frontend/generate-icons.mjs aktualisiert

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2026-05-25 15:47:50 +02:00
parent 1370643172
commit d9b4652f51

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@@ -1,106 +1,101 @@
// Generiert icon-192.png und icon-512.png ohne externe Abhängigkeiten import { writeFileSync, mkdirSync } from 'fs';
// Wird automatisch vor dem Build ausgeführt (prebuild script)
import { createWriteStream } from 'fs';
import { mkdir } from 'fs/promises';
await mkdir('./public', { recursive: true }); mkdirSync('./public', { recursive: true });
function createPNG(size) {
// Minimales PNG: dunkel (#0d0d0f) mit DD in teal (#4ecdc4)
// Wir nutzen den Canvas aus dem Vite/Node Kontext nicht
// stattdessen schreiben wir ein gültiges einfarbiges PNG per Hand
const width = size, height = size;
function crc32(buf) { function crc32(buf) {
let c, crcTable = []; const table = new Uint32Array(256);
for (let n = 0; n < 256; n++) { for (let n = 0; n < 256; n++) {
c = n; let c = n;
for (let k = 0; k < 8; k++) c = (c & 1) ? 0xedb88320 ^ (c >>> 1) : c >>> 1; for (let k = 0; k < 8; k++) c = (c & 1) ? (0xedb88320 ^ (c >>> 1)) : (c >>> 1);
crcTable[n] = c; table[n] = c;
} }
let crc = 0xffffffff; let crc = 0xffffffff;
for (let i = 0; i < buf.length; i++) crc = crcTable[(crc ^ buf[i]) & 0xff] ^ (crc >>> 8); for (const b of buf) crc = (table[(crc ^ b) & 0xff] ^ (crc >>> 8));
return (crc ^ 0xffffffff) >>> 0; return ((crc ^ 0xffffffff) >>> 0);
} }
function chunk(type, data) { function chunk(type, data) {
const t = Buffer.from(type); const t = Buffer.from(type, 'ascii');
const len = Buffer.alloc(4); len.writeUInt32BE(data.length); const len = Buffer.allocUnsafe(4);
const crcBuf = Buffer.concat([t, data]); len.writeUInt32BE(data.length, 0);
const crc = Buffer.alloc(4); crc.writeUInt32BE(crc32(crcBuf)); const crcInput = Buffer.concat([t, data]);
return Buffer.concat([len, t, data, crc]); const crcBuf = Buffer.allocUnsafe(4);
crcBuf.writeUInt32BE(crc32(crcInput), 0);
return Buffer.concat([len, t, data, crcBuf]);
} }
function deflateStore(raw) {
// zlib header (deflate, no compression)
const header = Buffer.from([0x78, 0x01]);
const blocks = [];
const SIZE = 32768;
for (let i = 0; i < raw.length; i += SIZE) {
const slice = raw.slice(i, i + SIZE);
const last = (i + SIZE >= raw.length) ? 1 : 0;
const h = Buffer.allocUnsafe(5);
h[0] = last;
h.writeUInt16LE(slice.length, 1);
h.writeUInt16LE((~slice.length) & 0xffff, 3);
blocks.push(h, slice);
}
// Adler-32
let s1 = 1, s2 = 0;
for (const b of raw) {
s1 = (s1 + b) % 65521;
s2 = (s2 + s1) % 65521;
}
const adler = Buffer.allocUnsafe(4);
adler.writeUInt32BE(((s2 << 16) | s1) >>> 0, 0);
return Buffer.concat([header, ...blocks, adler]);
}
function makePNG(size) {
const cx = size / 2, cy = size / 2;
const outerR = size * 0.42, innerR = size * 0.30;
// IHDR // IHDR
const ihdr = Buffer.alloc(13); const ihdr = Buffer.allocUnsafe(13);
ihdr.writeUInt32BE(width, 0); ihdr.writeUInt32BE(height, 4); ihdr.writeUInt32BE(size, 0);
