I have this animation which moves a row of circles from A(x,y) to B(x,y). ButI'm having trouble trying to replicate this into an array of circles where each row moves (one after another) from A to B. However, I also want to maintain the original location of the array so that essentially, it makes a copy of the row and moves the copy. Any help would be greatly appreciated!
EDIT: I have edited the code so that it now has two rows that remain stationary when one is moving - but now, I want to be able to move more than one row (as described in the example below).
EDIT 2: Here's a jsfiddle instead so it's easier to understand what I mean.
https://jsfiddle.net/vLvk1bsc/2/
For example, I want to emulate something like this.
ORIGINAL ----------------- NEW
r r r r r r. --------------- A. g g g g g g
p p p p p p ------------ B. r r r r r r
g g g g g g ------------ C. r r r r r r
The sequence of the animation would therefore be as follows:
3 --- a. A copy of row 3 moves to row A
1 --- b. A copy of row 1 moves to row B
1 --- c. A copy of row 1 moves to row C
var canvas = document.getElementById("canvas");
var context = 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);
};
})();
setTimeout(function () {
draw();
animate(movingRow2);
}, 100);
var movingRow = [];
var frozenRow = [];
var cx = 50;
var cy = 70;
for (var i = 0; i < 6; i++) {
movingRow.push({ x: cx, y: cy, borderWidth: 1, color: "orange"});
frozenRow.push({ x: cx, y: cy, borderWidth: 1, color: "blue"});
cx += 40;
}
var movingRow2 = [];
var frozenRow2 = [];
var cx = 50;
var cy = 110;
for (var i = 0; i < 6; i++) {
movingRow2.push({ x: cx, y: cy, borderWidth: 1, color: "green"});
frozenRow2.push({ x: cx, y: cy, borderWidth: 1, color: "pink"});
cx += 40;
}
function drawCircle(myCircle, context) {
context.beginPath();
context.arc(myCircle.x, myCircle.y, 15, 0, 2 * Math.PI);
context.fillStyle = myCircle.color;
context.fill();
context.stroke();
context.closePath();
}
function draw() {
context.save();
context.clearRect(0, 0, canvas.width, canvas.height);
for (var i = 0; i < movingRow.length; i++) {
drawCircle(movingRow[i], context);
drawCircle(frozenRow[i], context);
drawCircle(movingRow2[i], context);
drawCircle(frozenRow2[i], context);
}
}
var newX = 320;
var newY = 70;
var pathArray = [];
pathArray.push({
x: movingRow2[0].x,
y: movingRow2[0].y
});
pathArray.push({
x: newX,
y: newY
});
var polyPoints = makePolyPoints(pathArray);
var position = 0;
var speed = 1;
function animate(m) {
// calculate the new position
position += speed;
if (position > polyPoints.length - 1) {
return;
}
// a single point in the array
var pt = polyPoints[position];
var step = 0;
// update x and y
for (var i = 0; i < m.length; i++) {
m[i].x = pt.x + step;
m[i].y = pt.y;
step += 40;
}
draw();
// request new frame
requestAnimationFrame(function() {
animate(m);
});
}
function makePolyPoints(pathArray) {
// list of points for each frame of the shape
var points = [];
// how quickly the transition occurs
var speed = 150;
for (var i = 1; i < pathArray.length; i++) {
var startPt = pathArray[i - 1];
var endPt = pathArray[i];
// calculate difference between start and end points
var dx = endPt.x - startPt.x;
var dy = endPt.y - startPt.y;
for (var n = 0; n <= speed; n++) {
// calculate the x and y positions for each frame
var x = startPt.x + dx * n / speed;
var y = startPt.y + dy * n / speed;
// append the points to the array to be used in the animation
points.push({
x: x,
y: y
});
}
}
return points;
}
var canvas = document.getElementById("canvas");
var context = 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);
};
})();
setTimeout(function () {
draw();
var a = anims[anims_i];
animate(a[0], a[1]);
}, 100);
var rowA = [];
var rowB = [];
var rowC = [];
var cx = 50;
var cy = 70;
for (var i = 0; i < 6; i++) {
rowA.push({ x: cx, y: cy-40, borderWidth: 1, color: "orange"});
rowB.push({ x: cx, y: cy, borderWidth: 1, color: "blue"});
rowC.push({ x: cx, y: cy+40, borderWidth: 1, color: "pink"});
cx += 40;
}
var rowACopy1 = JSON.parse(JSON.stringify(rowA));
var rowACopy2 = JSON.parse(JSON.stringify(rowA));
var rowCCopy = JSON.parse(JSON.stringify(rowC));
var offsetX = 270;
