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Trying to fix incompatibilities with adafruit lib

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This commit is contained in:
Daniel Eichhorn
2017-05-12 21:57:48 +02:00
parent 9d410af18f
commit a4a7bf6232
5 changed files with 841 additions and 4 deletions
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2
GfxUi.h
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@@ -18,7 +18,7 @@ SOFTWARE.
See more at http://blog.squix.ch
*/
#include <Adafruit_ILI9341.h>
#include "ILI9341.h"
#include <FS.h>
#ifndef _GFX_UI_H

630
ILI9341.cpp Normal file
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/***************************************************
This is our library for the Adafruit ILI9341 Breakout and Shield
----> http://www.adafruit.com/products/1651
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
****************************************************/
#include "ILI9341.h"
#ifndef ARDUINO_STM32_FEATHER
#include "pins_arduino.h"
#ifndef RASPI
#include "wiring_private.h"
#endif
#endif
#include <limits.h>
#define MADCTL_MY 0x80
#define MADCTL_MX 0x40
#define MADCTL_MV 0x20
#define MADCTL_ML 0x10
#define MADCTL_RGB 0x00
#define MADCTL_BGR 0x08
#define MADCTL_MH 0x04
/*
* Control Pins
* */
#ifdef USE_FAST_PINIO
#define SPI_DC_HIGH() *dcport |= dcpinmask
#define SPI_DC_LOW() *dcport &= ~dcpinmask
#define SPI_CS_HIGH() *csport |= cspinmask
#define SPI_CS_LOW() *csport &= ~cspinmask
#else
#define SPI_DC_HIGH() digitalWrite(_dc, HIGH)
#define SPI_DC_LOW() digitalWrite(_dc, LOW)
#define SPI_CS_HIGH() digitalWrite(_cs, HIGH)
#define SPI_CS_LOW() digitalWrite(_cs, LOW)
#endif
/*
* Software SPI Macros
* */
#ifdef USE_FAST_PINIO
#define SSPI_MOSI_HIGH() *mosiport |= mosipinmask
#define SSPI_MOSI_LOW() *mosiport &= ~mosipinmask
#define SSPI_SCK_HIGH() *clkport |= clkpinmask
#define SSPI_SCK_LOW() *clkport &= ~clkpinmask
#define SSPI_MISO_READ() ((*misoport & misopinmask) != 0)
#else
#define SSPI_MOSI_HIGH() digitalWrite(_mosi, HIGH)
#define SSPI_MOSI_LOW() digitalWrite(_mosi, LOW)
#define SSPI_SCK_HIGH() digitalWrite(_sclk, HIGH)
#define SSPI_SCK_LOW() digitalWrite(_sclk, LOW)
#define SSPI_MISO_READ() digitalRead(_miso)
#endif
#define SSPI_BEGIN_TRANSACTION()
#define SSPI_END_TRANSACTION()
#define SSPI_WRITE(v) spiWrite(v)
#define SSPI_WRITE16(s) SSPI_WRITE((s) >> 8); SSPI_WRITE(s)
#define SSPI_WRITE32(l) SSPI_WRITE((l) >> 24); SSPI_WRITE((l) >> 16); SSPI_WRITE((l) >> 8); SSPI_WRITE(l)
#define SSPI_WRITE_PIXELS(c,l) for(uint32_t i=0; i<(l); i+=2){ SSPI_WRITE(((uint8_t*)(c))[i+1]); SSPI_WRITE(((uint8_t*)(c))[i]); }
/*
* Hardware SPI Macros
* */
#ifndef ESP32
