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I'm working with a large existing Python codebase and would like to start adding in type annotations so I can get some level of static checking. I'm imagining something like Erlang, Strongtalk, or Typed Scheme/Racket.

I've seen quick-and-dirty decorators that insert dynamic checks based on function parameter and return type annotations, but I'm looking for something that is more robust and that performs checks at compile-time.

What tools are available right now for this kind of thing? I'm familiar with compilers and type checking and am definitely willing to improve an incomplete tool if it has a good foundation.

(Note: I'm not interested in a discussion of the pros/cons of static typing.)

EDIT: An example:

def put(d, k, v):
   d[k] = v

I'd like to be able to annotate the put function as having type put<K,V>(dict<K,V>, K, V) -> None.

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Are you looking for Cython? –  Pwnna May 17 '11 at 2:53
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You can't always do a perfect job, but there are tools that can infer a lot. For example: PySonar –  Kannan Goundan May 17 '11 at 3:36
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This is so close to impossible it's not worth it. It's impossible in general as you know. Also, you'd need a very sophisticated version of structural typing to get even close to it - d[k] = v word with every single object d that has __setitem__, for instance, not just with instance of dict. Depending on the actual type of d, there may be various incompatible requirements on k (e.g. hashable, has __index__) and even on v. And every single object has e.g. __hash__, some of them just "don't work" at runtime. Static typechecking is not possible in Python. –  delnan May 17 '11 at 13:37
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Doing a perfect job is not possible. I know this. But Erlang, Smalltalk, and Scheme have static checking tools that are still useful. The __setitem__ check seems like a standard structural type check. There are ways to specify a required relationship between the types of d and k. The selective implementation of __hash__ isn't ideal, but Java has the same issue with UnsupportedOperationException. And even if I can't solve every problem, it doesn't mean I can't have a static checker that is still useful for some things. –  Kannan Goundan May 20 '11 at 0:09
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All of the above reasons given for why Python can't have static type checking also apply to Scheme and it's descendant Racket. But optional static type checking has successfully been added to Racket while preserving the "dynamic" programming style of the language. Gradual Typing for Python (Jeremy Siek et al, mentioned in one answer, should be released soon) applies similar ideas, and more, to Python, so it can be done. I think some have misinterpreted the question as "Can all dynamic checks be replaced by static type checking?" - clearly no, even in Java static types don't do that. –  RD1 Nov 6 '12 at 1:37
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5 Answers 5

You might want to check out some of the projects mentioned in this related StackOverflow post on static analysis for Python.

In summary:

Since Python uses duck typing extensively, things that might be called "type errors" in other languages might end up being "object X doesn't support method Y" in Python.

Edit:

I agree with delnan that static typing is not possible for Python. But since our skepticism doesn't seem to deter you, I can only give you more information on the subject. I present:

  • A discussion of type inference for Python. (Other links are from here.)
  • Guido van van Rossum's articles on adding optional static typing: part 1 and part 2.
  • RPython, a subset of Python that might stand a chance of being statically analyzed enough to do some form of type checking.
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From what I can see, those tools don't let me write type annotations. Also, they checks they perform seem to be relatively superficial (when compared with a typical static type system). –  Kannan Goundan May 17 '11 at 3:21
    
@Kannan: I have added more links to my answer. –  Karmastan May 17 '11 at 16:14
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Thanks for the update, but these are all things I was aware of. They all ended up being dead ends for my use case (gradually adding types to a large untyped codebase). –  Kannan Goundan May 20 '11 at 0:15
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I don't know if this helps but for what it's worth, Jeremy Siek at U of Colorado did some work on gradual typing, and I found this doing a quick search. http://www.wiki.jvmlangsummit.com/pdf/28_Siek_gradual.pdf

My guess (I might be wrong) is there isn't any promising open source tools you can find at the moment since his research looks relatively new.

Your best bet might be to contact the authors and ask if they can release their code to you.

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Check out this post: PySonar: a Static Analyzer for Python. PySonar is a tool that infers types using abstract interpretation (partially executing) of code. It finds all possible execution paths of your program and finds all possible types of all variables.

There are basically three versions of PySonar:

  • Open-sourced Java (Jython indexer)
  • Closed-sourced Java (Hidden in Google)
  • Open-sourced Python (mini-pysonar)

None of them (except of closed source one) is fully implemented. But the basic idea is that you can use it as a basis for your work.

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This is what I've found on GitHub page of mini-pysonar: "I currently have no motivation of developing PySonar further." Makes me sad. –  SummerBreeze Sep 2 '13 at 11:33
    
@SummerBreeze Yes. It is a concept (read "example"), not the end user solution. It would be great if you could extend it to produce an html file with analyzed data. Currently it only collects the data, but there is no presentation (end-user tool). –  Vanuan Sep 2 '13 at 11:43
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There is the 'gradual' package for Python 3; see PIP or the Bitbucket Repo

Apparently this is an implementation by the group around Jeremy Siek who seems to be quite an authority in the field of gradual typing.

Some annotations are apparently necessary, here is an example:

from gradual import *

@typed
def calculate_total(a:int, b:int) -> int:
    return a + b//100

As far as annotations go, this is not so bad. I have not used the package so I cannot speak to its quality, but the syntax (and the people behind it) certainly make it look promising.

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This is runtime type checking, not compile-time. They accomplish very different things. –  postfuturist May 21 at 4:06
    
@postfuturist: You're right, I overlooked that. Hm, that is somewhat disappointing... –  Paul May 21 at 6:49
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Python 3 now supports static typing.

See this post by Guido.

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That's just discussion of a POSSIBLE new feature, not a description of a feature that has been implemented. See this quote at the end: " I hope to have time to blog weekly until the topic is exhausted, hopefully resulting in a PEP and an implementation plan." –  Li-aung Yip Apr 14 '12 at 3:49
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