDIT_ITEM_F(ICON_FWRetLength, MSG_CONTROL_RETRACT, onDrawPFloatMenu, SetRetractLength, &fwretract.settings.retract_length); EDIT_ITEM_F(ICON_FWRetSpeed, MSG_SINGLENOZZLE_RETRACT_SPEED, onDrawPFloatMenu, SetRetractSpeed, &fwretract.settings.retract_feedrate_mm_s); EDIT_ITEM_F(ICON_FWRetZRaise, MSG_CONTROL_RETRACT_ZHOP, onDrawPFloat2Menu, SetZRaise, &fwretract.settings.retract_zraise); EDIT_ITEM_F(ICON_FWRecSpeed, MSG_SINGLENOZZLE_UNRETRACT_SPEED, onDrawPFloatMenu, SetRecoverSpeed, &fwretract.settings.retract_recover_feedrate_mm_s); EDIT_ITEM_F(ICON_FWRecExtra, MSG_CONTROL_RETRACT_RECOVER, onDrawPFloatMenu, SetAddRecover, &fwretract.settings.retract_recover_extra); } UpdateMenu(FWRetractMenu); } #endif //============================================================================= // Mesh Bed Leveling //============================================================================= #if HAS_MESH void ApplyMeshFadeHeight() { set_z_fade_height(planner.z_fade_height); } void SetMeshFadeHeight() { SetPFloatOnClick(0, 100, 1, ApplyMeshFadeHeight); } void SetMeshActive() { set_bed_leveling_enabled(!planner.leveling_active); Draw_Chkb_Line(CurrentMenu->line(), planner.leveling_active); DWIN_UpdateLCD(); } #if BOTH(HAS_HEATED_BED, PREHEAT_BEFORE_LEVELING) void SetBedLevT() { SetPIntOnClick(MIN_BEDTEMP, MAX_BEDTEMP); } #endif uint8_t mesh_x = 0; uint8_t mesh_y = 0; #define Z_OFFSET_MIN -3 #define Z_OFFSET_MAX 3 void LiveEditMesh() { ((MenuItemPtrClass*)EditZValueItem)->value = &bedlevel.z_values[HMI_value.Select ? mesh_x : MenuData.Value][HMI_value.Select ? MenuData.Value : mesh_y]; EditZValueItem->redraw(); } void ApplyEditMeshX() { mesh_x = MenuData.Value; } void SetEditMeshX() { HMI_value.Select = 0; SetIntOnClick(0, GRID_MAX_POINTS_X - 1, mesh_x, ApplyEditMeshX, LiveEditMesh); } void ApplyEditMeshY() { mesh_y = MenuData.Value; } void SetEditMeshY() { HMI_value.Select = 1; SetIntOnClick(0, GRID_MAX_POINTS_Y - 1, mesh_y, ApplyEditMeshY, LiveEditMesh); } void SetEditZValue() { SetPFloatOnClick(Z_OFFSET_MIN, Z_OFFSET_MAX, 3); } #endif #if ENABLED(AUTO_BED_LEVELING_UBL) void ApplyUBLSlot() { bedlevel.storage_slot = MenuData.Value; } void SetUBLSlot() { SetIntOnClick(0, settings.calc_num_meshes() - 1, bedlevel.storage_slot, ApplyUBLSlot); } void onDrawUBLSlot(MenuItemClass* menuitem, int8_t line) { if (bedlevel.storage_slot < 0) bedlevel.storage_slot = 0; onDrawIntMenu(menuitem, line, bedlevel.storage_slot); } void ApplyUBLTiltGrid() { ubl_tools.tilt_grid = MenuData.Value; } void SetUBLTiltGrid() { SetIntOnClick(1, 3, ubl_tools.tilt_grid, ApplyUBLTiltGrid); } void UBLTiltMesh() { if (bedlevel.storage_slot < 0) bedlevel.storage_slot = 0; char buf[15]; if (ubl_tools.tilt_grid > 1) { sprintf_P(buf, PSTR("G28O\nG29 J%i"), ubl_tools.tilt_grid); gcode.process_subcommands_now(buf); } else