mirror of
https://github.com/denoland/deno.git
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698 lines
17 KiB
TypeScript
698 lines
17 KiB
TypeScript
// Copyright Node.js contributors. All rights reserved. MIT License.
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import { Buffer } from "../buffer.ts";
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import Duplex from "./duplex.ts";
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import finished from "./end_of_stream.ts";
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import {
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assert,
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assertEquals,
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assertStrictEquals,
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assertThrows,
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} from "../../testing/asserts.ts";
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import { deferred, delay } from "../../async/mod.ts";
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Deno.test("Duplex stream works normally", () => {
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const stream = new Duplex({ objectMode: true });
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assert(stream._readableState.objectMode);
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assert(stream._writableState.objectMode);
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assert(stream.allowHalfOpen);
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assertEquals(stream.listenerCount("end"), 0);
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let written: { val: number };
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let read: { val: number };
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stream._write = (obj, _, cb) => {
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written = obj;
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cb();
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};
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stream._read = () => {};
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stream.on("data", (obj) => {
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read = obj;
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});
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stream.push({ val: 1 });
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stream.end({ val: 2 });
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stream.on("finish", () => {
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assertEquals(read.val, 1);
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assertEquals(written.val, 2);
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});
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});
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Deno.test("Duplex stream gets constructed correctly", () => {
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const d1 = new Duplex({
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objectMode: true,
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highWaterMark: 100,
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});
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assertEquals(d1.readableObjectMode, true);
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assertEquals(d1.readableHighWaterMark, 100);
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assertEquals(d1.writableObjectMode, true);
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assertEquals(d1.writableHighWaterMark, 100);
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const d2 = new Duplex({
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readableObjectMode: false,
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readableHighWaterMark: 10,
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writableObjectMode: true,
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writableHighWaterMark: 100,
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});
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assertEquals(d2.writableObjectMode, true);
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assertEquals(d2.writableHighWaterMark, 100);
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assertEquals(d2.readableObjectMode, false);
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assertEquals(d2.readableHighWaterMark, 10);
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});
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Deno.test("Duplex stream can be paused", () => {
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const readable = new Duplex();
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// _read is a noop, here.
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readable._read = () => {};
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// Default state of a stream is not "paused"
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assert(!readable.isPaused());
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// Make the stream start flowing...
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readable.on("data", () => {});
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// still not paused.
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assert(!readable.isPaused());
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readable.pause();
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assert(readable.isPaused());
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readable.resume();
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assert(!readable.isPaused());
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});
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Deno.test("Duplex stream sets enconding correctly", () => {
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const readable = new Duplex({
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read() {},
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});
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readable.setEncoding("utf8");
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readable.push(new TextEncoder().encode("DEF"));
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readable.unshift(new TextEncoder().encode("ABC"));
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assertStrictEquals(readable.read(), "ABCDEF");
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});
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Deno.test("Duplex stream sets encoding correctly", () => {
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const readable = new Duplex({
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read() {},
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});
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readable.setEncoding("utf8");
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readable.push(new TextEncoder().encode("DEF"));
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readable.unshift(new TextEncoder().encode("ABC"));
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assertStrictEquals(readable.read(), "ABCDEF");
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});
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Deno.test("Duplex stream holds up a big push", async () => {
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let readExecuted = 0;
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const readExecutedExpected = 3;
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const readExpectedExecutions = deferred();
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let endExecuted = 0;
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const endExecutedExpected = 1;
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const endExpectedExecutions = deferred();
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const str = "asdfasdfasdfasdfasdf";
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const r = new Duplex({
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highWaterMark: 5,
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encoding: "utf8",
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});
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let reads = 0;
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function _read() {
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if (reads === 0) {
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setTimeout(() => {
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r.push(str);
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}, 1);
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reads++;
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} else if (reads === 1) {
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const ret = r.push(str);
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assertEquals(ret, false);
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reads++;
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} else {
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r.push(null);
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}
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}
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r._read = () => {
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readExecuted++;
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if (readExecuted == readExecutedExpected) {
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readExpectedExecutions.resolve();
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}
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_read();
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};
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r.on("end", () => {
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endExecuted++;
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if (endExecuted == endExecutedExpected) {
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endExpectedExecutions.resolve();
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}
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});
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// Push some data in to start.
