// 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> GroupBy(this IAsyncEnumerable source, Func keySelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerable(source, keySelector, comparer: null); } public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func keySelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerable(source, keySelector, comparer); } public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerableWithTask(source, keySelector, comparer: null); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerableWithTaskAndCancellation(source, keySelector, comparer: null); } #endif public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerableWithTask(source, keySelector, comparer); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); return new GroupedAsyncEnumerableWithTaskAndCancellation(source, keySelector, comparer); } #endif public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func keySelector, Func elementSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerable(source, keySelector, elementSelector, comparer: null); } public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func keySelector, Func elementSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerable(source, keySelector, elementSelector, comparer); } public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerableWithTask(source, keySelector, elementSelector, comparer: null); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerableWithTaskAndCancellation(source, keySelector, elementSelector, comparer: null); } #endif public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerableWithTask(source, keySelector, elementSelector, comparer); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable> GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); return new GroupedAsyncEnumerableWithTaskAndCancellation(source, keySelector, elementSelector, comparer); } #endif public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func keySelector, Func, TResult> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerable(source, keySelector, resultSelector, comparer: null); } public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func keySelector, Func, TResult> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerable(source, keySelector, resultSelector, comparer); } public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func, ValueTask> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerableWithTask(source, keySelector, resultSelector, comparer: null); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func, CancellationToken, ValueTask> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerableWithTaskAndCancellation(source, keySelector, resultSelector, comparer: null); } #endif public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func, ValueTask> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerableWithTask(source, keySelector, resultSelector, comparer); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func, CancellationToken, ValueTask> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return new GroupedResultAsyncEnumerableWithTaskAndCancellation(source, keySelector, resultSelector, comparer); } #endif public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func keySelector, Func elementSelector, Func, TResult> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer: null).Select(g => resultSelector(g.Key, g)); } public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func keySelector, Func elementSelector, Func, TResult> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer).Select(g => resultSelector(g.Key, g)); } public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, Func, ValueTask> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer: null).Select(g => resultSelector(g.Key, g)); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, Func, CancellationToken, ValueTask> resultSelector) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer: null).Select((g, ct) => resultSelector(g.Key, g, ct)); } #endif public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, Func, ValueTask> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer).Select(g => resultSelector(g.Key, g)); } #if !NO_DEEP_CANCELLATION public static IAsyncEnumerable GroupBy(this IAsyncEnumerable source, Func> keySelector, Func> elementSelector, Func, CancellationToken, ValueTask> resultSelector, IEqualityComparer comparer) { if (source == null) throw Error.ArgumentNull(nameof(source)); if (keySelector == null) throw Error.ArgumentNull(nameof(keySelector)); if (elementSelector == null) throw Error.ArgumentNull(nameof(elementSelector)); if (resultSelector == null) throw Error.ArgumentNull(nameof(resultSelector)); return source.GroupBy(keySelector, elementSelector, comparer).Select((g, ct) => resultSelector(g.Key, g, ct)); } #endif private sealed class GroupedResultAsyncEnumerable : AsyncIterator, IAsyncIListProvider { private readonly IAsyncEnumerable _source; private readonly Func _keySelector; private readonly Func, TResult> _resultSelector; private readonly IEqualityComparer _comparer; private Internal.Lookup _lookup; private IEnumerator _enumerator; public GroupedResultAsyncEnumerable(IAsyncEnumerable source, Func keySelector, Func, TResult> resultSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(resultSelector != null); _source = source; _keySelector = keySelector; _resultSelector = resultSelector; _comparer = comparer; } public override AsyncIteratorBase Clone() { return new GroupedResultAsyncEnumerable(_source, _keySelector, _resultSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.ApplyResultSelector(_resultSelector).GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = _enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask ToArrayAsync(CancellationToken cancellationToken) { Internal.Lookup l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.ToArray(_resultSelector); } public async ValueTask> ToListAsync(CancellationToken cancellationToken) { Internal.Lookup l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.ToList(_resultSelector); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.Lookup l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } private sealed class GroupedResultAsyncEnumerableWithTask : AsyncIterator, IAsyncIListProvider { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly Func, ValueTask> _resultSelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IAsyncEnumerator _enumerator; public GroupedResultAsyncEnumerableWithTask(IAsyncEnumerable source, Func> keySelector, Func, ValueTask> resultSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(resultSelector != null); _source = source; _keySelector = keySelector; _resultSelector = resultSelector; _comparer = comparer; } public override AsyncIteratorBase Clone() { return new GroupedResultAsyncEnumerableWithTask(_source, _keySelector, _resultSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { await _enumerator.DisposeAsync().ConfigureAwait(false); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.Select(async g => await _resultSelector(g.Key, g).ConfigureAwait(false)).GetAsyncEnumerator(_cancellationToken); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await _enumerator.MoveNextAsync().ConfigureAwait(false)) { _current = _enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask ToArrayAsync(CancellationToken cancellationToken) { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArray(_resultSelector).ConfigureAwait(false); } public async ValueTask> ToListAsync(CancellationToken cancellationToken) { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToList(_resultSelector).