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Game.pde
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Thu, May 9, 07:08

Game.pde
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import java.text.DecimalFormat;
import processing.video.*;
Mover mover; //The ball
Cylinder cyl; //The basis of all cylinders
HScrollbar hs;
Capture cam;
Canny canny;
PImage img;
PShape globe;
PShape robot; //The vilain
float depth = 2000; //the depth from the box
boolean GameOver=false;
//Score;
ArrayList<Float> scores;
float score;
float scoreMalus = -1;
int scoreTimer = 0;
int prVeloFreq = 20; //The frequency at which the velocity is printed
float lastScore;
float veloMag;
float scoreFactor = 0.5; //lastScore = scoreFactor * lastVelocity;
float VilainScoreMultiplier=10;//bonus score given when killing the vilain
boolean win = false;
int minHistowidth = 1, maxHistowidth = 20, histowidth;
float maxScore = 10, minScore=-10;
float drawingFactor; // = histoHeight /(maxScore -minScore);
int barChartWidth, barChartHeight, bcCubeHeight = 5;
boolean mousePermittedToMove=true;
//Plate size
float plate_w=1000;
float plate_t=plate_w/20;
float x_coord, y_coord;
float mX, mY; //mouse X position
float xOnPlane, yOnPlane; //coordinate on 2D on the box
float rz, rx; //rotate x and rotate z
float cameraHeight;
float speed=10;
float radius=plate_t*4/5;
DecimalFormat f = new DecimalFormat("#0.00");
DecimalFormat f2 = new DecimalFormat("#0");
boolean shiftMod=false;
ParticleWin partW;
ParticleSystem partSys=null;
long previousFrame=0;
float timeIntervalParticle=0.5;//seconds
int margin = 15; //marge between surface
int botPartHeight = 300;
int topViewWidth = botPartHeight-0;
PGraphics gameSurface;
PGraphics statSurface;
PGraphics topView;
PGraphics scoreboard;
PGraphics barChart;
void settings() {
size(displayWidth, displayHeight-60, P3D);
fullScreen();
x_coord=width/2;
y_coord=height/2;
}
void setup() {
mover = new Mover();
partW=new ParticleWin(mover);
cyl=new Cylinder();
scores = new ArrayList<Float>();
hs = new HScrollbar(750, height -50, 500, 20);
img = loadImage("earth.jpg");
globe = createShape(SPHERE, radius);
globe.setStroke(false);
globe.setTexture(img);
img = loadImage("robotnik.png");
robot = loadShape("robotnik.obj");
robot.setTexture(img);
gameSurface=createGraphics(width, height-botPartHeight, P3D);
topView=createGraphics(topViewWidth, topViewWidth, P2D);
statSurface=createGraphics(3*botPartHeight, botPartHeight/3, P2D);
scoreboard = createGraphics(botPartHeight-2*margin, botPartHeight-2*margin, P2D);
barChartWidth = width - (botPartHeight+margin) *2;
barChartHeight = botPartHeight-2*margin-50;
barChart = createGraphics(barChartWidth, barChartHeight, P2D);
//init camera
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(cameras[i]);
}
//If you're using gstreamer0.1 (Ubuntu 16.04 and earlier),
//select your predefined resolution from the list:
//cam = new Capture(this, cameras[21]);
//If you're using gstreamer1.0 (Ubuntu 16.10 and later),
//select your resolution manually instead:
cam = new Capture(this, 640, 480, cameras[0]);
println(cam==null);
cam.start();
}
canny = new Canny();
String []args = {"Image processing window"};
PApplet.runSketch(args, canny);
}
void draw() {
background(181, 65, 2);
drawGame();
image(gameSurface, 0, 0);
drawTopView();
image(topView, margin, height-botPartHeight);
