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I need to create line segments within a shape and not just a visual pattern - I need to know start and end coordinates for those lines that are within a given boundary (shape). I'll go through what I have and explain the issues I'm facing
I have a closed irregular shape (can have dozens of sides) defined by [x, y] coordinates
shape = [
[150,10], // x, y
[10,300],
[150,200],
[300,300]
];
I calculate and draw the bounding box of this shape
I then draw my shape on the canvas
Next, I cast rays within the bounding box with a set spacing between each ray. The ray goes from left to right incrementing by 1 pixel.
Whenever a cast ray gets to a pixel with RGB values of 100, 255, 100 I then know it has entered the shape. I know when it exits the shape if the pixel value is not 100, 255, 100. Thus I know start and end coordinates for each line within my shape and if one ray enters and exits the shape multiple times - this will generate all line segments within that one ray cast.
For the most part it works but there are issues:
It's very slow. Perhaps there is a better way than casting rays? Or perhaps there is a way to optimize the ray logic? Perhaps something more intelligent than just checking for RGB color values?
How do I cast rays at a different angle within the bounding box? Now it's going left to right, but how would I fill my bounding box with rays cast at any specified angle? i.e.:
I don't care about holes or curves. The shapes will all be made of straight line segments and won't have any holes inside them.
Edit: made changes to the pixel RGB sampling that improve performance.
canvas = document.getElementById('canvas');
ctx = canvas.getContext('2d');
lineSpacing = 15;
shape = [
[150,10], // x, y
[10,300],
[150,200],
[300,300]
];
boundingBox = [
[Infinity,Infinity],
[-Infinity,-Infinity]
]
// get bounding box coords
for(var i in shape) {
if(shape[i][0] < boundingBox[0][0]) boundingBox[0][0] = shape[i][0];
if(shape[i][1] < boundingBox[0][1]) boundingBox[0][1] = shape[i][1];
if(shape[i][0] > boundingBox[1][0]) boundingBox[1][0] = shape[i][0];
if(shape[i][1] > boundingBox[1][1]) boundingBox[1][1] = shape[i][1];
}
// display bounding box
ctx.fillStyle = 'rgba(255,0,0,.2)';
ctx.fillRect(boundingBox[0][0], boundingBox[0][1], boundingBox[1][0]-boundingBox[0][0], boundingBox[1][1]-boundingBox[0][1]);
// display shape (boundary)
ctx.beginPath();
ctx.moveTo(shape[0][0], shape[0][1]);
for(var i = 1; i < shape.length; i++) {
ctx.lineTo(shape[i][0], shape[i][1]);
}
ctx.closePath();
ctx.fillStyle = 'rgba(100,255,100,1)';
ctx.fill();
canvasData = ctx.getImageData(0, 0, canvas.width, canvas.height).data;
// loop through the shape in vertical slices
for(var i = boundingBox[0][1]+lineSpacing; i <= boundingBox[1][1]; i += lineSpacing) {
// send ray from left to right
for(var j = boundingBox[0][0], start = false; j <= boundingBox[1][0]; j++) {
x = j, y = i;
pixel = y * (canvas.width * 4) + x * 4;
// if pixel is within boundary (shape)
if(canvasData[pixel] == 100 && canvasData[pixel+1] == 255 && canvasData[pixel+2] == 100) {
// arrived at start of boundary
if(start === false) {
start = [x,y]
}
} else {
// arrived at end of boundary
if(start !== false) {
ctx.strokeStyle = 'rgba(0,0,0,1)';
ctx.beginPath();
ctx.moveTo(start[0], start[1]);
ctx.lineTo(x, y);
ctx.closePath();
ctx.stroke();
start = false;
}
}
}
// show entire cast ray for debugging purposes
ctx.strokeStyle = 'rgba(0,0,0,.2)';
ctx.beginPath();
ctx.moveTo(boundingBox[0][0], i);
ctx.lineTo(boundingBox[1][0], i);
ctx.closePath();
ctx.stroke();
}
<canvas id="canvas" width="350" height="350"></canvas>
This is a pretty complex problem that I am trying to simplify as much as possible. Using the line intersection formula we can determin where the ray intersects with the shape at every edge. What we can do is loop through each side of the shape while check every rays intersection. If they intersect we push those coordinates to an array.
I have tried to make this as dynamic as possible. You can pass the shape and change the number of rays and the angle. As for the angle it doesn't take a specific degree (i.e. 45) but rather you change the start and stop y axis. I'm sure if you must have the ability to put in a degree we can do that.
It currently console logs the array of intersecting coordinates but you can output them however you see fit.
The mouse function is just to verify that the number match up. Also be aware I am using toFixed() to get rid of lots of decimals but it does convert to a string. If you need an integer you'll have to convert back.
let canvas = document.getElementById("canvas");
let ctx = canvas.getContext("2d")
canvas.width = 300;
canvas.height = 300;
ctx.fillStyle = "violet";
ctx.fillRect(0,0,canvas.width,canvas.height)
//Shapes
let triangleish = [
[150,10], // x, y
[10,300],
[150,200],
[300,300]
]
let star = [ [ 0, 85 ], [ 75, 75 ], [ 100, 10 ], [ 125, 75 ],
[ 200, 85 ], [ 150, 125 ], [ 160, 190 ], [ 100, 150 ],
[ 40, 190 ], [ 50, 125 ], [ 0, 85 ] ];
let coords = [];
//Class that draws the shape on canvas
function drawShape(arr) {
ctx.beginPath();
ctx.fillStyle = "rgb(0,255,0)";
ctx.moveTo(arr[0][0], arr[0][1]);
for (let i=1;i<arr.length;i++) {
ctx.lineTo(arr[i][0], arr[i][1]);
}
ctx.fill();
ctx.closePath();
}
//pass the shape in here to draw it
drawShape(star)
//Class to creat the rays.
