// // FILE: [_controller_GSLC.h] // Created by GUIslice Builder version: [0.15.b004] // // GUIslice Builder Generated GUI Framework File // // For the latest guides, updates and support view: // https://github.com/ImpulseAdventure/GUIslice // // #ifndef _GUISLICE_GEN_H #define _GUISLICE_GEN_H // ------------------------------------------------ // Headers to include // ------------------------------------------------ #include "src/guislice/GUIslice.h" #include "src/guislice/GUIslice_drv.h" // Include any extended elements // // Include extended elements #include "src/guislice/XCheckbox.h" #include "src/guislice/XListbox.h" #include "src/guislice/XProgress.h" #include "src/guislice/XSlider.h" #include "src/guislice/XTextbox.h" // Ensure optional features are enabled in the configuration #if !(GSLC_SD_EN) #error "Config: GSLC_SD_EN required for this program but not enabled. Please update GUIslice/config/" #endif // // ------------------------------------------------ // Headers and Defines for fonts // Note that font files are located within the Adafruit-GFX library folder: // ------------------------------------------------ // #if defined(DRV_DISP_TFT_ESPI) #error Project tab->Target Platform should be tft_espi #endif #include #include "src/guislice/NotoMono8pt7b.h" // // ------------------------------------------------ // Defines for resources // ------------------------------------------------ // #define IMG_FEATHERM0BSC "/pinouts/feather-m0-bsc.bmp" #define IMG_KBDFW "/pinouts/kbd-fw.bmp" #define IMG_PI4OVERVIEW "/pinouts/pi4-overview.bmp" #define IMG_PI4PINS "/pinouts/pi4-pins.bmp" #define IMG_PIORIENTATION "/pinouts/pi-orientation.bmp" #define IMG_RPI "/pinouts/rpi.bmp" // // ------------------------------------------------ // Enumerations for pages, elements, fonts, images // ------------------------------------------------ // enum {E_PG_BASE,E_PG_MAIN,E_CONF_RPI,E_WIRING,E_SD_CARD,E_PG_DIAGRAM}; enum {E_ELEM_BATT_LEVEL,E_ELEM_IMG_FTH,E_ELEM_IMG_FW,E_ELEM_IMG_PI ,E_ELEM_IMG_PI4A,E_ELEM_IMG_PI4B,E_ELEM_IMG_PIB,E_ELEM_LS_DIA ,E_ELEM_RD96,E_ELEM_RD_1152,E_ELEM_RD_UART0,E_ELEM_RD_UART5 ,E_ELEM_RD_UARTA,E_ELEM_STATUS,E_ELEM_TEXT,E_ELEM_TEXT11 ,E_ELEM_TEXT3,E_ELEM_TEXT4,E_ELEM_TX96,E_ELEM_TX_1152 ,E_ELEM_TX_SD_INFO,E_ELEM_TX_UART1,E_ELEM_TX_UART5,E_SLR_DIAGRAMS ,E_STATUS_LINE}; enum {E_GRP_SPD,E_GRP_UART}; // Must use separate enum for fonts with MAX_FONT at end to use gslc_FontSet. enum {E_AO_NOTOMONO8PT7B,MAX_FONT}; // // ------------------------------------------------ // Instantiate the GUI // ------------------------------------------------ // ------------------------------------------------ // Define the maximum number of elements and pages // ------------------------------------------------ // #define MAX_PAGE 6 #define MAX_ELEM_PG_BASE 3 // # Elems total on page #define MAX_ELEM_PG_BASE_RAM MAX_ELEM_PG_BASE // # Elems in RAM #define MAX_ELEM_PG_MAIN 1 // # Elems total on page #define MAX_ELEM_PG_MAIN_RAM MAX_ELEM_PG_MAIN // # Elems in RAM #define MAX_ELEM_CONF_RPI 12 // # Elems total on page #define MAX_ELEM_CONF_RPI_RAM MAX_ELEM_CONF_RPI // # Elems in RAM #define MAX_ELEM_WIRING 3 // # Elems total on page #define MAX_ELEM_WIRING_RAM MAX_ELEM_WIRING // # Elems in RAM #define MAX_ELEM_SD_CARD 1 // # Elems total on page #define MAX_ELEM_SD_CARD_RAM MAX_ELEM_SD_CARD // # Elems in RAM #define MAX_ELEM_PG_DIAGRAM 6 // # Elems total on page #define MAX_ELEM_PG_DIAGRAM_RAM MAX_ELEM_PG_DIAGRAM // # Elems in RAM // // ------------------------------------------------ // Create element storage // ------------------------------------------------ gslc_tsGui m_gui; gslc_tsDriver m_drv; gslc_tsFont m_asFont[MAX_FONT]; gslc_tsPage m_asPage[MAX_PAGE]; // gslc_tsElem m_asBasePage1Elem[MAX_ELEM_PG_BASE_RAM]; gslc_tsElemRef m_asBasePage1ElemRef[MAX_ELEM_PG_BASE]; gslc_tsElem m_asPage1Elem[MAX_ELEM_PG_MAIN_RAM]; gslc_tsElemRef m_asPage1ElemRef[MAX_ELEM_PG_MAIN]; gslc_tsElem m_asPage2Elem[MAX_ELEM_CONF_RPI_RAM]; gslc_tsElemRef m_asPage2ElemRef[MAX_ELEM_CONF_RPI]; gslc_tsElem m_asPage3Elem[MAX_ELEM_WIRING_RAM]; gslc_tsElemRef m_asPage3ElemRef[MAX_ELEM_WIRING]; gslc_tsElem m_asPage4Elem[MAX_ELEM_SD_CARD_RAM]; gslc_tsElemRef m_asPage4ElemRef[MAX_ELEM_SD_CARD]; gslc_tsElem m_asPopup1Elem[MAX_ELEM_PG_DIAGRAM_RAM]; gslc_tsElemRef m_asPopup1ElemRef[MAX_ELEM_PG_DIAGRAM]; gslc_tsXProgress m_sXBarGauge2; gslc_tsXTextbox m_sTextbox1; char m_acTextboxBuf1[952]; // NRows=17 NCols=56 gslc_tsXCheckbox m_asXRadio1; gslc_tsXCheckbox m_asXRadio2; gslc_tsXCheckbox m_asXRadio3; gslc_tsXCheckbox m_asXRadio4; gslc_tsXCheckbox m_asXRadio5; gslc_tsXListbox m_sListbox1; // - Note that XLISTBOX_BUF_OH_R is extra required per item char m_acListboxBuf1[512 + XLISTBOX_BUF_OH_R]; gslc_tsXSlider m_sListScroll1; gslc_tsXTextbox m_sTextbox3; char m_acTextboxBuf3[696]; // NRows=12 NCols=58 #define MAX_STR 100 // // ------------------------------------------------ // Program Globals // ------------------------------------------------ // Element References for direct access // extern gslc_tsElemRef* m_SliderDiagrams; extern gslc_tsElemRef* m_pElemBatteryLevel; extern gslc_tsElemRef* m_pElemLsDiagrams; extern gslc_tsElemRef* m_pElemRd1152; extern gslc_tsElemRef* m_pElemRd96; extern gslc_tsElemRef* m_pElemRdUART0; extern gslc_tsElemRef* m_pElemRdUART5; extern gslc_tsElemRef* m_pElemRdUARTA; extern gslc_tsElemRef* m_pElemSDInfo; extern gslc_tsElemRef* m_pElemStatusText; extern gslc_tsElemRef* m_pElemText; extern gslc_tsElemRef* m_pTextSlider; extern gslc_tsElemRef* m_pTextSlider3; extern gslc_tsElemRef* pImgFthM0Bsc; extern gslc_tsElemRef* pImgKbdFw; extern gslc_tsElemRef* pImgPi4Overview; extern gslc_tsElemRef* pImgPi4Pins; extern gslc_tsElemRef* pImgPiOrientation; extern gslc_tsElemRef* pImgRpi; // // Define debug message function static int16_t DebugOut(char ch); // ------------------------------------------------ // Callback Methods // ------------------------------------------------ bool CbBtnCommon(void* pvGui,void *pvElemRef,gslc_teTouch eTouch,int16_t nX,int16_t nY); bool CbCheckbox(void* pvGui, void* pvElemRef, int16_t nSelId, bool bState); bool CbDrawScanner(void* pvGui,void* pvElemRef,gslc_teRedrawType eRedraw); bool