#define SPI_OBJECT SPI
#else
#define SPI_OBJECT _spi
#endif
#if defined (__AVR__) || defined(TEENSYDUINO) || defined(ARDUINO_ARCH_STM32F1)
#define HSPI_SET_CLOCK() SPI_OBJECT.setClockDivider(SPI_CLOCK_DIV2);
#elif defined (__arm__)
#define HSPI_SET_CLOCK() SPI_OBJECT.setClockDivider(11);
#elif defined(ESP8266) || defined(ESP32)
#define HSPI_SET_CLOCK() SPI_OBJECT.setFrequency(_freq);
#elif defined(RASPI)
#define HSPI_SET_CLOCK() SPI_OBJECT.setClock(_freq);
#elif defined(ARDUINO_ARCH_STM32F1)
#define HSPI_SET_CLOCK() SPI_OBJECT.setClock(_freq);
#else
#define HSPI_SET_CLOCK()
#endif
#ifdef SPI_HAS_TRANSACTION
#define HSPI_BEGIN_TRANSACTION() SPI_OBJECT.beginTransaction(SPISettings(_freq, MSBFIRST, SPI_MODE0))
#define HSPI_END_TRANSACTION() SPI_OBJECT.endTransaction()
#else
#define HSPI_BEGIN_TRANSACTION() HSPI_SET_CLOCK(); SPI_OBJECT.setBitOrder(MSBFIRST); SPI_OBJECT.setDataMode(SPI_MODE0)
#define HSPI_END_TRANSACTION()
#endif
#ifdef ESP32
#define SPI_HAS_WRITE_PIXELS
#endif
#if defined(ESP8266) || defined(ESP32)
// Optimized SPI (ESP8266 and ESP32)
#define HSPI_READ() SPI_OBJECT.transfer(0)
#define HSPI_WRITE(b) SPI_OBJECT.write(b)
#define HSPI_WRITE16(s) SPI_OBJECT.write16(s)
#define HSPI_WRITE32(l) SPI_OBJECT.write32(l)
#ifdef SPI_HAS_WRITE_PIXELS
#define SPI_MAX_PIXELS_AT_ONCE 32
#define HSPI_WRITE_PIXELS(c,l) SPI_OBJECT.writePixels(c,l)
#else
#define HSPI_WRITE_PIXELS(c,l) for(uint32_t i=0; i<((l)/2); i++){ SPI_WRITE16(((uint16_t*)(c))[i]); }
#endif
#else
// Standard Byte-by-Byte SPI
#if defined (__AVR__) || defined(TEENSYDUINO)
static inline uint8_t _avr_spi_read(void) __attribute__((always_inline));
static inline uint8_t _avr_spi_read(void) {
uint8_t r = 0;
SPDR = r;
while(!(SPSR & _BV(SPIF)));
r = SPDR;
return r;
}
#define HSPI_WRITE(b) {SPDR = (b); while(!(SPSR & _BV(SPIF)));}
#define HSPI_READ() _avr_spi_read()
#else
#define HSPI_WRITE(b) SPI_OBJECT.transfer((uint8_t)(b))
#define HSPI_READ() HSPI_WRITE(0)
#endif
#define HSPI_WRITE16(s) HSPI_WRITE((s) >> 8); HSPI_WRITE(s)
#define HSPI_WRITE32(l) HSPI_WRITE((l) >> 24); HSPI_WRITE((l) >> 16); HSPI_WRITE((l) >> 8); HSPI_WRITE(l)
#define HSPI_WRITE_PIXELS(c,l) for(uint32_t i=0; i<(l); i+=2){ HSPI_WRITE(((uint8_t*)(c))[i+1]); HSPI_WRITE(((uint8_t*)(c))[i]); }
#endif
/*
* Final SPI Macros
* */
#if defined (ARDUINO_ARCH_ARC32)
#define SPI_DEFAULT_FREQ 16000000
#elif defined (__AVR__) || defined(TEENSYDUINO)
#define SPI_DEFAULT_FREQ 8000000
#elif defined(ESP8266) || defined(ESP32)
#define SPI_DEFAULT_FREQ 40000000
#elif defined(RASPI)
#define SPI_DEFAULT_FREQ 80000000
#elif defined(ARDUINO_ARCH_STM32F1)
#define SPI_DEFAULT_FREQ 36000000
#else
#define SPI_DEFAULT_FREQ 24000000