gcode.process_subcommands_now(F("G28O\nG29J")); LCD_MESSAGE(MSG_UBL_MESH_TILTED); } void UBLSmartFillMesh() { bedlevel.smart_fill_mesh(); LCD_MESSAGE(MSG_UBL_MESH_FILLED); } bool UBLValidMesh() { const bool valid = ubl_tools.validate(); if (!valid) bedlevel.invalidate(); return valid; } void UBLSaveMesh() { if (bedlevel.storage_slot < 0) bedlevel.storage_slot = 0; settings.store_mesh(bedlevel.storage_slot); ui.status_printf(0, GET_TEXT_F(MSG_MESH_SAVED), bedlevel.storage_slot); DONE_BUZZ(true); } void UBLLoadMesh() { if (bedlevel.storage_slot < 0) bedlevel.storage_slot = 0; settings.load_mesh(bedlevel.storage_slot); if (UBLValidMesh()) { ui.status_printf(0, GET_TEXT_F(MSG_MESH_LOADED), bedlevel.storage_slot); DONE_BUZZ(true); } else { LCD_MESSAGE_F("Invalid Mesh Loaded"); DONE_BUZZ(false); } } #endif // AUTO_BED_LEVELING_UBL #if HAS_MESH void Draw_MeshSet_Menu() { checkkey = Menu; if (SetMenu(MeshMenu, GET_TEXT_F(MSG_MESH_LEVELING), 15)) { BACK_ITEM(Draw_AdvancedSettings_Menu); #if BOTH(HAS_HEATED_BED, PREHEAT_BEFORE_LEVELING) EDIT_ITEM_F(ICON_Temperature, MSG_UBL_SET_TEMP_BED, onDrawPIntMenu, SetBedLevT, &HMI_data.BedLevT); #endif EDIT_ITEM_F(ICON_SetZOffset, MSG_Z_FADE_HEIGHT, onDrawPFloatMenu, SetMeshFadeHeight, &planner.z_fade_height); EDIT_ITEM_F(ICON_UBLActive, MSG_ACTIVATE_MESH, onDrawChkbMenu, SetMeshActive, &planner.leveling_active); #if HAS_BED_PROBE MENU_ITEM_F(ICON_Level, MSG_AUTO_MESH, onDrawMenuItem, AutoLev); #endif #if ENABLED(AUTO_BED_LEVELING_UBL) EDIT_ITEM_F(ICON_UBLActive, MSG_UBL_STORAGE_SLOT, onDrawUBLSlot, SetUBLSlot, &bedlevel.storage_slot); MENU_ITEM_F(ICON_UBLActive, MSG_UBL_SAVE_MESH, onDrawMenuItem, UBLSaveMesh); MENU_ITEM_F(ICON_UBLActive, MSG_UBL_LOAD_MESH, onDrawMenuItem, UBLLoadMesh); EDIT_ITEM_F(ICON_UBLActive, MSG_UBL_TILTING_GRID, onDrawPInt8Menu, SetUBLTiltGrid, &ubl_tools.tilt_grid); MENU_ITEM_F(ICON_UBLActive, MSG_UBL_TILT_MESH, onDrawMenuItem, UBLTiltMesh); MENU_ITEM_F(ICON_UBLActive, MSG_UBL_SMART_FILLIN, onDrawMenuItem, UBLSmartFillMesh); #endif #if ENABLED(MESH_EDIT_MENU) MENU_ITEM_F(ICON_UBLActive, MSG_EDIT_MESH, onDrawSubMenu, Draw_EditMesh_Menu); #endif MENU_ITEM_F(ICON_MeshViewer, MSG_MESH_VIEW, onDrawSubMenu, DWIN_MeshViewer); } UpdateMenu(MeshMenu); } #if ENABLED(MESH_EDIT_MENU) void Draw_EditMesh_Menu() { checkkey = Menu; if (SetMenu(EditMeshMenu, GET_TEXT_F(MSG_EDIT_MESH), 4)) { mesh_x = mesh_y = 0; BACK_ITEM(Draw_MeshSet_Menu); EDIT_ITEM_F(ICON_UBLActive, MSG_MESH_X, onDrawPInt8Menu, SetEditMeshX, &mesh_x); EDIT_ITEM_F(ICON_UBLActive, MSG_MESH_Y, onDrawPInt8Menu, SetEditMeshY, &mesh_y); EditZValueItem = EDIT_ITEM_F(ICON_UBLActive, MSG_MESH_EDIT_Z, onDrawPFloat3Menu, SetEditZValue, &bedlevel.z_values[mesh_x][mesh_y]); } UpdateMenu(EditMeshMenu); } #endif #endif // HAS_MESH #endif // DWIN_LCD_PROUI