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TFTLCD-Library/examples/rotationtest/rotationtest.ino
Jan Hoffmann 2006f6a454 pde -> ino
2019-08-07 17:00:39 +02:00

223 lines
6.2 KiB
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// IMPORTANT: Adafruit_TFTLCD LIBRARY MUST BE SPECIFICALLY
// CONFIGURED FOR EITHER THE TFT SHIELD OR THE BREAKOUT BOARD.
// SEE RELEVANT COMMENTS IN Adafruit_TFTLCD.h FOR SETUP.
#include <Adafruit_GFX.h> // Core graphics library
#include <Adafruit_TFTLCD.h> // Hardware-specific library
// The control pins for the LCD can be assigned to any digital or
// analog pins...but we'll use the analog pins as this allows us to
// double up the pins with the touch screen (see the TFT paint example).
#define LCD_CS A3 // Chip Select goes to Analog 3
#define LCD_CD A2 // Command/Data goes to Analog 2
#define LCD_WR A1 // LCD Write goes to Analog 1
#define LCD_RD A0 // LCD Read goes to Analog 0
#define LCD_RESET A4 // Can alternately just connect to Arduino's reset pin
// When using the BREAKOUT BOARD only, use these 8 data lines to the LCD:
// For the Arduino Uno, Duemilanove, Diecimila, etc.:
// D0 connects to digital pin 8 (Notice these are
// D1 connects to digital pin 9 NOT in order!)
// D2 connects to digital pin 2
// D3 connects to digital pin 3
// D4 connects to digital pin 4
// D5 connects to digital pin 5
// D6 connects to digital pin 6
// D7 connects to digital pin 7
// For the Arduino Mega, use digital pins 22 through 29
// (on the 2-row header at the end of the board).
// Assign human-readable names to some common 16-bit color values:
#define BLACK 0x0000
#define BLUE 0x001F
#define RED 0xF800
#define GREEN 0x07E0
#define CYAN 0x07FF
#define MAGENTA 0xF81F
#define YELLOW 0xFFE0
#define WHITE 0xFFFF
Adafruit_TFTLCD tft(LCD_CS, LCD_CD, LCD_WR, LCD_RD, LCD_RESET);
// If using the shield, all control and data lines are fixed, and
// a simpler declaration can optionally be used:
// Adafruit_TFTLCD tft;
void setup(void) {
Serial.begin(9600);
Serial.println(F("TFT LCD test"));
#ifdef USE_ADAFRUIT_SHIELD_PINOUT
Serial.println(F("Using Adafruit 2.8\" TFT Arduino Shield Pinout"));
#else
Serial.println(F("Using Adafruit 2.8\" TFT Breakout Board Pinout"));
#endif
tft.reset();
uint16_t identifier = tft.readID();
if(identifier == 0x9325) {
Serial.println(F("Found ILI9325 LCD driver"));
} else if(identifier == 0x9328) {
Serial.println(F("Found ILI9328 LCD driver"));
} else if(identifier == 0x7575) {
Serial.println(F("Found HX8347G LCD driver"));
} else if(identifier == 0x9341) {
Serial.println(F("Found ILI9341 LCD driver"));
} else if(identifier == 0x8357) {
Serial.println(F("Found HX8357D LCD driver"));
} else {
Serial.print(F("Unknown LCD driver chip: "));
Serial.println(identifier, HEX);
Serial.println(F("If using the Adafruit 2.8\" TFT Arduino shield, the line:"));
Serial.println(F(" #define USE_ADAFRUIT_SHIELD_PINOUT"));
Serial.println(F("should appear in the library header (Adafruit_TFT.h)."));
Serial.println(F("If using the breakout board, it should NOT be #defined!"));
Serial.println(F("Also if using the breakout, double-check that all wiring"));
Serial.println(F("matches the tutorial."));
return;
}
tft.begin(identifier);
tft.fillScreen(BLACK);
Serial.println(F("This is a test of the rotation capabilities of the TFT library!"));
Serial.println(F("Press <SEND> (or type a character) to advance"));
}
void loop(void) {
rotatePixel();
rotateLine();
rotateFastline();
rotateDrawrect();
rotateFillrect();
rotateDrawcircle();
rotateFillcircle();
rotateText();
}
void rotateText() {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.setCursor(0, 30);
tft.setTextColor(RED);
tft.setTextSize(1);
tft.println("Hello World!");
tft.setTextColor(YELLOW);
tft.setTextSize(2);
tft.println("Hello World!");
tft.setTextColor(GREEN);
tft.setTextSize(3);
tft.println("Hello World!");
tft.setTextColor(BLUE);
tft.setTextSize(4);
tft.print(1234.567);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateFillcircle(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.fillCircle(10, 30, 10, YELLOW);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateDrawcircle(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.drawCircle(10, 30, 10, YELLOW);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateFillrect(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.fillRect(10, 20, 10, 20, GREEN);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateDrawrect(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.drawRect(10, 20, 10, 20, GREEN);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateFastline(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.drawFastHLine(0, 20, tft.width(), RED);
tft.drawFastVLine(20, 0, tft.height(), BLUE);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotateLine(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.drawLine(tft.width()/2, tft.height()/2, 0, 0, RED);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
void rotatePixel(void) {
for (uint8_t i=0; i<4; i++) {
tft.fillScreen(BLACK);
Serial.println(tft.getRotation(), DEC);
tft.drawPixel(10,20, RED);
while (!Serial.available());
Serial.read(); Serial.read(); Serial.read();
tft.setRotation(tft.getRotation()+1);
}
}
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