CbKeypad(void* pvGui, void *pvElemRef, int16_t nState, void* pvData); bool CbListbox(void* pvGui, void* pvElemRef, int16_t nSelId); bool CbSlidePos(void* pvGui,void* pvElemRef,int16_t nPos); bool CbSpinner(void* pvGui, void *pvElemRef, int16_t nState, void* pvData); bool CbTickScanner(void* pvGui,void* pvScope); // ------------------------------------------------ // Create page elements // ------------------------------------------------ void InitGUIslice_gen() { gslc_tsElemRef* pElemRef = NULL; if (!gslc_Init(&m_gui,&m_drv,m_asPage,MAX_PAGE,m_asFont,MAX_FONT)) { return; } // ------------------------------------------------ // Load Fonts // ------------------------------------------------ // if (!gslc_FontSet(&m_gui,E_AO_NOTOMONO8PT7B,GSLC_FONTREF_PTR,&NotoMono8pt7b,1)) { return; } // // gslc_PageAdd(&m_gui,E_PG_BASE,m_asBasePage1Elem,MAX_ELEM_PG_BASE_RAM,m_asBasePage1ElemRef,MAX_ELEM_PG_BASE); gslc_PageAdd(&m_gui,E_PG_MAIN,m_asPage1Elem,MAX_ELEM_PG_MAIN_RAM,m_asPage1ElemRef,MAX_ELEM_PG_MAIN); gslc_PageAdd(&m_gui,E_CONF_RPI,m_asPage2Elem,MAX_ELEM_CONF_RPI_RAM,m_asPage2ElemRef,MAX_ELEM_CONF_RPI); gslc_PageAdd(&m_gui,E_WIRING,m_asPage3Elem,MAX_ELEM_WIRING_RAM,m_asPage3ElemRef,MAX_ELEM_WIRING); gslc_PageAdd(&m_gui,E_SD_CARD,m_asPage4Elem,MAX_ELEM_SD_CARD_RAM,m_asPage4ElemRef,MAX_ELEM_SD_CARD); gslc_PageAdd(&m_gui,E_PG_DIAGRAM,m_asPopup1Elem,MAX_ELEM_PG_DIAGRAM_RAM,m_asPopup1ElemRef,MAX_ELEM_PG_DIAGRAM); // Now mark E_PG_BASE as a "base" page which means that it's elements // are always visible. This is useful for common page elements. gslc_SetPageBase(&m_gui, E_PG_BASE); // NOTE: The current page defaults to the first page added. Here we explicitly // ensure that the main page is the correct page no matter the add order. gslc_SetPageCur(&m_gui,E_PG_MAIN); // Set Background to a flat color gslc_SetBkgndColor(&m_gui,GSLC_COL_BLACK); // ----------------------------------- // PAGE: E_PG_BASE // Create progress bar E_ELEM_BATT_LEVEL pElemRef = gslc_ElemXProgressCreate(&m_gui,E_ELEM_BATT_LEVEL,E_PG_BASE,&m_sXBarGauge2, (gslc_tsRect){263,5,50,15},0,100,0,GSLC_COL_GREEN,false); m_pElemBatteryLevel = pElemRef; // Create E_ELEM_STATUS text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_STATUS,E_PG_BASE,(gslc_tsRect){2,2,250,21}, (char*)"Serial Console",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GREEN); m_pElemStatusText = pElemRef; // Create E_STATUS_LINE line pElemRef = gslc_ElemCreateLine(&m_gui,E_STATUS_LINE,E_PG_BASE,0,25,320,25); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_BLACK,GSLC_COL_GRAY_DK1,GSLC_COL_GRAY_DK1); // ----------------------------------- // PAGE: E_PG_MAIN // Create textbox pElemRef = gslc_ElemXTextboxCreate(&m_gui,E_ELEM_TEXT,E_PG_MAIN,&m_sTextbox1, (gslc_tsRect){3,30,313,202},E_AO_NOTOMONO8PT7B, (char*)&m_acTextboxBuf1,17,56); gslc_ElemXTextboxWrapSet(&m_gui,pElemRef,true); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_GRAY,GSLC_COL_BLACK,GSLC_COL_BLACK); m_pElemText = pElemRef; // ----------------------------------- // PAGE: E_CONF_RPI // Create E_ELEM_TEXT3 