1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-12-25 08:39:09 -05:00
denoland-deno/std/node/_stream/readable_test.ts

490 lines
11 KiB
TypeScript
Raw Normal View History

// Copyright Node.js contributors. All rights reserved. MIT License.
import { Buffer } from "../buffer.ts";
import Readable from "../_stream/readable.ts";
import { once } from "../events.ts";
import { deferred } from "../../async/mod.ts";
import {
assert,
assertEquals,
assertStrictEquals,
} from "../../testing/asserts.ts";
Deno.test("Readable stream from iterator", async () => {
function* generate() {
yield "a";
yield "b";
yield "c";
}
const stream = Readable.from(generate());
const expected = ["a", "b", "c"];
for await (const chunk of stream) {
assertStrictEquals(chunk, expected.shift());
}
});
Deno.test("Readable stream from async iterator", async () => {
async function* generate() {
yield "a";
yield "b";
yield "c";
}
const stream = Readable.from(generate());
const expected = ["a", "b", "c"];
for await (const chunk of stream) {
assertStrictEquals(chunk, expected.shift());
}
});
Deno.test("Readable stream from promise", async () => {
const promises = [
Promise.resolve("a"),
Promise.resolve("b"),
Promise.resolve("c"),
];
const stream = Readable.from(promises);
const expected = ["a", "b", "c"];
for await (const chunk of stream) {
assertStrictEquals(chunk, expected.shift());
}
});
Deno.test("Readable stream from string", async () => {
const string = "abc";
const stream = Readable.from(string);
for await (const chunk of stream) {
assertStrictEquals(chunk, string);
}
});
Deno.test("Readable stream from Buffer", async () => {
const string = "abc";
const stream = Readable.from(Buffer.from(string));
for await (const chunk of stream) {
assertStrictEquals((chunk as Buffer).toString(), string);
}
});
Deno.test("Readable stream gets destroyed on error", async () => {
// deno-lint-ignore require-yield
async function* generate() {
throw new Error("kaboom");
}
const stream = Readable.from(generate());
stream.read();
const [err] = await once(stream, "error");
assertStrictEquals(err.message, "kaboom");
assertStrictEquals(stream.destroyed, true);
});
Deno.test("Readable stream works as Transform stream", async () => {
async function* generate(stream: Readable) {
for await (const chunk of stream) {
yield (chunk as string).toUpperCase();
}
}
const source = new Readable({
objectMode: true,
read() {
this.push("a");
this.push("b");
this.push("c");
this.push(null);
},
});
const stream = Readable.from(generate(source));
const expected = ["A", "B", "C"];
for await (const chunk of stream) {
assertStrictEquals(chunk, expected.shift());
}
});
Deno.test("Readable stream can be paused", () => {
const readable = new Readable();
// _read is a noop, here.
readable._read = () => {};
// Default state of a stream is not "paused"
assert(!readable.isPaused());
// Make the stream start flowing...
readable.on("data", () => {});
// still not paused.
assert(!readable.isPaused());
readable.pause();
assert(readable.isPaused());
readable.resume();
assert(!readable.isPaused());
});
Deno.test("Readable stream sets enconding correctly", () => {
const readable = new Readable({
read() {},
});
readable.setEncoding("utf8");
readable.push(new TextEncoder().encode("DEF"));
readable.unshift(new TextEncoder().encode("ABC"));
assertStrictEquals(readable.read(), "ABCDEF");
});
Deno.test("Readable stream sets encoding correctly", () => {
const readable = new Readable({
read() {},
});
readable.setEncoding("utf8");
readable.push(new TextEncoder().encode("DEF"));
readable.unshift(new TextEncoder().encode("ABC"));
assertStrictEquals(readable.read(), "ABCDEF");
});
Deno.test("Readable stream holds up a big push", async () => {
let readExecuted = 0;
const readExecutedExpected = 3;
const readExpectedExecutions = deferred();
let endExecuted = 0;
const endExecutedExpected = 1;
const endExpectedExecutions = deferred();
const str = "asdfasdfasdfasdfasdf";
const r = new Readable({
highWaterMark: 5,
encoding: "utf8",
});
let reads = 0;
function _read() {
if (reads === 0) {
setTimeout(() => {
r.push(str);
}, 1);
reads++;
} else if (reads === 1) {
const ret = r.push(str);
assertEquals(ret, false);
reads++;
} else {
r.push(null);
}
}
r._read = () => {
readExecuted++;
if (readExecuted == readExecutedExpected) {
readExpectedExecutions.resolve();
}
_read();
};
r.on("end", () => {
endExecuted++;
if (endExecuted == endExecutedExpected) {
endExpectedExecutions.resolve();
}
});
// Push some data in to start.
// We've never gotten any read event at this point.
const ret = r.push(str);
assert(!ret);
let chunk = r.read();
assertEquals(chunk, str);
chunk = r.read();
assertEquals(chunk, null);
r.once("readable", () => {
// This time, we'll get *all* the remaining data, because
// it's been added synchronously, as the read WOULD take
// us below the hwm, and so it triggered a _read() again,
// which synchronously added more, which we then return.
