mirror of
https://github.com/processing/processing4.git
synced 2026-02-02 13:21:07 +01:00
112 lines
2.5 KiB
Java
112 lines
2.5 KiB
Java
import processing.core.*;
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import java.applet.*;
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import java.awt.*;
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import java.awt.image.*;
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import java.awt.event.*;
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import java.io.*;
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import java.net.*;
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import java.text.*;
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import java.util.*;
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import java.util.zip.*;
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import java.util.regex.*;
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public class Puff extends PApplet {
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/**
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* Puff
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* by Ira Greenberg.
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*
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* Series of ellipses simulating a multi-segmented
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* organism, utilizing a follow the leader algorithm.
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* Collision detection occurs on the organism's head,
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* controlling overall direction, and on the individual
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* body segments, controlling body shape and jitter.
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*/
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// for puff head
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float headX;
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float headY;
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float speedX = .7f;
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float speedY = .9f;
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// for puff body
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int cells = 1000;
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float[]px= new float[cells];
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float[]py= new float[cells];
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float[]radiiX = new float[cells];
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float[]radiiY = new float[cells];
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float[]angle = new float[cells];
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float[]frequency = new float[cells];
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float[]cellRadius = new float[cells];
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public void setup(){
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size(640, 360);
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// begin in the center
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headX = width/2;
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headY = height/2;
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//fill body arrays
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for (int i=0; i< cells; i++){
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radiiX[i] = random(-7, 7);
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radiiY[i] = random(-4, 4);
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frequency[i]= random(-9, 9);
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cellRadius[i] = random(16, 30);
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}
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frameRate(30);
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}
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public void draw(){
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background(0);
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noStroke();
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fill(255, 255, 255, 5);
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//follow the leader
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for (int i =0; i< cells; i++){
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if (i==0){
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px[i] = headX+sin(radians(angle[i]))*radiiX[i];
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py[i] = headY+cos(radians(angle[i]))*radiiY[i];
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}
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else{
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px[i] = px[i-1]+cos(radians(angle[i]))*radiiX[i];
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py[i] = py[i-1]+sin(radians(angle[i]))*radiiY[i];
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//check collision of body
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if (px[i] >= width-cellRadius[i]/2 || px[i] <= cellRadius[i]/2){
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radiiX[i]*=-1;
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cellRadius[i] = random(1, 40);
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frequency[i]= random(-13, 13);
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}
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if (py[i] >= height-cellRadius[i]/2 || py[i] <= cellRadius[i]/2){
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radiiY[i]*=-1;
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cellRadius[i] = random(1, 40);
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frequency[i]= random(-9, 9);
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}
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}
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// draw puff
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ellipse(px[i], py[i], cellRadius[i], cellRadius[i]);
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// set speed of body
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angle[i]+=frequency[i];
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}
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// set velocity of head
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headX+=speedX;
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headY+=speedY;
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//check boundary collision of head
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if (headX >= width-cellRadius[0]/2 || headX <=cellRadius[0]/2){
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speedX*=-1;
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}
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if (headY >= height-cellRadius[0]/2 || headY <= cellRadius[0]/2){
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speedY*=-1;
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}
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}
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static public void main(String args[]) {
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PApplet.main(new String[] { "Puff" });
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}
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}
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