arduinisten/arduino-0017-linux-x64/examples/Display/RowColumnScanning/RowColumnScanning.pde

/*
  Row-Column Scanning an 8x8 LED matrix with X-Y input
 
 This example controls an 8x8 LED matrix using two analog inputs
 
 created 27 May 2009
 modified 29 Jun 2009
 by Tom Igoe
 
 This example works for the Lumex  LDM-24488NI Matrix. See 
 http://sigma.octopart.com/140413/datasheet/Lumex-LDM-24488NI.pdf
 for the pin connections
 
 For other LED cathode column matrixes, you should only need to change 
 the pin numbers in the row[] and column[] arrays
 
 rows are the anodes
 cols are the cathodes
 ---------
 
 Pin numbers:
 Matrix:
 * Digital pins 2 through 13,
 * analog pins 2 through 5 used as digital 16 through 19
 Potentiometers:
 * center pins are attached to analog pins 0 and 1, respectively
 * side pins attached to +5V and ground, respectively.
 
 http://www.arduino.cc/en/Tutorial/RowColumnScanning
 
 see also http://www.tigoe.net/pcomp/code/category/arduinowiring/514 for more
 */


// 2-dimensional array of row pin numbers:
const int row[8] = {
  2,7,19,5,18,12,16 };

// 2-dimensional array of column pin numbers:
const int col[8] = {
  6,11,10,3,17,4,8,9  };

// 2-dimensional array of pixels:
int pixels[8][8];           

// cursor position:
int x = 5;
int y = 5;

void setup() {
  Serial.begin(9600);
  // initialize the I/O pins as outputs:

  // iterate over the pins:
  for (int thisPin = 0; thisPin < 8; thisPin++) {
    // initialize the output pins:
    pinMode(col[thisPin], OUTPUT); 
    pinMode(row[thisPin], OUTPUT);  
    // take the col pins (i.e. the cathodes) high to ensure that
    // the LEDS are off: 
    digitalWrite(col[thisPin], HIGH);    
  }

  // initialize the pixel matrix:
  for (int x = 0; x < 8; x++) {
    for (int y = 0; y < 8; y++) {
      pixels[x][y] = HIGH;
    }
  }
}

void loop() {
  // read input:
  readSensors();

  // draw the screen:
  refreshScreen();
}

void readSensors() {
  // turn off the last position:
  pixels[x][y] = HIGH;
  // read the sensors for X and Y values:
  x = 7 - map(analogRead(0), 0, 1023, 0, 7);
  y = map(analogRead(1), 0, 1023, 0, 7);
  // set the new pixel position low so that the LED will turn on
  // in the next screen refresh:
  pixels[x][y] = LOW;

}

void refreshScreen() {
  // iterate over the rows (anodes):
  for (int thisRow = 0; thisRow < 8; thisRow++) {
    // take the row pin (anode) high:
    digitalWrite(row[thisRow], HIGH);
    // iterate over the cols (cathodes):
    for (int thisCol = 0; thisCol < 8; thisCol++) {
      // get the state of the current pixel;
      int thisPixel = pixels[thisRow][thisCol];
      // when the row is HIGH and the col is LOW,
      // the LED where they meet turns on:
      digitalWrite(col[thisCol], thisPixel);
      // turn the pixel off:
      if (thisPixel == LOW) {
        digitalWrite(col[thisCol], HIGH);
      }
    }
    // take the row pin low to turn off the whole row:
    digitalWrite(row[thisRow], LOW);
  }
}
arduino-0017-linux-x64 15 years ago			`/*`
			`Row-Column Scanning an 8x8 LED matrix with X-Y input`

			`This example controls an 8x8 LED matrix using two analog inputs`

			`created 27 May 2009`
			`modified 29 Jun 2009`
			`by Tom Igoe`

			`This example works for the Lumex LDM-24488NI Matrix. See`
			`http://sigma.octopart.com/140413/datasheet/Lumex-LDM-24488NI.pdf`
			`for the pin connections`

			`For other LED cathode column matrixes, you should only need to change`
			`the pin numbers in the row[] and column[] arrays`

			`rows are the anodes`
			`cols are the cathodes`
			`---------`

			`Pin numbers:`
			`Matrix:`
			`* Digital pins 2 through 13,`
			`* analog pins 2 through 5 used as digital 16 through 19`
			`Potentiometers:`
			`* center pins are attached to analog pins 0 and 1, respectively`
			`* side pins attached to +5V and ground, respectively.`

			`http://www.arduino.cc/en/Tutorial/RowColumnScanning`

			`see also http://www.tigoe.net/pcomp/code/category/arduinowiring/514 for more`
			`*/`


			`// 2-dimensional array of row pin numbers:`
			`const int row[8] = {`
			`2,7,19,5,18,12,16 };`

			`// 2-dimensional array of column pin numbers:`
			`const int col[8] = {`
			`6,11,10,3,17,4,8,9 };`

			`// 2-dimensional array of pixels:`
			`int pixels[8][8];`

			`// cursor position:`
			`int x = 5;`
			`int y = 5;`

			`void setup() {`
			`Serial.begin(9600);`
			`// initialize the I/O pins as outputs:`

			`// iterate over the pins:`
			`for (int thisPin = 0; thisPin < 8; thisPin++) {`
			`// initialize the output pins:`
			`pinMode(col[thisPin], OUTPUT);`
			`pinMode(row[thisPin], OUTPUT);`
			`// take the col pins (i.e. the cathodes) high to ensure that`
			`// the LEDS are off:`
			`digitalWrite(col[thisPin], HIGH);`
			`}`

			`// initialize the pixel matrix:`
			`for (int x = 0; x < 8; x++) {`
			`for (int y = 0; y < 8; y++) {`
			`pixels[x][y] = HIGH;`
			`}`
			`}`
			`}`

			`void loop() {`
			`// read input:`
			`readSensors();`

			`// draw the screen:`
			`refreshScreen();`
			`}`

			`void readSensors() {`
			`// turn off the last position:`
			`pixels[x][y] = HIGH;`
			`// read the sensors for X and Y values:`
			`x = 7 - map(analogRead(0), 0, 1023, 0, 7);`
			`y = map(analogRead(1), 0, 1023, 0, 7);`
			`// set the new pixel position low so that the LED will turn on`
			`// in the next screen refresh:`
			`pixels[x][y] = LOW;`

			`}`

			`void refreshScreen() {`
			`// iterate over the rows (anodes):`
			`for (int thisRow = 0; thisRow < 8; thisRow++) {`
			`// take the row pin (anode) high:`
			`digitalWrite(row[thisRow], HIGH);`
			`// iterate over the cols (cathodes):`
			`for (int thisCol = 0; thisCol < 8; thisCol++) {`
			`// get the state of the current pixel;`
			`int thisPixel = pixels[thisRow][thisCol];`
			`// when the row is HIGH and the col is LOW,`
			`// the LED where they meet turns on:`
			`digitalWrite(col[thisCol], thisPixel);`
			`// turn the pixel off:`
			`if (thisPixel == LOW) {`
			`digitalWrite(col[thisCol], HIGH);`
			`}`
			`}`
			`// take the row pin low to turn off the whole row:`
			`digitalWrite(row[thisRow], LOW);`
			`}`
			`}`