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linux-packaging-mono/external/rx/Rx/NET/Source/Tests.System.Reactive/Tests/Linq/ObservableBlockingTest.cs

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Imported Upstream version 3.6.0 Former-commit-id: da6be194a6b1221998fc28233f2503bd61dd9d14
2014-08-13 10:39:27 +01:00
// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Reactive.Concurrency;
using System.Reactive.Disposables;
using System.Reactive.Linq;
using System.Threading;
using Microsoft.Reactive.Testing;
#if NUNIT
using NUnit.Framework;
using TestClassAttribute = NUnit.Framework.TestFixtureAttribute;
using TestMethodAttribute = NUnit.Framework.TestAttribute;
using TestInitializeAttribute = NUnit.Framework.SetUpAttribute;
#else
using Microsoft.VisualStudio.TestTools.UnitTesting;
#endif
using ReactiveTests.Dummies;
#if !NO_TPL
using System.Threading.Tasks;
#endif
namespace ReactiveTests.Tests
{
[TestClass]
public partial class ObservableBlockingTest : ReactiveTest
{
#region Chunkify
[TestMethod]
public void Chunkify_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Chunkify(default(IObservable<int>)));
}
[TestMethod]
public void Chunkify_Regular1()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnNext(500, 5),
OnNext(600, 6),
OnNext(700, 7),
OnNext(800, 8),
OnCompleted<int>(900)
);
var ys = xs.Chunkify();
var e = default(IEnumerator<IList<int>>);
var res = new List<IList<int>>();
var log = new Action(() =>
{
Assert.IsTrue(e.MoveNext());
res.Add(e.Current);
});
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(270, log);
scheduler.ScheduleAbsolute(310, log);
scheduler.ScheduleAbsolute(450, log);
scheduler.ScheduleAbsolute(470, log);
scheduler.ScheduleAbsolute(750, log);
scheduler.ScheduleAbsolute(850, log);
scheduler.ScheduleAbsolute(950, log);
scheduler.ScheduleAbsolute(980, () => Assert.IsFalse(e.MoveNext()));
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 900)
);
Assert.AreEqual(7, res.Count);
Assert.IsTrue(res[0].SequenceEqual(new int[] { }));
Assert.IsTrue(res[1].SequenceEqual(new int[] { 3 }));
Assert.IsTrue(res[2].SequenceEqual(new int[] { 4 }));
Assert.IsTrue(res[3].SequenceEqual(new int[] { }));
Assert.IsTrue(res[4].SequenceEqual(new int[] { 5, 6, 7 }));
Assert.IsTrue(res[5].SequenceEqual(new int[] { 8 }));
Assert.IsTrue(res[6].SequenceEqual(new int[] { }));
}
[TestMethod]
public void Chunkify_Regular2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnNext(500, 5),
OnNext(600, 6),
OnNext(700, 7),
OnNext(800, 8),
OnCompleted<int>(900)
);
var ys = xs.Chunkify();
var e = default(IEnumerator<IList<int>>);
var res = new List<IList<int>>();
var log = new Action(() =>
{
Assert.IsTrue(e.MoveNext());
res.Add(e.Current);
});
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(550, log);
scheduler.ScheduleAbsolute(950, log);
scheduler.ScheduleAbsolute(980, () => Assert.IsFalse(e.MoveNext()));
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 900)
);
Assert.AreEqual(2, res.Count);
Assert.IsTrue(res[0].SequenceEqual(new int[] { 3, 4, 5 }));
Assert.IsTrue(res[1].SequenceEqual(new int[] { 6, 7, 8 }));
}
[TestMethod]
public void Chunkify_Error()
{
var ex = new Exception();
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnNext(500, 5),
OnNext(600, 6),
OnError<int>(700, ex)
);
var ys = xs.Chunkify();
var e = default(IEnumerator<IList<int>>);
var res = new List<IList<int>>();
var log = new Action(() =>
{
Assert.IsTrue(e.MoveNext());
res.Add(e.Current);
});
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(270, log);
scheduler.ScheduleAbsolute(310, log);
scheduler.ScheduleAbsolute(450, log);
scheduler.ScheduleAbsolute(470, log);
scheduler.ScheduleAbsolute(750, () =>
{
try
{
e.MoveNext();
Assert.Fail();
}
catch (Exception error)
{
Assert.AreSame(ex, error);
}
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 700)
