private void setUpDisplay() {
try {
Display.setDisplayMode(new DisplayMode(WIDTH, HEIGHT));
Display.setTitle("Pong");
Display.create();
} catch (LWJGLException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}
private void endThisLoop() {
// FPS meter
if (time <= System.currentTimeMillis() - 1000) {
Display.setTitle("Simulating gravity @ " + frameNumber + " FPS"); // Normal
FPS = frameNumber;
frameNumber = 0;
time = System.currentTimeMillis();
} else {
frameNumber++;
}
Display.update();
Display.sync(60);
}
private void startDisplayLoop() {
while (!Display.isCloseRequested()) {
GL11.glClear(GL11.GL_COLOR_BUFFER_BIT | GL11.GL_DEPTH_BUFFER_BIT);
checkInput();
applyPhysics();
drawStuff();
endThisLoop();
}
endProgram();
Display.destroy();
}
public PongGame() {
setUpDisplay();
setUpOpengGL();
setUpEntities();
setUpTimer();
while (isRunning) {
render();
logic(getDelta());
input();
Display.update();
Display.sync(60);
if (Display.isCloseRequested()) {
isRunning = false;
}
}
Display.destroy();
}
private void initGL(int width, int height) {
try {
// DisplayMode mode = new DisplayMode(width,height);
// DisplayMode mode = Display.getDesktopDisplayMode(); Old code, for not-fullscreen stuff
Display.setDisplayMode(Display.getDesktopDisplayMode());
Display.setFullscreen(true);
Display.create();
Display.setVSyncEnabled(true);
} catch (LWJGLException e) {
System.out.println("Catched an error in intiGL");
e.printStackTrace();
System.exit(0);
}
// init OpenGL
GL11.glMatrixMode(GL11.GL_PROJECTION);
GL11.glLoadIdentity();
GL11.glOrtho(0, width, 0, height, 1, -1);
GL11.glMatrixMode(GL11.GL_MODELVIEW);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
}
public SimpleRenderer(int x, int y) {
this.width = x;
this.height = y;
try {
Display.setDisplayMode(new DisplayMode(x, y));
Display.setTitle("Crowd Simulation");
Display.create();
Display.setVSyncEnabled(true);
} catch (LWJGLException e) {
e.printStackTrace();
}
Random r = new Random();
System s = new System(this.width, this.height - 2, 0.0f, 1.0f);
for (int i = 0; i < 1200; i++) {
int xX = r.nextInt(this.width);
int yY = r.nextInt(this.height);
int oldX = xX; // + r.nextInt(1) ;
int oldY = yY; // + r.nextInt(2) + 1;
double size = r.nextGaussian() * 1.2 + 16;
addPoint(
s,
xX,
yY,
oldX,
oldY,
(float) size, // r.nextFloat() * 20 + 10,
1,
i > 600 ? 0 : 1,
1,
i > 600 ? -0.9 : 0.9); // r.nextFloat(), r.nextFloat(), r.nextFloat());
// addPoint(s, xX, yY, oldX, oldY, (float)size,//r.nextFloat() * 20 + 10,
// r.nextFloat(), r.nextFloat(), r.nextFloat(),i>400 ?-r.nextFloat():r.nextFloat());
}
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
glOrtho(0, x, y, 0, 1, -1);
glMatrixMode(GL_MODELVIEW);
boolean isPressed = false;
while (!Display.isCloseRequested()) // rendering
{
glClear(GL_COLOR_BUFFER_BIT);
// glClearColor(1.0f,1.0f,1.0f,1.0f);
if (Mouse.isButtonDown(0)) {
// isPressed = true;
/*int xX = Mouse.getX();
int yY = this.height - Mouse.getY();
int oldX = xX;// + r.nextInt(4) - 2;
int oldY = yY;
double size = r.nextGaussian()*1.2 +14;
addPoint(s, xX, yY, oldX, oldY,(float)size,// r.nextFloat() * 20 + 10,
r.nextFloat(), r.nextFloat(), r.nextFloat(),30);
*/
s.setDestroying(true);
