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Arduino_GFX

Arduino_GFX is a Arduino graphics library supporting various displays with various data bus interfaces.

This library start rewrite from Adafruit_GFX, LovyanGFX, TFT_eSPI, Ucglib, and more...

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Ease of use

Simple Declaration

#include <Arduino_GFX_Library.h>
Arduino_DataBus *bus = new Arduino_HWSPI(16 /* DC */, 5 /* CS */);
Arduino_GFX *gfx = new Arduino_ILI9341(bus, 17 /* RST */);

And Simple Usage

gfx->begin();
gfx->fillScreen(BLACK);
gfx->setCursor(10, 10);
gfx->setTextColor(RED);
gfx->println("Hello World!");

U8g2 Font Support

U8g2 proivided various font type and stored in compressed format. So U8g2 font gives more UI design possibilities and still can fit in the MCU limited storage space. Using U8g2 font in Arduino_GFX simply include U8g2lib.h before Arduino_GFX_Library.h:

#include <U8g2lib.h>
#include <Arduino_GFX_Library.h>

And then setfont file to use:

gfx->setCursor(10, 20);
gfx->setFont(u8g2_font_maniac_tr);
gfx->println("Hello World!");

U8g2 font list can be found at: https://github.com/olikraus/u8g2/wiki/fntlistall

U8g2 Unicode (UTF8) Font Support

Another U8g2 font advantage is the font support Unicode glyphs. Simply enable setUTF8Print:

    gfx->begin();
    gfx->fillScreen(BLACK);
    gfx->setUTF8Print(true);

And then print UTF8 string as usual:

    gfx->setCursor(0, 16);

    gfx->setFont(u8g2_font_unifont_tr);
    gfx->println("Hello World!");

    gfx->setFont(u8g2_font_unifont_t_polish);
    gfx->println("Witaj świecie!");

    gfx->setFont(u8g2_font_unifont_t_vietnamese1);
    gfx->println("Chào thế giới!");

    gfx->setFont(u8g2_font_unifont_t_chinese2);
    gfx->println("世界你好!");

    gfx->setFont(u8g2_font_unifont_t_japanese1);
    gfx->println("こんにちは世界!");

    gfx->setFont(u8g2_font_unifont_t_korean1);
    gfx->println("안녕하세요, 세계입니다!");

U8g2 Unifont list can be found at: https://github.com/olikraus/u8g2/wiki/fntgrpunifont

Extra Fonts

Besides U8g2 generated font, Arduino_GFX also generated some useful font set from latest unifont_jp-14.0.02:

u8g2_font_unifont_h_utf8

  • Glyphs: 57389/57389
  • Size: 2,250,360
  • Generation script:
bdfconv -v -f 1 -b 1 -m "0-1114111" unifont_jp-14.0.02.bdf -o u8g2_font_unifont_h_utf8.h -n u8g2_font_unifont_h_utf8

u8g2_font_unifont_t_chinese

  • Glyphs: 22145/57389
  • Size: 979,557
  • Generation script:
bdfconv -v -f 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

u8g2_font_unifont_t_chinese4

bdfconv -v -f 1 -M chinese4.list unifont_jp-14.0.02.bdf -o u8g2_font_unifont_t_chinese4.h -n u8g2_font_unifont_t_chinese4

u8g2_font_unifont_t_cjk

  • Glyphs: 41364/57389
  • Size: 1,704,862
  • Generation script:
 bdfconv -v -f 1 -m "32-127,4352-4607,11904-12255,12288-19903,19968-40943,43360-43391,44032-55203,55216-55295,63744-64255,65072-65103,65280-65519" unifont_jp-14.0.02.bdf -o u8g2_font_unifont_t_cjk.h -n u8g2_font_unifont_t_cjk

Performance

This library is not putting speed at the first priority, but still paid much effort to make the display look smooth.

Figures

Below are some figures compare with other 3 Arduino common display libraries.

  • Arduino IDE: 1.8.15
  • arduino-esp32: 1.0.6
  • Dev Board: TTGO T8 v1.8
  • PSRAM: disable
  • Display: ILI9341
  • Interface: SPI
  • SPI Frequency: 40MHz
  • Test time: 2021 Jun 16
Benchmark Adafruit_GFX Arduino_GFX Lovyan_GFX TFT_eSPI
Screen fill 195,782 160,094 154,341 155,938
Text 97,662 18,960 22,473 21,752
Pixels 1,365,211 903,549 867,702 775,781
Lines 1,062,311 412,026 269,060 264,950
Horiz/Vert Lines 17,637 14,197 13,692 13,833
Rectangles-filled 406,817 332,696 320,761 323,908
Rectangles 11,641 9,254 8,545 8,714
Triangles-filled 150,941 118,010 105,661 109,675
Triangles 58,843 23,570 15,884 16,277
Circles-filled 76,739 52,170 42,787 45,827
Circles 118,125 40,955 25,959 25,269
Arcs-filled N/A 33,381 21,546 N/A
Arcs N/A 66,054 47,901 N/A
Rounded rects-fill 408,534 338,136 318,882 323,189
Rounded rects 43,185 21,562 13,089 15,371

Why Run Fast?

