GMU:Processing im Park/Pascal Delor

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< GMU:Processing im Park
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Pascal Delor

homework 1

void setup() 
{
size(400,400);
background(0,0,0);
frameRate(9);    
println(frameCount);
println(frameRate);
}
  
void draw()
    
{
PImage image1 = loadImage("park_001.jpg");
PImage image2 = loadImage("park_002.jpg");
PImage image3 = loadImage("park_003.jpg");
PImage image4 = loadImage("park_004.jpg");
PImage image5 = loadImage("park_005.jpg");
PImage image6 = loadImage("park_006.jpg");
PImage image7 = loadImage("park_sieben.jpg");
PImage image8 = loadImage("park_acht.jpg");
PImage image9 = loadImage("park_009.jpg");
    
if (frameCount % 9 == 1) {
image(image1,0,0,400,400);
                         }
if (frameCount % 9 == 2) {
image(image2,0,0,400,400);
                         }          
if (frameCount % 9 == 3) {
image(image3,0,0,400,400);
                         }
if (frameCount % 9 == 4) {
image(image4,0,0,400,400);
                         }
if (frameCount % 9 == 5) {
image(image5,0,0,400,400);
                         }
if (frameCount % 9 == 6) {
image(image6,0,0,400,400);
                         }
if (frameCount % 9 == 7) {
image(image7,0,0,400,400);
                         }
if (frameCount % 9 == 8) {
image(image8,0,0,400,400);
                         }
if (frameCount % 9 == 0) {
image(image9,0,0,400,400);
                         }
                
println(frameCount % 9);
println(frameCount);
println(frameRate);
}

grid of nine photos - addition to homework 1

image(image1,0,0,100,100);
image(image2,100,0,100,100);
image(image3,200,0,100,100);

image(image4,0,100,100,100);
image(image5,100,100,100,100);
image(image6,200,100,100,100);
 
image(image7,0,200,100,100);
image(image8,100,200,100,100);
image(image9,200,200,100,100);

homework 2

// number of max slices
int maxSlices = 256;
Slice[] slice = new Slice[maxSlices];
// number of start slices
int n = 16;
float step = 2;
PImage img;     
 
void setup() {
  smooth();
  background(0);
  img = loadImage("farbe_008.jpg");
  img.resize(600,1000);
  size(600,600);
  for (int i = 0; i < n; i++) {
    slice[i] = new Slice(int(i*img.width/n),int(img.width/n),img);
  }
    println(width);
    println(height);
}
 
void draw() {
  // background colour
  fill(0);
  // create rectangle with width and height of the image
  rect(0,0,width,height);
 
   for (int i = 0; i < n; i++) {
 
   slice[i].paint();
  }
}
 
void mousePressed() {
  save("pic.jpg");
  n = int(n*step);
  if(n > maxSlices | n < 4){
    step = 1/step;
    n = int(n*step*step);
  }
  for (int i = 0; i < n; i++) {
    slice[i] = new Slice(int(i*img.width/n),int(img.width/n),img);
  }
}
 
class Slice {
  int xini;
  int xSize;
  PImage img;
  PImage imgSlice;     
  float vel;
  float xVel;
  float xPos;
  float sign;
  float seed;
  float iter = 0;
  float t = 100;
 
  Slice(int xiniTemp, int xSizeTemp, PImage imgTemp) {
    xini = xiniTemp;
    xSize = xSizeTemp;
    img = imgTemp;
    imgSlice = createImage(xSize,img.height,ARGB);
    vel = 0;
    xVel = 0;
 
    sign = random(-1,1);
    sign = sign/abs(sign);
    seed = random(0,100);
    xPos = 0.5*(width-img.width) + xini + xVel + sign*noise(seed)*img.width/3;
 
    int p = 0;
    for (int i = 0; i < img.height; i++) {
      for (int j = 0; j < img.width; j++) {
        if((j >= xini) & (j < xini + xSize)){
          imgSlice.pixels[p] = img.pixels[j + i*img.width];
          p +=1;       
        }
      }
    }
  }
 
// create sliced image
  void paint() {
    image(imgSlice,xPos,0);
  }
 
}

homework 3

PImage[] images = new PImage[12];
PImage img;
 
int w=100;
int h;
 
void setup() {
  size(400, 500);
  frameRate(10);
  background(255);
  for (int i = 0 ; i < images.length; i++)
  { 
    images [i] = loadImage("IMG_0" + (701 + i) + ".JPG");
    img = loadImage("farbe_007.jpg");
    images [i].mask(img);
    images [i].resize(100, 100);
    println(i);
  }
 
 
} 
void draw()
{
  if(mousePressed){
     int counter = frameCount % 19;
  image(images[counter], mouseX - 50, mouseY - 50);
  }
}