}
if (Mouse.isButtonDown(1)) {
for (int i = -150; i < 150; i += 10) {
int xX = Mouse.getX();
int yY = this.height - Mouse.getY();
s.applyDirerction(s.searchPoint(xX, yY + i), 10);
}
}
// java.lang.System.out.println("Number of objects: " +s.getListOfPoints().size() +"
// Destroying? "+ s.isDestroying());
s.step(3);
int xX = Mouse.getX();
int yY = this.height - Mouse.getY();
for (int i = -150; i < 150; i += 10) {
Point k = s.searchPoint(xX, yY + i);
if (k != null) {
glColor3f(0.0f, 0.0f, 0.0f);
Point.DrawCircle(k.getX(), k.getY(), k.getRadius() - 2, 20);
}
}
Display.update();
Display.sync(30);
}
Display.destroy();
}
public class ScreenDisplay {
final int screenWidth = Display.getDesktopDisplayMode().getWidth();
final int screenHeight = Display.getDesktopDisplayMode().getHeight();
final int maxAmountGravityObjects = 64;
// Create objects
VectorSlider vecSlider = new VectorSlider();
// Create vars DON'T YET DEFINE VALUE
int frameNumber;
int FPS;
int sizeSliderVal;
int sizeSliderMultiplier;
int slices;
double gravConstant;
double vecSliderMultiplier;
boolean drawVector;
long time;
GravityObject[] gravityObjectArray = new GravityObject[maxAmountGravityObjects];
final float[][] colorArray = new float[5][3];
private int sizeSliderMultipier;
// [0]=red
// [1]=green
// [2]=blue
// [3]=white
// [4]=black
ScreenDisplay() { // CONSTRUCTOR
initGL(screenWidth, screenHeight);
load();
startDisplayLoop();
}
private void initGL(int width, int height) {
try {
// DisplayMode mode = new DisplayMode(width,height);
// DisplayMode mode = Display.getDesktopDisplayMode(); Old code, for not-fullscreen stuff
Display.setDisplayMode(Display.getDesktopDisplayMode());
Display.setFullscreen(true);
Display.create();
Display.setVSyncEnabled(true);
} catch (LWJGLException e) {
System.out.println("Catched an error in intiGL");
e.printStackTrace();
System.exit(0);
}
// init OpenGL
GL11.glMatrixMode(GL11.GL_PROJECTION);
GL11.glLoadIdentity();
GL11.glOrtho(0, width, 0, height, 1, -1);
GL11.glMatrixMode(GL11.GL_MODELVIEW);
GL11.glEnable(GL11.GL_BLEND);
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA);
}
private void load() {
frameNumber = 61;
FPS = 0;
sizeSliderVal = 10;
sizeSliderMultiplier = 12;
slices = 100;
gravConstant = 0.1;
vecSliderMultiplier = 0.15;
drawVector = false;
colorArray[0][0] = 1;
colorArray[0][1] = 0;
colorArray[0][2] = 0;
colorArray[1][0] = 0.2f;
colorArray[1][1] = 1;
colorArray[1][2] = 0.2f;
colorArray[2][0] = 0.3f;
colorArray[2][1] = 0.3f;
colorArray[2][2] = 1;
colorArray[3][0] = 1;
colorArray[3][1] = 1;
colorArray[3][2] = 1;
colorArray[4][0] = 0;
colorArray[4][1] = 0;
colorArray[4][2] = 0;
/*loadTexture("tmpNaam", "TX_test.png");*/
}
private float[] randomColorArray() {
float[] array = new float[3];
array[0] = (float) Math.random();
array[1] = (float) Math.random();
array[2] = (float) Math.random();
return array;
}
private void startDisplayLoop() {
while (!Display.isCloseRequested()) {
GL11.glClear(GL11.GL_COLOR_BUFFER_BIT | GL11.GL_DEPTH_BUFFER_BIT);
checkInput();
applyPhysics();
drawStuff();
endThisLoop();
}
endProgram();
Display.destroy();
}
private void endProgram() {
GL11.glClear(GL11.GL_COLOR_BUFFER_BIT | GL11.GL_DEPTH_BUFFER_BIT);
