726 lines
16 KiB
C++
Executable File
726 lines
16 KiB
C++
Executable File
/***************************************************
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This is our library for the Adafruit ILI9341 Breakout and Shield
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----> http://www.adafruit.com/products/1651
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Check out the links above for our tutorials and wiring diagrams
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These displays use SPI to communicate, 4 or 5 pins are required to
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interface (RST is optional)
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Adafruit invests time and resources providing this open source code,
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please support Adafruit and open-source hardware by purchasing
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products from Adafruit!
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Written by Limor Fried/Ladyada for Adafruit Industries.
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MIT license, all text above must be included in any redistribution
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****************************************************/
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#include "Adafruit_ILI9341.h"
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#ifdef __AVR
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#include <avr/pgmspace.h>
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#elif defined(ESP8266)
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#include <pgmspace.h>
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#endif
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#include <limits.h>
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#include "pins_arduino.h"
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#include "wiring_private.h"
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#include <SPI.h>
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// If the SPI library has transaction support, these functions
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// establish settings and protect from interference from other
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// libraries. Otherwise, they simply do nothing.
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#ifdef SPI_HAS_TRANSACTION
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static inline void spi_begin(void) __attribute__((always_inline));
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static inline void spi_begin(void) {
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#if defined (ARDUINO_ARCH_ARC32)
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// max speed!
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SPI.beginTransaction(SPISettings(16000000, MSBFIRST, SPI_MODE0));
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#else
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// max speed!
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SPI.beginTransaction(SPISettings(24000000, MSBFIRST, SPI_MODE0));
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#endif
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}
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static inline void spi_end(void) __attribute__((always_inline));
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static inline void spi_end(void) {
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SPI.endTransaction();
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}
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#else
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#define spi_begin()
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#define spi_end()
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#endif
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// Constructor when using software SPI. All output pins are configurable.
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Adafruit_ILI9341::Adafruit_ILI9341(int8_t cs, int8_t dc, int8_t mosi,
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int8_t sclk, int8_t rst, int8_t miso) : Adafruit_GFX(ILI9341_TFTWIDTH, ILI9341_TFTHEIGHT) {
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_cs = cs;
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_dc = dc;
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_mosi = mosi;
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_miso = miso;
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_sclk = sclk;
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_rst = rst;
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hwSPI = false;
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}
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// Constructor when using hardware SPI. Faster, but must use SPI pins
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// specific to each board type (e.g. 11,13 for Uno, 51,52 for Mega, etc.)
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Adafruit_ILI9341::Adafruit_ILI9341(int8_t cs, int8_t dc, int8_t rst) : Adafruit_GFX(ILI9341_TFTWIDTH, ILI9341_TFTHEIGHT) {
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_cs = cs;
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_dc = dc;
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_rst = rst;
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hwSPI = true;
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_mosi = _sclk = 0;
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}
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void Adafruit_ILI9341::spiwrite(uint8_t c) {
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//Serial.print("0x"); Serial.print(c, HEX); Serial.print(", ");
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if (hwSPI) {
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#if defined (__AVR__)
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#ifndef SPI_HAS_TRANSACTION
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uint8_t backupSPCR = SPCR;
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SPCR = mySPCR;
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#endif
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SPDR = c;
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while(!(SPSR & _BV(SPIF)));
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#ifndef SPI_HAS_TRANSACTION
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SPCR = backupSPCR;
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#endif
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#else
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SPI.transfer(c);
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#endif
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} else {
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#if defined(ESP8266) || defined (ARDUINO_ARCH_ARC32)
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for(uint8_t bit = 0x80; bit; bit >>= 1) {
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if(c & bit) {
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digitalWrite(_mosi, HIGH);
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} else {
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digitalWrite(_mosi, LOW);
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}
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digitalWrite(_sclk, HIGH);
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digitalWrite(_sclk, LOW);
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}
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#else
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// Fast SPI bitbang swiped from LPD8806 library
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for(uint8_t bit = 0x80; bit; bit >>= 1) {
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if(c & bit) {
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//digitalWrite(_mosi, HIGH);
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*mosiport |= mosipinmask;
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} else {
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//digitalWrite(_mosi, LOW);
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*mosiport &= ~mosipinmask;
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}
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//digitalWrite(_sclk, HIGH);
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*clkport |= clkpinmask;
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//digitalWrite(_sclk, LOW);
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*clkport &= ~clkpinmask;
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}
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#endif
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}
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}
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void Adafruit_ILI9341::writecommand(uint8_t c) {
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#if defined (USE_FAST_PINIO)
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*dcport &= ~dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, LOW);
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digitalWrite(_sclk, LOW);
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digitalWrite(_cs, LOW);
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#endif
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spiwrite(c);
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#if defined (USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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}
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void Adafruit_ILI9341::writedata(uint8_t c) {
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#if defined (USE_FAST_PINIO)
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*dcport |= dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, HIGH);
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digitalWrite(_cs, LOW);
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#endif
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spiwrite(c);
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#if defined (USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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}
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// Rather than a bazillion writecommand() and writedata() calls, screen
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// initialization commands and arguments are organized in these tables
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// stored in PROGMEM. The table may look bulky, but that's mostly the
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// formatting -- storage-wise this is hundreds of bytes more compact
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// than the equivalent code. Companion function follows.