);
Assert.AreEqual(4, res.Count);
Assert.IsTrue(res[0].SequenceEqual(new int[] { }));
Assert.IsTrue(res[1].SequenceEqual(new int[] { 3 }));
Assert.IsTrue(res[2].SequenceEqual(new int[] { 4 }));
Assert.IsTrue(res[3].SequenceEqual(new int[] { }));
}
#endregion
#region Collect
[TestMethod]
public void Collect_ArgumentChecking()
{
var someObservable = Observable.Empty<int>();
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(default(IObservable<int>), () => 0, (x, y) => x));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(someObservable, default(Func<int>), (x, y) => x));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(someObservable, () => 0, default(Func<int, int, int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(default(IObservable<int>), () => 0, (x, y) => x, x => x));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(someObservable, default(Func<int>), (x, y) => x, x => x));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(someObservable, () => 0, default(Func<int, int, int>), x => x));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Collect(someObservable, () => 0, (x, y) => x, default(Func<int, int>)));
}
[TestMethod]
public void Collect_Regular1()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnNext(500, 5),
OnNext(600, 6),
OnNext(700, 7),
OnNext(800, 8),
OnCompleted<int>(900)
);
var ys = xs.Collect(() => 0, (x, y) => x + y);
var e = default(IEnumerator<int>);
var res = new List<int>();
var log = new Action(() =>
{
Assert.IsTrue(e.MoveNext());
res.Add(e.Current);
});
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(270, log);
scheduler.ScheduleAbsolute(310, log);
scheduler.ScheduleAbsolute(450, log);
scheduler.ScheduleAbsolute(470, log);
scheduler.ScheduleAbsolute(750, log);
scheduler.ScheduleAbsolute(850, log);
scheduler.ScheduleAbsolute(950, log);
scheduler.ScheduleAbsolute(980, () => Assert.IsFalse(e.MoveNext()));
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 900)
);
Assert.AreEqual(7, res.Count);
Assert.AreEqual(res[0], new int[] { }.Sum());
Assert.AreEqual(res[1], new int[] { 3 }.Sum());
Assert.AreEqual(res[2], new int[] { 4 }.Sum());
Assert.AreEqual(res[3], new int[] { }.Sum());
Assert.AreEqual(res[4], new int[] { 5, 6, 7 }.Sum());
Assert.AreEqual(res[5], new int[] { 8 }.Sum());
Assert.AreEqual(res[6], new int[] { }.Sum());
}
[TestMethod]
public void Collect_Regular2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnNext(500, 5),
OnNext(600, 6),
OnNext(700, 7),
OnNext(800, 8),
OnCompleted<int>(900)
);
var ys = xs.Collect(() => 0, (x, y) => x + y);
var e = default(IEnumerator<int>);
var res = new List<int>();
var log = new Action(() =>
{
Assert.IsTrue(e.MoveNext());
res.Add(e.Current);
});
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(550, log);
scheduler.ScheduleAbsolute(950, log);
scheduler.ScheduleAbsolute(980, () => Assert.IsFalse(e.MoveNext()));
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 900)
);
Assert.AreEqual(2, res.Count);
Assert.AreEqual(res[0], new int[] { 3, 4, 5 }.Sum());
Assert.AreEqual(res[1], new int[] { 6, 7, 8 }.Sum());
}
[TestMethod]
public void Collect_InitialCollectorThrows()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnCompleted<int>(500)
);
var ex = new Exception();
var ys = xs.Collect<int, int>(() => { throw ex; }, (x, y) => x + y);
var ex_ = default(Exception);
scheduler.ScheduleAbsolute(250, () =>
{
try
{
ys.GetEnumerator();
}
catch (Exception err)
{
ex_ = err;
}
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
);
Assert.AreSame(ex_, ex);
}
[TestMethod]
public void Collect_SecondCollectorThrows()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnCompleted<int>(500)
);
var ex = new Exception();
var n = 0;
var ys = xs.Collect<int, int>(() => { if (n++ == 0) return 0; else throw ex; }, (x, y) => x + y);
