blob: 8fc947b11d8899fa454e697c35294b031a88fb38 [file] [log] [blame]
// Copyright (c) 2012, 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.
library future_test;
import 'package:async_helper/async_helper.dart';
import "package:expect/expect.dart";
import 'dart:async';
const Duration MS = const Duration(milliseconds: 1);
void testValue() {
final future = new Future<String>.value("42");
asyncStart();
future.then((x) {
Expect.equals("42", x);
asyncEnd();
});
}
void testSync() {
compare(func) {
// Compare the results of the following two futures.
Future f1 = new Future.sync(func);
Future f2 = new Future.value().then((_) => func());
f2.catchError((_) {}); // I'll get the error later.
f1.then((v1) {
f2.then((v2) {
Expect.equals(v1, v2);
});
}, onError: (e1) {
f2.then((_) {
Expect.fail("Expected error");
}, onError: (e2) {
Expect.equals(e1, e2);
});
});
}
Future val = new Future.value(42);
Future err1 = new Future.error("Error")..catchError((_) {});
try {
throw [];
} catch (e, st) {
Future err2 = new Future.error(e, st)..catchError((_) {});
}
compare(() => 42);
compare(() => val);
compare(() {
throw "Flif";
});
compare(() => err1);
bool hasExecuted = false;
compare(() {
hasExecuted = true;
return 499;
});
Expect.isTrue(hasExecuted);
}
void testNeverComplete() {
final completer = new Completer<int>();
final future = completer.future;
future.then((v) => Expect.fail("Value not expected"));
future.catchError((e) => Expect.fail("Value not expected"));
}
void testComplete() {
final completer = new Completer<int>();
final future = completer.future;
Expect.isFalse(completer.isCompleted);
completer.complete(3);
Expect.isTrue(completer.isCompleted);
future.then((v) => Expect.equals(3, v));
}
// Tests for [then]
void testCompleteWithSuccessHandlerBeforeComplete() {
final completer = new Completer<int>();
final future = completer.future;
int? after;
asyncStart();
future.then((int v) {
after = v;
}).then((_) {
Expect.equals(3, after);
asyncEnd();
});
completer.complete(3);
Expect.isNull(after);
}
void testCompleteWithSuccessHandlerAfterComplete() {
final completer = new Completer<int>();
final future = completer.future;
int? after;
completer.complete(3);
Expect.isNull(after);
asyncStart();
future.then((int v) {
after = v;
}).then((_) {
Expect.equals(3, after);
asyncEnd();
});
}
void testCompleteManySuccessHandlers() {
final completer = new Completer<int>();
final future = completer.future;
late int before;
late int after1;
late int after2;
var futures = <Future<int>>[];
futures.add(future.then((int v) {
before = v;
return v;
}));
completer.complete(3);
futures.add(future.then((int v) {
after1 = v;
return v;
}));
futures.add(future.then((int v) {
after2 = v;
return v;
}));
asyncStart();
Future.wait(futures).then((_) {
Expect.equals(3, before);
Expect.equals(3, after1);
Expect.equals(3, after2);
asyncEnd();
});
// Regression test for fix to issue:
// https://github.com/dart-lang/sdk/issues/43445
asyncStart();
Future.wait<int>(<Future<int>>[]).then((list) {
Expect.equals(0, list.length);
Expect.type<List<int>>(list);
Expect.notType<List<Null>>(list);
Expect.notType<List<Never>>(list);
asyncEnd();
});
}
// Tests for [catchError]
void testException() {
final completer = new Completer<int?>();
