# name for a function that transforms assignment statements to expressions

### update

Since one effect of these functions is to provide a way to use method chaining on methods that would not normally support it *, I'm considering calling them chain and copychain, respectively. This seems less than ideal though, since the would-be copychain is arguably a more fundamental concept, at least in terms of functional programming.

### original

I'm calling it a boxer for now. The code is in Python, though the question is general:

def boxer(f):
"""Return a function g(o, *args, **keyargs) -> o

g calls f on o with the remaining arguments
and returns o.

>>> l = [2]
>>> def increment_list_element(l, i):
...     l[0] += i
[4]
>>> def multiply_list_element(l, i):
...     l[0] *= i
>>> multiplier = boxer(multiply_list_element)
>>> sum(multiplier(l, 6))
24
"""
def box(o, *args, **keyargs):
f(o, *args, **keyargs)
return o
return box


A similar concept copies the would-be assignee, and assigns to and returns the copy. This one is a "shadow_boxer":

from copy import deepcopy

"""Return a function g(o, *args, **keyargs) -> p

g deepcopies o as p,
executes f on p with the remaining arguments,
and returns p.

>>> l = [2]
>>> def increment_list_element(l, i):
...     l[0] += i
[4]
>>> def multiply_list_element(l, i):
...     l[0] *= i
>>> sum(multiplier(l, 6))
12
"""
p = deepcopy(o)
f(p, *args, **keyargs)
return p


In addition, I'd like to find out about resources for learning more about these sorts of things — though I'm similarly unsure of a name for "these sorts of things". It does seem related to functional programming, although as I understand it, these technique would be unnecessary in a true functional language.

-

This is pretty much the same thing as Ruby's Object#tap. Don't know how you feel about the name, but that's what they call it.
What the boxer function returns is probably defined closure in some programming languages. If there is not already a function with this name, I would call the function closure.
What it does is more specific than the definition I'm familiar with for a closure: as I understand it, a closure is any function which encloses free variables from a broader context, generally that of another function. The purpose of the boxer functions is to provide a return value for functions that don't normally produce one. They are (I think necessarily) implemented as closures, but I'm looking for a more specific term for what they do. – intuited Jun 24 '10 at 14:01