#endif
#define SPI_BEGIN() if(_sclk < 0){SPI_OBJECT.begin();}
#define SPI_BEGIN_TRANSACTION() if(_sclk < 0){HSPI_BEGIN_TRANSACTION();}
#define SPI_END_TRANSACTION() if(_sclk < 0){HSPI_END_TRANSACTION();}
#define SPI_WRITE16(s) if(_sclk < 0){HSPI_WRITE16(s);}else{SSPI_WRITE16(s);}
#define SPI_WRITE32(l) if(_sclk < 0){HSPI_WRITE32(l);}else{SSPI_WRITE32(l);}
#define SPI_WRITE_PIXELS(c,l) if(_sclk < 0){HSPI_WRITE_PIXELS(c,l);}else{SSPI_WRITE_PIXELS(c,l);}
// Pass 8-bit (each) R,G,B, get back 16-bit packed color
uint16_t Adafruit_ILI9341::color565(uint8_t r, uint8_t g, uint8_t b) {
return ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | ((b & 0xF8) >> 3);
}
Adafruit_ILI9341::Adafruit_ILI9341(int8_t cs, int8_t dc, int8_t mosi,
int8_t sclk, int8_t rst, int8_t miso) : Adafruit_GFX(ILI9341_TFTWIDTH, ILI9341_TFTHEIGHT) {
_cs = cs;
_dc = dc;
_rst = rst;
_sclk = sclk;
_mosi = mosi;
_miso = miso;
_freq = 0;
#ifdef USE_FAST_PINIO
csport = portOutputRegister(digitalPinToPort(_cs));
cspinmask = digitalPinToBitMask(_cs);
dcport = portOutputRegister(digitalPinToPort(_dc));
dcpinmask = digitalPinToBitMask(_dc);
clkport = portOutputRegister(digitalPinToPort(_sclk));
clkpinmask = digitalPinToBitMask(_sclk);
mosiport = portOutputRegister(digitalPinToPort(_mosi));
mosipinmask = digitalPinToBitMask(_mosi);
if(miso >= 0){
misoport = portInputRegister(digitalPinToPort(_miso));
misopinmask = digitalPinToBitMask(_miso);
} else {
misoport = 0;
misopinmask = 0;
}
#endif
}
Adafruit_ILI9341::Adafruit_ILI9341(int8_t cs, int8_t dc, int8_t rst) : Adafruit_GFX(ILI9341_TFTWIDTH, ILI9341_TFTHEIGHT) {
_cs = cs;
_dc = dc;
_rst = rst;
_sclk = -1;
_mosi = -1;
_miso = -1;
_freq = 0;
#ifdef USE_FAST_PINIO
csport = portOutputRegister(digitalPinToPort(_cs));
cspinmask = digitalPinToBitMask(_cs);
dcport = portOutputRegister(digitalPinToPort(_dc));
dcpinmask = digitalPinToBitMask(_dc);
clkport = 0;
clkpinmask = 0;
mosiport = 0;
mosipinmask = 0;
misoport = 0;
misopinmask = 0;
#endif
}
#ifdef ESP32
void Adafruit_ILI9341::begin(uint32_t freq, SPIClass &spi)
#else
void Adafruit_ILI9341::begin(uint32_t freq)
#endif
{
#ifdef ESP32
_spi = spi;
#endif
if(!freq){
freq = SPI_DEFAULT_FREQ;
}
_freq = freq;
// Control Pins
pinMode(_dc, OUTPUT);
digitalWrite(_dc, LOW);
pinMode(_cs, OUTPUT);
digitalWrite(_cs, HIGH);
// Software SPI
if(_sclk >= 0){
pinMode(_mosi, OUTPUT);
digitalWrite(_mosi, LOW);
pinMode(_sclk, OUTPUT);
digitalWrite(_sclk, HIGH);
if(_miso >= 0){
pinMode(_miso, INPUT);
}
}
// Hardware SPI
SPI_BEGIN();
// toggle RST low to reset
if (_rst >= 0) {
pinMode(_rst, OUTPUT);
digitalWrite(_rst, HIGH);
delay(100);
digitalWrite(_rst, LOW);
delay(100);
