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https://github.com/github/awesome-copilot.git
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311 lines
10 KiB
JavaScript
311 lines
10 KiB
JavaScript
// APNG codec helpers (Node-side).
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//
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// - assembleApng(): repackages a list of already-encoded PNG frames into a
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// single Animated PNG, following https://wiki.mozilla.org/APNG_Specification.
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// Because every frame is already a valid PNG sharing one IHDR, we only need
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// to lift each frame's IDAT stream into the default image (frame 0) or into
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// `fdAT` chunks (later frames), wrapped by `acTL`/`fcTL` control chunks with
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// freshly computed CRC-32s. No re-compression required.
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// - encodeRgbaPng(): minimal RGBA8 PNG encoder used for agent-generated frames.
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import { deflateSync } from "node:zlib";
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const PNG_SIGNATURE = Uint8Array.from([137, 80, 78, 71, 13, 10, 26, 10]);
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const CRC_TABLE = (() => {
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const table = new Uint32Array(256);
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for (let n = 0; n < 256; n++) {
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let c = n;
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for (let k = 0; k < 8; k++) {
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c = c & 1 ? 0xedb88320 ^ (c >>> 1) : c >>> 1;
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}
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table[n] = c >>> 0;
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}
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return table;
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})();
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function crc32(bytes) {
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let c = 0xffffffff;
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for (let i = 0; i < bytes.length; i++) {
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c = CRC_TABLE[(c ^ bytes[i]) & 0xff] ^ (c >>> 8);
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}
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return (c ^ 0xffffffff) >>> 0;
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}
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function concat(chunks) {
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let total = 0;
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for (const c of chunks) total += c.length;
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const out = new Uint8Array(total);
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let off = 0;
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for (const c of chunks) {
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out.set(c, off);
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off += c.length;
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}
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return out;
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}
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function readU32(bytes, off) {
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return (
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((bytes[off] << 24) |
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(bytes[off + 1] << 16) |
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(bytes[off + 2] << 8) |
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bytes[off + 3]) >>>
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0
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);
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}
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// Build a PNG chunk: [length][type][data][crc], CRC over type+data.
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function chunk(type, data) {
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const len = data.length;
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const out = new Uint8Array(12 + len);
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const view = new DataView(out.buffer);
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view.setUint32(0, len);
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out[4] = type.charCodeAt(0);
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out[5] = type.charCodeAt(1);
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out[6] = type.charCodeAt(2);
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out[7] = type.charCodeAt(3);
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out.set(data, 8);
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view.setUint32(8 + len, crc32(out.subarray(4, 8 + len)));
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return out;
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}
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// Parse the pieces of a PNG we care about: its IHDR data and the concatenated
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// IDAT stream. Ancillary/color chunks are intentionally dropped — every frame
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// shares a uniform RGBA8 IHDR so they are not needed.
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function parsePng(bytes) {
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for (let i = 0; i < PNG_SIGNATURE.length; i++) {
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if (bytes[i] !== PNG_SIGNATURE[i]) {
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throw new Error("Not a PNG (bad signature)");
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}
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}
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let off = 8;
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let ihdrData = null;
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let width = 0;
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let height = 0;
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const idatParts = [];
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while (off + 8 <= bytes.length) {
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const len = readU32(bytes, off);
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const type = String.fromCharCode(
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bytes[off + 4],
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bytes[off + 5],
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bytes[off + 6],
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bytes[off + 7]
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);
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const dataStart = off + 8;
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const data = bytes.subarray(dataStart, dataStart + len);
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if (type === "IHDR") {
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ihdrData = data.slice();
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width = readU32(data, 0);
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height = readU32(data, 4);
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} else if (type === "IDAT") {
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idatParts.push(data.slice());
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} else if (type === "IEND") {
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break;
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}
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off = dataStart + len + 4; // skip data + CRC
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}
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if (!ihdrData) throw new Error("PNG missing IHDR");
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if (idatParts.length === 0) throw new Error("PNG missing IDAT");
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return { ihdrData, width, height, idat: concat(idatParts) };
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}
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function acTLChunk(numFrames, numPlays) {
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const data = new Uint8Array(8);
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const view = new DataView(data.buffer);
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view.setUint32(0, numFrames >>> 0);
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view.setUint32(4, numPlays >>> 0);
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return chunk("acTL", data);
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}
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// dispose_op: 0 = NONE (leave as-is), 1 = BACKGROUND (clear region to transparent
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// black), 2 = PREVIOUS (revert region to what it was before this frame).
