mirror of
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bbaf619f63
swc_bundler: - [x] Fix wrapped esms. (denoland/deno#9307) - [x] Make test secure.
471 lines
12 KiB
TypeScript
471 lines
12 KiB
TypeScript
// Loaded from https://deno.land/x/deno_image@v0.0.3/lib/decoders/fast-png/PNGDecoder.ts
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import { IOBuffer } from './iobuffer/IOBuffer.ts';
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import { Inflate as Inflator } from './pako/index.js';
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import { pngSignature, crc } from './common.ts';
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import type {
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IDecodedPNG,
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DecoderInputType,
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IPNGDecoderOptions,
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PNGDataArray,
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IndexedColors,
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BitDepth,
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IInflator
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} from './types.ts';
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import {
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ColorType,
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CompressionMethod,
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FilterMethod,
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InterlaceMethod,
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} from './internalTypes.ts';
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const empty = new Uint8Array(0);
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const NULL = '\0';
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const uint16 = new Uint16Array([0x00ff]);
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const uint8 = new Uint8Array(uint16.buffer);
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const osIsLittleEndian = uint8[0] === 0xff;
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export default class PNGDecoder extends IOBuffer {
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private _checkCrc: boolean;
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private _inflator: IInflator;
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private _png: IDecodedPNG;
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private _end: boolean;
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private _hasPalette: boolean;
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private _palette: IndexedColors;
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private _compressionMethod: CompressionMethod;
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private _filterMethod: FilterMethod;
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private _interlaceMethod: InterlaceMethod;
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private _colorType: number;
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public constructor(data: DecoderInputType, options: IPNGDecoderOptions = {}) {
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super(data);
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const { checkCrc = false } = options;
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this._checkCrc = checkCrc;
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this._inflator = <IInflator>new Inflator();
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this._png = {
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width: -1,
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height: -1,
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channels: -1,
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data: new Uint8Array(0),
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depth: 1,
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text: {},
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};
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this._end = false;
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this._hasPalette = false;
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this._palette = [];
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this._compressionMethod = CompressionMethod.UNKNOWN;
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this._filterMethod = FilterMethod.UNKNOWN;
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this._interlaceMethod = InterlaceMethod.UNKNOWN;
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this._colorType = -1;
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// PNG is always big endian
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// https://www.w3.org/TR/PNG/#7Integers-and-byte-order
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this.setBigEndian();
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}
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public decode(): IDecodedPNG {
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this.decodeSignature();
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while (!this._end) {
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this.decodeChunk();
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}
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this.decodeImage();
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return this._png;
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}
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// https://www.w3.org/TR/PNG/#5PNG-file-signature
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private decodeSignature(): void {
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for (let i = 0; i < pngSignature.length; i++) {
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if (this.readUint8() !== pngSignature[i]) {
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throw new Error(
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`wrong PNG signature. Byte at ${i} should be ${pngSignature[i]}.`,
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);
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}
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}
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}
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// https://www.w3.org/TR/PNG/#5Chunk-layout
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private decodeChunk(): void {
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const length = this.readUint32();
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const type = this.readChars(4);
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const offset = this.offset;
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switch (type) {
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// 11.2 Critical chunks
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case 'IHDR': // 11.2.2 IHDR Image header
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this.decodeIHDR();
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break;
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case 'PLTE': // 11.2.3 PLTE Palette
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this.decodePLTE(length);
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break;
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case 'IDAT': // 11.2.4 IDAT Image data
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this.decodeIDAT(length);
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break;
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case 'IEND': // 11.2.5 IEND Image trailer
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this._end = true;
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break;
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// 11.3 Ancillary chunks
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case 'tRNS': // 11.3.2.1 tRNS Transparency
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this.decodetRNS(length);
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break;
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case 'tEXt': // 11.3.4.3 tEXt Textual data
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this.decodetEXt(length);
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break;
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case 'pHYs': // 11.3.5.3 pHYs Physical pixel dimensions
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this.decodepHYs();
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break;
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default:
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this.skip(length);
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break;
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}
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if (this.offset - offset !== length) {
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throw new Error(`Length mismatch while decoding chunk ${type}`);
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}
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if (this._checkCrc) {
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const expectedCrc = this.readUint32();
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const crcLength = length + 4; // includes type
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const actualCrc = crc(
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new Uint8Array(
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this.buffer,
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this.byteOffset + this.offset - crcLength - 4,
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crcLength,
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),
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crcLength,
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); // "- 4" because we already advanced by reading the CRC
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if (actualCrc !== expectedCrc) {
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throw new Error(
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`CRC mismatch for chunk ${type}. Expected ${expectedCrc}, found ${actualCrc}`,
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);
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}
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} else {
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this.skip(4);
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}
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}
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// https://www.w3.org/TR/PNG/#11IHDR
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private decodeIHDR(): void {
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const image = this._png;
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image.width = this.readUint32();
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image.height = this.readUint32();
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image.depth = checkBitDepth(this.readUint8());
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const colorType: ColorType = this.readUint8();
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this._colorType = colorType;
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let channels: number;
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switch (colorType) {
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case ColorType.GREYSCALE:
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channels = 1;
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break;
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case ColorType.TRUECOLOUR:
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channels = 3;
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break;
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case ColorType.INDEXED_COLOUR:
