Projets

test repeater_pjs

un source

 /* 
  PROCESSINGJS.COM HEADER ANIMATION  
  MIT License - F1lT3R/Hyper-Metrix
  Native Processing Compatible 
  */  

  // Set number of circles
  int count = 20;
  // Set maximum and minimum circle size
  int maxSize = 100;
  int minSize = 20;
  // Build float array to store circle properties
  float[][] e = new float[count][5];
  // Set size of dot in circle center
  float ds=2;
  // Selected mode switch
  int sel = 0;
  // Set drag switch to false
  boolean dragging=false;
  // If use drags mouse...
  void mouseDragged(){
    // Set drag switch to true
    dragging=true;
  }
  // If user releases mouse...
  void mouseReleased(){
    // ..user is no-longer dragging
    dragging=false;
  }

  // Set up canvas
  void setup(){
    // Frame rate
    frameRate(10);
    // Size of canvas (width,height)
    size(200,78);
    // Stroke/line/border thickness
    strokeWeight(1);
    // Initiate array with random values for circles
    for(int j=0;j< count;j++){
      e[j][0]=random(width); // X 
      e[j][1]=random(height); // Y
      e[j][2]=random(minSize,maxSize); // Radius        
      e[j][3]=random(-.5,.5); // X Speed
      e[j][4]=random(-.5,.5); // Y Speed    
    }
  }

  // Begin main draw loop (called 25 times per second)
  void draw(){
    // Fill background black
    background(0);
    // Begin looping through circle array
    for (int j=0;j< count;j++){
    // Disable shape stroke/border
    noStroke();
    // Cache diameter and radius of current circle
    float radi=e[j][2];
    float diam=radi/2;
    // If the cursor is within 2x the radius of current circle...
    if( dist(e[j][0],e[j][1],mouseX,mouseY) < radi ){
    // Change fill color to green.
    fill(64,187,128,100);
    // Remember user has circle "selected"  
    sel=1;
    // If user has mouse down and is moving...
    if (dragging){
      // Move circle to circle position
      e[j][0]=mouseX;
      e[j][1]=mouseY;
      }
    } else {
      // Keep fill color blue
      fill(64,128,187,100);
      // User has nothing "selected"
      sel=0;
    }
    // Draw circle
    ellipse(e[j][0],e[j][1],radi,radi);
    // Move circle
    e[j][0]+=e[j][3];
    e[j][1]+=e[j][4];
     

    /* Wrap edges of canvas so circles leave the top
    and re-enter the bottom, etc... */ 
    if( e[j][0] < -diam      ){ e[j][0] = width+diam;  } 
    if( e[j][0] > width+diam ){ e[j][0] = -diam;       }
    if( e[j][1] < 0-diam     ){ e[j][1] = height+diam; }
    if( e[j][1] > height+diam){ e[j][1] = -diam;       }

    // If current circle is selected...
    if (sel==1) {
      // Set fill color of center dot to white..
      fill(255,255,255,255);
      // ..and set stroke color of line to green.
      stroke(128,255,0,100);      
    } else {            
      // otherwise set center dot color to black.. 
      fill(0,0,0,255);
      // and set line color to turquoise.
      stroke(64,128,128,255);      
    }

    // Loop through all circles
    for(int k=0;k< count;k++){
      // If the circles are close...
      if( dist(e[j][0],e[j][1],e[k][0],e[k][1]) < radi){
        // Stroke a line from current circle to adjacent circle
        line(e[j][0],e[j][1],e[k][0],e[k][1]);
      }
    }
    // Turn off stroke/border
    noStroke();      
    // Draw dot in center of circle
    rect(e[j][0]-ds,e[j][1]-ds,ds*2,ds*2);
    }
  }

fin source

un pjs

 /* 
  PROCESSINGJS.COM HEADER ANIMATION  
  MIT License - F1lT3R/Hyper-Metrix
  Native Processing Compatible 
  */  

  // Set number of circles
  int count = 20;
  // Set maximum and minimum circle size
  int maxSize = 100;
  int minSize = 20;
  // Build float array to store circle properties
  float[][] e = new float[count][5];
  // Set size of dot in circle center
  float ds=2;
  // Selected mode switch
  int sel = 0;
  // Set drag switch to false
  boolean dragging=false;
  // If use drags mouse...
  void mouseDragged(){
    // Set drag switch to true
    dragging=true;
  }
  // If user releases mouse...
  void mouseReleased(){
    // ..user is no-longer dragging
    dragging=false;
  }

  // Set up canvas
  void setup(){
    // Frame rate
    frameRate(10);
    // Size of canvas (width,height)
    size(940,78);
    // Stroke/line/border thickness
    strokeWeight(1);
    // Initiate array with random values for circles
    for(int j=0;j< count;j++){
      e[j][0]=random(width); // X 
      e[j][1]=random(height); // Y
      e[j][2]=random(minSize,maxSize); // Radius        
      e[j][3]=random(-.5,.5); // X Speed
      e[j][4]=random(-.5,.5); // Y Speed    
    }
  }

