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denoland-deno/js/text_encoding.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
// The following code is based off of text-encoding at:
// https://github.com/inexorabletash/text-encoding
//
// Anyone is free to copy, modify, publish, use, compile, sell, or
// distribute this software, either in source code form or as a compiled
// binary, for any purpose, commercial or non-commercial, and by any
// means.
//
// In jurisdictions that recognize copyright laws, the author or authors
// of this software dedicate any and all copyright interest in the
// software to the public domain. We make this dedication for the benefit
// of the public at large and to the detriment of our heirs and
// successors. We intend this dedication to be an overt act of
// relinquishment in perpetuity of all present and future rights to this
// software under copyright law.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
// OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
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import * as base64 from "base64-js";
import * as domTypes from "./dom_types";
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import { DenoError, ErrorKind } from "./errors";
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/** Decodes a string of data which has been encoded using base-64. */
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export function atob(s: string): string {
const rem = s.length % 4;
// base64-js requires length exactly times of 4
if (rem > 0) {
s = s.padEnd(s.length + (4 - rem), "=");
}
let byteArray;
try {
byteArray = base64.toByteArray(s);
} catch (_) {
throw new DenoError(
ErrorKind.InvalidInput,
"The string to be decoded is not correctly encoded"
);
}
let result = "";
for (let i = 0; i < byteArray.length; i++) {
result += String.fromCharCode(byteArray[i]);
}
return result;
}
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/** Creates a base-64 ASCII string from the input string. */
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export function btoa(s: string): string {
const byteArray = [];
for (let i = 0; i < s.length; i++) {
const charCode = s[i].charCodeAt(0);
if (charCode > 0xff) {
throw new DenoError(
ErrorKind.InvalidInput,
"The string to be encoded contains characters " +
"outside of the Latin1 range."
);
}
byteArray.push(charCode);
}
const result = base64.fromByteArray(Uint8Array.from(byteArray));
return result;
}
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interface DecoderOptions {
fatal?: boolean;
}
interface Decoder {
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handler(stream: Stream, byte: number): number | null;
}
interface Encoder {
handler(codePoint: number): number | number[];
}
const CONTINUE = null;
const END_OF_STREAM = -1;
const FINISHED = -1;
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// The encodingMap is a hash of labels that are indexed by the conical
// encoding.
const encodingMap: { [key: string]: string[] } = {
"windows-1252": [
"ansi_x3.4-1968",
"ascii",
"cp1252",
"cp819",
"csisolatin1",
"ibm819",
"iso-8859-1",
"iso-ir-100",
"iso8859-1",
"iso88591",
"iso_8859-1",
"iso_8859-1:1987",
"l1",
"latin1",
"us-ascii",
"windows-1252",
"x-cp1252"
],
"utf-8": ["unicode-1-1-utf-8", "utf-8", "utf8"]
};
// We convert these into a Map where every label resolves to its canonical
// encoding type.
const encodings = new Map<string, string>();
for (const key of Object.keys(encodingMap)) {
const labels = encodingMap[key];
for (const label of labels) {
encodings.set(label, key);
}
}
// A map of functions that return new instances of a decoder indexed by the
// encoding type.
