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Hey, I know this is an subjective question, but please don't vote to close it before I get the acceptable answer.

I'm a .NET programmer (somewhat experienced), and really want to learn a functional language. My preferred choices are F# and Python, and I'm really doubting about which one to choose. Please clear my doubts. I'm totally new with them both, so please tell me their benefits over each other, or why I should choose F#/Python.

Maybe I'm misleading, but Wikipedia says that:

F# (pronounced F Sharp) is a multi-paradigm programming language, targeting the .NET Framework, that encompasses functional programming as well as imperative object-oriented programming disciplines.


Python supports multiple programming paradigms, primarily but not limited to object oriented, imperative and, to a lesser extent, functional programming styles.

Thanks in advance.

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closed as not constructive by Rob Hruska, Tim Post Sep 2 '11 at 18:32

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Python isn't really a functional language. There are functional elements, but it's a very C like language. –  Dominic Bou-Samra Jul 27 '10 at 5:08
If you want to really learn a functional language, I suggest Haskell –  Cambium Jul 27 '10 at 5:18
You may also want to look at "F# vs IronPython: When is one preferred to the other?" <stackoverflow.com/questions/3327885/…; May give you some additional insights. –  Onorio Catenacci Jul 27 '10 at 19:29
Why are there hundreds of threads attempting to compare Python to F#? Why do people always come up with this comparison? Why not Java vs. Perl? There couldn't be less connection ... –  Dario Aug 2 '10 at 19:55
subjective and argumentative, so, learn both –  OscarRyz Sep 9 '10 at 2:13
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13 Answers

up vote 67 down vote accepted

I doubt you'll learn much of value from Python. It's a dynamically typed OO language with pleasantly lightweight syntax. Other than giving you even less protection (and speed) than you'd get from C#, you'll be writing the same programs, just in a slightly different dialect.

F# is a different beast altogether. It has a rich, statically checked, polymorphic, algebraic type system. It is mostly functional, which means it strongly encourages you to program declaratively and avoid side effects (such as assignment) wherever possible. This has several benefits:

  • the compiler will catch many more errors than you'll be used to;

  • your programs will be much shorter;

  • your programs will work first time (once the compiler has wrung out all the bugs it can find) about nine times out of ten, in my experience;

  • the compiler can typically generate much, much better code.

I usually reckon it takes an imperative programmer about a month to rotate their thinking into the functional style. The downside is that after you make the adjustment, the programming mainstream just feels rather primitive and awkward.

Go for it, it's eye-opening.

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There is a lot of value from learning python and dynamically typed languages. Python is used by a lot of the top sites at the moment. its a case of whats the best fit is the main thing –  AutomatedTester Jul 27 '10 at 8:49
There will always be some subjectivity in choosing a language, as well as external concerns -- like marketability of skills, and you won't want to ignore those. However, I completely agree with Rafe about all F#'s good points. Since moving from C# to F# on my current project, I'm coding faster, the code is shorter, and the maintenance is much less. I'm even beginning to find myself thinking about problems in a functional way as a first cut at solving them. –  TechNeilogy Jul 27 '10 at 14:01
+1 for this: I usually reckon it takes an imperative programmer about a month to rotate their thinking into the functional style. The downside is that after you make the adjustment, the programming mainstream just feels rather primitive and awkward. –  sholsapp Jul 27 '10 at 23:37
AutomatedTester: AutomatedTester: sure, but Jeff was asking about functional programming languages. Python, for me, isn't an FPL because it misses the hallmark of virtually all FPLs (barring the archaic LISP family), namely a rich, statically checked polymorphic type system based around algebraic data types. Moreover, bolting some FPL-like characteristics (first class functions) on to an OO language such as C# or Python, won't teach you how to program in the functional style, not least because the natural style in those languages is to use destructive update. –  Rafe Jul 27 '10 at 23:46
AutomatedTester: I'm also curious about what benefits you think dynamically-typed-by-default languages have. I almost always know what type I expect a variable to hold and I'd rather have the compiler point out my mistakes rather than the runtime. I'm not being critical, just interested in your point of view. –  Rafe Jul 27 '10 at 23:48
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With respect to Python, I am somewhat shocked at some of the other answers. This is what Andrew Kuchling (Python Functional Programming HOWTO) says:

The designers of some computer languages choose to emphasize one particular approach to programming. This often makes it difficult to write programs that use a different approach. Other languages are multi-paradigm languages that support several different approaches. Lisp, C++, and Python are multi-paradigm; you can write programs or libraries that are largely procedural, object-oriented, or functional in all of these languages. In a large program, different sections might be written using different approaches; the GUI might be object-oriented while the processing logic is procedural or functional, for example.

