Может кто сталкивался: USE_ADAFRUIT_SHIELD_PINOUT
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Ср, 30/03/2016 - 10:59
Добрый день!
Есть проект (не мой), который начинается с таких строк:
#include <Adafruit_GFX.h> // Core graphics library #include <Adafruit_TFTLCD.h> // Hardware-specific library #include <TouchScreen.h> #include <EEPROM.h> #if not defined USE_ADAFRUIT_SHIELD_PINOUT #error "For use with the shield, make sure to #define USE_ADAFRUIT_SHIELD_PINOUT in the TFTLCD.h library file" #endif
Дело в том, что когда пытаешся компилировать, компиляция прерывается по подсвеченному "#if not defined..."
1. Если закомментить эти три строки, то компиляция проходит, но программа кроме отображения на экране, больше нbчего не делает - не реагирует на тач. Причем не реагирует только программа. Сам ардуино весело моргает 13-ым пином при обращении к тачу.
2. Если таки залезть в файл "Adafruit_TFTLCD.h", как там и советуют, и раскомментить строку:
//#define USE_ADAFRUIT_SHIELD_PINOUT 1
- всё компилируется, а вот работает или нет - проверить уже невозможно: экран не работает. Горит белым и всё.
Я, конечно, дилетант и этот вопрос больше к специалистам чем к практикам, но буду рад любой подсказке!
---------------------- дополнительные сведения ----------------------------
У меня дисплей 2.4" UTFT_LCD c определяемым с помощью "LCD_ID_Reader" контроллером как:
Read Registers on MCUFRIEND UNO shield
controllers either read as single 16-bit
e.g. the ID is at readReg(0)
or as a sequence of 8-bit values
in special locations (first is dummy)
reg(0x0000) 00 00 ID: ILI9320, ILI9325, ILI9335, ...
reg(0x0004) 00 38 80 00 Manufacturer ID
reg(0x0009) 00 00 61 00 00 Status Register
reg(0x0061) 00 00 RDID1 HX8347-G
reg(0x0062) 00 00 RDID2 HX8347-G
reg(0x0063) 00 00 RDID3 HX8347-G
reg(0x0064) 00 00 RDID1 HX8347-A
reg(0x0065) 00 00 RDID2 HX8347-A
reg(0x0066) 00 00 RDID3 HX8347-A
reg(0x0067) 00 00 RDID Himax HX8347-A
reg(0x00B0) 00 00 RGB Interface Signal Control
reg(0x00B4) 00 02 Inversion Control
reg(0x00B6) 00 24 02 00 00 Display Control
reg(0x00B7) 00 00 Entry Mode Set
reg(0x00BF) 00 00 00 00 00 00 ILI9481, HX8357-B
reg(0x00C0) 0A 0A 0A 0A 0A 0A Panel Control
reg(0x00CC) 00 00 Panel Control
reg(0x00D0) 00 00 00 Power Control
reg(0x00D2) 00 00 00 00 00 NVM Read
reg(0x00D3) 00 01 16 02 ILI9341, ILI9488
reg(0x00DA) 38 38 RDID1
reg(0x00DB) 80 80 RDID2
reg(0x00DC) 00 00 RDID3
reg(0x00EF) 00 00 00 00 00 00 ILI9327
reg(0x00F2) 00 24 04 04 1E 00 00 00 00 00 00 00 Adjust Control 2
reg(0x00F6) 00 00 00 00 Interface Control
Реагирует только на "uint16_t identifier = 0x9341;"
Полный текст скетча:
//***THIS IS THE NEW VERSION THAT WORKS WITH THE NEW LIBRARIES!!!***
// TFTLCD.h and TouchScreen.h are from adafruit.com where you can also purchase a really nice 2.8" TFT with touchscreen :)
// 2012 Jeremy Saglimbeni - thecustomgeek.com
#include <Adafruit_GFX.h> // Core graphics library
#include <Adafruit_TFTLCD.h> // Hardware-specific library
#include <TouchScreen.h>
#include <EEPROM.h>
#if not defined USE_ADAFRUIT_SHIELD_PINOUT
#error "For use with the shield, make sure to #define USE_ADAFRUIT_SHIELD_PINOUT in the TFTLCD.h library file"
#endif
// These are the pins for the shield!
#define YP A1 // must be an analog pin, use "An" notation!
#define XM A2 // must be an analog pin, use "An" notation!