System.exit(0);
}
private void checkInput() {
if (Mouse.isButtonDown(0)) {
leftHold(Mouse.getX(), Mouse.getY());
}
while (Mouse.next()) {
if (Mouse.getEventButtonState() && Mouse.getEventButton() == 0) {
leftClick(Mouse.getX(), Mouse.getY());
}
if (Mouse.getEventButtonState() && Mouse.getEventButton() == 1) {
rightClick();
}
}
while (Keyboard.next()) {
if (Keyboard.getEventKey() == Keyboard.KEY_ESCAPE) {
System.exit(0);
}
if (Keyboard.getEventKey() == Keyboard.KEY_SPACE) {
if (drawVector) {
drawVector = false;
} else {
drawVector = true;
}
}
}
if (Keyboard.isKeyDown(Keyboard.KEY_UP)) {
if (vecSlider.y < 85) {
vecSlider.y++;
}
}
if (Keyboard.isKeyDown(Keyboard.KEY_LEFT)) {
if (vecSlider.x > -90) {
vecSlider.x--;
}
}
if (Keyboard.isKeyDown(Keyboard.KEY_DOWN)) {
if (vecSlider.y > -85) {
vecSlider.y--;
}
}
if (Keyboard.isKeyDown(Keyboard.KEY_RIGHT)) {
if (vecSlider.x < 85) {
vecSlider.x++;
}
}
}
private void leftHold(int x, int y) {
if (y > 5 && y < 55 && x > 10 && x < screenWidth - 200) { // Within sizeSlider region
sizeSliderVal = x / sizeSliderMultiplier;
if (x > screenWidth - 250) {
sizeSliderVal = (screenWidth - 250) / sizeSliderMultiplier;
}
} else if (y < 190
&& x > screenWidth - 190
&& y > 10
&& x < screenWidth - 10) { // Within vecSlider region
vecSlider.x = x - (screenWidth - 100);
vecSlider.y = y - 100;
}
}
private void leftClick(int x, int y) {
if ((y > 70 && x < screenWidth - 200) || (y > 210)) {
drawCircle(x, y, sizeSliderVal + 4, colorArray[0]);
createGravityObject(x, y);
}
}
private void rightClick() {
vecSlider.x = 0;
vecSlider.y = 0;
for (int i = 0; i < gravityObjectArray.length; i++) {
gravityObjectArray[i] = null;
}
}
private void applyPhysics() {
GravityObject[] GOA = gravityObjectArray;
for (int i = 0; i < GOA.length; i++) {
int c = 0;
if (GOA[i] != null) {
double[] xVelAr = new double[128];
double[] yVelAr = new double[128];
for (int j = 0; j < GOA.length; j++) {
if (GOA[j] != null) {
if (GOA[j].size != 0 && GOA[i].size != 0) {
if (i != j) {
double distance =
Math.sqrt(
(Math.pow((GOA[j].xP - GOA[i].xP), 2))
+ (Math.pow((GOA[j].yP - GOA[i].yP), 2)));
double gravityForce =
gravConstant * (GOA[i].getMass() * GOA[j].getMass()) / Math.pow(distance, 2);
// System.out.println("Gravitational force between "+i+" and "+ j+" is "+
// gravityForce);
double xDistance = GOA[j].xP - GOA[i].xP;
if (xDistance < 0) {
xDistance = GOA[i].xP - GOA[j].xP;
}
double yDistance = GOA[j].yP - GOA[i].yP;
if (yDistance < 0) {
yDistance = GOA[i].yP - GOA[j].yP;
}
// System.out.println("X, Y Distance: "+xDistance+" & "+yDistance);
double acceleration = gravityForce / GOA[i].getMass();
// System.out.println("Acceleration of object "+i+" is equal to "+acceleration);
// System.out.println("Object "+i+" moved towards "+j+" with a speed of:
// "+acceleration);
xVelAr[c] = (acceleration / (xDistance + yDistance)) * (GOA[j].xP - GOA[i].xP);
// System.out.println("xVelAr["+j+"] = ("+acceleration+" / ("+xDistance+" +
// "+yDistance+")) * ("+GOA[j].xP+" - "+GOA[i].xP+") En dat is: "+ xVelAr[j]);
yVelAr[c] = (acceleration / (xDistance + yDistance)) * (GOA[j].yP - GOA[i].yP);
c++; // C, C# etc...
