tests/language_2/async_star/async_star_await_for_test.dart - sdk.git - Git at Google

 // Copyright (c) 2018, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 // Test that `await for` and `async*` interact correctly.

 // An `await for` must pause its subscription immediately
 // if the `await for` body does anything asynchronous
 // (any `await`, `await for`, or pausing at a `yield`/`yield*`)
 // A pause happening synchronously in an event delivery
 // must pause the `sync*` method at the `yield` sending the event.
 // A break happening synchronously in an event delivery,
 // or while paused at a `yield`, must exit at that `yield`.

 import "dart:async";
 import "package:expect/expect.dart";
 import "package:async_helper/async_helper.dart";

 Stream<int> stream(List<String> log) async* {
   log.add("^");
   try {
     log.add("?1");
     yield 1;
     log.add("?2");
     yield 2;
     log.add("?3");
     yield 3;
   } finally {
     log.add(r"$");
   }
 }

 Stream<int> consume(List<String> log,
     {int breakAt = -1,
     int yieldAt = -1,
     int yieldStarAt = -1,
     int pauseAt = -1}) async* {
   // Create stream.
   var s = stream(log);
   log.add("(");
   // The "consume loop".
   await for (var event in s) {
     // Should be acting synchronously wrt. the delivery of the event.
     // The source stream should be at the yield now.
     log.add("!$event");
     if (event == pauseAt) {
       log.add("p$event[");
       // Async operation causes subscription to pause.
       // Nothing should happen in the source stream
       // until the end of the loop body where the subscription is resumed.
       await Future.delayed(Duration(microseconds: 1));
       log.add("]");
     }
     if (event == yieldAt) {
       log.add("y$event[");
       // Yield may cause subscription to pause or cancel.
       // This loop should stay at the yield until the event has been delieverd.
       // If the receiver pauses or cancels, we delay or break the loop here.
       yield event;
       log.add("]");
     }
     if (event == yieldStarAt) {
       log.add("Y$event[");
       // Yield* will always cause the subscription for this loop to pause.
       // If the listener pauses, this stream is paused. If the listener cancels,
       // this stream is cancelled, and the yield* acts like return, cancelling
       // the loop subscription and waiting for the cancel future.
       yield* Stream<int>.fromIterable([event]);
       log.add("]");
     }
     if (event == breakAt) {
       log.add("b$event");
       // Breaks the loop. This cancels the loop subscription and waits for the
       // cancel future.
       break;
     }
   }
   // Done event from stream or cancel future has completed.
   log.add(")");
 }

 main() async {
   asyncStart();

   // Just run the loop over the stream. The consume stream emits no events.
   {
     var log = <String>[];
     await for (var _ in consume(log)) {
       throw "unreachable";
     }
     await Future.delayed(Duration(milliseconds: 1));
     var trace = log.join("");
     Expects.equals(r"(^?1!1?2!2?3!3$)", trace, "straight through");
   }

   // Pause at 1, then resume.
   // Consume loop forces a pause when it receives the 1 event.
   // Nothing should happen until that pause is resumed.
   {
     var log = <String>[];
     await for (var _ in consume(log, pauseAt: 1)) {
       throw "unreachable";
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "pause at 1";
     if (trace.contains("p1[?2")) {
       message += " (did not pause in time)";
     }
     Expects.equals(r"(^?1!1p1[]?2!2?3!3$)", trace, message);
   }

   // Break at 1.
   // Consume loop breaks after receiving the 1 event.
   // The consume stream emits no events.
   {
     var log = <String>[];
     await for (var _ in consume(log, breakAt: 1)) {
       throw "unreachable";
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "break at 1";
     if (trace.contains("b1?2")) {
       message += " (did not cancel in time)";
     }
     Expects.equals(r"(^?1!1b1$)", trace, message);
   }