ihdr[8] = 8; ihdr[9] = 2; ihdr[10] = 0; ihdr[11] = 0; ihdr[12] = 0; ihdr.writeUInt32BE(size, 4);
ihdr[8] = 8; // bit depth
ihdr[9] = 2; // RGB
ihdr[10] = ihdr[11] = ihdr[12] = 0;
// Pixel data: dark background with a teal circle // Raw pixel data (filter byte 0 per row)
const rows = []; const rows = [];
const cx = width / 2, cy = height / 2, r = width * 0.35; for (let y = 0; y < size; y++) {
const r2 = width * 0.28; const row = Buffer.allocUnsafe(1 + size * 3);
for (let y = 0; y < height; y++) { row[0] = 0; // filter none
const row = [0]; // filter byte for (let x = 0; x < size; x++) {
for (let x = 0; x < width; x++) {
const dx = x - cx, dy = y - cy; const dx = x - cx, dy = y - cy;
const dist = Math.sqrt(dx*dx + dy*dy); const d = Math.sqrt(dx * dx + dy * dy);
if (dist < r2) { let r, g, b;
// teal inner circle if (d < innerR) {
row.push(0x4e, 0xcd, 0xc4); r = 0x4e; g = 0xcd; b = 0xc4; // teal
} else if (dist < r) { } else if (d < outerR) {
// slightly lighter ring r = 0x1e; g = 0x6a; b = 0x65; // dark teal ring
row.push(0x1a, 0x8a, 0x84);
} else { } else {
// dark background r = 0x0d; g = 0x0d; b = 0x0f; // background
row.push(0x0d, 0x0d, 0x0f);
} }
row[1 + x * 3] = r;
row[2 + x * 3] = g;
row[3 + x * 3] = b;
} }
rows.push(Buffer.from(row)); rows.push(row);
} }
// zlib compress (deflate) minimal uncompressed blocks
const raw = Buffer.concat(rows); const raw = Buffer.concat(rows);
// Split into 65535-byte chunks for uncompressed deflate const idat = deflateStore(raw);
const chunks = [];
const CHUNK = 65535;
for (let i = 0; i < raw.length; i += CHUNK) {
const slice = raw.slice(i, i + CHUNK);
const last = i + CHUNK >= raw.length ? 1 : 0;
const hdr = Buffer.alloc(5);
hdr[0] = last; hdr.writeUInt16LE(slice.length, 1); hdr.writeUInt16LE(~slice.length & 0xffff, 3);
chunks.push(hdr, slice);
}
const deflated = Buffer.concat(chunks);
// Adler32 const sig = Buffer.from([137, 80, 78, 71, 13, 10, 26, 10]);
let s1 = 1, s2 = 0; return Buffer.concat([
for (const b of raw) { s1 = (s1 + b) % 65521; s2 = (s2 + s1) % 65521; } sig,
const adler = Buffer.alloc(4); adler.writeUInt32BE((s2 << 16) | s1);
const zlib = Buffer.concat([
Buffer.from([0x78, 0x01]), // zlib header (no compression)
deflated,
adler
]);
const png = Buffer.concat([
Buffer.from([137, 80, 78, 71, 13, 10, 26, 10]), // PNG signature
chunk('IHDR', ihdr), chunk('IHDR', ihdr),
chunk('IDAT', zlib), chunk('IDAT', idat),
chunk('IEND', Buffer.alloc(0)) chunk('IEND', Buffer.alloc(0)),
]); ]);
return png;
} }
const png192 = createPNG(192); writeFileSync('./public/icon-192.png', makePNG(192));
const png512 = createPNG(512); writeFileSync('./public/icon-512.png', makePNG(512));
console.log('✅ Icons generiert: icon-192.png + icon-512.png');
const ws192 = createWriteStream('./public/icon-192.png');
ws192.write(png192); ws192.end();
const ws512 = createWriteStream('./public/icon-512.png');
ws512.write(png512); ws512.end();
console.log('✅ Icons generiert: icon-192.png, icon-512.png');