The wanderers III
Turtles following noise field
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// You can find the Turtle API reference here: https://turtletoy.net/syntax
Canvas.setpenopacity(0.5);
const size = 90; //min = 10, max = 100, step = 5
const perlinSize = 3; //min = 1, max = 50, step = 1
const maxTurtles = 5000; //min = 100, max = 10000, step = 1
// Global code will be evaluated once.
const turtle = new Turtle();
class Perlin{
constructor(size, gridSize){
this.size = size;
this.gridSize = gridSize;
this.grid = [];
// For each grid intersection, compute a random unit vector
for(let i = 0; i <= gridSize; i++){
let table = [];
for(let j = 0; j <= gridSize; j++){
let angle = Math.random() * 2 * Math.PI;
let x = Math.cos(angle);
let y = Math.sin(angle);
table.push([x, y]);
// console.log([x, y]);
}
this.grid.push(table);
}
// console.log(this.grid);
}
get(x, y){
x = x / 2 + this.size / 2;
y = y / 2 + this.size / 2;
if(x < 0) x = 0;
if(x >= this.size) x = this.size - 0.01;
if(y < 0) y = 0;
if(y >= this.size) y = this.size - 0.01;
// console.log(x, y);
let posx = x * this.gridSize / this.size;
let posy = y * this.gridSize / this.size;
// console.log(posx, posy);
let x1 = Math.floor(posx);
let x2 = x1 + 1;
let y1 = Math.floor(posy);
let y2 = y1 + 1;
let scal = [];
scal.push()
scal.push(this.scalar(posx, posy, x1, y1));
scal.push(this.scalar(posx, posy, x2, y1));
scal.push(this.scalar(posx, posy, x1, y2));
scal.push(this.scalar(posx, posy, x2, y2));
// console.log(scal);
// interpolate : linear interpolation for a start
let int1 = this.interpolate(posx - x1, scal[0], scal[1]);
let int2 = this.interpolate(posx - x1, scal[2], scal[3]);
// console.log(int1, int2);
return this.interpolate(posy - y1, int1, int2);
}
scalar(x, y, vx, vy){
x -= vx;
y -= vy;
// console.log(x, y);
return x * this.grid[vx][vy][0] + y * this.grid[vx][vy][1];
}
smooth(v){
if(v < 0) v = 0;
if(v > 1) v = 1;
return v**2 * (3 - 2*v);
}
interpolate(x, a, b){
return a + (b - a) * this.smooth(x)
}
}
let perlin = new Perlin(size, perlinSize);
let posx = -size;
let posy = -size;
let gen = 0;
// The walk function will be called until it returns false.
function walk(i) {
let amp = perlin.get(posx, posy)
// console.log(amp);
amp = (amp + 1) / 2;
turtle.seth(amp * 360);
turtle.forward(0.1);
posx = turtle.x();
posy = turtle.y();
if(Math.abs(posx) > size || Math.abs(posy) > size){
// console.log(posx, posy);
gen++;
posx = Math.random() * 2*size - size;
posy = Math.random() * 2*size - size;
turtle.jump(posx, posy);
turtle.seth(Math.random() * 360);
}
/*
for(let i of perlin.grid){
for(let j of i){
console.log(j);
// console.log(Math.sqrt(j[0]**2 + j[1]**2));
console.log(j[0]);
console.log(j[1]);
}
}
*/
return gen < maxTurtles;
}