drawStat();
image(statSurface, 0, 0);
drawScoreboard();
image(scoreboard, botPartHeight+2*margin, height-botPartHeight+margin);
drawBarChart();
image(barChart, 2*botPartHeight+margin, height-botPartHeight+margin);
println(canny.update());
hs.update();
hs.display();
}
void drawBarChart() {
barChart.beginDraw();
barChart.background(242, 86, 2);
barChart.fill(40, 10, 200);
histowidth = (int)(hs.getPos()*(maxHistowidth-minHistowidth)+minHistowidth);
int maxRect = barChartWidth / histowidth;
int start = (scores.size() < maxRect)? 0 : scores.size()-maxRect;
for (int i = start; i < scores.size(); ++i) {
float zeroInHisto = drawingFactor * (maxScore);
float posInHisto = drawingFactor * (-scores.get(i)+maxScore) ;
int nbOfCube ;
if (zeroInHisto>posInHisto) { //positif
nbOfCube = (int)(( zeroInHisto - posInHisto)/bcCubeHeight);
for (int j = 0; j < nbOfCube; ++j) {
barChart.rect((i-start)*histowidth, posInHisto + j * bcCubeHeight, histowidth, bcCubeHeight);
}
} else {
nbOfCube = (int)((posInHisto - zeroInHisto)/bcCubeHeight);
for (int j = 0; j < nbOfCube; ++j) {
barChart.rect((i-start)*histowidth, zeroInHisto + j * bcCubeHeight, histowidth, bcCubeHeight);
}
}
//float top = (zeroInHisto<posInHisto)?zeroInHisto:posInHisto; //negatif
//float bot = ((zeroInHisto>posInHisto)?zeroInHisto:posInHisto)-top;
//barChart.rect((i-start)*histowidth, top, histowidth, bot);
}
barChart.endDraw();
}
void updateScore(float points) {
score += points;
scores.add(score);
minScore = (score<minScore)? score : minScore;
maxScore = (score>maxScore)? score : maxScore;
drawingFactor = barChartHeight/(maxScore-minScore+2);
}
void drawScoreboard() {
scoreboard.beginDraw();
scoreboard.background(242, 86, 2);
scoreTimer = (scoreTimer%prVeloFreq == prVeloFreq-1) ? 0 : ++scoreTimer;
veloMag = (scoreTimer == 0)? mover.velocity.mag():veloMag;
scoreboard.fill(0);
scoreboard.textSize(25);
scoreboard.text("Total Score : \n "+f.format(score), 15, 40);
scoreboard.text("Velocity : \n "+f.format(veloMag), 15, 130);
scoreboard.text("Last score : \n "+f.format(lastScore), 15, 220);
scoreboard.endDraw();
}
void drawTopView() {
topView.beginDraw();
topView.background(181, 65, 2);
topView.fill(0, 150, 150);
topView.rect(0, 0, topViewWidth, topViewWidth);
topView.fill(255, 255, 255);
float topViewCylRad=map(cyl.cylinderBaseSize, 0, plate_w/2, 0, topViewWidth);
if (partSys!=null) {
for (PVector pv : partSys.cylinders) {
float topViewCylX=map(pv.x, -plate_w/2, plate_w/2, 0, topViewWidth);
float topViewCylY=map(pv.y, -plate_w/2, plate_w/2, 0, topViewWidth);
topView.ellipse(topViewCylX, topViewCylY, topViewCylRad, topViewCylRad);
}
if (partSys.cylinders.contains(partSys.mainCyl)) {
topView.fill(255, 0, 0);
float topViewCylX=map(partSys.mainCyl.x, -plate_w/2, plate_w/2, 0, topViewWidth);
float topViewCylY=map(partSys.mainCyl.y, -plate_w/2, plate_w/2, 0, topViewWidth);
topView.ellipse(topViewCylX, topViewCylY, topViewCylRad, topViewCylRad);
}
}
topView.fill(0, 0, 255);
float topViewBallRad=map(radius, 0, plate_w/2, 0, topViewWidth);
float topViewBallX=map(mover.location.x, -plate_w/2, plate_w/2, 0, topViewWidth);
float topViewBallY=map(mover.location.y, -plate_w/2, plate_w/2, 0, topViewWidth);
topView.ellipse(topViewBallX, topViewBallY, topViewBallRad, topViewBallRad);
topView.endDraw();
}
void drawStat() {
statSurface.beginDraw();
