# Java/Lwjgl 2D rotated rectangle collision response

I've been working on this project for quite some time, and I'm running into issues with the execution of the code, or perhaps the physics. I could really use some help, as this is for my high school physics final project. All I want from the program is a relatively accurate simulation of rotating rectangle collisions with dynamic angular and directional velocities. Here's the code for my square class, it has (I believe) all the code necessary for answering this question. If any of you have questions about the code, just ask. Thanks! import org.lwjgl.opengl.Display; import org.lwjgl.opengl.GL11;

``````public class SIM_Square extends SIM_Object{
float xtrans = 0;
float ytrans = 0;
double rot;
boolean collidedX = false;
boolean collidedY = false;
boolean collidedShape = false;
public SIM_Square(double x, double y, int width){
this.WIDTH = width;
this.CPX = x + width/2;
this.CPY = y + width/2;
this.X = x;
this.Y = y;
MASS = WIDTH * 1;
C2.x = (float)x + width;
C3.x = (float)x + width;
C4.x = (float)x;
C2.y = (float)y;
C3.y = (float)y + width;
C4.y = (float)y + width;
VI.x = (float) (rand.nextDouble() * 1.0 - rand.nextDouble() * 1.0);
VI.y = (float) (rand.nextDouble() * 1.0 - rand.nextDouble() * 1.0);
rot = rand.nextDouble()*1.0 - rand.nextDouble() * 1.0;
ANGLE = Math.atan2(X - CPX, Y - CPY);
ANGLE2 = Math.atan2(C2.x - CPX, C2.y - CPY);
ANGLE3 = Math.atan2(C3.x - CPX, C3.y - CPY);
ANGLE4 = Math.atan2(C4.x - CPX, C4.y - CPY);
DIST = Math.sqrt((WIDTH / 2) * (WIDTH / 2) + (WIDTH / 2) * (WIDTH / 2));
GRAVITY = MASS * 0.0005;
COLPOINT.x = 0;
COLPOINT.y = 0;
R.x = (float)Math.abs(COLPOINT.x - CPX);
R.y = (float)Math.abs(COLPOINT.y - CPY);
INERTIA = 100;

}

public void increment(){

//this.CPX += VI.x;
//this.CPY += VI.y;
//this.X += VI.x;
//this.Y += VI.y;

ROTATION += rot;
ANGLE += (rot * Math.PI) / 180;
ANGLE2 += (rot * Math.PI) / 180;
ANGLE3 += (rot * Math.PI) / 180;
ANGLE4 += (rot * Math.PI) / 180;
X = Math.sin(-ANGLE)*DIST + CPX;
Y = Math.cos(-ANGLE)*DIST + CPY;
C2.x = (float) (Math.sin(-ANGLE2)*DIST + CPX);
C2.y = (float) (Math.cos(-ANGLE2)*DIST + CPY);
C3.x = (float) (Math.sin(-ANGLE3)*DIST + CPX);
C3.y = (float) (Math.cos(-ANGLE3)*DIST + CPY);
C4.x = (float) (Math.sin(-ANGLE4)*DIST + CPX);
C4.y = (float) (Math.cos(-ANGLE4)*DIST + CPY);
if(X <= 0 || C2.x <= 0 || C3.x <= 0 || C4.x <= 0){
collidedX = !collidedX;
}
if(X >= Display.getWidth() || C2.x >= Display.getWidth() || C3.x >= Display.getWidth() || C4.x >= Display.getWidth()){
collidedX = !collidedX;
}
if(collidedX == true){
CPX -= VI.x;
X -= VI.x;
}
else{
CPX += VI.x;
X += VI.x;
}

if(Y <= 0 || C2.y <= 0 || C3.y <= 0 || C4.y <= 0){
collidedY = !collidedY;
}
if(Y >= Display.getHeight() || C2.y >= Display.getHeight() || C3.y >= Display.getHeight() || C4.y >= Display.getHeight()){
collidedY = !collidedY;
//GRAVITY = 0;
//VI.y = 0;

}
if(collidedY == true){
CPY -= VI.y;
Y -= VI.y;
}
else{
CPY += VI.y;
Y += VI.y;
}
//CPY += GRAVITY;

rect.setBounds((int)X, (int)Y, WIDTH, WIDTH);

for(int i = 1; i < SIM_Main.sq.size(); i++){
for(int j = 0; j < i; j++){
if(SIM_Main.sq.get(i).rect.intersects(SIM_Main.sq.get(j).rect)){
double x1, x2, x3, x4, x5, x6, x7, x8;
x1 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).CPY), 2));
