19

I have a dictionary that has values sometimes as strings, and sometimes as a functions. For the values that are functions is there a way to execute the function without explicitly typing () when the key is accessed?

Example:

d = {1: "A", 2: "B", 3: fn_1}
d[3]() # To run function

I want:

d = {1: "A", 2: "B", 3: magic(fn_1)}
d[3] # To run function
4
  • 9
    Why without ()? Don't knit a sweater around a button...
    – Alexander
    Commented Sep 8, 2017 at 0:20
  • 5
    Don't do this. Explicit is better than implicit. The meaning in your code is to look up a function and call it; so the code should look like you are doing exactly that. As an aside, mixing types like that is a bad idea; you need to check whether you have a string first (since you can't call the string), and that makes your life harder. Commented Sep 8, 2017 at 6:24
  • 2
    ... But on reflection, it sounds like you really have a design question, and should be asking a question that more closely reflects what you really want to do. I.e., why do you have this dictionary in the first place? Commented Sep 8, 2017 at 6:25
  • 1
    It sounds like instead of writing d[3], you should be calling some function some_func(3), and the function should index the dict and call the value if the value is a callable. Commented Sep 11, 2017 at 23:30

5 Answers 5

16

Another possible solution, is to create a custom dictionary object that implements this behavior:

>>> class CallableDict(dict):
...     def __getitem__(self, key):
...         val = super().__getitem__(key)
...         if callable(val):
...             return val()
...         return val
...
>>>
>>> d = CallableDict({1: "A", 2: "B", 3: lambda: print('run')})
>>> d[1]
'A'
>>> d[3]
run

A perhaps more idiomatic solution would be to use try/except:

def __getitem__(self, key):
    val = super().__getitem__(key)
    try:
        return val()
    except TypeError:
        return val

Note however the method above is really for completness. I would not reccomend using it. As pointed out in the comments, it would mask TypeError's raised by the function. You could test the exact content of TypeError, but at that point, you'd be better of using the LBYL style.

8
  • EAFP - try: return val(); except TypeError: return val?
    – AChampion
    Commented Sep 8, 2017 at 0:42
  • @AChampion Eh, I could use EAFP instead. In some cases, I really don't think it matters to much :) I really wasn't thinking about it when I posted my answer.
    – Chris
    Commented Sep 8, 2017 at 0:45
  • 1
    EAFP hides TypeErrors that occur inside the called function in this case. I wouldn't use it. Commented Sep 10, 2017 at 9:04
  • @PekkaKlärck Yeah, your right. I see that clearly now. I guess I was distracted when adding it to my answer, and wasn't thinking about the potential consequences of using it. I'll edit.
    – Chris
    Commented Sep 10, 2017 at 23:32
  • In this example the return value of d[3] would be None, right? The printing of "run" is a side effect.
    – Håken Lid
    Commented Sep 11, 2017 at 10:15
7

I don't think that's (easily) possible with the standard library but you could use lazy_object_proxy.Proxy from the module lazy_object_proxy (it's third party so you need to install it):

>>> import lazy_object_proxy
>>> def fn_1():
...     print('calculation')
...     return 1000
...
>>> d = {1: "A", 2: "B", 3: lazy_object_proxy.Proxy(fn_1)}
>>> print(d[3])
calculation
1000
1
  • Ah, very interesting solution. That library looks like it would be very useful for time consuming computations. +1
    – Chris
    Commented Sep 8, 2017 at 0:29
2

You can try this:

  1. declare the dictionary with its keys and the name of each

  2. function without the()

    functions = {'1': function1, '2':fuction2, '3':fuction3 ,...}

  3. pass the function/value by using the method get, which returns None

  4. if the key doesn't exists
    action = functions.get(key)

  5. call the function ,which is stored in the var action, + () action()
  6. your function will be executed.
0

Use callable() to check if variable is, well, callable:

d = {1: "A", 2: "B", 3: fn_1}
if callable(d[3]):
    d[3]()
else:
    d[3]
1
  • 2
    The asked specifically said without using () when the function is called Commented Sep 8, 2017 at 0:16
-3

Another solution: you can also pass some class method decorated using @property:

class Test:
    @property
    def method(self):
        return 'X'

d = {'a': 1, 'b': Test().method}
print(d)
print(d['a'])
print(d['b'])
1
  • 2
    This isn't a function that is called when the key is accessed. It just sets the dictionary value when defined: {'a': 1, 'b': 'X'} Commented Sep 9, 2017 at 22:03

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