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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.

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up vote 6 down vote accepted

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.

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5  
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. – Drew Noakes Sep 24 '12 at 16:34

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) }
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3  
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 '09 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. – James Moore Dec 11 '13 at 23:57

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)
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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#.

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4  
This is lazy, not async – Mauricio Scheffer Jan 2 '13 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. – Jörgen Sigvardsson Jan 2 '13 at 15:07
3  
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. – Mauricio Scheffer Jan 2 '13 at 17:05
3  
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# :-). – James Moore Jan 2 '13 at 17:16

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.

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2  
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 '14 at 19:32

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.

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I ended up coding @Marc Gravell's thread pool solution. Using reflection is it pretty easy to create async version of every public method in the Directory Class (or any class for that matter). Thought it may be useful to the community.

using System;
using System.Collections.Generic;
using System.IO;
using System.Threading.Tasks;

static class AsyncDirectory {


    static Task<DirectoryInfo> GetParent(String path)
    {
        return Task.Run(() => { return Directory.GetParent(path); });
    }

    static Task<DirectoryInfo> CreateDirectory(String path)
    {
        return Task.Run(() => { return Directory.CreateDirectory(path); });
    }

    static Task<DirectoryInfo> CreateDirectory(String path, System.Security.AccessControl.DirectorySecurity directorySecurity)
    {
        return Task.Run(() => { return Directory.CreateDirectory(path, directorySecurity); });
    }

    static Task<Boolean> Exists(String path)
    {
        return Task.Run(() => { return Directory.Exists(path); });
    }

    static Task SetCreationTime(String path, DateTime creationTime)
    {
        return Task.Run(() => { Directory.SetCreationTime(path, creationTime); });
    }

    static Task SetCreationTimeUtc(String path, DateTime creationTimeUtc)
    {
        return Task.Run(() => { Directory.SetCreationTimeUtc(path, creationTimeUtc); });
    }

    static Task<DateTime> GetCreationTime(String path)
    {
        return Task.Run(() => { return Directory.GetCreationTime(path); });
    }

    static Task<DateTime> GetCreationTimeUtc(String path)
    {
        return Task.Run(() => { return Directory.GetCreationTimeUtc(path); });
    }

    static Task SetLastWriteTime(String path, DateTime lastWriteTime)
    {
        return Task.Run(() => { Directory.SetLastWriteTime(path, lastWriteTime); });
    }

    static Task SetLastWriteTimeUtc(String path, DateTime lastWriteTimeUtc)
    {
        return Task.Run(() => { Directory.SetLastWriteTimeUtc(path, lastWriteTimeUtc); });
    }

    static Task<DateTime> GetLastWriteTime(String path)
    {
        return Task.Run(() => { return Directory.GetLastWriteTime(path); });
    }

    static Task<DateTime> GetLastWriteTimeUtc(String path)
    {
        return Task.Run(() => { return Directory.GetLastWriteTimeUtc(path); });
    }

    static Task SetLastAccessTime(String path, DateTime lastAccessTime)
    {
        return Task.Run(() => { Directory.SetLastAccessTime(path, lastAccessTime); });
    }

    static Task SetLastAccessTimeUtc(String path, DateTime lastAccessTimeUtc)
    {
        return Task.Run(() => { Directory.SetLastAccessTimeUtc(path, lastAccessTimeUtc); });
    }

    static Task<DateTime> GetLastAccessTime(String path)
    {
        return Task.Run(() => { return Directory.GetLastAccessTime(path); });
    }

    static Task<DateTime> GetLastAccessTimeUtc(String path)
    {
        return Task.Run(() => { return Directory.GetLastAccessTimeUtc(path); });
    }

    static Task<System.Security.AccessControl.DirectorySecurity> GetAccessControl(String path)
    {
        return Task.Run(() => { return Directory.GetAccessControl(path); });
    }

    static Task<System.Security.AccessControl.DirectorySecurity> GetAccessControl(String path, System.Security.AccessControl.AccessControlSections includeSections)
    {
        return Task.Run(() => { return Directory.GetAccessControl(path, includeSections); });
    }

    static Task SetAccessControl(String path, System.Security.AccessControl.DirectorySecurity directorySecurity)
    {
        return Task.Run(() => { Directory.SetAccessControl(path, directorySecurity); });
    }

    static Task<String[]> GetFiles(String path)
    {
        return Task.Run(() => { return Directory.GetFiles(path); });
    }

    static Task<String[]> GetFiles(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.GetFiles(path, searchPattern); });
    }

    static Task<String[]> GetFiles(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.GetFiles(path, searchPattern, searchOption); });
    }

    static Task<String[]> GetDirectories(String path)
    {
        return Task.Run(() => { return Directory.GetDirectories(path); });
    }

    static Task<String[]> GetDirectories(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.GetDirectories(path, searchPattern); });
    }

    static Task<String[]> GetDirectories(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.GetDirectories(path, searchPattern, searchOption); });
    }

    static Task<String[]> GetFileSystemEntries(String path)
    {
        return Task.Run(() => { return Directory.GetFileSystemEntries(path); });
    }

    static Task<String[]> GetFileSystemEntries(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.GetFileSystemEntries(path, searchPattern); });
    }