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#define DELAY 0x80
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// Companion code to the above tables. Reads and issues
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// a series of LCD commands stored in PROGMEM byte array.
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void Adafruit_ILI9341::commandList(uint8_t *addr) {
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uint8_t numCommands, numArgs;
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uint16_t ms;
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numCommands = pgm_read_byte(addr++); // Number of commands to follow
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while(numCommands--) { // For each command...
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writecommand(pgm_read_byte(addr++)); // Read, issue command
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numArgs = pgm_read_byte(addr++); // Number of args to follow
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ms = numArgs & DELAY; // If hibit set, delay follows args
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numArgs &= ~DELAY; // Mask out delay bit
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while(numArgs--) { // For each argument...
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writedata(pgm_read_byte(addr++)); // Read, issue argument
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}
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if(ms) {
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ms = pgm_read_byte(addr++); // Read post-command delay time (ms)
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if(ms == 255) ms = 500; // If 255, delay for 500 ms
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delay(ms);
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}
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}
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}
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void Adafruit_ILI9341::begin(void) {
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if (_rst > 0) {
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pinMode(_rst, OUTPUT);
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digitalWrite(_rst, LOW);
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}
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pinMode(_dc, OUTPUT);
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pinMode(_cs, OUTPUT);
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#if defined (USE_FAST_PINIO)
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csport = portOutputRegister(digitalPinToPort(_cs));
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cspinmask = digitalPinToBitMask(_cs);
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dcport = portOutputRegister(digitalPinToPort(_dc));
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dcpinmask = digitalPinToBitMask(_dc);
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#endif
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if(hwSPI) { // Using hardware SPI
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SPI.begin();
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#ifndef SPI_HAS_TRANSACTION
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SPI.setBitOrder(MSBFIRST);
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SPI.setDataMode(SPI_MODE0);
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#if defined (_AVR__)
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SPI.setClockDivider(SPI_CLOCK_DIV2); // 8 MHz (full! speed!)
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mySPCR = SPCR;
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#elif defined(TEENSYDUINO)
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SPI.setClockDivider(SPI_CLOCK_DIV2); // 8 MHz (full! speed!)
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#elif defined (__arm__)
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SPI.setClockDivider(11); // 8-ish MHz (full! speed!)
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#endif
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#endif
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} else {
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pinMode(_sclk, OUTPUT);
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pinMode(_mosi, OUTPUT);
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pinMode(_miso, INPUT);
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#if defined (USE_FAST_PINIO)
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clkport = portOutputRegister(digitalPinToPort(_sclk));
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clkpinmask = digitalPinToBitMask(_sclk);
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mosiport = portOutputRegister(digitalPinToPort(_mosi));
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mosipinmask = digitalPinToBitMask(_mosi);
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*clkport &= ~clkpinmask;
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*mosiport &= ~mosipinmask;
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#endif
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}
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// toggle RST low to reset
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if (_rst > 0) {
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digitalWrite(_rst, HIGH);
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delay(5);
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digitalWrite(_rst, LOW);
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delay(20);
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digitalWrite(_rst, HIGH);
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delay(150);
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}
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/*
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uint8_t x = readcommand8(ILI9341_RDMODE);
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Serial.print("\nDisplay Power Mode: 0x"); Serial.println(x, HEX);
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x = readcommand8(ILI9341_RDMADCTL);
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Serial.print("\nMADCTL Mode: 0x"); Serial.println(x, HEX);
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x = readcommand8(ILI9341_RDPIXFMT);