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } #if !NO_DEEP_CANCELLATION private sealed class GroupedResultAsyncEnumerableWithTaskAndCancellation : AsyncIterator, IAsyncIListProvider { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly Func, CancellationToken, ValueTask> _resultSelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IAsyncEnumerator _enumerator; public GroupedResultAsyncEnumerableWithTaskAndCancellation(IAsyncEnumerable source, Func> keySelector, Func, CancellationToken, ValueTask> resultSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(resultSelector != null); _source = source; _keySelector = keySelector; _resultSelector = resultSelector; _comparer = comparer; } public override AsyncIteratorBase Clone() { return new GroupedResultAsyncEnumerableWithTaskAndCancellation(_source, _keySelector, _resultSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { await _enumerator.DisposeAsync().ConfigureAwait(false); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.Select(async g => await _resultSelector(g.Key, g, _cancellationToken).ConfigureAwait(false)).GetAsyncEnumerator(_cancellationToken); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (await _enumerator.MoveNextAsync().ConfigureAwait(false)) { _current = _enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask ToArrayAsync(CancellationToken cancellationToken) { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArray(_resultSelector, cancellationToken).ConfigureAwait(false); } public async ValueTask> ToListAsync(CancellationToken cancellationToken) { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToList(_resultSelector, cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } #endif private sealed class GroupedAsyncEnumerable : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func _keySelector; private readonly Func _elementSelector; private readonly IEqualityComparer _comparer; private Internal.Lookup _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerable(IAsyncEnumerable source, Func keySelector, Func elementSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(elementSelector != null); _source = source; _keySelector = keySelector; _elementSelector = elementSelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerable(_source, _keySelector, _elementSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.Lookup.CreateAsync(_source, _keySelector, _elementSelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = (IAsyncGrouping)_enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask[]> ToArrayAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.Lookup.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArrayAsync(cancellationToken).ConfigureAwait(false); } public async ValueTask>> ToListAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.Lookup.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToListAsync(cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.Lookup l = await Internal.Lookup.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } private sealed class GroupedAsyncEnumerableWithTask : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly Func> _elementSelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerableWithTask(IAsyncEnumerable source, Func> keySelector, Func> elementSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(elementSelector != null); _source = source; _keySelector = keySelector; _elementSelector = elementSelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerableWithTask(_source, _keySelector, _elementSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = (IAsyncGrouping)_enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask[]> ToArrayAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArrayAsync(cancellationToken).ConfigureAwait(false); } public async ValueTask>> ToListAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToListAsync(cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } #if !NO_DEEP_CANCELLATION private sealed class GroupedAsyncEnumerableWithTaskAndCancellation : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly Func> _elementSelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerableWithTaskAndCancellation(IAsyncEnumerable source, Func> keySelector, Func> elementSelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); Debug.Assert(elementSelector != null); _source = source; _keySelector = keySelector; _elementSelector = elementSelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerableWithTaskAndCancellation(_source, _keySelector, _elementSelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = (IAsyncGrouping)_enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask[]> ToArrayAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArrayAsync(cancellationToken).ConfigureAwait(false); } public async ValueTask>> ToListAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToListAsync(cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _elementSelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } #endif private sealed class GroupedAsyncEnumerable : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func _keySelector; private readonly IEqualityComparer _comparer; private Internal.Lookup _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerable(IAsyncEnumerable source, Func keySelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); _source = source; _keySelector = keySelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerable(_source, _keySelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = (IAsyncGrouping)_enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask[]> ToArrayAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArrayAsync(cancellationToken).ConfigureAwait(false); } public async ValueTask>> ToListAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToListAsync(cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.Lookup l = await Internal.Lookup.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } private sealed class GroupedAsyncEnumerableWithTask : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerableWithTask(IAsyncEnumerable source, Func> keySelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); _source = source; _keySelector = keySelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerableWithTask(_source, _keySelector, _comparer); } public override async ValueTask DisposeAsync() { if (_enumerator != null) { _enumerator.Dispose(); _enumerator = null; _lookup = null; } await base.DisposeAsync().ConfigureAwait(false); } protected override async ValueTask MoveNextCore() { switch (_state) { case AsyncIteratorState.Allocated: _lookup = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, _cancellationToken).ConfigureAwait(false); _enumerator = _lookup.GetEnumerator(); _state = AsyncIteratorState.Iterating; goto case AsyncIteratorState.Iterating; case AsyncIteratorState.Iterating: if (_enumerator.MoveNext()) { _current = (IAsyncGrouping)_enumerator.Current; return true; } await DisposeAsync().ConfigureAwait(false); break; } return false; } public async ValueTask[]> ToArrayAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToArrayAsync(cancellationToken).ConfigureAwait(false); } public async ValueTask>> ToListAsync(CancellationToken cancellationToken) { IAsyncIListProvider> l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return await l.ToListAsync(cancellationToken).ConfigureAwait(false); } public ValueTask GetCountAsync(bool onlyIfCheap, CancellationToken cancellationToken) { if (onlyIfCheap) { return new ValueTask(-1); } return Core(); async ValueTask Core() { Internal.LookupWithTask l = await Internal.LookupWithTask.CreateAsync(_source, _keySelector, _comparer, cancellationToken).ConfigureAwait(false); return l.Count; } } } #if !NO_DEEP_CANCELLATION private sealed class GroupedAsyncEnumerableWithTaskAndCancellation : AsyncIterator>, IAsyncIListProvider> { private readonly IAsyncEnumerable _source; private readonly Func> _keySelector; private readonly IEqualityComparer _comparer; private Internal.LookupWithTask _lookup; private IEnumerator> _enumerator; public GroupedAsyncEnumerableWithTaskAndCancellation(IAsyncEnumerable source, Func> keySelector, IEqualityComparer comparer) { Debug.Assert(source != null); Debug.Assert(keySelector != null); _source = source; _keySelector = keySelector; _comparer = comparer; } public override AsyncIteratorBase> Clone() { return new GroupedAsyncEnumerableWithTaskAndCancellation