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channels = 1;
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break;
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case ColorType.GREYSCALE_ALPHA:
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channels = 2;
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break;
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case ColorType.TRUECOLOUR_ALPHA:
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channels = 4;
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break;
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default:
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throw new Error(`Unknown color type: ${colorType}`);
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}
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this._png.channels = channels;
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this._compressionMethod = this.readUint8();
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if (this._compressionMethod !== CompressionMethod.DEFLATE) {
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throw new Error(
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`Unsupported compression method: ${this._compressionMethod}`,
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);
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}
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this._filterMethod = this.readUint8();
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this._interlaceMethod = this.readUint8();
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}
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// https://www.w3.org/TR/PNG/#11PLTE
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private decodePLTE(length: number): void {
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if (length % 3 !== 0) {
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throw new RangeError(
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`PLTE field length must be a multiple of 3. Got ${length}`,
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);
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}
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const l = length / 3;
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this._hasPalette = true;
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const palette: IndexedColors = [];
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this._palette = palette;
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for (let i = 0; i < l; i++) {
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palette.push([this.readUint8(), this.readUint8(), this.readUint8()]);
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}
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}
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// https://www.w3.org/TR/PNG/#11IDAT
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private decodeIDAT(length: number): void {
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this._inflator.push(
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new Uint8Array(this.buffer, this.offset + this.byteOffset, length),
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false,
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);
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this.skip(length);
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}
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// https://www.w3.org/TR/PNG/#11tRNS
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private decodetRNS(length: number): void {
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// TODO: support other color types.
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if (this._colorType === 3) {
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if (length > this._palette.length) {
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throw new Error(
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`tRNS chunk contains more alpha values than there are palette colors (${length} vs ${this._palette.length})`,
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);
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}
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let i = 0;
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for (; i < length; i++) {
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const alpha = this.readByte();
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this._palette[i].push(alpha);
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}
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for (; i < this._palette.length; i++) {
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this._palette[i].push(255);
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}
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}
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}
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// https://www.w3.org/TR/PNG/#11tEXt
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private decodetEXt(length: number): void {
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let keyword = '';
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let char;
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while ((char = this.readChar()) !== NULL) {
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keyword += char;
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}
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this._png.text[keyword] = this.readChars(length - keyword.length - 1);
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}
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// https://www.w3.org/TR/PNG/#11pHYs
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private decodepHYs(): void {
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const ppuX = this.readUint32();
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const ppuY = this.readUint32();
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const unitSpecifier = this.readByte();
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this._png.resolution = { x: ppuX, y: ppuY, unit: unitSpecifier };
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}
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private decodeImage(): void {
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this._inflator.push(empty, true);
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if (this._inflator.err) {
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throw new Error(
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`Error while decompressing the data: ${this._inflator.err}`,
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);
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}
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const data = this._inflator.result;
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if (this._filterMethod !== FilterMethod.ADAPTIVE) {
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throw new Error(`Filter method ${this._filterMethod} not supported`);
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}
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if (this._interlaceMethod === InterlaceMethod.NO_INTERLACE) {
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this.decodeInterlaceNull(data as Uint8Array);
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} else {
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throw new Error(
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`Interlace method ${this._interlaceMethod} not supported`,
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);
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}
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}
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private decodeInterlaceNull(data: PNGDataArray): void {
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const height = this._png.height;
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const bytesPerPixel = (this._png.channels * this._png.depth) / 8;
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const bytesPerLine = this._png.width * bytesPerPixel;
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const newData = new Uint8Array(this._png.height * bytesPerLine);
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let prevLine = empty;
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let offset = 0;
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let currentLine;
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let newLine;
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for (let i = 0; i < height; i++) {
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currentLine = data.subarray(offset + 1, offset + 1 + bytesPerLine);
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newLine = newData.subarray(i * bytesPerLine, (i + 1) * bytesPerLine);
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switch (data[offset]) {
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case 0:
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unfilterNone(currentLine, newLine, bytesPerLine);
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break;
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case 1:
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unfilterSub(currentLine, newLine, bytesPerLine, bytesPerPixel);
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break;
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case 2:
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unfilterUp(currentLine, newLine, prevLine, bytesPerLine);
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break;
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case 3:
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unfilterAverage(
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currentLine,
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newLine,
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prevLine,
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bytesPerLine,
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bytesPerPixel,
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);
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break;
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case 4:
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unfilterPaeth(
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currentLine,
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newLine,
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prevLine,
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bytesPerLine,
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bytesPerPixel,
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);
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break;
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default:
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throw new Error(`Unsupported filter: ${data[offset]}`);
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}
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prevLine = newLine;
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offset += bytesPerLine + 1;
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}
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if (this._hasPalette) {
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this._png.palette = this._palette;
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}
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if (this._png.depth === 16) {
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const uint16Data = new Uint16Array(newData.buffer);
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if (osIsLittleEndian) {
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for (let k = 0; k < uint16Data.length; k++) {
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// PNG is always big endian. Swap the bytes.
