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weihai.tang 2025-01-25 23:04:14 +08:00
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/*******************************************************************************
* ESP32 SIMD JPEG Image Viewer
* This is a simple JPEG image viewer example using ESP32 SIMD
* Image Source: https://github.com/esp-arduino-libs/ESP32_JPEG.git
*
* Dependent libraries:
* ESP32_JPEG: https://github.com/esp-arduino-libs/ESP32_JPEG.git
*
* Setup steps:
* 1. Change your LCD parameters in Arduino_GFX setting
* 2. Upload JPEG file
* FFat/LittleFS:
* upload FFat (FatFS) data with ESP32 Sketch Data Upload:
* ESP32: https://github.com/lorol/arduino-esp32fs-plugin
* SD:
* Most Arduino system built-in support SD file system.
******************************************************************************/
#define ROOT "/root"
#define JPEG_FILENAME ROOT "/111.jpg"
/*******************************************************************************
* Start of Arduino_GFX setting
*
* Arduino_GFX try to find the settings depends on selected board in Arduino IDE
* Or you can define the display dev kit not in the board list
* Defalult pin list for non display dev kit:
* ESP32 various dev board : CS: 5, DC: 27, RST: 33, BL: 22, SCK: 18, MOSI: 23, MISO: nil
* ESP32-C3 various dev board : CS: 7, DC: 2, RST: 1, BL: 3, SCK: 4, MOSI: 6, MISO: nil
* ESP32-S2 various dev board : CS: 34, DC: 38, RST: 33, BL: 21, SCK: 36, MOSI: 35, MISO: nil
* ESP32-S3 various dev board : CS: 40, DC: 41, RST: 42, BL: 14, SCK: 36, MOSI: 35, MISO: nil
******************************************************************************/
#include <Arduino_GFX_Library.h>
#define GFX_BL 14 // default backlight pin, you may replace DF_GFX_BL to actual backlight pin
#define SD_CS 5 // default SD card CS pin, you may replace DF_SD_CS to actual SD card CS pin
/* More dev device declaration: https://github.com/moononournation/Arduino_GFX/wiki/Dev-Device-Declaration */
#if defined(DISPLAY_DEV_KIT)
Arduino_GFX *gfx = create_default_Arduino_GFX();
#else /* !defined(DISPLAY_DEV_KIT) */
/* More data bus class: https://github.com/moononournation/Arduino_GFX/wiki/Data-Bus-Class */
// Arduino_DataBus *bus = create_default_Arduino_DataBus();
Arduino_DataBus *bus = new Arduino_ESP32PAR16(38 /* DC */, 39 /* CS */, 37 /* WR */, 36 /* RD */,45,48,47,21,46,3,20,19,18,17,16,15,7,6,5,4);
/* More display class: https://github.com/moononournation/Arduino_GFX/wiki/Display-Class */
// Arduino_GFX *gfx = new Arduino_ILI9341(bus, DF_GFX_RST, 3 /* rotation */, false /* IPS */);
Arduino_GFX *gfx = new Arduino_NT35510(bus, 35 /* RST */, 0 /* rotation */);
#endif /* !defined(DISPLAY_DEV_KIT) */
/*******************************************************************************
* End of Arduino_GFX setting
******************************************************************************/
#include <FFat.h>
#include <LittleFS.h>
#include <SPIFFS.h>
#include <SD.h>
#include <SD_MMC.h>
#include <ESP32_JPEG_Library.h>
uint8_t *image_jpeg = NULL;
uint8_t *image_rgb = NULL;
size_t image_size = 0;
size_t image_jpeg_size = 0;
static jpeg_error_t esp_jpeg_decoder(const char *path)
{
Serial.printf("Reading file: %s\r\n", path);
FILE *f = fopen(path, "r");
if (!f)
{
Serial.println("- failed to open file for reading");
return JPEG_ERR_MEM;
}
size_t len = fread(image_jpeg, 1, image_size, f);
fclose(f);
Serial.printf("Read file done len: %d\n", len);
jpeg_error_t ret = JPEG_ERR_OK;
int inbuf_consumed = 0;
// Generate default configuration
jpeg_dec_config_t config = {
.output_type = JPEG_RAW_TYPE_RGB565_BE,
.rotate = JPEG_ROTATE_0D,
};
// Empty handle to jpeg_decoder
jpeg_dec_handle_t *jpeg_dec = NULL;
// Create jpeg_dec
jpeg_dec = jpeg_dec_open(&config);
// Create io_callback handle
jpeg_dec_io_t *jpeg_io = (jpeg_dec_io_t *)calloc(1, sizeof(jpeg_dec_io_t));
if (jpeg_io == NULL)
{
return JPEG_ERR_MEM;
}
// Create out_info handle
jpeg_dec_header_info_t *out_info = (jpeg_dec_header_info_t *)calloc(1, sizeof(jpeg_dec_header_info_t));
if (out_info == NULL)
{
return JPEG_ERR_MEM;
}
// Set input buffer and buffer len to io_callback
jpeg_io->inbuf = image_jpeg;
jpeg_io->inbuf_len = len;
// Parse jpeg picture header and get picture for user and decoder
ret = jpeg_dec_parse_header(jpeg_dec, jpeg_io, out_info);
if (ret < 0)
{
Serial.println("JPEG decode parse failed");
goto _exit;
}
jpeg_io->outbuf = image_rgb;
inbuf_consumed = jpeg_io->inbuf_len - jpeg_io->inbuf_remain;
jpeg_io->inbuf = image_jpeg + inbuf_consumed;
jpeg_io->inbuf_len = jpeg_io->inbuf_remain;
// Start decode jpeg raw data
ret = jpeg_dec_process(jpeg_dec, jpeg_io);
if (ret < 0)
{
Serial.println("JPEG decode process failed");
goto _exit;
}
_exit:
// Decoder deinitialize
jpeg_dec_close(jpeg_dec);
free(out_info);
free(jpeg_io);
return ret;
}
void setup()
{
#ifdef DEV_DEVICE_INIT
DEV_DEVICE_INIT();
#endif
Serial.begin(115200);
// Serial.setDebugOutput(true);
// while(!Serial);
Serial.println("Arduino_GFX ESP32 SIMD JPEG Image Viewer example");
// Init Display
if (!gfx->begin())
{
Serial.println("gfx->begin() failed!");
}
gfx->fillScreen(RGB565_BLACK);
#ifdef GFX_BL
pinMode(GFX_BL, OUTPUT);
digitalWrite(GFX_BL, HIGH);
#endif
// if (!FFat.begin(false, ROOT))
// if (!LittleFS.begin(false, ROOT))
// if (!SPIFFS.begin(false, ROOT))
// SPI.begin(12 /* CLK */, 13 /* D0/MISO */, 11 /* CMD/MOSI */);
pinMode(10 /* CS */, OUTPUT);
digitalWrite(SD_CS, HIGH);
if (!SD.begin(10 /* CS */, SPI, 80000000L, ROOT))
// SD_MMC.setPins(12 /* CLK */, 11 /* CMD/MOSI */, 13 /* D0/MISO */);
// if (!SD_MMC.begin(ROOT, true /* mode1bit */, false /* format_if_mount_failed */, SDMMC_FREQ_DEFAULT))
// SD_MMC.setPins(12 /* CLK */, 11 /* CMD/MOSI */, 13 /* D0/MISO */, 14 /* D1 */, 15 /* D2 */, 10 /* D3/CS */);
// if (!SD_MMC.begin(ROOT, false /* mode1bit */, false /* format_if_mount_failed */, SDMMC_FREQ_HIGHSPEED))
{
Serial.println(F("ERROR: File System Mount Failed!"));
gfx->println(F("ERROR: File System Mount Failed!"));
}
else
{
image_size = gfx->width() * gfx->height() * 2;
image_jpeg_size = image_size / 7;
image_rgb = (uint8_t *)aligned_alloc(16, image_size);
image_jpeg = (uint8_t *)aligned_alloc(16, image_jpeg_size);
jpeg_error_t ret = JPEG_ERR_OK;
uint32_t t = millis();
ret = esp_jpeg_decoder(JPEG_FILENAME);
if (ret != JPEG_ERR_OK)
{
Serial.printf("JPEG decode failed - %d\n", (int)ret);
}
else
{
gfx->draw16bitBeRGBBitmap(0, 0, (uint16_t *)image_rgb, gfx->width(), gfx->height());
}
}
}
void loop()
{
int w = gfx->width();
int h = gfx->height();
unsigned long start = millis();
jpeg_error_t ret = JPEG_ERR_OK;
uint32_t t = millis();
ret = esp_jpeg_decoder(JPEG_FILENAME);
if (ret != JPEG_ERR_OK)
{
Serial.printf("JPEG decode failed - %d\n", (int)ret);
}
else
{
gfx->draw16bitBeRGBBitmap(0, 0, (uint16_t *)image_rgb, gfx->width(), gfx->height());
}
Serial.printf("Time used: %lu\n", millis() - start);
delay(1000);
}

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// General software SPI
// Arduino_DataBus *bus = new Arduino_SWSPI(TFT_DC, TFT_CS, 18 /* SCK */, 23 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_DataBus *bus = new Arduino_ESP32PAR16(38 /* DC */, 39 /* CS */, 37 /* WR */, 36 /* RD */,45,48,47,21,46,3,20,19,18,17,16,15,7,6,5,4);
// hardware SPI (default DataBus, comment below block if you are not using hardware SPI)
// #if defined(ARDUINO_ARCH_NRF52840)
// // Arduino_DataBus *bus = new Arduino_mbedSPI(TFT_DC, TFT_CS);
// Arduino_DataBus *bus = new Arduino_NRFXSPI(TFT_DC, TFT_CS, 13 /* SCK */, 11 /* MOSI */, 12 /* MISO */);
// #elif defined(TARGET_RP2040)
// Arduino_DataBus *bus = new Arduino_RPiPicoSPI(TFT_DC /* DC */, TFT_CS /* CS */, 18 /* SCK */, 19 /* MOSI */, 16 /* MISO */, spi0 /* spi */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 18 /* SCK */, 23 /* MOSI */, GFX_NOT_DEFINED /* MISO */, VSPI /* spi_num */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32S3)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 36 /* SCK */, 35 /* MOSI */, GFX_NOT_DEFINED /* MISO */, HSPI /* spi_num */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32C3)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 4 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */, FSPI /* spi_num */);
// #elif defined(ESP8266)
// Arduino_DataBus *bus = new Arduino_ESP8266SPI(TFT_DC, TFT_CS);
// #else
// // General hardware SPI
// Arduino_DataBus *bus = new Arduino_HWSPI(TFT_DC, TFT_CS);
// #endif
// General Software parallel 8-bit
// Arduino_DataBus *bus = new Arduino_SWPAR8(A2 /* DC */, A3 /* CS */, A1 /* WR */, A0 /* RD */, 8 /* D0 */, 9 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */);
// General Software parallel 16-bit
// Arduino_DataBus *bus = new Arduino_SWPAR16(32 /* DC */, GFX_NOT_DEFINED /* CS */, 21 /* WR */, GFX_NOT_DEFINED /* RD */, 19 /* D0 */, 23 /* D1 */, 18 /* D2 */, 5 /* D3 */, 17 /* D4 */, 16 /* D5 */, 25 /* D6 */, 26 /* D7 */, 27 /* D8 */, 14 /* D9 */, 12 /* D10 */, 13 /* D11 */, 15 /* D12 */, 2 /* D13 */, 0 /* D14 */, 4 /* D15 */);
// Arduino UNO / UNO R4 MINIMA / UNO R4 WIFI parallel 8-bit
// Arduino_DataBus *bus = new Arduino_UNOPAR8();
// AVR PORT parallel 8-bit
// Arduino Pro Micro port 2(PB): 17, 15, 16, 14, 8, 9, 10, 11
// Arduino_DataBus *bus = new Arduino_AVRPAR8(4 /* DC */, 5 /* CS */, 18 /* WR */, 19 /* RD */, 2 /* PORT */);
// AVR PORT parallel 16-bit
// Arduino MEGA 2560
// port 3(PC): 37, 36, 35, 34, 33, 32, 31, 30
// port 1(PA): 22, 23, 24, 25, 26, 27, 28, 29
// Arduino_DataBus *bus = new Arduino_AVRPAR16(38 /* DC */, 40 /* CS */, 39 /* WR */, 43 /* RD */, 3 /* PORT LOW */, 1 /* PORT HIGH */);
// ESP32 parallel 8-bit
// Arduino_DataBus *bus = new Arduino_ESP32PAR8(TFT_DC, TFT_CS, 25 /* WR */, 32 /* RD */, 23 /* D0 */, 19 /* D1 */, 18 /* D2 */, 26 /* D3 */, 21 /* D4 */, 4 /* D5 */, 0 /* D6 */, 2 /* D7 */);
// ESP32 parallel 16-bit
// Almost all GPIO 0-31 used up for 16-bit and WR, disable PSRAM to gain 16 and 17 but still no GPIOs remain for CS and RD.
// CS connect to GND (enable); RD connect to Vcc (disable).
// Arduino_DataBus *bus = new Arduino_ESP32PAR16(
// 32 /* DC */, GFX_NOT_DEFINED /* CS */, 21 /* WR */, GFX_NOT_DEFINED /* RD */,
// 19 /* D0 */, 23 /* D1 */, 18 /* D2 */, 5 /* D3 */, 17 /* D4 */, 16 /* D5 */, 25 /* D6 */, 26 /* D7 */,
// 27 /* D8 */, 14 /* D9 */, 12 /* D10 */, 13 /* D11 */, 15 /* D12 */, 2 /* D13 */, 0 /* D14 */, 4 /* D15 */);
// ESP32 QSPI
// Arduino_DataBus *bus = new Arduino_ESP32QSPI(
// 10 /* CS */, 5 /* SCK */, 14 /* D0 */, 8 /* D1 */, 0 /* D2 */, 1 /* D3 */);
// ESP32S2 parallel 8-bit
// Display D0-D7 connect to GPIO 0-7
// Arduino_DataBus *bus = new Arduino_ESP32S2PAR8(TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */);
// ESP32S2 parallel 16-bit
// Display D0-D15 connect to GPIO 0-15
// Arduino_DataBus *bus = new Arduino_ESP32S2PAR16(TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */);
// ESP32S3 i80 LCD parallel 8-bit
// Arduino_DataBus *bus = new Arduino_ESP32LCD8(
// TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */,
// 0 /* D0 */, 1 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */);
// ESP32S3 i80 LCD parallel 16-bit
// Arduino_DataBus *bus = new Arduino_ESP32LCD16(
// TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */,
// 0 /* D0 */, 1 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */,
// 8 /* D8 */, 9 /* D9 */, 10 /* D10 */, 11 /* D11 */, 12 /* D12 */, 13 /* D13 */, 14 /* D14 */, 15 /* D15 */);
// Raspberry Pi Pico parallel 8-bit
// Display D0-D7 connect to GPIO 0-7
// Arduino_DataBus *bus = new Arduino_RPiPicoPAR8(TFT_DC, TFT_CS, 18 /* WR */, 19 /* RD */);
// Raspberry Pi Pico parallel 16-bit
// Display D0-D15 connect to GPIO 0-15
// Arduino_DataBus *bus = new Arduino_RPiPicoPAR16(TFT_DC, TFT_CS, 18 /* WR */, 19 /* RD */);
// RTL8722 parallel 8-bit
// Reduce GPIO usage: CS connect to GND (enable); RD connect to Vcc (disable); No Backlight pins.