class Rays {
constructor(x1, y1, x2, y2) {
this.x1 = x1;
this.y1 = y1;
this.x2 = x2;
this.y2 = y2;
this.w = canvas.width;
this.h = 1;
}
draw() {
ctx.beginPath();
ctx.strokeStyle = 'black';
ctx.moveTo(this.x1, this.y1)
ctx.lineTo(this.x2, this.y2)
ctx.stroke();
ctx.closePath();
}
}
let rays = [];
function createRays(angle) {
let degrees = angle * (Math.PI/180)
//I am currently creating an array every 10px on the Y axis
for (let i=0; i < angle + 45; i++) {
//The i will be your start and stop Y axis. This is where you can change the angle
let cx = canvas.width/2 + (angle*2);
let cy = i * 10;
let x1 = (cx - 1000 * Math.cos(degrees));
let y1 = (cy - 1000 * Math.sin(degrees));
let x2 = (cx + 1000 * Math.cos(degrees));
let y2 = (cy + 1000 * Math.sin(degrees));
rays.push(new Rays(x1, y1, x2, y2))
}
}
//enter angle here
createRays(40);
//function to draw the rays after crating them
function drawRays() {
for (let i=0;i<rays.length; i++) {
rays[i].draw();
}
}
drawRays();
//This is where the magic happens. Using the line intersect formula we can determine if the rays intersect with the objects sides
function intersectLines(coord1, coord2, rays) {
let x1 = coord1[0];
let x2 = coord2[0];
let y1 = coord1[1];
let y2 = coord2[1];
let x3 = rays.x1;
let x4 = rays.x2;
let y3 = rays.y1;
let y4 = rays.y2;
//All of this comes from Wikipedia on line intersect formulas
let d = (x1 - x2)*(y3 - y4) - (y1 - y2)*(x3 - x4);
if (d == 0) {
return
}
let t = ((x1 - x3)*(y3 - y4) - (y1 - y3)*(x3 - x4)) / d;
let u = ((x2 - x1)*(y1 - y3) - (y2 - y1)*(x1 - x3)) / d;
//if this statement is true then the lines intersect
if (t > 0 && t < 1 && u > 0) {
//I have currently set it to fixed but if a string does not work for you you can change it however you want.
//the first formula is the X coord of the interect the second is the Y
coords.push([(x1 + t*(x2 - x1)).toFixed(2),(y1 + t*(y2 - y1)).toFixed(2)])
}
return
}
//function to call the intersect function by passing in the shapes sides and each ray
function callIntersect(shape) {
for (let i=0;i<shape.length;i++) {
for (let j=0;j<rays.length;j++) {
if (i < shape.length - 1) {
intersectLines(shape[i], shape[i+1], rays[j]);
} else {
intersectLines(shape[0], shape[shape.length - 1], rays[j]);
}
}
}
}
callIntersect(star);
//just to sort them by the Y axis so they they show up as in-and-out
function sortCoords() {
coords.sort((a, b) => {
return a[1] - b[1];
});
}
sortCoords()
console.log(coords)
//This part is not needed only added to verify number matched the mouse posit
let mouse = {
x: undefined,
y: undefined
}
let canvasBounds = canvas.getBoundingClientRect();
addEventListener('mousemove', e => {
mouse.x = e.x - canvasBounds.left;
mouse.y = e.y - canvasBounds.top;
ctx.clearRect(0, 0, canvas.width, canvas.height)
drawCoordinates();
})
function drawCoordinates() {
ctx.font = '15px Arial';
ctx.fillStyle = 'black';
ctx.fillText('x: '+mouse.x+' y: '+mouse.y, mouse.x, mouse.y)
}
function animate() {
ctx.clearRect(0, 0, canvas.width, canvas.height)
ctx.fillStyle = "violet";
ctx.fillRect(0,0,canvas.width,canvas.height)
for (let i=0;i<rays.length; i++) {
rays[i].draw();
}
drawShape(star)
drawCoordinates();
requestAnimationFrame(animate)
}
animate()
<canvas id="canvas"></canvas>
I'm not an expert, but maybe you could do something like this:
Generate the points that constitute the borders.
Organize them in a convenient structure, e.g. an object with the y as key, and an array of x as values.
2.1. i.e. each item in the object would constitute all points of all borders in a single y.
Iterate over the object and generate the segments for each y.
3.1. e.g. if the array of y=12 contains [ 10, 20, 60, 80 ] then you would generate two segments: [ 10, 12 ] --> [ 20, 12 ] and [ 60, 12 ] --> [ 80, 12 ].
To generate the borders' points (and to answer your second question), you can use the line function y = a*x + b.
For example, to draw a line between [ 10, 30 ] and [ 60, 40 ], you would:
Solve a and b by substituting x and y for both points and combining these two formulas (with standard algebra):
For point #1: 30 = a*10 + b
For point #2: 40 = a*60 + b
b = 30 - a*10
40 = a*60 + (30 - a*10)
a*60 - a*10 = 40 - 30
50*a = 10
a = 0.2
30 = a*10 + b
30 = 0.2*10 + b
b = 30 - 2
b = 28
With a and b at hand, you get the function for your specific line:
y = 0.2*x + 28
With that, you can calculate the point of the line for any y. So, for example, the x of the point right under the first point ([ 10, 30 ]) would have a y of 31, and so: 31 = 0.2*x + 28, and so: x = 15. So you get: [ 15, 31 ].
You may need a bit of special handling for:
Vertical lines, because the slope is "infinite" and calculating it would cause division by zero.
Rounding issues. For some (probably most) pixels you will get real x values (i.e. non-integer). You can Math.round() them, but it can cause issues, like:
8.1. Diagonal rays may not actually hit a border point even when they go through a border. This will probably require additional handling (like checking points around and not just exactly the pixels the ray lies on).
8.2. The points your algorithm generate may (slightly) differ from the points that appear on the screen when you use libraries or built-in browser functionality to draw the shape (depending on the implementation of their drawing algorithms).
This is a mashup of Justin's answer and code from my proposed question.
One issue was generating rays at a set angle and a set distance from each other. To have rays be equal distances apart at any angle we can use a vector at a 90 degree angle and then place a new center point for the next line.
We can start at the exact midpoint of our boundary and then spread out on either side.
Red line is the center line, green dots are the vector offset points for the next line.
Next I modified Justin's intersect algorithm to iterate by ray and not side, that way I get interlaced coordinates where array[index] is the start point of a segment and array[index+1] is the end point.
And by connecting the lines we get a shape that is filled with lines inside its boundaries at set distances apart
Issues:
I had to inflate the boundary by 1 pixel otherwise certain shapes would fail to generate paths
I'd like rays to be some what aligned. It's hard to explain, but here's an example of 6 triangles rotated at 60 degree increments that form a hexagon with their inner lines also offset by 60 degree increments. The top and bottom triangle inner lines do not join those of the outside triangles. This is an issue with the cast rays. Ideally I'd like them to join and be aligned with the outer most edge if that makes sense. Surely there is a better way to cast rays than this...
