As the title suggests, I am having trouble with object collision...
I am currently working on a 2d Html5 canvas game using JavaScript. I know how to keep the "player" object from going outside the width/height of the game canvas, and i know how to do something when the player collides with an object (such as a power up or enemy or whatever) but i just don't know how to make a "solid" object meaning when the player hits the solid object, the player just stops, and cannot go through the solid object.
This is what I have now (not all the code just what I feel is relevant, sorry if it's too much/too little.:
var canvasPlayer = document.getElementById('canvasPlayer');
var ctxPlayer = canvasPlayer.getContext('2d');
var canvasWalls = document.getElementById('canvasWalls');
var ctxWalls = canvasWalls.getContext('2d');
function checkKeyDown(e) {
var keyID = (e.keyCode) || e.which;
if (keyID === 38 || keyID === 87) { // up arrow OR W key
if (!player1.isDownKey && !player1.isLeftKey && !player1.isRightKey) {
player1.isUpKey = true;
e.preventDefault();
} }
if (keyID === 39 || keyID === 68) { //right arrow OR D key
if (!player1.isDownKey && !player1.isLeftKey && !player1.isUpKey) {
player1.isRightKey = true;
e.preventDefault();
} }
if (keyID === 40 || keyID === 83) {//down arrow OR S key
if (!player1.isUpKey && !player1.isLeftKey && !player1.isRightKey) {
player1.isDownKey = true;
e.preventDefault();
} }
if (keyID === 37 || keyID === 65) {//left arrow OR A key
if (!player1.isDownKey && !player1.isUpKey && !player1.isRightKey) {
player1.isLeftKey = true;
e.preventDefault();
}
}
}
Walls.prototype.draw = function (){
ctxWalls.drawImage(imgSprite,this.srcX,this.srcY,this.width,this.height,this.drawX,this.drawY,this.width,this.height);
this.checkHitPlayer();
};
Walls.prototype.checkHitPlayer = function() {
if (this.drawX > player1.drawX &&
this.drawX <= player1.drawX + player1.width &&
this.drawY >= player1.drawY &&
this.drawY < player1.drawY + player1.height) {
player1.isUpKey = false;
player1.isDownKey = false;
player1.isRightKey = false;
player1.isLeftKey = false;
}
};
This works... except when trying to go up or left, the player only moves maybe 2-3 pixels, so it takes 3 left or up arrows to go left or up. As well the player can move straight through the wall which is not what i want. Any help is much appreciated sorry if i included too much or not enough code. Oh, i also forgot to mention the game is a puzzle game, and I have it set-up so a player can only move one direction at a time until hitting a wall.
If you just want your player to stop when the reach a wall, you can apply some math:
For example: assume your player is a 10px by 10px rectangle and the right wall's X position is 200.
The X position of the right side of the rectangle is calculated like this:
var playerRightSide = player.x + player.width;
You can test if the player has reached the wall like this:
if( playerRightSide >= 200 )
If the user tries to push their player beyond the wall, you would hold the player to the left of the wall using the players X position.
if( playerRightSide >= 200 ) { player.x = 190; }
The 190 is the wall's X position (200) minus the player's width (10).
Read further if you're interested in doing more advanced collision testing.
Many basic game collisions can be classified into 3 types:
- Circle versus Circle collision
- Rectangle versus Rectangle collision
- Rectangle versus Circle collision
Here’s an illustration of how to detect each of these common collisions.
Assume you define a circle like this:
var circle1={
x:30,
y:30,
r:10
};
Assume you define a rectangle like this:
var rect1={
x:20,
y:100,
w:20,
h:20
};
You can detect Circle vs Circle collisions like this...
...Using this Circle vs Circle collision-test code:
// return true if the 2 circles are colliding
// c1 and c2 are circles as defined above
function CirclesColliding(c1,c2){
var dx=c2.x-c1.x;
var dy=c2.y-c1.y;
var rSum=c1.r+c2.r;
return(dx*dx+dy*dy<=rSum*rSum);
}
You can detect Rectangle vs Rectangle collisions like this...
...Using this Rectangle vs Rectangle collision-test code:
// return true if the 2 rectangles are colliding
// r1 and r2 are rectangles as defined above
function RectsColliding(r1,r2){
return !(r1.x>r2.x+r2.w || r1.x+r1.w<r2.x || r1.y>r2.y+r2.h || r1.y+r1.h<r2.y);
}
You can detect Rectangle vs Circle collisions like this...