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// blend_op: 0 = SOURCE (overwrite region, alpha included), 1 = OVER (alpha-blend
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// this frame over the current canvas contents).
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function fcTLChunk(sequence, width, height, params) {
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const {
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delayNum = 100,
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delayDen = 1000,
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disposeOp = 0,
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blendOp = 0,
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xOffset = 0,
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yOffset = 0,
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} = params || {};
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const data = new Uint8Array(26);
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const view = new DataView(data.buffer);
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view.setUint32(0, sequence >>> 0); // sequence_number
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view.setUint32(4, width >>> 0); // width
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view.setUint32(8, height >>> 0); // height
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view.setUint32(12, xOffset >>> 0); // x_offset
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view.setUint32(16, yOffset >>> 0); // y_offset
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view.setUint16(20, delayNum & 0xffff); // delay_num
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view.setUint16(22, delayDen & 0xffff); // delay_den
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data[24] = disposeOp & 0xff; // dispose_op
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data[25] = blendOp & 0xff; // blend_op
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return chunk("fcTL", data);
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}
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function fdATChunk(sequence, idat) {
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const data = new Uint8Array(4 + idat.length);
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new DataView(data.buffer).setUint32(0, sequence >>> 0);
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data.set(idat, 4);
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return chunk("fdAT", data);
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}
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const clampU16 = (n, dflt = 0) => {
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const v = Math.round(Number(n));
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return Number.isFinite(v) ? Math.max(0, Math.min(0xffff, v)) : dflt;
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};
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const clampDen = (n) => {
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const v = Math.round(Number(n));
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return Number.isFinite(v) && v >= 1 ? Math.min(0xffff, v) : 1000;
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};
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const clampOp = (n, hi) => {
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const v = Math.round(Number(n));
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return Number.isFinite(v) ? Math.max(0, Math.min(hi, v)) : 0;
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};
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// Normalize a caller-supplied frame descriptor into the exact fcTL fields.
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// Timing accepts either delayNum/delayDen (exact) or a delayMs shorthand
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// (treated as delayNum ms over a 1000 denominator).
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function frameParams(f) {
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let delayNum;
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let delayDen;
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if (f.delayNum != null) {
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delayNum = clampU16(f.delayNum, 100);
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delayDen = clampDen(f.delayDen);
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} else {
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delayNum = clampU16(f.delayMs, 100);
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delayDen = 1000;
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}
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return {
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delayNum,
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delayDen,
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disposeOp: clampOp(f.disposeOp, 2),
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blendOp: clampOp(f.blendOp, 1),
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};
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}
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// The APNG spec forbids APNG_DISPOSE_OP_PREVIOUS on the first fcTL (decoders
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// must treat it as BACKGROUND). Normalize it for whichever frame is composited
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// first so our output is well-defined instead of relying on decoder leniency.
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function firstFrameParams(f) {
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const p = frameParams(f);
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if (p.disposeOp === 2) p.disposeOp = 1;
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return p;
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}
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/**
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* Assemble an APNG from a list of PNG frames.
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*
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* @param {Array<{png: Uint8Array, delayMs?: number, delayNum?: number, delayDen?: number, disposeOp?: number, blendOp?: number}>} frames
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* @param {{loops?: number, hiddenFirst?: boolean}} [options]
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* loops: 0 = infinite. hiddenFirst: when true (and >=2 frames) the first frame
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* becomes the static default image shown by non-APNG viewers and is NOT part
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* of the animation; frames 2..N make up the loop.
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* @returns {Uint8Array} APNG bytes.