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TEXT3,E_CONF_RPI,(gslc_tsRect){2,40,40,21}, (char*)"UART",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_BLUE_LT2); // Create E_ELEM_TEXT4 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TEXT4,E_CONF_RPI,(gslc_tsRect){2,120,120,21}, (char*)"Speed / Baud",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_BLUE_LT2); // Create radio button E_ELEM_RD_UART5 pElemRef = gslc_ElemXCheckboxCreate(&m_gui,E_ELEM_RD_UART5,E_CONF_RPI,&m_asXRadio1, (gslc_tsRect){110,80,20,20},true,GSLCX_CHECKBOX_STYLE_ROUND,GSLC_COL_BLUE_LT2,false); gslc_ElemSetGroup(&m_gui,pElemRef,E_GRP_UART); m_pElemRdUART5 = pElemRef; // Create radio button E_ELEM_RD_UART0 pElemRef = gslc_ElemXCheckboxCreate(&m_gui,E_ELEM_RD_UART0,E_CONF_RPI,&m_asXRadio2, (gslc_tsRect){10,80,20,20},true,GSLCX_CHECKBOX_STYLE_ROUND,GSLC_COL_BLUE_LT2,true); gslc_ElemSetGroup(&m_gui,pElemRef,E_GRP_UART); m_pElemRdUART0 = pElemRef; // Create E_ELEM_TX_UART1 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TX_UART1,E_CONF_RPI,(gslc_tsRect){40,80,50,21}, (char*)"UART0",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); // Create E_ELEM_TX_UART5 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TX_UART5,E_CONF_RPI,(gslc_tsRect){140,80,50,21}, (char*)"UART5",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); // Create radio button E_ELEM_RD96 pElemRef = gslc_ElemXCheckboxCreate(&m_gui,E_ELEM_RD96,E_CONF_RPI,&m_asXRadio3, (gslc_tsRect){160,160,20,20},true,GSLCX_CHECKBOX_STYLE_ROUND,GSLC_COL_BLUE_LT2,false); gslc_ElemSetGroup(&m_gui,pElemRef,E_GRP_SPD); m_pElemRd96 = pElemRef; // Create radio button E_ELEM_RD_1152 pElemRef = gslc_ElemXCheckboxCreate(&m_gui,E_ELEM_RD_1152,E_CONF_RPI,&m_asXRadio4, (gslc_tsRect){10,160,20,20},true,GSLCX_CHECKBOX_STYLE_ROUND,GSLC_COL_BLUE_LT2,true); gslc_ElemSetGroup(&m_gui,pElemRef,E_GRP_SPD); m_pElemRd1152 = pElemRef; // Create E_ELEM_TX_1152 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TX_1152,E_CONF_RPI,(gslc_tsRect){40,160,60,21}, (char*)"115200",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); // Create E_ELEM_TX96 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TX96,E_CONF_RPI,(gslc_tsRect){190,160,40,21}, (char*)"9600",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); // Create radio button E_ELEM_RD_UARTA pElemRef = gslc_ElemXCheckboxCreate(&m_gui,E_ELEM_RD_UARTA,E_CONF_RPI,&m_asXRadio5, (gslc_tsRect){210,80,20,20},true,GSLCX_CHECKBOX_STYLE_ROUND,GSLC_COL_BLUE_LT2,false); gslc_ElemSetGroup(&m_gui,pElemRef,E_GRP_UART); m_pElemRdUARTA = pElemRef; // Create E_ELEM_TEXT11 text label pElemRef = gslc_ElemCreateTxt(&m_gui,E_ELEM_TEXT11,E_CONF_RPI,(gslc_tsRect){240,80,30,21}, (char*)"ALT",0,E_AO_NOTOMONO8PT7B); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); // ----------------------------------- // PAGE: E_WIRING // Create wrapping box for listbox E_ELEM_LS_DIA and scrollbar pElemRef = gslc_ElemCreateBox(&m_gui,GSLC_ID_AUTO,E_WIRING,(gslc_tsRect){3,30,313,200}); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_GRAY,GSLC_COL_BLACK,GSLC_COL_BLUE_LT2); // Create listbox pElemRef = gslc_ElemXListboxCreate(&m_gui,E_ELEM_LS_DIA,E_WIRING,&m_sListbox1, (gslc_tsRect){3+2,30+4,313-23,200-7},E_AO_NOTOMONO8PT7B, (uint8_t*)&m_acListboxBuf1,sizeof(m_acListboxBuf1),-1); gslc_ElemXListboxSetSize(&m_gui, pElemRef, 12, 1); // 12 rows, 1 columns gslc_ElemXListboxItemsSetSize(&m_gui, pElemRef, XLISTBOX_SIZE_AUTO, XLISTBOX_SIZE_AUTO); gslc_ElemSetTxtMarginXY(&m_gui, pElemRef, 5, 0); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_GRAY,GSLC_COL_BLACK,GSLC_COL_BLUE_LT2); gslc_ElemXListboxSetSelFunc(&m_gui, pElemRef, &CbListbox); gslc_ElemXListboxItemsSetGap(&m_gui, pElemRef, 2,GSLC_COL_BLACK); gslc_ElemSetFrameEn(&m_gui,pElemRef,true); m_pElemLsDiagrams = pElemRef; // Create vertical scrollbar for listbox pElemRef = gslc_ElemXSliderCreate(&m_gui,E_SLR_DIAGRAMS,E_WIRING,&m_sListScroll1, (gslc_tsRect){3+313-21,30+4,20,200-8},0,0,0,5,true); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_GRAY,GSLC_COL_BLACK,GSLC_COL_GRAY); gslc_ElemXSliderSetPosFunc(&m_gui,pElemRef,&CbSlidePos); m_SliderDiagrams = pElemRef; // ----------------------------------- // PAGE: E_SD_CARD // Create textbox pElemRef = gslc_ElemXTextboxCreate(&m_gui,E_ELEM_TX_SD_INFO,E_SD_CARD,&m_sTextbox3, (gslc_tsRect){3,30,323,200},E_AO_NOTOMONO8PT7B, (char*)&m_acTextboxBuf3,12,58); gslc_ElemXTextboxWrapSet(&m_gui,pElemRef,true); gslc_ElemSetTxtCol(&m_gui,pElemRef,GSLC_COL_GRAY_LT3); gslc_ElemSetCol(&m_gui,pElemRef,GSLC_COL_GRAY,GSLC_COL_BLACK,GSLC_COL_BLACK); m_pElemSDInfo = pElemRef; // ----------------------------------- // PAGE: E_PG_DIAGRAM // Create E_ELEM_IMG_FTH using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_FTH,E_PG_DIAGRAM,(gslc_tsRect){0,37,320,166}, gslc_GetImageFromSD((const char*)IMG_FEATHERM0BSC,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgFthM0Bsc = pElemRef; // Create E_ELEM_IMG_PI4A using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_PI4A,E_PG_DIAGRAM,(gslc_tsRect){81,0,156,240}, gslc_GetImageFromSD((const char*)IMG_PI4OVERVIEW,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgPi4Overview = pElemRef; // Create E_ELEM_IMG_PI4B using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_PI4B,E_PG_DIAGRAM,(gslc_tsRect){54,0,210,240}, gslc_GetImageFromSD((const char*)IMG_PI4PINS,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgPi4Pins = pElemRef; // Create E_ELEM_IMG_PIB using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_PIB,E_PG_DIAGRAM,(gslc_tsRect){80,0,158,240}, gslc_GetImageFromSD((const char*)IMG_PIORIENTATION,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgPiOrientation = pElemRef; // Create E_ELEM_IMG_PI using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_PI,E_PG_DIAGRAM,(gslc_tsRect){39,0,241,240}, gslc_GetImageFromSD((const char*)IMG_RPI,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgRpi = pElemRef; // Create E_ELEM_IMG_FW using Image pElemRef = gslc_ElemCreateImg(&m_gui,E_ELEM_IMG_FW,E_PG_DIAGRAM,(gslc_tsRect){2,0,317,240}, gslc_GetImageFromSD((const char*)IMG_KBDFW,GSLC_IMGREF_FMT_BMP24)); gslc_ElemSetFillEn(&m_gui,pElemRef,false); pImgKbdFw = pElemRef; // // // } #endif // end _GUISLICE_GEN_H