canvas = document.getElementById('canvas');
ctx = canvas.getContext('2d');
lineSpacing = 12;
angle = 45;
shapes = [
[[143.7,134.2], [210.4,18.7], [77.1,18.7]],
[[143.7,134.2], [77.1,18.7], [10.4,134.2]],
[[143.7,134.2], [10.4,134.2], [77.1,249.7]],
[[143.7,134.2], [77.1,249.7], [210.4,249.7]],
[[143.7,134.2], [210.4,249.7], [277.1,134.2]],
[[143.7,134.2], [277.1,134.2], [210.4,18.7]]
];
for(var i in shapes) {
lines = getLineSegments(shapes[i], 90+(-60*i), lineSpacing);
for(var i = 0; i < lines.length; i += 2) {
start = lines[i];
end = lines[i+1];
ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'rgba(0,0,0,1)';
ctx.moveTo(start[0], start[1]);
ctx.lineTo(end[0], end[1]);
ctx.closePath();
ctx.stroke();
}
}
function getLineSegments(shape, angle, lineSpacing) {
boundingBox = [
[Infinity,Infinity],
[-Infinity,-Infinity]
]
// get bounding box coords
for(var i in shape) {
if(shape[i][0] < boundingBox[0][0]) boundingBox[0][0] = shape[i][0];
if(shape[i][1] < boundingBox[0][1]) boundingBox[0][1] = shape[i][1];
if(shape[i][0] > boundingBox[1][0]) boundingBox[1][0] = shape[i][0];
if(shape[i][1] > boundingBox[1][1]) boundingBox[1][1] = shape[i][1];
}
boundingBox[0][0] -= 1, boundingBox[0][1] -= 1;
boundingBox[1][0] += 1, boundingBox[1][1] += 1;
// display shape (boundary)
ctx.beginPath();
ctx.moveTo(shape[0][0], shape[0][1]);
for(var i = 1; i < shape.length; i++) {
ctx.lineTo(shape[i][0], shape[i][1]);
}
ctx.closePath();
ctx.fillStyle = 'rgba(100,255,100,1)';
ctx.fill();
boundingMidX = ((boundingBox[0][0]+boundingBox[1][0]) / 2);
boundingMidY = ((boundingBox[0][1]+boundingBox[1][1]) / 2);
rayPaths = [];
path = getPathCoords(boundingBox, 0, 0, angle);
rayPaths.push(path);
/*ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'red';
ctx.moveTo(path[0][0], path[0][1]);
ctx.lineTo(path[1][0], path[1][1]);
ctx.closePath();
ctx.stroke();*/
getPaths:
for(var i = 0, lastPaths = [path, path]; true; i++) {
for(var j = 0; j < 2; j++) {
pathMidX = (lastPaths[j][0][0] + lastPaths[j][1][0]) / 2;
pathMidY = (lastPaths[j][0][1] + lastPaths[j][1][1]) / 2;
pathVectorX = lastPaths[j][1][1] - lastPaths[j][0][1];
pathVectorY = lastPaths[j][1][0] - lastPaths[j][0][0];
pathLength = Math.sqrt(pathVectorX * pathVectorX + pathVectorY * pathVectorY);
pathOffsetPointX = pathMidX + ((j % 2 === 0 ? pathVectorX : -pathVectorX) / pathLength * lineSpacing);
pathOffsetPointY = pathMidY + ((j % 2 === 0 ? -pathVectorY : pathVectorY) / pathLength * lineSpacing);
offsetX = pathOffsetPointX-boundingMidX;
offsetY = pathOffsetPointY-boundingMidY;
path = getPathCoords(boundingBox, offsetX, offsetY, angle);
if(
path[0][0] < boundingBox[0][0] ||
path[1][0] > boundingBox[1][0] ||
path[0][0] > boundingBox[1][0] ||
path[1][0] < boundingBox[0][0]
) break getPaths;
/*ctx.fillStyle = 'green';
ctx.fillRect(pathOffsetPointX-2.5, pathOffsetPointY-2.5, 5, 5);
ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'black';
ctx.moveTo(path[0][0], path[0][1]);
ctx.lineTo(path[1][0], path[1][1]);
ctx.closePath();
ctx.stroke();*/
rayPaths.push(path);
lastPaths[j] = path;
}
}
coords = [];
function intersectLines(coord1, coord2, rays) {
x1 = coord1[0], x2 = coord2[0];
y1 = coord1[1], y2 = coord2[1];
x3 = rays[0][0], x4 = rays[1][0];
y3 = rays[0][1], y4 = rays[1][1];
d = (x1 - x2)*(y3 - y4) - (y1 - y2)*(x3 - x4);
if (d == 0) return;
t = ((x1 - x3)*(y3 - y4) - (y1 - y3)*(x3 - x4)) / d;
u = ((x2 - x1)*(y1 - y3) - (y2 - y1)*(x1 - x3)) / d;
if (t > 0 && t < 1 && u > 0) {
coords.push([(x1 + t*(x2 - x1)).toFixed(2),(y1 + t*(y2 - y1)).toFixed(2)])
}
return;
}
function callIntersect(shape) {
for (var i = 0; i < rayPaths.length; i++) {
for (var j = 0; j< shape.length; j++) {
if (j < shape.length - 1) {
intersectLines(shape[j], shape[j+1], rayPaths[i]);
} else {
intersectLines(shape[0], shape[shape.length - 1], rayPaths[i]);
}
}
}
}
callIntersect(shape);
return coords;
}
function getPathCoords(boundingBox, offsetX, offsetY, angle) {
coords = [];
// add decimal places otherwise can lead to Infinity, subtract 90 so 0 degrees is at the top
angle = angle + 0.0000000000001 - 90;
boundingBoxWidth = boundingBox[1][0] - boundingBox[0][0];
boundingBoxHeight = boundingBox[1][1] - boundingBox[0][1];
boundingMidX = ((boundingBox[0][0]+boundingBox[1][0]) / 2);
boundingMidY = ((boundingBox[0][1]+boundingBox[1][1]) / 2);
x = boundingMidX + offsetX, y = boundingMidY + offsetY;
dx = Math.cos(Math.PI * angle / 180);
dy = Math.sin(Math.PI * angle / 180);
for(var i = 0; i < 2; i++) {
bx = (dx > 0) ? boundingBoxWidth+boundingBox[0][0] : boundingBox[0][0];
by = (dy > 0) ? boundingBoxHeight+boundingBox[0][1] : boundingBox[0][1];
if(dx == 0) ix = x, iy = by;
if(dy == 0) iy = y, ix = bx;
tx = (bx - x) / dx;
ty = (by - y) / dy;
if(tx <= ty) {
ix = bx, iy = y + tx * dy;
} else {
iy = by, ix = x + ty * dx;
}
coords.push([ix, iy]);
dx = -dx;
dy = -dy;
}
return coords;
}
<canvas id="canvas" width="500" height="500"></canvas>
canvas = document.getElementById('canvas');
ctx = canvas.getContext('2d');
lineSpacing = 10;
angle = 45;
shape = [
[200,10], // x, y
[10,300],
[200,200],
[400,300]
];
lines = getLineSegments(shape, angle, lineSpacing);
for(var i = 0; i < lines.length; i += 2) {
start = lines[i];