const decoders = new Map<string, (options: DecoderOptions) => Decoder>();
decoders.set("utf-8", (options: DecoderOptions) => {
return new UTF8Decoder(options);
});
// Single byte decoders are an array of code point lookups
const encodingIndexes = new Map<string, number[]>();
// tslint:disable:max-line-length
// prettier-ignore
encodingIndexes.set("windows-1252", [8364,129,8218,402,8222,8230,8224,8225,710,8240,352,8249,338,141,381,143,144,8216,8217,8220,8221,8226,8211,8212,732,8482,353,8250,339,157,382,376,160,161,162,163,164,165,166,167,168,169,170,171,172,173,174,175,176,177,178,179,180,181,182,183,184,185,186,187,188,189,190,191,192,193,194,195,196,197,198,199,200,201,202,203,204,205,206,207,208,209,210,211,212,213,214,215,216,217,218,219,220,221,222,223,224,225,226,227,228,229,230,231,232,233,234,235,236,237,238,239,240,241,242,243,244,245,246,247,248,249,250,251,252,253,254,255]);
// tslint:enable
for (const [key, index] of encodingIndexes) {
decoders.set(key, (options: DecoderOptions) => {
return new SingleByteDecoder(index, options);
});
}
function codePointsToString(codePoints: number[]): string {
let s = "";
for (const cp of codePoints) {
s += String.fromCodePoint(cp);
}
return s;
}
function decoderError(fatal: boolean): number | never {
if (fatal) {
throw new TypeError("Decoder error.");
}
return 0xfffd; // default code point
}
function inRange(a: number, min: number, max: number) {
return min <= a && a <= max;
}
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function isASCIIByte(a: number) {
return inRange(a, 0x00, 0x7f);
}
function stringToCodePoints(input: string): number[] {
const u: number[] = [];
for (const c of input) {
u.push(c.codePointAt(0)!);
}
return u;
}
class Stream {
private _tokens: number[];
constructor(tokens: number[] | Uint8Array) {
this._tokens = [].slice.call(tokens);
this._tokens.reverse();
}
endOfStream(): boolean {
return !this._tokens.length;
}
read(): number {
return !this._tokens.length ? END_OF_STREAM : this._tokens.pop()!;
}
prepend(token: number | number[]): void {
if (Array.isArray(token)) {
while (token.length) {
this._tokens.push(token.pop()!);
}
} else {
this._tokens.push(token);
}
}
push(token: number | number[]): void {
if (Array.isArray(token)) {
while (token.length) {
this._tokens.unshift(token.shift()!);
}
} else {
this._tokens.unshift(token);
}
}
}
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class SingleByteDecoder implements Decoder {
private _index: number[];
private _fatal: boolean;
constructor(index: number[], options: DecoderOptions) {
this._fatal = options.fatal || false;
this._index = index;
}
handler(stream: Stream, byte: number): number {
if (byte === END_OF_STREAM) {
return FINISHED;
}
if (isASCIIByte(byte)) {
return byte;
}
const codePoint = this._index[byte - 0x80];
if (codePoint == null) {
return decoderError(this._fatal);
}
return codePoint;
}
}
class UTF8Decoder implements Decoder {
private _codePoint = 0;
private _bytesSeen = 0;
private _bytesNeeded = 0;
private _fatal: boolean;
private _lowerBoundary = 0x80;
private _upperBoundary = 0xbf;
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constructor(options: DecoderOptions) {
this._fatal = options.fatal || false;
}
handler(stream: Stream, byte: number): number | null {
if (byte === END_OF_STREAM && this._bytesNeeded !== 0) {
this._bytesNeeded = 0;
return decoderError(this._fatal);
}
if (byte === END_OF_STREAM) {
return FINISHED;
}
if (this._bytesNeeded === 0) {
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if (isASCIIByte(byte)) {
// Single byte code point
return byte;
} else if (inRange(byte, 0xc2, 0xdf)) {
// Two byte code point
this._bytesNeeded = 1;
this._codePoint = byte & 0x1f;
} else if (inRange(byte, 0xe0, 0xef)) {
// Three byte code point
if (byte === 0xe0) {
this._lowerBoundary = 0xa0;
} else if (byte === 0xed) {
this._upperBoundary = 0x9f;
}
this._bytesNeeded = 2;
this._codePoint = byte & 0xf;
} else if (inRange(byte, 0xf0, 0xf4)) {
if (byte === 0xf0) {
this._lowerBoundary = 0x90;
} else if (byte === 0xf4) {
this._upperBoundary = 0x8f;
}
this._bytesNeeded = 3;
this._codePoint = byte & 0x7;
