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"Fluent interfaces" is a fairly hot topic these days. C# 3.0 has some nice features (particularly extension methods) that help you make them.

FYI, a fluent API means that each method call returns something useful, often the same object you called the method on, so you can keep chaining things. Martin Fowler discusses it with a Java example here. The concept kooks something like this:

var myListOfPeople = new List<Person>();

var person = new Person();
person.SetFirstName("Douglas").SetLastName("Adams").SetAge(42).AddToList(myListOfPeople);

I have seen some incredibly useful fluent interfaces in C# (one example is the fluent approach for validating parameters found in an earlier StackOverflow question I had asked. It blew me away. It was able to give highly readable syntax for expressing parameter validation rules, and also, if there were no exceptions, it was able to avoid instantiating any objects! So for the "normal case", there was very little overhead. This one tidbit taught me a huge amount in a short time. I want to find more things like that).

So, I'd like to learn more by looking at and discussing some excellent examples. So, what are some excellent fluent interfaces you've made or seen in C#, and what made them so valuable?

Thanks.

share|improve this question
    
I really like FI pattern. I just posted two blogs on reading data for domain objects. –  David.Chu.ca Apr 30 '09 at 5:03
    
I once wrote a collection class that used indexers to add to the collection which returned the (collection) instance. The code looked like: myCollection[1][2][3][4] which is similar to new [] { 1, 2, 3, 4 }, for fun :P –  nawfal May 20 '13 at 11:06

11 Answers 11

up vote 8 down vote accepted

Kudos for the method parameter validation, you've given me a new idea for our fluent APIs. I've hated our precondition checks anyways...

I've built a extensibility system for a new product in development, where you can fluently describe the commands available, the user interface elements and more. This runs on top of StructureMap and FluentNHibernate, which are nice APIs too.

MenuBarController mb;
// ...
mb.Add(Resources.FileMenu, x =>
{
  x.Executes(CommandNames.File);
  x.Menu
    .AddButton(Resources.FileNewCommandImage, Resources.FileNew, Resources.FileNewTip, y => y.Executes(CommandNames.FileNew))
    .AddButton(null, Resources.FileOpen, Resources.FileOpenTip, y => 
    {
      y.Executes(CommandNames.FileOpen);
      y.Menu
        .AddButton(Resources.FileOpenFileCommandImage, Resources.OpenFromFile, Resources.OpenFromFileTop, z => z.Executes(CommandNames.FileOpenFile))
        .AddButton(Resources.FileOpenRecordCommandImage, Resources.OpenRecord, Resources.OpenRecordTip, z => z.Executes(CommandNames.FileOpenRecord));
     })
     .AddSeperator()
     .AddButton(null, Resources.FileClose, Resources.FileCloseTip, y => y.Executes(CommandNames.FileClose))
     .AddSeperator();
     // ...
});

And you can configure all commands available like this:

Command(CommandNames.File)
  .Is<DummyCommand>()
  .AlwaysEnabled();

Command(CommandNames.FileNew)
  .Bind(Shortcut.CtrlN)
  .Is<FileNewCommand>()
  .Enable(WorkspaceStatusProviderNames.DocumentFactoryRegistered);

Command(CommandNames.FileSave)
  .Bind(Shortcut.CtrlS)
  .Enable(WorkspaceStatusProviderNames.DocumentOpen)
  .Is<FileSaveCommand>();

Command(CommandNames.FileSaveAs)
  .Bind(Shortcut.CtrlShiftS)
  .Enable(WorkspaceStatusProviderNames.DocumentOpen)
  .Is<FileSaveAsCommand>();

Command(CommandNames.FileOpen)
  .Is<FileOpenCommand>()
  .Enable(WorkspaceStatusProviderNames.DocumentFactoryRegistered);

Command(CommandNames.FileOpenFile)
  .Bind(Shortcut.CtrlO)
  .Is<FileOpenFileCommand>()
  .Enable(WorkspaceStatusProviderNames.DocumentFactoryRegistered);

Command(CommandNames.FileOpenRecord)
  .Bind(Shortcut.CtrlShiftO)
  .Is<FileOpenRecordCommand>()
  .Enable(WorkspaceStatusProviderNames.DocumentFactoryRegistered);

Our view configure their controls for the standard edit menu commands using a service given to them by the workspace, where they just tell it to observe them:

Workspace
  .Observe(control1)
  .Observe(control2)

If the user tabs to the controls, the workspace automatically gets an appropriate adapter for the control and provides undo/redo and clipboard operations.

