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denoland-deno/std/encoding/ascii85.ts

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
/** This module is browser compatible. */
export type Ascii85Standard = "Adobe" | "btoa" | "RFC 1924" | "Z85";
/**
* encoding/decoding options
* @property standard - characterset and delimeter (if supported and used). Defaults to Adobe
* @property delimeter - whether to use a delimeter (if supported) - "<~" and "~>" by default
*/
export interface Ascii85Options {
standard?: Ascii85Standard;
delimiter?: boolean;
}
const rfc1924 =
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz!#$%&()*+-;<=>?@^_`{|}~";
const Z85 =
"0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ.-:+=^!/*?&<>()[]{}@%$#";
/**
* Encodes a given Uint8Array into ascii85, supports multiple standards
* @param uint8 input to encode
* @param [options] encoding options
* @param [options.standard=Adobe] encoding standard (Adobe, btoa, RFC 1924 or Z85)
* @param [options.delimeter] whether to use a delimeter, if supported by encoding standard
*/
export function encode(uint8: Uint8Array, options?: Ascii85Options): string {
const standard = options?.standard ?? "Adobe";
let output: string[] = [],
v: number,
n = 0,
difference = 0;
if (uint8.length % 4 !== 0) {
const tmp = uint8;
difference = 4 - (tmp.length % 4);
uint8 = new Uint8Array(tmp.length + difference);
uint8.set(tmp);
}
const view = new DataView(uint8.buffer);
for (let i = 0, len = uint8.length; i < len; i += 4) {
v = view.getUint32(i);
// Adobe and btoa standards compress 4 zeroes to single "z" character
if (
(standard === "Adobe" || standard === "btoa") &&
v === 0 &&
i < len - difference - 3
) {
output[n++] = "z";
continue;
}
// btoa compresses 4 spaces - that is, bytes equal to 32 - into single "y" character
if (standard === "btoa" && v === 538976288) {
output[n++] = "y";
continue;
}
for (let j = 4; j >= 0; j--) {
output[n + j] = String.fromCharCode((v % 85) + 33);
v = Math.trunc(v / 85);
}
n += 5;
}
switch (standard) {
case "Adobe":
if (options?.delimiter) {
return `<~${output.slice(0, output.length - difference).join("")}~>`;
}
break;
case "btoa":
if (options?.delimiter) {
return `xbtoa Begin\n${
output
.slice(0, output.length - difference)
.join("")
}\nxbtoa End`;
}
break;
case "RFC 1924":
output = output.map((val) => rfc1924[val.charCodeAt(0) - 33]);
break;
case "Z85":
output = output.map((val) => Z85[val.charCodeAt(0) - 33]);
break;
}
return output.slice(0, output.length - difference).join("");
}
/**
* Decodes a given ascii85 encoded string.
* @param ascii85 input to decode
* @param [options] decoding options
* @param [options.standard=Adobe] encoding standard used in the input string (Adobe, btoa, RFC 1924 or Z85)
*/
export function decode(ascii85: string, options?: Ascii85Options): Uint8Array {
const encoding = options?.standard ?? "Adobe";
// translate all encodings to most basic adobe/btoa one and decompress some special characters ("z" and "y")
switch (encoding) {
case "Adobe":
ascii85 = ascii85.replaceAll(/(<~|~>)/g, "").replaceAll("z", "!!!!!");
break;
case "btoa":
ascii85 = ascii85
.replaceAll(/(xbtoa Begin|xbtoa End|\n)/g, "")
.replaceAll("z", "!!!!!")
.replaceAll("y", "+<VdL");
break;
case "RFC 1924":
ascii85 = ascii85.replaceAll(
/./g,
(match) => String.fromCharCode(rfc1924.indexOf(match) + 33),
);
break;
case "Z85":
ascii85 = ascii85.replaceAll(
/./g,
(match) => String.fromCharCode(Z85.indexOf(match) + 33),
);
break;
}
//remove all invalid characters
ascii85 = ascii85.replaceAll(/[^!-u]/g, "");
const len = ascii85.length,
output = new Uint8Array(len + 4 - (len % 4));
const view = new DataView(output.buffer);
let v = 0,
n = 0,
max = 0;
for (let i = 0; i < len;) {
for (max += 5; i < max; i++) {
v = v * 85 + (i < len ? ascii85.charCodeAt(i) : 117) - 33;
}
view.setUint32(n, v);
v = 0;
n += 4;
}
return output.slice(0, Math.trunc(len * 0.8));
}