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/* This code is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this code. If not, see <http://www.gnu.org/licenses/>. */
/* Code logic in short: The code reads the webcam image Detects contours Filter contours based on size Checks whether contour is new or a movement of an existing contour based on a threshold Reoccuring contours are saved as blobs The first blob is assigned as being pacman, you can also click on another blob to switch pacman A matrix of dots is drawn In case pacman is near a dot, it gets destroy and score + 1 */
/* Most important values for tracking: contourTreshold sizeTreshold /*
/* Load libraries */ import gab.opencv.*; // Load library https://github.com/atduskgreg/opencv-processing import processing.video.*; // Load video camera library
/* Declare variables */ Capture video; // Camera stream OpenCV opencv; // OpenCV PImage now, diff; // PImage variables to store the current image and the difference between two images
PGraphics drawing; // PGraphics buffer
ArrayList<Contour> contours; // ArrayList to hold all detected contours ArrayList<Blob> blobs = new ArrayList <Blob>(); // ArrayList to hold all blobs
PFont font; // A new font object
int ContourThreshold = 20; // Contour detection sensitivity of the script int SizeThreshold = 100; // Contour size threshold int MovementMargin = 40; // Max difference in coordinates int segmentSize = 5; // orig 5; int segmentThreshold = segmentSize * segmentSize / 3;
/* Slider Bar */ HScrollbar hs1, hs2; Boolean scroll_lock = false;
/* Setup function */ void setup() { size(640, 960); // Create canvas window // Select camera: print all available cameras in a list String[] cameras = Capture.list(); if (cameras.length == 0) { println("There are no cameras available for capture."); exit(); } else { println("Available cameras:"); for (int i = 0; i < cameras.length; i++) { println(i, cameras[i]); } } // select the number of the webcam camera from the list // video = new Capture(this, 640, 480, cameras[12], 30); // Define video size, with webcam plugged in video = new Capture(this, 640, 480, cameras[16], 30); opencv = new OpenCV(this, 640, 480); // Define opencv size
video.start(); // Start capturing video
font = loadFont("Serif-48.vlw"); // Load the font file into memory textFont(font, 12); // Set font size strokeWeight(3); // Set stroke size noStroke(); hs1 = new HScrollbar(0, height/2-8, width, 16, 16); hs2 = new HScrollbar(0, height/2+8, width, 16, 16); }
/* Draw function */ void draw() { // start buffer drawing = createGraphics(640, 480); drawing.beginDraw(); drawing.noStroke(); int[] segments = new int[int(640/segmentSize)*int((480)/segmentSize)]; // Set number segments opencv.loadImage(video); // Capture video from camera in OpenCV image(video, 0, 0); // Draw camera image to screen opencv.gray(); // Convert into gray scale //opencv.contrast(2); // Increase contrast opencv.invert(); // Invert b/w //opencv.blur(3); // Reduce camera noise opencv.threshold(ContourThreshold); // Convert to Black and White //opencv.flip(OpenCV.VERTICAL); // Flip image vertical now = opencv.getOutput(); // Store image in PImage image(now, 0, 480); // Show video (black and white)
// Analyze image int segmentCounter = 0; for( int x = 1; x < 640; x = x + segmentSize) { for ( int y = 1; y < 480; y = y + segmentSize) { int segmentBrightness = 0; for ( int i = 0; i < segmentSize; i++) { for ( int j = 0; j < segmentSize; j++) { if (brightness(now.pixels[x+i+(y*width)+j]) > 127) { segmentBrightness++; } } } if(segmentBrightness > segmentThreshold) { // segment is bright segments[segmentCounter] = 1; drawing.fill(255,255,255); drawing.rect(x-1,y-1,12,12); } segmentCounter++; } }
drawing.endDraw();