Dave Mertz presented a more in(1) depth(2) discussion of functional programming, saying,

Summary: Although users usually think of Python as a procedural and object-oriented language, it actually contains everything you need for a completely functional approach to programming. This article discusses general concepts of functional programming, and illustrates ways of implementing functional techniques in Python.

Python fully supports higher order functions (the first example on that wikipedia page is written in Python!). This is a common misconception. Even if map() were not built-in, it is trivially manufactured by

def map(function, l):
    return [function(item) for item in l] # A complete list object is returned

In fact, observing the function written so should immediately inform as to why map() might be considered redundant. The above example can be trivially converted into a form that returns each function evaluation lazily, by changing the list comprehension into a generator:

def map(function, l):
    return (function(item) for item in l) # A generator object is returned

It would be called like so:

def dbl(x):
    return x + x
for answer in map(dbl, [1,2,3,4,5]):
    print answer # Produces 2 4 6 8 10 one per line

The sometimes flammable issue of lambda (please don't debate this with me, this issue has been beaten to death in far more illustrious places than my answer, I am not qualified to debate this point, etc) is another good example:

function = lambda x,y: x + y
print function(2,3) # produces '5'

is completely equivalent to

def f(x,y):
    return x + y
function = f
print function(2,3) # produces '5'

There is no reason to persist with a keyword called lambda, when the syntax of the language itself provides the functionality. Functional programming isn't about what specific functions are called; it is more about how things get done. As far as I am aware, the primary deficiency of Python compared to something like Scheme is the inability to modify the code itself in as easy a way as modifying a list: this code-is-data property is a consequence of using S-expressions, because then all code syntax looks like a list. Python doesn't do that, or not as easily. If this is something you want to get into, then that pretty much decides the case for you and you'll have to focus on a language with S-expressions/prefix notation.

Having said all that, there are some problems with Python as a functional language:

  • The Global Interpreter Lock (GIL) in Python means that dividing up python threads amongst multiple separate CPU cores is not possible. IronPython may or may not get around this (exercise left to reader). The point of having multiple cores available is that functional languages lend themselves to parallelizable execution paradigms, and you just won't see a big benefit of this using stock Python on a multi-core machine. (In practice, many people use the excellent multiprocessing package in the standard library for multi-core concurrency, or even manually launching multiple instances of an app on the command line with shell scripts and so on; but these are practical considerations that have nothing to do with functional programming.)

  • Not being forced to adopt functional programming idioms might hinder your learning. Idiomatic Python is by no means close to the "functional programming paradigm", and you have to go out of your way to stick to a functional "style", simply because more idiomatic ways are easier to do, and more frequently recommended in online documentation and tutorials. The Mertz article should help with that though.

  • Recursion. By default, Python has a recursion limit, and there is the C stack floating around there in the background when using the standard CPython distribution. IronPython may or may no deal with this issue specifically, but I can't say. There is always Stackless. Anyhow, this is something you need to look out for. Python doesn't have tail recursion, for example, so certain kinds of "typical" or "common" functional programming examples (fibo() comes to mind) may present implementation difficulties.

I know Python far, far better than I know F# (as far as "functional" programming goes, I have little-to-moderate experience with PLT Scheme); and my largely uninformed opinion thus far is that F# falls largely in the same camp as Lisp, Scheme and the becoming-rapidly-popular Clojure. These are all fine languages, but you should be aware that working in them means that you are pretty much bound to the "functional programming paradigm" (OOP in Lisp does not look like OOP in any other language I've seen, regardless of what promoters may say). On the other hand, since you said you wanted to learn, with Python you can immediately compare and contrast functional-vs-OOP-vs-procedural all within the same syntax; and even in the same program. That's gotta be worth something.

Comic relief: the Y combinator in Python (ugliest valid Python you'll ever see):

fact = (lambda func:
        (lambda f:
            func(lambda x:
                (f(f))(x)))(lambda f:
                    func(lambda x:
                        (f(f))(x))))(lambda f:
                            lambda n:
                                1 if n < 2 else n*f(n-1))
print fact(10)


EDIT (30 March 2011, and possibly off-topic)

Nathan Sanders made a good comment:

Your lazy map example does not implement laziness in the sense usually used in the functional style. Specifically, it = map(id, 1); any(True for x in it); any(True for x in it) displays True, then False; it is used up by the second call. This is a bad bug with a longer list and multiple calls to any."