It has helped us reduce the setup code dramatically and make it even more readable.


I forgot to tell about a library we're using in our WinForms MVP model presenters to validate the views: FluentValidation. Really easy, really testable, really nice!

share|improve this answer
    
That is some excellent stuff. You've made a DSL for menus and commands ... and a good one from the looks of it. What does Is<T> do? Such as Is<FileOpenRecordCommand>()? –  Charlie Flowers Mar 27 '09 at 17:56
    
It associates a command type (a class implementing the command pattern) with a logical command name (a string). Every invocation uses a a new instance of the type. This way extensions can invoke commands using names without explicitly knowing who/where is actually implementing them. –  grover Mar 27 '09 at 18:03
    
Oh, got it. Nice. –  Charlie Flowers Mar 27 '09 at 18:07
    
Oh yes, FluentValidation looks very nice. Especially When and Unless. Again, its a highly readable DSL. Thanks for the link. –  Charlie Flowers Mar 29 '09 at 6:33
    
(I already gave you +1, I'd give you more if I could:) Of course, there is the "accepted response", which you're the front-runner for right now. –  Charlie Flowers Mar 29 '09 at 6:34

This is actually the first time I've heard the term "fluent interface." But the two examples that come to mind are LINQ and immutable collections.

Under the covers LINQ is a series of methods, most of which are extension methods, which take at least one IEnumerable and return another IEnumerable. This allows for very powerful method chaining

var query = someCollection.Where(x => !x.IsBad).Select(x => x.Property1);

Immutable types, and more specifically collections have a very similar pattern. Immutable Collections return a new collection for what would be normally a mutating operation. So building up a collection often turns into a series of chained method calls.

var array = ImmutableCollection<int>.Empty.Add(42).Add(13).Add(12);
share|improve this answer
    
I like the immutable collection example. –  Charlie Flowers Mar 27 '09 at 5:06
    
+1 totally overlooked linq thats a huge one. I just heard the term fluent interface the day before this question. –  bendewey Mar 27 '09 at 12:23
    
A problem with that immutable collection syntax, especially in a loop, is that it works the same as concatenating strings - exponential run time - better to fill a normal collection and then wrap/copy it into the immutable just once. Concept is nice though. –  devstuff Mar 27 '09 at 18:16
    
@devstuff, you're making an assumption about the underlying nature of the collection. Not all immutable collections require a copy operation in order to add elements (linked lists, finger trees, etc ...). Sure, using an ImmutableArray would have this problem but it's not a failure of all types –  JaredPar Mar 27 '09 at 18:30
    
You know, this would be nice for a Builder for an immutable collection. There is a period where the collection is mutable while you are "constructing" it, but when you finish, it becomes immutable. Much like using StringBuilder for a while, then turning it into a string. But fluently. –  Charlie Flowers Mar 27 '09 at 18:36

I love the fluent interface in CuttingEdge.Conditions.

From their sample:

 // Check all preconditions:
 id.Requires("id")
    .IsNotNull()          // throws ArgumentNullException on failure 
    .IsInRange(1, 999)    // ArgumentOutOfRangeException on failure 
    .IsNotEqualTo(128);   // throws ArgumentException on failure 
 

I've found that it is a lot easier to read, and makes me much more effective at checking my preconditions (and post conditions) in methods than when I have 50 if statements to handle the same checks.

share|improve this answer
    
Cool. I hadn't come across that library yet. I'll check it out. –  Charlie Flowers Mar 27 '09 at 17:57
    
It's a very nice one. I've been happy using it so far. –  Reed Copsey Mar 27 '09 at 17:59
    
I personally don't like Requires("id")... why they didn't use EnsureThat() or something similar without ugly strings. Oh, I know, probably to make exceptions more explanatory. but still. –  lubos hasko Mar 27 '09 at 18:13
2  
There's a great way to avoid having to use string but still get the name of the parameter into your error message (which is a string of course). See here: stackoverflow.com/questions/669678/… –  Charlie Flowers Mar 27 '09 at 18:38
1  
What we really need is nameof(someField) operator in C#. –  Judah Himango Apr 8 '09 at 16:37

Here's one I made just yesterday. Further thought may lead me to change the approach, but even if so, the "fluent" approach let me accomplish something I otherwise could not have.

