7

Normally I would not ask such a question, but python seems to have 1. an unusual level of community consensus on idioms and 2. tends to encourage them by making them more performant (e.g. list comprehension vs map, filter).

This is a pattern I find myself using quite a bit when coding, consider the following JavaScript:

var f = (function() {
  var closedOver = "whatever"
  return function(param) {
    // re-uses closure variable again and again with different param
  }
})();

Or C:

int foo(int x)
{
  /* 
    compile-time constant, will not be recalced for every call,
    name 'someConst' not visible in other scopes 
  */
  const int someConst = 134;
  /* do stuff */
  return whatever;
}

Some possible ways to translate into python:

globalConstant = someConstant
def foo(param):
    # does stuff with param and constant
    return whatever

or possibly:

from functools import partial
def foo(invariant, variant):
    """Actually bar"""
    # does stuff
    return whatever

bar = partial(foo, someInvariant)

or:

class Foo(object):
    """I'm just here to hold a non-visible binding. Actually bar"""
    def __init__(self, invariant):
        super(Foo, self).__init__()
        self.value = invariant

    def __call__(self, param):
        return actualFnResultWithSelfValue

bar = Foo(invariant)

or:

def foo(variant, invariant=someConstantValue):
  return whatever

This is unfortunate, now depending on which way I go I may have to use a throw-away name for the initial function definition since I'm only ever using the partially applied version, write a lot of boilerplate classes (which also have throw-away names), or pollute the module namespace with a global constant when its only used in one function, or restrict my function parameters and ensure that someone can break it by calling it with the wrong number of arguments.

I could also 'solve' this by re-instantiating on every call and hoping that it will get optimized away, but since I'm not using pypy I'm not too hopeful on that score.

So my question is two-fold: first, is there a way to do this without the trade-offs? And second, if not, which of the above is the most 'pythonic' (idiomatic, performant, reasonable, etc.)?

  • Look in the standard library for some examples. grep '^del ' Lib/ in particular, as well as assignment to __all__. – Josh Lee Nov 23 '16 at 14:00
  • 1
    You seem overly concerned about throwaway names -- is there a shortage of some kind? And the worry about "polluting" the module namespace also seems misplaced -- it's a non-issue unless people are importing with *, which they shouldn't do, and you can control that with __all__ if needed. In any case, one approach is put the throwaway items in a separate module, throwaways. Then just import that module: the top-level namespace where you do the importing will be infected with only one new name. – FMc Nov 23 '16 at 14:13
  • @FMc that idea of putting all the jank in a separate module to abstract it away is probably the best I've heard so far, and I didn't know about using __all__ to control exports until Josh Lee's comment above. And my concern with throw away names is mostly readability-related, it seems jarring to me to define a function with a name other than the one you call it by. – Jared Smith Nov 23 '16 at 14:16
  • 1
    Also you could overwrite the function name, it's a very common practice, I.e. def foo(a, x): return x ; foo = partial(foo, 'const'), it common when decorating functions. – Fruch Nov 26 '16 at 18:57
1

I'd suggest something that's usually a code smell - default mutable argument.

Trivial example:

def f(x, cache={'x': 0}):
    cache['x'] += x;
    return cache['x']


assert f(1) == 1
assert f(1) == 2  
assert f(1) == 3
assert f(3) == 6

Your dict (or list, or anything which is mutable) is bound to function object. Subsequent calls, when cache keyword argument is omitted, will refer to same object. This object state will persist across calls.

| improve this answer | |
  • I like this better than the other answers, even if its a 'python antipattern'. Still breaks if the caller passes in extra args though. Guess I could do a reference equality check against __defaults__. – Jared Smith Nov 23 '16 at 14:47
  • @JaredSmith that's why I said "usually". It's well-defined language behavior, 99.8% of using mutable default arguments is rookie mistakes, 0.2% is left for cases like this. Note that if you want to write tests for your function, passing external cache object may be an only way to do it (if you use some kind of parallel test runner). – Łukasz Rogalski Nov 23 '16 at 14:52
4

Jared, I totally understand your hesitation to ask this, because it could be answered by many different opinions and spawn a flame war. But, I do agree with your observation: the Python community does tend towards consistency over time with many implementation questions. That's one of the strengths of Python.

Here's my rule of thumb: When in doubt, try to use the Python standard library as much as possible. Your instinct here about functools.partial is correct, for these reasons:

  1. The Python standard library is highly optimized C code that will out-perform any Python class or function closure structure you come up with.
  2. The Python standard library is widely used by other Python programmers, so when you use it, your coding intent will be more widely understood by other Python programmers. ("Code is read more often than it is written.")
  3. The Python standard library is programmed by the core Python developers; no code could possibly claim to be more "Pythonic" than the standard library.

I hope that helps!

| improve this answer | |
0

I don't like idea with var in outer scope and may suggest use closure, I think it's better way, as you see it's more like JavaScript, so you can work with functions as objects :

def foo():
    const = 1
    def bar(param):
      return const + param
    return bar

a = foo()
print(a(5))
| improve this answer | |
  • Except I still end up using a throw-away name (actually two in this case, bar and foo, because a is now the 'real' function name). This is not materially different than the example I used with functools.partial. – Jared Smith Nov 23 '16 at 13:51
  • I think so, but as from my javascript background I prefer current way :) – Anatolii Chmykhalo Nov 23 '16 at 13:53
  • JavaScript does make this particular idiom a little more convenient because of function expressions whereas in python they can only be statements. – Jared Smith Nov 23 '16 at 13:55
  • I agree but anyway I think it's better version then use variable in outer scope, I think you may compare it with functools.partial and use what do you think best for you – Anatolii Chmykhalo Nov 23 '16 at 13:58
0

There is an alternative that you didn't mention, which is IMO the most pythonic way which wouldn't create a throw away name :)

def foo(variant):
    try:
        return foo.invariant + variant
    except AttributeError:
        foo.invariant = 1
        return foo(variant)

Although, sticking with the std library would be the best.

| improve this answer | |
  • Yeah, I'm of the opinion that exceptions should only be used in exceptional circumstances (as opposed to completely expected ones). – Jared Smith Nov 23 '16 at 14:10
  • It seems that you simply can't avoid the trade-offs :p But as mentioned above, there is no better way than sticking with the std library. – Adriano Martins Nov 23 '16 at 14:19
0

I don't think your two first examples are equivalent. The first seems to be a closure, while the second uses a global constant. Anyway, for the first example, a direct equivalent in python would be

def f(x):
   def g(y):
      return x + y
   return g

and use it like

add2 = f(2)
print(add2(3)) # == 5

Actually, your implementation using partial, does something similar under the hood

| improve this answer | |

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