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It has been said that C# can be regarded as a functional programming language, even though it is widely recognized as a OO programming language.

So, what feature set makes C# a functional programming language?

I can only think of:

  1. delegates (even without anonymous methods and lambda expressions)
  2. closures

Anything else?

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up vote 37 down vote accepted

C# has borrowed a lot of features from ML and Haskell for example:

  • C# 2.0 brought us parametric polymorphism (or "generics"). I've heard that Dom Syme, one of the creators of F#, was largely responsible for implementing generics in the .NET BCL.

  • C# 2.0 also allows programmers to pass and returns functions as values for higher-order functions, and has limited support for anonymous delegates.

  • C# 3.0 and 3.5 improved support anonymous functions for true closures.

  • LINQ can be considered C#'s own flavor of list comprehensions.

  • Anonymous types look like an approximation of ML records

  • Type-inference is a given.

  • I don't know about you, but C# extension methods look an awful lot like Haskell type classes.

  • There's been a lot of talk about the "dynamic" keyword in C# 4.0. I'm not 100% sure of its implementation details, but I'm fairly sure its going to use structural typing rather than late binding to retain C#'s compile time safety. Structural typing is roughly equivalent to "duck typing for static languages", its a feature that Haskell and ML hackers have been enjoying for years.

This isn't to say that C# is a functional programming language. Its still missing important features such as pattern matching, tail-call optimization, and list and tuple literals. Additionally, idiomatic C# is fundamentally imperative with a heavy dependence on mutable state.

I wouldn't necessarily consider some of those features mentioned above as exclusive to functional programming languages, but its pretty clear that the C# developers have taken a lot of inspiration from functional programming languages in the past few years.

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C# extension methods aren't like type classes. It's merely a convenient syntax on top of static methods. – Jules Dec 26 '08 at 14:46
I like the analogy between extension methods and custom operators and especially the pipelining operator in F#: list |> foo in F# corresponds to list.Map(foo) in C#. – Tomas Petricek Dec 26 '08 at 15:19
Oh, and I should add that the .NET team is adding tuples to the .NET BCL (…). – Juliet Dec 27 '08 at 2:06
dynamic does indeed use late binding (and not structural (sub-)typing), that is the entire point of dynamic. – Logan Capaldo Jul 25 '09 at 2:21

These are the main points whow makes c# functional 1-Lamba expresions 2-Extension methods 3-Type inferende 4-Object and collection initializators 5-Closures 6-Anonymous types 7-Linq

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you can find a great overview regarding language features in the presentation from Andrew Kennedy (from MS Research) called C# is a functional programming language. My article about functional programming in C# and F# gives an overview from a higher level perspecitve (especially towards the end).


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I mostly agree with the others here who say that C# is better described as multi-paradigm than functional. But I'd add to the examples of functional features in C# LINQ, a first-class and relatively understandable system for writing monads. While purely functional languages don't require the use of monads, the example of Haskell has shown that they can be extremely useful. Yet they're one of the hardest things go grasp for many people new to Haskell. In C#, on the other hand, many people write LINQ queries these days without even realizing that they're writing monads.

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Function pointers is another feature that C# has in the functional category.

I don't think C# is very widely regarded as a functional language, however. I do think it's important to point out that you can program in a functional style in many languages that aren't purely functional.

From Functional Programming:

In computer science, functional programming is a programming paradigm that treats computation as the evaluation of mathematical functions and avoids state and mutable data. It emphasizes the application of functions, in contrast to the imperative programming style, which emphasizes changes in state.

Using that definition, you can program in a functional style in almost any procedural language. Purely functional languages just enforce it.

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Well, delegates and closures allow it to operate in a largely functional way... for example:

var sum = data.Sum(x=>x.SomeProp);


You can write most higher-order functions using lambdas / delegates. The type inference isn't quite the same as pure functional languages such as F#, but C# generic-type-inference is still pretty good (especially in C# 3.0).

This is especially true in .NET 3.5 and C# 3.0, where LINQ takes a highly-functional approach to many of the problems. But you can still use the functional aspects of C# with .NET 2.0 and C# 2.0. It is just easier with C# 3.0 and lambdas ;-p

Actually, C# is a pragmatic programming language. It aims to make it possible to use a number of paradigms, without punishing you hideously if you want to do something different.

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Nitpicking: F# is an impure functional programming language, not a pure one. And most people would categorize C# as a "general purpose" programming language (as opposed to a domain specific language) which supports multiple programming paradigms, in particular object-oriented and imperative style. – Juliet Dec 26 '08 at 13:57

C# has the some functional language features, closures, for example. The .NET libraries aren't written in a functional style, so in practice C# isn't a functional language. Almost everything is accomplished with mutation. The collection types are all mutable.

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LINQ is pretty functional... – Marc Gravell Dec 26 '08 at 13:46
That's right, but it's an exception, not the rule. – Jules Dec 26 '08 at 14:44

There being no rigourous definition of "OO Language", "Functional Language", "Procedural Language", one can make arguments that any language fits mostly any classification; one can write procedural Java, object oriented C and functional C++. I typically use a classification based around what the main semantic features support, along with common development practice. A good way of looking at this is to examine builtin and popular frameworks, and see what style they use.

Functional languages are mostly defined as those with first class function primitives, with development styles that use these to reduce complexity with idioms like "map". One other common feature is pattern matching, but I don't see this as exclusively functional. "Pure" functional languages also have no side effects, but that's not mandatory (see how fuzzy these concepts are? :).

So, what's C#? Well, it has first class function style primitives, with delegates (and has gained better syntactic support for the style with anonymous delegates and lambdas). Does this make it functional? Perhaps, if one writes in a functional style. Does the Framework use this style? No, not really.

As such, I wouldn't class C# as functional in general discussion - it is, at best, multi-paradigm, with some functional flavour.

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Another notable language feature is lazy lists (sort of like IEnumerable). However, despite having many functional features, the programming style you use in C# isn't functional. – Tomas Petricek Dec 26 '08 at 15:20
I must disagree with the first sentence. Taking an OO design and implementing it by hand in e.g. C doesn't make C an OO language. But I do agree that functional and OO features are becoming more common in a variety of languages. – joel.neely Dec 26 '08 at 17:01
@joel.neely: OOP, functional, structured, imperative, etc. aren't language features; they're design styles. – Javier Jul 22 '09 at 3:02
+1 for pointing out how fuzzy these distinctions are. – Eli Oct 4 '10 at 23:04

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