...Using this Rectangle vs Circle collision-test code:
// return true if the rectangle and circle are colliding
// rect and circle are a rectangle and a circle as defined above
function RectCircleColliding(rect,circle){
var dx=Math.abs(circle.x-(rect.x+rect.w/2));
var dy=Math.abs(circle.y-(rect.y+rect.y/2));
if( dx > circle.r+rect.w2 ){ return(false); }
if( dy > circle.r+rect.h2 ){ return(false); }
if( dx <= rect.w ){ return(true); }
if( dy <= rect.h ){ return(true); }
var dx=dx-rect.w;
var dy=dy-rect.h
return(dx*dx+dy*dy<=circle.r*circle.r);
}
For example, you can use these collision tests to respond to a player touching a power-up cube:
// create a circular player object
// that's located at [30,30] and has a radius of 10px
var player={x:30,y:30,r:10};
// create a rectangular power-up at position [200,30]
var powerup={x:200, y:30, w:20, h:20};
// Let's say the user keys the player to coordinate [200,35]
// (touching the power-up)
player.x = 220;
player.y = 35;
// you can test if the circular player is touching the rectangular power-up
if( RectCircleColliding(powerup,player) ) {
// the player has collided with the power-up, give bonus power!
player.power += 100;
}
Here is code and a Fiddle: http://jsfiddle.net/m1erickson/u6t48/
<!doctype html>
<html>
<head>
<link rel="stylesheet" type="text/css" media="all" href="css/reset.css" /> <!-- reset css -->
<script type="text/javascript" src="http://code.jquery.com/jquery.min.js"></script>
<style>
body{ background-color: ivory; padding:20px; }
canvas{border:1px solid red;}
</style>
<script>
$(function(){
var canvas=document.getElementById("canvas");
var ctx=canvas.getContext("2d");
window.requestAnimFrame = (function(callback) {
return window.requestAnimationFrame || window.webkitRequestAnimationFrame || window.mozRequestAnimationFrame || window.oRequestAnimationFrame || window.msRequestAnimationFrame ||
function(callback) {
window.setTimeout(callback, 1000 / 60);
};
})();
ctx.fillStyle="lightgray";
ctx.strokeStyle="skyblue";
// top collision circle vs circle
var circle1={x:30,y:30,r:10};
var circle2={x:70,y:40,r:10};
var circle3={x:100,y:30,r:10};
var direction1=1;
// middle collision rect vs rect
var rect1={x:20,y:100,w:20,h:20};
var rect2={x:50,y:110,w:20,h:20};
var rect3={x:90,y:100,w:20,h:20};
var direction2=1;
// bottom collision rect vs circle
var circle4={x:30,y:200,r:10};
var rect4={x:50,y:205,w:20,h:20};
var circle5={x:100,y:200,r:10};
var direction3=1;
function drawAll(){
ctx.clearRect(0,0,canvas.width,canvas.height);
drawCircle(circle1);
drawCircle(circle2);
drawCircle(circle3);
drawCircle(circle4);
drawCircle(circle5);
drawRect(rect1);
drawRect(rect2);
drawRect(rect3);
drawRect(rect4);
}
function drawCircle(c){
ctx.beginPath();
ctx.arc(c.x,c.y,c.r,0,Math.PI*2,false);
ctx.closePath();
ctx.fill();
ctx.stroke();
}
function drawRect(r){
ctx.beginPath();
ctx.rect(r.x,r.y,r.w,r.h);
ctx.closePath();
ctx.fill();
ctx.stroke();
}
// return true if the 2 circles are colliding
function CirclesColliding(c1,c2){
var dx=c2.x-c1.x;
var dy=c2.y-c1.y;
var rSum=c1.r+c2.r;
return(dx*dx+dy*dy<=rSum*rSum);
}
// return true if the 2 rectangles are colliding
function RectsColliding(r1,r2){
return !(r1.x>r2.x+r2.w || r1.x+r1.w<r2.x || r1.y>r2.y+r2.h || r1.y+r1.h<r2.y);
}
// return true if the rectangle and circle are colliding
function RectCircleColliding(rect,circle){
var dx=Math.abs(circle.x-(rect.x+rect.w/2));
var dy=Math.abs(circle.y-(rect.y+rect.h/2));
if( dx > circle.r+rect.w/2 ){ return(false); }
if( dy > circle.r+rect.h/2 ){ return(false); }
if( dx <= rect.w ){ return(true); }
if( dy <= rect.h ){ return(true); }
var dx=dx-rect.w;
var dy=dy-rect.h
return(dx*dx+dy*dy<=circle.r*circle.r);
}
var fps = 15;
function animate() {
setTimeout(function() {
requestAnimFrame(animate);
// circle vs circle
circle2.x = circle2.x+direction1;
if( CirclesColliding(circle2,circle1) || CirclesColliding(circle2,circle3) ){
direction1=-direction1;
}
// rect vs rect
rect2.x = rect2.x+direction2;
if( RectsColliding(rect2,rect1) || RectsColliding(rect2,rect3) ){
direction2=-direction2;
}
// rect vs circle
rect4.x = rect4.x+direction3;
if( RectCircleColliding(rect4,circle4) || RectCircleColliding(rect4,circle5) ){
direction3=-direction3;
}
drawAll();
}, 1000 / fps);
}
animate();
}); // end $(function(){});
</script>
</head>
<body>
<canvas id="canvas" width=300 height=300></canvas>
</body>
</html>
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