var polyPointsA1 = makePolyPoints([
{x: rowA[0].x, y: rowA[0].y},
{x: rowB[0].x+offsetX, y: rowB[0].y}
]);
var polyPointsA2 = makePolyPoints([
{x: rowA[0].x, y: rowA[0].y},
{x: rowC[0].x+offsetX, y: rowC[0].y}
]);
var polyPointsC = makePolyPoints([
{x: rowC[0].x, y: rowC[0].y},
{x: rowA[0].x+offsetX, y: rowA[0].y}
]);
var anims = [
[rowCCopy, polyPointsC],
[rowACopy1, polyPointsA1],
[rowACopy2, polyPointsA2]
];
var anims_i = 0;
function drawCircle(myCircle, context) {
context.beginPath();
context.arc(myCircle.x, myCircle.y, 15, 0, 2 * Math.PI);
context.fillStyle = myCircle.color;
context.fill();
context.stroke();
context.closePath();
}
function draw() {
context.save();
context.clearRect(0, 0, canvas.width, canvas.height);
for (var i = 0; i < rowA.length; i++) {
drawCircle(rowA[i], context);
drawCircle(rowB[i], context);
drawCircle(rowC[i], context);
drawCircle(rowACopy1[i], context);
drawCircle(rowACopy2[i], context);
drawCircle(rowCCopy[i], context);
}
}
var position = 0;
var speed = 1;
function animate(m, polyPoints) {
// calculate the new position
position += speed;
if (position > polyPoints.length - 1) {
position = 0;
anims_i++;
if (anims_i < anims.length) {
var a = anims[anims_i];
requestAnimationFrame(function() {
animate(a[0], a[1]);
});
}
return;
}
// a single point in the array
var pt = polyPoints[position];
var step = 0;
// update x and y
for (var i = 0; i < m.length; i++) {
m[i].x = pt.x + step;
m[i].y = pt.y;
step += 40;
}
draw();
// request new frame
requestAnimationFrame(function() {
animate(m, polyPoints);
});
}
function makePolyPoints(pathArray) {
// list of points for each frame of the shape
var points = [];
// how quickly the transition occurs
var speed = 150;
for (var i = 1; i < pathArray.length; i++) {
var startPt = pathArray[i - 1];
var endPt = pathArray[i];
// calculate difference between start and end points
var dx = endPt.x - startPt.x;
var dy = endPt.y - startPt.y;
for (var n = 0; n <= speed; n++) {
// calculate the x and y positions for each frame
var x = startPt.x + dx * n / speed;
var y = startPt.y + dy * n / speed;
// append the points to the array to be used in the animation
points.push({
x: x,
y: y
});
}
}
return points;
}
#canvas {
border:1px solid red;
}
<canvas id="canvas" width="580"></canvas>
Related
I'm trying to create an idle animation where the red rectangle moves back and forth slightly in a loop. For some reason once it reaches the specified threshhold instead of proceeding to move in the opposite direction, it just stops.
What did I do wrong?
<canvas id="myCanvas" width="1500" height="500" style="border:1px solid #c3c3c3;">
Your browser does not support the canvas element.
</canvas>
<script>
var canvas = document.getElementById("myCanvas");
var ctx = canvas.getContext("2d");
// Spaceship structure
var shipWidth = 250;
var shipHeight = 100;
// Canvas parameters
var cWidth = canvas.width;
var cHeight = canvas.height;
// Positioning variables
var centerWidthPosition = (cWidth / 2) - (shipWidth / 2);
var centerHeightPosition = (cHeight / 2) - (shipHeight / 2);
var requestAnimationFrame = window.requestAnimationFrame ||
window.mozRequestAnimationFrame ||
window.webkitRequestAnimationFrame ||
window.msRequestAnimationFrame;
function drawShip(){
ctx.clearRect(0, 0, cWidth, cHeight);
ctx.fillStyle = "#FF0000";
ctx.fillRect(centerWidthPosition,centerHeightPosition,shipWidth,shipHeight);
centerWidthPosition--;
if (centerWidthPosition < 400){
++centerWidthPosition;
}
requestAnimationFrame(drawShip);
}
drawShip();
</script>
#TheAmberlamps explained why it's doing that. Here I offer you a solution to achieve what I believe you are trying to do.
Use a velocity variable that changes magnitude. X position always increases by velocity value. Velocity changes directions at screen edges.
// use a velocity variable
var xspeed = 1;
// always increase by velocity
centerWidthPosition += xspeed;
// screen edges are 0 and 400 in this example
if (centerWidthPosition > 400 || centerWidthPosition < 0){
xspeed *= -1; // change velocity direction
}
I added another condition in your if that causes the object to bounce back and forth. Remove the selection after || if you don't want it doing that.