digitalWrite(_rst, HIGH);
delay(200);
}
startWrite();
writeCommand(0xEF);
spiWrite(0x03);
spiWrite(0x80);
spiWrite(0x02);
writeCommand(0xCF);
spiWrite(0x00);
spiWrite(0XC1);
spiWrite(0X30);
writeCommand(0xED);
spiWrite(0x64);
spiWrite(0x03);
spiWrite(0X12);
spiWrite(0X81);
writeCommand(0xE8);
spiWrite(0x85);
spiWrite(0x00);
spiWrite(0x78);
writeCommand(0xCB);
spiWrite(0x39);
spiWrite(0x2C);
spiWrite(0x00);
spiWrite(0x34);
spiWrite(0x02);
writeCommand(0xF7);
spiWrite(0x20);
writeCommand(0xEA);
spiWrite(0x00);
spiWrite(0x00);
writeCommand(ILI9341_PWCTR1); //Power control
spiWrite(0x23); //VRH[5:0]
writeCommand(ILI9341_PWCTR2); //Power control
spiWrite(0x10); //SAP[2:0];BT[3:0]
writeCommand(ILI9341_VMCTR1); //VCM control
spiWrite(0x3e);
spiWrite(0x28);
writeCommand(ILI9341_VMCTR2); //VCM control2
spiWrite(0x86); //--
writeCommand(ILI9341_MADCTL); // Memory Access Control
spiWrite(0x48);
writeCommand(ILI9341_VSCRSADD); // Vertical scroll
SPI_WRITE16(0); // Zero
writeCommand(ILI9341_PIXFMT);
spiWrite(0x55);
writeCommand(ILI9341_FRMCTR1);
spiWrite(0x00);
spiWrite(0x18);
writeCommand(ILI9341_DFUNCTR); // Display Function Control
spiWrite(0x08);
spiWrite(0x82);
spiWrite(0x27);
writeCommand(0xF2); // 3Gamma Function Disable
spiWrite(0x00);
writeCommand(ILI9341_GAMMASET); //Gamma curve selected
spiWrite(0x01);
writeCommand(ILI9341_GMCTRP1); //Set Gamma
spiWrite(0x0F);
spiWrite(0x31);
spiWrite(0x2B);
spiWrite(0x0C);
spiWrite(0x0E);
spiWrite(0x08);
spiWrite(0x4E);
spiWrite(0xF1);
spiWrite(0x37);
spiWrite(0x07);
spiWrite(0x10);
spiWrite(0x03);
spiWrite(0x0E);
spiWrite(0x09);
spiWrite(0x00);
writeCommand(ILI9341_GMCTRN1); //Set Gamma
spiWrite(0x00);
spiWrite(0x0E);
spiWrite(0x14);
spiWrite(0x03);
spiWrite(0x11);
spiWrite(0x07);
spiWrite(0x31);
spiWrite(0xC1);
spiWrite(0x48);
spiWrite(0x08);
spiWrite(0x0F);
spiWrite(0x0C);
spiWrite(0x31);
spiWrite(0x36);
spiWrite(0x0F);
writeCommand(ILI9341_SLPOUT); //Exit Sleep
delay(120);
writeCommand(ILI9341_DISPON); //Display on
delay(120);
endWrite();
_width = ILI9341_TFTWIDTH;
_height = ILI9341_TFTHEIGHT;
}
void Adafruit_ILI9341::setRotation(uint8_t m) {
rotation = m % 4; // can't be higher than 3
switch (rotation) {
case 0:
m = (MADCTL_MX | MADCTL_BGR);
_width = ILI9341_TFTWIDTH;
_height = ILI9341_TFTHEIGHT;
break;
case 1:
m = (MADCTL_MV | MADCTL_BGR);
_width = ILI9341_TFTHEIGHT;
_height = ILI9341_TFTWIDTH;
break;
case 2:
m = (MADCTL_MY | MADCTL_BGR);
_width = ILI9341_TFTWIDTH;
_height = ILI9341_TFTHEIGHT;
break;
case 3:
m = (MADCTL_MX | MADCTL_MY | MADCTL_MV | MADCTL_BGR);
_width = ILI9341_TFTHEIGHT;
_height = ILI9341_TFTWIDTH;
break;
}
startWrite();
writeCommand(ILI9341_MADCTL);