}
}
} else {
break;
}
}
for (int k = 0; k < xVelAr.length; k++) {
double xTotalVel = 0;
if (xVelAr[k] != 0) {
xTotalVel += xVelAr[k];
} else {
break;
}
GOA[i].xV += xTotalVel;
}
for (int l = 0; l < xVelAr.length; l++) {
double yTotalVel = 0;
if (yVelAr[l] != 0) {
yTotalVel += yVelAr[l];
} else {
break;
}
GOA[i].yV += yTotalVel;
}
if (!collision(GOA[i])) {
GOA[i].move();
} else {
GOA[i].move();
// colliding is handled in collision()
}
} else {
break;
}
}
// Delete out of bounds spheres
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
if (gravityObjectArray[i].xP > screenWidth
|| gravityObjectArray[i].xP < 0
|| gravityObjectArray[i].yP > screenHeight
|| gravityObjectArray[i].yP < 0) {
gravityObjectArray[i].remove();
}
}
}
}
private boolean collision(GravityObject GO) {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
if (GO != gravityObjectArray[i]) {
double centerDistance =
Math.sqrt(
(Math.pow((GO.xP - gravityObjectArray[i].xP), 2))
+ (Math.pow((GO.yP - gravityObjectArray[i].yP), 2))); // <3 Pytagoras
if (centerDistance < GO.size + gravityObjectArray[i].size) {
if (GO.size > gravityObjectArray[i].size) {
GO.eat(gravityObjectArray[i]);
} else {
gravityObjectArray[i].eat(GO);
}
if (GO.size < gravityObjectArray[i].size) {
GO.remove();
} else {
gravityObjectArray[i].remove();
}
return true;
}
}
} else {
break;
}
}
return false;
}
private void drawStuff() {
drawVector();
drawGlow();
drawGhosts();
drawGravityObject();
/*drawQuad(300, 300, 110, 110, getTexture("tmpNaam")); // Textured stuff
GL11.glColor3f(1, 1, 1);*/
SimpleText.drawString(
"Simulating gravity!"
+ " Try the arrow keys! Right mouse to clear Spacebar for vectors FPS: "
+ FPS
+ " Size: "
+ (sizeSliderVal + 1),
5,
65);
drawSizeSlider();
drawVecSlider();
}
private void endThisLoop() {
// FPS meter
if (time <= System.currentTimeMillis() - 1000) {
Display.setTitle("Simulating gravity @ " + frameNumber + " FPS"); // Normal
FPS = frameNumber;
frameNumber = 0;
time = System.currentTimeMillis();
} else {
frameNumber++;
}
Display.update();
Display.sync(60);
}
private boolean gravityObjectCollision(int x, int y, int size) {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
double centerDistance =
Math.sqrt(
(Math.pow((x - gravityObjectArray[i].xP), 2))
+ (Math.pow((y - gravityObjectArray[i].yP), 2))); // <3 Pytagoras
if (centerDistance <= size + gravityObjectArray[i].size) {
return true;
}
} else {
break;
}
}
return false;
}
private void drawSizeSlider() {
drawQuad(0, 0, 60, screenWidth - 200, colorArray[3]);
drawQuad(5, 5, 50, screenWidth - 210, colorArray[0]);
drawCircle((sizeSliderVal * sizeSliderMultiplier) + 23, 30, 25, colorArray[2]);
}
private void createGravityObject(int x, int y) {
int size = sizeSliderVal + 3;
float[] color = randomColorArray();
if (!gravityObjectCollision(x, y, size)) {
for (int i = 0; i < gravityObjectArray.length - 1; i++) {
if (gravityObjectArray[i] == null || gravityObjectArray[i].size == 0) {
System.out.println(
"Created a gravityObject NR: " + i + " Coords: (" + x + ", " + y + ") size: " + size);
gravityObjectArray[i] = new GravityObject(x, y, size, color);
gravityObjectArray[i].xV = vecSlider.x * vecSliderMultiplier;
gravityObjectArray[i].yV = vecSlider.y * vecSliderMultiplier;
gravityObjectArray[i].force = vecSlider.getDistance();
break;
}
}
}
}
private void drawVecSlider() {
drawQuad(screenWidth - 205, 0, 200, 205, colorArray[3]);
drawQuad(screenWidth - 200, 5, 190, 195, colorArray[0]);
drawQuad(screenWidth - 101, 70, 60, 2, colorArray[4]);
drawQuad(screenWidth - 130, 99, 2, 60, colorArray[4]);
GL11.glTranslatef(screenWidth - 100, 100, 0);
drawCircle(vecSlider.x, vecSlider.y, 11, colorArray[2]);
GL11.glLoadIdentity();
// drawCircle((sizeSliderVal*7) + 23, 30, 25, colorArray[2]);
}
private void drawGravityObject() {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size,
