10

We're requesting thousands of objects back from Dapper and hit the parameter limit (2100) so have decided to load them in chunks.

I thought it would be a good opportunity to try Async Await - this the first time I've had a go so maybe making a school boy error!

Breakpoints are being hit, but the whole thing is just not returning. It's not throwing an error - it just seems like everything is going in a black hole!

Help please!

This was my original method - it now calls the Async method

    public List<MyObject> Get(IEnumerable<int> ids)
    {
        return this.GetMyObjectsAsync(ids).Result.ToList();
    }  //Breakpoint on this final bracket never gets hit

I added this method to split the ids into chunks of 1000 and then await for the tasks to complete

    private async Task<List<MyObject>> GetMyObjectsAsync(IEnumerable<int> ids)
    {
        var subSets = this.Partition(ids, 1000);

        var tasks = subSets.Select(set => GetMyObjectsTask(set.ToArray()));

        //breakpoint on the line below gets hit ...
        var multiLists = await Task.WhenAll(tasks);

        //breakpoint on line below never gets hit ...
        var list = new List<MyObject>();
        foreach (var myobj in multiLists)
        {
            list.AddRange(myobj);   
        }
        return list;
    }

and below is the task ...

    private async Task<IEnumerable<MyObject>> GetMyObjectsTask(params int[] ids)
    {
        using (var db = new SqlConnection(this.connectionString))
        {
            //breakpoint on the line below gets hit
            await db.OpenAsync();
            return await db.QueryAsync<MyObject>(@"SELECT Something FROM Somewhere WHERE ID IN @Ids",
            new { ids});
        }
    }

The following method just splits the list of ids in chunks - this appears to work fine ...

    private IEnumerable<IEnumerable<T>> Partition<T>(IEnumerable<T> source, int size)
    {
        var partition = new List<T>(size);
        var counter = 0;

        using (var enumerator = source.GetEnumerator())
        {
            while (enumerator.MoveNext())
            {
                partition.Add(enumerator.Current);
                counter++;
                if (counter % size == 0)
                {
                    yield return partition.ToList();
                    partition.Clear();
                    counter = 0;
                }
            }

            if (counter != 0)
                yield return partition;
        }
    }
| |
  • Can you step with a debugger through GetMyObjectsAsync? Does it run to the end? – Stilgar Jul 4 '14 at 11:14
12

You are creating a deadlock situation the way you use async/await in combination with Task<T>.Result.

The offending line is:

return this.GetMyObjectsAsync(ids).Result.ToList();

GetMyObjectsAsync(ids).Result blocks the current sync context. But GetMyObjectsAsync uses await which schedules a continuation point for the current sync context. I'm sure you can see the problem with that approach: the continuation can never be executed because the current sync contextis blocked by Task.Result.

One solution that can work in some cases would be to use ConfigureAwait(false) which means that the continuation can be run on any sync context.

But in general I think it's best to avoid Task.Result with async/await.


Please note that whether this deadlock situation actually occurs depends on the synchronization context that is used when calling the asynchronous method. For ASP.net, Windows Forms and WPF this will result in a deadlock, but as far as I know it won't for a console application. (Thanks to Marc Gravell for his comment)


Microsoft has a good article about Best Practices in Asynchronous Programming. (Thanks to ken2k)

| |
  • 1
    +1. Also, I'm feeling obliged to share this article: msdn.microsoft.com/en-us/magazine/jj991977.aspx – ken2k Jul 4 '14 at 11:19
  • 2
    @Dirk strictly speaking, whether or not this causes a deadlock depends on the "sync context" that is in use; sometimes it will work fine as written - and sometimes (asp.net, winforms, wpf, etc): it won't (and will as you say: deadlock). ConfigureAwait is one option (which actually avoids the sync-context, rather than specifically being about threads), but I agree: mixing await and .Result is a recipe for pain – Marc Gravell Jul 4 '14 at 11:19
  • @MarcGravell Thanks, I've updated my answer to include your comment. – Dirk Jul 4 '14 at 11:24
  • 1
    How would a better approach look like? – Christian Sauer Jul 4 '14 at 11:25
  • @ChristianSauer Either use async all the way, e.g. up to the event handlers. Or if you can't do it use Task.ContinueWith instead of Task.Result. – Dirk Jul 4 '14 at 11:27
0

I think parameters are case sensitive it should be:

return await db.QueryAsync<MyObject>(@"SELECT Something FROM Somewhere WHERE ID IN @ids",
            new { ids});

instead of "@Ids" below in query:

 return await db.QueryAsync<MyObject>(@"SELECT Something FROM Somewhere WHERE ID IN **@Ids**",
            new { ids});

not sure though but just try.

| |

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.