  // Begin main draw loop (called 25 times per second)
  void draw(){
    // Fill background black
    background(0);
    // Begin looping through circle array
    for (int j=0;j< count;j++){
    // Disable shape stroke/border
    noStroke();
    // Cache diameter and radius of current circle
    float radi=e[j][2];
    float diam=radi/2;
    // If the cursor is within 2x the radius of current circle...
    if( dist(e[j][0],e[j][1],mouseX,mouseY) < radi ){
    // Change fill color to green.
    fill(64,187,128,100);
    // Remember user has circle "selected"  
    sel=1;
    // If user has mouse down and is moving...
    if (dragging){
      // Move circle to circle position
      e[j][0]=mouseX;
      e[j][1]=mouseY;
      }
    } else {
      // Keep fill color blue
      fill(64,128,187,100);
      // User has nothing "selected"
      sel=0;
    }
    // Draw circle
    ellipse(e[j][0],e[j][1],radi,radi);
    // Move circle
    e[j][0]+=e[j][3];
    e[j][1]+=e[j][4];
     

    /* Wrap edges of canvas so circles leave the top
    and re-enter the bottom, etc... */ 
    if( e[j][0] < -diam      ){ e[j][0] = width+diam;  } 
    if( e[j][0] > width+diam ){ e[j][0] = -diam;       }
    if( e[j][1] < 0-diam     ){ e[j][1] = height+diam; }
    if( e[j][1] > height+diam){ e[j][1] = -diam;       }

    // If current circle is selected...
    if (sel==1) {
      // Set fill color of center dot to white..
      fill(255,255,255,255);
      // ..and set stroke color of line to green.
      stroke(128,255,0,100);      
    } else {            
      // otherwise set center dot color to black.. 
      fill(0,0,0,255);
      // and set line color to turquoise.
      stroke(64,128,128,255);      
    }

    // Loop through all circles
    for(int k=0;k< count;k++){
      // If the circles are close...
      if( dist(e[j][0],e[j][1],e[k][0],e[k][1]) < radi){
        // Stroke a line from current circle to adjacent circle
        line(e[j][0],e[j][1],e[k][0],e[k][1]);
      }
    }
    // Turn off stroke/border
    noStroke();      
    // Draw dot in center of circle
    rect(e[j][0]-ds,e[j][1]-ds,ds*2,ds*2);
    }
  }

fin pjs

trois

 /* 
  PROCESSINGJS.COM HEADER ANIMATION  
  MIT License - F1lT3R/Hyper-Metrix
  Native Processing Compatible 
  */  

  // Set number of circles
  int count = 20;
  // Set maximum and minimum circle size
  int maxSize = 100;
  int minSize = 20;
  // Build float array to store circle properties
  float[][] e = new float[count][5];
  // Set size of dot in circle center
  float ds=2;
  // Selected mode switch
  int sel = 0;
  // Set drag switch to false
  boolean dragging=false;
  // If use drags mouse...
  void mouseDragged(){
    // Set drag switch to true
    dragging=true;
  }
  // If user releases mouse...
  void mouseReleased(){
    // ..user is no-longer dragging
    dragging=false;
  }

  // Set up canvas
  void setup(){
    // Frame rate
    frameRate(10);
    // Size of canvas (width,height)
    size(400,78);
    // Stroke/line/border thickness
    strokeWeight(1);
    // Initiate array with random values for circles
    for(int j=0;j< count;j++){
      e[j][0]=random(width); // X 
      e[j][1]=random(height); // Y
      e[j][2]=random(minSize,maxSize); // Radius        
      e[j][3]=random(-.5,.5); // X Speed
      e[j][4]=random(-.5,.5); // Y Speed    
    }
  }

  // Begin main draw loop (called 25 times per second)
  void draw(){
    // Fill background black
    background(0);
    // Begin looping through circle array
    for (int j=0;j< count;j++){
    // Disable shape stroke/border
    noStroke();
    // Cache diameter and radius of current circle
    float radi=e[j][2];
    float diam=radi/2;
    // If the cursor is within 2x the radius of current circle...
    if( dist(e[j][0],e[j][1],mouseX,mouseY) < radi ){
    // Change fill color to green.
    fill(64,187,128,100);
    // Remember user has circle "selected"  
    sel=1;
    // If user has mouse down and is moving...
    if (dragging){
      // Move circle to circle position
      e[j][0]=mouseX;
      e[j][1]=mouseY;
      }
    } else {
      // Keep fill color blue
      fill(64,128,187,100);
      // User has nothing "selected"
      sel=0;
    }
    // Draw circle
    ellipse(e[j][0],e[j][1],radi,radi);
    // Move circle
    e[j][0]+=e[j][3];
    e[j][1]+=e[j][4];
     