// Arduino_DataBus *bus = new Arduino_RTLPAR8(0 /* DC */, GFX_NOT_DEFINED /* CS */, 1 /* WR */, GFX_NOT_DEFINED /* RD */, 18 /* D0 */, 22 /* D1 */, 17 /* D2 */, 20 /* D3 */, 19 /* D4 */, 23 /* D5 */, 21 /* D6 */, 16 /* D7 */);

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// #define AD35_S3
// #define BLOCKCODELAB_ARCADE_LITE
// #define DLC35010R // or called "Elecrow ESP Terminal with 3.5inch Parallel RGB Capacitive Touch Display (ILI9488)"
// #define DRAGON_RADAR
// #define ESP32_1732S019
// #define ESP32_2424012
// #define ESP32_2432S028
// #define ESP32_3248S035
// #define ESP32_4827A043 /* requires manual set bus speed to 8 mHz: gfx->begin(8000000) */
// #define ESP32_4827A043_QSPI
// #define ESP32_4827S043
// #define ESP32_4848S040_86BOX_GUITION
// #define ESP32_8048S043
// #define ESP32_8048S070
// #define ESP32_LCDKIT_SPI
// #define ESP32_LCDKIT_PAR8A
// #define ESP32_LCDKIT_PAR8B
// #define ESP32_LCDKIT_PAR16
// #define ESP32_S3_3_13_DISPLAY
// #define ESP32_S3_BOX_3
// #define ESP32_S3_EYE
// #define ESP32_S3_RGB
// #define ESP32_S3_RPI_DPI
// #define ESP32S3_2_1_TP
// #define GS_T3E // Golden Security GS-T3E
// #define IBUBLY
// #define JC3248W535
// #define JC3636W518
// #define LILYGO_T_DECK
// #define LILYGO_T_DISPLAY
// #define LILYGO_T_DISPLAY_S3
// #define LILYGO_T_Display_S3_AMOLED
// #define LILYGO_T_Display_S3_AMOLED_1_64
// #define LILYGO_T_Display_S3_LONG
// #define LILYGO_T_DISPLAY_S3_PRO
// #define LILYGO_T_QT
// #define LILYGO_T_RGB
// #define LILYGO_T_TRACK
// #define LILYGO_T_WATCH_2021
// #define LILYGO_T4_S3
// #define MAKERFABS_TFT_TOUCH_3_5
// #define MAKERFABS_ESP32_S3_TFT_4_0
// #define MAKERFABS_ESP32_S3_TFT_4_3_v1_3
// #define WT32_SC01
// #define XIAO_SAMD21_ROUND_DISPLAY
// #define XIAO_ESP32C3_ROUND_DISPLAY
// #define XIAO_ESP32S3_ROUND_DISPLAY
// #define WZ8048C050 // or called "Elecrow Wizee-ESP32"
// #define ZX2D10GE10R_V4848
// #define ZX3D50CE02S // or called "WT32-SC01 PLUS"
// #define ZX3D95CE01S_AR
// #define ZX3D95CE01S_TR
// #define ZX7D00CE01S // or called "QM Smart Panlee 7.0 inch serial screen"
#if defined(AD35_S3)
#define GFX_DEV_DEVICE AD35_S3
#include <Wire.h>
#include <Adafruit_AW9523.h>
Adafruit_AW9523 aw;
#define DEV_DEVICE_INIT() \
{ \
Wire.begin(6 /* SDA */, 5 /* SCL */); \
aw.begin(0x59); \
aw.pinMode(8, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(9, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(10, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(11, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(14, OUTPUT); /* LCD_RST */ \
aw.digitalWrite(8, LOW); /* LCD_LEDK */ \
aw.digitalWrite(9, LOW); /* LCD_LEDK */ \
aw.digitalWrite(10, LOW); /* LCD_LEDK */ \
aw.digitalWrite(11, LOW); /* LCD_LEDK */ \
aw.digitalWrite(14, HIGH); /* LCD_RST */ \
}
Arduino_DataBus *bus = new Arduino_ESP32LCD8(
45 /* DC */, GFX_NOT_DEFINED /* CS */, 10 /* WR */, GFX_NOT_DEFINED /* RD */,
9 /* D0 */, 4 /* D1 */, 3 /* D2 */, 8 /* D3 */, 18 /* D4 */, 17 /* D5 */, 16 /* D6 */, 15 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(BLOCKCODELAB_ARCADE_LITE)
#define GFX_DEV_DEVICE BLOCKCODELAB_ARCADE_LITE
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(45 /* DC */, 10 /* CS */, 12 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */, HSPI /* spi_num */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, 46 /* RST */, 3 /* rotation */, false /* IPS */);
#elif defined(DLC35010R)
#define GFX_DEV_DEVICE DLC35010R
#define GFX_BL 46
Arduino_DataBus *bus = new Arduino_ESP32PAR16(
45 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, 48 /* RD */,
47 /* D0 */, 21 /* D1 */, 14 /* D2 */, 13 /* D3 */, 12 /* D4 */, 11 /* D5 */, 10 /* D6 */, 9 /* D7 */,
3 /* D8 */, 8 /* D9 */, 16 /* D10 */, 15 /* D11 */, 7 /* D12 */, 6 /* D13 */, 5 /* D14 */, 4 /* D15 */);
Arduino_GFX *gfx = new Arduino_ILI9488(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, false /* IPS */);
#elif defined(DRAGON_RADAR)
#define GFX_DEV_DEVICE DRAGON_RADAR
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
11 /* R0 */, 12 /* R1 */, 13 /* R2 */, 45 /* R3 */, 0 /* R4 */,
8 /* G0 */, 19 /* G1 */, 20 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
4 /* B0 */, 5 /* B1 */, 6 /* B2 */, 7 /* B3 */, 15 /* B4 */,
1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type6_init_operations, sizeof(st7701_type6_init_operations));
#elif defined(ESP32_1732S019)
#define GFX_DEV_DEVICE ESP32_1732S019
#define GFX_BL 14
Arduino_DataBus *bus = new Arduino_ESP32SPI(11 /* DC */, 10 /* CS */, 12 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 1 /* RST */, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(ESP32_2424012)
#define GFX_DEV_DEVICE ESP32_2424012
#define GFX_BL 8
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 10 /* CS */, 6 /* SCK */, 7 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_2432S028)
#define GFX_DEV_DEVICE ESP32_2432S028
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_3248S035)
#define GFX_DEV_DEVICE ESP32_3248S035
#define GFX_BL 27
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */, VSPI /* spi_num */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_4827A043)
#define GFX_DEV_DEVICE ESP32_4827A043
#define GFX_BL 2
Arduino_DataBus *bus = new Arduino_ESP32LCD16(
48 /* DC */, 45 /* CS */, 47 /* WR */, 21 /* RD */,
5 /* D0 */, 6 /* D1 */, 7 /* D2 */, 15 /* D3 */, 16 /* D4 */, 4 /* D5 */, 8 /* D6 */, 3 /* D7 */,
46 /* D8 */, 9 /* D9 */, 1 /* D10 */, 42 /* D11 */, 39 /* D12 */, 41 /* D13 */, 40 /* D14 */, 14 /* D15 */);
Arduino_GFX *gfx = new Arduino_NV3041A(bus, 17 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_4827A043_QSPI)
#define GFX_DEV_DEVICE ESP32_4827A043_QSPI
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
45 /* CS */, 47 /* SCK */, 21 /* D0 */, 48 /* D1 */, 40 /* D2 */, 39 /* D3 */);
Arduino_GFX *gfx = new Arduino_NV3041A(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_4827S043)
#define GFX_DEV_DEVICE ESP32_4827S043
#define GFX_BL 2
#define RGB_PANEL
// option 1:
// Uncomment for ILI6485 LCD 480x272
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 1 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
0 /* vsync_polarity */, 3 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
1 /* pclk_active_neg */, 10000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 272 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
// option 2:
// Uncomment for ST7262 IPS LCD 800x480
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
// 45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
// 5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
// 8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
// 0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 8 /* hsync_back_porch */,
// 0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 8 /* vsync_back_porch */,
// 1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
// option 3:
// Uncomment for RPi DPI 1024x600
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
// 45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
// 5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
// 8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
// 0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
// 0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
// 1 /* pclk_active_neg */, 9000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 1024 /* width */, 600 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
/* 4.0" 86BOX from GUITION ESP32-4848S040 display */
#elif defined(ESP32_4848S040_86BOX_GUITION)
#define GFX_DEV_DEVICE ESP32_4848S040_86BOX_GUITION
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
11 /* R0 */, 12 /* R1 */, 13 /* R2 */, 14 /* R3 */, 0 /* R4 */,
8 /* G0 */, 20 /* G1 */, 3 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
4 /* B0 */, 5 /* B1 */, 6 /* B2 */, 7 /* B3 */, 15 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 1 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type9_init_operations, sizeof(st7701_type9_init_operations));
#elif defined(ESP32_8048S043)
#define GFX_DEV_DEVICE ESP32_8048S043
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 8 /* hsync_back_porch */,
0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 8 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32_8048S070)
#define GFX_DEV_DEVICE ESP32_8048S070
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
41 /* DE */, 40 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
14 /* R0 */, 21 /* R1 */, 47 /* R2 */, 48 /* R3 */, 45 /* R4 */,
9 /* G0 */, 46 /* G1 */, 3 /* G2 */, 8 /* G3 */, 16 /* G4 */, 1 /* G5 */,
15 /* B0 */, 7 /* B1 */, 6 /* B2 */, 5 /* B3 */, 4 /* B4 */,
0 /* hsync_polarity */, 180 /* hsync_front_porch */, 30 /* hsync_pulse_width */, 16 /* hsync_back_porch */,
0 /* vsync_polarity */, 12 /* vsync_front_porch */, 13 /* vsync_pulse_width */, 10 /* vsync_back_porch */,
1 /* pclk_active_neg */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32_LCDKIT_SPI)
#define GFX_DEV_DEVICE ESP32_LCDKIT_SPI
#define GFX_BL 23
Arduino_DataBus *bus = new Arduino_ESP32SPI(19 /* DC */, 5 /* CS */, 22 /* SCK */, 21 /* MOSI */, 27 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, 18 /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR8A)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR8A
Arduino_DataBus *bus = new Arduino_ESP32PAR8(5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */, 19 /* D0 */, 21 /* D1 */, 0 /* D2 */, 22 /* D3 */, 23 /* D4 */, 33 /* D5 */, 32 /* D6 */, 27 /* D7 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR8B)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR8B
Arduino_DataBus *bus = new Arduino_ESP32PAR8(5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */, 25 /* D0 */, 26 /* D1 */, 12 /* D2 */, 13 /* D3 */, 14 /* D4 */, 15 /* D5 */, 2 /* D6 */, 4 /* D7 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR16)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR16
Arduino_DataBus *bus = new Arduino_ESP32PAR16(
5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */,
19 /* D0 */, 21 /* D1 */, 0 /* D2 */, 22 /* D3 */, 23 /* D4 */, 33 /* D5 */, 32 /* D6 */, 27 /* D7 */,
25 /* D8 */, 26 /* D9 */, 12 /* D10 */, 13 /* D11 */, 14 /* D12 */, 15 /* D13 */, 2 /* D14 */, 4 /* D15 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_S3_3_13_DISPLAY)
#define GFX_DEV_DEVICE ESP32_S3_3_13_DISPLAY
#define GFX_BL 4
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 0 /* CS */,
17 /* SCK */, 16 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
15 /* DE */, 5 /* VSYNC */, 6 /* HSYNC */, 7 /* PCLK */,
19 /* R0 */, 8 /* R1 */, 18 /* R2 */, 17 /* R3 */, 16 /* R4 */,
11 /* G0 */, 10 /* G1 */, 9 /* G2 */, 46 /* G3 */, 3 /* G4 */, 20 /* G5 */,
47 /* B0 */, 21 /* B1 */, 14 /* B2 */, 13 /* B3 */, 12 /* B4 */,
1 /* hsync_polarity */, 30 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 16 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 16 /* vsync_back_porch */,
0 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
376 /* width */, 960 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, gc9503v_type2_init_operations, sizeof(gc9503v_type2_init_operations));
#elif defined(ESP32_S3_BOX_3)
#define GFX_DEV_DEVICE ARDUINO_ESP32_S3_BOX_3
#define GFX_BL 47
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 5 /* CS */, 7 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_S3_EYE)
#define GFX_DEV_DEVICE ESP32_S3_EYE
#define DEV_DEVICE_INIT() \
{ \
pinMode(3 /* camera indicator */, OUTPUT); \
digitalWrite(3 /* camera indicator */, LOW); \
pinMode(48 /* BACKLIGHT */, OUTPUT); \
digitalWrite(48 /* BACKLIGHT */, LOW); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPI(43 /* DC */, 44 /* CS */, 21 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
#elif defined(ESP32_S3_RGB)
#define GFX_DEV_DEVICE ESP32_S3_RGB
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
// option 1:
// Uncomment for 4" rect display
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
// option 2:
// Uncomment for 2.1" round display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type5_init_operations, sizeof(st7701_type5_init_operations));
// option 3:
// Uncomment for 2.8" round display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type6_init_operations, sizeof(st7701_type6_init_operations));
// option 4:
// Uncomment for 2.0" display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 360 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type8_init_operations, sizeof(st7701_type8_init_operations));
// option 5:
// Uncomment for 3.5" display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 20 /* hsync_front_porch */, 30 /* hsync_pulse_width */, 38 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 4 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 15 /* vsync_back_porch */,
// 10 /* pclk_active_neg */, 16000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 640 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(ESP32_S3_RPI_DPI)
#define GFX_DEV_DEVICE ESP32_S3_RPI_DPI
// #define GFX_BL 38
#define RGB_PANEL
// e.g. Waveshare 7" RPi DPI LCD: https://www.waveshare.com/wiki/7inch_LCD_for_Pi
// dpi_timings=1024 1 40 48 128 600 1 13 3 45 0 0 0 60 0 37000000 6
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
1 /* hsync_polarity */, 40 /* hsync_front_porch */, 48 /* hsync_pulse_width */, 128 /* hsync_back_porch */,
1 /* vsync_polarity */, 13 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 45 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
1024 /* width */, 600 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32S3_2_1_TP)
#define GFX_DEV_DEVICE ESP32S3_2_1_TP
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 5 /* R1 */, 6 /* R2 */, 7 /* R3 */, 15 /* R4 */,
8 /* G0 */, 20 /* G1 */, 3 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
11 /* B0 */, 12 /* B1 */, 13 /* B2 */, 14 /* B3 */, 0 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type5_init_operations, sizeof(st7701_type5_init_operations));
/* Golden Security GS-T3E */
#elif defined(GS_T3E)
#define GFX_DEV_DEVICE GS_T3E
#define GFX_BL 42
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 4 /* CS */,
15 /* SCK */, 48 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 39 /* VSYNC */, 38 /* HSYNC */, 41 /* PCLK */,
8 /* R0 */, 18 /* R1 */, 17 /* R2 */, 16 /* R3 */, 0 /* R4 */,
13 /* G0 */, 12 /* G1 */, 11 /* G2 */, 10 /* G3 */, 9 /* G4 */, 3 /* G5 */,
15 /* B0 */, 48 /* B1 */, 47 /* B2 */, 21 /* B3 */, 14 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, 4 /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(IBUBLY)
#define GFX_DEV_DEVICE IBUBLY
#define GFX_BL 17 // default backlight pin, you may replace DF_GFX_BL to actual backlight pin
Arduino_DataBus *bus = new Arduino_ESP32SPI(8 /* DC */, 9 /* CS */, 10 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 12 /* RST */, 1 /* rotation */, true /* IPS */, 240 /* width */, 280 /* height */, 0 /* col offset 1 */, 20 /* row offset 1 */, 0 /* col offset 2 */, 20 /* row offset 2 */);
#elif defined(JC3248W535)
#define GFX_DEV_DEVICE JC3248W535
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
45 /* CS */, 47 /* SCK */, 21 /* D0 */, 48 /* D1 */, 40 /* D2 */, 39 /* D3 */);
Arduino_GFX *g = new Arduino_AXS15231B(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, false /* IPS */, 320 /* width */, 480 /* height */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(320 /* width */, 480 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(JC3636W518)
#define GFX_DEV_DEVICE JC3636W518
#define GFX_BL 15
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
10 /* CS */, 9 /* SCK */, 11 /* D0 */, 12 /* D1 */, 13 /* D2 */, 14 /* D3 */);
Arduino_GFX *gfx = new Arduino_ST77916(bus, 47 /* RST */, 0 /* rotation */, true /* IPS */, 360 /* width */, 360 /* height */);
#elif defined(LILYGO_T_DECK)
#define GFX_DEV_DEVICE LILYGO_T_DECK
#define DEV_DEVICE_INIT() \
{ \
pinMode(9 /* TDECK_RADIO_CS */, OUTPUT); \
digitalWrite(9 /* TDECK_RADIO_CS */, HIGH); \
pinMode(12 /* TDECK_LCD_CS */, OUTPUT); \
digitalWrite(12 /* TDECK_LCD_CS */, HIGH); \
pinMode(39 /* TDECK_SDCARD_CS */, OUTPUT); \
digitalWrite(39 /* TDECK_SDCARD_CS */, HIGH); \
pinMode(10 /* TDECK_PERI_POWERON */, OUTPUT); \
digitalWrite(10 /* TDECK_PERI_POWERON */, HIGH); \
delay(500); \
}
#define GFX_BL 42
Arduino_DataBus *bus = new Arduino_ESP32SPI(11 /* DC */, 12 /* CS */, 40 /* SCK */, 41 /* MOSI */, 38 /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
#elif defined(LILYGO_T_DISPLAY)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY
#define GFX_BL 4
Arduino_DataBus *bus = new Arduino_ESP32SPI(16 /* DC */, 5 /* CS */, 18 /* SCK */, 19 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 23 /* RST */, 0 /* rotation */, true /* IPS */, 135 /* width */, 240 /* height */, 52 /* col offset 1 */, 40 /* row offset 1 */, 53 /* col offset 2 */, 40 /* row offset 2 */);
#elif defined(LILYGO_T_DISPLAY_S3)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3
#define DEV_DEVICE_INIT() \
{ \
pinMode(15 /* PWD */, OUTPUT); \
digitalWrite(15 /* PWD */, HIGH); \
}
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_ESP32PAR8Q(
7 /* DC */, 6 /* CS */, 8 /* WR */, 9 /* RD */,
39 /* D0 */, 40 /* D1 */, 41 /* D2 */, 42 /* D3 */, 45 /* D4 */, 46 /* D5 */, 47 /* D6 */, 48 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 5 /* RST */, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(LILYGO_T_Display_S3_AMOLED)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_AMOLED
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
6 /* CS */, 47 /* SCK */, 18 /* D0 */, 7 /* D1 */, 48 /* D2 */, 5 /* D3 */);
Arduino_GFX *gfx = new Arduino_RM67162(bus, 17 /* RST */, 0 /* rotation */);
#elif defined(LILYGO_T_Display_S3_AMOLED_1_64)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_AMOLED_1_64
#define DEV_DEVICE_INIT() \
{ \
pinMode(16 /* LCD_EN */, OUTPUT); \
digitalWrite(16 /* LCD_EN */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
10 /* CS */, 12 /* SCK */, 11 /* D0 */, 13 /* D1 */, 14 /* D2 */, 15 /* D3 */);
Arduino_GFX *g = new Arduino_CO5300(bus, 17 /* RST */, 0 /* rotation */, false /* IPS */, 280, 456,
20 /* col offset 1 */, 0 /* row offset 1 */, 180 /* col_offset2 */, 24 /* row_offset2 */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(280 /* width */, 456 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(LILYGO_T_Display_S3_LONG)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_LONG
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
12 /* CS */, 17 /* SCK */, 13 /* D0 */, 18 /* D1 */, 21 /* D2 */, 14 /* D3 */);
Arduino_GFX *g = new Arduino_AXS15231B(bus, 47 /* RST */, 0 /* rotation */, false /* IPS */, 180 /* width */, 640 /* height */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(180 /* width */, 640 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(LILYGO_T_DISPLAY_S3_PRO)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_PRO
#define GFX_BL 48
Arduino_DataBus *bus = new Arduino_ESP32SPI(9 /* DC */, 39 /* CS */, 18 /* SCK */, 17 /* MOSI */, 8 /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 47 /* RST */, 0 /* rotation */, true /* IPS */, 222 /* width */, 480 /* height */, 49 /* col offset 1 */, 0 /* row offset 1 */, 49 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(LILYGO_T_QT)
#define GFX_DEV_DEVICE LILYGO_T_QT
#define DEV_DEVICE_INIT() \
{ \
pinMode(10 /* BL */, OUTPUT); \
digitalWrite(10 /* BL */, LOW); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPI(6 /* DC */, 5 /* CS */, 3 /* SCK */, 2 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9107(bus, 1 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(LILYGO_T_RGB)
