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I frequently find myself creating homogeneous sets of objects, which i usually store in a dict or list dictionaries.

   a,b,c = MyClass(...), MyClass(...), MyClass(...)
   my_set = {'a':a,'b':b,'c':c}

On a set like this, common needs are

  • returning homogeneous sets from the object properties or methods
    • {k:k.prop for k in my_set} , or
    • {k:k.func() for k in my_set}
  • filtering based on properties or the output of methods of the objects
    • {k:k.prop for k in my_set if k.prop is blah} , or
    • {k:k.func() for k in my_set if k.func() is blah}
  • stringing the first two needs together

At first, this seemed to suggest that i should be using a database. however, i would have to give up the freedom provided by using arbitrary objects as elements.

id like to create a class for this type of structure,(if it doesnt already exist) which fufills these needs with something like...

   a,b,c = MyClass(...), MyClass(...), MyClass(...)
   my_set = {'a':a,'b':b,'c':c}
   my_set.prop # fufills first need
   my_set.func() # fufills first need
   my_set[prop = blah] # fufills second need
   my_set[prop= blah].prop.func() # third need

does functionality like this exist? or is the need for this object a result of bad design?


Following the suggestion of @mike-muller to override the __getattr__ method i created a class here

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What you want sounds like just a specialized list or dict -- so just derived your own subclass from one of them and you won't have to reinvent the whole wheel. – martineau Jun 5 '13 at 19:04

4 Answers 4

up vote 1 down vote accepted

You are look for special methods of classes. Have a look __getattr__ and __getitem__. You can write your own class. Its instances of this class can have a, b and c as attributes and can do what you describe.

Some thing like this might do part of what you like to do:

class DictCollcetion(object):
    def __init__(self, dict_):
        self.dict = dict_
    def __getattr__(self, name):
        return {k: for k in self.dict}
    def __getitem__(self, key):
        return {k: k.key for k in self.dict}
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thanks, i didnt realize that __getattr__ would be called if the attribute doesnt exist. – alex Jun 6 '13 at 16:54
Yes, __getattribute__ is stronger and will be called even if the attribute exists. You have be careful with this not to get into a recursion. As soon as you use self. inside it, it calls itself. – Mike Müller Jun 6 '13 at 17:09

I've run into cases where I have manipulated big lists of dictionaries or objects, much like you have. Often those objects are pulled out of a database and populated via an ORM, but I've done it with CSV files as well.

I am not sure that my needs are frequent/common enough that I would look for a module to give me syntactic sugar for it.

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Have you considered just using sets?

my_set = {myclass(...),myclass(...),myclass(...)}
props = {k.prop for k in my_set}

While you could create a class that does that mapping for you, it's not obvious to me that this makes your code any clearer than sticking with standard mapping constructs.

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it makes things like this very concise (HomoDict defined in the gist), h=HomoDict({'a':'asdf','b':'ZZZZ'}) h[h.startswith('a')==True] -> 'asdf' – alex Jun 7 '13 at 15:27
OK, but that goes beyond what OP is asking for. It's still pretty cool, though. – Marcin Jun 7 '13 at 15:35

Following the suggestion of @mike-muller to override the _getattr__ method i created a class here

share|improve this answer
Makes a good first impression. Did you try it and does it do what you want? – Mike Müller Jun 6 '13 at 17:11
yes its awesome. it replaced a few pages of badly written code i had ... – alex Jun 6 '13 at 17:16

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