#define YM 7 // can be a digital pin
#define XP 6 // can be a digital pin
#define TS_MINX 150
#define TS_MINY 120
#define TS_MAXX 920
#define TS_MAXY 940
// For better pressure precision, we need to know the resistance
// between X+ and X- Use any multimeter to read it
// For the one we're using, its 300 ohms across the X plate
TouchScreen ts = TouchScreen(XP, YP, XM, YM, 300);
#define LCD_CS A3
#define LCD_CD A2
#define LCD_WR A1
#define LCD_RD A0
// Color definitions - in 5:6:5
#define BLACK 0x0000
#define BLUE 0x001F
#define RED 0xF800
#define GREEN 0x07E0
#define CYAN 0x07FF
#define MAGENTA 0xF81F
#define YELLOW 0xFFE0
#define WHITE 0xFFFF
#define TEST 0x1BF5
#define JJCOLOR 0x1CB6
#define JJORNG 0xFD03
Adafruit_TFTLCD tft(LCD_CS, LCD_CD, LCD_WR, LCD_RD, A4);
int i = 0;
int page = 0;
int blv;
int sleep = 0;
int pulsev = 0;
int redflag = 0;
int greenflag = 0;
int redled = 2;
int greenled = A4;
int backlight = 3;
int battfill;
unsigned long sleeptime;
unsigned long battcheck = 10000; // the amount of time between voltage check and battery icon refresh
unsigned long prevbatt;
int battv;
int battold;
int battpercent;
int barv;
int prevpage;
int sleepnever;
int esleep;
int backlightbox;
int antpos = 278;
unsigned long awakeend;
unsigned long currenttime;
unsigned long ssitime;
char voltage[10];
char battpercenttxt [10];
long readVcc() {
long result;
// Read 1.1V reference against AVcc
ADMUX = _BV(REFS0) | _BV(MUX3) | _BV(MUX2) | _BV(MUX1);
delay(2); // Wait for Vref to settle
ADCSRA |= _BV(ADSC); // Convert
while (bit_is_set(ADCSRA,ADSC));
result = ADCL;
result |= ADCH<<8;
result = 1126400L / result; // Back-calculate AVcc in mV
return result;
}
void setup(void) {
pinMode(3, OUTPUT);
pinMode(redled, OUTPUT);
pinMode(greenled, OUTPUT);
esleep = EEPROM.read(1);
blv = EEPROM.read(2);
//esleep = 3; // uncomment this and run once if you have not used the EEPROM before on your Arduino! Comment and reload after that.
//blv = 255; // uncomment this and run once if you have not used the EEPROM before on your Arduino! Comment and reload after that.c
if (esleep == 1) {
sleeptime = 10000;
}
if (esleep == 2) {
sleeptime = 20000;
}
if (esleep == 3) {
sleeptime = 30000;
}
if (esleep == 4) {
sleeptime = 60000;
}
if (esleep == 5) {
sleeptime = 120000;
}
if (esleep == 6) {
sleeptime = 300000;
}
if (esleep == 7) {
sleeptime = 600000;
}
if (esleep == 8) {
sleeptime = 1200000;
}
if (esleep == 9) {
sleeptime = 1800000;
}
if (esleep == 10) {
sleeptime = 3600000;
}
if (esleep == 11) {
sleeptime = 14400000;
}
if (esleep == 12) {
sleepnever = 1;
}
awakeend = sleeptime + 1000; // set the current sleep time based on what the saved settings in EEPROM were
pinMode(backlight, OUTPUT);
Serial.begin(9600);
Serial.println("JOS");
Serial.println("Jeremy Saglimbeni - 2011");
tft.reset();
uint16_t identifier = 0x9341;
/*
if (identifier == 0x9325) {
Serial.println("Found ILI9325");
} else if (identifier == 0x9328) {
Serial.println("Found ILI9328");
} else if (identifier == 0x7575) {
Serial.println("Found HX8347G");
} else {
Serial.print("Unknown driver chip ");
Serial.println(identifier, HEX);
while (1);
}
*/
tft.begin(identifier);
tft.fillScreen(BLACK);
tft.setRotation(tft.getRotation()-1);
tft.fillRect(71, 70, 50, 100, JJCOLOR);
tft.fillRect(134, 70, 50, 100, JJCOLOR);
tft.fillRect(197, 70, 50, 100, JJCOLOR);
tft.drawRect(46, 45, 228, 150, WHITE);
for(i = 0 ; i <= blv; i+=1) {
analogWrite(backlight, i);
delay(2);
}
delay(250);
tft.setCursor(85, 100);
tft.setTextSize(5);
tft.setTextColor(WHITE);
tft.print("J");
delay(250);
tft.setCursor(147, 100);
tft.print("O");
delay(250);
tft.setCursor(210, 100);
tft.print("S");
delay(500);
tft.setCursor(84, 210);
tft.setTextSize(1);
tft.print("Jeremy Saglimbeni - 2012");
tft.setCursor(108, 230);
tft.print("thecustomgeek.com");
delay(500);
tft.fillScreen(BLACK);
tft.fillRect(0, 0, 320, 10, JJCOLOR); // status bar
drawhomeicon(); // draw the home icon
tft.setCursor(1, 1);
tft.print("Your status bar message here. JOS 1.5 Beta");
tft.drawRect(297, 1, 20, 8, WHITE); //battery body
tft.fillRect(317, 3, 2, 4, WHITE); // battery tip
tft.fillRect(298, 2, 18, 6, BLACK); // clear the center of the battery
drawbatt();
ant(); // draw the bas "antenna" line without the "signal waves"
signal(); // draw the "signal waves" around the "antenna"
homescr(); // draw the homescreen
tft.drawRect(0, 200, 245, 40, WHITE); // message box
pinMode(13, OUTPUT);
}
#define MINPRESSURE 10
#define MAXPRESSURE 1000
void loop() {
digitalWrite(13, HIGH);
TSPoint p = ts.getPoint();
digitalWrite(13, LOW);
// if you're sharing pins, you'll need to fix the directions of the touchscreen pins!
