54

Is there an asynchronous version of DirectoryInfo.GetFiles / Directory.GetDirectories in dotNet? I'd like to use them in an F# async block, and it'd be nice to have a version that can be called with AsyncCallbacks.

Problem is I'm trying to suck in a bunch of directories, probably on SMB mounts over slow network connections, and I don't want a bunch of thread pool threads sitting around waiting for network reads when they could be doing other work.

7 Answers 7

15

No, I don't think there is. The pool thread approach is probably the most pragmatic. Alternatively, I guess you could drop down to P/Invoke - but that would be a lot more work.

3
  • 8
    is this still the case now that .NET 4.5 is out with a bunch of new async APIs? I was looking for this and didn't see it. Sep 24, 2012 at 16:34
  • 4
    It's still the case as of .NET Core 2.2.
    – Brugner
    Sep 9, 2019 at 23:37
  • 2
    "Alternatively, I guess you could drop down to P/Invoke" - I can't see any Win32 Overlapped IO or native Win32 asynchronous APIs for filesystem operations, so I'm not sure how P/Invoke would help here. As far as I know, the async filesystem API in UWP is also using threading internally instead of being actually overlapped IO or being IO interrupt-driven.
    – Dai
    Mar 6, 2020 at 0:36
14

I didn't find an async version of GetFiles, however if you look at the sourcecode for other Async operations, they're defined as follows:

module FileExtensions =

        let UnblockViaNewThread f =
            async { //let ctxt = System.Threading.SynchronizationContext.Current
                    do! Async.SwitchToNewThread ()
                    let res = f()
                    do! Async.SwitchToThreadPool ()
                    //do! Async.SwitchTo ctxt
                    return res }

        type System.IO.File with
            static member AsyncOpenText(path)   = UnblockViaNewThread (fun () -> System.IO.File.OpenText(path))
            static member AsyncAppendText(path) = UnblockViaNewThread (fun () -> System.IO.File.AppendText(path))
            static member AsyncOpenRead(path)   = UnblockViaNewThread (fun () -> System.IO.File.OpenRead(path))
            static member AsyncOpenWrite(path)  = UnblockViaNewThread (fun () -> System.IO.File.OpenWrite(path))
            static member AsyncOpen(path,mode,?access,?share) =
                let access = match access with Some v -> v | None -> System.IO.FileAccess.ReadWrite
                let share = match share with Some v -> v | None -> System.IO.FileShare.None
                UnblockViaNewThread (fun () -> System.IO.File.Open(path,mode,access,share))

            static member OpenTextAsync(path)   = System.IO.File.AsyncOpenText(path)
            static member AppendTextAsync(path) = System.IO.File.AsyncAppendText(path)
            static member OpenReadAsync(path)   = System.IO.File.AsyncOpenRead(path)
            static member OpenWriteAsync(path)  = System.IO.File.AsyncOpenWrite(path)
            static member OpenAsync(path,mode,?access,?share) = System.IO.File.AsyncOpen(path, mode, ?access=access, ?share=share)

In other words, the Async file, streamreader, and WebClient operations are just wrappers around the syncronous operations, so you should be able to write your own wrapper around GetFiles/GetDirectories as follows:

module IOExtensions =
    type System.IO.Directory with
        static member AsyncGetFiles(directory) = async { return System.IO.Directory.GetFiles(directory) }
        static member AsyncGetDirectories(path) = async { return System.IO.Directory.GetDirectories(path) }
2
  • 5
    This isn't true async I/O of course, but it's a good practical solution nonetheless. If you did want truly asynchronous operations you'd have to use some horrible Win32 interop, which I'd imagine isn't worth it in the context...
    – Noldorin
    Apr 5, 2009 at 15:14
  • 1
    Plus, these days I'm using F# on iOS via Xamarin (and soon on Android), so some horrible Win32 interop isn't even possible. Dec 11, 2013 at 23:57
9

This may be considered a bit of a hack, but you might consider using the UWP StorageFolder API.

C# example (though F# is probably just as easy):

using Windows.Storage;

...

var folder = await StorageFolder.GetFolderFromPathAsync(path);
var files = await folder.GetFilesAsync();
var folders = await folder.GetFoldersAsync();

You can easily consume these from traditional .NET desktop and console applications by using the UWP for Desktop library by Lucian Wischik (of Microsoft).