end = lines[i+1];
ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'rgba(0,0,0,1)';
ctx.moveTo(start[0], start[1]);
ctx.lineTo(end[0], end[1]);
ctx.closePath();
ctx.stroke();
}
function getLineSegments(shape, angle, lineSpacing) {
boundingBox = [
[Infinity,Infinity],
[-Infinity,-Infinity]
]
// get bounding box coords
for(var i in shape) {
if(shape[i][0] < boundingBox[0][0]) boundingBox[0][0] = shape[i][0];
if(shape[i][1] < boundingBox[0][1]) boundingBox[0][1] = shape[i][1];
if(shape[i][0] > boundingBox[1][0]) boundingBox[1][0] = shape[i][0];
if(shape[i][1] > boundingBox[1][1]) boundingBox[1][1] = shape[i][1];
}
boundingBox[0][0] -= 1, boundingBox[0][1] -= 1;
boundingBox[1][0] += 1, boundingBox[1][1] += 1;
// display bounding box
ctx.fillStyle = 'rgba(255,0,0,.2)';
ctx.fillRect(boundingBox[0][0], boundingBox[0][1], boundingBox[1][0]-boundingBox[0][0], boundingBox[1][1]-boundingBox[0][1]);
// display shape (boundary)
ctx.beginPath();
ctx.moveTo(shape[0][0], shape[0][1]);
for(var i = 1; i < shape.length; i++) {
ctx.lineTo(shape[i][0], shape[i][1]);
}
ctx.closePath();
ctx.fillStyle = 'rgba(100,255,100,1)';
ctx.fill();
boundingMidX = ((boundingBox[0][0]+boundingBox[1][0]) / 2);
boundingMidY = ((boundingBox[0][1]+boundingBox[1][1]) / 2);
rayPaths = [];
path = getPathCoords(boundingBox, 0, 0, angle);
rayPaths.push(path);
/*ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'red';
ctx.moveTo(path[0][0], path[0][1]);
ctx.lineTo(path[1][0], path[1][1]);
ctx.closePath();
ctx.stroke();*/
getPaths:
for(var i = 0, lastPaths = [path, path]; true; i++) {
for(var j = 0; j < 2; j++) {
pathMidX = (lastPaths[j][0][0] + lastPaths[j][1][0]) / 2;
pathMidY = (lastPaths[j][0][1] + lastPaths[j][1][1]) / 2;
pathVectorX = lastPaths[j][1][1] - lastPaths[j][0][1];
pathVectorY = lastPaths[j][1][0] - lastPaths[j][0][0];
pathLength = Math.sqrt(pathVectorX * pathVectorX + pathVectorY * pathVectorY);
pathOffsetPointX = pathMidX + ((j % 2 === 0 ? pathVectorX : -pathVectorX) / pathLength * lineSpacing);
pathOffsetPointY = pathMidY + ((j % 2 === 0 ? -pathVectorY : pathVectorY) / pathLength * lineSpacing);
offsetX = pathOffsetPointX-boundingMidX;
offsetY = pathOffsetPointY-boundingMidY;
path = getPathCoords(boundingBox, offsetX, offsetY, angle);
if(
path[0][0] < boundingBox[0][0] ||
path[1][0] > boundingBox[1][0] ||
path[0][0] > boundingBox[1][0] ||
path[1][0] < boundingBox[0][0]
) break getPaths;
/*ctx.fillStyle = 'green';
ctx.fillRect(pathOffsetPointX-2.5, pathOffsetPointY-2.5, 5, 5);
ctx.beginPath();
ctx.lineWidth = 1;
ctx.strokeStyle = 'black';
ctx.moveTo(path[0][0], path[0][1]);
ctx.lineTo(path[1][0], path[1][1]);
ctx.closePath();
ctx.stroke();*/
rayPaths.push(path);
lastPaths[j] = path;
}
}
coords = [];
function intersectLines(coord1, coord2, rays) {
x1 = coord1[0], x2 = coord2[0];
y1 = coord1[1], y2 = coord2[1];
x3 = rays[0][0], x4 = rays[1][0];
y3 = rays[0][1], y4 = rays[1][1];
d = (x1 - x2)*(y3 - y4) - (y1 - y2)*(x3 - x4);
if (d == 0) return;
t = ((x1 - x3)*(y3 - y4) - (y1 - y3)*(x3 - x4)) / d;
u = ((x2 - x1)*(y1 - y3) - (y2 - y1)*(x1 - x3)) / d;
if (t > 0 && t < 1 && u > 0) {
coords.push([(x1 + t*(x2 - x1)).toFixed(2),(y1 + t*(y2 - y1)).toFixed(2)])
}
return;
}
function callIntersect(shape) {
for (var i = 0; i < rayPaths.length; i++) {
for (var j = 0; j< shape.length; j++) {
if (j < shape.length - 1) {
intersectLines(shape[j], shape[j+1], rayPaths[i]);
} else {
intersectLines(shape[0], shape[shape.length - 1], rayPaths[i]);
}
}
}
}
callIntersect(shape);
return coords;
}
function getPathCoords(boundingBox, offsetX, offsetY, angle) {
coords = [];
// add decimal places otherwise can lead to Infinity, subtract 90 so 0 degrees is at the top
angle = angle + 0.0000000000001 - 90;
boundingBoxWidth = boundingBox[1][0] - boundingBox[0][0];
boundingBoxHeight = boundingBox[1][1] - boundingBox[0][1];
boundingMidX = ((boundingBox[0][0]+boundingBox[1][0]) / 2);
boundingMidY = ((boundingBox[0][1]+boundingBox[1][1]) / 2);
x = boundingMidX + offsetX, y = boundingMidY + offsetY;
dx = Math.cos(Math.PI * angle / 180);
dy = Math.sin(Math.PI * angle / 180);
for(var i = 0; i < 2; i++) {
bx = (dx > 0) ? boundingBoxWidth+boundingBox[0][0] : boundingBox[0][0];
by = (dy > 0) ? boundingBoxHeight+boundingBox[0][1] : boundingBox[0][1];
if(dx == 0) ix = x, iy = by;
if(dy == 0) iy = y, ix = bx;
tx = (bx - x) / dx;
ty = (by - y) / dy;
if(tx <= ty) {
ix = bx, iy = y + tx * dy;
} else {
iy = by, ix = x + ty * dx;
}
coords.push([ix, iy]);
dx = -dx;
dy = -dy;
}
return coords;
}
<canvas id="canvas" width="500" height="500"></canvas>
I'm trying to trigger animations in a simple pong game when the ball bounces off each edge. However, I'm struggling to get the animations to appear the way I want them to. I want the ellipses to draw on top of each other in the order that the edges are hit. This sometimes happens, but I believe the problem is that when two animation booleans are true at the same time, whichever animation appears later in the program flow will draw over the other. So the way I've laid it out below, the blue will always draw over the yellow if both are true, and the red will always draw over both blue and yellow if both are true.
