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Огляд теми (нові повідомленні вгорі)

Saddamko
2016-10-20 13:04:41

Поскольку дисплейные модули изначально продаются, в большинстве случаев, с SD или microSD картоприемником, первым их применением у меня стало создание фоторамок.
(На самом деле, это у меня было из подсознания - подаренная девушкой покупная рамка успешно взорвалась после моей попытки установить внутрь аккумулятор с плохим контроллером заряда).

 Вот несколько для примера:

На основе модуля QVGA TFT display 320x240 ili9340 собрана такая фоторамка

Я использовал часы реального времени, Arduino Mini Pro, батарейный модуль, кнопку питания и сам дисплейный модуль
ramka3s.jpg


Как всегда, при работе с дисплейными модулями, самое сложное - подобрать хорошую, годную библиотеку, мне помогли библиотеки Adafruit_ILI9340.h и Adafruit_GFX.h.

Ниже приведен код:

/*
* Commands:
 * T(00-59)(00-59)(00-23)(1-7)(01-31)(01-12)(00-99) - T(sec)(min)(hour)(dayOfWeek)(dayOfMonth)(month)(year) -
 * T - Sets the date of the RTC DS1307 Chip.
 *T0007002210115
* T004519 
 * Example to set the time for 25-Jan-2012 @ 19:57:11 for the 4 day of the week, use this command - T1157194250112
 * Q(1-2) - (Q1) Memory initialization  (Q2) RTC - Memory Dump  
 * R - Read/display the time, day and date
 */

#include <Adafruit_GFX.h>    // Core graphics library
#include "Adafruit_ILI9340.h" // Hardware-specific library

#include <SD.h>
#include <Wire.h>
#include "RTClib.h"
#include <SPI.h>

//#if defined(__SAM3X8E__)
//    #undef __FlashStringHelper::F(string_literal)
//    #define F(string_literal) string_literal
//#endif

// TFT display and SD card will share the hardware SPI interface..
#define TFT_RST 8
#define TFT_DC 9
#define TFT_CS 10
#define SD_CS 6
#define DS1307_I2C_ADDRESS 0x68  // This is the I2C address

// Arduino version compatibility Pre-Compiler Directives
#if defined(ARDUINO) && ARDUINO >= 100   // Arduino v1.0 and newer
  #define I2C_WRITE Wire.write 
  #define I2C_READ Wire.read
#else                                   // Arduino Prior to v1.0 
  #define I2C_WRITE Wire.send 
  #define I2C_READ Wire.receive
#endif

// Global Variables
byte zero;
byte second, minute, hour, dayOfWeek, dayOfMonth, month, year;
byte test;
int command = 0;       // This is the command char, in ascii form, sent from the serial port     
int i;
long previousMillis = 0;        // will store last time Temp was updated
RTC_DS1307 rtc;
Adafruit_ILI9340 tft = Adafruit_ILI9340(TFT_CS, TFT_DC, TFT_RST);
File dir;

void setup(void) {
  Serial.begin(9600);
  Wire.begin();
  tft.begin();
  rtc.begin();
  
  if (! rtc.isrunning()) {
    Serial.println(F("RTC is NOT running!"));
    // following line sets the RTC to the date & time this sketch was compiled
    rtc.adjust(DateTime(__DATE__, __TIME__));
  }
//  
  Serial.print(F("Initializing SD card..."));
  if (!SD.begin(SD_CS)) {
    Serial.println(F("failed!"));
    return;
  }
  Serial.println(F("OK!"));
  printtime ();
  delay (1000);
  freeMem();
//  CheckCmd();
}

void loop() {

  File dir=SD.open("/");
  dir.rewindDirectory();
    while (true) {  

    File entry =  dir.openNextFile();
     if (! entry) {
       // no more files
       Serial.println(F("**nomorefiles**"));
//      break;
       dir.rewindDirectory();
     }
     // Print the 8.3 name
     Serial.print(entry.name());
     // Recurse for directories, otherwise print the file size
     if (entry.isDirectory()) {
       Serial.println(F("/"));
     } 
	 else{
       // files have sizes, directories do not
       Serial.print(F("\t\t"));
       Serial.println(entry.size(), DEC);
       bmpDraw(entry.name(),0,0);

       delay(3000);
     }
         entry.close();
        printtime ();  
    }  
    dir.rewindDirectory();
   
}

uint16_t freeMem() {
  char top;
  extern char *__brkval;
  extern char __bss_end;
  Serial.println( __brkval ? &top - __brkval : &top - &__bss_end);
}

