MyBot Pixel Place Tools
Este script no debería instalarse directamente. Es una biblioteca que utilizan otros scripts mediante la meta-directiva de inclusión // @require https://update.greasyfork.org/scripts/479130/1275795/MyBot%20Tools.js
// ==UserScript==
// @name MyBot Tools
// @description MyBot Pixel Place Tools
// @version 1.6.2
// @author SamaelWired
// @namespace https://greasyfork.org/tr/users/976572
// @match https://pixelplace.io/*
// @icon https://www.google.com/s2/favicons?sz=64&domain=pixelplace.io
// @license MIT
// @grant none
// @run-at document-start
// ==/UserScript==
(() => {
const MyBot = window.MyBot || { modules: {} };
window.MyBot = MyBot;
if ('Tools' in MyBot.modules) return;
const progressManager = func => {
const callbacks = {};
const root = new Proxy({}, {
get(target, key) {
if (!target[key]) target[key] = callback => (callbacks[key] = callback, root);
return target[key];
}
});
root.start = (...args) => func(callbacks)(...args);
return root;
};
const worker = progressManager(({ progress = () => 0, finish = () => 0 }) =>
(data, func) => {
const worker = new Worker(URL.createObjectURL(new Blob([`
const progress = value => self.postMessage({ progress: true, value });
const finish = value => self.postMessage({ finish: true, value });
onmessage = async ({ data }) => {
await (${func.toString()})(data);
close();
};
`], { type: "text/javascript" })));
worker.addEventListener('message', ({ data }) => data.progress && progress(data.value));
worker.addEventListener('message', ({ data }) => data.finish && finish(data.value));
worker.postMessage(data);
});
const module = {
args: {},
_wheelID: 0,
get wheel() {
const { exclude, colors } = module.args;
let pixel = module._wheelID + 1;
while (exclude.includes(colors[pixel]))
if (colors[++pixel] == null)
pixel = 0;
module._wheelID = pixel;
return pixel;
},
pixel: 0,
size: 9,
innerSize: 0,
interval: 0,
RGB2P(r, g, b) {
const closest = module.args.rgb.map(([r2, g2, b2]) =>
((r2 - r) ** 2 + (g2 - g) ** 2 + (b2 - b) ** 2) * 0x1000000 + (r2 << 16) + (g2 << 8) + b
)
.sort((a, b) => a - b)[0];
return module.args.colors.indexOf(closest & 0xFFFFFF);
},
CLR2P(color) {
return module.RGB2P((color >> 16) & 0xFF, (color >> 8) & 0xFF, color & 0xFF);
},
};
module.config = ({ colors, exclude, zero, timer, tickSpeed }) => {
const palette = [...colors].map(color => exclude.includes(color) ? zero : color);
const rgb = palette.filter(clr => clr != zero).map(clr => [((clr >> 16) & 0xFF), ((clr >> 8) & 0xFF), (clr & 0xFF)]);
Object.assign(module.args, { colors, exclude, zero, timer, tickSpeed, palette, rgb });
};
module.shader = progressManager(({
progress = () => 0, finish = () => 0, tick = () => 0,
silent = true,
interval = module.interval
}) => (map) => {
const { timer } = module.args;
let pos = 0;
let t = timer.setInterval(() => {
const { tickSpeed } = module.args;
let i = 0;
for (; pos < map.pixels.length;) {
silent || progress(pos / map.pixels.length, t);
if (map.pixels[pos] === 255) {
pos++;
continue;
}
tick(pos % map.width, pos / map.width >> 0, map.pixels[pos]);
pos++;
i++;
if (i > tickSpeed) return;
continue;
}
timer.clearInterval(t);
finish(t);
}, interval);
return t;
});
module.square = progressManager(({
progress = () => 0, finish = () => 0, tick = () => 0,
silent = true,
interval = module.interval,
size = module.size,
innerSize = module.innerSize,
}) => (x, y, pixel = module.pixel) => {
const { timer } = module.args;
const half = size >> 1;
const innerHalf = innerSize >> 1;
let xi = -half;
let yi = -half;
let t = timer.setInterval(() => {
const { tickSpeed } = module.args;
let i = 0;
for (; yi < half + 1;) {
for (; xi < half + 1;) {
const pos = (xi + half + (yi + half) * size);
silent || progress(pos / size ** 2, t);