Your function is caught in a loop; once centerWidthPosition reaches 399 your conditional makes it increment back up to 400, and then it decrements back to 399.
here is another one as a brain teaser - how would go by making this animation bounce in the loop - basically turn text into particles and then reverse back to text and reverse back to particles and back to text and so on and on and on infinitely:
var random = Math.random;
window.onresize = function () {
canvas.width = window.innerWidth;
canvas.height = window.innerHeight;
};
window.onresize();
var ctx = canvas.getContext('2d');
ctx.font = 'bold 50px "somefont"';
ctx.textBaseline = 'center';
ctx.fillStyle = 'rgba(255,255,255,1)';
var _particles = [];
var particlesLength = 0;
var currentText = "SOMETEXT";
var createParticle = function createParticle(x, y) {_particles.push(new Particle(x, y));};
var checkAlpha = function checkAlpha(pixels, i) {return pixels[i * 4 + 3] > 0;};
var createParticles = function createParticles() {
var textSize = ctx.measureText(currentText);
ctx.fillText(currentText,Math.round((canvas.width / 2) - (textSize.width / 2)),Math.round(canvas.height / 2));
var imageData = ctx.getImageData(1, 1, canvas.width, canvas.height);
var pixels = imageData.data;
var dataLength = imageData.width * imageData.height;
for (var i = 0; i < dataLength; i++) {
var currentRow = Math.floor(i / imageData.width);
var currentColumn = i - Math.floor(i / imageData.height);
if (currentRow % 2 || currentColumn % 2) continue;
if (checkAlpha(pixels, i)) {
var cy = ~~(i / imageData.width);
var cx = ~~(i - (cy * imageData.width));
createParticle(cx, cy);
}}
particlesLength = _particles.length;
};
var Point = function Point(x, y) {
this.set(x, y);
};
Point.prototype = {
set: function (x, y) {
x = x || 0;
y = y || x || 0;
this._sX = x;
this._sY = y;
this.reset();
},
add: function (point) {
this.x += point.x;
this.y += point.y;
},
multiply: function (point) {
this.x *= point.x;
this.y *= point.y;
},
reset: function () {
this.x = this._sX;
this.y = this._sY;
return this;
},
};
var FRICT = new Point(0.98);//set to 0 if no flying needed
var Particle = function Particle(x, y) {
this.startPos = new Point(x, y);
this.v = new Point();
this.a = new Point();
this.reset();
};
Particle.prototype = {
reset: function () {
this.x = this.startPos.x;
this.y = this.startPos.y;
this.life = Math.round(random() * 300);
this.isActive = true;
this.v.reset();
this.a.reset();
},
tick: function () {
if (!this.isActive) return;
this.physics();
this.checkLife();
this.draw();
return this.isActive;
},
checkLife: function () {
this.life -= 1;
this.isActive = !(this.life < 1);
},
draw: function () {
ctx.fillRect(this.x, this.y, 1, 1);
},
physics: function () {
if (performance.now()<nextTime) return;
this.a.x = (random() - 0.5) * 0.8;
this.a.y = (random() - 0.5) * 0.8;
this.v.add(this.a);
this.v.multiply(FRICT);
this.x += this.v.x;
this.y += this.v.y;
this.x = Math.round(this.x * 10) / 10;
this.y = Math.round(this.y * 10) / 10;
}
};
var nextTime = performance.now()+3000;
createParticles();
function clearCanvas() {
ctx.fillStyle = 'rgba(0,0,0,1)';
ctx.fillRect(0, 0, canvas.width, canvas.height);
}
(function clearLoop() {
clearCanvas();
requestAnimationFrame(clearLoop);
})();
(function animLoop(time) {
ctx.fillStyle = 'rgba(255,255,255,1)';
var isAlive = true;
for (var i = 0; i < particlesLength; i++) {
if (_particles[i].tick()) isAlive = true;
}
requestAnimationFrame(animLoop);
})();
function resetParticles() {
for (var i = 0; i < particlesLength; i++) {
_particles[i].reset();
}}
I have this working canvas javascript animation but i would like to use it multiple times, currently it's only possible to have one canvas element with the id "stars" and use that one. Could i perhaps add a class for them instead and get the elements class and loop or what would be my best solution for achieving this? I would like to make this work without repeating to much since i could end up using the animation on different pages.