x2 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C2.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C2.y - SIM_Main.sq.get(j).CPY), 2));
x3 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C3.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C3.y - SIM_Main.sq.get(j).CPY), 2));
x4 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C4.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C4.y - SIM_Main.sq.get(j).CPY), 2));
x5 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).X), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).Y), 2));
x6 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C2.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C2.y), 2));
x7 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C3.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C3.y), 2));
x8 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C4.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C4.y), 2));

if(x1 < x2 && x1 < x3 && x1 < x4 && x1 < x5 && x1 < x6 && x1 < x7 && x1 < x8){
SIM_Main.sq.get(i).COLPOINT.x = (float) SIM_Main.sq.get(i).X;
SIM_Main.sq.get(i).COLPOINT.y = (float) SIM_Main.sq.get(i).Y;
SIM_Main.sq.get(j).COLPOINT.x = (float) SIM_Main.sq.get(i).X;
SIM_Main.sq.get(j).COLPOINT.y = (float) SIM_Main.sq.get(i).Y;
}
if(x2 < x1 && x2 < x3 && x2 < x4 && x2 < x5 && x2 < x6 && x2 < x7 && x2 < x8){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(i).C2.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(i).C2.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(i).C2.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(i).C2.y;
}
if(x3 < x1 && x3 < x2 && x3 < x4 && x3 < x5 && x3 < x6 && x3 < x7 && x3 < x8){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(i).C3.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(i).C3.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(i).C3.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(i).C3.y;
}
if(x4 < x1 && x4 < x2 && x4 < x3 && x4 < x5 && x4 < x6 && x4 < x7 && x4 < x8){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(i).C4.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(i).C4.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(i).C4.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(i).C4.y;
}
if(x5 < x1 && x5 < x2 && x5 < x3 && x5 < x4 && x5 < x6 && x5 < x7 && x5 < x8){
SIM_Main.sq.get(i).COLPOINT.x = (float) SIM_Main.sq.get(j).X;
SIM_Main.sq.get(i).COLPOINT.y = (float) SIM_Main.sq.get(j).Y;
SIM_Main.sq.get(j).COLPOINT.x = (float) SIM_Main.sq.get(j).X;
SIM_Main.sq.get(j).COLPOINT.y = (float) SIM_Main.sq.get(j).Y;
}
if(x6 < x1 && x6 < x2 && x6 < x3 && x6 < x4 && x6 < x5 && x6 < x7 && x6 < x8){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(j).C2.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(j).C2.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(j).C2.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(j).C2.y;
}
if(x7 < x1 && x7 < x2 && x7 < x3 && x7 < x4 && x7 < x5 && x7 < x6 && x7 < x8){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(j).C3.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(j).C3.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(j).C3.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(j).C3.y;
}
if(x8 < x1 && x8 < x2 && x8 < x3 && x8 < x4 && x8 < x5 && x8 < x6 && x8 < x7){
SIM_Main.sq.get(i).COLPOINT.x = SIM_Main.sq.get(j).C4.x;
SIM_Main.sq.get(i).COLPOINT.y = SIM_Main.sq.get(j).C4.y;