if (pixel === 255 || xi > -innerHalf && xi < innerHalf && yi > -innerHalf && yi < innerHalf) {
xi++;
continue;
}
tick(x + xi, y + yi, pixel);
xi++;
i++;
if (i > tickSpeed) return;
continue;
}
yi++;
xi = -half;
}
timer.clearInterval(t);
finish(t);
}, interval);
return t;
});
module.circle = progressManager(({
progress = () => 0, finish = () => 0, tick = () => 0,
silent = true,
interval = module.interval,
radius = module.size >> 1,
innerRadius = module.innerSize >> 1,
}) => (x, y, pixel = module.pixel) => {
const { timer } = module.args;
const half = radius;
const innerHalf = innerRadius;
let xi = -half;
let yi = -half;
let t = timer.setInterval(() => {
const { tickSpeed } = module.args;
let i = 0;
for (; yi < half + 1;) {
for (; xi < half + 1;) {
const pos = (xi + half + (yi + half) * size);
silent || progress(pos / size ** 2, t);
if (pixel === 255 || xi ** 2 + yi ** 2 > half ** 2 || xi ** 2 + yi ** 2 < innerHalf ** 2) {
xi++;
continue;
}
tick(x + xi, y + yi, pixel);
xi++;
i++;
if (i > tickSpeed) return;
continue;
}
yi++;
xi = -half;
}
timer.clearInterval(t);
finish(t);
}, interval);
return t;
});
module.image = progressManager(({
progress = () => 0, finish = () => 0, tick = () => 0,
interval = module.interval,
}) => (pixels, x, y, w, h) => {
const { timer } = module.args;
let xi = 0;
let yi = 0;
let t = timer.setInterval(() => {
const { tickSpeed } = module.args;
let i = 0;
for (; yi < h;) {
for (; xi < w;) {
const pos = xi + yi * w;
progress(pos / pixels.length, t);
const pixel = pixels[pos];
if (pixel === 255) {
xi++;
continue;
}
tick(x + xi, y + yi, pixel);
xi++;
i++;
if (i > tickSpeed) return;
continue;
}
yi++;
xi = 0;
}
timer.clearInterval(t);
finish(t);
}, interval);
return t;
});
module.order = new Proxy({}, {
get(_, type) {
return progressManager(({
progress = () => 0, finish = () => 0,
silent = true,
center = [0, 0]
}) => (queue) => {
if (type == 'fromCenterQueue' || type == 'toCenterQueue') {
type = type.replace('Queue', '');
const [cxn, cyn] = queue.reduce(([x, y], [x2, y2]) => [x + x2, y + y2], [0, 0]);
center = [cxn / queue.length >> 0, cyn / queue.length >> 0];
}
worker.progress(progress).finish(finish)
.start(
{ queue, type, center, silent },
async ({ queue, type, center, silent }) => {
const q = [...queue];
const size = queue.length * Math.log(queue.length) | 0;
const [cx, cy] = center;
let i = 0;
const method = ({
start([x, y, p, i], [x2, y2, p2, i2]) {
silent || progress(i++ / size);
return i - i2;
},
end([x, y, p, i], [x2, y2, p2, i2]) {
silent || progress(i++ / size);
return i2 - i;
},
rand() {
silent || progress(i++ / size);
return Math.random() - .5;
},
top([x, y], [x2, y2]) {
silent || progress(i++ / size);
return y - y2;
},
left([x, y], [x2, y2]) {
silent || progress(i++ / size);
return x - x2;
},
right([x, y], [x2, y2]) {
silent || progress(i++ / size);
return x2 - x;
},
bottom([x, y], [x2, y2]) {
silent || progress(i++ / size);
return y2 - y;
},
fromCenter([x, y], [x2, y2]) {
silent || progress(i++ / size);
return ((x - cx) ** 2 + (y - cy) ** 2) - ((x2 - cx) ** 2 + (y2 - cy) ** 2);
},
toCenter([x, y], [x2, y2]) {
silent || progress(i++ / size);
return ((x2 - cx) ** 2 + (y2 - cy) ** 2) - ((x - cx) ** 2 + (y - cy) ** 2);
},
fromVertical([x, y], [x2, y2]) {
silent || progress(i++ / size);
return Math.abs(x - cx) - Math.abs(x2 - cx);
},
toVertical([x, y], [x2, y2]) {
silent || progress(i++ / size);
return Math.abs(x2 - cx) - Math.abs(x - cx);
},
fromHorizontal([x, y], [x2, y2]) {
silent || progress(i++ / size);
return Math.abs(y - cy) - Math.abs(y2 - cy);
},
toHorizontal([x, y], [x2, y2]) {
silent || progress(i++ / size);
return Math.abs(y2 - cy) - Math.abs(y - cy);
},
});
q.sort(method[type] || method['start']);
silent || progress(1);
finish(q);
}
);
});
}
});
MyBot.modules.Tools = module;
})();