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# Collision detection in a game loop?

I'm working on a simple 2D game (birds eye view). I have projectiles, which are circles. There are barriers around the game level, which are all rectangles (axis aligned). I'd like the projectiles to bounce off the barriers when they collide. I'm not sure how to implement this in my game loop. Guessing it'd be something like this:

``````void gameLoop() {

Projectile p = ..;

p.updateLocation(p.getVelocity(), p.getDirection());

Barrier intersected = p.intersects(barriers);
if (intersected != null) {
// We hit a barrier after moving on this time tick.
// Figure out where our reflected location off the
// barrier should be now.
Point ptNew = intersected.reflect(p.getLastPoint(), p.getVelocity(),
p.getDirection());

// Our new location after getting bounced off the barrier.
ptNew.setLocation(ptNew);
}
}
``````

So after we move the projectile, we can check if we're intersecting (or completely inside) one of the barriers. If so, do a computation to figure out where our reflected position should be off the barrier given our starting point and velocity/direction.

Thanks

---------- Update ------------------------

A little more specific - given Erik's comments, I do need to make sure the projectiles bounce properly, I can't have them pass through a barrier if their velocity happens to be so fast they go right through on a single game loop iteration.

In that case, I guess I need to test a starting point, velocity, direction, against all barriers (possibly repeatedly) until no more intersections for the velocity are possible. Something like:

``````void gameLoop() {
Projectile p = ...;

Barrier barrier = moveProjectile(p, barriers);
while (barrier != null && p.stillHasVelocityThisFrame()) {
barrier = moveProjectile(p, barriers);
}

// at this point, the projectile is done moving / bouncing around.
}

void moveProjectile(Projectile projectile,
List<Barrier> barriers)
{
for (Barrier barrier : barriers) {
// tbd
Barrier intersected = test2dVectorAgainstRectangle(
projectile.getPosition(),
projectile.get2dVector());
// the above would test the projectile's vector
// to see if it intersects any barrier, reflect
// off of it if necessary, modify the projectile's
// position, and reduce the available distance it
// can still travel for this frame.
if (intersected) {
return intersected;
}
}

// no intersections.
return null;
}
``````

Yeah this is already getting kind of tricky.

Thanks

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Which part of this are you needing help with? The collision itself or the reflection? Or maybe both? – MGZero Sep 2 '11 at 20:06
Well I don't know how to do either (code example or link would be awesome), but was more looking for a general yes/no on if this is how it's done. – user291701 Sep 2 '11 at 20:20
This is a very open ended question – Erik Sep 2 '11 at 20:21

You want to use vector math for your reflections and collision checks. It's pretty straight forward to detect if you were on one side of a line (edge of world rectangle) on 1 tic and on the other side of that line next. The same check will also give you the point of collision with just a touch more math. Then you have a point from which to do a reflection, again using vectors. Plotting collisions with other objects is a bit tricker, but still can be done. Make a list of all collisionswithin a loop and try and find the first one that would have occured along their movement paths - again reusing some dot product magic. Or, if you detect multiple collisions, you can always back up each object to it's position the tic before and apply collisions from there.

One thing you never want to do is allow an object to stay inside another object. It can cause them to get stuck on each other and act very erraticly - depending on how you do your collision code.

-

Collision detection is very hard to get right. It really depends on how "perfect" you want things to be.

A couple of things to think about:
1) What happens if p is moving so fast that is passing straight through your barrier in a single update without ever intersecting it? You really need to be checking if the path of p intersects the barrier.

2) What happens if p intersects the barrier halfway through the update tick, but then on its new velocity if would intersect another barrier (or another p) before the update tick is finished? You would have to update the velocity of p multiple times in a single update tick.

Or you could ignore those cases and hope that things work out/don't happen very often ;)

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Yeah perfect these are the issues I need to be warned about! – user291701 Sep 2 '11 at 20:47

For the collision... What you're looking for is the distance between the center of the circle and any point on the rectangle. If the distance between any given point is smaller than the radius of the circle, then you have a collision. You can do with the Pythagorean Theorem.

``````If (sqrt((circle.x - rect.x)² + (circle.y - rect.y)²) <= circle.radius)
circle.reflect();
``````

As for the reflection... A little thing that's good to know is the angle of incidence equals the angle of reflection, but negative. So a projectile hitting a surface at an angle of 45 degrees will bounce at -45 degrees. This will require you to know both the direction (angle) that the projectile is moving as well as the angle of the surface. If you sum these up, you'll get your angle of incidence. Just take this, multiply it by -1 and then recalculate the direction of the projectile with some trig.

circle.velocity.x = cos(angleInc); circle.velocity.y = sin(angleInc);

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Much, much better just to use vector math... – Michael Dorgan Sep 2 '11 at 21:08
@Michael Dorgan Good point, agreed. I assume for that you just mean the reflection itself and not the collision detection? – MGZero Sep 6 '11 at 15:57

If the position of the barriers is fixed, you can calculate the position of the ball for the next gameloop using its speed, if its position would go beyond the barriers on the next loop, you can set a boolean to set the ball right next to one of those barriers at the start of the next loop, and do your calculations accordingly once it checks they are effectively colliding.

I wouldn't bet this is the most effective way to do it, but it shouldn't hinder your game at all if it's a 2d game.

Also, always try to set a limit on the max speed of the balls, if they get faster and faster with each passing gameloop, you're in for trouble.

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