# Counting intersections for all combinations in a list of sets

I have a collection of sets. I want to find the number of items that are found only in the intersection for each combination of sets. I'm basically want to do the same thing as creating the numbers in a Venn diagram.

An basic example might make it clearer.

``````a = set(1,2,5,10,12)
b = set(1,2,6,9,12,15)
c = set(1,2,7,8,15)
``````

I should end up with a count of items found only in:

• a
• b
• c
• the intersection of a and b
• the intersection of a and c
• the intersection of b and c
• the intersection of a, b and c

A non-extensible way of doing this is

``````num_a = len(a - b - c)  # len(set([5,10])) -> 2
num_b = len(b - a - c)  # len(set([6,9])) -> 2
num_c = len(c - a - b)  # len(set([7,8])) -> 2

num_ab = len((a & b) - c)  # 1
num_ac = len((a & c) - b)  # 0
num_bc = len((b & c) - a)  # 1

num_abc = len(a & b & c)  # 2
``````

While this works for 3 sets my collection of sets is not static.

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## 3 Answers

IIUC, something like this should work:

``````from itertools import combinations

def venn_count(named_sets):
names = set(named_sets)
for i in range(1, len(named_sets)+1):
for to_intersect in combinations(sorted(named_sets), i):
others = names.difference(to_intersect)
intersected = set.intersection(*(named_sets[k] for k in to_intersect))
unioned = set.union(*(named_sets[k] for k in others)) if others else set()
yield to_intersect, others, len(intersected - unioned)

ns = {"a": {1,2,5,10,12}, "b": {1,2,6,9,12,15}, "c": {1,2,7,8,15}}
for intersected, unioned, count in venn_count(ns):
print 'len({}{}) = {}'.format(' & '.join(sorted(intersected)),
' - ' + ' - '.join(sorted(unioned)) if unioned else '',
count)
``````

which gives

``````len(a - b - c) = 2
len(b - a - c) = 2
len(c - a - b) = 2
len(a & b - c) = 1
len(a & c - b) = 0
len(b & c - a) = 1
len(a & b & c) = 2
``````
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Thank you. Using a set of sets is nice. – StephenPaulger Mar 22 '13 at 14:31

I'd try using bit masks:

``````sets = [
set([1,2,5,10,12]),
set([1,2,6,9,12,15]),
set([1,2,7,8,15]),
]

d = {}

for n, s in enumerate(sets):
for i in s:
d[i] = d.get(i, 0) | (1 << n)

for mask in range(1, 2**len(sets)):
cnt = sum(1 for x in d.values() if x & mask == mask)
num = ','.join(str(j) for j in range(len(sets)) if mask & (1 << j))
print 'number of items in set(s) %s = %d' % (num, cnt)
``````

Results for your input:

``````number of items in set(s) 0 = 5
number of items in set(s) 1 = 6
number of items in set(s) 0,1 = 3
number of items in set(s) 2 = 5
number of items in set(s) 0,2 = 2
number of items in set(s) 1,2 = 3
number of items in set(s) 0,1,2 = 2
``````
-

You can use `itertools.combinations` to get all the possible combinations. http://docs.python.org/2/library/itertools.html

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I would have to loop from 1 to the number of sets and would have to figure out which sets then need subtracting. – StephenPaulger Mar 21 '13 at 17:11
Yes, but it's fairly easy (not more than 10-15 lines of code) – Tomer Arazy Mar 21 '13 at 17:13