// pinMode(XP, OUTPUT);
pinMode(XM, OUTPUT);
pinMode(YP, OUTPUT);
// pinMode(YM, OUTPUT);
currenttime = millis();
unsigned long currentawake = millis();
if((currentawake > awakeend) && (sleepnever == 0)) {
if (sleep == 0) {
for(i = blv ; i >= 0; i-=1) {
analogWrite(backlight, i);
delay(4);
}
sleep = 1;
}
}
// we have some minimum pressure we consider 'valid'
// pressure of 0 means no pressing!
if (p.z > MINPRESSURE && p.z < MAXPRESSURE) {
awakeend = currenttime + sleeptime; //set the sleep time when screen is pressed
if (sleep == 1) { // if asleep, then fade the backlight up
for(i = 0 ; i <= blv; i+=1) {
analogWrite(backlight, i);
delay(1);
}
sleep = 0; // change the sleep mode to "awake"
Serial.print ("1");
return;
}
Serial.print("X = ");
Serial.print(p.x);
Serial.print("\tY = ");
Serial.print(p.y);
Serial.print("\tPressure = ");
Serial.println(p.z);
// turn from 0->1023 to tft.width
p.x = map(p.x, TS_MINX, TS_MAXX, 240, 0);
p.y = map(p.y, TS_MINY, TS_MAXY, 320, 0);
Serial.print("p.y:"); // this code will help you get the y and x numbers for the touchscreen
Serial.print(p.y);
Serial.print(" p.x:");
Serial.println(p.x);
// area 1
if (p.y > 0 && p.y < 146 && p.x > 178 && p.x < 226) { // if this area is pressed
if (page == 5) { // and if page 5 is drawn on the screen
m5b1action(); // do whatever this button is
tft.setTextColor(RED);
tft.setTextSize(2);
tft.setCursor(12, 213);
tft.print("Menu 5 B1"); // display the command in the "message box"
yled(550); // flash the LED yellow for a bit - change the 550 value to change LED time on
clearmessage(); // after the LED goes out, clear the message
}
if (page == 4) {
m4b1action();
tft.setCursor(12, 213);
tft.print("Menu 4 B1");
yled(550);
clearmessage();
}
if (page == 3) {
m3b1action();
tft.setCursor(12, 213);
tft.print("Menu 3 B1");
yled(550);
clearmessage();
}
if (page == 2) {
m2b1action();
tft.setCursor(12, 213);
tft.print("Menu 2 B1");
yled(550);
clearmessage();
}
if (page == 1) {
m1b1action();
tft.setCursor(12, 213);
tft.print("Menu 1 B1");
yled(550);
clearmessage();
}
if (page == 0) { // if you are on the "home" page (0)
page = 1; // then you just went to the first page
redraw(); // redraw the screen with the page value 1, giving you the page 1 menu
}
}
// area 2
if (p.y > 168 && p.y < 320 && p.x > 180 && p.x < 226) {
if (page == 5) {
m5b2action();
tft.setCursor(12, 213);
tft.print("Menu 5 B2");
yled(550);
clearmessage();
}
if (page == 4) {
m4b2action();
tft.setCursor(12, 213);
tft.print("Menu 4 B2");
yled(550);
clearmessage();
}
if (page == 3) {
m3b2action();
tft.setCursor(12, 213);
tft.print("Menu 3 B2");
yled(550);
clearmessage();
}
if (page == 2) {
m2b2action();
tft.setCursor(12, 213);
tft.print("Menu 2 B2");
yled(550);
clearmessage();
}
if (page == 1) {
m1b2action();
tft.setCursor(12, 213);
tft.print("Menu 1 B2");
yled(550);
clearmessage();
}
if (page == 0) {
page = 2;
redraw();
}
}
// area 3
if (p.y > 0 && p.y < 146 && p.x > 120 && p.x < 168) {
if (page == 5) {
m5b3action();
tft.setCursor(12, 213);
tft.print("Menu 5 B3");
yled(550);
clearmessage();
}
if (page == 4) {
m4b3action();
tft.setCursor(12, 213);
tft.print("Menu 4 B3");
yled(550);
clearmessage();