#define GFX_DEV_DEVICE LILYGO_T_RGB
#include <Wire.h>
#define DEV_DEVICE_INIT() \
{ \
Wire.begin(8 /* SDA */, 48 /* SCL */, 800000L /* speed */); \
}
#define GFX_BL 46
Arduino_DataBus *bus = new Arduino_XL9535SWSPI(
8 /* SDA */, 48 /* SCL */, 2 /* XL PWD */, 3 /* XL CS */, 5 /* XL SCK */, 4 /* XL MOSI */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
45 /* DE */, 41 /* VSYNC */, 47 /* HSYNC */, 42 /* PCLK */,
21 /* R0 */, 18 /* R1 */, 17 /* R2 */, 16 /* R3 */, 15 /* R4 */,
14 /* G0 */, 13 /* G1 */, 12 /* G2 */, 11 /* G3 */, 10 /* G4 */, 9 /* G5 */,
7 /* B0 */, 6 /* B1 */, 5 /* B2 */, 3 /* B3 */, 2 /* B4 */,
1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */,
1 /* pclk_active_neg */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type4_init_operations, sizeof(st7701_type4_init_operations));
#elif defined(LILYGO_T_TRACK)
#define GFX_DEV_DEVICE LILYGO_T_TRACK
#define DEV_DEVICE_INIT() \
{ \
pinMode(4 /* POWER */, OUTPUT); \
digitalWrite(4 /* POWER */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPIDMA(7 /* DC */, 9 /* CS */, 5 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_G *g = new Arduino_JD9613(bus, 8 /* RST */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(126 /* width */, 294 /* height */, g, 0, 0, 3);
#elif defined(LILYGO_T_WATCH_2021)
#define GFX_DEV_DEVICE LILYGO_T_WATCH_2021
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(19 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, 27 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(LILYGO_T4_S3)
#define GFX_DEV_DEVICE LILYGO_T4_S3
#define DEV_DEVICE_INIT() \
{ \
pinMode(9 /* POWER */, OUTPUT); \
digitalWrite(9 /* POWER */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
11 /* CS */, 15 /* SCK */, 14 /* D0 */, 10 /* D1 */, 16 /* D2 */, 12 /* D3 */);
Arduino_GFX *g = new Arduino_RM690B0(bus, 13 /* RST */, 0 /* rotation */, 450 /* width */, 600 /* height */, 16 /* col offset 1 */, 0 /* row offset 1 */, 16 /* col offset 2 */, 0 /* row offset 2 */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(450 /* width */, 600 /* height */, g);
#elif defined(MAKERFABS_TFT_TOUCH_3_5)
#define GFX_DEV_DEVICE MAKERFABS_TFT_TOUCH_3_5
Arduino_DataBus *bus = new Arduino_ESP32SPI(33 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9488_18bit(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
#elif defined(MAKERFABS_ESP32_S3_TFT_4_0)
#define GFX_DEV_DEVICE MAKERFABS_ESP32_S3_TFT_4_0
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 1 /* CS */,
12 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
45 /* DE */, 4 /* VSYNC */, 5 /* HSYNC */, 21 /* PCLK */,
39 /* R0 */, 40 /* R1 */, 41 /* R2 */, 42 /* R3 */, 2 /* R4 */,
0 /* G0 */, 9 /* G1 */, 14 /* G2 */, 47 /* G3 */, 48 /* G4 */, 3 /* G5 */,
6 /* B0 */, 7 /* B1 */, 15 /* B2 */, 16 /* B3 */, 8 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(MAKERFABS_ESP32_S3_TFT_4_3_v1_3)
#define GFX_DEV_DEVICE MAKERFABS_ESP32_S3_TFT_4_3_v1_3
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 40 /* hsync_front_porch */, 48 /* hsync_pulse_width */, 88 /* hsync_back_porch */,
0 /* vsync_polarity */, 13 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 32 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(WT32_SC01)
#define GFX_DEV_DEVICE WT32_SC01
#define GFX_BL 23
Arduino_DataBus *bus = new Arduino_ESP32SPI(21 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 22 /* RST */, 3 /* rotation */);
#elif defined(WZ8048C050)
#define GFX_DEV_DEVICE WZ8048C050
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 0 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(XIAO_SAMD21_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_SAMD21_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_HWSPI(3 /* DC */, 1 /* CS */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(XIAO_ESP32C3_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_ESP32C3_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_ESP32SPI(5 /* DC */, 3 /* CS */, 8 /* SCK */, 10 /* MOSI */, 9 /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(XIAO_ESP32S3_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_ESP32S3_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 2 /* CS */, 7 /* SCK */, 9 /* MOSI */, 8 /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ZX2D10GE10R_V4848)
#define GFX_DEV_DEVICE ZX2D10GE10R_V4848
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 21 /* CS */,
47 /* SCK */, 41 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
39 /* DE */, 48 /* VSYNC */, 40 /* HSYNC */, 45 /* PCLK */,
10 /* R0 */, 16 /* R1 */, 9 /* R2 */, 15 /* R3 */, 46 /* R4 */,
8 /* G0 */, 13 /* G1 */, 18 /* G2 */, 12 /* G3 */, 11 /* G4 */, 17 /* G5 */,
47 /* B0 */, 41 /* B1 */, 0 /* B2 */, 42 /* B3 */, 14 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 10 /* hsync_pulse_width */, 10 /* hsync_back_porch */,
1 /* vsync_polarity */, 14 /* vsync_front_porch */, 2 /* vsync_pulse_width */, 12 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type7_init_operations, sizeof(st7701_type7_init_operations));
#elif defined(ZX3D50CE02S)
#define GFX_DEV_DEVICE ZX3D50CE02S
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_ESP32LCD8(
0 /* DC */, GFX_NOT_DEFINED /* CS */, 47 /* WR */, GFX_NOT_DEFINED /* RD */,
9 /* D0 */, 46 /* D1 */, 3 /* D2 */, 8 /* D3 */, 18 /* D4 */, 17 /* D5 */, 16 /* D6 */, 15 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 4 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ZX3D95CE01S_AR)
#define GFX_DEV_DEVICE ZX3D95CE01S_AR
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 0 /* CS */,
10 /* SCK */, 9 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
13 /* DE */, 12 /* VSYNC */, 11 /* HSYNC */, 14 /* PCLK */,
2 /* R0 */, 17 /* R1 */, 16 /* R2 */, 1 /* R3 */, 15 /* R4 */,
41 /* G0 */, 46 /* G1 */, 3 /* G2 */, 42 /* G3 */, 8 /* G4 */, 18 /* G5 */,
10 /* B0 */, 9 /* B1 */, 40 /* B2 */, 20 /* B3 */, 19 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, gc9503v_type1_init_operations, sizeof(gc9503v_type1_init_operations));
#elif defined(ZX3D95CE01S_TR)
#define GFX_DEV_DEVICE ZX3D95CE01S_TR
#define GFX_BL 5
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 38 /* CS */,
45 /* SCK or SCLK */, 48 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 42 /* HSYNC */, 39 /* PCLK */,
18 /* R0 */, 8 /* R1 */, 3 /* R2 */, 46 /* R3 */, 10 /* R4 */,
14 /* G0 */, 13 /* G1 */, 12 /* G2 */, 11 /* G3 */, 16 /* G4 */, 17 /* G5 */,
45 /* B0 */, 48 /* B1 */, 47 /* B2 */, 0 /* B3 */, 21 /* B4 */,
1 /* hsync_polarity */, 8 /* hsync_front_porch */, 10 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 8 /* vsync_front_porch */, 10 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, 41 /* RST */, gc9503v_type1_init_operations, sizeof(gc9503v_type1_init_operations));
#elif defined(ZX7D00CE01S)
#define GFX_DEV_DEVICE ZX7D00CE01S
#define GFX_BL 45
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
39 /* DE */, 38 /* VSYNC */, 5 /* HSYNC */, 9 /* PCLK */,
10 /* R0 */, 11 /* R1 */, 12 /* R2 */, 13 /* R3 */, 14 /* R4 */,
21 /* G0 */, 0 /* G1 */, 46 /* G2 */, 3 /* G3 */, 8 /* G4 */, 18 /* G5 */,
17 /* B0 */, 16 /* B1 */, 15 /* B2 */, 7 /* B3 */, 6 /* B4 */,
0 /* hsync_polarity */, 0 /* hsync_front_porch */, 210 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
0 /* vsync_polarity */, 0 /* vsync_front_porch */, 22 /* vsync_pulse_width */, 13 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
/* Wio Terminal */
#elif defined(ARDUINO_ARCH_SAMD) && defined(SEEED_GROVE_UI_WIRELESS)
#define GFX_DEV_DEVICE WIO_TERMINAL
// #define GFX_BL LCD_BACKLIGHT
Arduino_DataBus *bus = new Arduino_HWSPI(LCD_DC /* DC */, LCD_SS_PIN /* CS */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
/* ESP32-S3-BOX */
#elif defined(ARDUINO_ESP32_S3_BOX)
#define GFX_DEV_DEVICE ARDUINO_ESP32_S3_BOX
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 5 /* CS */, 7 /* SCK */, 6 /* MOSI */, 0 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, 48 /* RST */, 0 /* rotation */);
/* M5Stack */
#elif defined(ARDUINO_M5Stack_Core_ESP32) || defined(ARDUINO_M5STACK_FIRE)
#define GFX_DEV_DEVICE ARDUINO_M5Stack_Core_ESP32
// #define GFX_BL 32
Arduino_DataBus *bus = new Arduino_ESP32SPI(27 /* DC */, 14 /* CS */, SCK, MOSI, MISO);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, 33 /* RST */, 2 /* rotation */);
#elif defined(ARDUINO_M5Stack_ATOMS3)
#define GFX_DEV_DEVICE ARDUINO_M5Stack_ATOMS3
#define GFX_BL 16
Arduino_DataBus *bus = new Arduino_ESP32SPI(33 /* DC */, 15 /* CS */, 17 /* SCK */, 21 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9107(bus, 34 /* RST */, 0 /* rotation */, true /* IPS */);
/* Odroid-Go */
#elif defined(ARDUINO_ODROID_ESP32)
#define GFX_DEV_DEVICE ARDUINO_ODROID_ESP32
// #define GFX_BL 14
Arduino_DataBus *bus = new Arduino_ESP32SPI(21 /* DC */, 5 /* CS */, SCK, MOSI, MISO);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 3 /* rotation */);
// Arduino_ST7789 *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 3 /* rotation */, true /* IPS */);
/* LILYGO T-Watch */
#elif defined(ARDUINO_T) || defined(ARDUINO_TWATCH_BASE) || defined(ARDUINO_TWATCH_2020_V1) || defined(ARDUINO_TWATCH_2020_V2)
#define GFX_DEV_DEVICE ARDUINO_T_WATCH
#define GFX_BL 12
Arduino_DataBus *bus = new Arduino_ESP32SPI(27 /* DC */, 5 /* CS */, 18 /* SCK */, 19 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
/* Waveshare RP2040-LCD-1.28 */
#elif defined(ARDUINO_WAVESHARE_RP2040_LCD_1_28)
#define GFX_DEV_DEVICE ARDUINO_WAVESHARE_RP2040_LCD_1_28
#define GFX_BL 25
Arduino_DataBus *bus = new Arduino_RPiPicoSPI(8 /* DC */, 9 /* CS */, 10 /* SCK */, 11 /* MOSI */, 12 /* MISO */, spi1 /* spi */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, 12 /* RST */, 0 /* rotation */, true /* IPS */);
#endif

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/***************************************
* Start of Canvas (framebuffer)
**************************************/
// #define CANVAS
// 16-bit color Canvas (240x320 resolution only works for ESP32 with PSRAM)
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas(240 /* width */, 320 /* height */, output_display);
// Indexed color Canvas, mask_level: 0-2, larger mask level mean less color variation but can have faster index mapping
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_Indexed(240 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */, MAXMASKLEVEL /* mask_level */);
// 3-bit color Canvas, R1G1B1, 8 colors
// Arduino_G *output_display = new Arduino_ILI9488_3bit(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_3bit(480 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */);
// Mono color Canvas
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_Mono(240 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */);
/***************************************
* End of Canvas (framebuffer)
**************************************/
// GC9A01 IPS LCD 240x240
// Arduino_GFX *gfx = new Arduino_GC9A01(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// GC9106 IPS LCD 80x160
// Arduino_GFX *gfx = new Arduino_GC9106(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// GC9107 IPS LCD 128x128
// Arduino_GFX *gfx = new Arduino_GC9107(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8347C IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_HX8347C(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8347D IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_HX8347D(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8352C IPS LCD 240x400
// Arduino_GFX *gfx = new Arduino_HX8352C(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8357A IPS LCD 320x480 (currently only portrait works, i.e. rotation 0 and 2)
// Arduino_GFX *gfx = new Arduino_HX8357A(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8357B IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_HX8357B(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8369A LCD 480x800
// Arduino_GFX *gfx = new Arduino_HX8369A(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 480, 800, 0, 7, 0, 57);
// ILI9225 LCD 176x220
// Arduino_GFX *gfx = new Arduino_ILI9225(bus, TFT_RST);
// ILI9341 LCD 240x320 (default Display, comment below line if you are not using ILI9341)
// Arduino_GFX *gfx = new Arduino_ILI9341(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9342 LCD 320x240
// Arduino_GFX *gfx = new Arduino_ILI9342(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9481 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9481(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9481 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9481_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9486 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9486(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9486 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9486_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9488 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9488(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9488 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9488_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9806 LCD 480x854
// Arduino_GFX *gfx = new Arduino_ILI9806(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// JBT6K71 LCD 240x320
// Arduino_GFX *gfx = new Arduino_JBT6K71(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240, 320, 0, 0, 16, 0);
// NT35310 LCD 320x480
// Arduino_GFX *gfx = new Arduino_NT35310(bus, TFT_RST, 0 /* rotation */);
// NT35510 LCD 480x800
// Arduino_GFX *gfx = new Arduino_NT35510(bus, TFT_RST, 0 /* rotation */);
Arduino_GFX *gfx = new Arduino_NT35510(bus, 35 /* RST */, 0 /* rotation */);
// NT39125 LCD 240x376
// Arduino_GFX *gfx = new Arduino_NT39125(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 240, 376, 0, 0, 0, 56);
// NV3041A IPS LCD
// Arduino_GFX *gfx = new Arduino_NV3041A(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// OTM8009A LCD 480x800
// Arduino_GFX *gfx = new Arduino_OTM8009A(bus, TFT_RST, 0 /* rotation */);
// R61529 IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_R61529(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// SEPS525 OLED 160x128
// Arduino_GFX *gfx = new Arduino_SEPS525(bus, TFT_RST, 0 /* rotation */);
// SSD1283A OLED 130x130
// Arduino_GFX *gfx = new Arduino_SSD1283A(bus, TFT_RST, 0 /* rotation */);
// SSD1331 OLED 96x64
// Arduino_GFX *gfx = new Arduino_SSD1331(bus, TFT_RST, 0 /* rotation */);
// SSD1351 OLED 128x128
// Arduino_GFX *gfx = new Arduino_SSD1351(bus, TFT_RST, 0 /* rotation */);
// ST7735 LCD
// 0.42" 96x54
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 96 /* width */, 54 /* height */, 16 /* col offset 1 */, 106 /* row offset 1 */, 16 /* col offset 2 */, 0 /* row offset 2 */);
// 0.85" 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 128 /* width */, 128 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" REDTAB 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */);
// 1.8" BLACKTAB 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */, false /* BGR */);
// 1.8" GREENTAB A 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" GREENTAB B 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 3 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" Wide angle LCD 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 0 /* row offset 2 */, false /* BGR */);
// 1.5" GREENTAB B 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 128 /* height */, 2 /* col offset 1 */, 3 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.5" GREENTAB C 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 128 /* height */, 0 /* col offset 1 */, 32 /* row offset 1 */);
// 0.96" IPS LCD 80x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 80 /* width */, 160 /* height */, 26 /* col offset 1 */, 1 /* row offset 1 */, 26 /* col offset 2 */, 1 /* row offset 2 */);
// ST7789 LCD
// 2.4" LCD 240x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */);
// 2.4" IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// 2.25" LCD 76x284
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 76 /* width */, 284 /* height */, 82 /* col offset 1 */, 18 /* row offset 1 */, 82 /* col offset 2 */, 18 /* row offset 2 */);
// 1.9" IPS round corner LCD 170x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
// 1.69" IPS round corner LCD 240x280
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240 /* width */, 280 /* height */, 0 /* col offset 1 */, 20 /* row offset 1 */, 0 /* col offset 2 */, 20 /* row offset 2 */);
// 1.47" IPS round corner LCD 172x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 172 /* width */, 320 /* height */, 34 /* col offset 1 */, 0 /* row offset 1 */, 34 /* col offset 2 */, 0 /* row offset 2 */);
// 1.3"/1.5" square IPS LCD 240x240
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
// 1.14" IPS LCD 135x240
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 135 /* width */, 240 /* height */, 52 /* col offset 1 */, 40 /* row offset 1 */, 53 /* col offset 2 */, 40 /* row offset 2 */);
// ST7796 LCD
// 4" LCD 320x480
// Arduino_GFX *gfx = new Arduino_ST7796(bus, TFT_RST, 0 /* rotation */);
// 4" IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_ST7796(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// WEA2012 LCD
// #define CANVAS
// Arduino_GFX *output_display = new Arduino_WEA2012(bus, TFT_RST);
// Arduino_GFX *gfx = new Arduino_Canvas(356 /* width */, 400 /* height */, output_display);

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#if defined(__IMXRT1052__) || defined(__IMXRT1062__)
// PJRC Teensy 4.x
#define TFT_CS 39 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 41
#define TFT_RST 40
#define GFX_BL 22
#elif defined(ARDUINO_BLACKPILL_F411CE)
#define TFT_CS 4 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 3
#define TFT_RST 2
#define GFX_BL 1
#elif defined(TARGET_RP2040)
#define TFT_CS 17 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 27
#define TFT_RST 26
#define GFX_BL 28
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32)
#define TFT_CS 5 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 27 // GFX_NOT_DEFINED for display without DC pin (9-bit SPI)
#define TFT_RST 33
#define GFX_BL 22
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S2)
#define TFT_CS 34 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 38
#define TFT_RST 33
#define GFX_BL 21
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S3)
#define TFT_CS 40 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 41
#define TFT_RST 42
#define GFX_BL 14
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32C3)
#define TFT_CS 7 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 2
#define TFT_RST 1
#define GFX_BL 3
#elif defined(ESP8266)
#define TFT_CS 15 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 4
#define TFT_RST 2
#define GFX_BL 5
#elif defined(RTL8722DM)
#if defined(BOARD_RTL8720DN_BW16)
#define TFT_CS 9
#define TFT_DC 8
#define TFT_RST 6
#define GFX_BL 3
#elif defined(BOARD_RTL8722DM)
#define TFT_CS 18
#define TFT_DC 17
#define TFT_RST 22
#define GFX_BL 23
#elif defined(BOARD_RTL8722DM_MINI)
#define TFT_CS 12
#define TFT_DC 14
#define TFT_RST 15
#define GFX_BL 13
#else // old version
#define TFT_CS 18 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 17
#define TFT_RST 2
#define GFX_BL 23
#endif
#elif defined(SEEED_XIAO_M0)
#define TFT_CS 3 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 2
#define TFT_RST 1
#define GFX_BL 0
#else
#define TFT_CS 9 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 8
#define TFT_RST 7
#define GFX_BL 6
#endif

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/*
Adapted from the Adafruit and Xark's PDQ graphicstest sketch.