// Settings
var particleCount = 40,
flareCount = 0,
motion = 0.05,
tilt = 0.05,
color = '#00FF7B',
particleSizeBase = 1,
particleSizeMultiplier = 0.5,
flareSizeBase = 100,
flareSizeMultiplier = 100,
lineWidth = 1,
linkChance = 75, // chance per frame of link, higher = smaller chance
linkLengthMin = 5, // min linked vertices
linkLengthMax = 7, // max linked vertices
linkOpacity = 0.25; // number between 0 & 1
linkFade = 90, // link fade-out frames
linkSpeed = 0, // distance a link travels in 1 frame
glareAngle = -60,
glareOpacityMultiplier = 0.4,
renderParticles = true,
renderParticleGlare = true,
renderFlares = false,
renderLinks = false,
renderMesh = false,
flicker = false,
flickerSmoothing = 15, // higher = smoother flicker
blurSize = 0,
orbitTilt = true,
randomMotion = true,
noiseLength = 1000,
noiseStrength = 3;
var canvas = document.getElementById('stars'),
context = canvas.getContext('2d'),
mouse = {
x: 0,
y: 0
},
m = {},
r = 0,
c = 1000, // multiplier for delaunay points, since floats too small can mess up the algorithm
n = 0,
nAngle = (Math.PI * 2) / noiseLength,
nRad = 100,
nScale = 0.5,
nPos = {
x: 0,
y: 0
},
points = [],
vertices = [],
triangles = [],
links = [],
particles = [],
flares = [];
function init() {
var i, j, k;
// requestAnimFrame polyfill
window.requestAnimFrame = (function() {
return window.requestAnimationFrame ||
window.webkitRequestAnimationFrame ||
window.mozRequestAnimationFrame ||
function(callback) {
window.setTimeout(callback, 1000 / 60);
};
})();
// Size canvas
resize();
mouse.x = canvas.clientWidth / 2;
mouse.y = canvas.clientHeight / 2;
// Create particle positions
for (i = 0; i < particleCount; i++) {
var p = new Particle();
particles.push(p);
points.push([p.x * c, p.y * c]);
}
vertices = Delaunay.triangulate(points);
var tri = [];
for (i = 0; i < vertices.length; i++) {
if (tri.length == 3) {
triangles.push(tri);
tri = [];
}
tri.push(vertices[i]);
}
// Tell all the particles who their neighbors are
for (i = 0; i < particles.length; i++) {
// Loop through all tirangles
for (j = 0; j < triangles.length; j++) {
// Check if this particle's index is in this triangle
k = triangles[j].indexOf(i);
// If it is, add its neighbors to the particles contacts list
if (k !== -1) {
triangles[j].forEach(function(value, index, array) {
if (value !== i && particles[i].neighbors.indexOf(value) == -1) {
particles[i].neighbors.push(value);
}
});
}
}
}
var fps = 15;
var now;
var then = Date.now();
var interval = 1000 / fps;
var delta;
// Animation loop
(function animloop() {
requestAnimFrame(animloop);
now = Date.now();
delta = now - then;
if (delta > interval) {
then = now - (delta % interval);
resize();
render();
}
})();
}
function render() {
if (randomMotion) {
n++;
if (n >= noiseLength) {
n = 0;
}
nPos = noisePoint(n);
}
if (renderParticles) {
// Render particles
for (var i = 0; i < particleCount; i++) {
particles[i].render();
}
}
}
function resize() {
canvas.width = window.innerWidth * (window.devicePixelRatio || 1);
canvas.height = canvas.width * (canvas.clientHeight / canvas.clientWidth);
}
// Particle class
var Particle = function() {
this.x = random(-0.1, 1.1, true);
this.y = random(-0.1, 1.1, true);
this.z = random(0, 4);
this.color = color;
this.opacity = random(0.1, 1, true);
this.flicker = 0;
this.neighbors = []; // placeholder for neighbors
};
Particle.prototype.render = function() {
var pos = position(this.x, this.y, this.z),
r = ((this.z * particleSizeMultiplier) + particleSizeBase) * (sizeRatio() / 1000),
o = this.opacity;
context.fillStyle = this.color;
context.globalAlpha = o;
context.beginPath();
context.fill();
context.closePath();
if (renderParticleGlare) {
context.globalAlpha = o * glareOpacityMultiplier;
context.ellipse(pos.x, pos.y, r * 100, r, (glareAngle - ((nPos.x - 0.5) * noiseStrength * motion)) * (Math.PI / 180), 0, 2 * Math.PI, false);
context.fill();
context.closePath();
}
context.globalAlpha = 1;
};
// Flare class
// Link class
var Link = function(startVertex, numPoints) {
this.length = numPoints;
this.verts = [startVertex];
this.stage = 0;
this.linked = [startVertex];
this.distances = [];
this.traveled = 0;
this.fade = 0;
this.finished = false;
};
// Utils
function noisePoint(i) {
var a = nAngle * i,
cosA = Math.cos(a),
sinA = Math.sin(a),
rad = nRad;
return {
x: rad * cosA,
y: rad * sinA
};
}
function position(x, y, z) {
return {
x: (x * canvas.width) + ((((canvas.width / 2) - mouse.x + ((nPos.x - 0.5) * noiseStrength)) * z) * motion),
y: (y * canvas.height) + ((((canvas.height / 2) - mouse.y + ((nPos.y - 0.5) * noiseStrength)) * z) * motion)
};
}
function sizeRatio() {
return canvas.width >= canvas.height ? canvas.width : canvas.height;
}
function random(min, max, float) {
return float ?