final future = completer.future;
final ex = new Exception();
asyncStart();
future.then((v) {
throw "Value not expected";
return null;
}).catchError((error) {
Expect.equals(error, ex);
asyncEnd();
}, test: (e) => e == ex);
completer.completeError(ex);
}
void testExceptionHandler() {
final completer = new Completer<int?>();
final future = completer.future;
final ex = new Exception();
var ex2;
var done = future.catchError((error) {
ex2 = error;
});
Expect.isFalse(completer.isCompleted);
completer.completeError(ex);
Expect.isTrue(completer.isCompleted);
asyncStart();
done.then((_) {
Expect.equals(ex, ex2);
asyncEnd();
});
}
void testExceptionHandlerReturnsTrue() {
final completer = new Completer<int?>();
final future = completer.future;
final ex = new Exception();
bool reached = false;
future.catchError((e) {});
future.catchError((e) {
reached = true;
}, test: (e) => false).catchError((e) {});
Expect.isFalse(completer.isCompleted);
completer.completeError(ex);
Expect.isTrue(completer.isCompleted);
Expect.isFalse(reached);
}
void testExceptionHandlerReturnsTrue2() {
final completer = new Completer<int?>();
final future = completer.future;
final ex = new Exception();
bool reached = false;
var done = future.catchError((e) {}, test: (e) => false).catchError((e) {
reached = true;
});
completer.completeError(ex);
asyncStart();
done.then((_) {
Expect.isTrue(reached);
asyncEnd();
});
}
void testExceptionHandlerReturnsFalse() {
final completer = new Completer<int?>();
final future = completer.future;
final ex = new Exception();
bool reached = false;
future.catchError((e) {});
future.catchError((e) {
reached = true;
}, test: (e) => false).catchError((e) {});
completer.completeError(ex);
Expect.isFalse(reached);
}
void testFutureAsStreamCompleteAfter() {
var completer = new Completer();
bool gotValue = false;
asyncStart();
completer.future.asStream().listen((data) {
Expect.isFalse(gotValue);
gotValue = true;
Expect.equals("value", data);
}, onDone: () {
Expect.isTrue(gotValue);
asyncEnd();
});
completer.complete("value");
}
void testFutureAsStreamCompleteBefore() {
var completer = new Completer();
bool gotValue = false;
asyncStart();
completer.complete("value");
completer.future.asStream().listen((data) {
Expect.isFalse(gotValue);
gotValue = true;
Expect.equals("value", data);
}, onDone: () {
Expect.isTrue(gotValue);
asyncEnd();
});
}
void testFutureAsStreamCompleteImmediate() {
bool gotValue = false;
asyncStart();
new Future.value("value").asStream().listen((data) {
Expect.isFalse(gotValue);
gotValue = true;
Expect.equals("value", data);
}, onDone: () {
Expect.isTrue(gotValue);
asyncEnd();
});
}
void testFutureAsStreamCompleteErrorAfter() {
var completer = new Completer();
bool gotError = false;
asyncStart();
completer.future.asStream().listen((data) {
Expect.fail("Unexpected data");
}, onError: (error) {
Expect.isFalse(gotError);
gotError = true;
Expect.equals("error", error);
}, onDone: () {
Expect.isTrue(gotError);
asyncEnd();
});
completer.completeError("error");
}
void testFutureAsStreamWrapper() {
var completer = new Completer();
bool gotValue = false;
asyncStart();
completer.complete("value");
completer.future
.catchError((_) {
throw "not possible";
}) // Returns a future wrapper.
