I'm after some good tips for fluent interfaces in C#. I'm just learning about it myself but keen to hear what others think outside of the articles I am reading. In particular I'm after:

  1. when is fluent too much?
  2. are there any fluent patterns?
  3. what is in C# that makes fluent interfaces more fluent (e.g. extension methods)
  4. is a complex fluent interface still a fluent one?
  5. refactoring to arrive at a fluent interface or refactoring an existing fluent interface
  6. any good examples out there that you have worked with or could recommend?

If you could post one tip or thought, or whatever per post. I want to see how they get voted on, too.

Thank you in advance.

  • here's a tip: discoverability and simplicity are much more important than the little added readability a fluent API gives in most cases. Fluent the way LinQ (the methods synatax) does it is great, building a fluent DSL with C# just creates an API that is impossible to understand. – AK_ Jan 30 '14 at 9:07

On your 4th point;

Yes I think that a complex fluent interface can still be fluent.

I think fluent interfaces are somewhat of a compromise. (although a good one!) There has been much research into using natural language for programming and generally natural language isn't precise enough to express programs.

Fluent interfaces are constructed so that they write like a programming language, only a small subset of what you can express in a natural language is allowed, but they read like a natural language.

If you look at rhino mocks for example the writing part has been complicated compared to a normal library. I took me longer to learn mostly due to the fluent interface but it makes code a lot easier to read. Because programs are usually written once and read a lot more than once this is a good tradeoff.

So to qualify my point a bit. A fluent interface that's complex to write but easy to read can still be fluent.

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  • Rhino mocks is a good example. Also, like your view on what's good. I think that fluent interfaces, whether exposed to the public or not, is about providing easy to use interfaces for users, other coders, and so on. So the complexity pain is not all bad. – Scott McKenzie Oct 22 '08 at 9:00

The single biggest challenge I have experienced as a consumer of fluent interfaces is that most of them aren't really fluent intefaces -- instead they are really instances of what I tend to refer to as 'legible interfaces'.

A fluent interface implies that its primary goal is to make it easy to SPEAK it whereas a legible interface implies that its primary goal is to be easy to READ it. Most fluent interfaces only tend to be ridiculously difficult to code with but conversely incredibly easy to READ later by others.

    Except().If(x => x.GreaterThan(10));

...is alot easier to read later than it is to actually compose in code!

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  • 13
    Is it really easier to read, than just plain actual==expected || actual>10 ? – Yaroslav Yakovlev Mar 14 '14 at 13:17

You'll hit a brick when using inheritance along with fluent interfaces because using polymorphic methods break your call chains and you definitely don't want to make your interfaces non-fluent by using ugly casting and paranthesis where they are not needed. I've written an article about a pattern that provides you with a workaround using generic builders and generic extension methods with generic constraints: http://liviutrifoi.wordpress.com/2009/02/16/fluent-interfaces-constraints-at-compile-time/

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Moq hides unreleated methods such as equals, ToString and so on to make their fluent interface even easier to use.

Hiding System Object is an article explaining the benefit of doing this.

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And on your 2nd and 3rd question;

Three fluent patterns i've noticed

The first uses the using statement (C# 2.0) to run code in a certain context for example:

using(var transaction = new Transaction())
  // ..
  // ..

This uses the constructor and disposer of Transaction to set up a transaction and then runs the code in this context.

The second does almost the same but with lambda's, this is used a lot in Rhino Mocks for example.

(new Transaction()).Run( () => mycode(); );

The best known fluent interface is to use return types to chain method calls. Mostly methods return this so you can chain calls on the same object. But you can also return different objects to change the context depending on the method called. If you've got an object that can only run in a transaction (sorry can't think of a different example) you can give it a StartTransaction method that returns an initialized transaction where you can run call run and stoptransaction, in pseudocode:

class Runner
  Transaction StartTransaction()
    return new Transaction(this);

class Transaction
  Transaction Run()
  Transaction StopTransaction()

where the call looks like

var runner = new Runner();

Of course you need to add all kinds of error handling etc.

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I too am just jumping on learning how to write a fluent interface for a small app at work. I've asked around and researched a little and found that a good approach for writing a fluent interface is using the "Builder pattern", read more about it here.

In essence, this is how I started mine:

public class Coffee
    private bool _cream;
    private int _ounces;

    public Coffee Make { get new Coffee(); }

    public Coffee WithCream()
        _cream = true;
        return this;

    public Coffee WithOuncesToServe(int ounces)
        _ounces = ounces;
        return this;

Here's a cross post to a similar question I have for implementing a closure in a fluent interface.

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One thing is that you have to account for the morphology of English syntax and ensure that you have not introduced undocumented sequential coupling underneath.

// Snarky employees get a raise.


// Depending on implementation, everyone may get a raise.
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Sometime ago I had the same doubts you are having now. I've done some research and now I'm writing some posts to help in those topics.

Check it at my blog:

Guidelines to Fluent Interface design in C# part 1

And in the following posts I will cover every one of the points you mentioned.

Best regards André Vianna

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