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I had an idea to transform all given functions that are tagged using a decorator similar to the below,

@transform_ast
def foo(x):
    return x

In transform_ast, I get the source, extract the ast, transform it, and then create a code object and function type from it again. It looks something like the below,

import ast
import inspect
import types

class Rewrite(ast.NodeTransformer):
    pass

def transform_ast(f):

    source = inspect.getsource(f)
    source = '\n'.join(source.splitlines()[1:]) # remove the decorator first line.
    print(source)

    old_code_obj = f.__code__
    old_ast = ast.parse(source)
    new_ast = Rewrite().visit(old_ast)
    new_code_obj = compile(new_ast, old_code_obj.co_filename, 'exec')
    new_f = types.FunctionType(new_code_obj, {})
    return new_f

@transform_ast
def foo(x):
    return x

However, it doesn't seem to work properly when I subsequently call foo(x).

For all practical purposes, we can assume my transform is just re-writing return x to return x+1. Ideally I would like everything to work as per-normal, including being able to step into the function with a debugger...

Calling foo(10), would give the following error,

TypeError: module() takes no arguments (1 given)

Is there anything that I'm doing wrong?

1
new_code_obj = compile(new_ast, old_code_obj.co_filename, 'exec')

The code compiled with exec mode is always treated as module-level code, though, of course, it can contain function or class definitions, or any other valid Python).

To verify this, you can access co_name attribute of the code object to get the name with which this code object was defined.

>>> new_code_obj.co_name
<module>

ie, new_code_obj is a code object corresponding to a module. but where is the code object corresponding to the function foo. How can we access that?

It can access from the co_consts attribute of the code object which is a tuple of constants used in the bytecode

>>> new_code_obj.co_consts
(<code object foo at 0x031C3DE0, file "c:/Users/test.py", line 1>, 'foo', None)
>>> new_code_obj.co_consts[0]
<code object foo at 0x031C3DE0, file "c:/Users/test.py", line 1>

To verify this code object is from the function foo you can use the co_name attribute again.

>>> new_code_obj.co_consts[0].co_name
foo

So while creating the new FunctionType you should use the code object corresponding the function foo instead of the module code object.

So changing

new_f = types.FunctionType(new_code_obj, {})

to

new_f = types.FunctionType(new_code_obj.co_consts[0], f.__globals__)
# Here `f` is the function object passed to the `transform_ast`

will solve the problem.

Additional Refs: Exploring Python Code Objects

  • This won't work, try to use the decorator with def foo(): return range(10) for instance – BPL Aug 14 '19 at 11:41
  • @BPL Fixed.Thanks. – Abdul Niyas P M Aug 14 '19 at 12:31
  • Much better now ;) , +1 . One last thing, op should be careful when using several decorators as the way it's right now it's forcing the user to specify @transform_ast at the very top. – BPL Aug 14 '19 at 13:42

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