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*/
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export function assembleApng(frames, options = {}) {
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if (!Array.isArray(frames) || frames.length === 0) {
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throw new Error("assembleApng requires at least one frame");
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}
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const loops = Math.max(0, Math.round(Number(options.loops) || 0));
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const hiddenFirst = !!options.hiddenFirst && frames.length >= 2;
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const parsed = frames.map((f) => parsePng(f.png));
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const width = parsed[0].width;
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const height = parsed[0].height;
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for (const p of parsed) {
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if (p.width !== width || p.height !== height) {
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throw new Error(
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`All frames must share dimensions (${width}x${height}); found ${p.width}x${p.height}`
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);
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}
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}
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const parts = [PNG_SIGNATURE, chunk("IHDR", parsed[0].ihdrData)];
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const numFrames = hiddenFirst ? parsed.length - 1 : parsed.length;
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parts.push(acTLChunk(numFrames, loops));
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let seq = 0;
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if (hiddenFirst) {
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// Default image = frame 0, with no fcTL, so it is not animated.
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parts.push(chunk("IDAT", parsed[0].idat));
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for (let i = 1; i < parsed.length; i++) {
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const params = i === 1 ? firstFrameParams(frames[i]) : frameParams(frames[i]);
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parts.push(fcTLChunk(seq++, width, height, params));
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parts.push(fdATChunk(seq++, parsed[i].idat));
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}
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} else {
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// Frame 0 = default image AND first animation frame: fcTL then IDAT.
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parts.push(fcTLChunk(seq++, width, height, firstFrameParams(frames[0])));
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parts.push(chunk("IDAT", parsed[0].idat));
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// Remaining frames: fcTL then fdAT (each carries a sequence number).
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for (let i = 1; i < parsed.length; i++) {
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parts.push(fcTLChunk(seq++, width, height, frameParams(frames[i])));
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parts.push(fdATChunk(seq++, parsed[i].idat));
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}
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}
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parts.push(chunk("IEND", new Uint8Array(0)));
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return concat(parts);
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}
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/**
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* Encode an 8-bit RGBA pixel buffer into a (non-animated) PNG.
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*
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* @param {number} width
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* @param {number} height
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* @param {Uint8Array} rgba length must be width*height*4
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* @returns {Uint8Array} PNG bytes.
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*/
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export function encodeRgbaPng(width, height, rgba) {
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if (rgba.length !== width * height * 4) {
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throw new Error("rgba length does not match width*height*4");
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}
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const ihdr = new Uint8Array(13);
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const view = new DataView(ihdr.buffer);
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view.setUint32(0, width >>> 0);
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view.setUint32(4, height >>> 0);
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ihdr[8] = 8; // bit depth
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ihdr[9] = 6; // color type: RGBA
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ihdr[10] = 0; // compression
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ihdr[11] = 0; // filter method
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ihdr[12] = 0; // interlace
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// Filtered raw scanlines: one leading filter byte (0 = None) per row.
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const stride = width * 4;
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const raw = new Uint8Array((stride + 1) * height);
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for (let y = 0; y < height; y++) {
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const src = y * stride;
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const dst = y * (stride + 1);
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raw[dst] = 0;
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raw.set(rgba.subarray(src, src + stride), dst + 1);
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}
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const compressed = deflateSync(raw, { level: 9 });
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return concat([
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PNG_SIGNATURE,
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chunk("IHDR", ihdr),
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chunk("IDAT", new Uint8Array(compressed.buffer, compressed.byteOffset, compressed.length)),
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chunk("IEND", new Uint8Array(0)),
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]);
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}
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/**
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* Convenience: encode a solid-color frame as a PNG.
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* @param {number} width
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* @param {number} height
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* @param {{r:number,g:number,b:number,a:number}} color 0-255 components
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*/
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export function solidColorPng(width, height, color) {
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const rgba = new Uint8Array(width * height * 4);
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const { r, g, b, a } = color;
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for (let i = 0; i < rgba.length; i += 4) {
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rgba[i] = r;
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rgba[i + 1] = g;
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rgba[i + 2] = b;
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rgba[i + 3] = a;
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}
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return encodeRgbaPng(width, height, rgba);
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}
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