Math.random() * (max - min) + min :
Math.floor(Math.random() * (max - min + 1)) + min;
}
// init
if (canvas) init();
html,
body {
margin: 0;
padding: 0;
height: 100%;
}
body {
background: #000;
background-image: linear-gradient(-180deg, rgba(0, 0, 0, 0.00) 0%, #000000 100%);
}
#stars {
display: block;
position: relative;
width: 100%;
height: 100%;
z-index: 1;
position: absolute;
}
<script src="https://rawgit.com/ironwallaby/delaunay/master/delaunay.js"></script>
<script src="http://requirejs.org/docs/release/2.1.15/minified/require.js"></script>
<canvas id="stars" width="300" height="300"></canvas>
id="identifier" is unique
class="identifier" could be shared by a list of items
As you mention using class could be an option but you'll need to change your code to select all elements by that class before:
$(".identifier").each(function(a,b)
{
// Actions for each element
}
With javascript:
var elementList = document.getElementsByClassName("identifier");
var elementListSize=elementList.length;
for(var i=0;i<elementListSize;i++) {
// Actions for each element (elementList[i])
}
I am making a clone of agar.io and I am stuck in my code. I can't understand why my camera's position is not correctly calculated. I want my camera's position to half the vector between the farthest blob and the closest blob.
Below is a picture and my code:
<html>
<head>
<title>Play Agario Clone</title>
<style>
body {
margin: 0;
padding: 0;
}
</style>
</head>
<body>
<canvas id="game">
kindly update your browser.
</canvas>
<script>
var
canvas,
ctx,
width = innerWidth,
height = innerHeight,
mouseX = 0,
mouseY = 0;
var
camera = {
x: 0,
y: 0,
// camera
update: function(obj) {
var farthestBlobX = Math.max.apply(0, obj.blobs.map(function(cell) { return cell.x }));
var farthestBlobY = Math.max.apply(0, obj.blobs.map(function(cell) { return cell.y }));
var closestBlobX = Math.min.apply(0, obj.blobs.map(function(cell) { return cell.x }));
var closestBlobY = Math.min.apply(0, obj.blobs.map(function(cell) { return cell.y }));
var x = farthestBlobX - closestBlobX;
var y = farthestBlobY - closestBlobY;
var length = Math.sqrt(x * x + y * y);
this.x = length/2 - width/2;
this.y = length/2 - height/2;
}
},
player = {
defaultMass: 54,
x: 0,
y: 0,
blobs: [],
update: function () {
for (var i = 0; i < this.blobs.length; i ++) {
var x = mouseX + camera.x - this.blobs[i].x;
var y = mouseY + camera.y - this.blobs[i].y;
var length = Math.sqrt(Math.pow(x, 2) + Math.pow(y, 2));
var speed = 54/this.blobs[i].mass;
this.blobs[i].velX = x/length * speed * Math.min(1, Math.pow(x / this.blobs[i].mass, 2));
this.blobs[i].velY = y/length * speed * Math.min(1, Math.pow(x / this.blobs[i].mass, 2));
this.blobs[i].x += this.blobs[i].velX;
this.blobs[i].y += this.blobs[i].velY;
for (var j = 0; j < this.blobs.length; j ++) {
if (j != i && this.blobs[i] !== undefined) {
var blob1 = this.blobs[i];
var blob2 = this.blobs[j];
var x = blob2.x - blob1.x;
var y = blob2.y - blob1.y;
var dist = Math.sqrt(x * x + y * y);
if (dist < blob1.mass + blob2.mass) {
x /= dist;
y /= dist;
blob1.x = blob2.x - x * (blob1.mass + blob2.mass);
blob1.y = blob2.y - y * (blob1.mass + blob2.mass);
}
}
}
}
this.x += (mouseX - width/2)/(width/2) * 1;
this.y += (mouseY - height/2)/(height/2) * 1
},
split: function (cell) {
cell.mass /= 2;
this.blobs.push({
x: cell.x,
y: cell.y,
mass: cell.mass
});
},
draw: function () {
for (var i = 0; i < this.blobs.length; i ++) {
ctx.fillStyle = "red";
ctx.beginPath();
ctx.arc(-camera.x + this.blobs[i].x, -camera.y + this.blobs[i].y, this.blobs[i].mass, 0, Math.PI*2);
ctx.fill();
ctx.closePath();
}
}
};
function handleMouseMove (e) {
mouseX = e.clientX;
mouseY = e.clientY;
}
function setup () {
canvas = document.getElementById("game");
ctx = canvas.getContext("2d");
canvas.width = width;
canvas.height = height;
addEventListener("mousemove", handleMouseMove);
player.blobs.push({
x: 0,
y: 0,
mass: player.defaultMass
});
player.blobs.push({
x: 100,
y: 100,
mass: player.defaultMass/2
});
player.blobs.push({
x: 100,
y: 100,
mass: player.defaultMass*2
});
var loop = function () {
update();
draw();
requestAnimationFrame(loop);
}
requestAnimationFrame(loop);
}
function update () {
camera.update(player);
player.update();
}
function draw () {
ctx.fillStyle = "#fff";
ctx.fillRect(0, 0, width, height);
player.draw();
}
setup();
</script>
</body>
</html>
Instead of computing everything relative to your camera, use your camera to set the global transformation matrix of your canvas, and only for this.
This way, your blobs' updates will be cleaner, and your camera easier to manage.
Now to get the middle position between two points, do (pt1 + pt2) / 2.