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// We've never gotten any read event at this point.
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const ret = r.push(str);
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assert(!ret);
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let chunk = r.read();
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assertEquals(chunk, str);
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chunk = r.read();
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assertEquals(chunk, null);
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r.once("readable", () => {
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// This time, we'll get *all* the remaining data, because
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// it's been added synchronously, as the read WOULD take
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// us below the hwm, and so it triggered a _read() again,
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// which synchronously added more, which we then return.
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chunk = r.read();
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assertEquals(chunk, str + str);
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chunk = r.read();
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assertEquals(chunk, null);
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});
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const readTimeout = setTimeout(
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() => readExpectedExecutions.reject(),
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1000,
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);
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const endTimeout = setTimeout(
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() => endExpectedExecutions.reject(),
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1000,
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);
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await readExpectedExecutions;
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await endExpectedExecutions;
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clearTimeout(readTimeout);
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clearTimeout(endTimeout);
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assertEquals(readExecuted, readExecutedExpected);
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assertEquals(endExecuted, endExecutedExpected);
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});
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Deno.test("Duplex stream: 'readable' event is emitted but 'read' is not on highWaterMark length exceeded", async () => {
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let readableExecuted = 0;
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const readableExecutedExpected = 1;
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const readableExpectedExecutions = deferred();
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const r = new Duplex({
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highWaterMark: 3,
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});
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r._read = () => {
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throw new Error("_read must not be called");
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};
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r.push(Buffer.from("blerg"));
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setTimeout(function () {
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assert(!r._readableState.reading);
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r.on("readable", () => {
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readableExecuted++;
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if (readableExecuted == readableExecutedExpected) {
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readableExpectedExecutions.resolve();
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}
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});
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}, 1);
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const readableTimeout = setTimeout(
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() => readableExpectedExecutions.reject(),
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1000,
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);
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await readableExpectedExecutions;
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clearTimeout(readableTimeout);
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assertEquals(readableExecuted, readableExecutedExpected);
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});
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Deno.test("Duplex stream: 'readable' and 'read' events are emitted on highWaterMark length not reached", async () => {
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let readableExecuted = 0;
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const readableExecutedExpected = 1;
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const readableExpectedExecutions = deferred();
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let readExecuted = 0;
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const readExecutedExpected = 1;
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const readExpectedExecutions = deferred();
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const r = new Duplex({
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highWaterMark: 3,
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});
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r._read = () => {
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readExecuted++;
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if (readExecuted == readExecutedExpected) {
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readExpectedExecutions.resolve();
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}
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};
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r.push(Buffer.from("bl"));
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setTimeout(function () {
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assert(r._readableState.reading);
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r.on("readable", () => {
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readableExecuted++;
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if (readableExecuted == readableExecutedExpected) {
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readableExpectedExecutions.resolve();
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}
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});
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}, 1);
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const readableTimeout = setTimeout(
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() => readableExpectedExecutions.reject(),
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1000,
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);
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const readTimeout = setTimeout(
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() => readExpectedExecutions.reject(),
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1000,
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);
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await readableExpectedExecutions;
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await readExpectedExecutions;
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clearTimeout(readableTimeout);
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clearTimeout(readTimeout);
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assertEquals(readableExecuted, readableExecutedExpected);
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assertEquals(readExecuted, readExecutedExpected);
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});