.asStream()
.listen((data) {
Expect.isFalse(gotValue);
gotValue = true;
Expect.equals("value", data);
}, onDone: () {
Expect.isTrue(gotValue);
asyncEnd();
});
}
void testFutureWhenCompleteValue() {
asyncStart();
int counter = 2;
countDown() {
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
Future future = completer.future;
Future later = future.whenComplete(countDown);
later.then((v) {
Expect.equals(42, v);
countDown();
});
completer.complete(42);
}
void testFutureWhenCompleteError() {
asyncStart();
int counter = 2;
countDown() {
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
Future future = completer.future;
Future later = future.whenComplete(countDown);
later.catchError((error) {
Expect.equals("error", error);
countDown();
});
completer.completeError("error");
}
void testFutureWhenCompleteValueNewError() {
asyncStart();
int counter = 2;
countDown() {
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
Future future = completer.future;
Future later = future.whenComplete(() {
countDown();
throw "new error";
});
later.catchError((error) {
Expect.equals("new error", error);
countDown();
});
completer.complete(42);
}
void testFutureWhenCompleteErrorNewError() {
asyncStart();
int counter = 2;
countDown() {
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
Future future = completer.future;
Future later = future.whenComplete(() {
countDown();
throw "new error";
});
later.catchError((error) {
Expect.equals("new error", error);
countDown();
});
completer.completeError("error");
}
void testFutureWhenCompletePreValue() {
asyncStart();
int counter = 2;
countDown() {
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
Future future = completer.future;
completer.complete(42);
Timer.run(() {
Future later = future.whenComplete(countDown);
later.then((v) {
Expect.equals(42, v);
countDown();
});
});
}
void testFutureWhenValueFutureValue() {
asyncStart();
int counter = 3;
countDown(int expect) {
Expect.equals(expect, counter);
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
completer.future.whenComplete(() {
countDown(3);
var completer2 = new Completer();
new Timer(MS * 10, () {
countDown(2);
completer2.complete(37);
});
return completer2.future;
}).then((v) {
Expect.equals(42, v);
countDown(1);
});
completer.complete(42);
}
void testFutureWhenValueFutureError() {
asyncStart();
int counter = 3;
countDown(int expect) {
Expect.equals(expect, counter);
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
completer.future.whenComplete(() {
countDown(3);
var completer2 = new Completer();
new Timer(MS * 10, () {
countDown(2);
completer2.completeError("Fail");
});
return completer2.future;
}).then((v) {
Expect.fail("should fail async");
}, onError: (error) {
Expect.equals("Fail", error);
countDown(1);
});
completer.complete(42);
}
void testFutureWhenErrorFutureValue() {
asyncStart();
int counter = 3;
countDown(int expect) {
Expect.equals(expect, counter);
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
completer.future.whenComplete(() {
countDown(3);
var completer2 = new Completer();
new Timer(MS * 10, () {
countDown(2);
completer2.complete(37);
});
return completer2.future;
}).then((v) {
Expect.fail("should fail async");
}, onError: (error) {
Expect.equals("Error", error);
countDown(1);
});
completer.completeError("Error");
}
void testFutureWhenErrorFutureError() {
asyncStart();
int counter = 3;
countDown(int expect) {
Expect.equals(expect, counter);
if (--counter == 0) asyncEnd();
}
var completer = new Completer();
completer.future.whenComplete(() {
countDown(3);
var completer2 = new Completer();
new Timer(MS * 10, () {
countDown(2);
completer2.completeError("Fail");
});
return completer2.future;
}).then((v) {
Expect.fail("should fail async");
}, onError: (error) {
Expect.equals("Fail", error);
countDown(1);
});
completer.completeError("Error");
}
void testFutureThenThrowsAsync() {
final completer = new Completer<int?>();
final future = completer.future;
int error = 42;
asyncStart();
future.then((v) {
throw error;
return null;
}).catchError((e) {
Expect.identical(error, e);
asyncEnd();
});
completer.complete(0);
}
void testFutureCatchThrowsAsync() {
final completer = new Completer<int?>();
final future = completer.future;
int error = 42;
asyncStart();
future.catchError((e) {
throw error;
}).catchError((e) {
Expect.identical(error, e);
asyncEnd();
});
completer.completeError(0);
}
void testFutureCatchRethrowsAsync() {
final completer = new Completer<int?>();