   // Pause then break at 1.
   // Consume loop pauses after receiving the 1 event,
   // then breaks before resuming. It should still be at the yield.
   // The consume stream emits no events.
   {
     var log = <String>[];
     await for (var _ in consume(log, pauseAt: 1, breakAt: 1)) {
       throw "unreachable";
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "pause then break at 1";
     if (trace.contains("p1[?2")) {
       message += " (did not pause in time)";
     }
     if (trace.contains("b1?2")) {
       message += " (did not cancel in time)";
     }
     Expects.equals(r"(^?1!1p1[]b1$)", trace, message);
   }

   // Yield at 1.
   // The consume loop re-emits the 1 event.
   // The test loop should receive that event while the consume loop is still
   // at the yield statement.
   // The consume loop may or may not pause, it should make no difference.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldAt: 1)) {
       log.add("e$s");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield at 1";
     if (trace.contains("y1[?2")) {
       message += " (did not wait for delivery)";
     }
     Expects.equals(r"(^?1!1y1[e1]?2!2?3!3$)", trace, message);
   }

   // Yield at 1, then pause at yield.
   // The consume loop re-emits the 1 event.
   // The test loop should receive that event while the consume loop is still
   // at the yield statement.
   // The test loop then pauses.
   // Nothing should happen in either the original yield
   // or the consume-function yield until the test loop ends.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldAt: 1)) {
       log.add("e$s<");
       // Force pause at yield.
       await Future.delayed(Duration(milliseconds: 1));
       log.add(">");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield at 1, pause at yield";
     if (trace.contains("y1[?2")) {
       message += " (did not wait for delivery)";
     }
     if (trace.contains("e1<?2")) {
       message += " (did not pause in time)";
     }
     Expects.equals(r"(^?1!1y1[e1<>]?2!2?3!3$)", trace, message);
   }

   // Yield at 1, then break at yield.
   // The consume loop re-emits the 1 event.
   // The test loop should receive that event while the consume loop is still
   // at the yield statement.
   // The test loop then breaks. That makes the consume loop yield return,
   // breaking the consume loop, which makes the source yield return.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldAt: 1)) {
       log.add("e${s}B$s");
       break; // Force break at yield*.
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield at 1, break at yield";
     if (trace.contains("y1[?2")) {
       message += " (did not wait for delivery)";
     }
     if (trace.contains("B1?2")) {
       message += " (did not break in time)";
     }
     Expects.equals(r"(^?1!1y1[e1B1$)", trace, message);
   }

   // Yield* at 1.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`, which again happens before the source
   // stream continues from its `yield`.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1)) {
       log.add("e$s");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* at 1";
     if (trace.contains("Y1[?2")) {
       message += " (did not wait for delivery)";
     }
     Expects.equals(r"(^?1!1Y1[e1]?2!2?3!3$)", trace, message);
   }

   // Yield* at 1, pause at yield.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`. The test loop then force a pause.
   // Nothing further should happen during that pause.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1)) {
       log.add("e$s<");
       await Future.delayed(Duration(milliseconds: 1)); // force pause.
       log.add(">");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* then pause at 1";
     if (trace.contains("Y1[?2")) {
       message += " (did not wait for delivery)";
     }
     if (trace.contains("e1<?2")) {
       message += " (did not pause in time)";
     }
     Expects.equals(r"(^?1!1Y1[e1<>]?2!2?3!3$)", trace, message);
   }

   // Yield* at 1, then break at 1.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`.
   // When the consume loop continues, it breaks,
   // forcing the waiting source yield to return.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1, breakAt: 1)) {
       log.add("e$s");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* then pause at 1";
     if (trace.contains("Y1[?2")) {
       message += " (did not wait for delivery)";
     }
     Expects.equals(r"(^?1!1Y1[e1]b1$)", trace, message);
   }

   // Yield* at 1, pause at yield, then break at 1.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`. After the `yield*`, the consume loop breaks.
   // This forces the waiting source yield to return.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1, breakAt: 1)) {
       log.add("e$s<");
       await Future.delayed(Duration(milliseconds: 1)); // force pause.
       log.add(">");
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* then pause at 1";
     Expects.equals(r"(^?1!1Y1[e1<>]b1$)", trace, message);
   }

