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Instead of writing code like this every time I define a class:

class Foo(object): 
     def __init__(self, a, b, c, d, e, f, g):
        self.a = a
        self.b = b
        self.c = c
        self.d = d
        self.e = e
        self.f = f
        self.g = g

I could use this recipe for automatic attribute assignment.

class Foo(object):
     @autoassign
     def __init__(self, a, b, c, d, e, f, g):
        pass

Two questions:

  1. Are there drawbacks or pitfalls associated with this shortcut?
  2. Is there a better way to achieve similar convenience?
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1  
+1 this is a recurrent pattern in Python. I don't see any drawback in using the autoassign decorator, as it lets you define a list of argument not to assign. –  pberkes Sep 6 '10 at 16:55
    

5 Answers 5

up vote 11 down vote accepted

There are some things about the autoassign code that bug me (mostly stylistic, but one more serious problem):

  1. autoassign does not assign an 'args' attribute:

    class Foo(object):
        @autoassign
        def __init__(self,a,b,c=False,*args):
            pass
    a=Foo('IBM','/tmp',True, 100, 101)
    print(a.args)
    # AttributeError: 'Foo' object has no attribute 'args'
    
  2. autoassign acts like a decorator. But autoassign(*argnames) calls a function which returns a decorator. To achieve this magic, autoassign needs to test the type of its first argument. If given a choice, I prefer functions not test the type of its arguments.

  3. There seems to be a considerable amount of code devoted to setting up sieve, lambdas within lambdas, ifilters, and lots of conditions.

    if kwargs:
        exclude, f = set(kwargs['exclude']), None
        sieve = lambda l:itertools.ifilter(lambda nv: nv[0] not in exclude, l)
    elif len(names) == 1 and inspect.isfunction(names[0]):
        f = names[0]
        sieve = lambda l:l
    else:
        names, f = set(names), None
        sieve = lambda l: itertools.ifilter(lambda nv: nv[0] in names, l)
    

    I think there might be a simpler way. (See below).

  4. for _ in itertools.starmap(assigned.setdefault, defaults): pass. I don't think map or starmap was meant to call functions, whose only purpose is their side effects. It could have been written more clearly with the mundane:

    for key,value in defaults.iteritems():
        assigned.setdefault(key,value)
    

Here is an alternative simpler implementation which has the same functionality as autoassign (e.g. can do includes and excludes), and which addresses the above points:

import inspect
import functools
def autoargs(*include,**kwargs):   
    def _autoargs(func):
        attrs,varargs,varkw,defaults=inspect.getargspec(func)
        def sieve(attr):
            if kwargs and attr in kwargs['exclude']: return False
            if not include or attr in include: return True
            else: return False            
        @functools.wraps(func)
        def wrapper(self,*args,**kwargs):
            # handle default values
            for attr,val in zip(reversed(attrs),reversed(defaults)):
                if sieve(attr): setattr(self, attr, val)
            # handle positional arguments
            positional_attrs=attrs[1:]            
            for attr,val in zip(positional_attrs,args):
                if sieve(attr): setattr(self, attr, val)
            # handle varargs
            if varargs:
                remaining_args=args[len(positional_attrs):]
                if sieve(varargs): setattr(self, varargs, remaining_args)                
            # handle varkw
            if kwargs:
                for attr,val in kwargs.iteritems():
                    if sieve(attr): setattr(self,attr,val)            
            return func(self,*args,**kwargs)
        return wrapper
    return _autoargs

And here is the unit test I used to check its behavior:

import unittest
import utils_method as um

class Test(unittest.TestCase):
    def test_autoargs(self):
        class A(object):
            @um.autoargs()
            def __init__(self,foo,path,debug=False):
                pass
        a=A('rhubarb','pie',debug=True)
        self.assertTrue(a.foo=='rhubarb')
        self.assertTrue(a.path=='pie')
        self.assertTrue(a.debug==True)

        class B(object):
            @um.autoargs()
            def __init__(self,foo,path,debug=False,*args):
                pass
        a=B('rhubarb','pie',True, 100, 101)
        self.assertTrue(a.foo=='rhubarb')
        self.assertTrue(a.path=='pie')
        self.assertTrue(a.debug==True)
        self.assertTrue(a.args==(100,101))        

        class C(object):
            @um.autoargs()
            def __init__(self,foo,path,debug=False,*args,**kw):
                pass
        a=C('rhubarb','pie',True, 100, 101,verbose=True)
        self.assertTrue(a.foo=='rhubarb')
        self.assertTrue(a.path=='pie')
        self.assertTrue(a.debug==True)
        self.assertTrue(a.verbose==True)        
        self.assertTrue(a.args==(100,101))        

    def test_autoargs_names(self):
        class C(object):
            @um.autoargs('bar','baz','verbose')
            def __init__(self,foo,bar,baz,verbose=False):
                pass
        a=C('rhubarb','pie',1)
        self.assertTrue(a.bar=='pie')
        self.assertTrue(a.baz==1)
        self.assertTrue(a.verbose==False)
        self.assertRaises(AttributeError,getattr,a,'foo')

    def test_autoargs_exclude(self):
        class C(object):
            @um.autoargs(exclude=('bar','baz','verbose'))
            def __init__(self,foo,bar,baz,verbose=False):
                pass
        a=C('rhubarb','pie',1)
        self.assertTrue(a.foo=='rhubarb')
        self.assertRaises(AttributeError,getattr,a,'bar')


if __name__ == '__main__':
    unittest.main(argv = unittest.sys.argv + ['--verbose'])

PS. Using autoassign or autoargs is compatible with IPython code completion.

share|improve this answer
    
Thanks a lot. This is very helpful. –  FMc Sep 7 '10 at 17:34
    
I also found your autoargs incredibly handy. One issue I noticed is that it seems to throw an error if defaults is None, because the call to reversed fails. Am I right in thinking that this should be fixable by adding an if defaults: in front of the line for attr,val in zip(reversed(attrs),reversed(defaults)):, or does that have unintended sideeffects? The unit test passes. –  m01 Feb 12 at 9:32

One drawback: many IDEs parse __init__.py to discover an object's attributes. If you want automatic code completion in your IDE to be more functional, then you may be better off spelling it out the old-fashioned way.

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If you have a lot of variables, you could pass one single configuration dict or object.

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Is there a better way to achieve similar convenience?

I don't know if it is necessarily better, but you could do this:

class Foo(object):
    def __init__(self, **kwargs):
        self.__dict__.update(kwargs)


>>> foo = Foo(a = 1, b = 'bar', c = [1, 2])
>>> foo.a
1
>>> foo.b
'bar'
>>> foo.c
[1, 2]
>>> 

Courtesy Peter Norvig's Python: Infrequently Answered Questions.

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3  
This is a quick solution to the problem, but it has two drawbacks: 1) you have to add much more code if you want to make sure that some arguments are passed to the function; 2) the signature of the function is completely opaque, and it cannot be used to understand how to call the function; one will need to rely on the docstring instead –  pberkes Sep 6 '10 at 16:57
class MyClass(object):
    def __init__(self, **kwargs):
        for key, value in kwargs.iteritems():
            setattr(self, key, value)

You just can't use *args, but you can store in some instance list (like self.args, don't know)

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