#define BUFFPIXEL 20

void bmpDraw(char *filename, uint8_t x, uint8_t y) {

  File     bmpFile;
  int      bmpWidth, bmpHeight;   // W+H in pixels
  uint8_t  bmpDepth;              // Bit depth (currently must be 24)
  uint32_t bmpImageoffset;        // Start of image data in file
  uint32_t rowSize;               // Not always = bmpWidth; may have padding
  uint8_t  sdbuffer[3*BUFFPIXEL]; // pixel buffer (R+G+B per pixel)
  uint8_t  buffidx = sizeof(sdbuffer); // Current position in sdbuffer
  boolean  goodBmp = false;       // Set to true on valid header parse
  boolean  flip    = true;        // BMP is stored bottom-to-top
  int      w, h, row, col;
  uint8_t  r, g, b;
  uint32_t pos = 0, startTime = millis();

  if((x >= tft.width()) || (y >= tft.height())) return;

  Serial.println();
  Serial.print(F("Loading image '"));
  Serial.print(filename);
  Serial.println('\'');

  // Open requested file on SD card
  if ((bmpFile = SD.open(filename)) == NULL) {
    Serial.print(F("File not found"));
    return;
  }

  // Parse BMP header
  if(read16(bmpFile) == 0x4D42) { // BMP signature
    Serial.print(F("File size: ")); Serial.println(read32(bmpFile));
    (void)read32(bmpFile); // Read & ignore creator bytes
    bmpImageoffset = read32(bmpFile); // Start of image data
    Serial.print(F("Image Offset: ")); Serial.println(bmpImageoffset, DEC);
    // Read DIB header
    Serial.print(F("Header size: ")); Serial.println(read32(bmpFile));
    bmpWidth  = read32(bmpFile);
    bmpHeight = read32(bmpFile);
    if(read16(bmpFile) == 1) { // # planes -- must be '1'
      bmpDepth = read16(bmpFile); // bits per pixel
      Serial.print(F("Bit Depth: ")); Serial.println(bmpDepth);
      if((bmpDepth == 24) && (read32(bmpFile) == 0)) { // 0 = uncompressed

        goodBmp = true; // Supported BMP format -- proceed!
        Serial.print(F("Image size: "));
        Serial.print(bmpWidth);
        Serial.print(F("x"));
        Serial.println(bmpHeight);

        // BMP rows are padded (if needed) to 4-byte boundary
        rowSize = (bmpWidth * 3 + 3) & ~3;

        // If bmpHeight is negative, image is in top-down order.
        // This is not canon but has been observed in the wild.
        if(bmpHeight < 0) {
          bmpHeight = -bmpHeight;
          flip      = false;
        }

        // Crop area to be loaded
        w = bmpWidth;
        h = bmpHeight;
        if((x+w-1) >= tft.width())  w = tft.width()  - x;
        if((y+h-1) >= tft.height()) h = tft.height() - y;

        // Set TFT address window to clipped image bounds
        tft.setAddrWindow(x, y, x+w-1, y+h-1);

        for (row=0; row<h; row++) { // For each scanline...

          // Seek to start of scan line.  It might seem labor-
          // intensive to be doing this on every line, but this
          // method covers a lot of gritty details like cropping
          // and scanline padding.  Also, the seek only takes
          // place if the file position actually needs to change
          // (avoids a lot of cluster math in SD library).
          if(flip) // Bitmap is stored bottom-to-top order (normal BMP)
            pos = bmpImageoffset + (bmpHeight - 1 - row) * rowSize;
          else     // Bitmap is stored top-to-bottom
            pos = bmpImageoffset + row * rowSize;
          if(bmpFile.position() != pos) { // Need seek?
            bmpFile.seek(pos);
            buffidx = sizeof(sdbuffer); // Force buffer reload
          }

          for (col=0; col<w; col++) { // For each pixel...
            // Time to read more pixel data?
            if (buffidx >= sizeof(sdbuffer)) { // Indeed
              bmpFile.read(sdbuffer, sizeof(sdbuffer));
              buffidx = 0; // Set index to beginning
            }

            // Convert pixel from BMP to TFT format, push to display
            b = sdbuffer[buffidx++];
            g = sdbuffer[buffidx++];
            r = sdbuffer[buffidx++];
            tft.pushColor(tft.Color565(r,g,b));
          } // end pixel
        } // end scanline
        Serial.print(F("Loaded in "));
        Serial.print(millis() - startTime);
        Serial.println(F(" ms"));
      } // end goodBmp
    }
  }

  bmpFile.close();
  if(!goodBmp) Serial.println(F("BMP format not recognized."));
}

// These read 16- and 32-bit types from the SD card file.
// BMP data is stored little-endian, Arduino is little-endian too.
// May need to reverse subscript order if porting elsewhere.