   // Yield* at 1, break at yield.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`. The test loop then breaks,
   // forcing the two waiting yields to return.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1)) {
       log.add("e${s}B$s");
       break;
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* then break at 1";
     if (trace.contains("Y1[?2")) {
       message += " (did not deliver event in time)";
     }
     if (trace.contains("e1?2")) {
       message += " (did not cancel in time)";
     }
     Expects.equals(r"(^?1!1Y1[e1B1$)", trace, message);
   }

   // Yield* at 1, pause at yield, then break at yield.
   // The consume loop re-emits a stream containing the 1 event.
   // The test loop should receive that event before the consume loop
   // continues from the `yield*`. The test loop then forces a pause,
   // and then breaks before that pause is resumed.
   // This forces the two waiting yields to return.
   {
     var log = <String>[];
     await for (var s in consume(log, yieldStarAt: 1)) {
       log.add("e$s<");
       await Future.delayed(Duration(milliseconds: 1)); // force pause.
       log.add(">B$s");
       break; // And break.
     }
     await Future.delayed(Duration(milliseconds: 10));
     var trace = log.join("");
     String message = "yield* then pause then break at 1";
     Expects.equals(r"(^?1!1Y1[e1<>B1$)", trace, message);
   }

   Expects.summarize();
   asyncEnd();
 }

 class Expects {
   static var _errors = [];
   static int _tests = 0;
   static void summarize() {
     if (_errors.isNotEmpty) {
       var buffer = StringBuffer();
       for (var es in _errors) {
         buffer.writeln("FAILURE:");
         buffer.writeln(es[0]); // error
         buffer.writeln(es[1]); // stack trace
       }
       ;
       buffer.writeln("Expectations failed: ${_errors.length}"
           ", succeeded: ${_tests - _errors.length}");
       throw ExpectException(buffer.toString());
     }
   }

   static void equals(o1, o2, String message) {
     _tests++;
     try {
       Expect.equals(o1, o2, message);
     } on ExpectException catch (e) {
       var stack = StackTrace.current;
       _errors.add([e, stack]);
     }
   }
 }
	// Copyright (c) 2018, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	// Test that `await for` and `async*` interact correctly.

	// An `await for` must pause its subscription immediately
	// if the `await for` body does anything asynchronous
	// (any `await`, `await for`, or pausing at a `yield`/`yield*`)
	// A pause happening synchronously in an event delivery
	// must pause the `sync*` method at the `yield` sending the event.
	// A break happening synchronously in an event delivery,
	// or while paused at a `yield`, must exit at that `yield`.

	import "dart:async";
	import "package:expect/expect.dart";
	import "package:async_helper/async_helper.dart";

	Stream<int> stream(List<String> log) async* {
	log.add("^");
	try {
	log.add("?1");
	yield 1;
	log.add("?2");
	yield 2;
	log.add("?3");
	yield 3;
	} finally {
	log.add(r"$");
	}
	}

	Stream<int> consume(List<String> log,
	{int breakAt = -1,
	int yieldAt = -1,
	int yieldStarAt = -1,
	int pauseAt = -1}) async* {
	// Create stream.
	var s = stream(log);
	log.add("(");
	// The "consume loop".
	await for (var event in s) {
	// Should be acting synchronously wrt. the delivery of the event.
	// The source stream should be at the yield now.
	log.add("!$event");
	if (event == pauseAt) {
	log.add("p$event[");
	// Async operation causes subscription to pause.
	// Nothing should happen in the source stream
	// until the end of the loop body where the subscription is resumed.
	await Future.delayed(Duration(microseconds: 1));
	log.add("]");
	}
	if (event == yieldAt) {
	log.add("y$event[");
	// Yield may cause subscription to pause or cancel.
	// This loop should stay at the yield until the event has been delieverd.
	// If the receiver pauses or cancels, we delay or break the loop here.
	yield event;
	log.add("]");
	}
	if (event == yieldStarAt) {
	log.add("Y$event[");
	// Yield* will always cause the subscription for this loop to pause.
	// If the listener pauses, this stream is paused. If the listener cancels,
	// this stream is cancelled, and the yield* acts like return, cancelling
	// the loop subscription and waiting for the cancel future.
	yield* Stream<int>.fromIterable([event]);
	log.add("]");
	}
	if (event == breakAt) {
	log.add("b$event");
	// Breaks the loop. This cancels the loop subscription and waits for the
	// cancel future.
	break;
	}
	}
	// Done event from stream or cancel future has completed.
	log.add(")");
	}

	main() async {
	asyncStart();