var e = default(IEnumerator<int>);
var ex_ = default(Exception);
scheduler.ScheduleAbsolute(250, () => e = ys.GetEnumerator());
scheduler.ScheduleAbsolute(350, () =>
{
try
{
e.MoveNext();
}
catch (Exception err)
{
ex_ = err;
}
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 350)
);
Assert.AreSame(ex_, ex);
}
[TestMethod]
public void Collect_NewCollectorThrows()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnCompleted<int>(500)
);
var ex = new Exception();
var ys = xs.Collect<int, int>(() => 0, (x, y) => x + y, x => { throw ex; });
var e = default(IEnumerator<int>);
var ex_ = default(Exception);
scheduler.ScheduleAbsolute(250, () => e = ys.GetEnumerator());
scheduler.ScheduleAbsolute(350, () =>
{
try
{
e.MoveNext();
}
catch (Exception err)
{
ex_ = err;
}
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 350)
);
Assert.AreSame(ex_, ex);
}
[TestMethod]
public void Collect_MergeThrows()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable(
OnNext(100, 1),
OnNext(200, 2),
OnNext(300, 3),
OnNext(400, 4),
OnCompleted<int>(500)
);
var ex = new Exception();
var ys = xs.Collect<int, int>(() => 0, (x, y) => { throw ex; });
var e = default(IEnumerator<int>);
var ex_ = default(Exception);
scheduler.ScheduleAbsolute(250, () => { e = ys.GetEnumerator(); });
scheduler.ScheduleAbsolute(350, () =>
{
try
{
e.MoveNext();
}
catch (Exception err)
{
ex_ = err;
}
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(250, 300)
);
Assert.AreSame(ex_, ex);
}
#endregion
#region First
[TestMethod]
public void First_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.First(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.First(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.First(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void First_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().First());
}
[TestMethod]
public void FirstPredicate_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().First(_ => true));
}
[TestMethod]
public void First_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).First());
}
[TestMethod]
public void FirstPredicate_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).First(i => i % 2 == 0));
}
[TestMethod]
public void FirstPredicate_Return_NoMatch()
{
var value = 42;
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Return<int>(value).First(i => i % 2 != 0));
}
[TestMethod]
public void First_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.First());
}
[TestMethod]
public void FirstPredicate_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.First(_ => true));
}
[TestMethod]
public void First_Range()
{
var value = 42;
Assert.AreEqual(value, Observable.Range(value, 10).First());
}
[TestMethod]
public void FirstPredicate_Range()
{
var value = 42;
Assert.AreEqual(46, Observable.Range(value, 10).First(i => i > 45));
}
#endregion
#region FirstOrDefault
[TestMethod]
public void FirstOrDefault_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.FirstOrDefault(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.FirstOrDefault(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.FirstOrDefault(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void FirstOrDefault_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().FirstOrDefault());
}
[TestMethod]
public void FirstOrDefaultPredicate_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().FirstOrDefault(_ => true));
}
[TestMethod]
public void FirstOrDefault_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).FirstOrDefault());
}
[TestMethod]
public void FirstOrDefault_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.FirstOrDefault());
}
[TestMethod]
public void FirstOrDefault_Range()
{
var value = 42;
Assert.AreEqual(value, Observable.Range(value, 10).FirstOrDefault());
}
#endregion
#region + ForEach +