uint16_t read16(File f) {
  uint16_t result;
  ((uint8_t *)&result)[0] = f.read(); // LSB
  ((uint8_t *)&result)[1] = f.read(); // MSB
  return result;
}

uint32_t read32(File f) {
  uint32_t result;
  ((uint8_t *)&result)[0] = f.read(); // LSB
  ((uint8_t *)&result)[1] = f.read();
  ((uint8_t *)&result)[2] = f.read();
  ((uint8_t *)&result)[3] = f.read(); // MSB
  return result;
}

void printtime () {
    DateTime now = rtc.now();
    
 //   tft.fillScreen(ILI9340_BLACK);
    tft.setTextColor (ILI9340_RED,ILI9340_BLACK);
    tft.setTextSize (4);
    tft.setCursor(0,00);
    tft.print(now.year(), DEC);
    tft.print(F("/"));
    
    if (now.month() < 10)
      tft.print("0");  
    tft.print(now.month(), DEC);
    tft.print(F("/"));
    
    if (now.day() < 10)
      tft.print(F("0"));     
    tft.print(now.day(), DEC); 
    tft.println(F(""));
    
    tft.setCursor(0,280);
    tft.setTextColor (ILI9340_GREEN,ILI9340_BLUE);
    tft.setTextSize (5);
    
    if (now.hour() < 10)
      tft.print(F("0"));
    tft.print(now.hour(), DEC); 
    tft.print(F(":"));
   
    if (now.minute() < 10)
      tft.print(F("0"));
    tft.print(now.minute(), DEC);
    tft.print(F(":"));
    
    if (now.second() < 10)
      tft.print(F("0"));    
    tft.print(now.second(), DEC);
    tft.println();

    delay(5000);
}

void CheckCmd() {
     if (Serial.available()) {      // Look for char in serial que and process if found
      command = Serial.read();

      if (command == 84 || command == 116) {      //If command = "Tt" Set Date
       setDateDs1307();
      }
      Serial.println(command);     // Echo command CHAR in ascii that was sent
      }
      command = 0;                 // reset command 
      delay(100);
}

    void setDateDs1307()                
{
 
   second = (byte) ((Serial.read() - 48) * 10 + (Serial.read() - 48)); // Use of (byte) type casting and ascii math to achieve result.  
   minute = (byte) ((Serial.read() - 48) *10 +  (Serial.read() - 48));
   hour  = (byte) ((Serial.read() - 48) *10 +  (Serial.read() - 48));
   dayOfWeek = (byte) (Serial.read() - 48);
   dayOfMonth = (byte) ((Serial.read() - 48) *10 +  (Serial.read() - 48));
   month = (byte) ((Serial.read() - 48) *10 +  (Serial.read() - 48));
   year= (byte) ((Serial.read() - 48) *10 +  (Serial.read() - 48));
   Wire.beginTransmission(DS1307_I2C_ADDRESS);
   I2C_WRITE(zero);
   I2C_WRITE(decToBcd(second) & 0x7f);    // 0 to bit 7 starts the clock
   I2C_WRITE(decToBcd(minute));
   I2C_WRITE(decToBcd(hour));      // If you want 12 hour am/pm you need to set
                                   // bit 6 (also need to change readDateDs1307)
   I2C_WRITE(decToBcd(dayOfWeek));
   I2C_WRITE(decToBcd(dayOfMonth));
   I2C_WRITE(decToBcd(month));
   I2C_WRITE(decToBcd(year));
   Wire.endTransmission();
}
 
// Gets the date and time from the ds1307 and prints result
void getDateDs1307()
{
  // Reset the register pointer
  Wire.beginTransmission(DS1307_I2C_ADDRESS);
  I2C_WRITE(zero);
  Wire.endTransmission();
 
  Wire.requestFrom(DS1307_I2C_ADDRESS, 7);
 
  // A few of these need masks because certain bits are control bits
  second     = bcdToDec(I2C_READ() & 0x7f);
  minute     = bcdToDec(I2C_READ());
  hour       = bcdToDec(I2C_READ() & 0x3f);  // Need to change this if 12 hour am/pm
  dayOfWeek  = bcdToDec(I2C_READ());
  dayOfMonth = bcdToDec(I2C_READ());
  month      = bcdToDec(I2C_READ());
  year       = bcdToDec(I2C_READ());
}
 
 
 // Convert normal decimal numbers to binary coded decimal
byte decToBcd(byte val)
{
  return ( (val/10*16) + (val%10) );
}
 
// Convert binary coded decimal to normal decimal numbers
byte bcdToDec(byte val)
{
  return ( (val/16*10) + (val%16) );
}

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