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c=["pink", "purple", "black", "yellow", "purple", "indego", "white", "peach"]
import random
import collections
def apply(T):
    i = random.randint(0, 7)
    return c[i]
for x in range(1, 50):
    for ch in map(apply, c):

I'm trying to figure out how to count the occurrences of each of the numbers by only using the filter and reduce functions.

Could anybody point me in the right direction?

EDIT: FOR CLARIFICATION, I want to count the amount of times a random number of a certain type is generated, not the one in the list!

share|improve this question
Could you give us the expected output? – Volatility Feb 7 '13 at 0:54
Use a collections.Counter. Would you use a screwdriver to drive in a nail? – wim Feb 7 '13 at 0:57
Unfortunatly I need to use Filter and Reduce, hence why I'm struggling. an expected output would be a count of each of the colours declaring how many times it appeared. – Jay Feb 7 '13 at 0:58
I'm confused. What are you counting here? Is it just the list c? How does the function apply and the import of random have anything to do with anything ... – mgilson Feb 7 '13 at 1:09
@wim -- Probably because some professor somewhere is trying to teach them functional programming ... – mgilson Feb 7 '13 at 1:10

First off, your apply function ignores its argument, which is never a good sign for something you're giving to map. I'm going to assume you were trying to generate a list of random colors, called colors, and then count that; you could equally well replace that by a generator.

Filter, reduce, etc are functional programming concepts that are usually better handled via list comprehensions or generators in Python. Here's how I'd do it:

c = ["pink", "purple", "black", "yellow", "purple", "indego", "white", "peach"]

import random
colors = [c[random.randrange(len(c))] for _ in range(50)]

# now, to count

# (a) the way you'd actually do it in practice:
from collections import Counter
counts = Counter(colors)

# (b) the way you'd actually do it without the collections module
counts = {}
for x in colors:
    if x not in counts:
        counts[x] = 0
    counts[x] += 1

# (c) doing it with reduce...technically.
def add_to_counter(counter, el):
    counter[el] += 1  # can't actually do this in a lambda...
counts = reduce(add_to_counter, colors, Counter())

You could also do something similar to (c) but without just using the Counter class by maintaing a list of elements and their counts, and adding to them in the reduce function, but that's just a less efficient and more cumbersome version of the same thing.

Since you say you have to use filter and reduce, I'm assuming this is a homework assignment. This is silly, because those are absolutely the wrong tools for this problem. But here's a horribly inefficient and unreadable way to use filter and reduce (and map, too) to solve this problem, which is probably like what your instructor is looking for:

from functools import partial
import operator
counts = {}
for x in c:
    counts[x] = reduce(operator.add,
                       map(lambda _: 1, filter(partial(operator.eq, x), colors)),

This is horrible because:

  • It takes a lot of effort to figure out what's going on, instead of the obviousness of (a) and (b) above.
  • You should always use sum in Python rather than reduce(operator.add, ...).
  • So, counts[x] = sum(1 for el in colors if el == x) is the same (bad) algorithm but a million times more readable and much shorter to boot.
  • Even so, the reduce/sum and map could just be replaced by a call to len(filter(...)) (assuming Python 2; in three, filter returns an iterator and so you'd have to do len(list(filter(...))), which is wasteful).
  • It passes over the full colors list one time for each color, rather than just once. This makes it impossible to use in cases where you don't know the full list of possible outcomes, and much less efficient in all cases.

The only possible "advantage" someone could claim is that it includes 0 counts for any colors that don't appear. This is of course trivial to do with any of the other solutions as well.

share|improve this answer
Where are you using filter here? – wim Feb 7 '13 at 1:05
@wim I wasn't, because there's no need to do so. But my edit now uses it. – Dougal Feb 7 '13 at 1:12
I'm using Python 3.3.0, but out of curiosity how would I of used the len method? – Jay Feb 7 '13 at 1:14
In Python 2, filter returns a list, which you can just take the len of to see how many elements there are. In 3, it returns an iterator, which doesn't have a direct length; sum(1 for x in the_iterator), which is basically what we're doing here, accomplishes more or less the same thing. – Dougal Feb 7 '13 at 1:16
count = {color: len(filter(lambda x: x == color, c)) for color in set(c)} print count So in the case of the above code how would I get that to output for 3.3.0? – Jay Feb 7 '13 at 1:46

If you insist, here's how to use reduce. I don't see how filter is necessary at all here, though.

import random

colours = ["pink", "purple", "black", "yellow", "purple", "indego", "white", "peach"]

def foo(counter, i):
  colour = random.choice(colours)
    counter[colour] += 1
  except KeyError:
    counter[colour] = 1
  return counter

counts = reduce(foo, range(1, 50), {})
share|improve this answer
FWIW, this is the same approach as (c) in my answer, just with a plain dictionary instead of a Counter. – Dougal Feb 7 '13 at 1:13
Yes! It just seems dirty to import a Counter and then use it in such an unpythonic way, let's hope Guido never sees that line of code... – wim Feb 7 '13 at 1:18

I think this will be the simplest solution. It does not use filters or so, but it seems quite smart solution

counts = [(colors.count(x), x) for x in set(colors)]

You can also make a dict, not list of tuples... depending on python interpreter version you use.

share|improve this answer
This does #colors + 1 passes over the list, just like the version with reduce/filter at the end of my answer. Using a Counter/dict is at least as easy to understand and substantially superior in terms of runtime. – Dougal Feb 7 '13 at 1:42
it takes 2 or 3 times less code... and this way is more elegant I guess... kinda pythonic way – oleg.foreigner Feb 7 '13 at 3:42
I'd take pretty strong issue with saying the "pythonic way" is the way with an equal amount of code that's no easier to understand and a large amount slower. Additionally, your way only works on a list input, where Counter or doing it manually with a dictionary works on an iterator. Your call to set(colors) is already doing all the work you need to do except for adding 1! – Dougal Feb 7 '13 at 3:43

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