[TestMethod]
public void ForEach_ArgumentChecking()
{
var someObservable = Observable.Empty<int>();
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.ForEach(default(IObservable<int>), x => { }));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.ForEach(someObservable, default(Action<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.ForEach(default(IObservable<int>), (x, i) => { }));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.ForEach(someObservable, default(Action<int, int>)));
}
[TestMethod]
public void ForEach_Empty()
{
var lst = new List<int>();
Observable.Empty<int>().ForEach(x => lst.Add(x));
Assert.IsTrue(lst.SequenceEqual(Enumerable.Empty<int>()));
}
[TestMethod]
public void ForEach_Index_Empty()
{
var lstX = new List<int>();
Observable.Empty<int>().ForEach((x, i) => lstX.Add(x));
Assert.IsTrue(lstX.SequenceEqual(Enumerable.Empty<int>()));
}
[TestMethod]
public void ForEach_Return()
{
var lst = new List<int>();
Observable.Return(42).ForEach(x => lst.Add(x));
Assert.IsTrue(lst.SequenceEqual(new[] { 42 }));
}
[TestMethod]
public void ForEach_Index_Return()
{
var lstX = new List<int>();
var lstI = new List<int>();
Observable.Return(42).ForEach((x, i) => { lstX.Add(x); lstI.Add(i); });
Assert.IsTrue(lstX.SequenceEqual(new[] { 42 }));
Assert.IsTrue(lstI.SequenceEqual(new[] { 0 }));
}
[TestMethod]
public void ForEach_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.ForEach(x => { Assert.Fail(); }));
}
[TestMethod]
public void ForEach_Index_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.ForEach((x, i) => { Assert.Fail(); }));
}
[TestMethod]
public void ForEach_SomeData()
{
var lstX = new List<int>();
Observable.Range(10, 10).ForEach(x => lstX.Add(x));
Assert.IsTrue(lstX.SequenceEqual(Enumerable.Range(10, 10)));
}
[TestMethod]
public void ForEach_Index_SomeData()
{
var lstX = new List<int>();
var lstI = new List<int>();
Observable.Range(10, 10).ForEach((x, i) => { lstX.Add(x); lstI.Add(i); });
Assert.IsTrue(lstX.SequenceEqual(Enumerable.Range(10, 10)));
Assert.IsTrue(lstI.SequenceEqual(Enumerable.Range(0, 10)));
}
[TestMethod]
public void ForEach_OnNextThrows()
{
var ex = new Exception();
var xs = Observable.Range(0, 10);
ReactiveAssert.Throws(ex, () => xs.ForEach(x => { throw ex; }));
}
[TestMethod]
public void ForEach_Index_OnNextThrows()
{
var ex = new Exception();
var xs = Observable.Range(0, 10);
ReactiveAssert.Throws(ex, () => xs.ForEach((x, i) => { throw ex; }));
}
#endregion
#region + GetEnumerator +
[TestMethod]
public void GetEnumerator_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.GetEnumerator(default(IObservable<int>)));
}
[TestMethod]
public void GetEnumerator_Regular1()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateColdObservable<int>(
OnNext(10, 2),
OnNext(20, 3),
OnNext(30, 5),
OnNext(40, 7),
OnCompleted<int>(50)
);
var res = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(default(object), 100, (self, _) => { res = xs.GetEnumerator(); return Disposable.Empty; });
var hasNext = new List<bool>();
var vals = new List<Tuple<long, int>>();
for (long i = 200; i <= 250; i += 10)
{
var t = i;
scheduler.ScheduleAbsolute(default(object), t, (self, _) =>
{
var b = res.MoveNext();
hasNext.Add(b);
if (b)
vals.Add(new Tuple<long, int>(scheduler.Clock, res.Current));
return Disposable.Empty;
});
}
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(100, 150)
);
Assert.AreEqual(6, hasNext.Count);
Assert.IsTrue(hasNext.Take(4).All(_ => _));
Assert.IsTrue(hasNext.Skip(4).All(_ => !_));
Assert.AreEqual(4, vals.Count);
Assert.IsTrue(vals[0].Item1 == 200 && vals[0].Item2 == 2);
Assert.IsTrue(vals[1].Item1 == 210 && vals[1].Item2 == 3);
Assert.IsTrue(vals[2].Item1 == 220 && vals[2].Item2 == 5);
Assert.IsTrue(vals[3].Item1 == 230 && vals[3].Item2 == 7);
}
[TestMethod]