}
if (page == 3) {
m3b3action();
tft.setCursor(12, 213);
tft.print("Menu 3 B3");
yled(550);
clearmessage();
}
if (page == 2) {
m2b3action();
tft.setCursor(12, 213);
tft.print("Menu 2 B3");
yled(550);
clearmessage();
}
if (page == 1) {
m1b3action();
tft.setCursor(12, 213);
tft.print("Menu 1 B3");
yled(550);
clearmessage();
}
if (page == 0) {
page = 3;
redraw();
}
}
// area 4
if (p.y > 167 && p.y < 320 && p.x > 120 && p.x < 168) {
if (page == 5) {
m5b4action();
tft.setCursor(12, 213);
tft.print("Menu 5 B4");
yled(550);
clearmessage();
}
if (page == 4) {
m4b4action();
tft.setCursor(12, 213);
tft.print("Menu 4 B4");
yled(550);
clearmessage();
}
if (page == 3) {
m3b4action();
tft.setCursor(12, 213);
tft.print("Menu 3 B4");
yled(550);
clearmessage();
}
if (page == 2) {
m2b4action();
tft.setCursor(12, 213);
tft.print("Menu 2 B4");
yled(550);
clearmessage();
}
if (page == 1) {
m1b4action();
tft.setCursor(12, 213);
tft.print("Menu 1 B4");
yled(550);
clearmessage();
}
if (page == 0) {
page = 4;
redraw();
}
}
// area 5
if (p.y > 0 && p.y < 146 && p.x > 54 && p.x < 104) {
if (page == 5) {
m5b5action();
tft.setCursor(12, 213);
tft.print("Menu 5 B5");
yled(550);
clearmessage();
}
if (page == 4) {
m4b5action();
tft.setCursor(12, 213);
tft.print("Menu 4 B5");
yled(550);
clearmessage();
}
if (page == 3) {
m3b5action();
tft.setCursor(12, 213);
tft.print("Menu 3 B5");
yled(550);
clearmessage();
}
if (page == 2) {
m2b5action();
tft.setCursor(12, 213);
tft.print("Menu 2 B5");
yled(550);
clearmessage();
}
if (page == 1) {
m1b5action();
tft.setCursor(12, 213);
tft.print("Menu 1 B5");
yled(550);
clearmessage();
}
if (page == 0) {
page = 5;
redraw();
}
}
// area 6
if (p.y > 168 && p.y < 320 && p.x > 54 && p.x < 104) {
if (page == 5) {
m5b6action();
tft.setCursor(12, 213);
tft.print("Menu 5 B6");
yled(550);
clearmessage();
}
if (page == 4) {
m4b6action();
tft.setCursor(12, 213);
tft.print("Menu 4 B6");
yled(550);
clearmessage();
}
if (page == 3) {
m3b6action();
tft.setCursor(12, 213);
tft.print("Menu 3 B6");
yled(550);
clearmessage();
}
if (page == 2) {
m2b6action();
tft.setCursor(12, 213);
tft.print("Menu 2 B6");
yled(550);
clearmessage();
}
if (page == 1) {
m1b6action();
tft.setCursor(12, 213);
tft.print("Menu 1 B6");
yled(550);
clearmessage();
}
if (page == 0) {
page = 6;
redraw();
}
}
// home
if (p.y > 280 && p.y < 340 && p.x > 0 && p.x < 48) { // if the home icon is pressed
if (page == 6) { // if you are leaving the settings page
clearmessage(); // clear the battery voltage out of the message box
tft.setTextSize(2);
tft.setTextColor(YELLOW);
tft.setCursor(12, 213);
tft.print("Settings Saved"); // display settings saved in message box
EEPROM.write(1, esleep); // write the sleep value to EEPROM, so it will not lose settings without power
EEPROM.write(2, blv); // write the backlight value to EEPROM, so it will not lose settings without power
clearsettings(); // erase all the drawings on the settings page
}
if (page == 0) { // if you are already on the home page
drawhomeiconred(); // draw the home icon red
delay(250); // wait a bit
drawhomeicon(); // draw the home icon back to white
return; // if you were on the home page, stop.
