// Licensed to the .NET Foundation under one or more agreements. // The .NET Foundation licenses this file to you under the Apache 2.0 License. // See the LICENSE file in the project root for more information. using System.Collections.Generic; using System.Diagnostics; using System.Threading; using System.Threading.Tasks; namespace System.Linq { public static partial class AsyncEnumerable { public static IAsyncEnumerable Take(this IAsyncEnumerable source, int count) { if (source == null) throw new ArgumentNullException(nameof(source)); if (count <= 0) { return Empty(); } return new TakeAsyncIterator(source, count); } public static IAsyncEnumerable TakeLast(this IAsyncEnumerable source, int count) { if (source == null) throw new ArgumentNullException(nameof(source)); if (count <= 0) { return Empty(); } return new TakeLastAsyncIterator(source, count); } public static IAsyncEnumerable TakeWhile(this IAsyncEnumerable source, Func predicate) { if (source == null) throw new ArgumentNullException(nameof(source)); if (predicate == null) throw new ArgumentNullException(nameof(predicate)); return new TakeWhileAsyncIterator(source, predicate); } public static IAsyncEnumerable TakeWhile(this IAsyncEnumerable source, Func predicate) { if (source == null) throw new ArgumentNullException(nameof(source)); if (predicate == null) throw new ArgumentNullException(nameof(predicate)); return new TakeWhileWithIndexAsyncIterator(source, predicate); } private sealed class TakeAsyncIterator : AsyncIterator { private readonly int count; private readonly IAsyncEnumerable source; private int currentCount; private IAsyncEnumerator enumerator; public TakeAsyncIterator(IAsyncEnumerable source, int count) { Debug.Assert(source != null); this.source = source; this.count = count; currentCount = count; } public override AsyncIterator Clone() { return new TakeAsyncIterator(source, count); } public override void Dispose() { if (enumerator != null) { enumerator.Dispose(); enumerator = null; } base.Dispose(); } protected override async Task MoveNextCore(CancellationToken cancellationToken) { switch (state) { case AsyncIteratorState.Allocated: enumerator = source.GetEnumerator(); state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (currentCount > 0 && await enumerator.MoveNext(cancellationToken) .ConfigureAwait(false)) { current = enumerator.Current; currentCount--; return true; } break; } Dispose(); return false; } } private sealed class TakeLastAsyncIterator : AsyncIterator { private readonly int count; private readonly IAsyncEnumerable source; private IAsyncEnumerator enumerator; private bool isDone; private Queue queue; public TakeLastAsyncIterator(IAsyncEnumerable source, int count) { Debug.Assert(source != null); this.source = source; this.count = count; } public override AsyncIterator Clone() { return new TakeLastAsyncIterator(source, count); } public override void Dispose() { if (enumerator != null) { enumerator.Dispose(); enumerator = null; } queue = null; // release the memory base.Dispose(); } protected override async Task MoveNextCore(CancellationToken cancellationToken) { switch (state) { case AsyncIteratorState.Allocated: enumerator = source.GetEnumerator(); queue = new Queue(); isDone = false; state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: while (true) { if (!isDone) { if (await enumerator.MoveNext(cancellationToken) .ConfigureAwait(false)) { if (count > 0) { var item = enumerator.Current; if (queue.Count >= count) { queue.Dequeue(); } queue.Enqueue(item); } } else { isDone = true; // Dispose early here as we can enumerator.Dispose(); enumerator = null; } continue; // loop until queue is drained } if (queue.Count > 0) { current = queue.Dequeue(); return true; } break; // while } break; // case } Dispose(); return false; } } private sealed class TakeWhileAsyncIterator : AsyncIterator { private readonly Func predicate; private readonly IAsyncEnumerable source; private IAsyncEnumerator enumerator; public TakeWhileAsyncIterator(IAsyncEnumerable source, Func predicate) { Debug.Assert(predicate != null); Debug.Assert(source != null); this.source = source; this.predicate = predicate; } public override AsyncIterator Clone() { return new TakeWhileAsyncIterator(source, predicate); } public override void Dispose() { if (enumerator != null) { enumerator.Dispose(); enumerator = null; } base.Dispose(); } protected override async Task MoveNextCore(CancellationToken cancellationToken) { switch (state) { case AsyncIteratorState.Allocated: enumerator = source.GetEnumerator(); state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await enumerator.MoveNext(cancellationToken) .ConfigureAwait(false)) { var item = enumerator.Current; if (!predicate(item)) { break; } current = item; return true; } break; } Dispose(); return false; } } private sealed class TakeWhileWithIndexAsyncIterator : AsyncIterator { private readonly Func predicate; private readonly IAsyncEnumerable source; private IAsyncEnumerator enumerator; private int index; public TakeWhileWithIndexAsyncIterator(IAsyncEnumerable source, Func predicate) { Debug.Assert(predicate != null); Debug.Assert(source != null); this.source = source; this.predicate = predicate; } public override AsyncIterator Clone() { return new TakeWhileWithIndexAsyncIterator(source, predicate); } public override void Dispose() { if (enumerator != null) { enumerator.Dispose(); enumerator = null; } base.Dispose(); } protected override async Task MoveNextCore(CancellationToken cancellationToken) { switch (state) { case AsyncIteratorState.Allocated: enumerator = source.GetEnumerator(); index = -1; state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await enumerator.MoveNext(cancellationToken) .ConfigureAwait(false)) { var item = enumerator.Current; checked { index++; } if (!predicate(item, index)) { break; } current = item; return true; } break; } Dispose(); return false; } } } }