30

Continuing my investigation of expressing F# ideas in C#, I wanted a pipe forward operator. For anything wrapped in a IEnumerable, we already have it, as you can .NextFunc() to your heart's content. But for example if you have any fold-like reduction at the end, you can't feed the result of that into a function.

Here are two extension methods, I wondered if anyone else had tried this, and if it's a good idea or not (EDIT: now with Earwicker's Maybe included):

public static void Pipe<T>(this T val, Action<T> action) where T : class
{ if (val!=null) action(val); }

public static R Pipe<T, R>(this T val, Func<T, R> func) where T : class where R : class
{ return val!=null?func(val):null; }

You can then write something like:

Func<string, string[]> readlines = (f) => File.ReadAllLines(f);
Action<string, string> writefile = (f, s) => File.WriteAllText(f, s);

Action<string, string> RemoveLinesContaining = (file, text) =>
    {
        file.Pipe(readlines)
            .Filter(s => !s.Contains(text))
            .Fold((val, sb) => sb.AppendLine(val), new StringBuilder())
            .Pipe((o) => o.ToString())
            .Pipe((s) => writefile(file, s));
    };

(I know, Filter == Where in C#, and Fold==Aggregate, but I wanted to roll my own, and I could have done WriteAllLines, but that's not the point)

EDIT: corrections as per Earwicker's comment (if I've understood correctly).

10
  • I think this is called composing, not piping.
    – leppie
    Dec 3, 2008 at 10:42
  • No, but they are related, look here: blogs.msdn.com/chrsmith/archive/2008/06/14/…
    – Benjol
    Dec 17, 2008 at 8:44
  • Couple of bugs: you need a constraint 'where T : class' or you can't compare with null. Also you've only put the check for null in the Func version. In an ideal world you would only need to write the Func version - see 'void' in stackoverflow.com/questions/27731/whats-wrong-with-c#303071 Dec 17, 2008 at 11:23
  • 3
    You may be surprised to learn (I was) that you CAN call an extension method on a null variable. Try this: public static bool IsNull(this object obj) { return (obj == null); }
    – Benjol
    Jan 14, 2010 at 12:21
  • 1
    @Mark, as far as I know there's no way to make that happen directly using the constructor. You'd have to create a static 'constructor' (like Tuple.Create), and even that couldn't work with more than one parameter (I think: I haven't tried it)
    – Benjol
    Nov 13, 2013 at 5:45

4 Answers 4

31

I haven't bothered with a raw pipe, but I have tried making all references into the Maybe monad:

public static class ReferenceExtensions
{
    public static TOut IfNotNull<TIn, TOut>(this TIn v, Func<TIn, TOut> f)
                                    where TIn : class 
                                    where TOut: class
    {
        if (v == null)
            return null;

        return f(v);
    }
}

Then suppose you have an object model that lets you lookup a RecordCompany by name, and then lookup a Band within that RecordCompany, a Member of the Band, and any of these might return null, so this might throw a NullReferenceException:

var pixiesDrummer = Music.GetCompany("4ad.com")
                         .GetBand("Pixes")
                         .GetMember("David");

We can fix that:

var pixiesDrummer = Music.GetCompany("4ad.com")
                         .IfNotNull(rc => rc.GetBand("Pixes"))
                         .IfNotNull(band => band.GetMember("David"));

Hey presto, if any of those transitions return null, pixiesDrummer will be null.

Wouldn't it be great if we could do extension methods that are operator overloads?

public static TOut operator| <TIn, TOut>(TIn v, Func<TIn, TOut> f)

Then I could pipe together my transition lambdas like this:

var pixiesDrummer = Music.GetCompany("4ad.com")     
                     | rc => rc.GetBand("Pixes")
                     | band => band.GetMember("David");

Also wouldn't it be great if System.Void was defined as a type and Action was really just Func<..., Void>?

Update: I blogged a little about the theory behind this.