Any assistance with this would be much appreciated! Thanks.
var bg = 220;
var x = 0;
var y = 200;
var speed = 3;
var speedY = 4;
var leftAnim = false;
var leftX;
var leftY;
var leftDiam = 40;
var rightAnim = false;
var rightX;
var rightY;
var rightDiam = 40;
var topAnim = false;
var topX;
var topY;
var topDiam = 40;
function setup() {
createCanvas(400, 400);
}
function draw() {
background(bg);
noStroke();
edgeAnimation();
fill("white");
ellipse(x, y, 40, 40);
x += speed;
y += speedY;
if (x > width) {
//set rightAnim boolean to true to trigger right edge animation
rightAnim = true;
//update animating ellipse position variables to draw it at the same point where ball bounced
rightX = x;
rightY = y;
//reverse x direction of ball
speed *= -1;
}
if (x < 0) {
leftAnim = true;
leftX = x;
leftY = y;
speed *= -1;
}
// if the ball hits the top of the canvas, reverse the y direction of the ball
if (y < 0) {
topAnim = true;
topX = x;
topY = y;
speedY *= -1;
}
//if ball hits bottom of the canvas, stop the ball's motion
if (y > height) {
speed = 0;
speedY = 0;
}
//conditional to check for collision with paddle
if (x > mouseX && x < mouseX + 100 && y == height - 60) {
speedY *= -1;
}
// Paddle
rect(mouseX, height - 40, 100, 30);
}
function edgeAnimation() {
if (leftAnim == true) {
fill("gold");
ellipse(leftX, leftY, leftDiam);
leftDiam += 20;
//if animating ellipse fills the canvas, change the background color to the ellipse color, change leftAnim boolean to false and reset the diameter's size
if (leftDiam > 1150) {
bg = "gold";
leftAnim = false;
leftDiam = 40;
}
}
if (rightAnim == true) {
fill("RoyalBlue");
ellipse(rightX, rightY, rightDiam);
rightDiam += 20;
if (rightDiam > 1150) {
bg = "RoyalBlue";
rightAnim = false;
rightDiam = 40;
}
}
if (topAnim == true) {
fill("crimson");
ellipse(topX, topY, topDiam);
topDiam += 20;
if (topDiam > 1150) {
bg = "crimson";
topAnim = false;
topDiam = 40;
}
}
}
<script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/0.8.0/p5.js"></script>
Don't use boolean states, but use list of animations.
var animation = []
Is a new edge is hit the append a new animation data set at the end (.push) of the animation list:
function draw() {
// [...]
if (x > width) {
animation.push( {color: "RoyalBlue", x: x, y: y, diam:40} );
speed *= -1;
}
if (x < 0) {
animation.push( {color: "gold", x: x, y: y, diam: 40} );
speed *= -1;
}
if (y < 0) {
animation.push( {color: "crimson", x: x, y: y, diam: 40} );
speedY *= -1;
}
// [...]
}
The animations can be drawn in a loop. Keep only that animations which doesn't exceed the limit:
function edgeAnimation() {
var keepAnimation = []
for (let i = 0; i < animation.length; ++i) {
fill( animation[i].color );
ellipse( animation[i].x, animation[i].y, animation[i].diam );
animation[i].diam += 20;
if (animation[i].diam > 1150) {
bg = animation[i].color;
} else {
keepAnimation.push(animation[i]);
}
}
animation = keepAnimation;
}
See the example, wher I applied the suggestions to the code of the question:
var bg = 220;
var x = 0;
var y = 200;
var speed = 3;
var speedY = 4;
var animation = []
function setup() {
createCanvas(400, 400);
}
function draw() {
background(bg);
noStroke();
edgeAnimation();
fill("white");
ellipse(x, y, 40, 40);
x += speed;
y += speedY;
if (x > width) {
animation.push( {color: "RoyalBlue", x: x, y: y, diam:40} );
speed *= -1;
}
if (x < 0) {
animation.push( {color: "gold", x: x, y: y, diam: 40} );
speed *= -1;
}
if (y < 0) {
animation.push( {color: "crimson", x: x, y: y, diam: 40} );
speedY *= -1;
}
//if ball hits bottom of the canvas, stop the ball's motion
if (y > height) {
x = random(20, width-20);
y = 20;
speed = random(2,4);
speedY = 6 - speed;
}
//conditional to check for collision with paddle
if (x > mouseX && x < mouseX + 100 && y < height - 59 + speedY && y > height - 60) {
speedY *= -1;
y = height - 60
}
// Paddle
rect(mouseX, height - 40, 100, 30);
}
function edgeAnimation() {
var keepAnimation = []
for (let i = 0; i < animation.length; ++i) {
fill( animation[i].color );
ellipse( animation[i].x, animation[i].y, animation[i].diam );
animation[i].diam += 20;
if (animation[i].diam > 1150) {
bg = animation[i].color;
} else {
keepAnimation.push(animation[i]);
}
}
animation = keepAnimation;
}
<script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/0.8.0/p5.js"></script>
I'm trying to create a hyperdrive effect, like from Star Wars, where the stars have a motion trail. I've gotten as far as creating the motion trail on a single circle, it still looks like the trail is going down in the y direction and not forwards or positive in the z direction.
Also, how could I do this with (many) randomly placed circles as if they were stars?
My code is on jsfiddle (https://jsfiddle.net/5m7x5zxu/) and below:
var canvas = document.querySelector("canvas");
var context = canvas.getContext("2d");
var xPos = 180;
var yPos = 100;
var motionTrailLength = 16;
var positions = [];
function storeLastPosition(xPos, yPos) {
// push an item
positions.push({
x: xPos,
y: yPos
});
//get rid of first item
if (positions.length > motionTrailLength) {
positions.pop();
}
}
function update() {
context.clearRect(0, 0, canvas.width, canvas.height);
for (var i = positions.length-1; i > 0; i--) {
var ratio = (i - 1) / positions.length;
drawCircle(positions[i].x, positions[i].y, ratio);
}
drawCircle(xPos, yPos, "source");
var k=2;
storeLastPosition(xPos, yPos);
// update position
if (yPos > 125) {
positions.pop();
}
else{
yPos += k*1.1;
}
requestAnimationFrame(update);
}
update();
function drawCircle(x, y, r) {
if (r == "source") {
r = 1;
} else {
r*=1.1;
}
context.beginPath();
context.arc(x, y, 3, 0, 2 * Math.PI, true);
context.fillStyle = "rgba(255, 255, 255, " + parseFloat(1-r) + ")";
context.fill();
}
Canvas feedback and particles.
This type of FX can be done many ways.
You could just use a particle systems and draw stars (as lines) moving away from a central point, as the speed increase you increase the line length. When at low speed the line becomes a circle if you set ctx.lineWidth > 1 and ctx.lineCap = "round"
To add to the FX you can use render feedback as I think you have done by rendering the canvas over its self. If you render it slightly larger you get a zoom FX. If you use ctx.globalCompositeOperation = "lighter" you can increase the stars intensity as you speed up to make up for the overall loss of brightness as stars move faster.
Example
I got carried away so you will have to sift through the code to find what you need.
The particle system uses the Point object and a special array called bubbleArray to stop GC hits from janking the animation.
