Files
scrabble-game/assets/vk/build/extract.js
T
Ilia Denisov d0f860a33e
CI / changes (pull_request) Successful in 3s
CI / unit (pull_request) Has been skipped
CI / integration (pull_request) Has been skipped
CI / ui (pull_request) Has been skipped
CI / gate (pull_request) Successful in 0s
CI / deploy (pull_request) Successful in 1m30s
feat(assets): VK loading-screen Lottie — bouncing Erudit tile
A 96x96 transparent Lottie for the VK app loading screen: the «Э» tile
(score 8) drops in under gravity, lands with a soft cushion squash
(left/right edges bulge convex, corners follow via a chordal spline),
springs back and loops (~1.1s). A warm glint is caught on the bounce.

Pure 2D shapes (ddd:0) for player compatibility; ~11KB (<24KB limit).
Glyphs are real LiberationSans outlines (Arial-metric, matching the
game's font stack). Includes a reproducible, dependency-light build
pipeline (build/generate.js + extract.js + glyphs.json) and a README.
The preview GIF's green-baize background is preview-only; the asset
itself is transparent.
2026-06-30 18:29:51 +02:00

68 lines
2.8 KiB
JavaScript

'use strict';
// Extract the Cyrillic "Э" (U+042D) and the digit "8" outlines from a grotesque
// font (LiberationSans = Arial-metric, matching the game's system-ui/Arial stack)
// and emit Lottie cubic-bezier contours, centred at the origin, y-down.
const opentype = require('opentype.js');
const fs = require('fs');
const FONT = process.argv[2] || '/usr/share/fonts/truetype/liberation/LiberationSans-Regular.ttf';
const b = fs.readFileSync(FONT);
const font = opentype.parse(b.buffer.slice(b.byteOffset, b.byteOffset + b.byteLength));
const FS = 1000; // em scale
function glyphContours(ch) {
const p = font.charToGlyph(ch).getPath(0, 0, FS); // baseline at y=0, y-down
const contours = [];
let cur = null, prev = null;
for (const c of p.commands) {
if (c.type === 'M') {
if (cur) contours.push(cur);
cur = [{ v: [c.x, c.y], i: [c.x, c.y], o: [c.x, c.y] }];
prev = { x: c.x, y: c.y };
} else if (c.type === 'L') {
cur.push({ v: [c.x, c.y], i: [c.x, c.y], o: [c.x, c.y] });
prev = { x: c.x, y: c.y };
} else if (c.type === 'C') {
cur[cur.length - 1].o = [c.x1, c.y1];
cur.push({ v: [c.x, c.y], i: [c.x2, c.y2], o: [c.x, c.y] });
prev = { x: c.x, y: c.y };
} else if (c.type === 'Q') {
const c1 = [prev.x + 2 / 3 * (c.x1 - prev.x), prev.y + 2 / 3 * (c.y1 - prev.y)];
const c2 = [c.x + 2 / 3 * (c.x1 - c.x), c.y + 2 / 3 * (c.y1 - c.y)];
cur[cur.length - 1].o = c1;
cur.push({ v: [c.x, c.y], i: c2, o: [c.x, c.y] });
prev = { x: c.x, y: c.y };
} else if (c.type === 'Z') {
if (cur && cur.length > 1) {
const last = cur[cur.length - 1], first = cur[0];
if (Math.hypot(last.v[0] - first.v[0], last.v[1] - first.v[1]) < 1e-3) {
first.i = last.i; // fold the duplicate closing point into the first
cur.pop();
}
}
if (cur) { contours.push(cur); cur = null; }
}
}
if (cur) contours.push(cur);
let minx = Infinity, miny = Infinity, maxx = -Infinity, maxy = -Infinity;
const out = contours.map(ct => {
const v = [], i = [], o = [];
ct.forEach(pt => {
v.push(pt.v);
i.push([pt.i[0] - pt.v[0], pt.i[1] - pt.v[1]]);
o.push([pt.o[0] - pt.v[0], pt.o[1] - pt.v[1]]);
minx = Math.min(minx, pt.v[0]); maxx = Math.max(maxx, pt.v[0]);
miny = Math.min(miny, pt.v[1]); maxy = Math.max(maxy, pt.v[1]);
});
return { i, o, v, c: true };
});
return { contours: out, bbox: { x: minx, y: miny, w: maxx - minx, h: maxy - miny } };
}
const E = glyphContours('Э');
const D8 = glyphContours('8');
fs.writeFileSync('glyphs.json', JSON.stringify({ em: FS, E, D8 }));
console.log('Э bbox', E.bbox, 'contours', E.contours.map(c => c.v.length));
console.log('8 bbox', D8.bbox, 'contours', D8.contours.map(c => c.v.length));