// Draw the offscreen buffer to the screen with image() image(drawing, 0, 0); //opencv.loadImage(drawing); // Analyze video contours = opencv.findContours(); // Find contours int evalc = 0; // Count number of evaluated contours for (Contour contour : contours) { // Loop through all contours int sumx = 0; // Sum of all x coordinates int sections = 0; // # of sections int sumy = 0; // Sum of all y coordinates int area = 0; // Area of polygon ArrayList<Integer> Xcoors = new ArrayList<Integer>(); // List of all X coordinates ArrayList<Integer> Ycoors = new ArrayList<Integer>(); // List of all Y coordinates for (PVector point : contour.getPolygonApproximation().getPoints()) { // Loop through all vertex X Y coordinates of polygon sumx = sumx + int(point.x); // Sum up all X coordinates, needed for calculating the middle sumy = sumy + int(point.y); // Sum up all Y coordinates, needed for calculating the middle Xcoors.add(int(point.x)); // Store all X coordinates, needed for calculating the area Ycoors.add(int(point.y)); // Store all Y coordinates, needed for calculating the area sections++; // Count the number of sections } // Calculate the area of the polygon int j = 0; for (int i = 0; i < sections; i++) { area = area + (Xcoors.get(j)+Xcoors.get(i)) * (Ycoors.get(j)-Ycoors.get(i)); j = i; } area = area / 2; if(area > SizeThreshold && area < 100000) { // Check whether area is above threshold and not as big as the video itself evalc++; // Up 1 for the evaluated contours counter noFill(); // Disable filled shapes stroke(0, 255, 0); // Set stroke color to green contour.draw(); // Draw the contour fill(255, 0, 0); // Set color to red text((sumx/sections) + ", " + (sumy/sections), (sumx/sections), (sumy/sections)); // Print the coordinates on screen if(blobs.size() > 0) { // Check whether this is the first blob or not boolean withinmargin = false; // Flag whether it is close to a previous blob int withinmarginID = 0; // Remember which one that was for( int i = 0; i < blobs.size(); i++) { // Loop through all blobs Blob _blob = (Blob) blobs.get(i); // Make a temp copy int lastX = _blob.blobX.get(_blob.blobX.size()-1); // most recent X coordinate int lastY = _blob.blobY.get(_blob.blobY.size()-1); // most recent Y coordinate // Check whether the contour is within movement margin, otherwise it's a new blob if(lastX < (sumx/sections + MovementMargin)){ if(lastX > (sumx/sections - MovementMargin)) { if(lastY < (sumy/sections + MovementMargin)) { if(lastY > (sumy/sections - MovementMargin)) { withinmargin = true; withinmarginID = i; // println("hit X old: " + lastX + "; new:" + sumx/c + "; Y old: " + lastY + "; Y new: " +sumy/c); } } } } _blob = null; // Reset temp copy } if(withinmargin) { // Within margin? True: add coordinates to ArrayList Blob _blob = (Blob) blobs.get(withinmarginID); // Make temp copy of blob _blob.addXYSA(sumx/sections, sumy/sections, sections, area); // Add the information to the ArrayLists of the blob object blobs.set(withinmarginID, _blob); // Store the blob } else { // else: it's a new blob blobs.add(new Blob(sumx/sections, sumy/sections, sections, area, false)); // Add new blob to the blobs ArrayList } } else { // Add first blob, which becomes PacMan blobs.add(new Blob(sumx/sections, sumy/sections, sections, area, true)); // Store blob and flag as PacMan } } } // Print some useful monitoring info to the console println("Found " + contours.size() + " Contours; area > "+SizeThreshold+" px " + evalc + "; Total "+ blobs.size() + " blobs" + " mouseX: " + mouseX);
ContourThreshold = int(hs1.getPos()); // get scrollbar position fill(0,0,255); // Set color to blue textSize(20); // Increase text size text("CountourThreshold: " + ContourThreshold, 20, 40); int multiplySizeTreshold = 2; // variable for multiplying the Sizetreshold SizeThreshold = int(hs2.getPos()) * multiplySizeTreshold; // NEW: multiply w/ 100 to get a bigger max SizeTreshold // SizeThreshold = int(hs2.getPos()); text("SizeThreshold: " + SizeThreshold * 10, 30, 60); scroll_lock = hs1.update(scroll_lock); scroll_lock = hs2.update(scroll_lock); hs1.display(); hs2.display(); // Wait a little before the next round to save processing power and memory delay(40); }
/* Capture function */ void captureEvent(Capture c) { c.read(); }
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