final future = completer.future;
var error;
asyncStart();
future.catchError((e) {
error = e;
throw e;
}).catchError((e) {
Expect.identical(error, e);
asyncEnd();
});
completer.completeError(0);
}
void testFutureWhenThrowsAsync() {
final completer = new Completer<int?>();
final future = completer.future;
var error = 42;
asyncStart();
future.whenComplete(() {
throw error;
}).catchError((e) {
Expect.identical(error, e);
asyncEnd();
});
completer.complete(0);
}
void testCompleteWithError() {
final completer = new Completer<int?>();
final future = completer.future;
var error = 42;
asyncStart();
future.catchError((e) {
Expect.identical(error, e);
asyncEnd();
});
completer.completeError(error);
}
void testCompleteWithFutureSuccess() {
asyncStart();
final completer = new Completer<int>();
final completer2 = new Completer<int>();
completer.complete(completer2.future);
completer.future.then((v) {
Expect.equals(42, v);
asyncEnd();
});
completer2.complete(42);
}
void testCompleteWithFutureSuccess2() {
asyncStart();
final completer = new Completer<int>();
final result = new Future<int>.value(42);
completer.complete(result);
completer.future.then((v) {
Expect.equals(42, v);
asyncEnd();
});
}
void testCompleteWithFutureError() {
asyncStart();
final completer = new Completer<int>();
final completer2 = new Completer<int>();
completer.complete(completer2.future);
completer.future.then((v) {
Expect.fail("Should not happen");
asyncEnd();
}, onError: (e) {
Expect.equals("ERROR-tcwfe", e);
asyncEnd();
});
completer2.completeError("ERROR-tcwfe");
}
void testCompleteWithFutureError2() {
asyncStart();
final completer = new Completer<int>();
var result = new Future<int>.error("ERROR-tcwfe2");
completer.complete(result);
completer.future.then((v) {
Expect.fail("Should not happen");
asyncEnd();
}, onError: (e) {
Expect.equals("ERROR-tcwfe2", e);
asyncEnd();
});
}
void testCompleteErrorWithFuture() {
asyncStart();
final completer = new Completer<int>();
completer.completeError(new Future.value(42));
completer.future.then((_) {
Expect.fail("Shouldn't happen");
}, onError: (e, s) {
Future f = e;
f.then((v) {
Expect.equals(42, v);
asyncEnd();
});
});
}
void testCompleteWithCustomFutureSuccess() {
asyncStart();
final completer = new Completer<int>();
final completer2 = new Completer<int>();
completer.complete(new CustomFuture<int>(completer2.future));
completer.future.then((v) {
Expect.equals(42, v);
asyncEnd();
});
completer2.complete(42);
}
void testCompleteWithCustomFutureError() {
asyncStart();
final completer = new Completer<int>();
final completer2 = new Completer<int>();
completer.complete(new CustomFuture<int>(completer2.future));
completer.future.then((v) {
Expect.fail("Should not happen");
asyncEnd();
}, onError: (e) {
Expect.equals("ERROR-tcwcfe", e);
asyncEnd();
});
completer2.completeError("ERROR-tcwcfe");
}
void testCompleteErrorWithCustomFuture() {
asyncStart();
final completer = new Completer<int>();
var future = new CustomFuture<int>(new Future.value(42));
completer.completeError(future);
completer.future.then((_) {
Expect.fail("Shouldn't happen");
}, onError: (e) {
Future f = e;
f.then((v) {
Expect.equals(42, v);
asyncEnd();
});
});
}
void testChainedFutureValue() {
final completer = new Completer();
final future = completer.future;
asyncStart();
future.then((v) => new Future.value(v * 2)).then((v) {
Expect.equals(42, v);
asyncEnd();
});
completer.complete(21);
}
void testChainedFutureValueDelay() {
final completer = new Completer();
final future = completer.future;
asyncStart();
future
.then((v) =>
new Future.delayed(const Duration(milliseconds: 10), () => v * 2))
.then((v) {
Expect.equals(42, v);
asyncEnd();
});
completer.complete(21);
}
void testChainedFutureValue2Delay() {
asyncStart();
new Future.delayed(const Duration(milliseconds: 10)).then((v) {
Expect.isNull(v);
asyncEnd();
});
}
void testChainedFutureError() {
final completer = new Completer();
final future = completer.future;
asyncStart();
future.then((v) => new Future.error("Fehler")).then((v) {
Expect.fail("unreachable!");
}, onError: (error) {
Expect.equals("Fehler", error);
asyncEnd();
});
completer.complete(21);
}
void testSyncFuture_i13368() {
asyncStart();
final future = new Future<int>.sync(() {
return new Future<int>.value(42);
});
future.then((int val) {
Expect.equals(val, 42);
asyncEnd();
});
}
void testWaitCleanUp() {
asyncStart();
// Creates three futures with different completion times, and where some fail.