	// Just run the loop over the stream. The consume stream emits no events.
	{
	var log = <String>[];
	await for (var _ in consume(log)) {
	throw "unreachable";
	}
	await Future.delayed(Duration(milliseconds: 1));
	var trace = log.join("");
	Expects.equals(r"(^?1!1?2!2?3!3$)", trace, "straight through");
	}

	// Pause at 1, then resume.
	// Consume loop forces a pause when it receives the 1 event.
	// Nothing should happen until that pause is resumed.
	{
	var log = <String>[];
	await for (var _ in consume(log, pauseAt: 1)) {
	throw "unreachable";
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "pause at 1";
	if (trace.contains("p1[?2")) {
	message += " (did not pause in time)";
	}
	Expects.equals(r"(^?1!1p1[]?2!2?3!3$)", trace, message);
	}

	// Break at 1.
	// Consume loop breaks after receiving the 1 event.
	// The consume stream emits no events.
	{
	var log = <String>[];
	await for (var _ in consume(log, breakAt: 1)) {
	throw "unreachable";
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "break at 1";
	if (trace.contains("b1?2")) {
	message += " (did not cancel in time)";
	}
	Expects.equals(r"(^?1!1b1$)", trace, message);
	}

	// Pause then break at 1.
	// Consume loop pauses after receiving the 1 event,
	// then breaks before resuming. It should still be at the yield.
	// The consume stream emits no events.
	{
	var log = <String>[];
	await for (var _ in consume(log, pauseAt: 1, breakAt: 1)) {
	throw "unreachable";
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "pause then break at 1";
	if (trace.contains("p1[?2")) {
	message += " (did not pause in time)";
	}
	if (trace.contains("b1?2")) {
	message += " (did not cancel in time)";
	}
	Expects.equals(r"(^?1!1p1[]b1$)", trace, message);
	}

	// Yield at 1.
	// The consume loop re-emits the 1 event.
	// The test loop should receive that event while the consume loop is still
	// at the yield statement.
	// The consume loop may or may not pause, it should make no difference.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldAt: 1)) {
	log.add("e$s");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield at 1";
	if (trace.contains("y1[?2")) {
	message += " (did not wait for delivery)";
	}
	Expects.equals(r"(^?1!1y1[e1]?2!2?3!3$)", trace, message);
	}

	// Yield at 1, then pause at yield.
	// The consume loop re-emits the 1 event.
	// The test loop should receive that event while the consume loop is still
	// at the yield statement.
	// The test loop then pauses.
	// Nothing should happen in either the original yield
	// or the consume-function yield until the test loop ends.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldAt: 1)) {
	log.add("e$s<");
	// Force pause at yield.
	await Future.delayed(Duration(milliseconds: 1));
	log.add(">");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield at 1, pause at yield";
	if (trace.contains("y1[?2")) {
	message += " (did not wait for delivery)";
	}
	if (trace.contains("e1<?2")) {
	message += " (did not pause in time)";
	}
	Expects.equals(r"(^?1!1y1[e1<>]?2!2?3!3$)", trace, message);
	}

	// Yield at 1, then break at yield.
	// The consume loop re-emits the 1 event.
	// The test loop should receive that event while the consume loop is still
	// at the yield statement.
	// The test loop then breaks. That makes the consume loop yield return,
	// breaking the consume loop, which makes the source yield return.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldAt: 1)) {
	log.add("e${s}B$s");
	break; // Force break at yield*.
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield at 1, break at yield";
	if (trace.contains("y1[?2")) {
	message += " (did not wait for delivery)";
	}
	if (trace.contains("B1?2")) {
	message += " (did not break in time)";
	}
	Expects.equals(r"(^?1!1y1[e1B1$)", trace, message);
	}