First, some background. I recently learned (here on StackOverflow) a way to pass a value to a method such that the method would be able to determine both the name and the value. For example, one common use is for parameter validation. For example:

public void SomeMethod(Invoice lastMonthsInvoice)
{
     Helper.MustNotBeNull( ()=> lastMonthsInvoice);
}

Note there's no string containing "lastMonthsInvoice", which is good because strings suck for refactoring. However, the error message can say something like "The parameter 'lastMonthsInvoice' must not be null." Here's the post that explains why this works and points to the guy's blog post.

But that is just background. I'm using the same concept, but in a different way. I am writing some unit tests, and I want to dump certain property values out to the console so they show up in the unit test output. I got tired of writing this:

Console.WriteLine("The property 'lastMonthsInvoice' has the value: " + lastMonthsInvoice.ToString());

... because I have to name the property as a string and then refer to it. So I made it where I could type this:

ConsoleHelper.WriteProperty( ()=> lastMonthsInvoice );

And get this output:

Property [lastMonthsInvoice] is: <whatever ToString from Invoice

produces>

Now, here's where a fluent approach allowed me to do something I otherwise couldn't do.

I wanted to make ConsoleHelper.WriteProperty take a params array, so it could dump many such property values to the console. To do that, its signature would look like this:

public static void WriteProperty<T>(params Expression<Func<T>>[] expr)

So I could do this:

ConsoleHelper.WriteProperty( ()=> lastMonthsInvoice, ()=> firstName, ()=> lastName );

However, that doesn't work due to type inference. In other words, all of these expressions do not return the same type. lastMonthsInvoice is an Invoice. firstName and lastName are strings. They cannot be used in the same call to WriteProperty, because T is not the same across all of them.

This is where the fluent approach came to the rescue. I made WriteProperty() return something. The type it returned is something I can call And() on. This gives me this syntax:

ConsoleHelper.WriteProperty( ()=> lastMonthsInvoice)
     .And( ()=> firstName)
     .And( ()=> lastName);

This is a case where the fluent approach allowed something that otherwise would not have been possible (or at least not convenient).

Here's the full implementation. As I said, I wrote it yesterday. You'll probably see room for improvement or maybe even better approaches. I welcome that.

public static class ConsoleHelper
{
    // code where idea came from ...
    //public static void IsNotNull<T>(Expression<Func<T>> expr)
    //{
    // // expression value != default of T
    // if (!expr.Compile()().Equals(default(T)))
    // return;

    // var param = (MemberExpression)expr.Body;
    // throw new ArgumentNullException(param.Member.Name);
    //}

    public static PropertyWriter WriteProperty<T>(Expression<Func<T>> expr)
    {
        var param = (MemberExpression)expr.Body;
        Console.WriteLine("Property [" + param.Member.Name + "] = " + expr.Compile()());
        return null;
    }

    public static PropertyWriter And<T>(this PropertyWriter ignored, Expression<Func<T>> expr)
    {
        ConsoleHelper.WriteProperty(expr);
        return null;
    }

    public static void Blank(this PropertyWriter ignored)
    {
        Console.WriteLine();
    }
}

public class PropertyWriter
{
    /// <summary>
    /// It is not even possible to instantiate this class. It exists solely for hanging extension methods off.
    /// </summary>
    private PropertyWriter() { }
}
share|improve this answer
    
Wow! That's really cool... I always thought the only way to do this i reflection. In fact, I'm going to go refactor some stuff right now. –  Jacob Mar 27 '09 at 20:23
    
Wouldn't `void WriteProperty(Expression<Func<object>> expr)´ work for the impossible example? –  erikkallen Mar 27 '09 at 21:20
    
No, that only works for one parameter. I want to output many properties to the console, without retyping "ConsoleHelper.WriteProperty" each time. So first I tried params, but if they aren't all the same type, that doesn't work. Fluent let me keep syntax small while dumping many properties out. –  Charlie Flowers Mar 27 '09 at 22:07
    