}
else { // if you are not on the settings, home, or keyboard page
page = prevpage; // a value to keep track of what WAS on the screen to redraw/erase only what needs to be
page = 0; // make the current page home
redraw(); // redraw the page
}
}
// message area
if (p.y > 0 && p.y < 246 && p.x > 4 && p.x < 44) {
clearmessage(); // erase the message
}
// backlight buttons
if (p.y > 0 && p.y < 56 && p.x > 176 && p.x < 226) {
if (page == 6) {
blightdown();
}
}
if (p.y > 260 && p.y < 320 && p.x > 180 && p.x < 230) {
if (page == 6) {
blightup();
}
}
// sleep buttons
if (p.y > 0 && p.y < 56 && p.x > 116 && p.x < 166) {
if (page == 6) {
sleepdec();
}
}
if (p.y > 260 && p.y < 320 && p.x > 116 && p.x < 166) {
if (page == 6) {
sleepinc();
}
}
/*
// optional buttons
if (p.y > 3 && p.y < 66 && p.x > 72 && p.x < 126) {
if (page == 6) {
option3down();
}
}
if (p.y > 269 && p.y < 324 && p.x > 72 && p.x < 126) {
if (page == 6) {
option3up();
}
}
*/
}
if(currenttime - prevbatt > battcheck) {
drawbatt();
prevbatt = currenttime;
}
}
void yled(int xled) { // "flashes" the "yellow" LED
for(i = xled ; i >= 0; i-=1) {
digitalWrite(greenled, LOW);
digitalWrite(redled, HIGH);
delay(1);
digitalWrite(greenled, HIGH);
digitalWrite(redled, LOW);
delay(1);
}
digitalWrite(greenled, LOW);
if (greenflag == 1) {
digitalWrite(redled, LOW);
digitalWrite(greenled, HIGH);
}
if (redflag == 1) {
digitalWrite(greenled, LOW);
digitalWrite(redled, HIGH);
}
}
void redraw() { // redraw the page
if ((prevpage != 6) || (page !=7)) {
clearcenter();
}
if (page == 0) {
homescr();
}
if (page == 1) {
menu1();
}
if (page == 2) {
menu2();
}
if (page == 3) {
menu3();
}
if (page == 4) {
menu4();
}
if (page == 5) {
menu5();
}
if (page == 6) {
settingsscr();
}
}
void clearcenter() { // the reason for so many small "boxes" is that it's faster than filling the whole thing
tft.drawRect(0, 20, 150, 50, BLACK);
tft.drawRect(170, 20, 150, 50, BLACK);
tft.drawRect(0, 80, 150, 50, BLACK);
tft.drawRect(170, 80, 150, 50, BLACK);
tft.drawRect(0, 140, 150, 50, BLACK);
tft.drawRect(170, 140, 150, 50, BLACK);
tft.fillRect(22, 37, 106, 16, BLACK);
tft.fillRect(192, 37, 106, 16, BLACK);
tft.fillRect(22, 97, 106, 16, BLACK);
tft.fillRect(192, 97, 106, 16, BLACK);
tft.fillRect(22, 157, 106, 16, BLACK);
tft.fillRect(192, 157, 106, 16, BLACK);
}
void clearsettings() { // this is used to erase the extra drawings when exiting the settings page
tft.fillRect(0, 20, 320, 110, BLACK);
delay(500);
clearmessage();
}
void homescr() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(41, 37);
tft.print("Menu 1");
tft.setCursor(210, 37);
tft.print("Menu 2");
tft.setCursor(41, 97);
tft.print("Menu 3");
tft.setCursor(210, 97);
tft.print("Menu 4");
tft.setCursor(41, 157);
tft.print("Menu 5");
tft.setCursor(200, 157);
tft.print("Settings");
}
void menu1() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(22, 37);
tft.print("Menu 1 B1");
tft.setCursor(192, 37);
tft.print("Menu 1 B2");
tft.setCursor(22, 97);
tft.print("Menu 1 B3");
tft.setCursor(192, 97);
tft.print("Menu 1 B4");
tft.setCursor(22, 157);
tft.print("Menu 1 B5");
tft.setCursor(192, 157);
tft.print("Menu 1 B6");
}
void menu2() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(22, 37);
tft.print("Menu 2 B1");
tft.setCursor(192, 37);
tft.print("Menu 2 B2");
tft.setCursor(22, 97);
tft.print("Menu 2 B3");
tft.setCursor(192, 97);
tft.print("Menu 2 B4");
tft.setCursor(22, 157);
tft.print("Menu 2 B5");
tft.setCursor(192, 157);
tft.print("Menu 2 B6");
}
void menu3() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(22, 37);