I had some time to kill and decided to look into this further. To start, in my example above, which remains unchanged, the laziness is indeed preserved:

>>> def mymap(f, l):
        return (f(item) for item in l)
>>> def dbl(x):
        return x + x
>>> # Call 1    
>>> for x in mymap(dbl, [1,2,3,4,5]): # Call 1
>>> # Call 2
>>> for x in mymap(dbl, [1,2,3,4,5]): # Call 2

Well, in this example, there is nothing here that needs preserving, because mymap() returns a new iterator each time it is invoked; however, in the example that Nathan Sanders uses, the iterator returned by map does indeed get used up. What is going on? I made a simple generator function to show this:

>>> def G():
        for i in range(10):
            yield i
>>> # Create iterator object
>>> g=G()
>>> # Use it
>>> for x in g:
>>> # Use it some more?
>>> for x in g:

However, if the iterator instance is created in-place, then the problem goes away:

>>> for x in G():
>>> for x in G():

AFAIK, you can't restart a generator, which leads to the following rather crafty and possibly downright deceptive version of Nathan's example, which works better:

>>> def it():
        return map(id, [1])
>>> any(True for x in it())
>>> any(True for x in it())

I don't know what bearing this edit may have on the discussion, if any, but I am grateful to Nathan for poking my brain a bit.

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Scheme, Clojure and F# are generally considered functional languages. Common Lisp and Python are generally considered to be non-functional languages with some functional features. It's not a litmus test, but one thing that can generally be used to rule out a language from being functional is how well it supports recursion. Recursion is an essential quality of functional programming. And I know you don't want to debate it, but I just have to note that Python's lambda is gimpy. –  Chuck Jul 27 '10 at 23:18
There is no difference between Python's lambda and Python's standard function (def), except that a lambda is restricted to a single line; but for the purposes of implementing closures, the standard python function syntax (def) is completely adequate. That functionality does not require a word called lambda. Recursion, tail-recursion specifically, remains a problem as you (and I) correctly point out. –  cjrh Jul 27 '10 at 23:30
F# is not solely a functional language, and you are not bound to one paradigm with it. OO in F# looks a lot like OO in C#. The same combination advantage you claim Python provides, of comparing functional vs OO vs whatever else, is also possible with F#. Easy flamewar-retardant solution: learn 'em both? Heheh... –  Dan Fitch Jul 28 '10 at 4:02
Your lazy map example does not implement laziness in the sense usually used in the functional style. Specifically, it = map(id, [1]); any(True for x in it); any(True for x in it) displays True, then False; it is used up by the second call. This is a bad bug with a longer list and multiple calls to any. Also, F#, Common Lisp, Scheme and Clojure are all multi-paradigm languages (in roughly descending order of their multi-paradigm support). There are not many functional languages that are single-paradigm; Haskell and Erlang are the most popular I can think of. –  Nathan Sanders Jul 28 '10 at 6:10
@Rei Miyasaka: I think I tend to disagree. Most languages do not support closures (binding local state), for example. Although this is becoming more popular as newer languages come out all the time. –  cjrh Aug 3 '10 at 7:28
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Here are some facts about the languages (I know more about F# so am likely to have bias) which may inform your decision.