    /* Wrap edges of canvas so circles leave the top
    and re-enter the bottom, etc... */ 
    if( e[j][0] < -diam      ){ e[j][0] = width+diam;  } 
    if( e[j][0] > width+diam ){ e[j][0] = -diam;       }
    if( e[j][1] < 0-diam     ){ e[j][1] = height+diam; }
    if( e[j][1] > height+diam){ e[j][1] = -diam;       }

    // If current circle is selected...
    if (sel==1) {
      // Set fill color of center dot to white..
      fill(255,255,255,255);
      // ..and set stroke color of line to green.
      stroke(128,255,0,100);      
    } else {            
      // otherwise set center dot color to black.. 
      fill(0,0,0,255);
      // and set line color to turquoise.
      stroke(64,128,128,255);      
    }

    // Loop through all circles
    for(int k=0;k< count;k++){
      // If the circles are close...
      if( dist(e[j][0],e[j][1],e[k][0],e[k][1]) < radi){
        // Stroke a line from current circle to adjacent circle
        line(e[j][0],e[j][1],e[k][0],e[k][1]);
      }
    }
    // Turn off stroke/border
    noStroke();      
    // Draw dot in center of circle
    rect(e[j][0]-ds,e[j][1]-ds,ds*2,ds*2);
    }
  }

trois fin

quatre

 /* 
  PROCESSINGJS.COM HEADER ANIMATION  
  MIT License - F1lT3R/Hyper-Metrix
  Native Processing Compatible 
  */  

  // Set number of circles
  int count = 20;
  // Set maximum and minimum circle size
  int maxSize = 100;
  int minSize = 20;
  // Build float array to store circle properties
  float[][] e = new float[count][5];
  // Set size of dot in circle center
  float ds=2;
  // Selected mode switch
  int sel = 0;
  // Set drag switch to false
  boolean dragging=false;
  // If use drags mouse...
  void mouseDragged(){
    // Set drag switch to true
    dragging=true;
  }
  // If user releases mouse...
  void mouseReleased(){
    // ..user is no-longer dragging
    dragging=false;
  }

  // Set up canvas
  void setup(){
    // Frame rate
    frameRate(10);
    // Size of canvas (width,height)
    size(200,78);
    // Stroke/line/border thickness
    strokeWeight(1);
    // Initiate array with random values for circles
    for(int j=0;j< count;j++){
      e[j][0]=random(width); // X 
      e[j][1]=random(height); // Y
      e[j][2]=random(minSize,maxSize); // Radius        
      e[j][3]=random(-.5,.5); // X Speed
      e[j][4]=random(-.5,.5); // Y Speed    
    }
  }

  // Begin main draw loop (called 25 times per second)
  void draw(){
    // Fill background black
    background(0);
    // Begin looping through circle array
    for (int j=0;j< count;j++){
    // Disable shape stroke/border
    noStroke();
    // Cache diameter and radius of current circle
    float radi=e[j][2];
    float diam=radi/2;
    // If the cursor is within 2x the radius of current circle...
    if( dist(e[j][0],e[j][1],mouseX,mouseY) < radi ){
    // Change fill color to green.
    fill(64,187,128,100);
    // Remember user has circle "selected"  
    sel=1;
    // If user has mouse down and is moving...
    if (dragging){
      // Move circle to circle position
      e[j][0]=mouseX;
      e[j][1]=mouseY;
      }
    } else {
      // Keep fill color blue
      fill(64,128,187,100);
      // User has nothing "selected"
      sel=0;
    }
    // Draw circle
    ellipse(e[j][0],e[j][1],radi,radi);
    // Move circle
    e[j][0]+=e[j][3];
    e[j][1]+=e[j][4];
     

    /* Wrap edges of canvas so circles leave the top
    and re-enter the bottom, etc... */ 
    if( e[j][0] < -diam      ){ e[j][0] = width+diam;  } 
    if( e[j][0] > width+diam ){ e[j][0] = -diam;       }
    if( e[j][1] < 0-diam     ){ e[j][1] = height+diam; }
    if( e[j][1] > height+diam){ e[j][1] = -diam;       }

    // If current circle is selected...
    if (sel==1) {
      // Set fill color of center dot to white..
      fill(255,255,255,255);
      // ..and set stroke color of line to green.
      stroke(128,255,0,100);      
    } else {            
      // otherwise set center dot color to black.. 
      fill(0,0,0,255);
      // and set line color to turquoise.
      stroke(64,128,128,255);      
    }

    // Loop through all circles
    for(int k=0;k< count;k++){
      // If the circles are close...
      if( dist(e[j][0],e[j][1],e[k][0],e[k][1]) < radi){
        // Stroke a line from current circle to adjacent circle
        line(e[j][0],e[j][1],e[k][0],e[k][1]);
      }
    }
    // Turn off stroke/border
    noStroke();      
    // Draw dot in center of circle
    rect(e[j][0]-ds,e[j][1]-ds,ds*2,ds*2);
    }
  }

fin quatre