tft.print("Menu 3 B1");
tft.setCursor(192, 37);
tft.print("Menu 3 B2");
tft.setCursor(22, 97);
tft.print("Menu 3 B3");
tft.setCursor(192, 97);
tft.print("Menu 3 B4");
tft.setCursor(22, 157);
tft.print("Menu 3 B5");
tft.setCursor(192, 157);
tft.print("Menu 3 B6");
}
void menu4() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(22, 37);
tft.print("Menu 4 B1");
tft.setCursor(192, 37);
tft.print("Menu 4 B2");
tft.setCursor(22, 97);
tft.print("Menu 4 B3");
tft.setCursor(192, 97);
tft.print("Menu 4 B4");
tft.setCursor(22, 157);
tft.print("Menu 4 B5");
tft.setCursor(192, 157);
tft.print("Menu 4 B6");
}
void menu5() {
tft.setTextColor(WHITE);
tft.setTextSize(2);
boxes();
tft.setCursor(22, 37);
tft.print("Menu 5 B1");
tft.setCursor(192, 37);
tft.print("Menu 5 B2");
tft.setCursor(22, 97);
tft.print("Menu 5 B3");
tft.setCursor(192, 97);
tft.print("Menu 5 B4");
tft.setCursor(22, 157);
tft.print("Menu 5 B5");
tft.setCursor(192, 157);
tft.print("Menu 5 B6");
}
void settingsscr() {
// backlight level
tft.setTextColor(WHITE);
tft.setTextSize(3);
tft.fillRect(0, 20, 60, 50, RED);
tft.drawRect(0, 20, 60, 50, WHITE);
tft.drawRect(80, 20, 160, 50, JJCOLOR);
tft.fillRect(260, 20, 60, 50, GREEN);
tft.drawRect(260, 20, 60, 50, WHITE);
tft.setCursor(22, 33);
tft.print("-");
tft.setCursor(282, 33);
tft.print("+");
tft.setTextSize(1);
tft.setCursor(120, 31);
tft.print("Backlight Level");
tft.drawRect(110, 48, 100, 10, WHITE);
blbar();
// sleep time
tft.setTextSize(3);
tft.fillRect(0, 80, 60, 50, RED);
tft.drawRect(0, 80, 60, 50, WHITE);
tft.drawRect(80, 80, 160, 50, JJCOLOR);
tft.fillRect(260, 80, 60, 50, GREEN);
tft.drawRect(260, 80, 60, 50, WHITE);
tft.setCursor(22, 93);
tft.print("-");
tft.setCursor(282, 93);
tft.print("+");
tft.setTextSize(1);
tft.setCursor(130, 91);
tft.print("Sleep Time");
showsleep();
//?? uncomment this if you want a third adjustable option
/*
tft.fillRect(0, 140, 60, 50, RED);
tft.drawRect(0, 140, 60, 50, WHITE);
tft.drawRect(80, 140, 160, 50, JJCOLOR);
tft.fillRect(260, 140, 60, 50, GREEN);
tft.drawRect(260, 140, 60, 50, WHITE);
tft.print(22, 153, "-", WHITE, 3);
tft.print(130, 151, "Thing #3", WHITE);
tft.print(282, 153, "+", WHITE, 3);
tft.drawRect(110, 168, 100, 10, WHITE);
*/
battv = readVcc(); // read the voltage
itoa (battv, voltage, 10);
tft.setTextColor(YELLOW);
tft.setTextSize(2);
tft.setCursor(12, 213);
tft.print(voltage);
tft.setCursor(60, 213);
tft.print("mV");
/*
battpercent = (battv / 5000) * 100, 2;
itoa (battpercent, battpercenttxt, 10);
tft.print(102, 213, battpercenttxt, YELLOW, 2);
*/
}
void sleepinc() { // sleep increese adjustment
if (sleeptime == 14400000) {
sleepnever = 1;
esleep = 12;
sleeptime = 11111111;
showsleep();
}
if (sleeptime == 3600000) {
sleeptime = 14400000;
esleep = 11;
showsleep();
}
if (sleeptime == 1800000) {
sleeptime = 3600000;
esleep = 10;
showsleep();
}
if (sleeptime == 1200000) {
sleeptime = 1800000;
esleep = 9;
showsleep();
}
if (sleeptime == 600000) {
sleeptime = 1200000;
esleep = 8;
showsleep();
}
if (sleeptime == 300000) {
sleeptime = 600000;
esleep = 7;
showsleep();
}
if (sleeptime == 120000) {
sleeptime = 300000;
esleep = 6;
showsleep();
}
if (sleeptime == 60000) {
sleeptime = 120000;
esleep = 5;
showsleep();
}
if (sleeptime == 30000) {
sleeptime = 60000;
esleep = 4;
showsleep();
}
if (sleeptime == 20000) {
sleeptime = 30000;
esleep = 3;
showsleep();
}
if (sleeptime == 10000) {
sleeptime = 20000;
esleep = 2;
showsleep();
}
delay(350);
}
void sleepdec() { // sleep decreese adjustment