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Serial.print("\nPixel Format: 0x"); Serial.println(x, HEX);
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x = readcommand8(ILI9341_RDIMGFMT);
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Serial.print("\nImage Format: 0x"); Serial.println(x, HEX);
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x = readcommand8(ILI9341_RDSELFDIAG);
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Serial.print("\nSelf Diagnostic: 0x"); Serial.println(x, HEX);
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*/
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//if(cmdList) commandList(cmdList);
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if (hwSPI) spi_begin();
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writecommand(0xEF);
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writedata(0x03);
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writedata(0x80);
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writedata(0x02);
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writecommand(0xCF);
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writedata(0x00);
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writedata(0XC1);
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writedata(0X30);
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writecommand(0xED);
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writedata(0x64);
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writedata(0x03);
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writedata(0X12);
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writedata(0X81);
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writecommand(0xE8);
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writedata(0x85);
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writedata(0x00);
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writedata(0x78);
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writecommand(0xCB);
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writedata(0x39);
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writedata(0x2C);
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writedata(0x00);
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writedata(0x34);
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writedata(0x02);
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writecommand(0xF7);
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writedata(0x20);
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writecommand(0xEA);
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writedata(0x00);
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writedata(0x00);
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writecommand(ILI9341_PWCTR1); //Power control
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writedata(0x23); //VRH[5:0]
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writecommand(ILI9341_PWCTR2); //Power control
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writedata(0x10); //SAP[2:0];BT[3:0]
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writecommand(ILI9341_VMCTR1); //VCM control
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writedata(0x3e); //¶Ô±È¶Èµ÷½Ú
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writedata(0x28);
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writecommand(ILI9341_VMCTR2); //VCM control2
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writedata(0x86); //--
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writecommand(ILI9341_MADCTL); // Memory Access Control
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writedata(0x48);
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writecommand(ILI9341_PIXFMT);
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writedata(0x55);
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writecommand(ILI9341_FRMCTR1);
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writedata(0x00);
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writedata(0x18);
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writecommand(ILI9341_DFUNCTR); // Display Function Control
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writedata(0x08);
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writedata(0x82);
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writedata(0x27);
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writecommand(0xF2); // 3Gamma Function Disable
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writedata(0x00);
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writecommand(ILI9341_GAMMASET); //Gamma curve selected
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writedata(0x01);
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writecommand(ILI9341_GMCTRP1); //Set Gamma
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writedata(0x0F);
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writedata(0x31);
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writedata(0x2B);
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writedata(0x0C);
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writedata(0x0E);
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writedata(0x08);
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writedata(0x4E);
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writedata(0xF1);
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writedata(0x37);
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writedata(0x07);
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writedata(0x10);
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writedata(0x03);
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writedata(0x0E);
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writedata(0x09);
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writedata(0x00);
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writecommand(ILI9341_GMCTRN1); //Set Gamma
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writedata(0x00);
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writedata(0x0E);
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writedata(0x14);
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writedata(0x03);
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writedata(0x11);
