swc/crates/swc_bundler/tests/.cache/deno/115e402f22b76a4d9cf60ca6db4f6eb2d8e968aa.ts

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// Loaded from https://deno.land/x/deno_image@v0.0.3/lib/decoders/fast-png/PNGEncoder.ts
import { IOBuffer } from './iobuffer/IOBuffer.ts';
import { deflate } from './pako/index.js';
import { pngSignature, crc } from './common.ts';
import {
DeflateFunctionOptions,
IPNGEncoderOptions,
IImageData,
IDecodedPNG,
PNGDataArray,
BitDepth,
} from './types.ts';
import {
ColorType,
CompressionMethod,
FilterMethod,
InterlaceMethod,
} from './internalTypes.ts';
const defaultZlibOptions: DeflateFunctionOptions = {
level: 3,
};
export default class PNGEncoder extends IOBuffer {
private _png: IDecodedPNG;
private _zlibOptions: DeflateFunctionOptions;
private _colorType: ColorType;
public constructor(data: IImageData, options: IPNGEncoderOptions = {}) {
super();
this._colorType = ColorType.UNKNOWN;
this._zlibOptions = Object.assign({}, defaultZlibOptions, options.zlib);
this._png = this._checkData(data);
this.setBigEndian();
}
public encode(): Uint8Array {
this.encodeSignature();
this.encodeIHDR();
this.encodeData();
this.encodeIEND();
return this.toArray();
}
// https://www.w3.org/TR/PNG/#5PNG-file-signature
private encodeSignature(): void {
this.writeBytes(pngSignature);
}
// https://www.w3.org/TR/PNG/#11IHDR
private encodeIHDR(): void {
this.writeUint32(13);
this.writeChars('IHDR');
this.writeUint32(this._png.width);
this.writeUint32(this._png.height);
this.writeByte(this._png.depth);
this.writeByte(this._colorType);
this.writeByte(CompressionMethod.DEFLATE);
this.writeByte(FilterMethod.ADAPTIVE);
this.writeByte(InterlaceMethod.NO_INTERLACE);
this.writeCrc(17);
}
// https://www.w3.org/TR/PNG/#11IEND
private encodeIEND(): void {
this.writeUint32(0);
this.writeChars('IEND');
this.writeCrc(4);
}
// https://www.w3.org/TR/PNG/#11IDAT
private encodeIDAT(data: PNGDataArray): void {
this.writeUint32(data.length);
this.writeChars('IDAT');
this.writeBytes(data);
this.writeCrc(data.length + 4);
}
private encodeData(): void {
const { width, height, channels, depth, data } = this._png;
const slotsPerLine = channels * width;
const newData = new IOBuffer().setBigEndian();
let offset = 0;
for (let i = 0; i < height; i++) {
newData.writeByte(0); // no filter
/* istanbul ignore else */
if (depth === 8) {
offset = writeDataBytes(data, newData, slotsPerLine, offset);
} else if (depth === 16) {
offset = writeDataUint16(data, newData, slotsPerLine, offset);
} else {
throw new Error('unreachable');
}
}
const buffer = newData.toArray();
const compressed = <Uint8Array>deflate(buffer, this._zlibOptions);
this.encodeIDAT(compressed);
}
private _checkData(data: IImageData): IDecodedPNG {
const { colorType, channels, depth } = getColorType(data);
const png: IDecodedPNG = {
width: checkInteger(data.width, 'width'),
height: checkInteger(data.height, 'height'),
channels: channels,
data: data.data,
depth: depth,
text: {},
};
this._colorType = colorType;
const expectedSize = png.width * png.height * channels;
if (png.data.length !== expectedSize) {
throw new RangeError(
`wrong data size. Found ${png.data.length}, expected ${expectedSize}`,
);
}
return png;
}
private writeCrc(length: number): void {
this.writeUint32(
crc(
new Uint8Array(
this.buffer,
this.byteOffset + this.offset - length,
length,
),
length,
),
);
}
}
function checkInteger(value: number, name: string): number {
if (Number.isInteger(value) && value > 0) {
return value;
}
throw new TypeError(`${name} must be a positive integer`);
}
function getColorType(
data: IImageData,
): { channels: number; depth: BitDepth; colorType: ColorType } {
const { channels = 4, depth = 8 } = data;
if (channels !== 4 && channels !== 3 && channels !== 2 && channels !== 1) {
throw new RangeError(`unsupported number of channels: ${channels}`);
}
if (depth !== 8 && depth !== 16) {
throw new RangeError(`unsupported bit depth: ${depth}`);
}
const returnValue = { channels, depth, colorType: ColorType.UNKNOWN };
switch (channels) {
case 4:
returnValue.colorType = ColorType.TRUECOLOUR_ALPHA;
break;
case 3:
returnValue.colorType = ColorType.TRUECOLOUR;
break;
case 1:
returnValue.colorType = ColorType.GREYSCALE;
break;
case 2:
returnValue.colorType = ColorType.GREYSCALE_ALPHA;
break;
default:
throw new Error(`unsupported number of channels: ${channels}`);
}
return returnValue;
}
function writeDataBytes(
data: PNGDataArray,
newData: IOBuffer,
slotsPerLine: number,
offset: number,
): number {
for (let j = 0; j < slotsPerLine; j++) {
newData.writeByte(data[offset++]);
}
return offset;
}
function writeDataUint16(
data: PNGDataArray,
newData: IOBuffer,
slotsPerLine: number,
offset: number,
): number {
for (let j = 0; j < slotsPerLine; j++) {
newData.writeUint16(data[offset++]);
}
return offset;
}