What is the 'pythonic' equivalent to the 'fold' function from functional programming?
PythonListFunctional ProgrammingReduceFoldPython Problem Overview
What is the most idiomatic way to achieve something like the following, in Haskell:
foldl (+) 0 [1,2,3,4,5]
--> 15
Or its equivalent in Ruby:
[1,2,3,4,5].inject(0) {|m,x| m + x}
#> 15
Obviously, Python provides the reduce function, which is an implementation of fold, exactly as above, however, I was told that the 'pythonic' way of programming was to avoid lambda terms and higher-order functions, preferring list-comprehensions where possible. Therefore, is there a preferred way of folding a list, or list-like structure in Python that isn't the reduce function, or is reduce the idiomatic way of achieving this?
Python Solutions
Solution 1 - Python
The Pythonic way of summing an array is using sum. For other purposes, you can sometimes use some combination of reduce (from the functools module) and the operator module, e.g.:
def product(xs):
return reduce(operator.mul, xs, 1)
Be aware that reduce is actually a foldl, in Haskell terms. There is no special syntax to perform folds, there's no builtin foldr, and actually using reduce with non-associative operators is considered bad style.
Using higher-order functions is quite pythonic; it makes good use of Python's principle that everything is an object, including functions and classes. You are right that lambdas are frowned upon by some Pythonistas, but mostly because they tend not to be very readable when they get complex.
Solution 2 - Python
Starting Python 3.8, and the introduction of assignment expressions (PEP 572) (:= operator), which gives the possibility to name the result of an expression, we can use a list comprehension to replicate what other languages call fold/foldleft/reduce operations:
Given a list, a reducing function and an accumulator:
items = [1, 2, 3, 4, 5]
f = lambda acc, x: acc * x
accumulator = 1
we can fold items with f in order to obtain the resulting accumulation:
[accumulator := f(accumulator, x) for x in items]
# accumulator = 120
or in a condensed formed:
acc = 1; [acc := acc * x for x in [1, 2, 3, 4, 5]]
# acc = 120
Note that this is actually also a "scanleft" operation as the result of the list comprehension represents the state of the accumulation at each step:
acc = 1
scanned = [acc := acc * x for x in [1, 2, 3, 4, 5]]
# scanned = [1, 2, 6, 24, 120]
# acc = 120
Solution 3 - Python
Haskell
foldl (+) 0 [1,2,3,4,5]
Python
reduce(lambda a,b: a+b, [1,2,3,4,5], 0)
Obviously, that is a trivial example to illustrate a point. In Python you would just do sum([1,2,3,4,5]) and even Haskell purists would generally prefer sum [1,2,3,4,5].
For non-trivial scenarios when there is no obvious convenience function, the idiomatic pythonic approach is to explicitly write out the for loop and use mutable variable assignment instead of using reduce or a fold.
That is not at all the functional style, but that is the "pythonic" way. Python is not designed for functional purists. See how Python favors exceptions for flow control to see how non-functional idiomatic python is.
Solution 4 - Python
In Python 3, the reduce has been removed: Release notes. Nevertheless you can use the functools module
import operator, functools
def product(xs):
return functools.reduce(operator.mul, xs, 1)
On the other hand, the documentation expresses preference towards for-loop instead of reduce, hence:
def product(xs):
result = 1
for i in xs:
result *= i
return result
Solution 5 - Python
Not really answer to the question, but one-liners for foldl and foldr:
a = [8,3,4]
## Foldl
reduce(lambda x,y: x**y, a)
#68719476736
## Foldr
reduce(lambda x,y: y**x, a[::-1])
#14134776518227074636666380005943348126619871175004951664972849610340958208L
Solution 6 - Python
You can reinvent the wheel as well:
def fold(f, l, a):
"""
f: the function to apply
l: the list to fold
a: the accumulator, who is also the 'zero' on the first call
"""
return a if(len(l) == 0) else fold(f, l[1:], f(a, l[0]))
print "Sum:", fold(lambda x, y : x+y, [1,2,3,4,5], 0)
print "Any:", fold(lambda x, y : x or y, [False, True, False], False)
print "All:", fold(lambda x, y : x and y, [False, True, False], True)
# Prove that result can be of a different type of the list's elements
print "Count(x==True):",
print fold(lambda x, y : x+1 if(y) else x, [False, True, True], 0)
Solution 7 - Python
The actual answer to this (reduce) problem is: Just use a loop!
initial_value = 0
for x in the_list:
initial_value += x #or any function.
This will be faster than a reduce and things like PyPy can optimize loops like that.
BTW, the sum case should be solved with the sum function
Solution 8 - Python
I believe some of the respondents of this question have missed the broader implication of the fold function as an abstract tool. Yes, sum can do the same thing for a list of integers, but this is a trivial case. fold is more generic. It is useful when you have a sequence of data structures of varying shape and want to cleanly express an aggregation. So instead of having to build up a for loop with an aggregate variable and manually recompute it each time, a fold function (or the Python version, which reduce appears to correspond to) allows the programmer to express the intent of the aggregation much more plainly by simply providing two things:
- A default starting or "seed" value for the aggregation.
- A function that takes the current value of the aggregation (starting with the "seed") and the next element in the list, and returns the next aggregation value.