if (sleeptime == 20000) {
sleeptime = 10000;
esleep = 1;
showsleep();
}
if (sleeptime == 30000) {
sleeptime = 20000;
esleep = 2;
showsleep();
}
if (sleeptime == 60000) {
sleeptime = 30000;
esleep = 3;
showsleep();
}
if (sleeptime == 120000) {
sleeptime = 60000;
esleep = 4;
showsleep();
}
if (sleeptime == 300000) {
sleeptime = 120000;
esleep = 5;
showsleep();
}
if (sleeptime == 600000) {
sleeptime = 300000;
esleep = 6;
showsleep();
}
if (sleeptime == 1200000) {
sleeptime = 600000;
esleep = 7;
showsleep();
}
if (sleeptime == 1800000) {
sleeptime = 1200000;
esleep = 8;
showsleep();
}
if (sleeptime == 3600000) {
sleeptime = 1800000;
esleep = 9;
showsleep();
}
if (sleeptime == 14400000) {
sleeptime = 3600000;
esleep = 10;
showsleep();
}
if (sleepnever == 1) {
sleeptime = 14400000;
sleepnever = 0;
esleep = 11;
showsleep();
}
delay(350);
}
void showsleep() { // shows the sleep time on the settings page
tft.fillRect(110, 108, 80, 10, BLACK);
tft.setTextSize(1);
tft.setTextColor(WHITE);
if (sleeptime == 10000) {
tft.setCursor(130, 108);
tft.print("10 Seconds");
}
if (sleeptime == 20000) {
tft.setCursor(130, 108);
tft.print("20 Seconds");
}
if (sleeptime == 30000) {
tft.setCursor(130, 108);
tft.print("30 Seconds");
}
if (sleeptime == 60000) {
tft.setCursor(136, 108);
tft.print("1 Minute");
}
if (sleeptime == 120000) {
tft.setCursor(133, 108);
tft.print("2 Minutes");
}
if (sleeptime == 300000) {
tft.setCursor(133, 108);
tft.print("5 Minutes");
}
if (sleeptime == 600000) {
tft.setCursor(130, 108);
tft.print("10 Minutes");
}
if (sleeptime == 1200000) {
tft.setCursor(130, 108);
tft.print("20 Minutes");
}
if (sleeptime == 1800000) {
tft.setCursor(130, 108);
tft.print("30 Minutes");
}
if (sleeptime == 3600000) {
tft.setCursor(142, 108);
tft.print("1 Hour");
}
if (sleeptime == 14400000) {
tft.setCursor(139, 108);
tft.print("4 Hours");
}
if (sleepnever == 1) {
tft.setCursor(133, 108);
tft.print("Always On");
}
}
void option3down() { // adjust option 3 down in the settings screen
}
void option3up() { // adjust option 3 up in the settings screen
}
//custom defined actions - this is where you put your button functions
void m1b1action() {
signal();
}
void m1b2action() {
signalact();
}
void m1b3action() {
}
void m1b4action() {
}
void m1b5action() {
}
void m1b6action() {
}
void m2b1action() {
}
void m2b2action() {
}
void m2b3action() {
}
void m2b4action() {
}
void m2b5action() {
}
void m2b6action() {
}
void m3b1action() {
}
void m3b2action() {
}
void m3b3action() {
}
void m3b4action() {
}
void m3b5action() {
}
void m3b6action() {
}
void m4b1action() {
}
void m4b2action() {
}
void m4b3action() {
}
void m4b4action() {
}
void m4b5action() {
}
void m4b6action() {
}
void m5b1action() {
}
void m5b2action() {
}
void m5b3action() {
}
void m5b4action() {
}
void m5b5action() {
}
void m5b6action() {
}
void blightup() { // increase the backlight brightness
blv = blv + 5;
if (blv >= 255) {
blv = 255;
}
analogWrite(backlight, blv);
blbar();
}
void blightdown() { // decrease the backlight brightness
blv = blv - 5;
if (blv <= 5) {
blv = 5;
}
analogWrite(backlight, blv);
blbar();
}
void blbar() { // this function fills the yellow bar in the backlight brightness adjustment
if (blv < barv) {
tft.fillRect(111, 49, 98, 8, BLACK);
}
backlightbox = map(blv, 1, 255, 0, 98);
tft.fillRect(111, 49, backlightbox, 8, YELLOW);
barv = blv;
delay(25);
}
void ant() {
tft.fillRect((antpos + 5), 4, 1, 6, WHITE); // draws the "antenna" for the signal indicator
}
void boxes() { // redraw the button outline boxes