	// Yield* at 1.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield*`, which again happens before the source
	// stream continues from its `yield`.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1)) {
	log.add("e$s");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* at 1";
	if (trace.contains("Y1[?2")) {
	message += " (did not wait for delivery)";
	}
	Expects.equals(r"(^?1!1Y1[e1]?2!2?3!3$)", trace, message);
	}

	// Yield* at 1, pause at yield.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield*`. The test loop then force a pause.
	// Nothing further should happen during that pause.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1)) {
	log.add("e$s<");
	await Future.delayed(Duration(milliseconds: 1)); // force pause.
	log.add(">");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* then pause at 1";
	if (trace.contains("Y1[?2")) {
	message += " (did not wait for delivery)";
	}
	if (trace.contains("e1<?2")) {
	message += " (did not pause in time)";
	}
	Expects.equals(r"(^?1!1Y1[e1<>]?2!2?3!3$)", trace, message);
	}

	// Yield* at 1, then break at 1.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield*`.
	// When the consume loop continues, it breaks,
	// forcing the waiting source yield to return.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1, breakAt: 1)) {
	log.add("e$s");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* then pause at 1";
	if (trace.contains("Y1[?2")) {
	message += " (did not wait for delivery)";
	}
	Expects.equals(r"(^?1!1Y1[e1]b1$)", trace, message);
	}

	// Yield* at 1, pause at yield, then break at 1.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield`. After the `yield`, the consume loop breaks.
	// This forces the waiting source yield to return.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1, breakAt: 1)) {
	log.add("e$s<");
	await Future.delayed(Duration(milliseconds: 1)); // force pause.
	log.add(">");
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* then pause at 1";
	Expects.equals(r"(^?1!1Y1[e1<>]b1$)", trace, message);
	}

	// Yield* at 1, break at yield.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield*`. The test loop then breaks,
	// forcing the two waiting yields to return.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1)) {
	log.add("e${s}B$s");
	break;
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* then break at 1";
	if (trace.contains("Y1[?2")) {
	message += " (did not deliver event in time)";
	}
	if (trace.contains("e1?2")) {
	message += " (did not cancel in time)";
	}
	Expects.equals(r"(^?1!1Y1[e1B1$)", trace, message);
	}

	// Yield* at 1, pause at yield, then break at yield.
	// The consume loop re-emits a stream containing the 1 event.
	// The test loop should receive that event before the consume loop
	// continues from the `yield*`. The test loop then forces a pause,
	// and then breaks before that pause is resumed.
	// This forces the two waiting yields to return.
	{
	var log = <String>[];
	await for (var s in consume(log, yieldStarAt: 1)) {
	log.add("e$s<");
	await Future.delayed(Duration(milliseconds: 1)); // force pause.
	log.add(">B$s");
	break; // And break.
	}
	await Future.delayed(Duration(milliseconds: 10));
	var trace = log.join("");
	String message = "yield* then pause then break at 1";
	Expects.equals(r"(^?1!1Y1[e1<>B1$)", trace, message);
	}

	Expects.summarize();
	asyncEnd();
	}

	class Expects {
	static var _errors = [];
	static int _tests = 0;
	static void summarize() {
	if (_errors.isNotEmpty) {
	var buffer = StringBuffer();
	for (var es in _errors) {
	buffer.writeln("FAILURE:");
	buffer.writeln(es[0]); // error
	buffer.writeln(es[1]); // stack trace
	}
	;
	buffer.writeln("Expectations failed: ${_errors.length}"
	", succeeded: ${_tests - _errors.length}");
	throw ExpectException(buffer.toString());
	}
	}

	static void equals(o1, o2, String message) {
	_tests++;
	try {
	Expect.equals(o1, o2, message);
	} on ExpectException catch (e) {
	var stack = StackTrace.current;
	_errors.add([e, stack]);
	}
	}
	}