public void GetEnumerator_Regular2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateColdObservable<int>(
OnNext(10, 2),
OnNext(30, 3),
OnNext(50, 5),
OnNext(70, 7),
OnCompleted<int>(90)
);
var res = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(default(object), 100, (self, _) => { res = xs.GetEnumerator(); return Disposable.Empty; });
var hasNext = new List<bool>();
var vals = new List<Tuple<long, int>>();
for (long i = 120; i <= 220; i += 20)
{
var t = i;
scheduler.ScheduleAbsolute(default(object), t, (self, _) =>
{
var b = res.MoveNext();
hasNext.Add(b);
if (b)
vals.Add(new Tuple<long, int>(scheduler.Clock, res.Current));
return Disposable.Empty;
});
}
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(100, 190)
);
Assert.AreEqual(6, hasNext.Count);
Assert.IsTrue(hasNext.Take(4).All(_ => _));
Assert.IsTrue(hasNext.Skip(4).All(_ => !_));
Assert.AreEqual(4, vals.Count);
Assert.IsTrue(vals[0].Item1 == 120 && vals[0].Item2 == 2);
Assert.IsTrue(vals[1].Item1 == 140 && vals[1].Item2 == 3);
Assert.IsTrue(vals[2].Item1 == 160 && vals[2].Item2 == 5);
Assert.IsTrue(vals[3].Item1 == 180 && vals[3].Item2 == 7);
}
[TestMethod]
public void GetEnumerator_Dispose()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateColdObservable<int>(
OnNext(10, 2),
OnNext(30, 3),
OnNext(50, 5),
OnNext(70, 7),
OnCompleted<int>(90)
);
var res = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(default(object), 100, (self, _) => { res = xs.GetEnumerator(); return Disposable.Empty; });
scheduler.ScheduleAbsolute(default(object), 140, (self, _) =>
{
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(2, res.Current);
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(3, res.Current);
res.Dispose();
return Disposable.Empty;
});
scheduler.ScheduleAbsolute(default(object), 160, (self, _) =>
{
ReactiveAssert.Throws<ObjectDisposedException>(() => res.MoveNext());
return Disposable.Empty;
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(100, 140)
);
}
#if DESKTOPCLR20 || SILVERLIGHTM7
class Tuple<T1, T2>
{
public Tuple(T1 item1, T2 item2)
{
Item1 = item1;
Item2 = item2;
}
public T1 Item1 { get; private set; }
public T2 Item2 { get; private set; }
}
#endif
#endregion
#region Last
[TestMethod]
public void Last_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Last(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Last(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Last(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void Last_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().Last());
}
[TestMethod]
public void LastPredicate_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().Last(_ => true));
}
[TestMethod]
public void Last_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).Last());
}
[TestMethod]
public void Last_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.Last());
}
[TestMethod]
public void Last_Range()
{
var value = 42;
Assert.AreEqual(value, Observable.Range(value - 9, 10).Last());
}
[TestMethod]
public void LastPredicate_Range()
{
var value = 42;
Assert.AreEqual(50, Observable.Range(value, 10).Last(i => i % 2 == 0));
}
#endregion
#region LastOrDefault
[TestMethod]
public void LastOrDefault_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.LastOrDefault(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.LastOrDefault(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.LastOrDefault(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void LastOrDefault_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().LastOrDefault());
}
[TestMethod]
public void LastOrDefaultPredicate_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().LastOrDefault(_ => true));
}
[TestMethod]
public void LastOrDefault_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).LastOrDefault());
}
[TestMethod]