SIM_Main.sq.get(j).COLPOINT.x = SIM_Main.sq.get(j).C4.x;
SIM_Main.sq.get(j).COLPOINT.y = SIM_Main.sq.get(j).C4.y;
}

E =
Math.abs(((SIM_Main.sq.get(j).VI.x + SIM_Main.sq.get(j).VI.y) - (SIM_Main.sq.get(i).VI.x + SIM_Main.sq.get(i).VI.y))/
((SIM_Main.sq.get(i).VI.x + SIM_Main.sq.get(i).VI.y) - (SIM_Main.sq.get(j).VI.x + SIM_Main.sq.get(j).VI.y)));

K =
Math.abs(1/Math.pow(MASS, 2) + 2/(MASS * MASS) + 1/(MASS * MASS) - Math.pow(SIM_Main.sq.get(i).R.x, 2)/(MASS * INERTIA) -
SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.x/(MASS / INERTIA) - SIM_Main.sq.get(i).R.y * SIM_Main.sq.get(i).R.y/
(MASS * INERTIA) - SIM_Main.sq.get(i).R.y * SIM_Main.sq.get(i).R.y/(MASS * INERTIA) -
SIM_Main.sq.get(i).R.x * SIM_Main.sq.get(i).R.x/(MASS * INERTIA) - SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.x/
(MASS * INERTIA) - SIM_Main.sq.get(j).R.y * SIM_Main.sq.get(j).R.y/(MASS * INERTIA) - SIM_Main.sq.get(j).R.y * SIM_Main.sq.get(j).R.y
/(INERTIA * INERTIA) + SIM_Main.sq.get(i).R.y * SIM_Main.sq.get(i).R.y *
SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.x/(INERTIA * INERTIA)) + Math.pow(SIM_Main.sq.get(i).R.x, 2)*Math.pow(SIM_Main.sq.get(j).R.y, 2)/(MASS * INERTIA) -
2*SIM_Main.sq.get(i).R.x * SIM_Main.sq.get(i).R.y * SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.y/(INERTIA * INERTIA);

JX =
(E + 1)/K * (SIM_Main.sq.get(i).VI.x - SIM_Main.sq.get(j).VI.x)*(1/MASS - Math.pow(SIM_Main.sq.get(j).R.x, 2)
/INERTIA + 1/MASS - Math.pow(SIM_Main.sq.get(j).R.x, 2)/INERTIA) - (E + 1)/K *
(SIM_Main.sq.get(i).VI.y - SIM_Main.sq.get(j).VI.y) *
(SIM_Main.sq.get(i).R.x * SIM_Main.sq.get(i).R.y) / INERTIA + (SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.y) / INERTIA;

JY =
-(E + 1)/K * (SIM_Main.sq.get(i).VI.x - SIM_Main.sq.get(j).VI.x) *
(SIM_Main.sq.get(i).R.x * SIM_Main.sq.get(i).R.y / INERTIA + SIM_Main.sq.get(j).R.x * SIM_Main.sq.get(j).R.y / INERTIA) +
(E + 1)/K * (SIM_Main.sq.get(i).VI.y - SIM_Main.sq.get(j).VI.y) *
1/MASS - Math.pow(SIM_Main.sq.get(i).R.y, 2)/INERTIA + 1/MASS - Math.pow(SIM_Main.sq.get(j).R.y, 2)/INERTIA;

System.out.println(JX / (50000*MASS));

SIM_Main.sq.get(i).VI.x = -(float)((SIM_Main.sq.get(i).VI.x - (JX / (50000*MASS))));
SIM_Main.sq.get(i).VI.y = -(float)((SIM_Main.sq.get(i).VI.y - (JY / (50000*MASS))));
SIM_Main.sq.get(j).VI.x = -(float)((SIM_Main.sq.get(j).VI.x - (JX / (50000*MASS))));
SIM_Main.sq.get(j).VI.y = -(float)((SIM_Main.sq.get(j).VI.y - (JY / (50000*MASS))));

}

/*if(SIM_Main.sq.get(i).collidedShape == true){
SIM_Main.sq.get(i).CPX += -(SIM_Main.sq.get(i).VI.x*0.1);
SIM_Main.sq.get(i).CPY += -SIM_Main.sq.get(i).VI.y*0.1;

SIM_Main.sq.get(i).X += -SIM_Main.sq.get(i).VI.x*0.1;
SIM_Main.sq.get(i).Y += -SIM_Main.sq.get(i).VI.y*0.1;

}
if(SIM_Main.sq.get(j).collidedShape == true){
SIM_Main.sq.get(j).CPX += -SIM_Main.sq.get(j).VI.x*0.1;
SIM_Main.sq.get(j).CPY += -SIM_Main.sq.get(j).VI.y*0.1;
SIM_Main.sq.get(j).X += -SIM_Main.sq.get(j).VI.x*0.1;
SIM_Main.sq.get(j).Y += -SIM_Main.sq.get(j).VI.y*0.1;
}*/
}
}
/*x1 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).CPY), 2));
x2 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C2.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C2.y - SIM_Main.sq.get(j).CPY), 2));
x3 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C3.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C3.y - SIM_Main.sq.get(j).CPY), 2));