I'd consider it a public service if you would consider adding the code that implements 'PropertyWriter' and 'WritePropertyToConsole' to the example. I spent several minutes searching MS docs, thinking 'PropertyWriter' was in some .NET library. I've also looked at your blog site, searching for a complete example. Appreciate you role in sparking a great discussion of issues in using Fluent interfaces here ! thanks, Bill –  BillW Aug 12 '11 at 7:44
2  
@BillW - I added it. Ironically, it is the most boring class you could imagine :) But it does complete the example. Hope it helps. –  Charlie Flowers Aug 12 '11 at 8:28

In addition to the ones specified here, the popuplar RhinoMocks unit test mock framework uses fluent syntax to specify expectations on mock objects:

// Expect mock.FooBar method to be called with any paramter and have it invoke some method
Expect.Call(() => mock.FooBar(null))
    .IgnoreArguments()
    .WhenCalled(someCallbackHere);

// Tell mock.Baz property to return 5:
SetupResult.For(mock.Baz).Return(5);
share|improve this answer

SubSonic 2.1 has a decent one for the query API:

DB.Select()
  .From<User>()
  .Where(User.UserIdColumn).IsEqualTo(1)
  .ExecuteSingle<User>();

tweetsharp makes extensive use of a fluent API too:

var twitter = FluentTwitter.CreateRequest()
              .Configuration.CacheUntil(2.Minutes().FromNow())
              .Statuses().OnPublicTimeline().AsJson();

And Fluent NHibernate is all the rage lately:

public class CatMap : ClassMap<Cat>  
{  
  public CatMap()  
  {  
    Id(x => x.Id);  
    Map(x => x.Name)  
      .WithLengthOf(16)  
      .Not.Nullable();  
    Map(x => x.Sex);  
    References(x => x.Mate);  
    HasMany(x => x.Kittens);  
  }  
}

Ninject uses them too, but I couldn't find an example quickly.

share|improve this answer

Method Naming

Fluent interfaces lend themselves to readability as long as the method names are chosen sensibly.

With that in mind, I'd like to nominate this particular API as "anti-fluent":

System.Type.IsInstanceOfType

It's a member of System.Type and takes an object, and returns true if the object is an instance of the type. Unfortunately, you naturally tend to read it from left to right like this:

o.IsInstanceOfType(t);  // wrong

When it's actually the other way:

t.IsInstanceOfType(o);  // right, but counter-intuitive

But not all methods could possibly be named (or positioned in the BCL) to anticipate how they might appear in "pseudo-English" code, so this isn't really a criticism. I'm just pointing out another aspect of fluent interfaces - the choosing of method names in order to cause the least surprise.

Object Initializers

With many of the examples given here, the only reason a fluent interface is being used is so that several properties of a newly allocated object can be initialized within a single expression.

But C# has a language feature that very often makes this unnecessary - object initializer syntax:

var myObj = new MyClass
            {
                SomeProperty = 5,
                Another = true,
                Complain = str => MessageBox.Show(str),
            };

This perhaps would explain why expert C# users are less familiar with the term "fluent interface" for chaining calls on the same object - it isn't needed quite so often in C#.

As properties can have hand-coded setters, this is an opportunity to call several methods on the newly constructed object, without having to make each method return the same object.

The limitations are:

  • A property setter can only accept one argument
  • A property setter cannot be generic

I would like it if we could call methods and enlist in events, as well as assign to properties, inside an object initializer block.

var myObj = new MyClass
            {
                SomeProperty = 5,
                Another = true,
                Complain = str => MessageBox.Show(str),
                DoSomething()
                Click += (se, ev) => MessageBox.Show("Clicked!"),
            };

And why should such a block of modifications only be applicable immediately after construction? We could have:

myObj with
{
    SomeProperty = 5,
    Another = true,
    Complain = str => MessageBox.Show(str),
    DoSomething(),
    Click += (se, ev) => MessageBox.Show("Clicked!"),
}

The with would be a new keyword that operates on an object of some type and produces the same object and type - note that this would be an expression, not a statement. So it would exactly capture the idea of chaining in a "fluent interface".

So you could use initializer-style syntax regardless of whether you'd got the object from a new expression or from an IOC or factory method, etc.