public void LastOrDefault_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.LastOrDefault());
}
[TestMethod]
public void LastOrDefault_Range()
{
var value = 42;
Assert.AreEqual(value, Observable.Range(value - 9, 10).LastOrDefault());
}
[TestMethod]
public void LastOrDefaultPredicate_Range()
{
var value = 42;
Assert.AreEqual(50, Observable.Range(value, 10).LastOrDefault(i => i % 2 == 0));
}
#endregion
#region + Latest +
[TestMethod]
public void Latest_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Latest(default(IObservable<int>)));
}
[TestMethod]
public void Latest1()
{
var disposed = false;
var evt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
evt.WaitOne();
obs.OnNext(2);
evt.WaitOne();
obs.OnCompleted();
}).Start();
return () => { disposed = true; };
});
var res = src.Latest().GetEnumerator();
new Thread(() =>
{
Thread.Sleep(250);
evt.Set();
}).Start();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
evt.Set();
Assert.IsTrue(((IEnumerator)res).MoveNext());
Assert.AreEqual(2, ((IEnumerator)res).Current);
evt.Set();
Assert.IsFalse(res.MoveNext());
ReactiveAssert.Throws<NotSupportedException>(() => res.Reset());
res.Dispose();
//ReactiveAssert.Throws<ObjectDisposedException>(() => res.MoveNext());
Assert.IsTrue(disposed);
}
[TestMethod]
public void Latest2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable<int>(
OnNext(210, 1),
OnNext(220, 2),
OnNext(230, 3),
OnNext(240, 4),
OnNext(250, 5),
OnNext(260, 6),
OnNext(270, 7),
OnNext(280, 8),
OnNext(290, 9),
OnCompleted<int>(300)
);
var res = xs.Latest();
var e1 = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(205, () =>
{
e1 = res.GetEnumerator();
});
var o1 = new List<int>();
scheduler.ScheduleAbsolute(235, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(265, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(285, () => e1.Dispose());
var e2 = default(IEnumerator);
scheduler.ScheduleAbsolute(255, () =>
{
e2 = ((IEnumerable)res).GetEnumerator();
});
var o2 = new List<int>();
scheduler.ScheduleAbsolute(265, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.ScheduleAbsolute(275, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(205, 285),
Subscribe(255, 300)
);
o1.AssertEqual(3, 6);
o2.AssertEqual(6, 7);
}
[TestMethod]
public void Latest_Error()
{
var ex = new Exception();
var evt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
evt.WaitOne();
obs.OnError(ex);
}).Start();
return () => { };
});
var res = src.Latest().GetEnumerator();
new Thread(() =>
{
Thread.Sleep(250);
evt.Set();
}).Start();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
evt.Set();
ReactiveAssert.Throws(ex, () => res.MoveNext());
}
#endregion
#region + MostRecent +
[TestMethod]
public void MostRecent_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.MostRecent(default(IObservable<int>), 1));
}
[TestMethod]
public void MostRecent1()
{
var evt = new AutoResetEvent(false);
var nxt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
nxt.Set();
evt.WaitOne();
obs.OnNext(2);
nxt.Set();
evt.WaitOne();
obs.OnCompleted();
nxt.Set();
}).Start();
return () => { };
});
var res = src.MostRecent(42).GetEnumerator();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(42, res.Current);
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(42, res.Current);
for (int i = 1; i <= 2; i++)
{
evt.Set();
nxt.WaitOne();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(i, res.Current);
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(i, res.Current);
}
evt.Set();
nxt.WaitOne();
Assert.IsFalse(res.MoveNext());
}
[TestMethod]
public void MostRecent2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable<int>(
OnNext(210, 1),
OnNext(220, 2),
OnNext(230, 3),
OnNext(240, 4),
OnNext(250, 5),
OnNext(260, 6),
OnNext(270, 7),
OnNext(280, 8),
OnNext(290, 9),
OnCompleted<int>(300)
);
