fadookie/snow.png

## snow.png

      
    Raw
  

              snow.png
            
          
## snowfight.pde
import hypermedia.video.*;          //  Imports the OpenCV library
OpenCV opencv;                      //  Creates a new OpenCV object

PImage movementImg;                 //  Creates a new PImage to hold the movement image
int caughtSnow;                  //  Creates a variable to hold the total number of popped SF
ArrayList SF;                  //  Creates an ArrayList to hold the Flake objects
PImage snowPNG;                   //  Creates a PImage that will hold the image of the bubble
boolean moveOK;
boolean debugDraw = false;      //Draw some debugging info
//-----------------------------------------SETUP
void setup()
{
  size ( 720, 480 );                      //  Window size of 720 x 480
  frameRate(30);
  opencv = new OpenCV( this );            //  Initialises the OpenCV library
  opencv.capture( 720, 480 );             //  Sets the capture size to 720 x 480
  movementImg = new PImage( 720, 480 );   //  Initialises the PImage that holds the movement image
  caughtSnow = 1;

  SF = new ArrayList();              //  Initialises the ArrayList

    snowPNG = loadImage("snow.png");    //  Load the bubble image into memory
}
//---------------------------------------------DRAW
void draw()
{
  SF.add(new Flake( (int)random( 0, width - 40), -snowPNG.height, snowPNG.width, snowPNG.height));   //  Adds a new bubble to the array with a random x position

  opencv.read();                              //  Captures a frame from the camera
  opencv.flip(OpenCV.FLIP_HORIZONTAL);        //  Flips the image horizontally
  image( opencv.image(), 0, 0 );              //  Draws the camera image to the screen
  opencv.absDiff();                           //  Creates a difference image

  opencv.convert(OpenCV.GRAY);                //  Converts to greyscale
  opencv.blur(OpenCV.BLUR, 3);                //  Blur to remove camera noise
  opencv.threshold(20);                       //  Thresholds to convert to black and white
  movementImg = opencv.image();               //  Puts the OpenCV buffer into an image object
  if (debugDraw) {
    image(movementImg, 0, 0); //Draw what the computer is seeing for debug purposes if debugDraw is active
  }

  for ( int i = 0; i < SF.size(); i++ ) {    //  For every bubble in the SF array
    Flake _flake = (Flake) SF.get(i);    //  Copies the current bubble into a temporary object
    if (_flake.update() == true) {                  //  If the bubble's update function returns true
      SF.remove(i);                        //  then remove the bubble from the array
      _flake = null;                           //  and make the temporary bubble object null
      i--;                                      //  since we've removed a bubble from the array, we need to subtract 1 from i, or we'll skip the next bubble
      //   if( _flake.
    }
    else {                                        //  If the bubble's update function doesn't return '1'
      _flake.drawFlake();                  // Draws the flake
      SF.set(i, _flake);                  //  Copys the updated temporary bubble object back into the array
      _flake = null;                           //  Makes the temporary bubble object null.
    }
  }

  opencv.remember(OpenCV.SOURCE, OpenCV.FLIP_HORIZONTAL);    //  Remembers the camera image so we can generate a difference image next frame. Since we've
  fill(0);                                                      //  flipped the image earlier, we need to flip it here too.
}

void keyPressed() {
  if (key == 'd') {
    debugDraw = !debugDraw; //Toggle debug drawing if d key is pressed
  }
}
//----------------------------------------------CLASS
class Flake
{

  int flakeWidth, flakeHeight;    //  Some variables to hold information about the bubble
  float flakeX, flakeY, velocityX, velocityY, accelX, accelY;

  Flake ( int bX, int bY, int bW, int bH )           //  The class constructor- sets the values when a new bubble object is made
  {
    flakeX = bX;
    flakeY = bY;
    flakeWidth = bW;
    flakeHeight = bH;
    accelY = -10;
  }


  boolean update()      //   The Flake update function
  {
    int movementAmount;          //  Create and set a variable to hold the amount of white pixels detected in the area where the bubble is
    movementAmount = 0;
    boolean destroyFlake = false;

    for ( int y = floor(flakeY); y < (flakeY + (flakeHeight-1)); y++ ) {    //  For loop that cycles through all of the pixels in the area the bubble occupies. We're using decimals to store position now so we have to round to nearest integer using floor().
      for ( int x = floor(flakeX); x < (flakeX + (flakeWidth-1)); x++ ) {

