Python 3.2 documentation refers to Collin Winter's functional module which contains function compose:
The compose() function implements function composition. In other words, it returns a wrapper around the outer and inner callables, such that the return value from inner is fed directly to outer.
Unfortunately, this module hasn't been updated since July 2006; I wonder if there's any replacement available.
For now, I only need compose function. Is the following original functional.compose definition still good for Python 3?
def compose(func_1, func_2, unpack=False):
"""
compose(func_1, func_2, unpack=False) -> function
The function returned by compose is a composition of func_1 and func_2.
That is, compose(func_1, func_2)(5) == func_1(func_2(5))
"""
if not callable(func_1):
raise TypeError("First argument to compose must be callable")
if not callable(func_2):
raise TypeError("Second argument to compose must be callable")
if unpack:
def composition(*args, **kwargs):
return func_1(*func_2(*args, **kwargs))
else:
def composition(*args, **kwargs):
return func_1(func_2(*args, **kwargs))
return composition
This SO question is somewhat related; it asks whether Python should support special syntax for compose.
Your implementation of compose is valid for python 3.2 as discussed in the comments above.
Most of the functions of the library you gave have a python equivalent written in the documentation.
Functions such as map and filter are already implemented in python and can also be simply expressed as list comprehensions. Python has an id function returning the identity of an object (as integer), but the id function of the library can be expressed as lambda x: x.
Another modules you might find interesting are itertools and functools which has partial and reduce (which is similar to foldl but the argument order is not the same).
Here is a simple implementations of a few of them that I didn't find in the standard library:
from functools import reduce
def flip(f):
if not callable(f):
raise TypeError("Cannot filp a non-callable object")
def result(*args, **kw):
args = list(args)
args.reverse()
return f(*args, **kw)
return result
def ilast(i):
return reduce(lambda _, x: x, i)
def iscanl(f, v, seq):
yield v
for a in seq:
v = f(v, a)
yield v
def scanl(*args, **kw):
return list(iscanl(*args, **kw))
def foldl(*args, **kw):
return ilast(iscanl(*args, **kw))
# Or using reduce
#def foldl(f, v, seq):
# return reduce(f, seq, v)
def iscanr_reverse(f, v, seq):
return iscanl(flip(f), v, seq)
def scanr(*args, **kw):
result = list(iscanr_reverse(*args, **kw))
result.reverse()
return result
def foldr(*args, **kw):
return ilast(iscanr_reverse(*args, **kw))