See end of file for original header text and MIT license info.
*/
/*******************************************************************************
* Start of Arduino_GFX setting
******************************************************************************/
#include <Arduino_GFX_Library.h>
/* OPTION 1: Uncomment a dev device in Arduino_GFX_dev_device.h */
#include "Arduino_GFX_dev_device.h"
#ifndef GFX_DEV_DEVICE
/* OPTION 2: Manual define hardware */
/* Step 1: Define pins in Arduino_GFX_databus.h */
#include "Arduino_GFX_pins.h"
/* Step 2: Uncomment your databus in Arduino_GFX_databus.h */
#include "Arduino_GFX_databus.h"
/* Step 3: Uncomment your display driver in Arduino_GFX_display.h */
#include "Arduino_GFX_display.h"
#endif /* Manual define hardware */
/*******************************************************************************
* End of Arduino_GFX setting
******************************************************************************/
#ifdef ESP32
#undef F
#define F(s) (s)
#endif
int32_t w, h, n, n1, cx, cy, cx1, cy1, cn, cn1;
uint8_t tsa, tsb, tsc, ds;
void setup()
{
#ifdef DEV_DEVICE_INIT
DEV_DEVICE_INIT();
#endif
Serial.begin(115200);
// Serial.setDebugOutput(true);
// while(!Serial);
Serial.println("Arduino_GFX PDQgraphicstest example!");
// Init Display
if (!gfx->begin())
// if (!gfx->begin(80000000)) /* specify data bus speed */
{
Serial.println("gfx->begin() failed!");
}
w = gfx->width();
h = gfx->height();
n = min(w, h);
n1 = n - 1;
cx = w / 2;
cy = h / 2;
cx1 = cx - 1;
cy1 = cy - 1;
cn = min(cx1, cy1);
cn1 = cn - 1;
tsa = ((w <= 176) || (h <= 160)) ? 1 : (((w <= 240) || (h <= 240)) ? 2 : 3); // text size A
tsb = ((w <= 272) || (h <= 220)) ? 1 : 2; // text size B
tsc = ((w <= 220) || (h <= 220)) ? 1 : 2; // text size C
ds = (w <= 160) ? 9 : ((w <= 280) ? 10 : 12); // digit size
#ifdef GFX_BL
pinMode(GFX_BL, OUTPUT);
digitalWrite(GFX_BL, HIGH);
#endif
}
static inline uint32_t micros_start() __attribute__((always_inline));
static inline uint32_t micros_start()
{
uint8_t oms = millis();
while ((uint8_t)millis() == oms)
;
return micros();
}
void loop(void)
{
Serial.println(F("Benchmark\tmicro-secs"));
int32_t usecFillScreen = testFillScreen();
serialOut(F("Screen fill\t"), usecFillScreen, 100, true);
int32_t usecText = testText();
serialOut(F("Text\t"), usecText, 3000, true);
int32_t usecPixels = testPixels();
serialOut(F("Pixels\t"), usecPixels, 100, true);
int32_t usecLines = testLines();
serialOut(F("Lines\t"), usecLines, 100, true);
int32_t usecFastLines = testFastLines();
serialOut(F("Horiz/Vert Lines\t"), usecFastLines, 100, true);
int32_t usecFilledRects = testFilledRects();
serialOut(F("Rectangles (filled)\t"), usecFilledRects, 100, false);
int32_t usecRects = testRects();
serialOut(F("Rectangles (outline)\t"), usecRects, 100, true);
int32_t usecFilledTrangles = testFilledTriangles();
serialOut(F("Triangles (filled)\t"), usecFilledTrangles, 100, false);
int32_t usecTriangles = testTriangles();
serialOut(F("Triangles (outline)\t"), usecTriangles, 100, true);
int32_t usecFilledCircles = testFilledCircles(10);
serialOut(F("Circles (filled)\t"), usecFilledCircles, 100, false);
int32_t usecCircles = testCircles(10);
serialOut(F("Circles (outline)\t"), usecCircles, 100, true);
int32_t usecFilledArcs = testFillArcs();
serialOut(F("Arcs (filled)\t"), usecFilledArcs, 100, false);
int32_t usecArcs = testArcs();
serialOut(F("Arcs (outline)\t"), usecArcs, 100, true);
int32_t usecFilledRoundRects = testFilledRoundRects();
serialOut(F("Rounded rects (filled)\t"), usecFilledRoundRects, 100, false);
int32_t usecRoundRects = testRoundRects();
serialOut(F("Rounded rects (outline)\t"), usecRoundRects, 100, true);
#ifdef CANVAS
uint32_t start = micros_start();
gfx->flush();
int32_t usecFlush = micros() - start;
serialOut(F("flush (Canvas only)\t"), usecFlush, 0, false);
#endif
Serial.println(F("Done!"));
uint16_t c = 4;
int8_t d = 1;
for (int32_t i = 0; i < h; i++)
{
gfx->drawFastHLine(0, i, w, c);
c += d;
if (c <= 4 || c >= 11)
{
d = -d;
}
}
gfx->setCursor(0, 0);
gfx->setTextSize(tsa);
gfx->setTextColor(RGB565_MAGENTA);
gfx->println(F("Arduino GFX PDQ"));
if (h > w)
{
gfx->setTextSize(tsb);
gfx->setTextColor(RGB565_GREEN);
gfx->print(F("\nBenchmark "));
gfx->setTextSize(tsc);
if (ds == 12)
{
gfx->print(F(" "));
}
gfx->println(F("micro-secs"));
}
printnice(F("Screen fill "), usecFillScreen);
printnice(F("Text "), usecText);
printnice(F("Pixels "), usecPixels);
printnice(F("Lines "), usecLines);
printnice(F("H/V Lines "), usecFastLines);
printnice(F("Rectangles F"), usecFilledRects);
printnice(F("Rectangles "), usecRects);
printnice(F("Triangles F "), usecFilledTrangles);
printnice(F("Triangles "), usecTriangles);
printnice(F("Circles F "), usecFilledCircles);
printnice(F("Circles "), usecCircles);
printnice(F("Arcs F "), usecFilledArcs);
printnice(F("Arcs "), usecArcs);
printnice(F("RoundRects F"), usecFilledRoundRects);
printnice(F("RoundRects "), usecRoundRects);
if ((h > w) || (h > 240))
{
gfx->setTextSize(tsc);
gfx->setTextColor(RGB565_GREEN);
gfx->print(F("\nBenchmark Complete!"));
}
#ifdef CANVAS
gfx->flush();
#endif
delay(60 * 1000L);
}
#ifdef ESP32
void serialOut(const char *item, int32_t v, uint32_t d, bool clear)
#else
void serialOut(const __FlashStringHelper *item, int32_t v, uint32_t d, bool clear)
#endif
{
#ifdef CANVAS
gfx->flush();
#endif
Serial.print(item);
if (v < 0)
{
Serial.println(F("N/A"));
}
else
{
Serial.println(v);
}
delay(d);
if (clear)
{
gfx->fillScreen(RGB565_BLACK);
}
}
#ifdef ESP32
void printnice(const char *item, long int v)
#else
void printnice(const __FlashStringHelper *item, long int v)
#endif
{
gfx->setTextSize(tsb);
gfx->setTextColor(RGB565_CYAN);
gfx->print(item);
gfx->setTextSize(tsc);
gfx->setTextColor(RGB565_YELLOW);
if (v < 0)
{
gfx->println(F(" N / A"));
}
else
{
char str[32] = {0};
#ifdef RTL8722DM
sprintf(str, "%d", (int)v);
#else
sprintf(str, "%ld", v);
#endif
for (char *p = (str + strlen(str)) - 3; p > str; p -= 3)
{
memmove(p + 1, p, strlen(p) + 1);
*p = ',';
}
while (strlen(str) < ds)
{
memmove(str + 1, str, strlen(str) + 1);
*str = ' ';
}
gfx->println(str);
}
}
int32_t testFillScreen()
{
uint32_t start = micros_start();
// Shortened this tedious test!
gfx->fillScreen(RGB565_WHITE);
gfx->fillScreen(RGB565_RED);
gfx->fillScreen(RGB565_GREEN);
gfx->fillScreen(RGB565_BLUE);
gfx->fillScreen(RGB565_BLACK);
return micros() - start;
}
int32_t testText()
{
uint32_t start = micros_start();
gfx->setCursor(0, 0);
gfx->setTextSize(1);
gfx->setTextColor(RGB565_WHITE, RGB565_BLACK);
gfx->println(F("Hello World!"));
gfx->setTextSize(2);
gfx->setTextColor(gfx->color565(0xff, 0x00, 0x00));
gfx->print(F("RGB565_RED "));
gfx->setTextColor(gfx->color565(0x00, 0xff, 0x00));
gfx->print(F("RGB565_GREEN "));
gfx->setTextColor(gfx->color565(0x00, 0x00, 0xff));
gfx->println(F("RGB565_BLUE"));
gfx->setTextSize(tsa);
gfx->setTextColor(RGB565_YELLOW);
gfx->println(1234.56);
gfx->setTextColor(RGB565_WHITE);
gfx->println((w > 128) ? 0xDEADBEEF : 0xDEADBEE, HEX);
gfx->setTextColor(RGB565_CYAN, RGB565_WHITE);
gfx->println(F("Groop,"));
gfx->setTextSize(tsc);
gfx->setTextColor(RGB565_MAGENTA, RGB565_WHITE);
gfx->println(F("I implore thee,"));
gfx->setTextSize(1);
gfx->setTextColor(RGB565_NAVY, RGB565_WHITE);
gfx->println(F("my foonting turlingdromes."));
gfx->setTextColor(RGB565_DARKGREEN, RGB565_WHITE);
gfx->println(F("And hooptiously drangle me"));
gfx->setTextColor(RGB565_DARKCYAN, RGB565_WHITE);
gfx->println(F("with crinkly bindlewurdles,"));
gfx->setTextColor(RGB565_MAROON, RGB565_WHITE);
gfx->println(F("Or I will rend thee"));
gfx->setTextColor(RGB565_PURPLE, RGB565_WHITE);
gfx->println(F("in the gobberwartsb"));
gfx->setTextColor(RGB565_OLIVE, RGB565_WHITE);
gfx->println(F("with my blurglecruncheon,"));
gfx->setTextColor(RGB565_DARKGREY, RGB565_WHITE);
gfx->println(F("see if I don't!"));
gfx->setTextSize(2);
gfx->setTextColor(RGB565_RED);
gfx->println(F("Size 2"));
gfx->setTextSize(3);
gfx->setTextColor(RGB565_ORANGE);
gfx->println(F("Size 3"));
gfx->setTextSize(4);
gfx->setTextColor(RGB565_YELLOW);
gfx->println(F("Size 4"));
gfx->setTextSize(5);
gfx->setTextColor(RGB565_GREENYELLOW);
gfx->println(F("Size 5"));
gfx->setTextSize(6);
gfx->setTextColor(RGB565_GREEN);
gfx->println(F("Size 6"));
gfx->setTextSize(7);
gfx->setTextColor(RGB565_BLUE);
gfx->println(F("Size 7"));
gfx->setTextSize(8);
gfx->setTextColor(RGB565_PURPLE);
gfx->println(F("Size 8"));
gfx->setTextSize(9);
gfx->setTextColor(RGB565_PALERED);
gfx->println(F("Size 9"));
return micros() - start;
}
int32_t testPixels()
{
uint32_t start = micros_start();
for (int16_t y = 0; y < h; y++)
{
for (int16_t x = 0; x < w; x++)
{
gfx->drawPixel(x, y, gfx->color565(x << 3, y << 3, x * y));
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
}
return micros() - start;
}
int32_t testLines()
{
uint32_t start;
int32_t x1, y1, x2, y2;
start = micros_start();
x1 = y1 = 0;
y2 = h - 1;
for (x2 = 0; x2 < w; x2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x2 = w - 1;
for (y2 = 0; y2 < h; y2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x1 = w - 1;
y1 = 0;
y2 = h - 1;
for (x2 = 0; x2 < w; x2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x2 = 0;
for (y2 = 0; y2 < h; y2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x1 = 0;
y1 = h - 1;
y2 = 0;
for (x2 = 0; x2 < w; x2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x2 = w - 1;
for (y2 = 0; y2 < h; y2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x1 = w - 1;
y1 = h - 1;
y2 = 0;
for (x2 = 0; x2 < w; x2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
x2 = 0;
for (y2 = 0; y2 < h; y2 += 6)
{
gfx->drawLine(x1, y1, x2, y2, RGB565_BLUE);
}
#ifdef ESP8266
yield(); // avoid long run triggered ESP8266 WDT restart
#endif
return micros() - start;
}
int32_t testFastLines()
{
uint32_t start;
int32_t x, y;
start = micros_start();
for (y = 0; y < h; y += 5)
{
gfx->drawFastHLine(0, y, w, RGB565_RED);
}
for (x = 0; x < w; x += 5)
{
gfx->drawFastVLine(x, 0, h, RGB565_BLUE);
}
return micros() - start;
}
int32_t testFilledRects()
{
uint32_t start;
int32_t i, i2;
start = micros_start();
for (i = n; i > 0; i -= 6)
{
i2 = i / 2;
gfx->fillRect(cx - i2, cy - i2, i, i, gfx->color565(i, i, 0));
}
return micros() - start;
}
int32_t testRects()
{
uint32_t start;
int32_t i, i2;
start = micros_start();
for (i = 2; i < n; i += 6)
{
i2 = i / 2;
gfx->drawRect(cx - i2, cy - i2, i, i, RGB565_GREEN);
}
return micros() - start;
}
int32_t testFilledCircles(uint8_t radius)
{
uint32_t start;
int32_t x, y, r2 = radius * 2;
start = micros_start();
for (x = radius; x < w; x += r2)
{
for (y = radius; y < h; y += r2)
{
gfx->fillCircle(x, y, radius, RGB565_MAGENTA);
}
}
return micros() - start;
}
int32_t testCircles(uint8_t radius)
{
uint32_t start;
int32_t x, y, r2 = radius * 2;
int32_t w1 = w + radius;
int32_t h1 = h + radius;
// Screen is not cleared for this one -- this is
// intentional and does not affect the reported time.
