8

My goal is to generate functions dynamically and then save them in a file. For e.g, in my current attempt, On calling create_file

import io


def create_file(a_value):
    a_func = make_concrete_func(a_value)
    write_to_file([a_func], '/tmp/code.py')


def make_concrete_func(a_value):
    def concrete_func(b, k):
        return b + k + a_value

    return concrete_func


def write_to_file(code_list, path):
    import inspect
    code_str_list = [inspect.getsource(c) for c in code_list]
    with open(path, 'w') as ofh:
        for c in code_str_list:
            fh = io.StringIO(c)
            ofh.writelines(fh.readlines())
            ofh.write('\n')


create_file('my_value')

The output I want is (file /tmp/code.py):

def concrete_func(b, k):
    return b + k + 'my_value'

The output I get is (file '/tmp/code.py'):

def concrete_func(b, k):
    return b + k + a_value

UPDATE: My solution uses inspect.getsource which returns a string. I wonder if I have limited your options as most solutions below suggest a string replacement. The solution need not use inspect.getsource. You could write it anyhow to get the desired output.

UPDATE 2: The reason I am doing this is because I want to generate a file for Amazon Lambda. Amazon Lambda takes a python file and its virtual environment and will execute it for you(relieving you from worrying about scalability and fault tolerance). You have to tell Lambda which file and which function to call and Lambda will execute it for you.

3

Use getsource to convert the function to a string, and replace the variable names with simple string manipulation.

from inspect import getsource

def write_func(fn, path, **kwargs):
    fn_as_string = getsource(fn)
    for var in kwargs:
        fn_as_string = fn_as_string.replace(var, kwargs[var])
    with open(path, 'a') as fp:  # append to file
        fp.write('\n' + fn_as_string)

def base_func(b, k):
    return b + k + VALUE

# add quotes to string literals   
write_func(base_func, '/tmp/code.py', VALUE="'my value'")

# you should replace the function name if you write multiple functions to the file
write_func(base_func, '/tmp/code.py', base_func='another_func', VALUE='5')

Output is as expected in /tmp/code.py:

def base_func(b, k):
    return b + k + 'my value'

def another_func(b, k):
    return b + k + 5
3

A function definition doesn't look up its free variables (variables that are not defined in the function itself) at time of definition. I.e. concrete_func here:

def make_concrete_func(a_value):
    def concrete_func(b, k):
        return b + k + a_value

    return concrete_func

doesn't look up a_value when it is defined, instead it will contain code to load a_value from its closure (simplified the enclosing function) at runtime.

You can see this by disassembling the returned function:

f = make_concrete_func(42)

import dis
print dis.dis(f)

  3           0 LOAD_FAST                0 (b)
              3 LOAD_FAST                1 (k)
              6 BINARY_ADD          
              7 LOAD_DEREF               0 (a_value)
             10 BINARY_ADD          
             11 RETURN_VALUE        
None

You can maybe do what you want by editing the byte code.. it's been done before (http://bytecodehacks.sourceforge.net/bch-docs/bch/module-bytecodehacks.macro.html ..shudder).

  • 2
    You could also use inspect.getclosurevars(f).nonlocals to get the enclosed variables as a dict. {'a_value': 42}. (At least it works in python 3.5 – nonlocals is not available in python 2, I think) – Håken Lid Jan 27 '17 at 0:25
  • Sure, but what you need to get this to work the way OP intends is to replace the variable lookup (LOAD_DEREF) with a value load (LOAD_FAST). Just reading the value is not enough. – thebjorn Jan 28 '17 at 20:23
1

Try this. Note that I have added another parameter to write_to_file

def write_to_file(code_list, path,a_value):
    print "lc",code_list
    code_str_list = [inspect.getsource(c) for c in code_list]
    with open(path, 'w') as ofh:
        for c in code_str_list:
            c= c.replace('a_value','\''+a_value+'\'')
            fh = io.StringIO(c)
            ofh.writelines(fh.readlines())
            ofh.write('\n')
1

If the file doesn't have to be human readable and you trust it won't be manipulated by attackers, combining functools.partial and pickle might be the most pythonic approach. However it comes with disadvantages I don't completely understand: for one thing it doesn't seem to work with locally defined functions (or maybe locally defined variables in general?).

I might just ask my own question about this.

import functools
import pickle


def write_file_not_working():

    def concrete_func_not_working(b, k, a_value):
        return b + k + a_value

    with open('data.pickle', 'wb') as f:
        data = functools.partial(concrete_func_not_working, a_value='my_value')
        pickle.dump(data, f, pickle.HIGHEST_PROTOCOL)


def use_file_not_working():
    with open('data.pickle', 'rb') as f:
        resurrected_data = pickle.load(f)
        print(resurrected_data('hi', 'there'))


def top_level_concrete_func(b, k, a_value):
    return a_value + b + k


def write_file_working():
    with open('working.pickle', 'wb') as f:
        data = functools.partial(top_level_concrete_func, a_value='my_working_value')
        pickle.dump(data, f, pickle.HIGHEST_PROTOCOL)


def use_file_working():
    with open('working.pickle', 'rb') as f:
        resurrected_data = pickle.load(f)
        print(resurrected_data('hi', 'there'))


if __name__ == "__main__":
    write_file_working()
    use_file_working()

    write_file_not_working()
    use_file_not_working()
  • This is how I may implement it eventually. It is much cleaner then string replacement. However, I chose the other answer as I may have artificially constrained the question to string replacement strategies by my question. Thanks for thinking outside the question and providing this useful answer! – RAbraham Jan 28 '17 at 15:37
  • If you do consider asking the question, please share the link here! – RAbraham Jan 28 '17 at 17:29
  • I used dill and now I can serialize locally defined functions and lambdas :). – RAbraham Jan 31 '17 at 23:37
  • @RAbraham I didn't know about dill until now. Glad everything worked for you! You should add an answer to this post with what you came up with for posterity :) – Ben Feb 1 '17 at 15:36
  • Posted: stackoverflow.com/a/41986106/238012 – RAbraham Feb 1 '17 at 17:36
1

@Ben made me realize that I didn't need to use a string based approach for code generation and that I could use serialization. Instead of the limited pickle library, I used dill which overcomes the limitation as mentioned by Ben

So, I finally did something like.

import dill


def create_file(a_value, path):
    a_func = make_concrete_func(a_value)
    dill.dump(a_func, open(path, "wb"))
    return path


def make_concrete_func(a_value):
    def concrete_func(b, k):
        return b + k + a_value

    return concrete_func


if __name__ == '__main__':
    path = '/tmp/code.dill'
    create_file('Ben', path)
    a_func = dill.load(open(path, "rb"))
    print(a_func('Thank ', 'You '))
0

if the function you want to create all have a determinate pattern, I would create a template for it and use it to mass produce the functions

>>> def test(*values):
        template="""
def {name}(b,k):
    return b + k + {value}

"""
        for i,v in enumerate(values):
            print( template.format(name="func{}".format(i),value=repr(v)) )


>>> test("my_value",42,[1])

def func0(b,k):
    return b + k + 'my_value'



def func1(b,k):
    return b + k + 42



def func2(b,k):
    return b + k + [1]


>>> 

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