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I'm using some functional stuff in C# and keep getting stuck on the fact that List.Add doesn't return the updated list.

In general, I'd like to call a function on an object and then return the updated object.

For example it would be great if C# had a comma operator:

((accum, data) => accum.Add(data), accum)

I could write my own "comma operator" like this:

static T comma(Action a, Func<T> result) {
    return result();

It looks like it would work but the call site would ugly. My first example would be something like:

((accum, data) => comma(accum.Add(data), ()=>accum))

Enough examples! What's the cleanest way to do this without another developer coming along later and wrinkling his or her nose at the code smell?


Aw, come on StackOverflow. A week later I discover that you can do almost exactly my first example naturally using code blocks.

((accum, data) => {accum.Add(data); return accum;})
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4 Answers 4

up vote 13 down vote accepted

I know this as Fluent.

A Fluent example of a List.Add using Extension Methods

static List<T> MyAdd<T>(this List<T> list, T element)
    return list;
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Good call on including the Fluent definition. –  Quintin Robinson Aug 18 '11 at 21:44
But why wouldn't you just use LINQ for this sort of thing? –  Kevin Roche Aug 19 '11 at 8:22
@KevinRoche: No one is suggesting that you not use linq. In fact this method appears to integrate well with linq. –  recursive Apr 6 '14 at 19:15
@recursive LINQ (or any "functional" code) operations should not mutate the data, which this does. The LINQ way of doing this would be .Concat(new []{element}) –  novaterata Sep 26 '14 at 14:29
@novaterata: Yes, this isn't really "pure", in the functional sense, but the question specifically asks about mutation. –  recursive Sep 26 '14 at 15:25

The extension method is arguably the best solution, but for completeness' sake, don't forget the obvious alternative: a wrapper class.

public class FList<T> : List<T>
    public new FList<T> Add(T item)
        return this;

    public new FList<T> RemoveAt(int index)
        return this;

    // etc...

     var list = new FList<string>();
     list.Add("foo").Add("remove me").Add("bar").RemoveAt(1);
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I thought it would be interesting to make a version of my wrapper class answer that doesn't require you write the wrapper methods.

public class FList<T> : List<T>
    public FList<T> Do(string method, params object[] args)
        var methodInfo = GetType().GetMethod(method);

        if (methodInfo == null)
            throw new InvalidOperationException("I have no " + method + " method.");

        if (methodInfo.ReturnType != typeof(void))
            throw new InvalidOperationException("I'm only meant for void methods.");

        methodInfo.Invoke(this, args);
        return this;

    var list = new FList<string>();

    list.Do("Add", "foo")
        .Do("Add", "remove me")
        .Do("Add", "bar")
        .Do("RemoveAt", 1)
        .Do("Insert", 1, "replacement");

    foreach (var item in list)




You can slim down the syntax by exploiting C# indexed properties.

Simply add this method:

public FList<T> this[string method, params object[] args]
    get { return Do(method, args); }

And the call now looks like:

list = list["Add", "foo"]
           ["Add", "remove me"]
           ["Add", "bar"]
           ["RemoveAt", 1]
           ["Insert", 1, "replacement"];

With the linebreaks being optional, of course.

Just a bit of fun hacking the syntax.

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I'd never have thought of using an index property like this. At the same time amazing and most ugly ;) (for 2 reasons: changing the object in a get{} property, and using magic strings) –  devio Aug 19 '11 at 8:57
@devio, I won't dispute the ugliness (but it's kind of cool too :)), but these aren't magic strings. Magic strings are something that produces special/unique results. But using hardcoded literals like this of course bypasses the compile-time checking of both method names (no symbols!) and types. It kinda turns C# into a smooshy weakly typed dynamic language (not to mention hell slow!). Fun :) –  Igby Largeman Aug 19 '11 at 14:19
You could use an Enum for the method names (convert to string at runtime) - it doesn't make any techincal difference but it would be neater and much less error-prone. (Or you could use consts) –  Igby Largeman Aug 19 '11 at 14:21

This is what Concat http://msdn.microsoft.com/en-us/library/vstudio/bb302894%28v=vs.100%29.aspx is for. Just wrap a single item in an array. Functional code should not mutate the original data. If performance is a concern, and this isn't good enough, then you'll no longer be using the functional paradigm.

((accum, data) => accum.Concat(new[]{data}))
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seemed the LINQ-y-est of the answers to me. shrug –  shelleybutterfly Dec 10 '14 at 0:48

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