start = micros_start();
for (x = 0; x < w1; x += r2)
{
for (y = 0; y < h1; y += r2)
{
gfx->drawCircle(x, y, radius, RGB565_WHITE);
}
}
return micros() - start;
}
int32_t testFillArcs()
{
int16_t i, r = 360 / cn;
uint32_t start = micros_start();
for (i = 6; i < cn; i += 6)
{
gfx->fillArc(cx1, cy1, i, i - 3, 0, i * r, RGB565_RED);
}
return micros() - start;
}
int32_t testArcs()
{
int16_t i, r = 360 / cn;
uint32_t start = micros_start();
for (i = 6; i < cn; i += 6)
{
gfx->drawArc(cx1, cy1, i, i - 3, 0, i * r, RGB565_WHITE);
}
return micros() - start;
}
int32_t testFilledTriangles()
{
uint32_t start;
int32_t i;
start = micros_start();
for (i = cn1; i > 10; i -= 5)
{
gfx->fillTriangle(cx1, cy1 - i, cx1 - i, cy1 + i, cx1 + i, cy1 + i,
gfx->color565(0, i, i));
}
return micros() - start;
}
int32_t testTriangles()
{
uint32_t start;
int32_t i;
start = micros_start();
for (i = 0; i < cn; i += 5)
{
gfx->drawTriangle(
cx1, cy1 - i, // peak
cx1 - i, cy1 + i, // bottom left
cx1 + i, cy1 + i, // bottom right
gfx->color565(0, 0, i));
}
return micros() - start;
}
int32_t testFilledRoundRects()
{
uint32_t start;
int32_t i, i2;
start = micros_start();
for (i = n1; i > 20; i -= 6)
{
i2 = i / 2;
gfx->fillRoundRect(cx - i2, cy - i2, i, i, i / 8, gfx->color565(0, i, 0));
}
return micros() - start;
}
int32_t testRoundRects()
{
uint32_t start;
int32_t i, i2;
start = micros_start();
for (i = 20; i < n1; i += 6)
{
i2 = i / 2;
gfx->drawRoundRect(cx - i2, cy - i2, i, i, i / 8, gfx->color565(i, 0, 0));
}
return micros() - start;
}
/***************************************************
Original sketch text:
This is an example sketch for the Adafruit 2.2" SPI display.
This library works with the Adafruit 2.2" TFT Breakout w/SD card
----> http://www.adafruit.com/products/1480
Check out the links above for our tutorials and wiring diagrams
These displays use SPI to communicate, 4 or 5 pins are required to
interface (RST is optional)
Adafruit invests time and resources providing this open source code,
please support Adafruit and open-source hardware by purchasing
products from Adafruit!
Written by Limor Fried/Ladyada for Adafruit Industries.
MIT license, all text above must be included in any redistribution
****************************************************/

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## 通过这些示例的学习,最终目的要做一个电子相册
- [x] 点亮屏幕
- [ ] 读取SD卡
- [ ] 显示png图片
- [ ] 显示更多格式的图片
- [ ] 图片切换的过度动画
- [ ] 图片的缩放
- [ ] 图片上面显示文字(时间、天气、温度等)
- [ ] 定时更新天气数据
- [ ] 定时更新时间
- [ ] 通过软件或网页管理图片
### PDQgraphicstest示例
是原始的PDQ图形库示例程序用于测试PDQ图形库的功能。这个示例目前是可以运行的针脚编号已经按照电路板都修改过了可以根据实际情况修改使用。

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/*******************************************************************************
* U8g2 Chinese font example
* Please note this font is 1,024,137 in size and cannot fit in many platform.
* This font is generated by U8g2 tools:
* u8g2/tools/font/bdfconv/bdfconv -v -f 1 -b 1 -m "32-127,11904-12351,19968-40959,63744-64255,65280-65376" unifont_jp-14.0.02.bdf -o u8g2_font_unifont_t_chinese.h -n u8g2_font_unifont_t_chinese
******************************************************************************/
/*******************************************************************************
* Start of Arduino_GFX setting
*
* Arduino_GFX try to find the settings depends on selected board in Arduino IDE
* Or you can define the display dev kit not in the board list
* Defalult pin list for non display dev kit:
* Arduino Nano, Micro and more: CS: 9, DC: 8, RST: 7, BL: 6, SCK: 13, MOSI: 11, MISO: 12
* ESP32 various dev board : CS: 5, DC: 27, RST: 33, BL: 22, SCK: 18, MOSI: 23, MISO: nil
* ESP32-C3 various dev board : CS: 7, DC: 2, RST: 1, BL: 3, SCK: 4, MOSI: 6, MISO: nil
* ESP32-S2 various dev board : CS: 34, DC: 38, RST: 33, BL: 21, SCK: 36, MOSI: 35, MISO: nil
* ESP32-S3 various dev board : CS: 40, DC: 41, RST: 42, BL: 48, SCK: 36, MOSI: 35, MISO: nil
* ESP8266 various dev board : CS: 15, DC: 4, RST: 2, BL: 5, SCK: 14, MOSI: 13, MISO: 12
* Raspberry Pi Pico dev board : CS: 17, DC: 27, RST: 26, BL: 28, SCK: 18, MOSI: 19, MISO: 16
* RTL8720 BW16 old patch core : CS: 18, DC: 17, RST: 2, BL: 23, SCK: 19, MOSI: 21, MISO: 20
* RTL8720_BW16 Official core : CS: 9, DC: 8, RST: 6, BL: 3, SCK: 10, MOSI: 12, MISO: 11
* RTL8722 dev board : CS: 18, DC: 17, RST: 22, BL: 23, SCK: 13, MOSI: 11, MISO: 12
* RTL8722_mini dev board : CS: 12, DC: 14, RST: 15, BL: 13, SCK: 11, MOSI: 9, MISO: 10
* Seeeduino XIAO dev board : CS: 3, DC: 2, RST: 1, BL: 0, SCK: 8, MOSI: 10, MISO: 9
* Teensy 4.1 dev board : CS: 39, DC: 41, RST: 40, BL: 22, SCK: 13, MOSI: 11, MISO: 12
******************************************************************************/
#include <U8g2lib.h>
#include <Arduino_GFX_Library.h>
#define GFX_BL 14 // default backlight pin, you may replace DF_GFX_BL to actual backlight pin
/* More dev device declaration: https://github.com/moononournation/Arduino_GFX/wiki/Dev-Device-Declaration */
#if defined(DISPLAY_DEV_KIT)
Arduino_GFX *gfx = create_default_Arduino_GFX();
#else /* !defined(DISPLAY_DEV_KIT) */
/* More data bus class: https://github.com/moononournation/Arduino_GFX/wiki/Data-Bus-Class */
// Arduino_DataBus *bus = create_default_Arduino_DataBus();
Arduino_DataBus *bus = new Arduino_ESP32PAR16(38 /* DC */, 39 /* CS */, 37 /* WR */, 36 /* RD */,45,48,47,21,46,3,20,19,18,17,16,15,7,6,5,4);
/* More display class: https://github.com/moononournation/Arduino_GFX/wiki/Display-Class */
// Arduino_GFX *gfx = new Arduino_ILI9341(bus, DF_GFX_RST, 0 /* rotation */, false /* IPS */);
Arduino_GFX *gfx = new Arduino_NT35510(bus, 35 /* RST */, 0 /* rotation */);
#endif /* !defined(DISPLAY_DEV_KIT) */
/*******************************************************************************
* End of Arduino_GFX setting
******************************************************************************/
/* more fonts at: https://github.com/moononournation/ArduinoFreeFontFile.git */
void setup(void)
{
#ifdef DEV_DEVICE_INIT
DEV_DEVICE_INIT();
#endif
Serial.begin(115200);
// Serial.setDebugOutput(true);
// while(!Serial);
Serial.println("Arduino_GFX U8g2 Font UTF8 Chinese example");
// Init Display
if (!gfx->begin())
{
Serial.println("gfx->begin() failed!");
}
gfx->fillScreen(RGB565_BLACK);
gfx->setUTF8Print(true); // enable UTF8 support for the Arduino print() function
#ifdef GFX_BL
pinMode(GFX_BL, OUTPUT);
digitalWrite(GFX_BL, HIGH);
#endif
gfx->setFont(u8g2_font_unifont_t_chinese);
gfx->setTextColor(RGB565_WHITE);
gfx->setCursor(0, 16);
gfx->println("Arduino 是一個開源嵌入式硬體平台,用來供用戶製作可互動式的嵌入式專案。此外 Arduino 作為一個開源硬體和開源軟件的公司同時兼有專案和用戶社群。該公司負責設計和製造Arduino電路板及相關附件。這些產品按照GNU寬通用公共許可證LGPL或GNU通用公共許可證GPL[1]許可的開源硬體和軟件分發的Arduino 允許任何人製造 Arduino 板和軟件分發。 Arduino 板可以以預裝的形式商業銷售也可以作為DIY套件購買。");
gfx->println("Arduino 专案始于2003年作为意大利伊夫雷亚地区伊夫雷亚互动设计研究所的学生专案目的是为新手和专业人员提供一种低成本且简单的方法以建立使用感测器与环境相互作用的装置执行器。适用于初学者爱好者的此类装置的常见范例包括感测器、简单机械人、恒温器和运动检测器。");
}
void loop()
{
}

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// General software SPI
// Arduino_DataBus *bus = new Arduino_SWSPI(TFT_DC, TFT_CS, 18 /* SCK */, 23 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_DataBus *bus = new Arduino_ESP32PAR16(38 /* DC */, 39 /* CS */, 37 /* WR */, 36 /* RD */,45,48,47,21,46,3,20,19,18,17,16,15,7,6,5,4);
// hardware SPI (default DataBus, comment below block if you are not using hardware SPI)
// #if defined(ARDUINO_ARCH_NRF52840)
// // Arduino_DataBus *bus = new Arduino_mbedSPI(TFT_DC, TFT_CS);
// Arduino_DataBus *bus = new Arduino_NRFXSPI(TFT_DC, TFT_CS, 13 /* SCK */, 11 /* MOSI */, 12 /* MISO */);
// #elif defined(TARGET_RP2040)
// Arduino_DataBus *bus = new Arduino_RPiPicoSPI(TFT_DC /* DC */, TFT_CS /* CS */, 18 /* SCK */, 19 /* MOSI */, 16 /* MISO */, spi0 /* spi */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 18 /* SCK */, 23 /* MOSI */, GFX_NOT_DEFINED /* MISO */, VSPI /* spi_num */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32S3)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 36 /* SCK */, 35 /* MOSI */, GFX_NOT_DEFINED /* MISO */, HSPI /* spi_num */);
// #elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32C3)
// Arduino_DataBus *bus = new Arduino_ESP32SPI(TFT_DC, TFT_CS, 4 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */, FSPI /* spi_num */);
// #elif defined(ESP8266)
// Arduino_DataBus *bus = new Arduino_ESP8266SPI(TFT_DC, TFT_CS);
// #else
// // General hardware SPI
// Arduino_DataBus *bus = new Arduino_HWSPI(TFT_DC, TFT_CS);
// #endif
// General Software parallel 8-bit
// Arduino_DataBus *bus = new Arduino_SWPAR8(A2 /* DC */, A3 /* CS */, A1 /* WR */, A0 /* RD */, 8 /* D0 */, 9 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */);
// General Software parallel 16-bit
// Arduino_DataBus *bus = new Arduino_SWPAR16(32 /* DC */, GFX_NOT_DEFINED /* CS */, 21 /* WR */, GFX_NOT_DEFINED /* RD */, 19 /* D0 */, 23 /* D1 */, 18 /* D2 */, 5 /* D3 */, 17 /* D4 */, 16 /* D5 */, 25 /* D6 */, 26 /* D7 */, 27 /* D8 */, 14 /* D9 */, 12 /* D10 */, 13 /* D11 */, 15 /* D12 */, 2 /* D13 */, 0 /* D14 */, 4 /* D15 */);
// Arduino UNO / UNO R4 MINIMA / UNO R4 WIFI parallel 8-bit
// Arduino_DataBus *bus = new Arduino_UNOPAR8();
// AVR PORT parallel 8-bit
// Arduino Pro Micro port 2(PB): 17, 15, 16, 14, 8, 9, 10, 11
// Arduino_DataBus *bus = new Arduino_AVRPAR8(4 /* DC */, 5 /* CS */, 18 /* WR */, 19 /* RD */, 2 /* PORT */);
// AVR PORT parallel 16-bit
// Arduino MEGA 2560
// port 3(PC): 37, 36, 35, 34, 33, 32, 31, 30
// port 1(PA): 22, 23, 24, 25, 26, 27, 28, 29
// Arduino_DataBus *bus = new Arduino_AVRPAR16(38 /* DC */, 40 /* CS */, 39 /* WR */, 43 /* RD */, 3 /* PORT LOW */, 1 /* PORT HIGH */);
// ESP32 parallel 8-bit
// Arduino_DataBus *bus = new Arduino_ESP32PAR8(TFT_DC, TFT_CS, 25 /* WR */, 32 /* RD */, 23 /* D0 */, 19 /* D1 */, 18 /* D2 */, 26 /* D3 */, 21 /* D4 */, 4 /* D5 */, 0 /* D6 */, 2 /* D7 */);
// ESP32 parallel 16-bit
// Almost all GPIO 0-31 used up for 16-bit and WR, disable PSRAM to gain 16 and 17 but still no GPIOs remain for CS and RD.
// CS connect to GND (enable); RD connect to Vcc (disable).
// Arduino_DataBus *bus = new Arduino_ESP32PAR16(
// 32 /* DC */, GFX_NOT_DEFINED /* CS */, 21 /* WR */, GFX_NOT_DEFINED /* RD */,
// 19 /* D0 */, 23 /* D1 */, 18 /* D2 */, 5 /* D3 */, 17 /* D4 */, 16 /* D5 */, 25 /* D6 */, 26 /* D7 */,
// 27 /* D8 */, 14 /* D9 */, 12 /* D10 */, 13 /* D11 */, 15 /* D12 */, 2 /* D13 */, 0 /* D14 */, 4 /* D15 */);
// ESP32 QSPI
// Arduino_DataBus *bus = new Arduino_ESP32QSPI(
// 10 /* CS */, 5 /* SCK */, 14 /* D0 */, 8 /* D1 */, 0 /* D2 */, 1 /* D3 */);
// ESP32S2 parallel 8-bit
// Display D0-D7 connect to GPIO 0-7
// Arduino_DataBus *bus = new Arduino_ESP32S2PAR8(TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */);
// ESP32S2 parallel 16-bit
// Display D0-D15 connect to GPIO 0-15
// Arduino_DataBus *bus = new Arduino_ESP32S2PAR16(TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */);
// ESP32S3 i80 LCD parallel 8-bit
// Arduino_DataBus *bus = new Arduino_ESP32LCD8(
// TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */,
// 0 /* D0 */, 1 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */);
// ESP32S3 i80 LCD parallel 16-bit
// Arduino_DataBus *bus = new Arduino_ESP32LCD16(
// TFT_DC, TFT_CS, 16 /* WR */, 17 /* RD */,
// 0 /* D0 */, 1 /* D1 */, 2 /* D2 */, 3 /* D3 */, 4 /* D4 */, 5 /* D5 */, 6 /* D6 */, 7 /* D7 */,
// 8 /* D8 */, 9 /* D9 */, 10 /* D10 */, 11 /* D11 */, 12 /* D12 */, 13 /* D13 */, 14 /* D14 */, 15 /* D15 */);
// Raspberry Pi Pico parallel 8-bit
// Display D0-D7 connect to GPIO 0-7
// Arduino_DataBus *bus = new Arduino_RPiPicoPAR8(TFT_DC, TFT_CS, 18 /* WR */, 19 /* RD */);
// Raspberry Pi Pico parallel 16-bit
// Display D0-D15 connect to GPIO 0-15
// Arduino_DataBus *bus = new Arduino_RPiPicoPAR16(TFT_DC, TFT_CS, 18 /* WR */, 19 /* RD */);
// RTL8722 parallel 8-bit
// Reduce GPIO usage: CS connect to GND (enable); RD connect to Vcc (disable); No Backlight pins.