// The `mask` specifies which futures fail (values 1-7),
// and `permute` defines the order of completion. values 0-5.
void doTest(int mask, int permute) {
asyncStart();
String stringId = "waitCleanup-$mask-$permute";
List<Future?> futures = <Future?>[null, null, null];
List cleanup = [null, null, null];
int permuteTmp = permute;
for (int i = 0; i < 3; i++) {
bool throws = (mask & (1 << i)) != 0;
var future = new Future.delayed(new Duration(milliseconds: 100 * (i + 1)),
() => (throws ? throw "Error $i($mask-$permute)" : i));
int mod = 3 - i;
int position = permuteTmp % mod;
permuteTmp = permuteTmp ~/ mod;
while (futures[position] != null) position++;
futures[position] = future;
cleanup[i] = throws;
}
void cleanUp(index) {
Expect.isFalse(cleanup[index]);
cleanup[index] = true;
}
Future.wait(futures.map((future) => future!), cleanUp: cleanUp).then((_) {
Expect.fail("No error: $stringId");
}, onError: (e, s) {
Expect.listEquals([true, true, true], cleanup);
asyncEnd();
});
}
for (int i = 1; i < 8; i++) {
for (int j = 0; j < 6; j++) {
doTest(i, j);
}
}
asyncEnd();
}
void testWaitCleanUpEager() {
asyncStart();
// Creates three futures with different completion times, and where some fail.
// The `mask` specifies which futures fail (values 1-7),
// and `permute` defines the order of completion. values 0-5.
void doTest(int mask, int permute) {
asyncStart();
asyncStart();
bool done = false;
String stringId = "waitCleanup-$mask-$permute";
List<Future?> futures = <Future?>[null, null, null];
List cleanup = [null, null, null];
int permuteTmp = permute;
for (int i = 0; i < 3; i++) {
bool throws = (mask & (1 << i)) != 0;
var future = new Future.delayed(new Duration(milliseconds: 100 * (i + 1)),
() => (throws ? throw "Error $i($mask-$permute)" : i));
int mod = 3 - i;
int position = permuteTmp % mod;
permuteTmp = permuteTmp ~/ mod;
while (futures[position] != null) position++;
futures[position] = future;
cleanup[i] = throws;
}
void checkDone() {
if (done) return;
if (cleanup.every((v) => v)) {
done = true;
asyncEnd();
}
}
void cleanUp(index) {
Expect.isFalse(cleanup[index]);
cleanup[index] = true;
// Cleanup might happen before and after the wait().then() callback.