tft.drawRect(0, 20, 150, 50, JJCOLOR);
tft.drawRect(170, 20, 150, 50, JJCOLOR);
tft.drawRect(0, 80, 150, 50, JJCOLOR);
tft.drawRect(170, 80, 150, 50, JJCOLOR);
tft.drawRect(0, 140, 150, 50, JJCOLOR);
tft.drawRect(170, 140, 150, 50, JJCOLOR);
}
void signal() { // draws a whit 'signal indicator'
tft.drawLine((antpos + 4), 4, (antpos + 4), 5, WHITE);
tft.drawPixel((antpos + 3), 2, WHITE);
tft.drawPixel((antpos + 3), 7, WHITE);
tft.drawPixel((antpos + 2), 0, WHITE);
tft.drawLine((antpos + 2), 3, (antpos + 2), 6, WHITE);
tft.drawPixel((antpos + 2), 9, WHITE);
tft.drawPixel((antpos + 1), 1, WHITE);
tft.drawPixel((antpos + 1), 8, WHITE);
tft.drawLine(antpos, 2, antpos, 7, WHITE);
tft.drawLine((antpos + 6), 4, (antpos + 6), 5, WHITE);
tft.drawPixel((antpos + 7), 2, WHITE);
tft.drawPixel((antpos + 7), 7, WHITE);
tft.drawPixel((antpos + 8), 0, WHITE);
tft.drawLine((antpos + 8), 3, (antpos + 8), 6, WHITE);
tft.drawPixel((antpos + 8), 9, WHITE);
tft.drawPixel((antpos + 9), 1, WHITE);
tft.drawPixel((antpos + 9), 8, WHITE);
tft.drawLine((antpos + 10), 2, (antpos + 10), 7, WHITE);
}
void signalact() { // draws a red'signal indicator'
tft.drawLine((antpos + 4), 4, (antpos + 4), 5, RED);
tft.drawPixel((antpos + 3), 2, RED);
tft.drawPixel((antpos + 3), 7, RED);
tft.drawPixel((antpos + 2), 0, RED);
tft.drawLine((antpos + 2), 3, (antpos + 2), 6, RED);
tft.drawPixel((antpos + 2), 9, RED);
tft.drawPixel((antpos + 1), 1, RED);
tft.drawPixel((antpos + 1), 8, RED);
tft.drawLine(antpos, 2, antpos, 7, RED);
tft.drawLine((antpos + 6), 4, (antpos + 6), 5, RED);
tft.drawPixel((antpos + 7), 2, RED);
tft.drawPixel((antpos + 7), 7, RED);
tft.drawPixel((antpos + 8), 0, RED);
tft.drawLine((antpos + 8), 3, (antpos + 8), 6, RED);
tft.drawPixel((antpos + 8), 9, RED);
tft.drawPixel((antpos + 9), 1, RED);
tft.drawPixel((antpos + 9), 8, RED);
tft.drawLine((antpos + 10), 2, (antpos + 10), 7, RED);
}
void drawhomeicon() { // draws a white home icon
tft.drawLine(280, 219, 299, 200, WHITE);
tft.drawLine(300, 200, 304, 204, WHITE);
tft.drawLine(304, 203, 304, 200, WHITE);
tft.drawLine(305, 200, 307, 200, WHITE);
tft.drawLine(308, 200, 308, 208, WHITE);
tft.drawLine(309, 209, 319, 219, WHITE);
tft.drawLine(281, 219, 283, 219, WHITE);
tft.drawLine(316, 219, 318, 219, WHITE);
tft.drawRect(284, 219, 32, 21, WHITE);
tft.drawRect(295, 225, 10, 15, WHITE);
}
void drawhomeiconred() { // draws a red home icon
tft.drawLine(280, 219, 299, 200, RED);
tft.drawLine(300, 200, 304, 204, RED);
tft.drawLine(304, 203, 304, 200, RED);
tft.drawLine(305, 200, 307, 200, RED);
tft.drawLine(308, 200, 308, 208, RED);
tft.drawLine(309, 209, 319, 219, RED);
tft.drawLine(281, 219, 283, 219, RED);
tft.drawLine(316, 219, 318, 219, RED);
tft.drawRect(284, 219, 32, 21, RED);
tft.drawRect(295, 225, 10, 15, RED);
}
void clearmessage() {
tft.fillRect(12, 213, 226, 16, BLACK); // black out the inside of the message box
}
void drawbatt() {
battv = readVcc(); // read the voltage
if (battv < battold) { // if the voltage goes down, erase the inside of the battery
tft.fillRect(298, 2, 18, 6, BLACK);
}
battfill = map(battv, 3000, 4850, 2, 18); // map the battery voltage 3000 nis the low, 4150 is the high
if (battfill > 7) { // if the battfill value is between 8 and 18, fill with green
tft.fillRect(298, 2, battfill, 6, GREEN);
}
else { // if the battfill value is below 8, fill with red
tft.fillRect(298, 2, battfill, 6, RED);
}
battold = battv; // this helps determine if redrawing the battfill area is necessary
}
Буду очень признателен !