Update 2: An alternative answer to the original question, which is roughly "How would you express the F# pipe-forward operator in C#?"

Pipe-forward is:

let (|>) x f = f x

In other words, it lets you write a function and its first argument in the opposite order: argument followed by function. It's just a syntactic helper that assists with readability, allowing you to make use of infix notation with any function.

This is exactly what extension methods are for in C#. Without them, we would have to write:

var n = Enumerable.Select(numbers, m => m * 2);

With them, we can write:

var n = numbers.Select(m => m * 2);

(Ignore the fact that they also let us omit the class name - that's a bonus but could also be made available for non-extension methods as it is in Java).

So C# already solves the same problem in a different way.

4
  • You do me a great honour, Sir. Dec 4, 2008 at 16:37
  • If you define a Select() for Maybe<T> you can type "from Maybe<Company> rc in Music.GetCompany() let band = rc.GetBand() select band.GetMember()". Jan 2, 2009 at 12:10
  • @marxidad - You don't need to define Maybe<T> (see the blog post I linked to). Just rename 'IsNotNull' to 'Select' and the special Linq keywords will work (although your example should begin 'from rc in...') with no type specified for rc. Jan 4, 2009 at 19:01
  • 2
    Coming back to this 6 years later, I wished for two things: the ability to call static methods without the class-name prefix (that's in Rosyln/C# 6) and the ability to overload operators via extension methods (that turned out to be very easy to add to Roslyn: smellegantcode.wordpress.com/2014/04/24/…) Mar 19, 2015 at 10:30
6

So for Piping I don't think there is expectation to check for null and not call the piped function. The function argument in many cases could easy take a null and have it handled by the function.

Here is my implementation. I have Pipe and PipeR. Be forewarned, the PipeR is not pipe right, but just for the cases in which the target is in the opposite position for currying, because the alternate overloads allow limited fake currying of parameters.

The nice thing about the fake currying is that you can pipe in the method name after providing the parameters, thus producing less nesting than you would with a lambda.

new [] { "Joe", "Jane", "Janet" }.Pipe(", ", String.Join)

String.Join has the IEnumerable in the last position so this works.

"One car red car blue Car".PipeR(@"(\w+)\s+(car)",RegexOptions.IgnoreCase, Regex.IsMatch)

Regex.IsMatch has the target in the first Position so PipeR works.

Here's my example implementaion:

public static TR Pipe<T,TR>(this T target, Func<T, TR> func)
{
    return func(target);
}

public static TR Pipe<T,T1, TR>(this T target, T1 arg1, Func<T1, T, TR> func)
{
    return func(arg1, target);
}

public static TR Pipe<T, T1, T2, TR>(this T target, T1 arg1, T2 arg2, Func<T1, T2, T, TR> func)
{
    return func(arg1, arg2, target);
}

public static TR PipeR<T, T1, TR>(this T target, T1 arg1, Func<T, T1, TR> func)
{
    return func(target, arg1);
}

public static TR PipeR<T, T1, T2, TR>(this T target, T1 arg1, T2 arg2, Func<T, T1, T2, TR> func)
{
    return func(target, arg1, arg2);
}
1
  • I have written pipe extensions in one or two projects, but I like yours. I might move my func parameter up though, so I could use .Pipe(String.Join, ',') instead. Jun 24, 2021 at 14:36
1

While it's not quite the same thing, you might be interested in my Push LINQ framework. Basically where IEnumerable<T> requires the interested party to pull data from a source, Push LINQ lets you push data through a source, and interested parties can subscribe to events corresponding to "another element has just gone past" and "the data has finished".

Marc Gravell and I have implemented most of the standard LINQ query operators, which means you can write query expressions against data sources and do fun stuff like streaming grouping, multiple aggregations etc.

2
1

Your Pipe method looks a whole lot like the Thrush Combinator. My implementation of it is very simple.

public static T Into<T>(this T obj, Func<T, T> f)
{ return f(obj); }

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