x4 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).C4.x - SIM_Main.sq.get(j).CPX), 2) + Math.pow((SIM_Main.sq.get(i).C4.y - SIM_Main.sq.get(j).CPY), 2));
x5 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).X), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).Y), 2));
x6 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C2.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C2.y), 2));
x7 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C3.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C3.y), 2));
x8 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).CPX - SIM_Main.sq.get(j).C4.x), 2) + Math.pow((SIM_Main.sq.get(i).CPY - SIM_Main.sq.get(j).C4.y), 2));

if(x1 < x2 && x1 < x3 && x1 < x4 && x1 < x5 && x1 < x6 && x1 < x7 && x1 < x8){
double x11, x12, x13, x14;
x11 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).X), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).Y), 2));
x12 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).C2.x), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).C2.y), 2));
x13 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).C3.x), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).C3.y), 2));
x14 = Math.sqrt(Math.pow((SIM_Main.sq.get(i).X - SIM_Main.sq.get(j).C4.x), 2) + Math.pow((SIM_Main.sq.get(i).Y - SIM_Main.sq.get(j).C4.y), 2));
if(x11 < x12){

}
}
if(x2 < x1 && x2 < x3 && x2 < x4 && x2 < x5 && x2 < x6 && x2 < x7 && x2 < x8){
double AB, BC, BA, AC;
}
if(x3 < x1 && x3 < x2 && x3 < x4 && x3 < x5 && x3 < x6 && x3 < x7 && x3 < x8){
double AB, BC, BA, AC;
}
if(x4 < x1 && x4 < x2 && x4 < x3 && x4 < x5 && x4 < x6 && x4 < x7 && x4 < x8){
double AB, BC, BA, AC;
}
if(x5 < x1 && x5 < x2 && x5 < x3 && x5 < x4 && x5 < x6 && x5 < x7 && x5 < x8){
double AB, BC, BA, AC;
}
if(x6 < x1 && x6 < x2 && x6 < x3 && x6 < x4 && x6 < x5 && x6 < x7 && x6 < x8){
double AB, BC, BA, AC;
}
if(x7 < x1 && x7 < x2 && x7 < x3 && x7 < x4 && x7 < x5 && x7 < x6 && x7 < x8){
double AB, BC, BA, AC;
}
if(x8 < x1 && x8 < x2 && x8 < x3 && x8 < x4 && x8 < x5 && x8 < x6 && x8 < x7){
double AB, BC, BA, AC;
}
}
}
}*/
}

public void impulse(){

}

public void draw(){
GL11.glPushMatrix();
//GL11.glClear(GL11.GL_COLOR_BUFFER_BIT | GL11.GL_DEPTH_BUFFER_BIT);
GL11.glTranslated( CPX, CPY, 0.0f);
GL11.glRotated(ROTATION, 0.0f, 0.0f, 1.0f);
GL11.glTranslated(- (CPX), - (CPY), 0.0f);
GL11.glColor3f(1.0f, 0.0f, 0.0f);
GL11.glVertex2d(CPX - WIDTH / 2, CPY - WIDTH / 2);
GL11.glVertex2d(CPX + WIDTH / 2, CPY - WIDTH / 2);
GL11.glVertex2d(CPX + WIDTH / 2, CPY + WIDTH / 2);
GL11.glVertex2d(CPX - WIDTH / 2, CPY + WIDTH / 2);
GL11.glEnd();

GL11.glColor3f(0.0f, 0.0f, 0.0f);
GL11.glBegin(GL11.GL_LINES);
GL11.glVertex2d(CPX - WIDTH / 2, CPY - WIDTH / 2);
GL11.glVertex2d(CPX + WIDTH / 2, CPY - WIDTH / 2);
GL11.glEnd();
GL11.glBegin(GL11.GL_LINES);
GL11.glVertex2d(CPX + WIDTH / 2, CPY - WIDTH / 2);
GL11.glVertex2d(CPX + WIDTH / 2, CPY + WIDTH / 2);
GL11.glEnd();
GL11.glBegin(GL11.GL_LINES);
GL11.glVertex2d(CPX + WIDTH / 2, CPY + WIDTH / 2);
GL11.glVertex2d(CPX - WIDTH / 2, CPY + WIDTH / 2);
GL11.glEnd();
GL11.glBegin(GL11.GL_LINES);
GL11.glVertex2d(CPX - WIDTH / 2, CPY + WIDTH / 2);
GL11.glVertex2d(CPX - WIDTH / 2, CPY - WIDTH / 2);
GL11.glEnd();
GL11.glPopMatrix();

/*GL11.glColor3f(0.0f, 1.0f, 0.0f);