checkDone();
}
Future.wait(futures.map((future) => future!),
eagerError: true, cleanUp: cleanUp)
.then((_) {
Expect.fail("No error: $stringId");
}, onError: (e, s) {
asyncEnd();
checkDone();
});
}
for (int i = 1; i < 8; i++) {
for (int j = 0; j < 6; j++) {
doTest(i, j);
}
}
asyncEnd();
}
void testWaitCleanUpError() {
var cms = const Duration(milliseconds: 100);
var cleanups = new List.filled(3, false);
var uncaughts = new List.filled(3, false);
asyncStart();
asyncStart();
asyncStart();
runZonedGuarded(() {
Future<List<int>?>.value(Future.wait([
new Future.delayed(cms, () => 0),
new Future.delayed(cms * 2, () => throw 1),
new Future.delayed(cms * 3, () => 2)
], cleanUp: (index) {
Expect.isTrue(index == 0 || index == 2, "$index");
Expect.isFalse(cleanups[index]);
cleanups[index] = true;
throw index;
})).catchError((e) {
Expect.equals(e, 1);
asyncEnd();
});
}, (e, s) {
int index = e as int;
Expect.isTrue(index == 0 || index == 2, "$index");
Expect.isFalse(uncaughts[index]);
uncaughts[index] = true;
asyncEnd();
});
}
void testWaitSyncError() {
var cms = const Duration(milliseconds: 100);
var cleanups = new List.filled(3, false);
asyncStart();
asyncStart();
runZoned(() {
Future.wait(
new Iterable.generate(5, (i) {
if (i != 3) return new Future.delayed(cms * (i + 1), () => i);
throw "throwing synchronously in iterable";
}), cleanUp: (dynamic index) {
Expect.isFalse(cleanups[index]);
cleanups[index] = true;
if (cleanups.every((x) => x)) asyncEnd();
});
}, onError: (e, s) {
asyncEnd();
});
}
// Creates an Iterable that throws when iterated. Used to validate how
// Future.wait() handles a synchronous error occurring inside its own code.
Iterable<Future> badIterable() sync* {
throw "!";
}
void testWaitSyncError2() {
asyncStart();
Future<List?>.value(Future.wait(badIterable())).catchError((e, st) {
// Makes sure that the `catchError` is invoked.
// Regression test: an earlier version of `Future.wait` would propagate
// the error too soon for the code to install an error handler.
// `testWaitSyncError` didn't show this problem, because the `runZoned`
// was already installed.
asyncEnd();
});
}
// Future.wait transforms synchronous errors into asynchronous ones.
// This function tests that zones can intercept them.
void testWaitSyncError3() {
var caughtError;
var count = 0;
AsyncError? errorCallback(Zone self, ZoneDelegate parent, Zone zone,
Object error, StackTrace? stackTrace) {
Expect.equals(0, count);
count++;
caughtError = error;
return parent.errorCallback(zone, error, stackTrace);
}
asyncStart();
runZoned(() {
Future<List?>.value(Future.wait(badIterable())).catchError((e, st) {
Expect.identical(e, caughtError);
Expect.equals(1, count);
asyncEnd();
});
}, zoneSpecification: new ZoneSpecification(errorCallback: errorCallback));
}
void testBadFuture() {
var bad = new BadFuture();
// Completing with bad future (then call throws) puts error in result.
asyncStart();
Completer completer = new Completer();
completer.complete(bad);
completer.future.then((_) {
Expect.fail("unreachable");
}, onError: (e, s) {
Expect.isTrue(completer.isCompleted);
asyncEnd();
});
asyncStart();
var f = new Future.value().then((_) => bad);
f.then((_) {
Expect.fail("unreachable");
}, onError: (e, s) {
asyncEnd();
});
}
void testTypes() {
// Test that future is a Future<int> and not something less precise.
