# Java collisions and key presses

So I am making this game and the player has an x and y value like most common games, I then added a vely and velX. These variables are set in correspondent to what key is being pressed:

`````` public void keyPressed(KeyEvent e) {
int key = e.getKeyCode();
if (Game.gameActive) {

if (key == KeyEvent.VK_W) {
velY = 1;

} else if (key == KeyEvent.VK_S) {
velY = -1;

} else if (key == KeyEvent.VK_A) {
velX = 1;

} else if (key == KeyEvent.VK_D) {
velX = -1;

}
}
}
``````

I also have a rectangle around the player, I'll get to this a little later. I also made another rectangle(r1) and this is going to be the object that the player collides with. Now I used a basic method of calculating collisions:

``````            if (player.getBounds().intersects(r1)) {
velX = 0;
velY = 0;
}
``````

but because of the key presses the velX alternates between 0 and 1/-1. I want it so that when the player collides with r1 then the player cant move through it but can move in all the other directions. I do not want the player bouncing off the other rectangle though! I hope I explained this well enough, ask any questions and all help is appreciated!

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## 1 Answer

The usual approach is to SIMULATE player movement, check if the player collide after movement and if he does, stop him before that one step.

Usual disadvantage is (however I saw it in A LOT games), that if your player moves very quickly against wall, he can stop relatively long way before he actually hits the wall.

However it can be solved by alghoritm similar to Achilles and the tortoise:

``````Achilles, a symbol of quickness must overtake a tortoise, symbol of slowness. Achilles runs ten times as quick as the tortoise and gives her ten metros odds.
Achilles runs ten meters, a tortoise runs one meter,
Achilles runs one meter, a tortoise runs one decimeter,
Achilles runs one decimeter, a tortoise runs one centimeter.
And so on until the infinity. As a result according to Zeno Achilles can run everlastingly, but never will be able to run down a tortoise.
Such is the immortal paradox.
``````

So if you cant move player in that direction in that speed, try it with half speed, then with half speed of half speed etc. However to not make infinity-loop, you should make a constant value `min_movement`, and when players movement falls under that min_movement, stop simulating his movement a just stop him.

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but what if the player wants to move back in the opposite direction –  user2876115 Oct 14 '13 at 14:23
You are moving in the wall and you STOP before you intersect the wall. So you are free to move into opposite direction, because you dont intersect anything. –  libik Oct 14 '13 at 14:28
so how would I do this in terms of code in way shown above? –  user2876115 Oct 14 '13 at 15:05