  • F# ships inside Visual Studio and is a .NET language, so if you know that platform/tools, it is an advantage for getting off the ground. Iron Python is a .NET Python implementation that also has some VS support as an add-in.
  • Both languages have REPLs. F# is compiled (even in the REPL it gets compiled on the fly), so has good performance both as a compiled app and in the REPL. (Not sure about Python.)
  • F# is 'more functional' by a variety of criteria, so if you really want "functional", I would choose F# over Python for that reason alone.
  • F# is statically-typed. Python is dynamic.
  • Both languages are often used in science/math domains; I think Python is older and has more (and more mature) numerics libraries.
  • You can use F# and Iron Python together in concert (I've seen a few blogs that show basic demos of this) if you want to do both.
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Interesting list of point. I would like to point out that Python is used way more often in scientific domains than F# (physics, genetics, mechanics, etc.). –  EOL Jul 27 '10 at 7:22
That's almost certainly down to a combination of two factors: availability of Python libraries for scientific programming; and the fact that physicists, geneticists, engineers etc., like everybody else, typically think of programming in imperative "cookery recipe" terms. The popularity of R for statistical analysis shows that the declarative approach can gain significant traction once the benefits become immediately obvious. –  Rafe Jul 28 '10 at 0:57
@Rafe: R is way more similar to Python/Numpy than to pure functional programming, and many of the algorithms implemented are described in the algorithmic "cookery recipe" there (at least the machine learning ones I know of). I agree, however, that R and Python owe more of their current success to their libraries. –  Muhammad Alkarouri Jul 28 '10 at 20:16
#Muhammad: properly written R has a much more declarative flavour (and runs faster). That is, one should prefer coding in R at the applicative matrix/vector level rather than with lots of loops and assignments. –  Rafe Jul 28 '10 at 23:30
@Rafe: The same applies to NumPy. You work at the matrix/vector level and avoid loops as much as possible. In fact, the code is translatable almost line by line. Using Python lists and loops is much less efficient than using Numpy arrays. –  Muhammad Alkarouri Aug 15 '10 at 5:02
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Python isn't really a functional language. Sure, it has functional constructs (first-class functions, etc.) but you're still (generally) programming in a decidedly imperative, procedural style with Python. F# adheres much more closely to the functional paradigm.

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Python is not functional. If you want to use a functional language, you should definitely go with F#.

If you google "python functional programming", you can see there is little stuff there. Python's philosophy does not encourage functional programming either. This is why the new Python 3.0 removes some functional elements of Python 2.x.

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map() is even being removed from Python 3, because of list comprehensions. That will make it less functional. –  systemovich Jul 27 '10 at 14:06
@Geoffrey: Map is being removed!? failtastic! –  Paul Nathan Jul 27 '10 at 22:27
map is not removed from Python 3. see docs.python.org/py3k/library/functions.html#map –  pillmuncher Jul 27 '10 at 22:39
map and filter were not removed. reduce is the one affected by being moved to functools rather than being a built in. –  Muhammad Alkarouri Jul 28 '10 at 20:19
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F#, definitely, if you want to stay in the .NET world.

Personally, I'd suggest Common Lisp as well as F#. Haskell is somewhat similar to F#; Lisp is not, not really.

F# is a strongly-typed, type-inferenced language with the default of immutable data (Much like Haskell). F# has the decided advantage of being pushed by Microsoft. F# is very much in the no-side-effect world.

Common Lisp has a somewhat looser type system (But not weakly typed), and its data is not immutable. It also does not guide you towards not having side effects.

Like the other chap, I don't think Python will offer you much in the 'mind-bending' arena (unless you really start digging around the internals), whereas F# will start to expand your mind from declaration one.

Python is not a functional language really. Although it has certain functional aspects (which make it much easier to work in, imho).

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Could you give an example of something in the 'mind-bending' arena? My brain got quite hammered on The Little Schemer, for example, but there is not too much in there that is not reproducible in python. Aside from syntax manipulation (code-is-data), I'm unclear what is missing? –  cjrh Jul 27 '10 at 23:23
@cjrh: Type inference; the data structures, pattern matching, immutable data. Type inference in particular gives my mind fits. –  Paul Nathan Jul 27 '10 at 23:39
ok, I've spent some time trying to digest your answer. Type inference seems to be an implementation detail (something like maybe Shedskin or PyPy are doing?), but I have no idea what the others mean. –  cjrh Aug 21 '10 at 9:48
@cjrh: Type Inference - see the Hadley Milner type algorithm. Pattern matching is how F# handles cases. Immutable data implies the inability to update a variable. –  Paul Nathan Aug 21 '10 at 14:45
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I think part of a language's strength lies in its standard library. Personally, I don't like Python's set of standard library. Some packages that people consider "standard" are not included in the standard library, and vice versa. I don't know about F#, but it's a .NET language, and the library in .NET is quite well-documented and consistent.

Instead of asking other people for their opinions, why don't you go learn the basics of both languages first, and decide yourself. I know it takes a lot of time to master a language, but learning the basics won't cost you more than one week. Plus, you would then have some experience in both F# and Python. For Python, I suggest you take a look at Dive into Python 3.

Just my two cents.