testType(name, future, [int depth = 2]) {
var desc = "$name${".whenComplete" * (2 - depth)}";
Expect.isTrue(future is Future<int>, "$desc is Future<int>");
Expect.isFalse(future is Future<String>, "$desc is! Future<String>");
var stream = future.asStream();
Expect.isTrue(stream is Stream<int>, "$desc.asStream() is Stream<int>");
Expect.isFalse(
stream is Stream<String>, "$desc.asStream() is! Stream<String>");
if (depth > 0) {
testType(name, future.whenComplete(() {}), depth - 1);
}
}
for (var value in [42]) {
testType("Future($value)", new Future<int>(() => value));
testType("Future.delayed($value)",
new Future<int>.delayed(Duration.zero, () => value));
testType(
"Future.microtask($value)", new Future<int>.microtask(() => value));
testType("Future.sync($value)", new Future<int>.sync(() => value));
testType("Future.sync(future($value))",
new Future<int>.sync(() => new Future<int>.value(value)));
testType("Future.value($value)", new Future<int>.value(value));
testType(
"Future.error", new Future<int>.error("ERR")..catchError((_) => value));
}
testType("Completer.future", new Completer<int>().future);
}
void testAnyValue() {
asyncStart();
var cs = new List.generate(3, (_) => new Completer());
var result = Future.any(cs.map((x) => x.future));
result.then((v) {
Expect.equals(42, v);
asyncEnd();
}, onError: (e, s) {
Expect.fail("Unexpected error: $e");
});
cs[1].complete(42);
cs[2].complete(10);
cs[0].complete(20);
}
void testAnyError() {
asyncStart();
var cs = new List.generate(3, (_) => new Completer());
var result = Future.any(cs.map((x) => x.future));
result.then((v) {
Expect.fail("Unexpected value: $v");
}, onError: (e, s) {
Expect.equals(42, e);
asyncEnd();
});
cs[1].completeError(42);
cs[2].complete(10);
cs[0].complete(20);
}
void testAnyIgnoreIncomplete() {
asyncStart();
var cs = new List.generate(3, (_) => new Completer());
var result = Future.any(cs.map((x) => x.future));
result.then((v) {
Expect.equals(42, v);
asyncEnd();
}, onError: (e, s) {
Expect.fail("Unexpected error: $e");
});
cs[1].complete(42);
// The other two futures never complete.
}
void testAnyIgnoreError() {
asyncStart();
var cs = new List.generate(3, (_) => new Completer());
var result = Future.any(cs.map((x) => x.future));
result.then((v) {
Expect.equals(42, v);
asyncEnd();
}, onError: (e, s) {
Expect.fail("Unexpected error: $e");
});
cs[1].complete(42);
// The errors are ignored, not uncaught.
cs[2].completeError("BAD");
cs[0].completeError("BAD");
}
void testFutureResult() {
asyncStart();
() async {
var f = new UglyFuture(5);
// Sanity check that our future is as mis-behaved as we think.
f.then((v) {
Expect.equals(UglyFuture(4), v);
});
var v = await f;
// The static type of await is Flatten(static-type-of-expression), so it
// suggests that it flattens. In practice it currently doesn't.
// The specification doesn't say anything special, so v should be the
// completion value of the UglyFuture future which is a future.
Expect.equals(UglyFuture(4), v);
// We no longer flatten recursively when completing a future.
var w = new Future.value(42).then((_) => f);
Expect.equals(UglyFuture(4), await w);
asyncEnd();
}();
}
void testFutureOfFuture() async {
// Plain Future.
asyncStart();
var future = Future<Future<int>>.value(Future<int>.value(42));
Expect.type<Future<Future<int>>>(future);
future.then((innerFuture) {
Expect.type<Future<int>>(innerFuture);
innerFuture.then((number) {
Expect.equals(42, number);
asyncEnd();
});
});
// With completer.