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Deno.test("Duplex stream: 'readable' event is emitted but 'read' is not on highWaterMark length not reached and stream ended", async () => {
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let readableExecuted = 0;
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const readableExecutedExpected = 1;
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const readableExpectedExecutions = deferred();
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const r = new Duplex({
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highWaterMark: 30,
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});
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r._read = () => {
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throw new Error("Must not be executed");
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};
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r.push(Buffer.from("blerg"));
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//This ends the stream and triggers end
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r.push(null);
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setTimeout(function () {
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// Assert we're testing what we think we are
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assert(!r._readableState.reading);
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r.on("readable", () => {
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readableExecuted++;
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if (readableExecuted == readableExecutedExpected) {
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readableExpectedExecutions.resolve();
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}
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});
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}, 1);
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const readableTimeout = setTimeout(
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() => readableExpectedExecutions.reject(),
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1000,
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);
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await readableExpectedExecutions;
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clearTimeout(readableTimeout);
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assertEquals(readableExecuted, readableExecutedExpected);
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});
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Deno.test("Duplex stream: 'read' is emitted on empty string pushed in non-object mode", async () => {
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let endExecuted = 0;
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const endExecutedExpected = 1;
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const endExpectedExecutions = deferred();
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const underlyingData = ["", "x", "y", "", "z"];
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const expected = underlyingData.filter((data) => data);
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const result: unknown[] = [];
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const r = new Duplex({
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encoding: "utf8",
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});
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r._read = function () {
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queueMicrotask(() => {
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if (!underlyingData.length) {
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this.push(null);
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} else {
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this.push(underlyingData.shift());
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}
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});
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};
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r.on("readable", () => {
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const data = r.read();
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if (data !== null) result.push(data);
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});
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r.on("end", () => {
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endExecuted++;
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if (endExecuted == endExecutedExpected) {
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endExpectedExecutions.resolve();
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}
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assertEquals(result, expected);
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});
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const endTimeout = setTimeout(
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() => endExpectedExecutions.reject(),
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1000,
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);
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await endExpectedExecutions;
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clearTimeout(endTimeout);
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assertEquals(endExecuted, endExecutedExpected);
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});
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Deno.test("Duplex stream: listeners can be removed", () => {
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const r = new Duplex();
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r._read = () => {};
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r.on("data", () => {});
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r.removeAllListeners("data");
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assertEquals(r.eventNames().length, 0);
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});
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Deno.test("Duplex stream writes correctly", async () => {
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let callback: undefined | ((error?: Error | null | undefined) => void);
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let writeExecuted = 0;
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const writeExecutedExpected = 1;
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const writeExpectedExecutions = deferred();
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let writevExecuted = 0;
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const writevExecutedExpected = 1;
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const writevExpectedExecutions = deferred();
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const writable = new Duplex({
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write: (chunk, encoding, cb) => {
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writeExecuted++;
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if (writeExecuted == writeExecutedExpected) {
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writeExpectedExecutions.resolve();
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}
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assert(chunk instanceof Buffer);
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assertStrictEquals(encoding, "buffer");
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assertStrictEquals(String(chunk), "ABC");
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callback = cb;
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},
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writev: (chunks) => {
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writevExecuted++;
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if (writevExecuted == writevExecutedExpected) {
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writevExpectedExecutions.resolve();
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}
