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@leestott
Last active May 21, 2020 07:26
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sea anemone
<!--
These are just circles moving away from an initial position
A big part of the code is the noise generator used to smoothly change the direction of their movement and the hue of the newly generated circles.
-->
{
"title": "CodeWalkthrough",
"steps": [
{
"file": "script.js",
"line": 8,
"description": "#Step 1. Changing the speed of the particles",
"selection": {
"start": {
"line": 8,
"character": 3
},
"end": {
"line": 10,
"character": 19
}
}
},
{
"file": "style.css",
"line": 3,
"description": "Step 2. Change the background color\r\n",
"selection": {
"start": {
"line": 3,
"character": 2
},
"end": {
"line": 3,
"character": 26
}
}
},
{
"file": "script.js",
"line": 254,
"description": "Step 3. This function allows mouse interaction",
"selection": {
"start": {
"line": 254,
"character": 1
},
"end": {
"line": 258,
"character": 15
}
}
}
]
}
"use strict";
/* inspired by the ideas given by Louis Hoebregts in his pen :
https://codepen.io/Mamboleoo/full/XWJPxpZ */
window.addEventListener("load",function() {
const initSpeed = 1;
const rMin = 1;
const rMax = 10;
let canv, ctx; // canvas and context : global variables (I know :( )
let maxx, maxy; // canvas sizes (in pixels)
let particles;
let click;
let initDir;
let noiseInitDir;
let mouse = {x: 0, y: 0};
let org = {x: 0, y: 0};
let mouseMoved = false;
let hue;
// shortcuts for Math.…
const mrandom = Math.random;
const mfloor = Math.floor;
const mround = Math.round;
const mceil = Math.ceil;
const mabs = Math.abs;
const mmin = Math.min;
const mmax = Math.max;
const mPI = Math.PI;
const mPIS2 = Math.PI / 2;
const m2PI = Math.PI * 2;
const msin = Math.sin;
const mcos = Math.cos;
const matan2 = Math.atan2;
const mhypot = Math.hypot;
const msqrt = Math.sqrt;
const rac3 = msqrt(3);
const rac3s2 = rac3 / 2;
const mPIS3 = Math.PI / 3;
//-----------------------------------------------------------------------------
// miscellaneous functions
//-----------------------------------------------------------------------------
function alea (min, max) {
// random number [min..max[ . If no max is provided, [0..min[
if (typeof max == 'undefined') return min * mrandom();
return min + (max - min) * mrandom();
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function intAlea (min, max) {
// random integer number [min..max[ . If no max is provided, [0..min[
if (typeof max == 'undefined') {
max = min; min = 0;
}
return mfloor(min + (max - min) * mrandom());
} // intAlea
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function NoiseGen(rndFunc, period, nbHarmonics, attenHarmonics, lowValue = 0, highValue = 1) {
/* this function returns a function which can be used as a noise generator
the returned functions takes no parameter : it is supposed to be called for
consecutive, evenly spaced points of time or space.
- rndFunc is the random generator function used. It must return a value in the range
[0..1[. If a falsy value is provided (0, false, null, undefined..) Math.random will be used.
- period determines the speed of variation of the returned value. The higher
period is, the slowlier the value will change in the noise signal. It must be
a positive, non zero value (typically a few hundreds).
- nbHarmonics is an integer giving the number of harmonics used to generate the signal.
With 0 or 1, a single, smooth signal will be generated
With 2 or more, internally generated signals of periods up to period / 2, period / 3, will be added.
nbHarmonics should be kept as low as possible, since every added harmonic increases the
computation time significantly.
- attenHarmonics is a float number which should stay in the interval 0..1.
During harmonics generation, the amplitude of the signal is multiplied by
attenHarmonics, with respect to the immediatly lower level harmonic.
attenHarmonics = 0 results in no harmonics at all. attenHarmonics > 1 results in
harmonics greater than the fundamental, whith the highest harmonics beeing the
most important. This is not usually the desired behaviour.