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If you're going to make the claim that Python's standard library is deficient, you're going to have to add at least a single example to support that. –  cjrh Aug 21 '10 at 9:44
I can suggest one: Tkinter is Python's de-facto standard GUI package, and I prefer wxPython. But I don't think an example is necessary here, because it's just a matter of personal taste. One could even argue that the deficient is not a problem at all, since there are always alternatives. –  Hai Minh Nguyen Aug 24 '10 at 4:08
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Learning functional programming is about entering a new paradigm (that is, changing the way you expect programs to be written). For that reason, I'd say that the best language is the one that most fully immerses you in the paradigm.

Python doesn't. It has first-class functions and a few things like map and reduce, but it's lacking others, like tail-call optimization, which allow you to use those functions in ways you aren't now used to doing.

So I guess it depends, are you looking for a "gateway language" or to just get started right away with FP? If it's the latter, go for F#.

Although I personally think that you can't do better than Scheme for a first functional language. The first FP book I read was The Little Schemer. Not only did it get me off to a good start, but it got me used to the sort of lessons/revelations that are common with FP. They tend to be less "how do I do task X in language Y" and more "look at this cool concept... you may not have known it was possible before, but once you master it you'll find plenty of places that you want to use it.")

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I have learned both. They are both useful, if I want a calculation module for my .Net applications I use F#. I use python when develop a web applications that is not .Net in nature or The Server is not Microsoft for example Django Framework that is more MVC in nature. Check out Django web application framework, I love it. They are both fun languages to learn. If you have time, please learn both. Learning F# will definitely expand your way of thinking and programming, if you know C# and don't want to learn both then F# is a good complement to C#.

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I would like to add some points for Python, in light of the unfavourable opinions given up.

  1. As rightly mentioned, it is useful to know different languages and styles to gain more experience. If you are looking for a functional programming, F# is the one.

  2. However, the concept of variety extend to the libraries involved. F# doesn't give you a lot of variety to the other .Net languages apart from a few immutable data structures. Python is a different language with a different standard library and data structures. I personally regard the selection of default data structures in Python as one of the finest in any language. Lists, dictionaries, heaps, deques, sets, bisection algorithm, etc. All that is available in a very usable and useful way which may serve to introduce you to new techniques that you can then use elsewhere. To demonstrate the effort being put in the language, the sorting algorithm used in Python is an efficient algorithm invented for Python (timsort) and is now also used in Java.

  3. If you want to expand your horizon and get outside of the .Net shell, Python will be more useful.

  4. Python is dynamic and thus gives you less compile time protection than F#. The question is when is this protection more useful. The simple answer is that if you have a clearly defined domain and your design is well specified then you can go for static language like C#. If you are more on the experimenting side then a more forgiving language is needed. F# is way better than C# in this regard due to its type inference, but there are still cases where the flexibility of Python duck typing is more useful.

  5. One case where the languages are different is in their object oriented design. F# would look more like C#. Python has a different and more flexible design with metaclasses among other additions.

  6. Did I say that the Python standard library is marvelous?

  7. All these are points that are currently valid. In the future, F# will likely grow more libraries and given the growth in the .Net space will be even more impressive. Python will become much more quicker due to efforts in different directions including Cython, PyPy and unladen swallow.

My view: if you want to learn F# because it is functional then go for it. If you want to learn it because it is shorter, it typically isn't shorter than Python. If you want to learn it because it is compiled and thus the compiler will catch your errors and make your program work first time, then I am afraid you will be very much misinformed.

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If you really want to learn a functional programming, you can learn F# or Haskell, Python is not a fully functional programming language, but it's does a good choice if you want to learn something else to refresh your mind.

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All of the other discussions not withstanding: The simple answer is if you want to stay in the MS world stay with F# if you want to learn how to interact with all types of systems and not just MS (MS included) and if you want the additional advantage of joining and using the open source world, go with Python. It is really that simple.

Python is about as close as it comes to a "universal" system available on all operating systems and platforms with huge libraries covering all dimensions of the programming world, and mostly all open source.

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You can code in both languages on Microsoft and non-Microsoft platforms, though. I think the politics are less important here than how the languages fit into the paradigm. You could argue that they're both multi-paradigm, but Python definitely leans toward OO and F# is definitely a functional language. –  johncip Oct 18 '10 at 7:15
Somehow promoting F# as a Linux platform seems a bit far out.. Yes it can be done but the pain may not be worth it. So I'll stand by the statement that F# is pretty MS centric while Python is pretty platform agnostic. –  dartdog Oct 18 '10 at 21:11
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