var res = xs.MostRecent(0);
var e1 = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(200, () =>
{
e1 = res.GetEnumerator();
});
var o1 = new List<int>();
scheduler.ScheduleAbsolute(205, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(232, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(234, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(265, () =>
{
Assert.IsTrue(e1.MoveNext());
o1.Add(e1.Current);
});
scheduler.ScheduleAbsolute(285, () => e1.Dispose());
var e2 = default(IEnumerator);
scheduler.ScheduleAbsolute(255, () =>
{
e2 = ((IEnumerable)res).GetEnumerator();
});
var o2 = new List<int>();
scheduler.ScheduleAbsolute(258, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.ScheduleAbsolute(262, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.ScheduleAbsolute(264, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.ScheduleAbsolute(275, () =>
{
Assert.IsTrue(e2.MoveNext());
o2.Add((int)e2.Current);
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(200, 285),
Subscribe(255, 300)
);
o1.AssertEqual(0, 3, 3, 6);
o2.AssertEqual(0, 6, 6, 7);
}
[TestMethod]
public void MostRecent_Error()
{
var ex = new Exception();
var evt = new AutoResetEvent(false);
var nxt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
nxt.Set();
evt.WaitOne();
obs.OnError(ex);
nxt.Set();
}).Start();
return () => { };
});
var res = src.MostRecent(42).GetEnumerator();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(42, res.Current);
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(42, res.Current);
evt.Set();
nxt.WaitOne();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
evt.Set();
nxt.WaitOne();
ReactiveAssert.Throws(ex, () => res.MoveNext());
}
#endregion
#region + Next +
[TestMethod]
public void Next_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Next(default(IObservable<int>)));
}
[TestMethod]
public void Next1()
{
var evt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
evt.WaitOne();
obs.OnNext(2);
evt.WaitOne();
obs.OnCompleted();
}).Start();
return () => { };
});
var res = src.Next().GetEnumerator();
Action release = () => new Thread(() =>
{
Thread.Sleep(250);
evt.Set();
}).Start();
release();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
release();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(2, res.Current);
release();
Assert.IsFalse(res.MoveNext());
}
[TestMethod]
public void Next2()
{
var scheduler = new TestScheduler();
var xs = scheduler.CreateHotObservable<int>(
OnNext(210, 1),
OnNext(220, 2),
OnNext(230, 3),
OnNext(240, 4),
OnNext(250, 5),
OnNext(260, 6),
OnNext(270, 7),
OnNext(280, 8),
OnNext(290, 9),
OnCompleted<int>(300)
);
var res = xs.Next();
var e1 = default(IEnumerator<int>);
scheduler.ScheduleAbsolute(200, () =>
{
e1 = res.GetEnumerator();
});
scheduler.ScheduleAbsolute(285, () => e1.Dispose());
var e2 = default(IEnumerator);
scheduler.ScheduleAbsolute(255, () =>
{
e2 = ((IEnumerable)res).GetEnumerator();
});
scheduler.Start();
xs.Subscriptions.AssertEqual(
Subscribe(200, 285),
Subscribe(255, 300)
);
}
[TestMethod]
public void Next_DoesNotBlock()
{
var evt = new ManualResetEvent(false);
var xs = Observable.Empty<int>().Do(_ => { }, () => evt.Set());
var e = xs.Next().GetEnumerator();
evt.WaitOne();
Assert.IsFalse(e.MoveNext());
}
[TestMethod]
public void Next_SomeResults()
{
var xs = Observable.Range(0, 100, Scheduler.Default);
var res = xs.Next().ToList();
Assert.IsTrue(res.All(x => x < 100));
Assert.IsTrue(res.Count == res.Distinct().Count());
}
[TestMethod]
public void Next_Error()
{
var ex = new Exception();
var evt = new AutoResetEvent(false);
var src = Observable.Create<int>(obs =>
{
new Thread(() =>
{
evt.WaitOne();
obs.OnNext(1);
evt.WaitOne();
obs.OnError(ex);
}).Start();
return () => { };
});
var res = src.Next().GetEnumerator();
Action release = () => new Thread(() =>