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assertStrictEquals(chunks.length, 2);
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assertStrictEquals(chunks[0].encoding, "buffer");
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assertStrictEquals(chunks[1].encoding, "buffer");
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assertStrictEquals(chunks[0].chunk + chunks[1].chunk, "DEFGHI");
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},
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});
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writable.write(new TextEncoder().encode("ABC"));
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writable.write(new TextEncoder().encode("DEF"));
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writable.end(new TextEncoder().encode("GHI"));
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callback?.();
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const writeTimeout = setTimeout(
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() => writeExpectedExecutions.reject(),
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1000,
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);
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const writevTimeout = setTimeout(
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() => writevExpectedExecutions.reject(),
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1000,
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);
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await writeExpectedExecutions;
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await writevExpectedExecutions;
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clearTimeout(writeTimeout);
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clearTimeout(writevTimeout);
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assertEquals(writeExecuted, writeExecutedExpected);
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assertEquals(writevExecuted, writevExecutedExpected);
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});
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Deno.test("Duplex stream writes Uint8Array in object mode", async () => {
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let writeExecuted = 0;
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const writeExecutedExpected = 1;
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const writeExpectedExecutions = deferred();
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const ABC = new TextEncoder().encode("ABC");
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const writable = new Duplex({
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objectMode: true,
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write: (chunk, encoding, cb) => {
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writeExecuted++;
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if (writeExecuted == writeExecutedExpected) {
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writeExpectedExecutions.resolve();
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}
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assert(!(chunk instanceof Buffer));
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assert(chunk instanceof Uint8Array);
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assertEquals(chunk, ABC);
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assertEquals(encoding, "utf8");
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cb();
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},
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});
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writable.end(ABC);
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const writeTimeout = setTimeout(
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() => writeExpectedExecutions.reject(),
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1000,
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);
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await writeExpectedExecutions;
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clearTimeout(writeTimeout);
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assertEquals(writeExecuted, writeExecutedExpected);
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});
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Deno.test("Duplex stream throws on unexpected close", async () => {
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let finishedExecuted = 0;
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const finishedExecutedExpected = 1;
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const finishedExpectedExecutions = deferred();
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const writable = new Duplex({
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write: () => {},
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});
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writable.writable = false;
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writable.destroy();
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finished(writable, (err) => {
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finishedExecuted++;
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if (finishedExecuted == finishedExecutedExpected) {
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finishedExpectedExecutions.resolve();
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}
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assertEquals(err?.code, "ERR_STREAM_PREMATURE_CLOSE");
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});
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const finishedTimeout = setTimeout(
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() => finishedExpectedExecutions.reject(),
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1000,
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);
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await finishedExpectedExecutions;
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clearTimeout(finishedTimeout);
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assertEquals(finishedExecuted, finishedExecutedExpected);
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});
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Deno.test("Duplex stream finishes correctly after error", async () => {
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let errorExecuted = 0;
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const errorExecutedExpected = 1;
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const errorExpectedExecutions = deferred();
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let finishedExecuted = 0;
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const finishedExecutedExpected = 1;
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const finishedExpectedExecutions = deferred();
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const w = new Duplex({
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write(_chunk, _encoding, cb) {
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cb(new Error());
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},
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autoDestroy: false,
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});
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w.write("asd");
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w.on("error", () => {
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errorExecuted++;
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if (errorExecuted == errorExecutedExpected) {
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errorExpectedExecutions.resolve();
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}
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finished(w, () => {
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finishedExecuted++;
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if (finishedExecuted == finishedExecutedExpected) {
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finishedExpectedExecutions.resolve();
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}