        if ( x < width && x > 0 && y < height && y > 0 ) {             //  If the current pixel is within the screen bondaries
          if (brightness(movementImg.pixels[x + (y * width)]) > 127)  //  and if the brightness is above 127 (in this case, if it is white)
          {
            movementAmount++;                                         //  Add 1 to the movementAmount variable.
          }
        }
      }
    }

    if (movementAmount > 5)               //  If more than 5 pixels of movement are detected in the bubble area
    {
      accelY = movementAmount * 0.001;       // Toss the flake higher based on how much movement was detected near it! We only need 0.1% of the original magnitude.
      //I don't really know which way to throw it horizontally, so let's just throw it towards the other side of the screen based on its current position.
      float distanceFromCenterX = flakeX - (width / 2);
      accelX = distanceFromCenterX / (width / 3); //Scale the movement down so it's not shooting around too fast
      //caughtSnow++;                    //  Add 1 to the variable that holds the number of popped SFSF
      //destroyFlake = true;                           //  Return true so that the bubble object is destroyed
    }
    else {                                 //  If less than 5 pixels of movement are detected,
      accelY = -1;                      //  decrease the y acceleration of the bubble so that it falls down

      if (flakeY > height)               //  If the bubble has dropped off of the bottom of the screen
      {
        destroyFlake = true;
      }                      //  Return '1' so that the bubble object is destroyed
    }

    //Apply acceleration to velocity
    velocityX += accelX;
    velocityY += accelY;

    //Constrain falling speed to -10 units per cycle so it doesn't fall too fast
    velocityY = constrain(velocityY, -10, 99999999);

    //Constrain horizontal speed to +/-10 units per cycle so it doesn't move too fast
    velocityX = constrain(velocityX, -10, 10);

    //Apply velocity to position to move the flake
    flakeX += velocityX;
    flakeY += -velocityY;                //Since 0,0 is the upper left hand corner of the screen, we'll invert the velocity here to make it easier to think about it "falling" when we set the velocityY above. We're actually adding to its Y value, not subtracting from it.

    return destroyFlake;                              //  Returns whether or not to destroy the flake
  }

  void drawFlake() {
    println("drawFlake " + flakeX + ", " + flakeY);
    image(snowPNG, flakeX, flakeY);    //  Draws the bubble to the screen
  }
}
	import hypermedia.video.*; // Imports the OpenCV library
	OpenCV opencv; // Creates a new OpenCV object

	PImage movementImg; // Creates a new PImage to hold the movement image
	int caughtSnow; // Creates a variable to hold the total number of popped SF
	ArrayList SF; // Creates an ArrayList to hold the Flake objects
	PImage snowPNG; // Creates a PImage that will hold the image of the bubble
	boolean moveOK;
	boolean debugDraw = false; //Draw some debugging info
	//-----------------------------------------SETUP
	void setup()
	{
	size ( 720, 480 ); // Window size of 720 x 480
	frameRate(30);
	opencv = new OpenCV( this ); // Initialises the OpenCV library
	opencv.capture( 720, 480 ); // Sets the capture size to 720 x 480
	movementImg = new PImage( 720, 480 ); // Initialises the PImage that holds the movement image
	caughtSnow = 1;

	SF = new ArrayList(); // Initialises the ArrayList

	snowPNG = loadImage("snow.png"); // Load the bubble image into memory
	}
	//---------------------------------------------DRAW
	void draw()
	{
	SF.add(new Flake( (int)random( 0, width - 40), -snowPNG.height, snowPNG.width, snowPNG.height)); // Adds a new bubble to the array with a random x position

	opencv.read(); // Captures a frame from the camera
	opencv.flip(OpenCV.FLIP_HORIZONTAL); // Flips the image horizontally
	image( opencv.image(), 0, 0 ); // Draws the camera image to the screen
	opencv.absDiff(); // Creates a difference image

	opencv.convert(OpenCV.GRAY); // Converts to greyscale
	opencv.blur(OpenCV.BLUR, 3); // Blur to remove camera noise
	opencv.threshold(20); // Thresholds to convert to black and white
	movementImg = opencv.image(); // Puts the OpenCV buffer into an image object
	if (debugDraw) {
	image(movementImg, 0, 0); //Draw what the computer is seeing for debug purposes if debugDraw is active
	}