gravityObjectArray[i].color);
} else {
break;
}
}
}
private void drawGhosts() {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
for (int j = 0; j < 30; j++) {
drawCircle(
gravityObjectArray[i].xGhosts[j],
gravityObjectArray[i].yGhosts[j],
gravityObjectArray[i].size,
gravityObjectArray[i].color,
(float) (0.7 / (j + 0.1)));
// System.out.println("Draw a ghost: ("+gravityObjectArray[i].ghostsX[j]+",
// "+gravityObjectArray[i].ghostsY[j]+")");
}
} else {
break;
}
}
}
private void drawVector() {
if (drawVector) {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
GravityObject[] GOA = gravityObjectArray;
GravityObject GO = gravityObjectArray[i];
for (int j = 0; j < GOA.length; j++) {
if (GOA[j] != null
&& GOA[j].xP > 0
&& GOA[j].yP > 0
&& GOA[i].xP > 0
&& GOA[i].yP > 0) {
double distance =
Math.sqrt(
(Math.pow((GOA[j].xP - GOA[i].xP), 2))
+ (Math.pow((GOA[j].yP - GOA[i].yP), 2)));
double gravityForce =
gravConstant * (GOA[i].getMass() * GOA[j].getMass()) / Math.pow(distance, 2);
float[] gColAr = new float[3];
gColAr[0] = (float) (gravityForce * 1.3);
gColAr[1] = (float) (gravityForce * 1);
gColAr[2] = (float) (gravityForce * 1);
drawLine(
(int) (GOA[i].xP),
(int) (GOA[i].yP),
(int) (GOA[j].xP),
(int) (GOA[j].yP),
gColAr);
}
}
float[] sColAr = new float[3];
sColAr[0] = (float) (0.2);
sColAr[1] = (float) (0.2);
sColAr[2] = (float) (0);
drawLine(
((int) GO.xP),
((int) GO.yP),
((int) (GO.xP + GO.xV * (25))),
((int) (GO.yP + GO.yV * (25))),
sColAr);
}
}
}
}
private void drawGlow() {
for (int i = 0; i < gravityObjectArray.length; i++) {
if (gravityObjectArray[i] != null) {
float[] tmpColor = gravityObjectArray[i].color;
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size + 1,
tmpColor,
0.5f);
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size + 2,
tmpColor,
0.4f);
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size + 3,
tmpColor,
0.3f);
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size + 5,
tmpColor,
0.2f);
drawCircle(
gravityObjectArray[i].xP,
gravityObjectArray[i].yP,
gravityObjectArray[i].size + 7,
tmpColor,
0.1f);
} else {
break;
}
}
}
private void drawLine(int X1, int Y1, int X2, int Y2, float color[]) {
GL11.glColor3f(color[0], color[1], color[2]);
GL11.glBegin(GL11.GL_LINES);
GL11.glVertex2f(X1, Y1);
GL11.glVertex2f(X2, Y2);
GL11.glEnd();
}
private void drawQuad(int x, int y, int h, int w, float color[]) {
GL11.glColor3f(color[0], color[1], color[2]);
// draw quad
GL11.glBegin(GL11.GL_QUADS);
GL11.glVertex2f(x, y);
GL11.glVertex2f(x + w, y);
GL11.glVertex2f(x + w, y + h);
GL11.glVertex2f(x, y + h);
GL11.glEnd();
}
private void drawQuad(int x, int y, int h, int w, float color[], float alpha) {
GL11.glColor4f(color[0], color[1], color[2], alpha);
// draw quad
GL11.glBegin(GL11.GL_QUADS);
GL11.glVertex2f(x, y);
GL11.glVertex2f(x + w, y);
GL11.glVertex2f(x + w, y + h);
GL11.glVertex2f(x, y + h);
GL11.glEnd();
}
private void drawCircle(double x, double y, int radius, float color[]) {
GL11.glColor3f(color[0], color[1], color[2]);
float incr = (float) (2 * Math.PI / slices);
/*xCoord = xCoord + radius;
yCoord = yCoord + radius;*/
GL11.glBegin(GL11.GL_TRIANGLE_FAN);
for (int i = 0; i < slices; i++) {
float angle = incr * i;
float Xc = (float) (x + Math.cos(angle) * radius);
float Yc = (float) (y + Math.sin(angle) * radius);
GL11.glVertex2f(Xc, Yc);
}
GL11.glEnd();
}
private void drawCircle(double x, double y, int radius, float color[], float alpha) {
GL11.glColor4f(color[0], color[1], color[2], alpha);
float incr = (float) (2 * Math.PI / slices);
/*xCoord = xCoord + radius;
yCoord = yCoord + radius;*/
GL11.glBegin(GL11.GL_TRIANGLE_FAN);
for (int i = 0; i < slices; i++) {
float angle = incr * i;
float Xc = (float) (x + Math.cos(angle) * radius);
float Yc = (float) (y + Math.sin(angle) * radius);
GL11.glVertex2f(Xc, Yc);
}
GL11.glEnd();
}
}