// Arduino_DataBus *bus = new Arduino_RTLPAR8(0 /* DC */, GFX_NOT_DEFINED /* CS */, 1 /* WR */, GFX_NOT_DEFINED /* RD */, 18 /* D0 */, 22 /* D1 */, 17 /* D2 */, 20 /* D3 */, 19 /* D4 */, 23 /* D5 */, 21 /* D6 */, 16 /* D7 */);

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// #define AD35_S3
// #define BLOCKCODELAB_ARCADE_LITE
// #define DLC35010R // or called "Elecrow ESP Terminal with 3.5inch Parallel RGB Capacitive Touch Display (ILI9488)"
// #define DRAGON_RADAR
// #define ESP32_1732S019
// #define ESP32_2424012
// #define ESP32_2432S028
// #define ESP32_3248S035
// #define ESP32_4827A043 /* requires manual set bus speed to 8 mHz: gfx->begin(8000000) */
// #define ESP32_4827A043_QSPI
// #define ESP32_4827S043
// #define ESP32_4848S040_86BOX_GUITION
// #define ESP32_8048S043
// #define ESP32_8048S070
// #define ESP32_LCDKIT_SPI
// #define ESP32_LCDKIT_PAR8A
// #define ESP32_LCDKIT_PAR8B
// #define ESP32_LCDKIT_PAR16
// #define ESP32_S3_3_13_DISPLAY
// #define ESP32_S3_BOX_3
// #define ESP32_S3_EYE
// #define ESP32_S3_RGB
// #define ESP32_S3_RPI_DPI
// #define ESP32S3_2_1_TP
// #define GS_T3E // Golden Security GS-T3E
// #define IBUBLY
// #define JC3248W535
// #define JC3636W518
// #define LILYGO_T_DECK
// #define LILYGO_T_DISPLAY
// #define LILYGO_T_DISPLAY_S3
// #define LILYGO_T_Display_S3_AMOLED
// #define LILYGO_T_Display_S3_AMOLED_1_64
// #define LILYGO_T_Display_S3_LONG
// #define LILYGO_T_DISPLAY_S3_PRO
// #define LILYGO_T_QT
// #define LILYGO_T_RGB
// #define LILYGO_T_TRACK
// #define LILYGO_T_WATCH_2021
// #define LILYGO_T4_S3
// #define MAKERFABS_TFT_TOUCH_3_5
// #define MAKERFABS_ESP32_S3_TFT_4_0
// #define MAKERFABS_ESP32_S3_TFT_4_3_v1_3
// #define WT32_SC01
// #define XIAO_SAMD21_ROUND_DISPLAY
// #define XIAO_ESP32C3_ROUND_DISPLAY
// #define XIAO_ESP32S3_ROUND_DISPLAY
// #define WZ8048C050 // or called "Elecrow Wizee-ESP32"
// #define ZX2D10GE10R_V4848
// #define ZX3D50CE02S // or called "WT32-SC01 PLUS"
// #define ZX3D95CE01S_AR
// #define ZX3D95CE01S_TR
// #define ZX7D00CE01S // or called "QM Smart Panlee 7.0 inch serial screen"
#if defined(AD35_S3)
#define GFX_DEV_DEVICE AD35_S3
#include <Wire.h>
#include <Adafruit_AW9523.h>
Adafruit_AW9523 aw;
#define DEV_DEVICE_INIT() \
{ \
Wire.begin(6 /* SDA */, 5 /* SCL */); \
aw.begin(0x59); \
aw.pinMode(8, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(9, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(10, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(11, OUTPUT); /* LCD_LEDK */ \
aw.pinMode(14, OUTPUT); /* LCD_RST */ \
aw.digitalWrite(8, LOW); /* LCD_LEDK */ \
aw.digitalWrite(9, LOW); /* LCD_LEDK */ \
aw.digitalWrite(10, LOW); /* LCD_LEDK */ \
aw.digitalWrite(11, LOW); /* LCD_LEDK */ \
aw.digitalWrite(14, HIGH); /* LCD_RST */ \
}
Arduino_DataBus *bus = new Arduino_ESP32LCD8(
45 /* DC */, GFX_NOT_DEFINED /* CS */, 10 /* WR */, GFX_NOT_DEFINED /* RD */,
9 /* D0 */, 4 /* D1 */, 3 /* D2 */, 8 /* D3 */, 18 /* D4 */, 17 /* D5 */, 16 /* D6 */, 15 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(BLOCKCODELAB_ARCADE_LITE)
#define GFX_DEV_DEVICE BLOCKCODELAB_ARCADE_LITE
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(45 /* DC */, 10 /* CS */, 12 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */, HSPI /* spi_num */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, 46 /* RST */, 3 /* rotation */, false /* IPS */);
#elif defined(DLC35010R)
#define GFX_DEV_DEVICE DLC35010R
#define GFX_BL 46
Arduino_DataBus *bus = new Arduino_ESP32PAR16(
45 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, 48 /* RD */,
47 /* D0 */, 21 /* D1 */, 14 /* D2 */, 13 /* D3 */, 12 /* D4 */, 11 /* D5 */, 10 /* D6 */, 9 /* D7 */,
3 /* D8 */, 8 /* D9 */, 16 /* D10 */, 15 /* D11 */, 7 /* D12 */, 6 /* D13 */, 5 /* D14 */, 4 /* D15 */);
Arduino_GFX *gfx = new Arduino_ILI9488(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, false /* IPS */);
#elif defined(DRAGON_RADAR)
#define GFX_DEV_DEVICE DRAGON_RADAR
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
11 /* R0 */, 12 /* R1 */, 13 /* R2 */, 45 /* R3 */, 0 /* R4 */,
8 /* G0 */, 19 /* G1 */, 20 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
4 /* B0 */, 5 /* B1 */, 6 /* B2 */, 7 /* B3 */, 15 /* B4 */,
1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type6_init_operations, sizeof(st7701_type6_init_operations));
#elif defined(ESP32_1732S019)
#define GFX_DEV_DEVICE ESP32_1732S019
#define GFX_BL 14
Arduino_DataBus *bus = new Arduino_ESP32SPI(11 /* DC */, 10 /* CS */, 12 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 1 /* RST */, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(ESP32_2424012)
#define GFX_DEV_DEVICE ESP32_2424012
#define GFX_BL 8
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 10 /* CS */, 6 /* SCK */, 7 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_2432S028)
#define GFX_DEV_DEVICE ESP32_2432S028
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_3248S035)
#define GFX_DEV_DEVICE ESP32_3248S035
#define GFX_BL 27
Arduino_DataBus *bus = new Arduino_ESP32SPI(2 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */, VSPI /* spi_num */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_4827A043)
#define GFX_DEV_DEVICE ESP32_4827A043
#define GFX_BL 2
Arduino_DataBus *bus = new Arduino_ESP32LCD16(
48 /* DC */, 45 /* CS */, 47 /* WR */, 21 /* RD */,
5 /* D0 */, 6 /* D1 */, 7 /* D2 */, 15 /* D3 */, 16 /* D4 */, 4 /* D5 */, 8 /* D6 */, 3 /* D7 */,
46 /* D8 */, 9 /* D9 */, 1 /* D10 */, 42 /* D11 */, 39 /* D12 */, 41 /* D13 */, 40 /* D14 */, 14 /* D15 */);
Arduino_GFX *gfx = new Arduino_NV3041A(bus, 17 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_4827A043_QSPI)
#define GFX_DEV_DEVICE ESP32_4827A043_QSPI
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
45 /* CS */, 47 /* SCK */, 21 /* D0 */, 48 /* D1 */, 40 /* D2 */, 39 /* D3 */);
Arduino_GFX *gfx = new Arduino_NV3041A(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ESP32_4827S043)
#define GFX_DEV_DEVICE ESP32_4827S043
#define GFX_BL 2
#define RGB_PANEL
// option 1:
// Uncomment for ILI6485 LCD 480x272
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 1 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
0 /* vsync_polarity */, 3 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
1 /* pclk_active_neg */, 10000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 272 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
// option 2:
// Uncomment for ST7262 IPS LCD 800x480
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
// 45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
// 5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
// 8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
// 0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 8 /* hsync_back_porch */,
// 0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 8 /* vsync_back_porch */,
// 1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
// option 3:
// Uncomment for RPi DPI 1024x600
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
// 45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
// 5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
// 8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
// 0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
// 0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
// 1 /* pclk_active_neg */, 9000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 1024 /* width */, 600 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
/* 4.0" 86BOX from GUITION ESP32-4848S040 display */
#elif defined(ESP32_4848S040_86BOX_GUITION)
#define GFX_DEV_DEVICE ESP32_4848S040_86BOX_GUITION
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
11 /* R0 */, 12 /* R1 */, 13 /* R2 */, 14 /* R3 */, 0 /* R4 */,
8 /* G0 */, 20 /* G1 */, 3 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
4 /* B0 */, 5 /* B1 */, 6 /* B2 */, 7 /* B3 */, 15 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 1 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type9_init_operations, sizeof(st7701_type9_init_operations));
#elif defined(ESP32_8048S043)
#define GFX_DEV_DEVICE ESP32_8048S043
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 8 /* hsync_back_porch */,
0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 8 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32_8048S070)
#define GFX_DEV_DEVICE ESP32_8048S070
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
41 /* DE */, 40 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
14 /* R0 */, 21 /* R1 */, 47 /* R2 */, 48 /* R3 */, 45 /* R4 */,
9 /* G0 */, 46 /* G1 */, 3 /* G2 */, 8 /* G3 */, 16 /* G4 */, 1 /* G5 */,
15 /* B0 */, 7 /* B1 */, 6 /* B2 */, 5 /* B3 */, 4 /* B4 */,
0 /* hsync_polarity */, 180 /* hsync_front_porch */, 30 /* hsync_pulse_width */, 16 /* hsync_back_porch */,
0 /* vsync_polarity */, 12 /* vsync_front_porch */, 13 /* vsync_pulse_width */, 10 /* vsync_back_porch */,
1 /* pclk_active_neg */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32_LCDKIT_SPI)
#define GFX_DEV_DEVICE ESP32_LCDKIT_SPI
#define GFX_BL 23
Arduino_DataBus *bus = new Arduino_ESP32SPI(19 /* DC */, 5 /* CS */, 22 /* SCK */, 21 /* MOSI */, 27 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, 18 /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR8A)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR8A
Arduino_DataBus *bus = new Arduino_ESP32PAR8(5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */, 19 /* D0 */, 21 /* D1 */, 0 /* D2 */, 22 /* D3 */, 23 /* D4 */, 33 /* D5 */, 32 /* D6 */, 27 /* D7 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR8B)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR8B
Arduino_DataBus *bus = new Arduino_ESP32PAR8(5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */, 25 /* D0 */, 26 /* D1 */, 12 /* D2 */, 13 /* D3 */, 14 /* D4 */, 15 /* D5 */, 2 /* D6 */, 4 /* D7 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_LCDKIT_PAR16)
#define GFX_DEV_DEVICE ESP32_LCDKIT_PAR16
Arduino_DataBus *bus = new Arduino_ESP32PAR16(
5 /* DC */, GFX_NOT_DEFINED /* CS */, 18 /* WR */, GFX_NOT_DEFINED /* RD */,
19 /* D0 */, 21 /* D1 */, 0 /* D2 */, 22 /* D3 */, 23 /* D4 */, 33 /* D5 */, 32 /* D6 */, 27 /* D7 */,
25 /* D8 */, 26 /* D9 */, 12 /* D10 */, 13 /* D11 */, 14 /* D12 */, 15 /* D13 */, 2 /* D14 */, 4 /* D15 */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
#elif defined(ESP32_S3_3_13_DISPLAY)
#define GFX_DEV_DEVICE ESP32_S3_3_13_DISPLAY
#define GFX_BL 4
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 0 /* CS */,
17 /* SCK */, 16 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
15 /* DE */, 5 /* VSYNC */, 6 /* HSYNC */, 7 /* PCLK */,
19 /* R0 */, 8 /* R1 */, 18 /* R2 */, 17 /* R3 */, 16 /* R4 */,
11 /* G0 */, 10 /* G1 */, 9 /* G2 */, 46 /* G3 */, 3 /* G4 */, 20 /* G5 */,
47 /* B0 */, 21 /* B1 */, 14 /* B2 */, 13 /* B3 */, 12 /* B4 */,
1 /* hsync_polarity */, 30 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 16 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 16 /* vsync_back_porch */,
0 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
376 /* width */, 960 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, gc9503v_type2_init_operations, sizeof(gc9503v_type2_init_operations));
#elif defined(ESP32_S3_BOX_3)
#define GFX_DEV_DEVICE ARDUINO_ESP32_S3_BOX_3
#define GFX_BL 47
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 5 /* CS */, 7 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */);
#elif defined(ESP32_S3_EYE)
#define GFX_DEV_DEVICE ESP32_S3_EYE
#define DEV_DEVICE_INIT() \
{ \
pinMode(3 /* camera indicator */, OUTPUT); \
digitalWrite(3 /* camera indicator */, LOW); \
pinMode(48 /* BACKLIGHT */, OUTPUT); \
digitalWrite(48 /* BACKLIGHT */, LOW); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPI(43 /* DC */, 44 /* CS */, 21 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
#elif defined(ESP32_S3_RGB)
#define GFX_DEV_DEVICE ESP32_S3_RGB
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
// option 1:
// Uncomment for 4" rect display
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
// option 2:
// Uncomment for 2.1" round display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type5_init_operations, sizeof(st7701_type5_init_operations));
// option 3:
// Uncomment for 2.8" round display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type6_init_operations, sizeof(st7701_type6_init_operations));
// option 4:
// Uncomment for 2.0" display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 480 /* width */, 360 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type8_init_operations, sizeof(st7701_type8_init_operations));
// option 5:
// Uncomment for 3.5" display
// Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
// 18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
// 4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
// 10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
// 15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
// 1 /* hsync_polarity */, 20 /* hsync_front_porch */, 30 /* hsync_pulse_width */, 38 /* hsync_back_porch */,
// 1 /* vsync_polarity */, 4 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 15 /* vsync_back_porch */,
// 10 /* pclk_active_neg */, 16000000 /* prefer_speed */);
// Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
// 640 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
// bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(ESP32_S3_RPI_DPI)
#define GFX_DEV_DEVICE ESP32_S3_RPI_DPI
// #define GFX_BL 38
#define RGB_PANEL
// e.g. Waveshare 7" RPi DPI LCD: https://www.waveshare.com/wiki/7inch_LCD_for_Pi
// dpi_timings=1024 1 40 48 128 600 1 13 3 45 0 0 0 60 0 37000000 6
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 3 /* R1 */, 2 /* R2 */, 1 /* R3 */, 0 /* R4 */,
10 /* G0 */, 9 /* G1 */, 8 /* G2 */, 7 /* G3 */, 6 /* G4 */, 5 /* G5 */,
15 /* B0 */, 14 /* B1 */, 13 /* B2 */, 12 /* B3 */, 11 /* B4 */,
1 /* hsync_polarity */, 40 /* hsync_front_porch */, 48 /* hsync_pulse_width */, 128 /* hsync_back_porch */,
1 /* vsync_polarity */, 13 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 45 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
1024 /* width */, 600 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(ESP32S3_2_1_TP)
#define GFX_DEV_DEVICE ESP32S3_2_1_TP
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 39 /* CS */,
48 /* SCK */, 47 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
18 /* DE */, 17 /* VSYNC */, 16 /* HSYNC */, 21 /* PCLK */,
4 /* R0 */, 5 /* R1 */, 6 /* R2 */, 7 /* R3 */, 15 /* R4 */,
8 /* G0 */, 20 /* G1 */, 3 /* G2 */, 46 /* G3 */, 9 /* G4 */, 10 /* G5 */,
11 /* B0 */, 12 /* B1 */, 13 /* B2 */, 14 /* B3 */, 0 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type5_init_operations, sizeof(st7701_type5_init_operations));
/* Golden Security GS-T3E */
#elif defined(GS_T3E)
#define GFX_DEV_DEVICE GS_T3E
#define GFX_BL 42
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 4 /* CS */,
15 /* SCK */, 48 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 39 /* VSYNC */, 38 /* HSYNC */, 41 /* PCLK */,
8 /* R0 */, 18 /* R1 */, 17 /* R2 */, 16 /* R3 */, 0 /* R4 */,