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writedata(0x07);
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writedata(0x31);
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writedata(0xC1);
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writedata(0x48);
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writedata(0x08);
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writedata(0x0F);
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writedata(0x0C);
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writedata(0x31);
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writedata(0x36);
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writedata(0x0F);
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writecommand(ILI9341_SLPOUT); //Exit Sleep
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if (hwSPI) spi_end();
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delay(120);
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if (hwSPI) spi_begin();
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writecommand(ILI9341_DISPON); //Display on
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if (hwSPI) spi_end();
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}
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void Adafruit_ILI9341::setAddrWindow(uint16_t x0, uint16_t y0, uint16_t x1,
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uint16_t y1) {
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writecommand(ILI9341_CASET); // Column addr set
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writedata(x0 >> 8);
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writedata(x0 & 0xFF); // XSTART
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writedata(x1 >> 8);
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writedata(x1 & 0xFF); // XEND
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writecommand(ILI9341_PASET); // Row addr set
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writedata(y0>>8);
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writedata(y0); // YSTART
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writedata(y1>>8);
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writedata(y1); // YEND
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writecommand(ILI9341_RAMWR); // write to RAM
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}
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void Adafruit_ILI9341::pushColor(uint16_t color) {
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if (hwSPI) spi_begin();
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#if defined(USE_FAST_PINIO)
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*dcport |= dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, HIGH);
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digitalWrite(_cs, LOW);
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#endif
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spiwrite(color >> 8);
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spiwrite(color);
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#if defined(USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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if (hwSPI) spi_end();
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}
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void Adafruit_ILI9341::drawPixel(int16_t x, int16_t y, uint16_t color) {
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if((x < 0) ||(x >= _width) || (y < 0) || (y >= _height)) return;
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if (hwSPI) spi_begin();
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setAddrWindow(x,y,x+1,y+1);
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#if defined(USE_FAST_PINIO)
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*dcport |= dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, HIGH);
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digitalWrite(_cs, LOW);
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#endif
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spiwrite(color >> 8);
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spiwrite(color);
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#if defined(USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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if (hwSPI) spi_end();
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}
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void Adafruit_ILI9341::drawFastVLine(int16_t x, int16_t y, int16_t h,
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uint16_t color) {
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// Rudimentary clipping
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if((x >= _width) || (y >= _height)) return;
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if((y+h-1) >= _height)
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h = _height-y;
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if (hwSPI) spi_begin();
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setAddrWindow(x, y, x, y+h-1);
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uint8_t hi = color >> 8, lo = color;
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#if defined(USE_FAST_PINIO)
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*dcport |= dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, HIGH);
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digitalWrite(_cs, LOW);
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#endif
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while (h--) {
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spiwrite(hi);
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spiwrite(lo);
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}
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#if defined(USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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if (hwSPI) spi_end();
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}
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void Adafruit_ILI9341::drawFastHLine(int16_t x, int16_t y, int16_t w,
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uint16_t color) {
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// Rudimentary clipping