Install-Package UwpDesktop
3
  • 4
    Internally, what API does this library use? Does it call true-async (overlapped IO?) Win32 functions, or just wrap everything in a thread?
    – Dai
    Nov 3, 2017 at 3:12
  • 1
    This is the correct answer, because it's not faking async with threads but actually hooking into real interrupts in hardware/software.
    – PRMan
    Sep 3, 2020 at 20:14
  • 1
    It doesn't look like "UWP for Desktop" has stood the test of time. There's probably more modern ways to p/invoke UWP APIs. Maybe .NET 5 will help. :) Sep 3, 2020 at 22:46
5

Actually, according to the help for Directory.GetFiles, Directory.EnumerateFiles will return the first result immediately (it's an IEnumerable), rather than wait for the entire list before returning. I believe that's probably what you're looking for.

2
  • 8
    Not really. Even returning the first file may takes dozens or hundreds of milliseconds (think UNC paths). All that time your execution thread is blocked.
    – MvdD
    Nov 24, 2014 at 19:32
  • Enumerating a drive too over 5 minutes.
    – Justin
    Feb 28, 2021 at 23:44
3

I've used several times this approach to get Async objects from functions/procedures, and it always worked great:


let AsyncGetDirectories path = 
    let fn = new Func<_, _>(System.IO.Directory.GetDirectories)
    Async.BuildPrimitive(path, fn.BeginInvoke, fn.EndInvoke)
0

Princess's answer is the way to go for adding granularity between tasks - so this kind of thing would let other players use the thread pool:

let! x = OpenTextAsync("whatever");
// opening for something else to run
let! x = OpenTextAsync("whatever");
// opening for something else to run
let! x = OpenTextAsync("whatever");

It doesn't help as much when each one of those blocking calls is heavy - and a GetFiles over SMB is pretty much the definition of heavy.

I was hoping there was some sort of equivalent for BeginRead/EndRead for directories, and that GetFiles/GetDirectories was just a nice wrapper around lower-level calls that exposed some async variants. Something like BeginReadDir/EndReadDir.

4
  • 1
    I could not find Princess's answer. Aug 31, 2017 at 15:13
  • @ScottHutchinson It's gone, no idea when it was deleted. (My question is from <gulp> 2009). I think it was essentially the same as Juliet's, pointing out that a lot of the async operators don't have good support anyway - they're going to consume threads and not do something sensible with wait handles. Sep 1, 2017 at 1:15
  • 2
    I'm guessing Princess changed her name to Juliet, whose profile says she's a "High Priestess", which is kinda sorta like a princess. Sep 1, 2017 at 15:05
  • No, "High Priestess" is a religious title, while a princess would be a member of a royal court, which is... hey, we're way off topic! Jun 21, 2021 at 14:33
-1

I am no F# programmer, but I'd do this in C#:

static IEnumerable<string> IterateFiles(string path, string pattern) {
    var entryQueue = new Queue<string>();
    entryQueue.Enqueue(path);

    while (entryQueue.Count > 0) {
        var subdirs = Directory.GetDirectories(entryQueue.Peek());
        var files = Directory.GetFiles(entryQueue.Peek(), pattern, SearchOption.TopDirectoryOnly);
        foreach (var file in files)
            yield return file;
        entryQueue.Dequeue();

        foreach(var subdir in subdirs)
            entryQueue.Enqueue(subdir);
    }
}

I'm assuming there's a similar construct to iterators in F#.

4
  • 10
    This is lazy, not async Jan 2, 2013 at 3:44
  • Well, stuff it in an async method/Task, what have you. By simply pushing everything off onto a different thread is a bad way to achieve asynchronicity IMHO. Yes, it runs in parallel, but it's very hard to terminate in a deterministic manner. Jan 2, 2013 at 15:07
  • 4
    Stuffing it in a async method/task is not the same, and is unrelated to laziness. I agree that "pushing it into a different thread" is "bad async", it should use IOCPs. Jan 2, 2013 at 17:05
  • 4
    It's fascinating that several answers have come up with this sort of solution, even though it has nothing to do with solving the stated problem. It's also interesting that the C# wrong answer is much longer than the equivalent wrong answers in F# :-). Jan 2, 2013 at 17:16

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