You were not clear in your question, if fartherstX and fartherstY should represent the same blob. In your code it wasn't, so I didn't change it.
Also, I didn't gone into all your logics, but beware NaN values, I got some while doing the edit.
function draw() {
var cw = ctx.canvas.width / 2;
var ch = ctx.canvas.height / 2;
// reset transform to clear the canvas
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.fillStyle = "#fff";
ctx.fillRect(0, 0, width, height);
// here we really set the camera position
ctx.setTransform(1, 0, 0, 1, -camera.x + cw, -camera.y + ch);
ctx.strokeRect(0, 0, width, height); // just to show the original area
player.draw();
}
var
canvas,
ctx,
width = innerWidth,
height = innerHeight,
mouseX = 0,
mouseY = 0;
var camera = {
x: 0,
y: 0,
// camera
update: function(obj) {
var farthestBlobX = Math.max.apply(0, obj.blobs.map(function(cell) {
return cell.x
}));
var farthestBlobY = Math.max.apply(0, obj.blobs.map(function(cell) {
return cell.y
}));
var closestBlobX = Math.min.apply(0, obj.blobs.map(function(cell) {
return cell.x
}));
var closestBlobY = Math.min.apply(0, obj.blobs.map(function(cell) {
return cell.y
}));
this.x = (closestBlobX + farthestBlobX) / 2 || 0;
this.y = (closestBlobY + farthestBlobY) / 2 || 0;
}
},
player = {
defaultMass: 54,
x: 0,
y: 0,
blobs: [],
update: function() {
for (var i = 0; i < this.blobs.length; i++) {
var x = mouseX - this.blobs[i].x || 0;
var y = mouseY - this.blobs[i].y || 0;
var length = Math.sqrt(Math.pow(x, 2) + Math.pow(y, 2));
var speed = 54 / this.blobs[i].mass;
this.blobs[i].velX = x / length * speed * Math.min(1, Math.pow(x / this.blobs[i].mass, 2));
this.blobs[i].velY = y / length * speed * Math.min(1, Math.pow(x / this.blobs[i].mass, 2));
this.blobs[i].x += this.blobs[i].velX;
this.blobs[i].y += this.blobs[i].velY;
for (var j = 0; j < this.blobs.length; j++) {
if (j != i && this.blobs[i] !== undefined) {
var blob1 = this.blobs[i];
var blob2 = this.blobs[j];
var x = blob2.x - blob1.x;
var y = blob2.y - blob1.y;
var dist = Math.sqrt(x * x + y * y);
if (dist < blob1.mass + blob2.mass) {
x /= dist;
y /= dist;
blob1.x = blob2.x - x * (blob1.mass + blob2.mass);
blob1.y = blob2.y - y * (blob1.mass + blob2.mass);
}
}
}
}
this.x += (mouseX - width / 2) / (width / 2) * 1;
this.y += (mouseY - height / 2) / (height / 2) * 1;
},
split: function(cell) {
cell.mass /= 2;
this.blobs.push({
x: cell.x,
y: cell.y,
mass: cell.mass
});
},
draw: function() {
for (var i = 0; i < this.blobs.length; i++) {
ctx.fillStyle = "red";
ctx.beginPath();
ctx.arc(this.blobs[i].x, this.blobs[i].y, this.blobs[i].mass, 0, Math.PI * 2);
ctx.fill();
ctx.closePath();
}
}
};
function handleMouseMove(e) {
mouseX = e.clientX;
mouseY = e.clientY;
}
function setup() {
canvas = document.getElementById("game");
ctx = canvas.getContext("2d");
canvas.width = width;
canvas.height = height;
addEventListener("mousemove", handleMouseMove);
player.blobs.push({
x: 10,
y: 10,
mass: player.defaultMass
});
player.blobs.push({
x: 100,
y: 100,
mass: player.defaultMass / 2
});
player.blobs.push({
x: 100,
y: 100,
mass: player.defaultMass * 2
});
var loop = function() {
update();
draw();
requestAnimationFrame(loop);
}
requestAnimationFrame(loop);
}
function update() {
camera.update(player);
player.update();
}
setup();
body {
margin: 0;
padding: 0;
}
<canvas id="game">kindly update your browser.</canvas>
I see there is an answer already..