13 /* G0 */, 12 /* G1 */, 11 /* G2 */, 10 /* G3 */, 9 /* G4 */, 3 /* G5 */,
15 /* B0 */, 48 /* B1 */, 47 /* B2 */, 21 /* B3 */, 14 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, 4 /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(IBUBLY)
#define GFX_DEV_DEVICE IBUBLY
#define GFX_BL 17 // default backlight pin, you may replace DF_GFX_BL to actual backlight pin
Arduino_DataBus *bus = new Arduino_ESP32SPI(8 /* DC */, 9 /* CS */, 10 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 12 /* RST */, 1 /* rotation */, true /* IPS */, 240 /* width */, 280 /* height */, 0 /* col offset 1 */, 20 /* row offset 1 */, 0 /* col offset 2 */, 20 /* row offset 2 */);
#elif defined(JC3248W535)
#define GFX_DEV_DEVICE JC3248W535
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
45 /* CS */, 47 /* SCK */, 21 /* D0 */, 48 /* D1 */, 40 /* D2 */, 39 /* D3 */);
Arduino_GFX *g = new Arduino_AXS15231B(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, false /* IPS */, 320 /* width */, 480 /* height */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(320 /* width */, 480 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(JC3636W518)
#define GFX_DEV_DEVICE JC3636W518
#define GFX_BL 15
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
10 /* CS */, 9 /* SCK */, 11 /* D0 */, 12 /* D1 */, 13 /* D2 */, 14 /* D3 */);
Arduino_GFX *gfx = new Arduino_ST77916(bus, 47 /* RST */, 0 /* rotation */, true /* IPS */, 360 /* width */, 360 /* height */);
#elif defined(LILYGO_T_DECK)
#define GFX_DEV_DEVICE LILYGO_T_DECK
#define DEV_DEVICE_INIT() \
{ \
pinMode(9 /* TDECK_RADIO_CS */, OUTPUT); \
digitalWrite(9 /* TDECK_RADIO_CS */, HIGH); \
pinMode(12 /* TDECK_LCD_CS */, OUTPUT); \
digitalWrite(12 /* TDECK_LCD_CS */, HIGH); \
pinMode(39 /* TDECK_SDCARD_CS */, OUTPUT); \
digitalWrite(39 /* TDECK_SDCARD_CS */, HIGH); \
pinMode(10 /* TDECK_PERI_POWERON */, OUTPUT); \
digitalWrite(10 /* TDECK_PERI_POWERON */, HIGH); \
delay(500); \
}
#define GFX_BL 42
Arduino_DataBus *bus = new Arduino_ESP32SPI(11 /* DC */, 12 /* CS */, 40 /* SCK */, 41 /* MOSI */, 38 /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
#elif defined(LILYGO_T_DISPLAY)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY
#define GFX_BL 4
Arduino_DataBus *bus = new Arduino_ESP32SPI(16 /* DC */, 5 /* CS */, 18 /* SCK */, 19 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 23 /* RST */, 0 /* rotation */, true /* IPS */, 135 /* width */, 240 /* height */, 52 /* col offset 1 */, 40 /* row offset 1 */, 53 /* col offset 2 */, 40 /* row offset 2 */);
#elif defined(LILYGO_T_DISPLAY_S3)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3
#define DEV_DEVICE_INIT() \
{ \
pinMode(15 /* PWD */, OUTPUT); \
digitalWrite(15 /* PWD */, HIGH); \
}
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_ESP32PAR8Q(
7 /* DC */, 6 /* CS */, 8 /* WR */, 9 /* RD */,
39 /* D0 */, 40 /* D1 */, 41 /* D2 */, 42 /* D3 */, 45 /* D4 */, 46 /* D5 */, 47 /* D6 */, 48 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, 5 /* RST */, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(LILYGO_T_Display_S3_AMOLED)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_AMOLED
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
6 /* CS */, 47 /* SCK */, 18 /* D0 */, 7 /* D1 */, 48 /* D2 */, 5 /* D3 */);
Arduino_GFX *gfx = new Arduino_RM67162(bus, 17 /* RST */, 0 /* rotation */);
#elif defined(LILYGO_T_Display_S3_AMOLED_1_64)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_AMOLED_1_64
#define DEV_DEVICE_INIT() \
{ \
pinMode(16 /* LCD_EN */, OUTPUT); \
digitalWrite(16 /* LCD_EN */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
10 /* CS */, 12 /* SCK */, 11 /* D0 */, 13 /* D1 */, 14 /* D2 */, 15 /* D3 */);
Arduino_GFX *g = new Arduino_CO5300(bus, 17 /* RST */, 0 /* rotation */, false /* IPS */, 280, 456,
20 /* col offset 1 */, 0 /* row offset 1 */, 180 /* col_offset2 */, 24 /* row_offset2 */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(280 /* width */, 456 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(LILYGO_T_Display_S3_LONG)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_LONG
#define GFX_BL 1
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
12 /* CS */, 17 /* SCK */, 13 /* D0 */, 18 /* D1 */, 21 /* D2 */, 14 /* D3 */);
Arduino_GFX *g = new Arduino_AXS15231B(bus, 47 /* RST */, 0 /* rotation */, false /* IPS */, 180 /* width */, 640 /* height */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(180 /* width */, 640 /* height */, g, 0 /* output_x */, 0 /* output_y */, 0 /* rotation */);
#elif defined(LILYGO_T_DISPLAY_S3_PRO)
#define GFX_DEV_DEVICE LILYGO_T_DISPLAY_S3_PRO
#define GFX_BL 48
Arduino_DataBus *bus = new Arduino_ESP32SPI(9 /* DC */, 39 /* CS */, 18 /* SCK */, 17 /* MOSI */, 8 /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 47 /* RST */, 0 /* rotation */, true /* IPS */, 222 /* width */, 480 /* height */, 49 /* col offset 1 */, 0 /* row offset 1 */, 49 /* col offset 2 */, 0 /* row offset 2 */);
#elif defined(LILYGO_T_QT)
#define GFX_DEV_DEVICE LILYGO_T_QT
#define DEV_DEVICE_INIT() \
{ \
pinMode(10 /* BL */, OUTPUT); \
digitalWrite(10 /* BL */, LOW); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPI(6 /* DC */, 5 /* CS */, 3 /* SCK */, 2 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9107(bus, 1 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(LILYGO_T_RGB)
#define GFX_DEV_DEVICE LILYGO_T_RGB
#include <Wire.h>
#define DEV_DEVICE_INIT() \
{ \
Wire.begin(8 /* SDA */, 48 /* SCL */, 800000L /* speed */); \
}
#define GFX_BL 46
Arduino_DataBus *bus = new Arduino_XL9535SWSPI(
8 /* SDA */, 48 /* SCL */, 2 /* XL PWD */, 3 /* XL CS */, 5 /* XL SCK */, 4 /* XL MOSI */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
45 /* DE */, 41 /* VSYNC */, 47 /* HSYNC */, 42 /* PCLK */,
21 /* R0 */, 18 /* R1 */, 17 /* R2 */, 16 /* R3 */, 15 /* R4 */,
14 /* G0 */, 13 /* G1 */, 12 /* G2 */, 11 /* G3 */, 10 /* G4 */, 9 /* G5 */,
7 /* B0 */, 6 /* B1 */, 5 /* B2 */, 3 /* B3 */, 2 /* B4 */,
1 /* hsync_polarity */, 50 /* hsync_front_porch */, 1 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
1 /* vsync_polarity */, 20 /* vsync_front_porch */, 1 /* vsync_pulse_width */, 30 /* vsync_back_porch */,
1 /* pclk_active_neg */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type4_init_operations, sizeof(st7701_type4_init_operations));
#elif defined(LILYGO_T_TRACK)
#define GFX_DEV_DEVICE LILYGO_T_TRACK
#define DEV_DEVICE_INIT() \
{ \
pinMode(4 /* POWER */, OUTPUT); \
digitalWrite(4 /* POWER */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32SPIDMA(7 /* DC */, 9 /* CS */, 5 /* SCK */, 6 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_G *g = new Arduino_JD9613(bus, 8 /* RST */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(126 /* width */, 294 /* height */, g, 0, 0, 3);
#elif defined(LILYGO_T_WATCH_2021)
#define GFX_DEV_DEVICE LILYGO_T_WATCH_2021
#define GFX_BL 21
Arduino_DataBus *bus = new Arduino_ESP32SPI(19 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, 27 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(LILYGO_T4_S3)
#define GFX_DEV_DEVICE LILYGO_T4_S3
#define DEV_DEVICE_INIT() \
{ \
pinMode(9 /* POWER */, OUTPUT); \
digitalWrite(9 /* POWER */, HIGH); \
}
Arduino_DataBus *bus = new Arduino_ESP32QSPI(
11 /* CS */, 15 /* SCK */, 14 /* D0 */, 10 /* D1 */, 16 /* D2 */, 12 /* D3 */);
Arduino_GFX *g = new Arduino_RM690B0(bus, 13 /* RST */, 0 /* rotation */, 450 /* width */, 600 /* height */, 16 /* col offset 1 */, 0 /* row offset 1 */, 16 /* col offset 2 */, 0 /* row offset 2 */);
#define CANVAS
Arduino_Canvas *gfx = new Arduino_Canvas(450 /* width */, 600 /* height */, g);
#elif defined(MAKERFABS_TFT_TOUCH_3_5)
#define GFX_DEV_DEVICE MAKERFABS_TFT_TOUCH_3_5
Arduino_DataBus *bus = new Arduino_ESP32SPI(33 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, 12 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9488_18bit(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
#elif defined(MAKERFABS_ESP32_S3_TFT_4_0)
#define GFX_DEV_DEVICE MAKERFABS_ESP32_S3_TFT_4_0
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 1 /* CS */,
12 /* SCK */, 11 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
45 /* DE */, 4 /* VSYNC */, 5 /* HSYNC */, 21 /* PCLK */,
39 /* R0 */, 40 /* R1 */, 41 /* R2 */, 42 /* R3 */, 2 /* R4 */,
0 /* G0 */, 9 /* G1 */, 14 /* G2 */, 47 /* G3 */, 48 /* G4 */, 3 /* G5 */,
6 /* B0 */, 7 /* B1 */, 15 /* B2 */, 16 /* B3 */, 8 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type1_init_operations, sizeof(st7701_type1_init_operations));
#elif defined(MAKERFABS_ESP32_S3_TFT_4_3_v1_3)
#define GFX_DEV_DEVICE MAKERFABS_ESP32_S3_TFT_4_3_v1_3
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 42 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 40 /* hsync_front_porch */, 48 /* hsync_pulse_width */, 88 /* hsync_back_porch */,
0 /* vsync_polarity */, 13 /* vsync_front_porch */, 3 /* vsync_pulse_width */, 32 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(WT32_SC01)
#define GFX_DEV_DEVICE WT32_SC01
#define GFX_BL 23
Arduino_DataBus *bus = new Arduino_ESP32SPI(21 /* DC */, 15 /* CS */, 14 /* SCK */, 13 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 22 /* RST */, 3 /* rotation */);
#elif defined(WZ8048C050)
#define GFX_DEV_DEVICE WZ8048C050
#define GFX_BL 2
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 39 /* HSYNC */, 0 /* PCLK */,
45 /* R0 */, 48 /* R1 */, 47 /* R2 */, 21 /* R3 */, 14 /* R4 */,
5 /* G0 */, 6 /* G1 */, 7 /* G2 */, 15 /* G3 */, 16 /* G4 */, 4 /* G5 */,
8 /* B0 */, 3 /* B1 */, 46 /* B2 */, 9 /* B3 */, 1 /* B4 */,
0 /* hsync_polarity */, 8 /* hsync_front_porch */, 4 /* hsync_pulse_width */, 43 /* hsync_back_porch */,
0 /* vsync_polarity */, 8 /* vsync_front_porch */, 4 /* vsync_pulse_width */, 12 /* vsync_back_porch */,
1 /* pclk_active_neg */, 16000000 /* prefer_speed */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
#elif defined(XIAO_SAMD21_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_SAMD21_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_HWSPI(3 /* DC */, 1 /* CS */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(XIAO_ESP32C3_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_ESP32C3_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_ESP32SPI(5 /* DC */, 3 /* CS */, 8 /* SCK */, 10 /* MOSI */, 9 /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(XIAO_ESP32S3_ROUND_DISPLAY)
#define GFX_DEV_DEVICE XIAO_ESP32S3_ROUND_DISPLAY
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 2 /* CS */, 7 /* SCK */, 9 /* MOSI */, 8 /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ZX2D10GE10R_V4848)
#define GFX_DEV_DEVICE ZX2D10GE10R_V4848
#define GFX_BL 38
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 21 /* CS */,
47 /* SCK */, 41 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
39 /* DE */, 48 /* VSYNC */, 40 /* HSYNC */, 45 /* PCLK */,
10 /* R0 */, 16 /* R1 */, 9 /* R2 */, 15 /* R3 */, 46 /* R4 */,
8 /* G0 */, 13 /* G1 */, 18 /* G2 */, 12 /* G3 */, 11 /* G4 */, 17 /* G5 */,
47 /* B0 */, 41 /* B1 */, 0 /* B2 */, 42 /* B3 */, 14 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 10 /* hsync_pulse_width */, 10 /* hsync_back_porch */,
1 /* vsync_polarity */, 14 /* vsync_front_porch */, 2 /* vsync_pulse_width */, 12 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, st7701_type7_init_operations, sizeof(st7701_type7_init_operations));
#elif defined(ZX3D50CE02S)
#define GFX_DEV_DEVICE ZX3D50CE02S
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_ESP32LCD8(
0 /* DC */, GFX_NOT_DEFINED /* CS */, 47 /* WR */, GFX_NOT_DEFINED /* RD */,
9 /* D0 */, 46 /* D1 */, 3 /* D2 */, 8 /* D3 */, 18 /* D4 */, 17 /* D5 */, 16 /* D6 */, 15 /* D7 */);
Arduino_GFX *gfx = new Arduino_ST7796(bus, 4 /* RST */, 0 /* rotation */, true /* IPS */);
#elif defined(ZX3D95CE01S_AR)
#define GFX_DEV_DEVICE ZX3D95CE01S_AR
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 0 /* CS */,
10 /* SCK */, 9 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
13 /* DE */, 12 /* VSYNC */, 11 /* HSYNC */, 14 /* PCLK */,
2 /* R0 */, 17 /* R1 */, 16 /* R2 */, 1 /* R3 */, 15 /* R4 */,
41 /* G0 */, 46 /* G1 */, 3 /* G2 */, 42 /* G3 */, 8 /* G4 */, 18 /* G5 */,
10 /* B0 */, 9 /* B1 */, 40 /* B2 */, 20 /* B3 */, 19 /* B4 */,
1 /* hsync_polarity */, 10 /* hsync_front_porch */, 8 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 10 /* vsync_front_porch */, 8 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, GFX_NOT_DEFINED /* RST */, gc9503v_type1_init_operations, sizeof(gc9503v_type1_init_operations));
#elif defined(ZX3D95CE01S_TR)
#define GFX_DEV_DEVICE ZX3D95CE01S_TR
#define GFX_BL 5
Arduino_DataBus *bus = new Arduino_SWSPI(
GFX_NOT_DEFINED /* DC */, 38 /* CS */,
45 /* SCK or SCLK */, 48 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
40 /* DE */, 41 /* VSYNC */, 42 /* HSYNC */, 39 /* PCLK */,
18 /* R0 */, 8 /* R1 */, 3 /* R2 */, 46 /* R3 */, 10 /* R4 */,
14 /* G0 */, 13 /* G1 */, 12 /* G2 */, 11 /* G3 */, 16 /* G4 */, 17 /* G5 */,
45 /* B0 */, 48 /* B1 */, 47 /* B2 */, 0 /* B3 */, 21 /* B4 */,
1 /* hsync_polarity */, 8 /* hsync_front_porch */, 10 /* hsync_pulse_width */, 50 /* hsync_back_porch */,
1 /* vsync_polarity */, 8 /* vsync_front_porch */, 10 /* vsync_pulse_width */, 20 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
480 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */,
bus, 41 /* RST */, gc9503v_type1_init_operations, sizeof(gc9503v_type1_init_operations));
#elif defined(ZX7D00CE01S)
#define GFX_DEV_DEVICE ZX7D00CE01S
#define GFX_BL 45
#define RGB_PANEL
Arduino_ESP32RGBPanel *rgbpanel = new Arduino_ESP32RGBPanel(
39 /* DE */, 38 /* VSYNC */, 5 /* HSYNC */, 9 /* PCLK */,
10 /* R0 */, 11 /* R1 */, 12 /* R2 */, 13 /* R3 */, 14 /* R4 */,
21 /* G0 */, 0 /* G1 */, 46 /* G2 */, 3 /* G3 */, 8 /* G4 */, 18 /* G5 */,
17 /* B0 */, 16 /* B1 */, 15 /* B2 */, 7 /* B3 */, 6 /* B4 */,
0 /* hsync_polarity */, 0 /* hsync_front_porch */, 210 /* hsync_pulse_width */, 30 /* hsync_back_porch */,
0 /* vsync_polarity */, 0 /* vsync_front_porch */, 22 /* vsync_pulse_width */, 13 /* vsync_back_porch */);
Arduino_RGB_Display *gfx = new Arduino_RGB_Display(
800 /* width */, 480 /* height */, rgbpanel, 0 /* rotation */, true /* auto_flush */);
/* Wio Terminal */
#elif defined(ARDUINO_ARCH_SAMD) && defined(SEEED_GROVE_UI_WIRELESS)
#define GFX_DEV_DEVICE WIO_TERMINAL
// #define GFX_BL LCD_BACKLIGHT
Arduino_DataBus *bus = new Arduino_HWSPI(LCD_DC /* DC */, LCD_SS_PIN /* CS */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */);
/* ESP32-S3-BOX */
#elif defined(ARDUINO_ESP32_S3_BOX)
#define GFX_DEV_DEVICE ARDUINO_ESP32_S3_BOX
#define GFX_BL 45
Arduino_DataBus *bus = new Arduino_ESP32SPI(4 /* DC */, 5 /* CS */, 7 /* SCK */, 6 /* MOSI */, 0 /* MISO */);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, 48 /* RST */, 0 /* rotation */);
/* M5Stack */
#elif defined(ARDUINO_M5Stack_Core_ESP32) || defined(ARDUINO_M5STACK_FIRE)
#define GFX_DEV_DEVICE ARDUINO_M5Stack_Core_ESP32
// #define GFX_BL 32
Arduino_DataBus *bus = new Arduino_ESP32SPI(27 /* DC */, 14 /* CS */, SCK, MOSI, MISO);
