This may be a simple question, but I'm having trouble making a unique search for it.

I have a class that defines a static dictionary, then attempts to define a subset of that dictionary, also statically.

So, as a toy example:

class example(object): 
    first_d = {1:1,2:2,3:3,4:4} 
    second_d = dict((k,first_d[k]) for k in (2,3))

This produces NameError: global name 'first_d' is not defined

How should I be making this reference? It seems this pattern works in other cases, eg:

class example2(object):
    first = 1
    second = first + 1
  • that's not a "static" dictionary. – Colin Dunklau Jul 31 '12 at 22:00
  • 1
    And why can't those be instance variables? – Colin Dunklau Jul 31 '12 at 22:01
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    Hmmm oddly enough, this works fine: second_d = {k: v for k, v in first_d.items() if k in (2, 3)} – Joel Cornett Jul 31 '12 at 22:06
  • @ColinDunklau: I'm trying to imitate an enum, I guess. I'm writing a controller for a 3rd party program, for which I'll assemble a text file of control parameters. These are modular, and largely fixed. My controller should only run a subset of these each time. So I wanted each controller to have an instance variable defined as a subset of a dictionary defining all possible sets. The second_d, here, is the default set as opposed to the definitive set. If this isn't the best way to do things, I'm happy to consider something else. – billWalker Aug 1 '12 at 13:44
  • @JoelCornett I'm going with the solution in your comment unless there's a compelling reason not to. Could you put it as an answer so I can accept it, please? – billWalker Aug 1 '12 at 13:58
up vote 4 down vote accepted

A basic list comprehension has the following syntax

[expression for var in iterable]

When a list comprehension occurs inside a class, the attributes of the class can be used in iterable. This is true in Python2 and Python3.

However, the attributes of the class can be used (i.e. accessed) in expression in Python2 but not in Python3.

The story is a bit different for generator expressions:

(expression for var in iterable)

While the class attributes can still be accessed from iterable, the class attributes are not accessible from expression. (This is true for Python2 and Python3).

This can all be summarized as follows:

                             Python2      Python3
Can access class attributes
list comp. iterable                Y            Y
list comp. expression              Y            N
gen expr. iterable                 Y            Y
gen expr. expression               N            N
dict comp. iterable                Y            Y
dict comp. expression              N            N

(Dict comprehensions behave the same as generator expressions in this respect.)

Now how does this relate to your question:

In your example,

second_d = dict((k,first_d[k]) for k in (2,3))

a NameError occurs because first_d is not accessible from the expression part of a generator expression.

A workaround for Python2 would be to change the generator expression to a list comprehension:

second_d = dict([(k,first_d[k]) for k in (2,3)])

However, I don't find this a very comfortable solution since this code will fail in Python3.

You could do as Joel Cornett suggests:

second_d = {k: v for k, v in first_d.items() if k in (2, 3)}

since this uses first_d in the iterable rather than the expression part of the dict comprehension. But this may loop through many more items than necessary if first_d contains many items. Neverthess, this solution might be just fine if first_d is small.

In general, you can avoid this problem by defining a helper function which can be defined inside or outside the class:

def partial_dict(dct, keys):
    return {k:dct[k] for k in keys}

class Example(object):
    first_d = {1:1,2:2,3:3,4:4}
    second_d = partial_dict(first_d, (2,3))

class Example2(object):
    a = [1,2,3,4,5]
    b = [2,4]
    def myfunc(A, B):
        return [x for x in A if x not in B]
    c = myfunc(a, b)

# {2: 2, 3: 3}

# [1, 3, 5]

Functions work because they define a local scope and variables in this local scope can be accessed from within the dict comprehension.

This was explained here, but I am not entirely comfortable with this since it does not explain why the expression part behaves differently than the iterable part of a list comprehension, generator expression or dict comprehension.

Thus I can not explain (completely) why Python behaves this way, only that this is the way it appears to behave.

  • Thanks for the fantastic answer unutbu. For people trying to use a list comprehension / iterable to initialize a static variable (in python 3), this is a potential solution: define the comprehension/iterable as a function as mentioned above (and tag it with @staticmethod) e.g. myfunc(params), then call it using myfunc.__func__(params). Actually, I'll just edit the answer to include an example. – Aralox Aug 16 '17 at 6:56

It's a bit kludgy, but you could try this:

class test(object):

test.first = {1:1, 2:2, 3:3, 4:4}
test.second = dict((k, test.first[k]) for k in (2,3))

...and then:

>>> test.first
{1: 1, 2: 2, 3: 3, 4: 4}
>>> test.second
{2: 2, 3: 3}

>>> t = test()
>>> t.first
{1: 1, 2: 2, 3: 3, 4: 4}
>>> t.second
{2: 2, 3: 3}

>>> test.first[5] = 5
>>> t.first
{1: 1, 2: 2, 3: 3, 4: 4, 5: 5}
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    +1 for teaching me a new word – underbar Jul 31 '12 at 22:13
  • Any idea why it doesn't work, given that this does work: second_d = {k: v for k, v in first_d.items() if k in (2, 3)}? – Joel Cornett Jul 31 '12 at 22:27

I don't think the class exists until you get to the end of its definition.

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