    static Task<String[]> GetFileSystemEntries(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.GetFileSystemEntries(path, searchPattern, searchOption); });
    }

    static Task<IEnumerable<String>> EnumerateDirectories(String path)
    {
        return Task.Run(() => { return Directory.EnumerateDirectories(path); });
    }

    static Task<IEnumerable<String>> EnumerateDirectories(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.EnumerateDirectories(path, searchPattern); });
    }

    static Task<IEnumerable<String>> EnumerateDirectories(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.EnumerateDirectories(path, searchPattern, searchOption); });
    }

    static Task<IEnumerable<String>> EnumerateFiles(String path)
    {
        return Task.Run(() => { return Directory.EnumerateFiles(path); });
    }

    static Task<IEnumerable<String>> EnumerateFiles(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.EnumerateFiles(path, searchPattern); });
    }

    static Task<IEnumerable<String>> EnumerateFiles(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.EnumerateFiles(path, searchPattern, searchOption); });
    }

    static Task<IEnumerable<String>> EnumerateFileSystemEntries(String path)
    {
        return Task.Run(() => { return Directory.EnumerateFileSystemEntries(path); });
    }

    static Task<IEnumerable<String>> EnumerateFileSystemEntries(String path, String searchPattern)
    {
        return Task.Run(() => { return Directory.EnumerateFileSystemEntries(path, searchPattern); });
    }

    static Task<IEnumerable<String>> EnumerateFileSystemEntries(String path, String searchPattern, SearchOption searchOption)
    {
        return Task.Run(() => { return Directory.EnumerateFileSystemEntries(path, searchPattern, searchOption); });
    }

    static Task<String[]> GetLogicalDrives()
    {
        return Task.Run(() => { return Directory.GetLogicalDrives(); });
    }

    static Task<String> GetDirectoryRoot(String path)
    {
        return Task.Run(() => { return Directory.GetDirectoryRoot(path); });
    }

    static Task<String> GetCurrentDirectory()
    {
        return Task.Run(() => { return Directory.GetCurrentDirectory(); });
    }

    static Task SetCurrentDirectory(String path)
    {
        return Task.Run(() => { Directory.SetCurrentDirectory(path); });
    }

    static Task Move(String sourceDirName, String destDirName)
    {
        return Task.Run(() => { Directory.Move(sourceDirName, destDirName); });
    }

    static Task Delete(String path)
    {
        return Task.Run(() => { Directory.Delete(path); });
    }

    static Task Delete(String path, Boolean recursive)
    {
        return Task.Run(() => { Directory.Delete(path, recursive); });
    }


}

This is the output from the following code. The code doesn't convert all method signatures correctly (e.g. out, and ref parameters, and probably a number of other exotic features).

public static void Main()
{
    var namespaces = new string[] { "System", "System.Collections.Generic", "System.IO", "System.Threading.Tasks" };
    string cSharpCode = Asyncify(typeof(System.IO.Directory), namespaces);
}


public static string Asyncify(Type type, string[] importedNamespaces)
{
    StringBuilder writer = new StringBuilder();

    var TaskType = TypeToCSharp(typeof(Task), importedNamespaces);

    foreach (var method in type.GetMethods())
    {

        if (method.IsStatic & method.IsPublic )
        {
            var parameterList = new List<string>();
            var argList = new List<string>();
            foreach (var parameter  in method.GetParameters())
            {
                parameterList.Add(TypeToCSharp(parameter.ParameterType, importedNamespaces) + " " + parameter.Name);
                argList.Add(parameter.Name);

                if (parameter.IsOut | parameter.IsOptional | parameter.IsRetval )
                {
                    throw new NotImplementedException();
                }
            }

            var parameters = string.Join(", ", parameterList);
            var args = string.Join(", ", argList);
            var returnType = TypeToCSharp(method.ReturnType, importedNamespaces);
            var typeName = TypeToCSharp(type, importedNamespaces);

            if (method.ReturnType == typeof(void))
            {
                writer.AppendFormat(
                    "static {5} {1}({2})\n{{\n    return {5}.Run(() => {{ {4}.{1}({3}); }});\n}}\n\n",
                    returnType, method.Name, parameters, args, typeName, TaskType
                );
            }
            else
            {
                writer.AppendFormat(
                    "static {5}<{0}> {1}({2})\n{{\n    return {5}.Run(() => {{ return {4}.{1}({3}); }});\n}}\n\n",
                    returnType, method.Name, parameters, args, typeName, TaskType
                );
            }
        }
    }

    return writer.ToString();
}

static string TypeToCSharp(Type type, string[] importedNamespaces)
{

    string ns;
    if (importedNamespaces.Contains(type.Namespace))
    {
        ns = "";
    }
    else
    {
        ns = type.Namespace + ".";
    }

    if (!type.IsGenericType)
    {
        return ns + type.Name;
    }
    else
    {
        var genericList = new List<string>();
        foreach (var gType in type.GenericTypeArguments)
        {
            genericList.Add(TypeToCSharp(gType, importedNamespaces));
        }
        var name = type.Name;
        name = name.Substring(0, name.IndexOf("`"));
        return string.Format("{0}{1}<{2}>", ns, name, string.Join(", ", genericList));
    }
}
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