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if((x >= _width) || (y >= _height)) return;
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if((x+w-1) >= _width) w = _width-x;
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if (hwSPI) spi_begin();
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setAddrWindow(x, y, x+w-1, y);
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uint8_t hi = color >> 8, lo = color;
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#if defined(USE_FAST_PINIO)
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*dcport |= dcpinmask;
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*csport &= ~cspinmask;
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#else
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digitalWrite(_dc, HIGH);
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digitalWrite(_cs, LOW);
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#endif
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while (w--) {
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spiwrite(hi);
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spiwrite(lo);
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}
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#if defined(USE_FAST_PINIO)
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*csport |= cspinmask;
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#else
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digitalWrite(_cs, HIGH);
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#endif
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if (hwSPI) spi_end();
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}
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void Adafruit_ILI9341::fillScreen(uint16_t color) {
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fillRect(0, 0, _width, _height, color);
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}
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// fill a rectangle
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void Adafruit_ILI9341::fillRect(int16_t x, int16_t y, int16_t w, int16_t h,
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uint16_t color) {
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// rudimentary clipping (drawChar w/big text requires this)
|
|
if((x >= _width) || (y >= _height)) return;
|
|
if((x + w - 1) >= _width) w = _width - x;
|
|
if((y + h - 1) >= _height) h = _height - y;
|
|
|
|
if (hwSPI) spi_begin();
|
|
setAddrWindow(x, y, x+w-1, y+h-1);
|
|
|
|
uint8_t hi = color >> 8, lo = color;
|
|
|
|
#if defined(USE_FAST_PINIO)
|
|
*dcport |= dcpinmask;
|
|
*csport &= ~cspinmask;
|
|
#else
|
|
digitalWrite(_dc, HIGH);
|
|
digitalWrite(_cs, LOW);
|
|
#endif
|
|
|
|
for(y=h; y>0; y--) {
|
|
for(x=w; x>0; x--) {
|
|
spiwrite(hi);
|
|
spiwrite(lo);
|
|
}
|
|
}
|
|
#if defined(USE_FAST_PINIO)
|
|
*csport |= cspinmask;
|
|
#else
|
|
digitalWrite(_cs, HIGH);
|
|
#endif
|
|
|
|
if (hwSPI) spi_end();
|
|
}
|
|
|
|
|
|
// 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 >> 3);
|
|
}
|
|
|
|
|
|
#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
|
|
|
|
void Adafruit_ILI9341::setRotation(uint8_t m) {
|
|
|
|
if (hwSPI) spi_begin();
|
|
writecommand(ILI9341_MADCTL);
|
|
rotation = m % 4; // can't be higher than 3
|
|
switch (rotation) {
|
|
case 0:
|
|
writedata(MADCTL_MX | MADCTL_BGR);
|
|
_width = ILI9341_TFTWIDTH;
|
|
_height = ILI9341_TFTHEIGHT;
|
|
break;
|
|
case 1:
|
|
writedata(MADCTL_MV | MADCTL_BGR);
|
|
_width = ILI9341_TFTHEIGHT;
|
|
_height = ILI9341_TFTWIDTH;
|
|
break;
|
|
case 2:
|
|
writedata(MADCTL_MY | MADCTL_BGR);
|
|
_width = ILI9341_TFTWIDTH;
|
|
_height = ILI9341_TFTHEIGHT;
|
|
break;
|
|
case 3:
|
|
writedata(MADCTL_MX | MADCTL_MY | MADCTL_MV | MADCTL_BGR);
|
|
_width = ILI9341_TFTHEIGHT;
|
|
_height = ILI9341_TFTWIDTH;
|
|
break;
|
|
}
|
|
if (hwSPI) spi_end();
|
|
}
|
|
|
|
|
|
void Adafruit_ILI9341::invertDisplay(boolean i) {
|
|
if (hwSPI) spi_begin();
|
|
writecommand(i ? ILI9341_INVON : ILI9341_INVOFF);
|
|
if (hwSPI) spi_end();
|
|
}
|
|
|
|
|
|
////////// stuff not actively being used, but kept for posterity
|
|
|
|
|
|
uint8_t Adafruit_ILI9341::spiread(void) {
|
|
uint8_t r = 0;
|
|
|
|
if (hwSPI) {
|
|
#if defined (__AVR__)
|
|
#ifndef SPI_HAS_TRANSACTION
|
|
uint8_t backupSPCR = SPCR;
|
|
SPCR = mySPCR;
|
|
#endif
|
|
SPDR = 0x00;
|
|
while(!(SPSR & _BV(SPIF)));
|
|
r = SPDR;
|
|
|
|
#ifndef SPI_HAS_TRANSACTION
|
|
SPCR = backupSPCR;
|
|
#endif
|
|
#else
|
|
r = SPI.transfer(0x00);
|
|
#endif
|
|
|
|
} else {
|
|
|
|
for (uint8_t i=0; i<8; i++) {
|
|
digitalWrite(_sclk, LOW);
|
|
digitalWrite(_sclk, HIGH);
|
|
r <<= 1;
|
|
if (digitalRead(_miso))
|
|
r |= 0x1;
|
|
}
|
|
}
|
|
//Serial.print("read: 0x"); Serial.print(r, HEX);
|
|
|
|
return r;
|
|
}
|
|
|
|
uint8_t Adafruit_ILI9341::readdata(void) {
|
|
digitalWrite(_dc, HIGH);
|
|
digitalWrite(_cs, LOW);
|
|
uint8_t r = spiread();
|
|
digitalWrite(_cs, HIGH);
|
|
|
|
return r;
|
|
}
|
|
|
|
|
|
uint8_t Adafruit_ILI9341::readcommand8(uint8_t c, uint8_t index) {
|
|
if (hwSPI) spi_begin();
|
|
digitalWrite(_dc, LOW); // command
|
|
digitalWrite(_cs, LOW);
|
|
spiwrite(0xD9); // woo sekret command?
|
|
digitalWrite(_dc, HIGH); // data
|
|
spiwrite(0x10 + index);
|
|
digitalWrite(_cs, HIGH);
|
|
|
|
digitalWrite(_dc, LOW);
|
|
digitalWrite(_sclk, LOW);
|
|
digitalWrite(_cs, LOW);
|
|
spiwrite(c);
|
|
|
|
digitalWrite(_dc, HIGH);
|
|
uint8_t r = spiread();
|
|
digitalWrite(_cs, HIGH);
|
|
if (hwSPI) spi_end();
|
|
return r;
|
|
}
|
|
|
|
|
|
|
|
/*
|
|
|
|
uint16_t Adafruit_ILI9341::readcommand16(uint8_t c) {
|
|
digitalWrite(_dc, LOW);
|
|
if (_cs)
|
|
digitalWrite(_cs, LOW);
|
|
|
|
spiwrite(c);
|
|
pinMode(_sid, INPUT); // input!
|
|
uint16_t r = spiread();
|
|
r <<= 8;
|
|
r |= spiread();
|
|
if (_cs)
|
|
digitalWrite(_cs, HIGH);
|
|
|
|
pinMode(_sid, OUTPUT); // back to output
|
|
return r;
|
|
}
|
|
|
|
uint32_t Adafruit_ILI9341::readcommand32(uint8_t c) {
|
|
digitalWrite(_dc, LOW);
|
|
if (_cs)
|
|
digitalWrite(_cs, LOW);
|
|
spiwrite(c);
|
|
pinMode(_sid, INPUT); // input!
|
|
|
|
dummyclock();
|
|
dummyclock();
|
|
|
|
uint32_t r = spiread();
|
|
r <<= 8;
|
|
r |= spiread();
|
|
r <<= 8;
|
|
r |= spiread();
|
|
r <<= 8;
|
|
r |= spiread();
|
|
if (_cs)
|
|
digitalWrite(_cs, HIGH);
|
|
|
|
pinMode(_sid, OUTPUT); // back to output
|
|
return r;
|
|
}
|
|
|
|
*/
|