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EDIT: this situation occurs when we generate python bindings to our C++ API, using SWIG.

Suppose I have python bindings to an overloaded C++ function:

double foo( double a, double b ) { 
    return a*b;

double foo( double a, double b, double c ) {
    return a + b + c;

These bindings can be given docstrings by SWIG. When I type help foo on the python command line, I get the first docstring only. How would I be able to get the second docstring?

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closed as not a real question by Matt Ball, Gordon, BNL, sloth, AVD Sep 25 '12 at 4:50

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

There is no overloading in Python. You're just redefining, i.e. rebinding a name. – larsmans Sep 24 '12 at 17:46
Why would you like to give two funtions with different functionality same name at the first place at all? – Rohit Jain Sep 24 '12 at 17:46
Python != Java && Python != C# – Matt Ball Sep 24 '12 at 17:46
@MattBall: Don't you mean Python != Java != C#? :-) – BrenBarn Sep 24 '12 at 17:47
@BrenBarn: Well, that's equivalent to Python != False, which isn't as strong a statement. :) – abarnert Sep 24 '12 at 17:50

If this is literally your code, you don't have an overloaded function, you have an over*written* function. The second definition overwrites the old one and the old one is no longer accessible. If you have no other references to it (as in your example) it will be garbage collected. There is no way to access it or its docstring.

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It may be worth mentioning that there are libraries that allow you to do overloading in Python. But it's still only the top-level "overload set" that gets a user-visible docstring, not each individual overload. (Also, they still don't do C++/Java/C#-style overloading, because you don't have a static type to dispatch on. It's more like CLOS multimethods.) – abarnert Sep 24 '12 at 17:53

Given the SWIG interface:

%module test

double foo( double a, double b );

double foo( double a, double b, double c );

The Python generated for both overloads looks like:

def foo(*args):

Internally within the C++ code that gets generated three functions are produced:

  1. _wrap_foo__SWIG_0 handles converting and checking/passing the arguments for one of the two overloads.
  2. _wrap_foo__SWIG_1 does the same for the other
  3. _wrap_foo which decides which to use by calling PyObject_Length(args) and a large selection of if statements to try and match up to the overloads as best as possible.

So as far as Python itself is concerned there is only one function. All of the overload "magic" is hidden and generated inside your module, on the C++ side.

When you introduce docstrings into the mix, by adding:

%feature("autodoc", "2");

To your SWIG interface I can then do call help( and see:

Help on function foo in module test:

    foo(a, b) -> double
       a: double value
       b: double value

       a: double value
       b: double value

    foo(a, b, c) -> double
       a: double value
       b: double value
       c: double value

       a: double value
       b: double value
       c: double value

This includes both overloads in the one Python function. I used SWIG 2.0.4 for this. You can customise bits of this with the "doc" typemap, e.g.:

%typemap("doc") double c "$1_name (C++ type: $1_type) -- Input $1_name only needed for frobination"

Changes the text of the c parameter. See more special variables available for use in this typemap.

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+1 for explaining everything relevant. The remaining question is why the OP's autodoc isn't working, and I don't think we have enough info to guess that. (Or maybe he's not even using autodoc, in which case he has to show us how he is getting the docstrings in there if he wants us to debug it.) – abarnert Sep 24 '12 at 21:35

When you wrap a C++ overload set with SWIG, the result is a bunch of hidden functions, and a single public function that handles the dispatching.

So, in Python, what you really have is something like this:

def _foo_double_double(a, b):
  """docstring from foo(double, double)"""
  return convert_from_double(call_down_to_foo_double_double(
    convert_to_double(a), convert_to_double(b)))

def _foo_double_double_double(a, b, c):
  """docstring from foo(double, double, double)"""
  return convert_from_double(call_down_to_foo_double_double_double(
    convert_to_double(a), convert_to_double(b), convert_to_double(c)))

def foo(*args):
  """single docstring from ?where?"""
  if len(args) == 2 is None:
    return _foo_double_double(*args)
    return _foo_double_double_double(*args)

(Of course that's not the actual code—in fact, in normal cases you won't have Python wrappers around the individual overloads at all—but you really don't want to read the actual code.)

The documentation for SWIG doesn't explain where the docstring for that wrapper function comes from, but, as your experimentation indicates, what you end up with seems to be the first docstring it can find for any of the functions in the dispatch set. I believe "first" means as defined by the precedence rules in Dispatch function generation, but I'm not positive.

So, you have to create a docstring which explains all of the overloads, rather than a separate one for each. (If you think about it, there's really no other way that could work—help(foo) doesn't know which overload you want to call…)

And then you have to get that docstring attached to the dispatch function. You could do this by putting the same docstring on all of the overloads, or only putting it on the first and leaving no docstring on the rest, or by patching foo at runtime from Python.

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With SWIG generated code the hidden functions are on the C++ side, not the Python side. SWIG's generated docstring includes all the overloads too. – Flexo Sep 24 '12 at 20:05
@Flexo: Where the hidden functions are isn't really relevant; this seemed like the simplest way to explain it. The point is that there's only one Python function called foo, and therefore no way there could be more than one docstring. As for "includes all the overloads too", it didn't seem to do that in my quick test, but I may have been doing things stupidly. I just assumed that the OP wouldn't have been asking if it already worked automatically the way he wanted… – abarnert Sep 24 '12 at 21:23
It's possible including all the overloads is a more recent thing, I used 2.0.4 for my tests and was slightly surprised it did but then I've not used the autodoc feature much. (I agree about the precise details being irrelevant, I was probably being too pedantic) – Flexo Sep 24 '12 at 21:29
@Flexo: No problem; I updated the answer to avoid the confusing implication. I'm actually still on 1.3 on the only thing I still use SWIG for (everything else is now ctypes, Cython, or boost), so it's quite possible I'm way out of date… – abarnert Sep 24 '12 at 21:34
Even with 1.3.40 it's still generating sane docstrings on my testcase so now I'm very confused where the "bad" strings come from! – Flexo Sep 24 '12 at 21:49

You don't overload a method in Python like this..

You have 4 kinds of arguments for your method(function) to make it work like overloaded function:

  • Default Argument
  • Positional Argument
  • Keyword Argument
  • Non-keyword Argument

Default argument you must be knowing, so no need to explain.

Positional Argument is just the name given to a normal way of passing arguments as you have above. Because, the order in which you pass the argument matters.

Apart from these, if you want to pass extra argument, (to make an overloaded method), you have other two arguments..

Non-Keyword arguments takes a list of extra arguments.. Keyword arguments takes a dictionary of extra arguments.. These are called Keyword arguments because, dictionary key act as keyword and dictionary value act as actual argument..

This is how a function syntax looks like: -

def function(arg1, arg2, default_arg=10, *nkwarg, **kwarg):
                                             |         |
                                             |         +------- Keyword Arguments
                                             +----------- Non-Keyword Arguments

Note, the order of each type of argument..

Positional Argument (arg1, arg2) -> Default Argument (default_arg) 
-> Non-keyword Argument (*nkwarg) -> Keyword Arguments (**kwarg)

You should maintain this order..

Here's how you can make different calls to this function: -

dict = {'rohit':'jain', 1: 2}

# This function call does not uses default_arg value
# Note that, first two arguments are mandatory.. You cannot leave them
function(1, 2, default_arg = 30, *(1, 2, 3), **dict)

# Uses default arg value.. And does not pass **kwarg
function(3, 5, *(4, 5))  
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