In fact you could use with after a complete new and it would be equivalent to the current style of object initializer:

var myObj = new MyClass() with
            {
                SomeProperty = 5,
                Another = true,
                Complain = str => MessageBox.Show(str),
                DoSomething(),
                Click += (se, ev) => MessageBox.Show("Clicked!"),
            };

And as Charlie points out in the comments:

public static T With(this T with, Action<T> action)
{
    if (with != null)
        action(with);
    return with;
}

The above wrapper simply forces a non-returning action to return something, and hey presto - anything can be "fluent" in that sense.

Equivalent of initializer, but with event enlisting:

var myObj = new MyClass().With(w =>
            {
                w.SomeProperty = 5;
                w.Another = true;
                w.Click += (se, ev) => MessageBox.Show("Clicked!");
            };

And on a factory method instead of a new:

var myObj = Factory.Alloc().With(w =>
            {
                w.SomeProperty = 5;
                w.Another = true;
                w.Click += (se, ev) => MessageBox.Show("Clicked!");
            };

I couldn't resist giving it the "maybe monad"-style check for null as well, so if you have something that might return null, you can still apply With to it and then check it for null-ness.

share|improve this answer
    
You could do something like this. Make an extension method on Object called "With". Let it take a Func<T>, and pass the object into the Func. Now, whatever lambda you pass it will execute inside the context of the object. Pretty cool really. –  Charlie Flowers Mar 27 '09 at 23:04
    
That's logically exactly what I want (although it should be an Action, not a Func). Okay, so the syntax is messier, but I'll take something I can use over an imaginary/unlikely language extension! :) –  Daniel Earwicker Mar 27 '09 at 23:31
    
Yes, the null check inside With is a nice touch. Let's you keep being fluent even if there's a null. –  Charlie Flowers Mar 29 '09 at 6:27

The Criteria API in NHibernate has a nice fluent interface which allows you to do cool stuff like this:

Session.CreateCriteria(typeof(Entity))
    .Add(Restrictions.Eq("EntityId", entityId))
    .CreateAlias("Address", "Address")
    .Add(Restrictions.Le("Address.StartDate", effectiveDate))
    .Add(Restrictions.Disjunction()
        .Add(Restrictions.IsNull("Address.EndDate"))
        .Add(Restrictions.Ge("Address.EndDate", effectiveDate)))
    .UniqueResult<Entity>();
share|improve this answer
    
What's it going to do with that? Turn it into sql? –  Charlie Flowers Mar 27 '09 at 5:57
    
yeah, then return an Entity object –  lomaxx Mar 27 '09 at 6:09

The new HttpClient of the WCF REST Starter Kit Preview 2 is a great fluent API. see my blog post for a sample http://bendewey.wordpress.com/2009/03/14/connecting-to-live-search-using-the-httpclient/

share|improve this answer
    
Great! I'm looking at it right now. Thanks. –  Charlie Flowers Mar 27 '09 at 3:28
    
bendewey ... was wondering your opinion of this: could they have made it not fluent just as well, or do you think there was a particular reason in this case that it needed to be fluent? –  Charlie Flowers Mar 27 '09 at 3:48
    
If you look at the code its actually quite simple. The fluency, comes mostly from extension methods, which, I've been sceptical of, but when used to enhance this fluency I'm for it. –  bendewey Mar 27 '09 at 3:57
    
I did look at it. It's definitely an example of a fluent interface. Thanks for pointing it out. –  Charlie Flowers Mar 27 '09 at 4:30

I wrote a little fluent wrapper for System.Net.Mail which I find makes it email code much more readable (and easier to remember the syntax).

var email = Email
            .From("john@email.com")
            .To("bob@email.com", "bob")
            .Subject("hows it going bob")
            .Body("yo dawg, sup?");

//send normally
email.Send();

//send asynchronously
email.SendAsync(MailDeliveredCallback);

http://lukencode.com/2010/04/11/fluent-email-in-net/

share|improve this answer

As @John Sheehan mentioned, Ninject uses this type of API to specify bindings. Here are some example code from their user guide:

Bind<IWeapon>().To<Sword>();
Bind<Samurai>().ToSelf();
Bind<Shogun>().ToSelf().Using<SingletonBehavior>();
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