You can use just an ordinary array if you want. The particles are independent of the bubble array. When they have moved outside the screen they are move to a pool and used again when a new particle is needed. The update function moves them and the draw Function draws them I guess LOL
The function loop is the main loop and adds and draws particles (I have set the particle count to 400 but should handle many more)
The hyper drive is operated via the mouse button. Press for on, let go for off. (It will distort the text if it's being displayed)
The canvas feedback is set via that hyperSpeed variable, the math is a little complex. The sCurce function just limits the value to 0,1 in this case to stop alpha from going over or under 1,0. The hyperZero is just the sCurve return for 1 which is the hyper drives slowest speed.
I have pushed the feedback very close to the limit. In the first few lines of the loop function you can set the top speed if(mouse.button){ if(hyperSpeed < 1.75){ Over this value 1.75 and you will start to get bad FX, at about 2 the whole screen will just go white (I think that was where)
Just play with it and if you have questions ask in the comments.
const ctx = canvas.getContext("2d");
// very simple mouse
const mouse = {x : 0, y : 0, button : false}
function mouseEvents(e){
mouse.x = e.pageX;
mouse.y = e.pageY;
mouse.button = e.type === "mousedown" ? true : e.type === "mouseup" ? false : mouse.button;
}
["down","up","move"].forEach(name => document.addEventListener("mouse"+name,mouseEvents));
// High performance array pool using buubleArray to separate pool objects and active object.
// This is designed to eliminate GC hits involved with particle systems and
// objects that have short lifetimes but used often.
// Warning this code is not well tested.
const bubbleArray = () => {
const items = [];
var count = 0;
return {
clear(){ // warning this dereferences all locally held references and can incur Big GC hit. Use it wisely.
this.items.length = 0;
count = 0;
},
update() {
var head, tail;
head = tail = 0;
while(head < count){
if(items[head].update() === false) {head += 1 }
else{
if(tail < head){
const temp = items[head];
items[head] = items[tail];
items[tail] = temp;
}
head += 1;
tail += 1;
}
}
return count = tail;
},
createCallFunction(name, earlyExit = false){
name = name.split(" ")[0];
const keys = Object.keys(this);
if(Object.keys(this).indexOf(name) > -1){ throw new Error(`Can not create function name '${name}' as it already exists.`) }
if(!/\W/g.test(name)){
let func;
if(earlyExit){
func = `var items = this.items; var count = this.getCount(); var i = 0;\nwhile(i < count){ if (items[i++].${name}() === true) { break } }`;
}else{
func = `var items = this.items; var count = this.getCount(); var i = 0;\nwhile(i < count){ items[i++].${name}() }`;
}
!this.items && (this.items = items);
this[name] = new Function(func);
}else{ throw new Error(`Function name '${name}' contains illegal characters. Use alpha numeric characters.`) }
},
callEach(name){var i = 0; while(i < count){ if (items[i++][name]() === true) { break } } },
each(cb) { var i = 0; while(i < count){ if (cb(items[i], i++) === true) { break } } },
next() { if (count < items.length) { return items[count ++] } },
add(item) {
if(count === items.length){
items.push(item);
count ++;
}else{
items.push(items[count]);
items[count++] = item;
}
return item;
},
getCount() { return count },
}
}
// Helpers rand float, randI random Int
// doFor iterator
// sCurve curve input -Infinity to Infinity out -1 to 1
// randHSLA creates random colour
// CImage, CImageCtx create image and image with context attached
const randI = (min, max = min + (min = 0)) => (Math.random() * (max - min) + min) | 0;
const rand = (min = 1, max = min + (min = 0)) => Math.random() * (max - min) + min;
const doFor = (count, cb) => { var i = 0; while (i < count && cb(i++) !== true); }; // the ; after while loop is important don't remove
const sCurve = (v,p) => (2 / (1 + Math.pow(p,-v))) -1;
const randHSLA = (h, h1, s = 100, s1 = 100, l = 50, l1 = 50, a = 1, a1 = 1) => { return `hsla(${randI(h,h1) % 360},${randI(s,s1)}%,${randI(l,l1)}%,${rand(a,a1)})` }
const CImage = (w = 128, h = w) => (c = document.createElement("canvas"),c.width = w,c.height = h, c);
const CImageCtx = (w = 128, h = w) => (c = CImage(w,h), c.ctx = c.getContext("2d"), c);
// create image to hold text
var textImage = CImageCtx(1024, 1024);
var c = textImage.ctx;
c.fillStyle = "#FF0";
c.font = "64px arial black";
c.textAlign = "center";
c.textBaseline = "middle";
const text = "HYPER,SPEED FX,VII,,Battle of Jank,,Hold the mouse,button to increase,speed.".split(",");
text.forEach((line,i) => { c.fillText(line,512,i * 68 + 68) });
const maxLines = text.length * 68 + 68;
function starWarIntro(image,x1,y1,x2,y2,pos){
var iw = image.width;
var ih = image.height;
var hh = (x2 - x1) / (y2 - y1); // Slope of left edge
var w2 = iw / 2; // half width
var z1 = w2 - x1; // Distance (z) to first line
var z2 = (z1 / (w2 - x2)) * z1 - z1; // distance (z) between first and last line
var sk,t3,t3a,z3a,lines, z3, dd = 0, a = 0, as = 2 / (y2 - y1);
for (var y = y1; y < y2 && dd < maxLines; y++) { // for each line
t3 = ((y - y1) * hh) + x1; // get scan line top left edge
t3a = (((y+1) - y1) * hh) + x1; // get scan line bottom left edge
z3 = (z1 / (w2 - t3)) * z1; // get Z distance to top of this line
z3a = (z1 / (w2 - t3a)) * z1; // get Z distance to bottom of this line
dd = ((z3 - z1) / z2) * ih; // get y bitmap coord
a += as;
ctx.globalAlpha = a < 1 ? a : 1;
dd += pos; // kludge for this answer to make text move
// does not move text correctly
lines = ((z3a - z1) / z2) * ih-dd; // get number of lines to copy
ctx.drawImage(image, 0, dd , iw, lines, t3, y, w - t3 * 2, 1.5);
}
}
// canvas settings
var w = canvas.width;
var h = canvas.height;
var cw = w / 2; // center
var ch = h / 2;
// diagonal distance used to set point alpha (see point update)
var diag = Math.sqrt(w * w + h * h);
// If window size is changed this is called to resize the canvas
// It is not called via the resize event as that can fire to often and
// debounce makes it feel sluggish so is called from main loop.