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uint16Data[k] = swap16(uint16Data[k]);
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}
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}
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this._png.data = uint16Data;
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} else {
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this._png.data = newData;
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}
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}
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}
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function unfilterNone(
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currentLine: PNGDataArray,
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newLine: PNGDataArray,
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bytesPerLine: number,
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): void {
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for (let i = 0; i < bytesPerLine; i++) {
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newLine[i] = currentLine[i];
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}
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}
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function unfilterSub(
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currentLine: PNGDataArray,
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newLine: PNGDataArray,
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bytesPerLine: number,
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bytesPerPixel: number,
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): void {
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let i = 0;
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for (; i < bytesPerPixel; i++) {
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// just copy first bytes
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newLine[i] = currentLine[i];
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}
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for (; i < bytesPerLine; i++) {
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newLine[i] = (currentLine[i] + newLine[i - bytesPerPixel]) & 0xff;
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}
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}
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function unfilterUp(
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currentLine: PNGDataArray,
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newLine: PNGDataArray,
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prevLine: PNGDataArray,
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bytesPerLine: number,
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): void {
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let i = 0;
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if (prevLine.length === 0) {
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// just copy bytes for first line
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for (; i < bytesPerLine; i++) {
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newLine[i] = currentLine[i];
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}
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} else {
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for (; i < bytesPerLine; i++) {
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newLine[i] = (currentLine[i] + prevLine[i]) & 0xff;
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}
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}
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}
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function unfilterAverage(
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currentLine: PNGDataArray,
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newLine: PNGDataArray,
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prevLine: PNGDataArray,
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bytesPerLine: number,
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bytesPerPixel: number,
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): void {
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let i = 0;
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if (prevLine.length === 0) {
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for (; i < bytesPerPixel; i++) {
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newLine[i] = currentLine[i];
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}
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for (; i < bytesPerLine; i++) {
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newLine[i] = (currentLine[i] + (newLine[i - bytesPerPixel] >> 1)) & 0xff;
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}
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} else {
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for (; i < bytesPerPixel; i++) {
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newLine[i] = (currentLine[i] + (prevLine[i] >> 1)) & 0xff;
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}
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for (; i < bytesPerLine; i++) {
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newLine[i] =
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(currentLine[i] + ((newLine[i - bytesPerPixel] + prevLine[i]) >> 1)) &
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0xff;
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}
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}
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}
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function unfilterPaeth(
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currentLine: PNGDataArray,
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newLine: PNGDataArray,
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prevLine: PNGDataArray,
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bytesPerLine: number,
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bytesPerPixel: number,
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): void {
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let i = 0;
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if (prevLine.length === 0) {
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for (; i < bytesPerPixel; i++) {
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newLine[i] = currentLine[i];
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}
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for (; i < bytesPerLine; i++) {
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newLine[i] = (currentLine[i] + newLine[i - bytesPerPixel]) & 0xff;
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}
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} else {
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for (; i < bytesPerPixel; i++) {
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newLine[i] = (currentLine[i] + prevLine[i]) & 0xff;
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}
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for (; i < bytesPerLine; i++) {
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newLine[i] =
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(currentLine[i] +
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paethPredictor(
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newLine[i - bytesPerPixel],
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prevLine[i],
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prevLine[i - bytesPerPixel],
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)) &
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0xff;
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}
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}
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}
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function paethPredictor(a: number, b: number, c: number): number {
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const p = a + b - c;
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const pa = Math.abs(p - a);
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const pb = Math.abs(p - b);
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const pc = Math.abs(p - c);
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if (pa <= pb && pa <= pc) return a;
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else if (pb <= pc) return b;
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else return c;
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}
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function swap16(val: number): number {
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return ((val & 0xff) << 8) | ((val >> 8) & 0xff);
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}
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function checkBitDepth(value: number): BitDepth {
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if (
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value !== 1 &&
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value !== 2 &&
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value !== 4 &&
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value !== 8 &&
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value !== 16
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) {
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throw new Error(`invalid bit depth: ${value}`);
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}
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return value;
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}
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