spiWrite(m);
endWrite();
}
void Adafruit_ILI9341::invertDisplay(boolean i) {
startWrite();
writeCommand(i ? ILI9341_INVON : ILI9341_INVOFF);
endWrite();
}
void Adafruit_ILI9341::scrollTo(uint16_t y) {
startWrite();
writeCommand(ILI9341_VSCRSADD);
SPI_WRITE16(y);
endWrite();
}
uint8_t Adafruit_ILI9341::spiRead() {
if(_sclk < 0){
return HSPI_READ();
}
if(_miso < 0){
return 0;
}
uint8_t r = 0;
for (uint8_t i=0; i<8; i++) {
SSPI_SCK_LOW();
SSPI_SCK_HIGH();
r <<= 1;
if (SSPI_MISO_READ()){
r |= 0x1;
}
}
return r;
}
void Adafruit_ILI9341::spiWrite(uint8_t b) {
if(_sclk < 0){
HSPI_WRITE(b);
return;
}
for(uint8_t bit = 0x80; bit; bit >>= 1){
if((b) & bit){
SSPI_MOSI_HIGH();
} else {
SSPI_MOSI_LOW();
}
SSPI_SCK_LOW();
SSPI_SCK_HIGH();
}
}
/*
* Transaction API
* */
void Adafruit_ILI9341::startWrite(void){
SPI_BEGIN_TRANSACTION();
SPI_CS_LOW();
}
void Adafruit_ILI9341::endWrite(void){
SPI_CS_HIGH();
SPI_END_TRANSACTION();
}
void Adafruit_ILI9341::writeCommand(uint8_t cmd){
SPI_DC_LOW();
spiWrite(cmd);
SPI_DC_HIGH();
}
void Adafruit_ILI9341::setAddrWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h) {
uint32_t xa = ((uint32_t)x << 16) | (x+w-1);
uint32_t ya = ((uint32_t)y << 16) | (y+h-1);
writeCommand(ILI9341_CASET); // Column addr set
SPI_WRITE32(xa);
writeCommand(ILI9341_PASET); // Row addr set
SPI_WRITE32(ya);
writeCommand(ILI9341_RAMWR); // write to RAM
}
void Adafruit_ILI9341::pushColor(uint16_t color) {
startWrite();
SPI_WRITE16(color);
endWrite();
}
void Adafruit_ILI9341::writePixel(uint16_t color){
SPI_WRITE16(color);
}
void Adafruit_ILI9341::writePixels(uint16_t * colors, uint32_t len){
SPI_WRITE_PIXELS((uint8_t*)colors , len * 2);
}
void Adafruit_ILI9341::writeColor(uint16_t color, uint32_t len){
#ifdef SPI_HAS_WRITE_PIXELS
if(_sclk >= 0){
for (uint32_t t=0; t<len; t++){
writePixel(color);
}
return;
}
static uint16_t temp[SPI_MAX_PIXELS_AT_ONCE];
size_t blen = (len > SPI_MAX_PIXELS_AT_ONCE)?SPI_MAX_PIXELS_AT_ONCE:len;
uint16_t tlen = 0;
for (uint32_t t=0; t<blen; t++){
temp[t] = color;
}
while(len){
tlen = (len>blen)?blen:len;
writePixels(temp, tlen);
len -= tlen;
}
#else
uint8_t hi = color >> 8, lo = color;
if(_sclk < 0){ //AVR Optimization
for (uint32_t t=len; t; t--){
HSPI_WRITE(hi);
HSPI_WRITE(lo);
}
return;
}
for (uint32_t t=len; t; t--){
spiWrite(hi);
spiWrite(lo);
}
#endif
}
void Adafruit_ILI9341::writePixel(int16_t x, int16_t y, uint16_t color) {
if((x < 0) ||(x >= _width) || (y < 0) || (y >= _height)) return;
setAddrWindow(x,y,1,1);
writePixel(color);
}
void Adafruit_ILI9341::writeFillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color){
if((x >= _width) || (y >= _height)) return;
