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Is it possible to do something like

c = MyObj()

in Python..i.e. have func1() and func2() be evaluated within the scope of the object 'c' (if they were member functions within that class definition)? I can't do a simple parsing, since for my application the eval strings can become arbitrarily complicated. I guess doing some magic with the ast module might do the trick, but due to the dirth of literature on ast, I'm not sure where to look:

import ast

class MyTransformer(ast.NodeTransformer):
    def visit_Name(self, node):
        # do a generic_visit so that child nodes are processed
        ast.NodeVisitor.generic_visit(self, node)
        return ast.copy_location(
            # do something magical with names that are functions, so that they become 
            # method calls to a Formula object

class Formula(object):

    def LEFT(self, s, n):
        return s[:n]

    def RIGHT(self, s, n):
        return s[0-n:]

    def CONCAT(self, *args, **kwargs):
        return ''.join([arg for arg in args])

def main():

    evalString = "CONCAT(LEFT('Hello', 2), RIGHT('World', 3))"

    # we want to emulate something like Formula().eval(evalString)
    node = ast.parse(evalString, mode='eval')

    print eval(compile(node, '<string>', mode='eval'))    
share|improve this question
You might have better luck just creating your own simple language and parse that with something like pyPEG –  Blender Dec 17 '12 at 22:16
Can you limit yourself to only the methods on the object, or do you want them to be able to call other things like globals or explicitly named other classes as well? –  Silas Ray Dec 17 '12 at 22:17
eval() can take 'globals' and 'locals' dictionaries as parameters. Maybe you can populate those with your functions and pass them in? –  LAK Dec 17 '12 at 22:21
Honestly, I think you should be explicitly parsing here. It's not trivial, but that's because what you're trying to do isn't trivial. If that doesn't work, @LAK's suggestion of populating an explicit dictionary to use as a context is still probably simpler than faking it with an object. But if you do want to use objects as contexts, see my answer. –  abarnert Dec 17 '12 at 22:47
Also, if "the eval strings can become arbitrarily complicated"—are they arbitrarily complicated Python? Can someone eval, say, 'func1(42) + func2(24) + os.system("rm -rf /")'? –  abarnert Dec 18 '12 at 2:00

3 Answers 3

up vote 6 down vote accepted

You almost certainly don't want to do this, but you can.

The context for eval is the globals and locals dictionaries that you want to evaluate your code in. The most common cases are probably eval(expr, globals(), mycontext) and eval(expr, mycontext), which replace the default local and global contexts, respectively, leaving the other alone. Replacing the local context with an object's dictionary is similar to running "within" (a method of) that object—although keep in mind that "being a member function" doesn't do as much good as you might expect if you don't have a self to call other member functions on…

Anyway, here's a quick example:

>>> class Foo(object):
...     def __init__(self):
...         self.bar = 3
>>> foo = Foo()
>>> eval('a', globals(), foo.__dict__)

Keep in mind that __dict__ may not be exactly what you want here. For example:

>>> class Foo(object):
...     @staticmethod
...     def bar():
...         return 3
>>> foo = Foo()
>>> eval('bar()', globals(), foo.__dict__)
NameError: name 'bar' is not defined
>>> eval('bar()', globals(), {k: getattr(foo, k) for k in dir(foo)}

To make this work the way you want, you have to know exactly how to define you want, in Python terms—which requires knowing a bit about how objects works under the covers (MRO, maybe descriptors, etc.).

If you really need eval, and you really need to provide arbitrary contexts, you're probably better building those contexts explicitly (as dictionaries) rather than trying to force objects into that role:

>>> foo = {
...     'bar': lambda: 3
... }
>>> eval('bar()', globals(), foo)

This use is much closer to the Javascript style you're trying to emulate in Python anyway.

Of course, unlike JS, Python doesn't let you put multi-line definitions inside an expression, so for complex cases you have to do this:

>>> def bar():
...     return 3
>>> foo = {
...     'bar': bar
... }
>>> eval('bar()', globals(), foo)

But arguably that's almost always more readable (which is basically the argument behind Python not allowing multi-line definitions in expressions).

share|improve this answer
Thanks!! You're right - I should have thought of functions as capable of free-floating in the globals() or local() environment just as any instantiated object would. That reflects my lack of imagination with Python :) –  Vineet Bansal Dec 18 '12 at 15:30

So, I advice you to do something like this:

>>> class S(object):
...     def add(self, a, b):
...         return a + b
>>> filter(lambda (k,v): not k.startswith("__"), S.__dict__.items())
[('add', <function add at 0x109cec500>)]
>>> target = S()
>>> map(lambda (k, f): (k, f.__get__(target, S)), filter(lambda (k,v): not k.startswith("__"), S.__dict__.items()))
[('add', <bound method S.add of <__main__.S object at 0x109ce4ed0>>)]
>>> dict(_)
{'add': <bound method S.add of <__main__.S object at 0x109ce4ed0>>}
>>> eval("add(45, 10) + add(10, 1)", _, {})

Seems like that you need. Let me explain how this works.

  1. eval accepts locals and globals as parameters.
  2. So we need to define special global context which will be "representation" of your class.
  3. To do this, we need to provide as globals dictionary of all "valuable" bounded methods.
  4. Starting from simples part. We have S class definition. How to get all "valuable" methods? Simple filter names from S.__dict__ in order to check whether method name starts from __ or not (you see, that as result we get list with 1 item - add function).
  5. Create target = instance of S class which will be "eval context".
  6. Next step is most "tricky". We need to create "bound method" from each function. To do this, we use those fact, that class __dict__ stores functions, each function is non-data descriptor and bounded method can be fetched simply with func.__get__(obj, type(obj)). This operation is performed in map.
  7. Take result from previous step, create dict from it.
  8. Pass as globals to eval function.

I hope, this will help.

share|improve this answer
Great solution! Passing bound methods in the globals environment for eval! Thanks so much Alexey! –  Vineet Bansal Dec 18 '12 at 15:49

You might have a look at the accepted answer to this question: "Getting the block of commands that are to be executed in the with-statement".

This has been a helpful way for me to create my own contexts in which math operations on rectangular arrays, such as Python Pandas data frames, "just work" without needing to bother with the ugly extra Pandas syntax. For example, when I write "a = x*y" inside of the context, it automatically assigns a as an attribute to the context object, and it knows to perform vectorial operations with the context object's x and y attributes.

I've found this context stuff to be very very helpful, despite the fact that whenever I ask on StackOverflow, I often get trollish responses that it must not be what I really want to do.

You could probably get this to work for the context in which eval looks for functions too.

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