Arduino_GFX *gfx = new Arduino_ILI9342(bus, 33 /* RST */, 2 /* rotation */);
#elif defined(ARDUINO_M5Stack_ATOMS3)
#define GFX_DEV_DEVICE ARDUINO_M5Stack_ATOMS3
#define GFX_BL 16
Arduino_DataBus *bus = new Arduino_ESP32SPI(33 /* DC */, 15 /* CS */, 17 /* SCK */, 21 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_GC9107(bus, 34 /* RST */, 0 /* rotation */, true /* IPS */);
/* Odroid-Go */
#elif defined(ARDUINO_ODROID_ESP32)
#define GFX_DEV_DEVICE ARDUINO_ODROID_ESP32
// #define GFX_BL 14
Arduino_DataBus *bus = new Arduino_ESP32SPI(21 /* DC */, 5 /* CS */, SCK, MOSI, MISO);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, GFX_NOT_DEFINED /* RST */, 3 /* rotation */);
// Arduino_ST7789 *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 3 /* rotation */, true /* IPS */);
/* LILYGO T-Watch */
#elif defined(ARDUINO_T) || defined(ARDUINO_TWATCH_BASE) || defined(ARDUINO_TWATCH_2020_V1) || defined(ARDUINO_TWATCH_2020_V2)
#define GFX_DEV_DEVICE ARDUINO_T_WATCH
#define GFX_BL 12
Arduino_DataBus *bus = new Arduino_ESP32SPI(27 /* DC */, 5 /* CS */, 18 /* SCK */, 19 /* MOSI */, GFX_NOT_DEFINED /* MISO */);
Arduino_GFX *gfx = new Arduino_ST7789(bus, GFX_NOT_DEFINED /* RST */, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
/* Waveshare RP2040-LCD-1.28 */
#elif defined(ARDUINO_WAVESHARE_RP2040_LCD_1_28)
#define GFX_DEV_DEVICE ARDUINO_WAVESHARE_RP2040_LCD_1_28
#define GFX_BL 25
Arduino_DataBus *bus = new Arduino_RPiPicoSPI(8 /* DC */, 9 /* CS */, 10 /* SCK */, 11 /* MOSI */, 12 /* MISO */, spi1 /* spi */);
Arduino_GFX *gfx = new Arduino_GC9A01(bus, 12 /* RST */, 0 /* rotation */, true /* IPS */);
#endif

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/***************************************
* Start of Canvas (framebuffer)
**************************************/
// #define CANVAS
// 16-bit color Canvas (240x320 resolution only works for ESP32 with PSRAM)
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas(240 /* width */, 320 /* height */, output_display);
// Indexed color Canvas, mask_level: 0-2, larger mask level mean less color variation but can have faster index mapping
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_Indexed(240 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */, MAXMASKLEVEL /* mask_level */);
// 3-bit color Canvas, R1G1B1, 8 colors
// Arduino_G *output_display = new Arduino_ILI9488_3bit(bus, GFX_NOT_DEFINED /* RST */, 1 /* rotation */, false /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_3bit(480 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */);
// Mono color Canvas
// Arduino_G *output_display = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// Arduino_GFX *gfx = new Arduino_Canvas_Mono(240 /* width */, 320 /* height */, output_display, 0 /* output_x */, 0 /* output_y */);
/***************************************
* End of Canvas (framebuffer)
**************************************/
// GC9A01 IPS LCD 240x240
// Arduino_GFX *gfx = new Arduino_GC9A01(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// GC9106 IPS LCD 80x160
// Arduino_GFX *gfx = new Arduino_GC9106(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// GC9107 IPS LCD 128x128
// Arduino_GFX *gfx = new Arduino_GC9107(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8347C IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_HX8347C(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8347D IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_HX8347D(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8352C IPS LCD 240x400
// Arduino_GFX *gfx = new Arduino_HX8352C(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8357A IPS LCD 320x480 (currently only portrait works, i.e. rotation 0 and 2)
// Arduino_GFX *gfx = new Arduino_HX8357A(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8357B IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_HX8357B(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// HX8369A LCD 480x800
// Arduino_GFX *gfx = new Arduino_HX8369A(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 480, 800, 0, 7, 0, 57);
// ILI9225 LCD 176x220
// Arduino_GFX *gfx = new Arduino_ILI9225(bus, TFT_RST);
// ILI9341 LCD 240x320 (default Display, comment below line if you are not using ILI9341)
// Arduino_GFX *gfx = new Arduino_ILI9341(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9342 LCD 320x240
// Arduino_GFX *gfx = new Arduino_ILI9342(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9481 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9481(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9481 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9481_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9486 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9486(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9486 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9486_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9488 parallel 8/16-bit LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9488(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9488 SPI LCD 320x480
// Arduino_GFX *gfx = new Arduino_ILI9488_18bit(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// ILI9806 LCD 480x854
// Arduino_GFX *gfx = new Arduino_ILI9806(bus, TFT_RST, 0 /* rotation */, false /* IPS */);
// JBT6K71 LCD 240x320
// Arduino_GFX *gfx = new Arduino_JBT6K71(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240, 320, 0, 0, 16, 0);
// NT35310 LCD 320x480
// Arduino_GFX *gfx = new Arduino_NT35310(bus, TFT_RST, 0 /* rotation */);
// NT35510 LCD 480x800
// Arduino_GFX *gfx = new Arduino_NT35510(bus, TFT_RST, 0 /* rotation */);
Arduino_GFX *gfx = new Arduino_NT35510(bus, 35 /* RST */, 0 /* rotation */);
// NT39125 LCD 240x376
// Arduino_GFX *gfx = new Arduino_NT39125(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 240, 376, 0, 0, 0, 56);
// NV3041A IPS LCD
// Arduino_GFX *gfx = new Arduino_NV3041A(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// OTM8009A LCD 480x800
// Arduino_GFX *gfx = new Arduino_OTM8009A(bus, TFT_RST, 0 /* rotation */);
// R61529 IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_R61529(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// SEPS525 OLED 160x128
// Arduino_GFX *gfx = new Arduino_SEPS525(bus, TFT_RST, 0 /* rotation */);
// SSD1283A OLED 130x130
// Arduino_GFX *gfx = new Arduino_SSD1283A(bus, TFT_RST, 0 /* rotation */);
// SSD1331 OLED 96x64
// Arduino_GFX *gfx = new Arduino_SSD1331(bus, TFT_RST, 0 /* rotation */);
// SSD1351 OLED 128x128
// Arduino_GFX *gfx = new Arduino_SSD1351(bus, TFT_RST, 0 /* rotation */);
// ST7735 LCD
// 0.42" 96x54
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 96 /* width */, 54 /* height */, 16 /* col offset 1 */, 106 /* row offset 1 */, 16 /* col offset 2 */, 0 /* row offset 2 */);
// 0.85" 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 128 /* width */, 128 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" REDTAB 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */);
// 1.8" BLACKTAB 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */, false /* BGR */);
// 1.8" GREENTAB A 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 1 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" GREENTAB B 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 2 /* col offset 1 */, 3 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.8" Wide angle LCD 128x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 160 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 0 /* row offset 2 */, false /* BGR */);
// 1.5" GREENTAB B 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 128 /* height */, 2 /* col offset 1 */, 3 /* row offset 1 */, 2 /* col offset 2 */, 1 /* row offset 2 */);
// 1.5" GREENTAB C 128x128
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 128 /* width */, 128 /* height */, 0 /* col offset 1 */, 32 /* row offset 1 */);
// 0.96" IPS LCD 80x160
// Arduino_GFX *gfx = new Arduino_ST7735(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 80 /* width */, 160 /* height */, 26 /* col offset 1 */, 1 /* row offset 1 */, 26 /* col offset 2 */, 1 /* row offset 2 */);
// ST7789 LCD
// 2.4" LCD 240x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */);
// 2.4" IPS LCD 240x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// 2.25" LCD 76x284
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, false /* IPS */, 76 /* width */, 284 /* height */, 82 /* col offset 1 */, 18 /* row offset 1 */, 82 /* col offset 2 */, 18 /* row offset 2 */);
// 1.9" IPS round corner LCD 170x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 170 /* width */, 320 /* height */, 35 /* col offset 1 */, 0 /* row offset 1 */, 35 /* col offset 2 */, 0 /* row offset 2 */);
// 1.69" IPS round corner LCD 240x280
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240 /* width */, 280 /* height */, 0 /* col offset 1 */, 20 /* row offset 1 */, 0 /* col offset 2 */, 20 /* row offset 2 */);
// 1.47" IPS round corner LCD 172x320
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 172 /* width */, 320 /* height */, 34 /* col offset 1 */, 0 /* row offset 1 */, 34 /* col offset 2 */, 0 /* row offset 2 */);
// 1.3"/1.5" square IPS LCD 240x240
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 240 /* width */, 240 /* height */, 0 /* col offset 1 */, 0 /* row offset 1 */, 0 /* col offset 2 */, 80 /* row offset 2 */);
// 1.14" IPS LCD 135x240
// Arduino_GFX *gfx = new Arduino_ST7789(bus, TFT_RST, 0 /* rotation */, true /* IPS */, 135 /* width */, 240 /* height */, 52 /* col offset 1 */, 40 /* row offset 1 */, 53 /* col offset 2 */, 40 /* row offset 2 */);
// ST7796 LCD
// 4" LCD 320x480
// Arduino_GFX *gfx = new Arduino_ST7796(bus, TFT_RST, 0 /* rotation */);
// 4" IPS LCD 320x480
// Arduino_GFX *gfx = new Arduino_ST7796(bus, TFT_RST, 0 /* rotation */, true /* IPS */);
// WEA2012 LCD
// #define CANVAS
// Arduino_GFX *output_display = new Arduino_WEA2012(bus, TFT_RST);
// Arduino_GFX *gfx = new Arduino_Canvas(356 /* width */, 400 /* height */, output_display);

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#if defined(__IMXRT1052__) || defined(__IMXRT1062__)
// PJRC Teensy 4.x
#define TFT_CS 39 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 41
#define TFT_RST 40
#define GFX_BL 22
#elif defined(ARDUINO_BLACKPILL_F411CE)
#define TFT_CS 4 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 3
#define TFT_RST 2
#define GFX_BL 1
#elif defined(TARGET_RP2040)
#define TFT_CS 17 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 27
#define TFT_RST 26
#define GFX_BL 28
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32)
#define TFT_CS 5 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 27 // GFX_NOT_DEFINED for display without DC pin (9-bit SPI)
#define TFT_RST 33
#define GFX_BL 22
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S2)
#define TFT_CS 34 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 38
#define TFT_RST 33
#define GFX_BL 21
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32S3)
#define TFT_CS 40 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 41
#define TFT_RST 42
#define GFX_BL 14
#elif defined(ESP32) && (CONFIG_IDF_TARGET_ESP32C3)
#define TFT_CS 7 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 2
#define TFT_RST 1
#define GFX_BL 3
#elif defined(ESP8266)
#define TFT_CS 15 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 4
#define TFT_RST 2
#define GFX_BL 5
#elif defined(RTL8722DM)
#if defined(BOARD_RTL8720DN_BW16)
#define TFT_CS 9
#define TFT_DC 8
#define TFT_RST 6
#define GFX_BL 3
#elif defined(BOARD_RTL8722DM)
#define TFT_CS 18
#define TFT_DC 17
#define TFT_RST 22
#define GFX_BL 23
#elif defined(BOARD_RTL8722DM_MINI)
#define TFT_CS 12
#define TFT_DC 14
#define TFT_RST 15
#define GFX_BL 13
#else // old version
#define TFT_CS 18 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 17
#define TFT_RST 2
#define GFX_BL 23
#endif
#elif defined(SEEED_XIAO_M0)
#define TFT_CS 3 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 2
#define TFT_RST 1
#define GFX_BL 0
#else
#define TFT_CS 9 // GFX_NOT_DEFINED for display without CS pin
#define TFT_DC 8
#define TFT_RST 7
#define GFX_BL 6
#endif

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/*
Adapted from the Adafruit and Xark's PDQ graphicstest sketch.
See end of file for original header text and MIT license info.
*/
/*******************************************************************************
* Start of Arduino_GFX setting
******************************************************************************/
#include <Arduino_GFX_Library.h>
/* OPTION 1: Uncomment a dev device in Arduino_GFX_dev_device.h */
#include "Arduino_GFX_dev_device.h"
#ifndef GFX_DEV_DEVICE
/* OPTION 2: Manual define hardware */
/* Step 1: Define pins in Arduino_GFX_databus.h */
#include "Arduino_GFX_pins.h"
/* Step 2: Uncomment your databus in Arduino_GFX_databus.h */
#include "Arduino_GFX_databus.h"
/* Step 3: Uncomment your display driver in Arduino_GFX_display.h */
#include "Arduino_GFX_display.h"
#include <Arduino.h>
#include <SPI.h>
#include <SD.h>
// #include <SdFat.h>
#endif /* Manual define hardware */
/*******************************************************************************
* End of Arduino_GFX setting
******************************************************************************/
#ifdef ESP32
#undef F
#define F(s) (s)
#endif
#define TF_CS 42
#define TF_SDA 41
#define TF_SCL 40
#define TF_MISO 39
// SdFat SD;
int32_t w, h, n, n1, cx, cy, cx1, cy1, cn, cn1;
uint8_t tsa, tsb, tsc, ds;
void setup()
{
#ifdef DEV_DEVICE_INIT
DEV_DEVICE_INIT();
#endif
Serial.begin(115200);
// Serial.setDebugOutput(true);
Serial.println("Initializing SD card...");
SPI.begin(TF_SCL, TF_MISO, TF_SDA, TF_CS);
// 初始化 SD 卡
if (!SD.begin(TF_CS)) {
Serial.println("Card Mount Failed");
return;
}
// File file = SD.open("test.txt", FILE_WRITE);
// if (file) {
// file.println("Hello from SdFat!");
// file.close();
// Serial.println("File written successfully.");
// } else {
// Serial.println("Failed to open file for writing.");
// }
uint8_t cardType = SD.cardType();
if (cardType == CARD_NONE) {
Serial.println("No SD card attached");
return;
}
Serial.print("SD Card Type: ");
if (cardType == CARD_MMC) {
Serial.println("MMC");
} else if (cardType == CARD_SD) {
Serial.println("SDSC");
} else if (cardType == CARD_SDHC) {
Serial.println("SDHC");
} else {
Serial.println("UNKNOWN");
}
}
void loop() {
// 写入数据到SD卡
// File file = SD.open("test.txt", FILE_WRITE);
// if (!file) {
// Serial.println("无法打开文件进行写入!");
// return;
// }
// file.println("Hello, ESP32 S3!"); // 写入一行文本
// file.close(); // 关闭文件
// // 读取数据从SD卡
// File fileRead = SD.open("test.txt", FILE_READ);
// if (!fileRead) {
// Serial.println("无法打开文件进行读取!");
// return;
// }
// while (true) {
// String line = "";
// char c;
// while ((c = fileRead.read()) != '\0') { // 逐字符读取
// line += c;
// if (c == '\n') break; // 到换行符结束
// }
// Serial.println(line); // 输出到串口监视器
// if (line.length() == 0) break; // 如果没有更多数据,退出循环
// }
// fileRead.close(); // 关闭读取文件
// delay(1000); // 延时1秒
}