var canvas;
var ctx;
var width = innerWidth;
var height = innerHeight;
var mouseX = 0;
var mouseY = 0;
const camera = {
x : 0,
y : 0,
update(obj) { // camera
this.x = (obj.blobsExtent.minx + obj.blobsExtent.maxx) / 2;
this.y = (obj.blobsExtent.miny + obj.blobsExtent.maxy) / 2;
this.x -= width / 2;
this.y -= height / 2;
}
};
const player = {
defaultMass : 54,
blobs : [],
blobsExtent : { // get the extent while updating the blobs save you having to iterate all the objects a second time to get extent
minx :0,
miny : 0,
maxx : 0,
maxy : 0,
},
update () {
var be = this.blobsExtent; // be for Blob Extent alias to save typing and make code easier to read
for (var i = 0; i < this.blobs.length; i++) {
var blob1 = this.blobs[i];
var x = mouseX - blob1.x;
var y = mouseY - blob1.y;
// to stop the divide by zero propigating NaN set length to 1 if less than 1
var length = Math.max(1,Math.sqrt(x * x + y * y)); // x * x is quicker than Math.pow(x,2)
var speed = 54 / blob1.mass;
blob1.velX = x / length * speed * Math.min(1, Math.pow(x / blob1.mass, 2));
blob1.velY = y / length * speed * Math.min(1, Math.pow(x / blob1.mass, 2));
blob1.x += blob1.velX;
blob1.y += blob1.velY;
for (var j = 0; j < this.blobs.length; j++) {
if (j != i) {
var blob2 = this.blobs[j];
var x = blob2.x - blob1.x;
var y = blob2.y - blob1.y;
var dist = Math.sqrt(x * x + y * y);
var radTotal = blob1.mass + blob2.mass;
if (dist < radTotal) {
x /= dist;
y /= dist;
blob1.x = blob2.x - x * radTotal;
blob1.y = blob2.y - y * radTotal;
}
}
}
if(i === 0){ // use first blob to setup min max
be.maxx = be.minx = blob1.x;
be.maxy = be.miny = blob1.y;
}else{
be.maxx = Math.max(be.maxx, blob1.x);
be.maxy = Math.max(be.maxy, blob1.y);
be.minx = Math.min(be.minx, blob1.x);
be.miny = Math.min(be.miny, blob1.y);
}
}
},
split (cell) {
cell.mass /= 2;
this.blobs.push(createBlob(cell.x, cell.y, cell.mass));
},
draw () {
var b; // alias for blob
ctx.fillStyle = "red"; // all the same colour then can render as one path
ctx.setTransform(1,0,0,1,-camera.x,-camera.y);
ctx.beginPath();
for (var i = 0; i < this.blobs.length; i++) {
b = this.blobs[i];
ctx.arc( b.x, b.y, b.mass, 0, Math.PI * 2);
ctx.closePath();
}
ctx.fill();
ctx.setTransform(1,0,0,1,0,0); // restore default transform
}
};
function handleMouseMove(e) {
mouseX = e.clientX + camera.x;
mouseY = e.clientY + camera.y;
}
function createBlob(x,y,mass){ return {x,y,mass} }
function setup() {
canvas = document.getElementById("game");
ctx = canvas.getContext("2d");
canvas.width = width;
canvas.height = height;
addEventListener("mousemove", handleMouseMove);
player.blobs.push(createBlob(0,0,player.defaultMass));
player.blobs.push(createBlob(100,100,player.defaultMass / 2));
player.blobs.push(createBlob(100,100,player.defaultMass * 2));
}
function update() {
camera.update(player);
player.update();
}
function draw() {
ctx.fillStyle = "#fff";
ctx.fillRect(0, 0, width, height);
player.draw();
}
function loop() {
update();
draw();
requestAnimationFrame(loop);
}
setup();
requestAnimationFrame(loop);
body {
margin: 0;
padding: 0;
}
<canvas id="game"></canvas>
For a school assignment we have to make a graph in Javascript.
The teacher would like to see some animated graphs. So I build a graph about my Tweets in one week, but cannot find how to ease between two y-coordinates.
You can find my project here on jsfiddle, or on this website.
var canvas = document.getElementById('canvas');
var ctx = canvas.getContext('2d');
var form = document.getElementById("form");
var data = [];
var huidigeYpos = [];
var nieuweYpos = [];
var count = [];
var snelheid = 0;
function init(){
ctx.fillStyle="rgb(255,255,255)";
ctx.fillRect(0,0,canvas.width,canvas.height);
ctx.translate(0, 445);
for(var i = 0; i < 7; i++){
data[i] = form[i].value*30;
}
draw();
}
function draw(){
ctx.fillStyle="rgb(255,255,255)";
ctx.fillRect(0,0,canvas.width,-canvas.height);
ctx.beginPath();
ctx.moveTo(0,0);
for(var i = 0; i <= 750; i += 125){
ctx.lineTo(i,-data[i/125]);
huidigeYpos.push((data[i/125]));
}
if(huidigeYpos.length > 7){
huidigeYpos.splice(0, 7);
}
ctx.lineTo(750,0);
ctx.closePath();
ctx.fillStyle="#0084FF";
ctx.fill();
}
function invullen(){
for(var i = 0; i < 7; i++){
data[i] = form[i].value*30;
}
draw();
}
function drawRandomGraph(){
for(var i = 0; i < 7; i++){
form[i].value = Math.round(Math.random()*10);
nieuweYpos.push(form[i].value*30);
}
if(nieuweYpos.length > 7){
nieuweYpos.splice(0, 7);
}
invullen();
}
init();
Thanks in advance!