statSurface.background(0, 0, 0, 0);
statSurface.fill(0);
statSurface.textSize(25);
statSurface.text("Rotation X : "+f.format(rx/Math.PI*180)+"° Rotation Z : "+f.format(rz/Math.PI*180)+"° speed: "+f.format(speed/10), 5, 25);
statSurface.text("Ball location : ("+f2.format(mover.location.x)+","+f2.format(mover.location.y)+")", 5, 50);
statSurface.text("Ball velocity : ("+f2.format(mover.velocity.x)+","+f2.format(mover.velocity.y)+")", 5, 75);
statSurface.endDraw();
}
void drawGame() {
gameSurface.beginDraw();
if (GameOver) {
gameSurface.background(50, 65, 200);
} else {
gameSurface.background(100, 0, 0);
}
gameSurface.directionalLight(50, 100, 125, 0, 1, 0);
gameSurface.ambientLight(102, 102, 102);
gameSurface.pointLight(150, 150, 150, 0, -200, 0);
if (!shiftMod) {
mover.update();
mover.checkEdges();
if (partSys!=null) {
GameOver|=mover.checkCylinderCollision(partSys.cylinders, radius, partSys.mainCyl);
}
rz = map(x_coord, 0, width, -PI/3, PI/3);
rx = map(y_coord, 0, height, -PI/3, PI/3);
cameraHeight=400;
} else {
rz=0;
rx=-PI/2;
cameraHeight=0;
}
gameSurface.pushMatrix();
gameSurface.camera(0, -cameraHeight, depth, 0, 0, 0, 0, 1, 0);
gameSurface.rotateZ(rz);
gameSurface.rotateX(rx);
gameSurface.shininess(100);
gameSurface.box(plate_w, plate_t, plate_w);
//particles
if (partSys!=null) {
if (frameCount-previousFrame>=timeIntervalParticle*frameRate && !shiftMod) {
timeIntervalParticle=random(0.2, 1.2);
previousFrame=frameCount;
partSys.addParticle();
}
partSys.run(-(plate_t/2), PI/2);
}
if (partW!=null && GameOver) {
partW.updateNdraw();
}
if (shiftMod) {
xOnPlane=map(mouseX, gameSurface.screenX(-plate_w/2, 0, 0), gameSurface.screenX(plate_w/2, 0, 0), -plate_w/2, plate_w/2);
yOnPlane=map(mouseY, gameSurface.screenY(0, 0, -plate_w/2), gameSurface.screenY(0, 0, plate_w/2), -plate_w/2, plate_w/2);
cyl.draw(xOnPlane, yOnPlane, -(plate_t/2), PI/2);
}
gameSurface.translate(mover.getX(), -(plate_t/2+radius), mover.getY());
gameSurface.fill(255, 100, 100);
gameSurface.rotateX(mover.getRotX());
gameSurface.rotateZ(mover.getRotZ());
gameSurface.shape(globe);
gameSurface.popMatrix();
//Draw the text
gameSurface.pushMatrix();
if (shiftMod) {
gameSurface.textSize(50);
gameSurface.text("[EDIT MOD ON]", 50, 500);
}
gameSurface.fill(255);
gameSurface.popMatrix();
gameSurface.endDraw();
}
void mouseWheel(MouseEvent event) {
float e = event.getCount();
if (e<0) {
speed-=speed<=2?0:1;
} else {
speed+=speed>=15?0:1;
}
}
void mouseDragged() {
if (!shiftMod && mousePermittedToMove) {
float d=-(mX-mouseX)*speed/10;
x_coord=x_coord+d<=0?0:x_coord+d>=width?width:x_coord+d;
mX=mouseX;
d=(mY-mouseY)*speed/10;
y_coord=y_coord+d<=0?0:y_coord+d>=height?height:y_coord+d;
mY=mouseY;
}
}
void mousePressed() {
if (mouseY>height-botPartHeight) {
mousePermittedToMove=false;
} else {
mousePermittedToMove=true;
}
mX = mouseX;
mY = mouseY;
if (shiftMod && -plate_w/2<xOnPlane && xOnPlane<plate_w/2 && -plate_w/2<yOnPlane && yOnPlane<plate_w/2
&& (Math.abs(xOnPlane-mover.location.x) > 2*radius || Math.abs(yOnPlane-mover.location.y) > 2*radius)) {
partSys=new ParticleSystem(new PVector(xOnPlane, yOnPlane), mover, radius);
GameOver=false;
}
}
void keyPressed() {
if (keyCode == SHIFT) {
shiftMod=true;
}
}
void keyReleased() {
if (keyCode == SHIFT) {
shiftMod=false;
}
}

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