function resizeCanvas(){
points.clear();
canvas.width = innerWidth;
canvas.height = innerHeight;
w = canvas.width;
h = canvas.height;
cw = w / 2; // center
ch = h / 2;
diag = Math.sqrt(w * w + h * h);
}
// create array of points
const points = bubbleArray();
// create optimised draw function itterator
points.createCallFunction("draw",false);
// spawns a new star
function spawnPoint(pos){
var p = points.next();
p = points.add(new Point())
if (p === undefined) { p = points.add(new Point()) }
p.reset(pos);
}
// point object represents a single star
function Point(pos){ // this function is duplicated as reset
if(pos){
this.x = pos.x;
this.y = pos.y;
this.dead = false;
}else{
this.x = 0;
this.y = 0;
this.dead = true;
}
this.alpha = 0;
var x = this.x - cw;
var y = this.y - ch;
this.dir = Math.atan2(y,x);
this.distStart = Math.sqrt(x * x + y * y);
this.speed = rand(0.01,1);
this.col = randHSLA(220,280,100,100,50,100);
this.dx = Math.cos(this.dir) * this.speed;
this.dy = Math.sin(this.dir) * this.speed;
}
Point.prototype = {
reset : Point, // resets the point
update(){ // moves point and returns false when outside
this.speed *= hyperSpeed; // increase speed the more it has moved
this.x += Math.cos(this.dir) * this.speed;
this.y += Math.sin(this.dir) * this.speed;
var x = this.x - cw;
var y = this.y - ch;
this.alpha = (Math.sqrt(x * x + y * y) - this.distStart) / (diag * 0.5 - this.distStart);
if(this.alpha > 1 || this.x < 0 || this.y < 0 || this.x > w || this.h > h){
this.dead = true;
}
return !this.dead;
},
draw(){ // draws the point
ctx.strokeStyle = this.col;
ctx.globalAlpha = 0.25 + this.alpha *0.75;
ctx.beginPath();
ctx.lineTo(this.x - this.dx * this.speed, this.y - this.dy * this.speed);
ctx.lineTo(this.x, this.y);
ctx.stroke();
}
}
const maxStarCount = 400;
const p = {x : 0, y : 0};
var hyperSpeed = 1.001;
const alphaZero = sCurve(1,2);
var startTime;
function loop(time){
if(startTime === undefined){
startTime = time;
}
if(w !== innerWidth || h !== innerHeight){
resizeCanvas();
}
// if mouse down then go to hyper speed
if(mouse.button){
if(hyperSpeed < 1.75){
hyperSpeed += 0.01;
}
}else{
if(hyperSpeed > 1.01){
hyperSpeed -= 0.01;
}else if(hyperSpeed > 1.001){
hyperSpeed -= 0.001;
}
}
var hs = sCurve(hyperSpeed,2);
ctx.globalAlpha = 1;
ctx.setTransform(1,0,0,1,0,0); // reset transform
//==============================================================
// UPDATE the line below could be the problem. Remove it and try
// what is under that
//==============================================================
//ctx.fillStyle = `rgba(0,0,0,${1-(hs-alphaZero)*2})`;
// next two lines are the replacement
ctx.fillStyle = "Black";
ctx.globalAlpha = 1-(hs-alphaZero) * 2;
//==============================================================
ctx.fillRect(0,0,w,h);
// the amount to expand canvas feedback
var sx = (hyperSpeed-1) * cw * 0.1;
var sy = (hyperSpeed-1) * ch * 0.1;
// increase alpha as speed increases
ctx.globalAlpha = (hs-alphaZero)*2;
ctx.globalCompositeOperation = "lighter";
// draws feedback twice
ctx.drawImage(canvas,-sx, -sy, w + sx*2 , h + sy*2)
ctx.drawImage(canvas,-sx/2, -sy/2, w + sx , h + sy)
ctx.globalCompositeOperation = "source-over";
// add stars if count < maxStarCount
if(points.getCount() < maxStarCount){
var cent = (hyperSpeed - 1) *0.5; // pulls stars to center as speed increases
doFor(10,()=>{
p.x = rand(cw * cent ,w - cw * cent); // random screen position
p.y = rand(ch * cent,h - ch * cent);
spawnPoint(p)
})
}
// as speed increases make lines thicker
ctx.lineWidth = 2 + hs*2;
ctx.lineCap = "round";
points.update(); // update points
points.draw(); // draw points
ctx.globalAlpha = 1;
// scroll the perspective star wars text FX
var scrollTime = (time - startTime) / 5 - 2312;
if(scrollTime < 1024){
starWarIntro(textImage,cw - h * 0.5, h * 0.2, cw - h * 3, h , scrollTime );
}
requestAnimationFrame(loop);
}
requestAnimationFrame(loop);
canvas { position : absolute; top : 0px; left : 0px; }
<canvas id="canvas"></canvas>
Here's another simple example, based mainly on the same idea as Blindman67, concetric lines moving away from center at different velocities (the farther from center, the faster it moves..) also no recycling pool here.
"use strict"
var c = document.createElement("canvas");
document.body.append(c);
var ctx = c.getContext("2d");
var w = window.innerWidth;
var h = window.innerHeight;
var ox = w / 2;
var oy = h / 2;
c.width = w; c.height = h;
const stars = 120;
const speed = 0.5;
const trailLength = 90;
ctx.fillStyle = "#000";
ctx.fillRect(0, 0, w, h);
ctx.fillStyle = "#fff"
ctx.fillRect(ox, oy, 1, 1);
init();
function init() {
var X = [];
var Y = [];
for(var i = 0; i < stars; i++) {
var x = Math.random() * w;
var y = Math.random() * h;
X.push( translateX(x) );
Y.push( translateY(y) );
}
drawTrails(X, Y)
}
function translateX(x) {
return x - ox;
}
function translateY(y) {
return oy - y;
}
function getDistance(x, y) {
return Math.sqrt(x * x + y * y);
}
function getLineEquation(x, y) {
return function(n) {
return y / x * n;
}
}
function drawTrails(X, Y) {
var count = 1;
ctx.fillStyle = "#000";
ctx.fillRect(0, 0, w, h);
function anim() {
for(var i = 0; i < X.length; i++) {
var x = X[i];
var y = Y[i];
drawNextPoint(x, y, count);
}
count+= speed;
if(count < trailLength) {
window.requestAnimationFrame(anim);
}
else {
init();
}
}
anim();
}
function drawNextPoint(x, y, step) {
ctx.fillStyle = "#fff";
var f = getLineEquation(x, y);
var coef = Math.abs(x) / 100;
var dist = getDistance( x, y);
var sp = speed * dist / 100;
for(var i = 0; i < sp; i++) {
var newX = x + Math.sign(x) * (step + i) * coef;
var newY = translateY( f(newX) );
ctx.fillRect(newX + ox, newY, 1, 1);
}
}
body {
overflow: hidden;
}
canvas {
position: absolute;
left: 0;
top: 0;
}
I created a breakout game for a school project using jquery and a helpful online tutorial.
The working fiddle is here: http://jsfiddle.net/Kinetic915/kURvf/
EDIT revised fiddle: http://jsfiddle.net/Kinetic915/nVctR/
I have changed most to javascript but am having problems changing the jquery code that renders the ball to javascript.
I have Marked and left spaces in the areas where there are problems.