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});
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});
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const errorTimeout = setTimeout(
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() => errorExpectedExecutions.reject(),
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1000,
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);
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const finishedTimeout = setTimeout(
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() => finishedExpectedExecutions.reject(),
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1000,
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);
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await finishedExpectedExecutions;
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await errorExpectedExecutions;
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clearTimeout(finishedTimeout);
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clearTimeout(errorTimeout);
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assertEquals(finishedExecuted, finishedExecutedExpected);
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assertEquals(errorExecuted, errorExecutedExpected);
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});
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Deno.test("Duplex stream fails on 'write' null value", () => {
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const writable = new Duplex();
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assertThrows(() => writable.write(null));
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});
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Deno.test("Duplex stream is destroyed correctly", async () => {
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let closeExecuted = 0;
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const closeExecutedExpected = 1;
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const closeExpectedExecutions = deferred();
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const unexpectedExecution = deferred();
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const duplex = new Duplex({
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write(_chunk, _enc, cb) {
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cb();
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},
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read() {},
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});
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duplex.resume();
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function never() {
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unexpectedExecution.reject();
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}
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duplex.on("end", never);
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duplex.on("finish", never);
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duplex.on("close", () => {
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closeExecuted++;
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if (closeExecuted == closeExecutedExpected) {
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closeExpectedExecutions.resolve();
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}
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});
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duplex.destroy();
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assertEquals(duplex.destroyed, true);
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const closeTimeout = setTimeout(
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() => closeExpectedExecutions.reject(),
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1000,
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);
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await Promise.race([
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unexpectedExecution,
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delay(100),
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]);
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await closeExpectedExecutions;
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clearTimeout(closeTimeout);
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assertEquals(closeExecuted, closeExecutedExpected);
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});
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Deno.test("Duplex stream errors correctly on destroy", async () => {
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let errorExecuted = 0;
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const errorExecutedExpected = 1;
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const errorExpectedExecutions = deferred();
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const unexpectedExecution = deferred();
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const duplex = new Duplex({
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write(_chunk, _enc, cb) {
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cb();
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},
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read() {},
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});
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duplex.resume();
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const expected = new Error("kaboom");
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|
|
function never() {
|
|
unexpectedExecution.reject();
|
|
}
|
|
|
|
duplex.on("end", never);
|
|
duplex.on("finish", never);
|
|
duplex.on("error", (err) => {
|
|
errorExecuted++;
|
|
if (errorExecuted == errorExecutedExpected) {
|
|
errorExpectedExecutions.resolve();
|
|
}
|
|
assertStrictEquals(err, expected);
|
|
});
|
|
|
|
duplex.destroy(expected);
|
|
assertEquals(duplex.destroyed, true);
|
|
|
|
const errorTimeout = setTimeout(
|
|
() => errorExpectedExecutions.reject(),
|
|
1000,
|
|
);
|
|
await Promise.race([
|
|
unexpectedExecution,
|
|
delay(100),
|
|
]);
|
|
await errorExpectedExecutions;
|
|
clearTimeout(errorTimeout);
|
|
assertEquals(errorExecuted, errorExecutedExpected);
|
|
});
|
|
|
|
Deno.test("Duplex stream doesn't finish on allowHalfOpen", async () => {
|
|
const unexpectedExecution = deferred();
|
|
|
|
const duplex = new Duplex({
|
|
read() {},
|
|
});
|
|
|
|
assertEquals(duplex.allowHalfOpen, true);
|
|
duplex.on("finish", () => unexpectedExecution.reject());
|
|
assertEquals(duplex.listenerCount("end"), 0);
|
|
duplex.resume();
|
|
duplex.push(null);
|
|
|
|
await Promise.race([
|
|
unexpectedExecution,
|
|
delay(100),
|
|
]);
|
|
});
|
|
|
|
Deno.test("Duplex stream finishes when allowHalfOpen is disabled", async () => {
|
|
let finishExecuted = 0;
|
|
const finishExecutedExpected = 1;
|
|
const finishExpectedExecutions = deferred();
|
|
|
|
const duplex = new Duplex({
|
|
read() {},
|
|
allowHalfOpen: false,
|
|
});
|
|
|
|
assertEquals(duplex.allowHalfOpen, false);
|
|
duplex.on("finish", () => {
|
|
finishExecuted++;
|
|
if (finishExecuted == finishExecutedExpected) {
|
|
finishExpectedExecutions.resolve();
|
|
}
|
|
});
|
|
assertEquals(duplex.listenerCount("end"), 0);
|
|
duplex.resume();
|
|
duplex.push(null);
|
|
|
|
const finishTimeout = setTimeout(
|
|
() => finishExpectedExecutions.reject(),
|
|
1000,
|
|
);
|
|
await finishExpectedExecutions;
|
|
clearTimeout(finishTimeout);
|
|
assertEquals(finishExecuted, finishExecutedExpected);
|
|
});
|
|
|
|
Deno.test("Duplex stream doesn't finish when allowHalfOpen is disabled but stream ended", async () => {
|
|
const unexpectedExecution = deferred();
|
|
|
|
const duplex = new Duplex({
|
|
read() {},
|
|
allowHalfOpen: false,
|
|
});
|
|
|
|
assertEquals(duplex.allowHalfOpen, false);
|
|
duplex._writableState.ended = true;
|
|
duplex.on("finish", () => unexpectedExecution.reject());
|
|
assertEquals(duplex.listenerCount("end"), 0);
|
|
duplex.resume();
|
|
duplex.push(null);
|
|
|
|
await Promise.race([
|
|
unexpectedExecution,
|
|
delay(100),
|
|
]);
|
|
});
|