chunk = r.read();
assertEquals(chunk, str + str);
chunk = r.read();
assertEquals(chunk, null);
});
const readTimeout = setTimeout(
() => readExpectedExecutions.reject(),
1000,
);
const endTimeout = setTimeout(
() => endExpectedExecutions.reject(),
1000,
);
await readExpectedExecutions;
await endExpectedExecutions;
clearTimeout(readTimeout);
clearTimeout(endTimeout);
assertEquals(readExecuted, readExecutedExpected);
assertEquals(endExecuted, endExecutedExpected);
});
Deno.test("Readable stream: 'on' event", async () => {
async function* generate() {
yield "a";
yield "b";
yield "c";
}
const stream = Readable.from(generate());
let iterations = 0;
const expected = ["a", "b", "c"];
stream.on("data", (chunk) => {
iterations++;
assertStrictEquals(chunk, expected.shift());
});
await once(stream, "end");
assertStrictEquals(iterations, 3);
});
Deno.test("Readable stream: 'data' event", async () => {
async function* generate() {
yield "a";
yield "b";
yield "c";
}
const stream = Readable.from(generate(), { objectMode: false });
let iterations = 0;
const expected = ["a", "b", "c"];
stream.on("data", (chunk) => {
iterations++;
assertStrictEquals(chunk instanceof Buffer, true);
assertStrictEquals(chunk.toString(), expected.shift());
});
await once(stream, "end");
assertStrictEquals(iterations, 3);
});
Deno.test("Readable stream: 'data' event on non-object", async () => {
async function* generate() {
yield "a";
yield "b";
yield "c";
}
const stream = Readable.from(generate(), { objectMode: false });
let iterations = 0;
const expected = ["a", "b", "c"];
stream.on("data", (chunk) => {
iterations++;
assertStrictEquals(chunk instanceof Buffer, true);
assertStrictEquals(chunk.toString(), expected.shift());
});
await once(stream, "end");
assertStrictEquals(iterations, 3);
});
Deno.test("Readable stream: 'readable' event is emitted but 'read' is not on highWaterMark length exceeded", async () => {
let readableExecuted = 0;
const readableExecutedExpected = 1;
const readableExpectedExecutions = deferred();
const r = new Readable({
highWaterMark: 3,
});
r._read = () => {
throw new Error("_read must not be called");
};
r.push(Buffer.from("blerg"));
setTimeout(function () {
assert(!r._readableState.reading);
r.on("readable", () => {
readableExecuted++;
if (readableExecuted == readableExecutedExpected) {
readableExpectedExecutions.resolve();
}
});
}, 1);
const readableTimeout = setTimeout(
() => readableExpectedExecutions.reject(),
1000,
);
await readableExpectedExecutions;
clearTimeout(readableTimeout);
assertEquals(readableExecuted, readableExecutedExpected);
});
Deno.test("Readable stream: 'readable' and 'read' events are emitted on highWaterMark length not reached", async () => {
let readableExecuted = 0;
const readableExecutedExpected = 1;
const readableExpectedExecutions = deferred();
let readExecuted = 0;
const readExecutedExpected = 1;
const readExpectedExecutions = deferred();
const r = new Readable({
highWaterMark: 3,
});
r._read = () => {
readExecuted++;
if (readExecuted == readExecutedExpected) {
readExpectedExecutions.resolve();
}
};
r.push(Buffer.from("bl"));
setTimeout(function () {
assert(r._readableState.reading);
r.on("readable", () => {
readableExecuted++;
if (readableExecuted == readableExecutedExpected) {
readableExpectedExecutions.resolve();
}
});
}, 1);
const readableTimeout = setTimeout(
() => readableExpectedExecutions.reject(),
1000,
);
const readTimeout = setTimeout(
() => readExpectedExecutions.reject(),
1000,
);
await readableExpectedExecutions;
await readExpectedExecutions;
clearTimeout(readableTimeout);
clearTimeout(readTimeout);
assertEquals(readableExecuted, readableExecutedExpected);
assertEquals(readExecuted, readExecutedExpected);
});
Deno.test("Readable stream: 'readable' event is emitted but 'read' is not on highWaterMark length not reached and stream ended", async () => {
let readableExecuted = 0;
const readableExecutedExpected = 1;
const readableExpectedExecutions = deferred();
const r = new Readable({
highWaterMark: 30,
});
r._read = () => {
throw new Error("Must not be executed");
};
r.push(Buffer.from("blerg"));
//This ends the stream and triggers end
r.push(null);
setTimeout(function () {
// Assert we're testing what we think we are
assert(!r._readableState.reading);
r.on("readable", () => {
readableExecuted++;
if (readableExecuted == readableExecutedExpected) {
readableExpectedExecutions.resolve();
}
});
}, 1);
const readableTimeout = setTimeout(
() => readableExpectedExecutions.reject(),
1000,
);
await readableExpectedExecutions;
clearTimeout(readableTimeout);
assertEquals(readableExecuted, readableExecutedExpected);
});
Deno.test("Readable stream: 'read' is emitted on empty string pushed in non-object mode", async () => {
let endExecuted = 0;
const endExecutedExpected = 1;
const endExpectedExecutions = deferred();
const underlyingData = ["", "x", "y", "", "z"];
const expected = underlyingData.filter((data) => data);
const result: unknown[] = [];
const r = new Readable({
encoding: "utf8",
});
r._read = function () {
queueMicrotask(() => {
if (!underlyingData.length) {
this.push(null);
} else {
this.push(underlyingData.shift());
}
});
};
r.on("readable", () => {
const data = r.read();
if (data !== null) result.push(data);
});
r.on("end", () => {
endExecuted++;
if (endExecuted == endExecutedExpected) {
endExpectedExecutions.resolve();
}
assertEquals(result, expected);
});
const endTimeout = setTimeout(
() => endExpectedExecutions.reject(),
1000,
);
await endExpectedExecutions;
clearTimeout(endTimeout);
assertEquals(endExecuted, endExecutedExpected);
});
Deno.test("Readable stream: listeners can be removed", () => {
const r = new Readable();
r._read = () => {};
r.on("data", () => {});
r.removeAllListeners("data");
assertEquals(r.eventNames().length, 0);
});