  • No read operation. Since not all display provide read back graphic memories API, Arduino_GFX skip all read operations. It can reduce the library size footprint and sometimes reduce the operation time.
  • Tailor-made data bus classes. Arduino_GFX decouple data bus operation from display driver, it is more easy to write individual data bus class for each platform.

Various data bus interfaces

Arduino_GFX utilizes Arduino Built-in SPI class to support 8-bit SPI for most platforms.

Most tiny displays in hobbyist electronics world support 8-bit SPI, but some require 9-bit SPI. Arduino_GFX should be the first Arduino display library that can use ESP32 SPI to support 9-bit hardware SPI. It is important to support the displays that require 9-bit SPI interface. (e.g. HX8357B, ...)

Larger displays most likely do not support standalone SPI since it is not fast enough to refresh the full screen details. Most of them support 8-bit/16-bit Parallel interface.

Some larger display require RGB + 3-bit SPI combo interface, This interface requies at most 3(9-bit SPI) + 4(CS, CD, WR, RD) + 24(RBG888) = 31 pins. Most dev board do not have enough GPIO to support this. Arduino_GFX is stick to RGB565 color, so RGB666 and RGB888 require some connection hack. E.g. RGB666 connect R5 and R6 together, B5 and B6 together to become RGB565. Then the least GPIO requirement can become 3(9-bit SPI) + 2(CD, WR) + 16(RBG565) = 21 pins. Remember always pull down CS pin and always pull up RD pin.

Currently Supported data bus [Wiki]

  • 8-bit and 9-bit hardware SPI (ESP32SPI)
  • 8-bit hardware SPI (HWSPI, ESP8266SPI, mbedSPI, NRFXSPI, RPiPicoSPI)
  • 8-bit and 9-bit software SPI (SWSPI)
  • 8-bit parallel interface (SWPAR8, AVRPAR8, ESP32PAR8, ESP32S2PAR8, RPiPicoPAR8, RTLPAR8, STM32PAR8)
  • 16-bit parallel interface (ESP32LCD16, ESP32PAR16, ESP32S2PAR16, RPiPicoPAR16)
  • RGB565+SPI interface (ESP32RGBPanel)

Tobe Support data bus (Sponsors can make it happen)

  • Arduino ATMega2560 dual 8-bit Port form 16-bit parallel interface
  • FastLED

Currently Supported Dev Board

  • Ameba RTL8722DM Board (AMB 21)
  • Ameba RTL8722DM MINI Board (AMB 23)
  • Arduino Nano
  • Arduino Nano BLE 33
  • Arduino Pro Micro
  • ESP8266 Series
  • ESP32 Series
  • ESP32-C3 Series
  • ESP32-S2 Series
  • ESP32-S3 Series
  • Raspberry Pi Pico
  • Raspberry Pi Pico W
  • rtlduino BW16 (by Ai-Thinker)
  • Sony Spresense
  • WeAct BlackPill V2.0 (BlackPill F411CE)

Tobe Support Dev Board (Sponsors can make it happen)

  • Arduino ATMega2560

Currently Supported Dev Device [Wiki]

Currently Supported Display [Wiki]

Tobe Support Display (Sponsors can make it happen)

  • FastLED Martix supported by co-operate with Canvas
  • Mono display supported by co-operate with Canvas
  • Multi-color e-ink display supported by co-operate with Canvas

Canvas (framebuffer) [Wiki]

  • Canvas (16-bit pixel)
  • Canvas_Indexed (half memory space)
  • Canvas_3bit (1/4 memory space framebuffer)
  • Canvas_Mono (1/16 memory space framebuffer)

LVGL Support

3 LVGL demo provide in examples folder:

  • LvglBenchmark [demo video]
  • LvglHelloWorld
  • LvglWidgets

Feature wishlist (Sponsors can make it happen)

  • Print color Emoji Characters
  • Load bitmap font files from flash / SD
  • Fill Gradient

Using source code come from