lowValue and highValue are optional floating values. Despite the names, it
it is not required that highValue > lowValue. The
returned value will be scaled to the range lowValue..highValue
(without strict warranty about the limits beeing reached or exceeded, due to
the finite precision of floating numbers)
*/
let arP0 = []; // 'preceeding value' for each harmonic
let arP1 = []; // 'succeding value'
let amplitudes = []; // amplitudes oh harmonics
let increments = []; // n / period, wich will be added to phases for every point
let phases = [];
let globAmplitude = 0;
if (!rndFunc) rndFunc = Math.random; // default value for rndFunc
if (nbHarmonics < 1) nbHarmonics = 1;
for (let kh = 1; kh <= nbHarmonics; ++ kh) {
arP0[kh] = rndFunc();
arP1[kh] = rndFunc();
amplitudes[kh] = (kh == 1) ? 1 : (amplitudes[kh - 1] * attenHarmonics);
globAmplitude += amplitudes[kh];
increments[kh] = kh / period;
phases[kh] = rndFunc();
} // for kh
/* normalize amplitudes */
amplitudes.forEach ((value, kh) => amplitudes[kh] = value / globAmplitude * (highValue - lowValue))
/* returned function here */
return function () {
let pf, pfl;
let signal = 0;
for (let kh = nbHarmonics; kh >= 1; --kh) {
pf = phases[kh] += increments[kh];
if (phases[kh] >= 1) {
pf = phases[kh] -= 1;
arP0[kh] = arP1[kh];
arP1[kh] = rndFunc();
} // if full period reached
pfl = pf * pf * (3 - 2 * pf); // always 0..1, but smoother
signal += (arP0[kh] * (1 - pfl) + arP1[kh] * pfl) * amplitudes[kh];
} // for kh
return signal + lowValue;
} // returned function
} // NoiseGen
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
/* returns intermediate point between p0 and p1,
alpha = 0 will return p0, alpha = 1 will return p1
values of alpha outside [0,1] may be used to compute points outside the p0-p1 segment
*/
function intermediate (p0, p1, alpha) {
return [(1 - alpha) * p0[0] + alpha * p1[0],
(1 - alpha) * p0[1] + alpha * p1[1]];
} // function intermediate
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function distance (p0, p1) {
/* distance between points */
return mhypot (p0[0] - p1[0], p0[1] - p1[1]);
} // function distance
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function randomElement(array) {
return array[intAlea(array.length)];
} // randomElement
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function removeElement(array, element) {
let idx = array.indexOf(element);
if (idx == -1) throw ('Bug ! indexOf -1 in removeElement');
array.splice(idx, 1);
} // removeElement
//-----------------------------------------------------------------------------
function clonePoint(p) {
return [p[0],p[1]];
}
//-----------------------------------------------------------------------------
function Particle () {
this.x = org.x;
this.y = org.y;
// this.dir = initDir + alea(-mPI / 10, mPI / 10);
this.dir = alea(m2PI);
this.speed = initSpeed * alea(0.8, 1.4);
this.genddir = NoiseGen(null, 100, 2, 0.8, -0.03, 0.03);
this.r = rMin;
// this.color1 = `hsl(${intAlea(360)},100%,50%)`;
this.color1 = `hsl(${hue}, 100%, ${alea(20,80)}%)`;
hue = (hue + intAlea( -5, 5)) % 360;
} // Particle
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Particle.prototype.move = function () {
this.dir = (this.dir + this.genddir()) % m2PI;
this.speed += 0.01;
this.r = mmin(this.r + 0.1, rMax);
this.x += this.speed * mcos(this.dir);
this.y += this.speed * msin(this.dir);
if (this.y < -this.r || this.y > maxy + this.r || this.x < -this.r || this.x > maxx + this.r) return false;
return true;
} // Particle.move
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Particle.prototype.draw = function () {
ctx.beginPath();
ctx.arc(this.x, this.y,this.r,0,m2PI);
ctx.fillStyle = this.color1;
ctx.fill();
} // Particle.draw
//-----------------------------------------------------------------------------
// returns false if nothing can be done, true if drawing done
function startOver() {
// canvas dimensions
maxx = window.innerWidth;
maxy = window.innerHeight;
if (maxx < 10) return false;
canv.style.left = ((window.innerWidth ) - maxx) / 2 + 'px';
canv.style.top = ((window.innerHeight ) - maxy) / 2 + 'px';
ctx.canvas.width = maxx;
ctx.canvas.height = maxy;
ctx.lineJoin = 'round'; // placed here because reset when canvas resized
noiseInitDir = NoiseGen(null, 200,0,0,-0.03,0.03);
hue = intAlea(360);
if (org.x == 0 && org.y == 0)
org = {x: maxx / 2, y: maxy / 2};
mouse = {x: maxx / 2, y: maxy / 2};
particles = [];
initDir = alea(m2PI);
return true; // ok
} // startOver
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function mouseMove(event) {
mouse.x = event.clientX;
mouse.y = event.clientY;
mouseMoved = true;
} // mouseMove
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
function mouseClick() {
org.x = event.clientX;
org.y = event.clientY;
click = true;
} // mouseMove
// - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
let animate;
{ // scope for animate
let still = 0;
let tStampPre = 0;
animate = function (tStamp) {
if (tStampPre == 0) tStampPre = tStamp;
if (click && startOver()) click = false;
if (particles) {
// move origin point
if (mouseMoved) {
still = 1000; // moving : restart chronometer
mouseMoved = false;
}
if (still > 0) {
still += tStampPre - tStamp;
if (still <= 0) { // does not move : take mouse position
// org = {x: mouse.x, y: mouse.y}; no, not really interesting
}
}
tStampPre = tStamp;
initDir += noiseInitDir();
initDir %= m2PI;
ctx.fillStyle = 'rgba(0,0,0,0.03)';
ctx.fillRect(0, 0, maxx, maxy);
if (particles.length < 300) {
particles.push(new Particle());
}
particles.forEach((part,k) => {
if (part.move() == false ) {
removeElement(particles, part);
} else part.draw();
});
}
window.requestAnimationFrame(animate);
} // animate
} // scope for animate
//------------------------------------------------------------------------
//------------------------------------------------------------------------
// beginning of execution
{
canv = document.createElement('canvas');
canv.style.position="absolute";
document.body.appendChild(canv);
ctx = canv.getContext('2d');
} // canvas creation
window.addEventListener('click',mouseClick);
window.requestAnimationFrame(animate);
canv.addEventListener('mousemove',mouseMove);
click = true; // to run startOver
}); // window load listener
body {
font-family: Arial, Helvetica, "Liberation Sans", FreeSans, sans-serif;
background-color: #000;
margin:0;
padding:0;
border-width:0;
}
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