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denoland-deno/cli/js/web/blob.ts

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import { TextDecoder, TextEncoder } from "./text_encoding.ts";
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import { build } from "../build.ts";
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import { ReadableStreamImpl } from "./streams/readable_stream.ts";
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export const bytesSymbol = Symbol("bytes");
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export function containsOnlyASCII(str: string): boolean {
if (typeof str !== "string") {
return false;
}
return /^[\x00-\x7F]*$/.test(str);
}
function convertLineEndingsToNative(s: string): string {
const nativeLineEnd = build.os == "windows" ? "\r\n" : "\n";
let position = 0;
let collectionResult = collectSequenceNotCRLF(s, position);
let token = collectionResult.collected;
position = collectionResult.newPosition;
let result = token;
while (position < s.length) {
const c = s.charAt(position);
if (c == "\r") {
result += nativeLineEnd;
position++;
if (position < s.length && s.charAt(position) == "\n") {
position++;
}
} else if (c == "\n") {
position++;
result += nativeLineEnd;
}
collectionResult = collectSequenceNotCRLF(s, position);
token = collectionResult.collected;
position = collectionResult.newPosition;
result += token;
}
return result;
}
function collectSequenceNotCRLF(
s: string,
position: number
): { collected: string; newPosition: number } {
const start = position;
for (
let c = s.charAt(position);
position < s.length && !(c == "\r" || c == "\n");
c = s.charAt(++position)
);
return { collected: s.slice(start, position), newPosition: position };
}
function toUint8Arrays(
blobParts: BlobPart[],
doNormalizeLineEndingsToNative: boolean
): Uint8Array[] {
const ret: Uint8Array[] = [];
const enc = new TextEncoder();
for (const element of blobParts) {
if (typeof element === "string") {
let str = element;
if (doNormalizeLineEndingsToNative) {
str = convertLineEndingsToNative(element);
}
ret.push(enc.encode(str));
// eslint-disable-next-line @typescript-eslint/no-use-before-define
} else if (element instanceof DenoBlob) {
ret.push(element[bytesSymbol]);
} else if (element instanceof Uint8Array) {
ret.push(element);
} else if (element instanceof Uint16Array) {
const uint8 = new Uint8Array(element.buffer);
ret.push(uint8);
} else if (element instanceof Uint32Array) {
const uint8 = new Uint8Array(element.buffer);
ret.push(uint8);
} else if (ArrayBuffer.isView(element)) {
// Convert view to Uint8Array.
const uint8 = new Uint8Array(element.buffer);
ret.push(uint8);
} else if (element instanceof ArrayBuffer) {
// Create a new Uint8Array view for the given ArrayBuffer.
const uint8 = new Uint8Array(element);
ret.push(uint8);
} else {
ret.push(enc.encode(String(element)));
}
}
return ret;
}
function processBlobParts(
blobParts: BlobPart[],
options: BlobPropertyBag
): Uint8Array {
const normalizeLineEndingsToNative = options.ending === "native";
// ArrayBuffer.transfer is not yet implemented in V8, so we just have to
// pre compute size of the array buffer and do some sort of static allocation
// instead of dynamic allocation.
const uint8Arrays = toUint8Arrays(blobParts, normalizeLineEndingsToNative);
const byteLength = uint8Arrays
.map((u8): number => u8.byteLength)
.reduce((a, b): number => a + b, 0);
const ab = new ArrayBuffer(byteLength);
const bytes = new Uint8Array(ab);
let courser = 0;
for (const u8 of uint8Arrays) {
bytes.set(u8, courser);
courser += u8.byteLength;
}
return bytes;
}
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function getStream(blobBytes: Uint8Array): ReadableStream<ArrayBufferView> {
// TODO: Align to spec https://fetch.spec.whatwg.org/#concept-construct-readablestream
return new ReadableStreamImpl({
type: "bytes",
start: (controller: ReadableByteStreamController): void => {
controller.enqueue(blobBytes);
controller.close();
},
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});
}
async function readBytes(
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reader: ReadableStreamReader<ArrayBufferView>
): Promise<ArrayBuffer> {
const chunks: Uint8Array[] = [];
while (true) {
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const { done, value } = await reader.read();
if (!done && value instanceof Uint8Array) {
chunks.push(value);
} else if (done) {
const size = chunks.reduce((p, i) => p + i.byteLength, 0);
const bytes = new Uint8Array(size);
let offs = 0;
for (const chunk of chunks) {
bytes.set(chunk, offs);
offs += chunk.byteLength;
}
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return bytes;
} else {
throw new TypeError("Invalid reader result.");
}
}
}
// A WeakMap holding blob to byte array mapping.
// Ensures it does not impact garbage collection.
export const blobBytesWeakMap = new WeakMap<Blob, Uint8Array>();
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class DenoBlob implements Blob {
[bytesSymbol]: Uint8Array;
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readonly size: number = 0;
readonly type: string = "";
constructor(blobParts?: BlobPart[], options?: BlobPropertyBag) {
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if (arguments.length === 0) {
this[bytesSymbol] = new Uint8Array();
return;
}
const { ending = "transparent", type = "" } = options ?? {};
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// Normalize options.type.
let normalizedType = type;
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if (!containsOnlyASCII(type)) {
normalizedType = "";
} else {
if (type.length) {
for (let i = 0; i < type.length; ++i) {
const char = type[i];
if (char < "\u0020" || char > "\u007E") {
normalizedType = "";
break;
}
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}
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normalizedType = type.toLowerCase();
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}
}
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const bytes = processBlobParts(blobParts!, { ending, type });
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// Set Blob object's properties.
this[bytesSymbol] = bytes;
this.size = bytes.byteLength;
this.type = normalizedType;
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}
slice(start?: number, end?: number, contentType?: string): DenoBlob {
return new DenoBlob([this[bytesSymbol].slice(start, end)], {
type: contentType || this.type,
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});
}
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stream(): ReadableStream<ArrayBufferView> {
return getStream(this[bytesSymbol]);
}
async text(): Promise<string> {
const reader = getStream(this[bytesSymbol]).getReader();
const decoder = new TextDecoder();
return decoder.decode(await readBytes(reader));
}
arrayBuffer(): Promise<ArrayBuffer> {
return readBytes(getStream(this[bytesSymbol]).getReader());
}
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}
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// we want the Base class name to be the name of the class.
Object.defineProperty(DenoBlob, "name", {
value: "Blob",
configurable: true,
});
export { DenoBlob };