int16_t x2 = x + w - 1, y2 = y + h - 1;
if((x2 < 0) || (y2 < 0)) return;
// Clip left/top
if(x < 0) {
x = 0;
w = x2 + 1;
}
if(y < 0) {
y = 0;
h = y2 + 1;
}
// Clip right/bottom
if(x2 >= _width) w = _width - x;
if(y2 >= _height) h = _height - y;
int32_t len = (int32_t)w * h;
setAddrWindow(x, y, w, h);
writeColor(color, len);
}
void Adafruit_ILI9341::writeFastVLine(int16_t x, int16_t y, int16_t h, uint16_t color){
writeFillRect(x, y, 1, h, color);
}
void Adafruit_ILI9341::writeFastHLine(int16_t x, int16_t y, int16_t w, uint16_t color){
writeFillRect(x, y, w, 1, color);
}
uint8_t Adafruit_ILI9341::readcommand8(uint8_t c, uint8_t index) {
uint32_t freq = _freq;
if(_freq > 24000000){
_freq = 24000000;
}
startWrite();
writeCommand(0xD9); // woo sekret command?
spiWrite(0x10 + index);
writeCommand(c);
uint8_t r = spiRead();
endWrite();
_freq = freq;
return r;
}
void Adafruit_ILI9341::drawPixel(int16_t x, int16_t y, uint16_t color){
startWrite();
writePixel(x, y, color);
endWrite();
}
void Adafruit_ILI9341::drawFastVLine(int16_t x, int16_t y,
int16_t h, uint16_t color) {
startWrite();
writeFastVLine(x, y, h, color);
endWrite();
}
void Adafruit_ILI9341::drawFastHLine(int16_t x, int16_t y,
int16_t w, uint16_t color) {
startWrite();
writeFastHLine(x, y, w, color);
endWrite();
}
void Adafruit_ILI9341::fillRect(int16_t x, int16_t y, int16_t w, int16_t h,
uint16_t color) {
startWrite();
writeFillRect(x,y,w,h,color);
endWrite();
}

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/******************************************************************
This is our library for the Adafruit ILI9341 Breakout and Shield
----> http://www.adafruit.com/products/1651
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
*******************************************************************/
#ifndef _ADAFRUIT_ILI9341H_
#define _ADAFRUIT_ILI9341H_
#if ARDUINO >= 100
#include "Arduino.h"
#include "Print.h"
#else
#include "WProgram.h"
#endif
#include <SPI.h>
#include "Adafruit_GFX.h"
#if defined(ARDUINO_STM32_FEATHER)
typedef volatile uint32 RwReg;
#endif
#if defined(ARDUINO_FEATHER52)
typedef volatile uint32_t RwReg;
#endif
#define ILI9341_TFTWIDTH 240
#define ILI9341_TFTHEIGHT 320
#define ILI9341_NOP 0x00
#define ILI9341_SWRESET 0x01
#define ILI9341_RDDID 0x04
#define ILI9341_RDDST 0x09
#define ILI9341_SLPIN 0x10
#define ILI9341_SLPOUT 0x11
#define ILI9341_PTLON 0x12
#define ILI9341_NORON 0x13
#define ILI9341_RDMODE 0x0A
#define ILI9341_RDMADCTL 0x0B
#define ILI9341_RDPIXFMT 0x0C
#define ILI9341_RDIMGFMT 0x0D
#define ILI9341_RDSELFDIAG 0x0F
#define ILI9341_INVOFF 0x20
#define ILI9341_INVON 0x21
#define ILI9341_GAMMASET 0x26
#define ILI9341_DISPOFF 0x28