	for ( int i = 0; i < SF.size(); i++ ) { // For every bubble in the SF array
	Flake _flake = (Flake) SF.get(i); // Copies the current bubble into a temporary object
	if (_flake.update() == true) { // If the bubble's update function returns true
	SF.remove(i); // then remove the bubble from the array
	_flake = null; // and make the temporary bubble object null
	i--; // since we've removed a bubble from the array, we need to subtract 1 from i, or we'll skip the next bubble
	// if( _flake.
	}
	else { // If the bubble's update function doesn't return '1'
	_flake.drawFlake(); // Draws the flake
	SF.set(i, _flake); // Copys the updated temporary bubble object back into the array
	_flake = null; // Makes the temporary bubble object null.
	}
	}

	opencv.remember(OpenCV.SOURCE, OpenCV.FLIP_HORIZONTAL); // Remembers the camera image so we can generate a difference image next frame. Since we've
	fill(0); // flipped the image earlier, we need to flip it here too.
	}

	void keyPressed() {
	if (key == 'd') {
	debugDraw = !debugDraw; //Toggle debug drawing if d key is pressed
	}
	}
	//----------------------------------------------CLASS
	class Flake
	{

	int flakeWidth, flakeHeight; // Some variables to hold information about the bubble
	float flakeX, flakeY, velocityX, velocityY, accelX, accelY;

	Flake ( int bX, int bY, int bW, int bH ) // The class constructor- sets the values when a new bubble object is made
	{
	flakeX = bX;
	flakeY = bY;
	flakeWidth = bW;
	flakeHeight = bH;
	accelY = -10;
	}


	boolean update() // The Flake update function
	{
	int movementAmount; // Create and set a variable to hold the amount of white pixels detected in the area where the bubble is
	movementAmount = 0;
	boolean destroyFlake = false;

	for ( int y = floor(flakeY); y < (flakeY + (flakeHeight-1)); y++ ) { // For loop that cycles through all of the pixels in the area the bubble occupies. We're using decimals to store position now so we have to round to nearest integer using floor().
	for ( int x = floor(flakeX); x < (flakeX + (flakeWidth-1)); x++ ) {

	if ( x < width && x > 0 && y < height && y > 0 ) { // If the current pixel is within the screen bondaries
	if (brightness(movementImg.pixels[x + (y * width)]) > 127) // and if the brightness is above 127 (in this case, if it is white)
	{
	movementAmount++; // Add 1 to the movementAmount variable.
	}
	}
	}
	}

	if (movementAmount > 5) // If more than 5 pixels of movement are detected in the bubble area
	{
	accelY = movementAmount * 0.001; // Toss the flake higher based on how much movement was detected near it! We only need 0.1% of the original magnitude.
	//I don't really know which way to throw it horizontally, so let's just throw it towards the other side of the screen based on its current position.
	float distanceFromCenterX = flakeX - (width / 2);
	accelX = distanceFromCenterX / (width / 3); //Scale the movement down so it's not shooting around too fast
	//caughtSnow++; // Add 1 to the variable that holds the number of popped SFSF
	//destroyFlake = true; // Return true so that the bubble object is destroyed
	}
	else { // If less than 5 pixels of movement are detected,
	accelY = -1; // decrease the y acceleration of the bubble so that it falls down

	if (flakeY > height) // If the bubble has dropped off of the bottom of the screen
	{
	destroyFlake = true;
	} // Return '1' so that the bubble object is destroyed
	}

	//Apply acceleration to velocity
	velocityX += accelX;
	velocityY += accelY;

	//Constrain falling speed to -10 units per cycle so it doesn't fall too fast
	velocityY = constrain(velocityY, -10, 99999999);

	//Constrain horizontal speed to +/-10 units per cycle so it doesn't move too fast
	velocityX = constrain(velocityX, -10, 10);

	//Apply velocity to position to move the flake
	flakeX += velocityX;
	flakeY += -velocityY; //Since 0,0 is the upper left hand corner of the screen, we'll invert the velocity here to make it easier to think about it "falling" when we set the velocityY above. We're actually adding to its Y value, not subtracting from it.

	return destroyFlake; // Returns whether or not to destroy the flake
	}

	void drawFlake() {
	println("drawFlake " + flakeX + ", " + flakeY);
	image(snowPNG, flakeX, flakeY); // Draws the bubble to the screen
	}
	}