/** * Mirror * by Daniel Shiffman. * * Each pixel from the video source is drawn as a rectangle with rotation based on brightness. */ import processing.video.*; // Size of each cell in the grid int cellSize = 20; // Number of columns and rows in our system int cols, rows; // Variable for capture device Capture video; void setup() { size(640, 480); frameRate(30); cols = width / cellSize; rows = height / cellSize; colorMode(RGB, 255, 255, 255, 100); // This the default video input, see the GettingStartedCapture // example if it creates an error video = new Capture(this, width, height); // Start capturing the images from the camera video.start(); background(0); } void draw() { if (video.available()) { video.read(); video.loadPixels(); // Begin loop for columns for (int i = 0; i < cols; i++) { // Begin loop for rows for (int j = 0; j < rows; j++) { // Where are we, pixel-wise? int x = i*cellSize; int y = j*cellSize; int loc = (video.width - x - 1) + y*video.width; // Reversing x to mirror the image float r = red(video.pixels[loc]); float g = green(video.pixels[loc]); float b = blue(video.pixels[loc]); // Make a new color with an alpha component color c = color(r, g, b, 75); // Code for drawing a single rect // Using translate in order for rotation to work properly pushMatrix(); translate(x+cellSize/2, y+cellSize/2); // Rotation formula based on brightness rotate((2 * PI * brightness(c) / 255.0)); rectMode(CENTER); fill(c); noStroke(); // Rects are larger than the cell for some overlap rect(0, 0, cellSize+6, cellSize+6); popMatrix(); } } } }