} else {
return decoderError(this._fatal);
}
return CONTINUE;
}
if (!inRange(byte, this._lowerBoundary, this._upperBoundary)) {
// Byte out of range, so encoding error
this._codePoint = 0;
this._bytesNeeded = 0;
this._bytesSeen = 0;
stream.prepend(byte);
return decoderError(this._fatal);
}
this._lowerBoundary = 0x80;
this._upperBoundary = 0xbf;
this._codePoint = (this._codePoint << 6) | (byte & 0x3f);
this._bytesSeen++;
if (this._bytesSeen !== this._bytesNeeded) {
return CONTINUE;
}
const codePoint = this._codePoint;
this._codePoint = 0;
this._bytesNeeded = 0;
this._bytesSeen = 0;
return codePoint;
}
}
class UTF8Encoder implements Encoder {
handler(codePoint: number): number | number[] {
if (codePoint === END_OF_STREAM) {
return FINISHED;
}
if (inRange(codePoint, 0x00, 0x7f)) {
return codePoint;
}
let count: number;
let offset: number;
if (inRange(codePoint, 0x0080, 0x07ff)) {
count = 1;
offset = 0xc0;
} else if (inRange(codePoint, 0x0800, 0xffff)) {
count = 2;
offset = 0xe0;
} else if (inRange(codePoint, 0x10000, 0x10ffff)) {
count = 3;
offset = 0xf0;
} else {
throw TypeError(`Code point out of range: \\x${codePoint.toString(16)}`);
}
const bytes = [(codePoint >> (6 * count)) + offset];
while (count > 0) {
const temp = codePoint >> (6 * (count - 1));
bytes.push(0x80 | (temp & 0x3f));
count--;
}
return bytes;
}
}
export interface TextDecodeOptions {
stream?: false;
}
export interface TextDecoderOptions {
fatal?: boolean;
ignoreBOM?: false;
}
export class TextDecoder {
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private _encoding: string;
/** Returns encoding's name, lowercased. */
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get encoding(): string {
return this._encoding;
}
/** Returns `true` if error mode is "fatal", and `false` otherwise. */
readonly fatal: boolean = false;
/** Returns `true` if ignore BOM flag is set, and `false` otherwise. */
readonly ignoreBOM = false;
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constructor(label = "utf-8", options: TextDecoderOptions = { fatal: false }) {
if (options.ignoreBOM) {
throw new TypeError("Ignoring the BOM not supported.");
}
if (options.fatal) {
this.fatal = true;
}
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label = String(label)
.trim()
.toLowerCase();
const encoding = encodings.get(label);
if (!encoding) {
throw new RangeError(
`The encoding label provided ('${label}') is invalid.`
);
}
if (!decoders.has(encoding)) {
throw new TypeError(`Internal decoder ('${encoding}') not found.`);
}
this._encoding = encoding;
}
/** Returns the result of running encoding's decoder. */
decode(
input?: domTypes.BufferSource,
options: TextDecodeOptions = { stream: false }
): string {
if (options.stream) {
throw new TypeError("Stream not supported.");
}
let bytes: Uint8Array;
if (typeof input === "object" && input instanceof ArrayBuffer) {
bytes = new Uint8Array(input);
} else if (
typeof input === "object" &&
"buffer" in input &&
input.buffer instanceof ArrayBuffer
) {
bytes = new Uint8Array(input.buffer, input.byteOffset, input.byteLength);
} else {
bytes = new Uint8Array(0);
}
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const decoder = decoders.get(this._encoding)!({ fatal: this.fatal });
const inputStream = new Stream(bytes);
const output: number[] = [];
while (true) {
const result = decoder.handler(inputStream, inputStream.read());
if (result === FINISHED) {
break;
}
if (result !== CONTINUE) {
output.push(result);
}
}
if (output.length > 0 && output[0] === 0xfeff) {
output.shift();
}
return codePointsToString(output);
}
}
export class TextEncoder {
/** Returns "utf-8". */
readonly encoding = "utf-8";
/** Returns the result of running UTF-8's encoder. */
encode(input = ""): Uint8Array {
const encoder = new UTF8Encoder();
const inputStream = new Stream(stringToCodePoints(input));
const output: number[] = [];
while (true) {
const result = encoder.handler(inputStream.read());
if (result === FINISHED) {
break;
}
if (Array.isArray(result)) {
output.push.apply(output, result);
} else {
output.push(result);
}
}
return new Uint8Array(output);
}
}