Thank you very much for any help given!!
//***********************************************************************************
// START CODE
//***********************************************************************************
// VARIABLES and other initializing functions are here
function start() {
//******************************************************************************
//JQUERY
// HERE IS THE MAIN PROBLEM!!!!!!
// HERE IS THE MAIN PROBLEM!!!!!!
Cir = $('#canvas')[0].getContext("2d");
//JQUERY
//changing to Cir = canvas.getContext("2d"); causes the code to FAIL.
return setInterval(drawCIRCLE, 10);
}
function windowsize() {
//success with javascript
WIDTH.width = window.innerWidth;
HEIGHT.height = window.innerHeight;
WIDTH = window.innerWidth;
HEIGHT = window.innerHeight;
//Previous JQUERY:
// WIDTH = $("#canvas")[0].width = $(window).width();
// HEIGHT = $("#canvas")[0].height = $(window).height();
}
windowsize();
var x = WIDTH / 2 - 30; //divide by 2 start in middle of window
var y = HEIGHT / 2;
//THIS DRAWS THE CIRCLE
function circle() {
//Cir.clearRect(0, 0, WIDTH, HEIGHT);
Cir.beginPath();
Cir.arc(x, y, 10, 0, Math.PI * 2, true);
Cir.closePath();
Cir.fill();
}
// Initialization of the Block array, rendering of the gutter area and coordinate box
were here
//*********************************************************
// HERE IS THE CODE THAT RENDERS THE BALL MOVEMENT ETC.
//draw a circle
function drawCIRCLE() {
clear();
circle();
drawPADDLE(); //calls draw paddle function
drawGUTTER(); // calls draw gutter function
drawCOORBOX(); // calls draw coordinate box function
drawBRICKS(); //calls the function to draw the boxes
//have we hit a brick?
rowheight = brickheight + padding;
colwidth = brickwidth + padding;
row = Math.floor(y / rowheight);
col = Math.floor(x / colwidth);
//if so, reverse the ball and mark the brick as broken
if (y < numrows * rowheight && row >= 0 && col >= 0 && bricks[row][col] == 1) {
dy = -dy;
bricks[row][col] = 0;
}
if (x + dx > WIDTH || x + dx < 0) dx = -dx;
if (y + dy < 0) dy = -dy;
else if (y + dy > ((HEIGHT - paddleh) - ppoffset) || y + dy > HEIGHT) {
if (x > paddlex && x < paddlex + paddlew)
//switch! once first is true, then second goes
dy = -dy;
else if (y + dy > ((HEIGHT - paddleh) - ppoffset) && y + dy > HEIGHT) {
clearInterval(intervalId);
}
}
x += dx;
y += dy;
if (rightpress) paddlex += 5;
else if (leftpress) paddlex -= 5;
}
function clear() {
Cir.clearRect(0, 0, WIDTH, HEIGHT);
//Is this jquery? I suspect this part of the code making the circle rendering fail.
}
start();
init_paddle();
initbricks();
Ages ago I wrote a similar code in pure JavaScript here
this code uses pure javascript and no library.The code is well commented(I think :))
I generally attached events like this
document.onkeydown = function(e)
{
e = e || window.event;
switch (e.keyCode) { // which key was pressed?
case 32: // release ball.
if(!game.ball.isFree)
{
game.ball.isFree = true;
game.ball.directionX = game.ball.directionY = 1;
game.ball.x = game.ball.offsetLeft;
game.ball.y = game.screen.offsetHeight - game.ball.offsetTop;
}
break;
case 37: // left, rotate player left
game.bar.direction = -1;
break;
case 39: // right, rotate player right
game.bar.direction = 1;
break;
}
}
document.onkeyup = function(e)
{
e = e || window.event;
switch (e.keyCode)
{
case 37:
case 39:
game.bar.direction = 0;
break;
}
}
},
Ofcourse you have many other places which might need porting so a helpful break down of questions would be easier to answer :)
Hope this helps
I've already created a bouncing ball which bounces off the walls of the HTML5 Canvas that I have specified.
My goal is to make a "Game Over" screen appear when the pointer (mouse) hovers over the ball.
I have already searched and found some tutorials on mouse events in Javascript, but I'm not really sure how to implement them into my code =/.
Any help would be amazing.
<script>
var x = Math.floor((Math.random() * 600) + 1);
var y = Math.floor((Math.random() * 300) + 1);
var dx = 2;
var dy = 4;
function begin()
{
gameCanvas = document.getElementById('gameCanvas');
context = gameCanvas.getContext('2d');
return setInterval (draw, 20);
}
begin();
function draw()
{
context.clearRect(0,0,600,300);
context.fillStyle = "#0000FF";
context.beginPath();
context.arc(x,y,80,0,Math.PI*2,true);
context.closePath();
context.fill();
if (x < 0 || x > 600) dx=-dx
if (y < 0 || y > 300) dy=-dy;
x += dx;
y += dy;
}
gameCanvas.onmousemove = function (e)
{
var gameCanvas = e.target;
var context = gameCanvas.getContext('2d');
var coords = RGraph.getMouseXY(e);
}
You need to check if the mouse is hovering over the ball (hit test) by checking the distance of the ball to the cursor. If the distance is smaller than radius of the ball, it means that the mouse is over the ball.
Note, that you need to adjust the code below to your needs
Example:
var mouse_x = 10, mouse_y = 10, ball_x = 10, ball_y = 10, ball_radius = 70, is_game_over = false
if( Math.sqrt( Math.pow( mouse_x - ball_x, 2 ) + Math.pow( mouse_x - ball_x, 2 )) < ball_radius && !is_game_over ) {
console.log('Cursor is over the mouse, game over')
is_game_over = true
}
Do it for every frame update.
you can add onmousemove=SetValues() to your body element like so:
<body onmousemove=SetValues()>
and change your code to this:
<script>
var x = Math.floor((Math.random() * 600) + 1);
var y = Math.floor((Math.random() * 300) + 1);
var dx = 2;
var dy = 4;
var mouseX;
var mouseY;
function setValues(e)
{
mouseX = e.pageX; //get mouse x
mouseY = e.pageY; //get mouse y
}
function begin()
{
gameCanvas = document.getElementById('gameCanvas');
context = gameCanvas.getContext('2d');
return setInterval (draw, 20);
}
begin();
function draw()
{
context.clearRect(0,0,600,300);
context.fillStyle = "#0000FF";
context.beginPath();
context.arc(x,y,80,0,Math.PI*2,true);
context.closePath();
context.fill();
if (x < 0 || x > 600) dx=-dx
if (y < 0 || y > 300) dy=-dy;
x += dx;
y += dy;
//check if the mouse is on the ball
var centerX = x + 80; //center of ball
var centerY = y; //center of ball
if(Math.pow((mouseX - centerX), 2) + Math.pow((mouseY - centerY), 2) <= 6400){
//do whatever to end game
}
}