Our core application changed from Python 2.6 to Python 2.7 maybe to Python 3 in later release.

Range function from python is changed (quote from the Python 2.7 changelog).

The range() function processes its arguments more consistently; it will now call __int__() on non-float.

We allow users to add expressions / Python code based on results we process further.

Now how to change range function? Some of them are using float argument that are failing now in Python 2.7.

As code is written by users we cannot change in Python code/expression. There are 1000s of files. Some users may have their own files.

  1. Is there is a way to extend the range() function from Python, such that it will take float arguments?

  2. Another alternative is to parse python code and change float to int. It is very time consuming as it requires lot of sting manipulation and some range calls have formulas as parameter.

Our application build in C++, and we evaluate python expression using C++ python APIS

  • You could monkey-patch range to accept floats, but it depends on how you invoke the user code. Can you give some details? – code_onkel Sep 2 '16 at 6:30
  • from C++ python code evaluated using pstr = PyEval_EvalCode((PyCodeObject*)cs,pdict,pdict); – Sandip Sep 2 '16 at 6:40
  • Even in Python 2.5 you get DeprecationWarning: integer argument expected, got float if you pass float args to range. Perhaps you shouldn't have ignored this warning... – PM 2Ring Sep 2 '16 at 10:14

You have a serious migration issue. If you want to switch to Python 2.7 and even Python 3, there is basically no easy way around refactoring the existing (user) code base eventually. IMHO, you have the following options.

  1. Provide a permanent (non-optional) 2.6 compatible interface to your users. That means they do not have to change anything, but it kind of defeats the purpose of upgrading to Python 2.7 since the users still have to satisfy Python 2.6 semantics. Verdict: Not recommended.

  2. Provide a temporary (non-optional) 2.6 compatible interface for a limited amount of time. In that case the existing code needs to be refactored eventually. Verdict: Not recommended.

  3. Make users include a flag in their code (e.g. a magic comment that can be identified safely without executing the file like # *$$ supertool-pythonversion: 2.7 $$*), which Python version the code expects to be run with and use 2.6 compatibility only for the files that have not been flagged with Python 2.7. That way, you can do whatever compatibility hacks are needed to run old files and run new files the way they are. Verdict: Increases complexity, but helps you doing the migration. Recommended.

However, you are in the convenient position of calling Python from C++. So you can control the environment that scripts are run with via the globals and locals dictionary passed to PyEval_EvalCode. In order to implement scenario 3, after checking the compatibility flag from the file, you can put a custom range function which supports float arguments into the gloabls dictionary before calling PyEval_EvalCode to "enable" the compatibility mode.

I am not proficient with Python's C API, but in Python this would look like this (and it is possible to do the same via the C API):

range27 = range

def range26(start=None, stop=None, step=None):
    if start is not None and not isinstance(start, int):
        start = int(start)
    if stop is not None and not isinstance(stop, int):
        stop = int(stop)
    if step is not None and not isinstance(step, int):
        step = int(step)
    return range27(start, stop, step)

def execute_user_code(user_file):
    src = read(user_file)
    global_dict = {}
    local_dict = {}

    if check_magic_version_comment(src) in (None, '2.6'):
        global_dict['range'] = range26
        global_dict['range27'] = range27
        # the last line is needed because the call
        # of range27 will be resolved against global_dict
        # when the user code is executed

    eval_code(src, global_dict, local_dict)
  • With your 3rd suggestion, we need to keep two python version DLL. Which looks difficult.As core application will require new python, there might be compatibility issues.. – Sandip Sep 2 '16 at 8:04
  • Depending on the features your users use, it is not necessary to integrate two (or more) Python versions. I assume that there is a only limited set of issues that cause the trouble (like range). The compatibility should be provided on top of Python 2.7. But the analysis is up to you, of course ;) – code_onkel Sep 2 '16 at 8:11
  • for now I see issue only with range, still to run range from 2.6 i need to provide 2.6 python dlls. – Sandip Sep 2 '16 at 9:33
  • 1
    No you don't. You only provide a range function to the execution environment that mimics the old Python 2.6 behaviour. See my edit. – code_onkel Sep 2 '16 at 10:00

The change is not that calling __int__ on non-float. The change affecting you is that float arguments are not accepted any more in Python 2.7:

Python 2.6.9 (default, Sep 15 2015, 14:14:54) 
[GCC 5.2.1 20150911] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> range(10.0)
__main__:1: DeprecationWarning: integer argument expected, got float
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

See the DeprecationWarning - all this time your code has emitted warnings but you chose to ignore them. In Python 2.7:

Python 2.7.12 (default, Jul  1 2016, 15:12:24) 
[GCC 5.4.0 20160609] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> range(10.0)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: range() integer end argument expected, got float.

The solution is to wrap the range() into a new function:

def py26_range(*args):
    args = [int(i) if isinstance(i, float) else i for i in args]
    return range(*args)

This function coerces floats into ints retaining the Python 2.6 behaviour. You then need to replace all usages of range with py26_range in those parts of code where the argument might be a float.

If you're desperate enough, you can install this version of range into __builtin__:

from functools import wraps
import __builtin__

def py26_range(*args):
    args = [int(i) if isinstance(i, float) else i for i in args]
    return range(*args)    

__builtin__.range = py26_range

Execute this before the other modules are even imported and it should work as before.

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