{
Thread.Sleep(250);
evt.Set();
}).Start();
release();
Assert.IsTrue(res.MoveNext());
Assert.AreEqual(1, res.Current);
release();
ReactiveAssert.Throws(ex, () => res.MoveNext());
}
#endregion
#region Single
[TestMethod]
public void Single_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Single(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Single(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Single(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void Single_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().Single());
}
[TestMethod]
public void SinglePredicate_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().Single(_ => true));
}
[TestMethod]
public void Single_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).Single());
}
[TestMethod]
public void Single_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.Single());
}
[TestMethod]
public void Single_Range()
{
var value = 42;
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Range(value, 10).Single());
}
[TestMethod]
public void SinglePredicate_Range()
{
var value = 42;
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Range(value, 10).Single(i => i % 2 == 0));
}
[TestMethod]
public void SinglePredicate_Range_ReducesToSingle()
{
var value = 42;
Assert.AreEqual(45, Observable.Range(value, 10).Single(i => i == 45));
}
#endregion
#region SingleOrDefault
[TestMethod]
public void SingleOrDefault_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.SingleOrDefault(default(IObservable<int>)));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.SingleOrDefault(default(IObservable<int>), _ => true));
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.SingleOrDefault(DummyObservable<int>.Instance, default(Func<int, bool>)));
}
[TestMethod]
public void SingleOrDefault_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().SingleOrDefault());
}
[TestMethod]
public void SingleOrDefaultPredicate_Empty()
{
Assert.AreEqual(default(int), Observable.Empty<int>().SingleOrDefault(_ => true));
}
[TestMethod]
public void SingleOrDefault_Return()
{
var value = 42;
Assert.AreEqual(value, Observable.Return<int>(value).SingleOrDefault());
}
[TestMethod]
public void SingleOrDefault_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.SingleOrDefault());
}
[TestMethod]
public void SingleOrDefault_Range()
{
var value = 42;
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Range(value, 10).SingleOrDefault());
}
[TestMethod]
public void SingleOrDefaultPredicate_Range()
{
var value = 42;
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Range(value, 10).SingleOrDefault(i => i % 2 == 0));
}
[TestMethod]
public void SingleOrDefault_Range_ReducesToSingle()
{
var value = 42;
Assert.AreEqual(45, Observable.Range(value, 10).SingleOrDefault(i => i == 45));
}
[TestMethod]
public void SingleOrDefault_Range_ReducesToNone()
{
var value = 42;
Assert.AreEqual(0, Observable.Range(value, 10).SingleOrDefault(i => i > 100));
}
#endregion
#region Wait
[TestMethod]
public void Wait_ArgumentChecking()
{
ReactiveAssert.Throws<ArgumentNullException>(() => Observable.Wait(default(IObservable<int>)));
}
[TestMethod]
public void Wait_Return()
{
var x = 42;
var xs = Observable.Return(x, ThreadPoolScheduler.Instance);
var res = xs.Wait();
Assert.AreEqual(x, res);
}
[TestMethod]
public void Wait_Empty()
{
ReactiveAssert.Throws<InvalidOperationException>(() => Observable.Empty<int>().Wait());
}
[TestMethod]
public void Wait_Throw()
{
var ex = new Exception();
var xs = Observable.Throw<int>(ex);
ReactiveAssert.Throws(ex, () => xs.Wait());
}
[TestMethod]
public void Wait_Range()
{
var n = 42;
var xs = Observable.Range(1, n, ThreadPoolScheduler.Instance);
var res = xs.Wait();
Assert.AreEqual(n, res);
}
#endregion
}
}
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