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denoland-deno/std/io/streams_test.ts

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// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license.
import { assertEquals, assert } from "../testing/asserts.ts";
import { fromStreamWriter, fromStreamReader } from "./streams.ts";
function repeat(c: string, bytes: number): Uint8Array {
assertEquals(c.length, 1);
const ui8 = new Uint8Array(bytes);
ui8.fill(c.charCodeAt(0));
return ui8;
}
Deno.test("toWriterCheck", async function (): Promise<void> {
const written: string[] = [];
const chunks: string[] = ["hello", "deno", "land"];
const writableStream = new WritableStream({
write(chunk): void {
const decoder = new TextDecoder();
written.push(decoder.decode(chunk));
},
});
const encoder = new TextEncoder();
const writer = fromStreamWriter(writableStream.getWriter());
for (const chunk of chunks) {
const n = await writer.write(encoder.encode(chunk));
// stream writers always write all the bytes
assertEquals(n, chunk.length);
}
assertEquals(written, chunks);
});
Deno.test("toReaderCheck", async function (): Promise<void> {
const chunks: string[] = ["hello", "deno", "land"];
const expected = chunks.slice();
const readChunks: Uint8Array[] = [];
const readableStream = new ReadableStream({
pull(controller): void {
const encoder = new TextEncoder();
const chunk = chunks.shift();
if (!chunk) return controller.close();
controller.enqueue(encoder.encode(chunk));
},
});
const decoder = new TextDecoder();
const reader = fromStreamReader(readableStream.getReader());
let i = 0;
while (true) {
const b = new Uint8Array(1024);
const n = await reader.read(b);
if (n === null) break;
readChunks.push(b.subarray(0, n));
assert(i < expected.length);
i++;
}
assertEquals(
expected,
readChunks.map((chunk) => decoder.decode(chunk)),
);
});
Deno.test("toReaderBigChunksCheck", async function (): Promise<void> {
const bufSize = 1024;
const chunkSize = 3 * bufSize;
const writer = new Deno.Buffer();
// A readable stream can enqueue chunks bigger than Copy bufSize
// Reader returned by toReader should enqueue exceeding bytes
const chunks: string[] = [
"a".repeat(chunkSize),
"b".repeat(chunkSize),
"c".repeat(chunkSize),
];
const expected = chunks.slice();
const readableStream = new ReadableStream({
pull(controller): void {
const encoder = new TextEncoder();
const chunk = chunks.shift();
if (!chunk) return controller.close();
controller.enqueue(encoder.encode(chunk));
},
});
const reader = fromStreamReader(readableStream.getReader());
const n = await Deno.copy(reader, writer, { bufSize });
const expectedWritten = chunkSize * expected.length;
assertEquals(n, chunkSize * expected.length);
assertEquals(writer.length, expectedWritten);
});
Deno.test("toReaderBigIrregularChunksCheck", async function (): Promise<void> {
const bufSize = 1024;
const chunkSize = 3 * bufSize;
const writer = new Deno.Buffer();
// A readable stream can enqueue chunks bigger than Copy bufSize
// Reader returned by toReader should enqueue exceeding bytes
const chunks: Uint8Array[] = [
repeat("a", chunkSize),
repeat("b", chunkSize + 253),
repeat("c", chunkSize + 8),
];
const expected = new Uint8Array(
chunks
.slice()
.map((chunk) => [...chunk])
.flat(),
);
const readableStream = new ReadableStream({
pull(controller): void {
const chunk = chunks.shift();
if (!chunk) return controller.close();
controller.enqueue(chunk);
},
});
const reader = fromStreamReader(readableStream.getReader());
const n = await Deno.copy(reader, writer, { bufSize });
assertEquals(n, expected.length);
assertEquals(expected, writer.bytes());
});