#define ILI9341_DISPON 0x29
#define ILI9341_CASET 0x2A
#define ILI9341_PASET 0x2B
#define ILI9341_RAMWR 0x2C
#define ILI9341_RAMRD 0x2E
#define ILI9341_PTLAR 0x30
#define ILI9341_MADCTL 0x36
#define ILI9341_VSCRSADD 0x37
#define ILI9341_PIXFMT 0x3A
#define ILI9341_FRMCTR1 0xB1
#define ILI9341_FRMCTR2 0xB2
#define ILI9341_FRMCTR3 0xB3
#define ILI9341_INVCTR 0xB4
#define ILI9341_DFUNCTR 0xB6
#define ILI9341_PWCTR1 0xC0
#define ILI9341_PWCTR2 0xC1
#define ILI9341_PWCTR3 0xC2
#define ILI9341_PWCTR4 0xC3
#define ILI9341_PWCTR5 0xC4
#define ILI9341_VMCTR1 0xC5
#define ILI9341_VMCTR2 0xC7
#define ILI9341_RDID1 0xDA
#define ILI9341_RDID2 0xDB
#define ILI9341_RDID3 0xDC
#define ILI9341_RDID4 0xDD
#define ILI9341_GMCTRP1 0xE0
#define ILI9341_GMCTRN1 0xE1
/*
#define ILI9341_PWCTR6 0xFC
*/
// Color definitions
#define ILI9341_BLACK 0x0000 /* 0, 0, 0 */
#define ILI9341_NAVY 0x000F /* 0, 0, 128 */
#define ILI9341_DARKGREEN 0x03E0 /* 0, 128, 0 */
#define ILI9341_DARKCYAN 0x03EF /* 0, 128, 128 */
#define ILI9341_MAROON 0x7800 /* 128, 0, 0 */
#define ILI9341_PURPLE 0x780F /* 128, 0, 128 */
#define ILI9341_OLIVE 0x7BE0 /* 128, 128, 0 */
#define ILI9341_LIGHTGREY 0xC618 /* 192, 192, 192 */
#define ILI9341_DARKGREY 0x7BEF /* 128, 128, 128 */
#define ILI9341_BLUE 0x001F /* 0, 0, 255 */
#define ILI9341_GREEN 0x07E0 /* 0, 255, 0 */
#define ILI9341_CYAN 0x07FF /* 0, 255, 255 */
#define ILI9341_RED 0xF800 /* 255, 0, 0 */
#define ILI9341_MAGENTA 0xF81F /* 255, 0, 255 */
#define ILI9341_YELLOW 0xFFE0 /* 255, 255, 0 */
#define ILI9341_WHITE 0xFFFF /* 255, 255, 255 */
#define ILI9341_ORANGE 0xFD20 /* 255, 165, 0 */
#define ILI9341_GREENYELLOW 0xAFE5 /* 173, 255, 47 */
#define ILI9341_PINK 0xF81F
#if defined (__AVR__) || defined(TEENSYDUINO) || defined(ESP8266) || defined (ESP32) || defined(__arm__)
#define USE_FAST_PINIO
#endif
class Adafruit_ILI9341 : public Adafruit_GFX {
protected:
public:
Adafruit_ILI9341(int8_t _CS, int8_t _DC, int8_t _MOSI, int8_t _SCLK, int8_t _RST = -1, int8_t _MISO = -1);
Adafruit_ILI9341(int8_t _CS, int8_t _DC, int8_t _RST = -1);
#ifndef ESP32
void begin(uint32_t freq = 0);
#else
void begin(uint32_t freq = 0, SPIClass &spi=SPI);
#endif
void setRotation(uint8_t r);
void invertDisplay(boolean i);
void scrollTo(uint16_t y);
// Required Non-Transaction
void drawPixel(int16_t x, int16_t y, uint16_t color);
// Transaction API
void startWrite(void);
void endWrite(void);
void writePixel(int16_t x, int16_t y, uint16_t color);
void writeFillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color);
void writeFastVLine(int16_t x, int16_t y, int16_t h, uint16_t color);
void writeFastHLine(int16_t x, int16_t y, int16_t w, uint16_t color);
