6

I'm constructing and executing my queries in a way that's independent of EF-Core, so I'm relying on IQueryable<T> to obtain the required level of abstraction. I'm replacing awaited SingleAsync() calls with awaited ToAsyncEnumerable().Single() calls. I'm also replacing ToListAsync() calls with ToAsyncEnumerable().ToList() calls. But I just happened upon the ToAsyncEnumerable() method so I'm unsure I'm using it correctly or not.

To clarify which extension methods I'm referring to, they're defined as follows:

  • SingleAsync and ToListAsync are defined on the EntityFrameworkQueryableExtensions class in the Microsoft.EntityFrameworkCore namespace and assembly.
  • ToAsyncEnumerable is defined on the AsyncEnumerable class in the System.Linq namespace in the System.Interactive.Async assembly.

When the query runs against EF-Core, are the calls ToAsyncEnumerable().Single()/ToList() versus SingleAsync()/ToListAsync() equivalent in function and performance? If not then how do they differ?

  • Do you, by chance, mean "AsAsyncEnumerable"? – Eyal Perry Nov 12 '16 at 8:48
  • @EyalPerry No, it's definitely ToAsyncEnumerable in said assembly. – HappyNomad Nov 12 '16 at 9:08
  • I'd validate any answer you receive by looking at the generated SQL using SQL Profiler to make sure that any Single call manifests itself as a TOP 2 in the query like it should. – usr Nov 12 '16 at 15:52
7

For methods returning sequence (like ToListAsync, ToArrayAsync) I don't expect a difference.

However for single value returning methods (the async versions of First, FirstOrDefault, Single, Min, Max, Sum etc.) definitely there will be a difference. It's the same as the difference by executing those methods on IQueryable<T> vs IEnumerable<T>. In the former case they are processed by database query returning a single value to the client while in the later the whole result set will be returned to the client and processed in memory.

So, while in general the idea of abstracting EF Core is good, it will cause performance issues with IQueryable<T> because the async processing of queryables is not standartized, and converting to IEnumerable<T> changes the execution context, hence the implementation of single value returning LINQ methods.

P.S. By standardization I mean the following. The synchronous processing of IQueryable is provided by IQueryProvider (standard interface from System.Linq namespace in System.Core.dll assembly) Execute methods. Asynchronous processing would require introducing another standard interface similar to EF Core custom IAsyncQueryProvider (inside Microsoft.EntityFrameworkCore.Query.Internal namespace in Microsoft.EntityFrameworkCore.dll assembly). Which I guess requires cooperation/approval from the BCL team and takes time, that's why they decided to take a custom path for now.

  • I confirmed that this answer is correct by comparing the generated SQL as @usr suggested. You said, "the async processing of queryables is not standardized". How could it be standardized? Maybe a ToAsyncQueryable method? – HappyNomad Nov 15 '16 at 6:36
  • I went ahead and requested this feature. – HappyNomad Nov 15 '16 at 6:49
  • Thanks for your edit. A standard IAsyncQueryProvider interface already exists, but it's not being fully utilized. See my feature request for more details. – HappyNomad Nov 15 '16 at 11:32
  • I saw it. The problem is thought the Rx is also a custom extensions library, hence not part of the standard BCL like IQueryProvider, IQueryable, IEnumerable etc. – Ivan Stoev Nov 15 '16 at 11:41
  • EF-Core (current | preview) references System.Interactive.Async (Ix), so I don't think that's an issue. – HappyNomad Nov 15 '16 at 12:39
1

When the original source is a DbSet, ToAsyncEnumerable().Single() is not as performant as SingleAsync() in the exceptional case where the database contains more than one matching row. But in in the more likely scenario, where you both expect and receive only one row, it's the same. Compare the generated SQL:

SingleAsync():
    SELECT TOP(2) [l].[ID]
    FROM [Ls] AS [l]

ToAsyncEnumerable().Single():
    SELECT [l].[ID]
    FROM [Ls] AS [l]

ToAsyncEnumerable() breaks the IQueryable call chain and enters LINQ-to-Objects land. Any downstream filtering occurs in memory. You can mitigate this problem by doing your filtering upstream. So instead of:

ToAsyncEnumerable().Single( l => l.Something == "foo" ):
    SELECT [l].[ID], [l].[Something]
    FROM [Ls] AS [l]

you can do:

Where( l => l.Something == "foo" ).ToAsyncEnumerable().Single():
    SELECT [l].[ID], [l].[Something]
    FROM [Ls] AS [l]
    WHERE [l].[Something] = N'foo'

If that approach still leaves you squirmish then, as an alternative, consider defining extension methods like this one:

using System.Linq;
using System.Threading.Tasks;
using Microsoft.EntityFrameworkCore;
using Microsoft.EntityFrameworkCore.Query.Internal;

static class Extensions
{
    public static Task<T> SingleAsync<T>( this IQueryable<T> source ) =>
        source.Provider is IAsyncQueryProvider
            ? EntityFrameworkQueryableExtensions.SingleAsync( source )
            : Task.FromResult( source.Single() );
}
0

According to the official Microsoft documentation for EF Core (all versions, including the current 2.1 one):

This API supports the Entity Framework Core infrastructure and is not intended to be used directly from your code. This API may change or be removed in future releases.

Source: https://docs.microsoft.com/en-us/dotnet/api/microsoft.entityframeworkcore.query.internal.asynclinqoperatorprovider.toasyncenumerable?view=efcore-2.1

p.s. I personally found it problematic in combination with the AutoMapper tool (at least, until ver. 6.2.2) - it just doesn't map collection of type IAsyncEnumerable (unlike IEnumerable, with which the AutoMapper works seamlessly).

-1

I took a peek at the source code of Single (Line 90).
It cleary illustrates that the enumerator is only advanced once (for a successful operation).

        using (var e = source.GetEnumerator())
        {
            if (!await e.MoveNext(cancellationToken)
                        .ConfigureAwait(false))
            {
                throw new InvalidOperationException(Strings.NO_ELEMENTS);
            }
            var result = e.Current;
            if (await e.MoveNext(cancellationToken)
                       .ConfigureAwait(false))
            {
                throw new InvalidOperationException(Strings.MORE_THAN_ONE_ELEMENT);
            }
            return result;
        }

Since this kind of implementation is as good as it gets (nowadays), one can say with certainty that using the Ix Single Operator would not harm performance.

As for SingleAsync, you can be sure that it is implemented in a similar manner, and even if it is not (which is doubtful), it could not outperform the Ix Single operator.

  • Thanks but how does this relate to SingleAsync? – HappyNomad Nov 12 '16 at 10:15
  • I will edit my answer, but the gist of it is- Entity framework would do the same.. It would load the first result at some point and attempt to determine if there's another. There really isn't any better way to do it, so performance will certainly not be harmed. – Eyal Perry Nov 12 '16 at 10:18
  • This isn't correct. SingleAsync on an IQueryable should always outperform Single on any kind of Enumerable that wraps a Queryable – Jeff Nov 12 '16 at 15:05
  • It enumerates the whole sequence, though, giving EF no chance to pull just one item from the database. – usr Nov 12 '16 at 15:51
  • 1
    Thanks for trying @EyalPerry, but your reasoning is incomplete. If you looked at SingleAsync, you'd notice it operates on IQueryable and thus uses the query provider. ToAsyncEnumerable.Single doesn't use IQueryable. – HappyNomad Nov 15 '16 at 7:43

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