asyncStart();
var completer = Completer<Future<int>>();
Expect.type<Future<Future<int>>>(completer.future);
completer.future.then((innerFuture) {
Expect.type<Future<int>>(innerFuture);
innerFuture.then((number) {
Expect.equals(42, number);
asyncEnd();
});
});
completer.complete(Future<int>.value(42));
}
main() {
asyncStart();
testValue();
testSync();
testNeverComplete();
testComplete();
testCompleteWithSuccessHandlerBeforeComplete();
testCompleteWithSuccessHandlerAfterComplete();
testCompleteManySuccessHandlers();
testCompleteWithError();
testCompleteWithFutureSuccess();
testCompleteWithFutureSuccess2();
testCompleteWithFutureError();
testCompleteWithFutureError2();
testCompleteErrorWithFuture();
testCompleteWithCustomFutureSuccess();
testCompleteWithCustomFutureError();
testCompleteErrorWithCustomFuture();
testException();
testExceptionHandler();
testExceptionHandlerReturnsTrue();
testExceptionHandlerReturnsTrue2();
testExceptionHandlerReturnsFalse();
testFutureAsStreamCompleteAfter();
testFutureAsStreamCompleteBefore();
testFutureAsStreamCompleteImmediate();
testFutureAsStreamCompleteErrorAfter();
testFutureAsStreamWrapper();
testFutureWhenCompleteValue();
testFutureWhenCompleteError();
testFutureWhenCompleteValueNewError();
testFutureWhenCompleteErrorNewError();
testFutureWhenValueFutureValue();
testFutureWhenErrorFutureValue();
testFutureWhenValueFutureError();
testFutureWhenErrorFutureError();
testFutureThenThrowsAsync();
testFutureCatchThrowsAsync();
testFutureWhenThrowsAsync();
testFutureCatchRethrowsAsync();
testChainedFutureValue();
testChainedFutureValueDelay();
testChainedFutureError();
testSyncFuture_i13368();
testWaitCleanUp();
testWaitCleanUpError();
testWaitSyncError();
testWaitSyncError2();
testWaitSyncError3();
testBadFuture();
testTypes();
testAnyValue();
testAnyError();
testAnyIgnoreIncomplete();
testAnyIgnoreError();
testFutureResult();
testFutureOfFuture();
asyncEnd();
}
/// A well-behaved Future that isn't recognizable as a _Future.
class CustomFuture<T> implements Future<T> {
Future<T> _realFuture;
CustomFuture(this._realFuture);
Future<S> then<S>(FutureOr<S> action(T result), {Function? onError}) =>
_realFuture.then(action, onError: onError);
Future<T> catchError(Function onError, {bool test(Object e)?}) =>
_realFuture.catchError(onError, test: test);
Future<T> whenComplete(action()) => _realFuture.whenComplete(action);
Future<T> timeout(Duration timeLimit, {FutureOr<T> onTimeout()?}) =>
_realFuture.timeout(timeLimit, onTimeout: onTimeout);
Stream<T> asStream() => _realFuture.asStream();
String toString() => "CustomFuture@${_realFuture.hashCode}";
int get hashCode => _realFuture.hashCode;
}
/// A bad future that throws on every method.
class BadFuture<T> implements Future<T> {
Future<S> then<S>(action(T result), {Function? onError}) {
throw "then GOTCHA!";
}
Future<T> catchError(Function onError, {bool test(Object e)?}) {
throw "catch GOTCHA!";
}
Future<T> whenComplete(action()) {
throw "finally GOTCHA!";
}
Stream<T> asStream() {
throw "asStream GOTCHA!";
}
Future<T> timeout(Duration duration, {onTimeout()?}) {
throw "timeout GOTCHA!";
}
}
// An evil future that completes with another future.
class UglyFuture implements Future<dynamic> {
final _result;
final int _badness;
UglyFuture(int badness)
: _badness = badness,
_result = (badness == 0) ? 42 : new UglyFuture(badness - 1);
Future<S> then<S>(action(value), {Function? onError}) {
var c = new Completer<S>();
c.complete(new Future<S>.microtask(() => action(_result)));
return c.future;
}
Future catchError(onError, {test}) => this; // Never an error.
Future whenComplete(action()) {
return new Future.microtask(action).then((_) => this);
}
Stream asStream() {
return (new StreamController()
..add(_result)
..close())
.stream;
}
Future timeout(Duration duration, {onTimeout()?}) {
return this;
}
int get hashCode => _badness;
bool operator ==(Object other) =>
other is UglyFuture && _badness == other._badness;
String toString() => "UglyFuture($_badness)";
}