// Transaction API not used by GFX
void setAddrWindow(uint16_t x, uint16_t y, uint16_t w, uint16_t h);
void writePixel(uint16_t color);
void writePixels(uint16_t * colors, uint32_t len);
void writeColor(uint16_t color, uint32_t len);
void pushColor(uint16_t color);
// Recommended Non-Transaction
void drawFastVLine(int16_t x, int16_t y, int16_t h, uint16_t color);
void drawFastHLine(int16_t x, int16_t y, int16_t w, uint16_t color);
void fillRect(int16_t x, int16_t y, int16_t w, int16_t h, uint16_t color);
//using Adafruit_GFX::drawRGBBitmap; // Check base class first
//void drawRGBBitmap(int16_t x, int16_t y,
// uint16_t *pcolors, int16_t w, int16_t h);
uint8_t readcommand8(uint8_t reg, uint8_t index = 0);
uint16_t color565(uint8_t r, uint8_t g, uint8_t b);
private:
#ifdef ESP32
SPIClass _spi;
#endif
uint32_t _freq;
#if defined (__AVR__) || defined(TEENSYDUINO)
int8_t _cs, _dc, _rst, _sclk, _mosi, _miso;
#ifdef USE_FAST_PINIO
volatile uint8_t *mosiport, *misoport, *clkport, *dcport, *csport;
uint8_t mosipinmask, misopinmask, clkpinmask, cspinmask, dcpinmask;
#endif
#elif defined (__arm__)
int32_t _cs, _dc, _rst, _sclk, _mosi, _miso;
#ifdef USE_FAST_PINIO
volatile RwReg *mosiport, *misoport, *clkport, *dcport, *csport;
uint32_t mosipinmask, misopinmask, clkpinmask, cspinmask, dcpinmask;
#endif
#elif defined (ESP8266) || defined (ESP32)
int8_t _cs, _dc, _rst, _sclk, _mosi, _miso;
#ifdef USE_FAST_PINIO
volatile uint32_t *mosiport, *misoport, *clkport, *dcport, *csport;
uint32_t mosipinmask, misopinmask, clkpinmask, cspinmask, dcpinmask;
#endif
#else
int8_t _cs, _dc, _rst, _sclk, _mosi, _miso;
#endif
void writeCommand(uint8_t cmd);
void spiWrite(uint8_t v);
uint8_t spiRead(void);
};
#endif

8
esp8266-weather-station-color.ino
View File

@@ -21,7 +21,7 @@ See more at http://blog.squix.ch
#include <Arduino.h>
#include <Adafruit_GFX.h> // Core graphics library
#include <Adafruit_ILI9341.h> // Hardware-specific library
#include "ILI9341.h" // Hardware-specific library
#include <SPI.h>
// Additional UI functions
#include "GfxUi.h"
@@ -84,6 +84,12 @@ long lastDownloadUpdate = millis();
void setup() {
Serial.begin(115200);
// The LED pin needs to set HIGH
// Use this pin to save energy
pinMode(LED_PIN, D8);
digitalWrite(LED_PIN, HIGH);
tft.begin();
tft.fillScreen(ILI9341_BLACK);
tft.setFont(&ArialRoundedMTBold_14);

5
settings.h
View File

@@ -22,8 +22,9 @@ See more at http://blog.squix.ch
const int UPDATE_INTERVAL_SECS = 10 * 60; // Update every 10 minutes
// Pins for the ILI9341
#define TFT_DC 2
#define TFT_CS 5
#define TFT_DC D2
#define TFT_CS D1
#define LED_PIN D8
// TimeClient settings
const float UTC_OFFSET = 2;