Let's say I have this dictionary in python, defined at the module level (mysettings.py):

settings = {
    'expensive1' : expensive_to_compute(1),
    'expensive2' : expensive_to_compute(2),

I would like those values to be computed when the keys are accessed:

from mysettings import settings # settings is only "prepared"

print settings['expensive1'] # Now the value is really computed.

Is this possible? How?

  • the problem is that if you keep your module as is, the from mysettings import settings evaluates the content of the module, and therefore fully creates the dict. – njzk2 May 21 '13 at 12:21

If you don't separe the arguments from the callable, I don't think it's possible. However, this should work:

class MySettingsDict(dict):

    def __getitem__(self, item):
        function, arg = dict.__getitem__(self, item)
        return function(arg)

def expensive_to_compute(arg):
    return arg * 3

And now:

>>> settings = MySettingsDict({
'expensive1': (expensive_to_compute, 1),
'expensive2': (expensive_to_compute, 2),
>>> settings['expensive1']
>>> settings['expensive2']


You may also want to cache the results of expensive_to_compute, if they are to be accessed multiple times. Something like this

class MySettingsDict(dict):

    def __getitem__(self, item):
        value = dict.__getitem__(self, item)
        if not isinstance(value, int):
            function, arg = value
            value = function(arg)
            dict.__setitem__(self, item, value)
        return value

And now:

>>> settings.values()
dict_values([(<function expensive_to_compute at 0x9b0a62c>, 2),
(<function expensive_to_compute at 0x9b0a62c>, 1)])
>>> settings['expensive1']
>>> settings.values()
dict_values([(<function expensive_to_compute at 0x9b0a62c>, 2), 3])

You may also want to override other dict methods depending of how you want to use the dict.


Don't inherit build-in dict. Even if you overwrite dict.__getitem__() method, dict.get() would not work as you expected.

The right way is to inherit abc.Mapping from collections.

from collections.abc import Mapping

class LazyDict(Mapping):
    def __init__(self, *args, **kw):
        self._raw_dict = dict(*args, **kw)

    def __getitem__(self, key):
        func, arg = self._raw_dict.__getitem__(key)
        return func(arg)

    def __iter__(self):
        return iter(self._raw_dict)

    def __len__(self):
        return len(self._raw_dict)

Then you can do:

settings = LazyDict({
    'expensive1': (expensive_to_compute, 1),
    'expensive2': (expensive_to_compute, 2),

I also list sample code and examples here: https://gist.github.com/ligyxy/9b50bb8537069b4e154fec41a4b5995a


Store references to the functions as the values for the keys i.e:

def A():
    return "that took ages"
def B():
    return "that took for-ever"
settings = {
    "A": A,
    "B": B,


This way, you only evaluate the function associated with a key when you access it and invoke it. A suitable class which can handle having non-lazy values would be:

import types
class LazyDict(dict):
    def __getitem__(self,key):
        item = dict.__getitem__(self,key)
        if isinstance(item,types.FunctionType):
            return item()
            return item


settings = LazyDict([("A",A),("B",B)])
that took ages

You can make expensive_to_compute a generator function:

settings = {
    'expensive1' : expensive_to_compute(1),
    'expensive2' : expensive_to_compute(2),

Then try:

from mysettings import settings

print next(settings['expensive1'])
  • Interesting idea, but not what I am looking for. I would really like to keep the dictionary api untouched. – dangonfast May 21 '13 at 12:02

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