You can use interpolation in combination with a easing-function. Standard interpolation between two points, aka lerping, is simple enough:
p = p1 + (p2 - p1) * t
where t is in the range [0, 1]
By injecting a easing-function for t, which also is in the [0, 1] range, you can ease the transition:
...
y = y1 + (y2 - y1) * easeInOut(t);
...
function easeInOut(t) {return t<.5 ? 4*t*t*t : (t-1)*(2*t-2)*(2*t-2)+1}
There are several variations of easing functions, the above is cubic. You can find more here as well as the popular Penner versions.
For your case you would just update y2 with the new target value as use the old y2 as y1, then lerp/ease between them for each x point using the same t value.
The demo below shows how to use these, integrate as you want.
Example
var ctx = document.querySelector("canvas").getContext("2d"),
y1 = 10, y2 = 140, // source and destination positions
current = 0, max = 50, delta = 1; // counters for calculating/animating t
(function loop() {
// calc t
current += delta;
var t = current / max; // normalize so we get [0, 1]
if (t <= 0 || t >= 1) delta = -delta; // to ping-pong the animation for demo
// calc lerp linear
var yl = lerp(y1, y2, t), // linear
ye = lerp(y1, y2, easeInOut(t)); // with easing
// draw some graphics to show (linear : easing)
ctx.clearRect(0, 0, ctx.canvas.width, ctx.canvas.height);
ctx.fillRect(20, yl - 10, 20, 20);
ctx.fillRect(50, ye - 10, 20, 20);
requestAnimationFrame(loop);
})();
function lerp(p1, p2, t) {
return p1 + (p2 - p1) * t
}
function easeInOut(t) {
return t<.5 ? 4*t*t*t : (t-1)*(2*t-2)*(2*t-2)+1
}
<canvas></canvas>
JSFiddle
After each circle object is created, it should increase in size while the mouse is down, and stop when mouse is up. clearInterval doesn't seem to reach the internal variable "growLoop" even though it's supposed to be global by declaring it first(which was the advice on many other posts about this same issue). In the console it shows growLoop undefined, but it's defined in line 95, right?
Also, the time interval seems to decrease with every new circle created, and they grow faster. How could the value of setInterval change?
//set up canvas
var canvas = document.getElementById("canvas");
var ctx = canvas.getContext("2d");
var circles = [];
//create circle
function create(location) {
circles.push({
x: location.x,
y: location.y,
radius: 10,
color: '#' + Math.floor(Math.random() * 16777215).toString(16)
});
}
//figure out mouse position
var rect = document.getElementById("canvas").getBoundingClientRect();
// Get canvas offset on page
var offset = {
x: rect.left,
y: rect.top
};
function isOnCanvas(a) {
if ((a.x >= 0 && a.x <= rect.width) && (a.y >= 0 && a.y <= rect.height)) {
return true;
}
return false;
}
function isOnCircle(a) {
var i = 0,
l = circles.length,
x, y, d, c;
for (; i < l; ++i) {
c = circles[i];
x = a.x - c.x;
y = a.y - c.y;
d = (a.radius || 10) + c.radius;
if (x * x + y * y <= d * d) {
return true;
}
}
return false;
}
// draw all circles
function draw() {
ctx.clearRect(0, 0, canvas.width, canvas.height);
for (var i = 0; i < circles.length; i++) {
var p = circles[i];
ctx.beginPath();
ctx.arc(p.x, p.y, p.radius, 0, 2 * Math.PI);
ctx.fillStyle = p.color;
ctx.fill();
}
}
//make last drawn circle 1px bigger
function grow(){
var a = circles[circles.length-1];
a.radius += 1;
}
//find percentage of canvas filled in
var totalSpace = canvas.width * canvas.height;
var totalFilled = function () {
total = 0;
for (var i = 0; i < circles.length; i++) {
var p = circles[i];
total += Math.PI * Math.pow(p.radius, 2);
}
return total;
console.log(total);
}
function findPercentage() {
return (totalFilled() / totalSpace) * 100;
}
function updateInfo() {
percentage = findPercentage();
document.getElementById("percentage").innerHTML = "You've filled in " + percentage.toFixed(1) + "%";
}
//do all the stuff
var animate = function(){
draw();
grow();
updateInfo();}
var growLoop = 0;
window.onmousedown = function (e) {
// get event location on page offset by canvas location
var location = {
x: e.pageX - offset.x,
y: e.pageY - offset.y
};
if (isOnCanvas(location) && !isOnCircle(location)) {
create(location);
var growLoop = setInterval(animate, 100);
}
};
window.onmouseup = function (e) {
clearInterval(growLoop);
}
window.onmouseout = function (e) {
clearInterval(growLoop);
}
var growLoop = setInterval(animate, 100);
By adding var here you are declaring an internal variable also named growLoop and not assigning to the global. Remove var.
growLoop = setInterval(animate, 100);
http://jsfiddle.net/SeAGU/85/