euler/python/e106.py

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def repeat(n, xs):
return [xs for _ in range(n)]
def sequence(xss, acc):
if not xss:
return acc
return sequence(xss[1:], [a + [x] for x in xss[0] for a in acc])
def is_balanced(xs):
""" Check if subsets are balanced. That means for every lower number there
is a higher number that balances it out. """
ones_balanced, twos_balanced = True, True
ones, twos = 0, 0
for x in xs:
if x == 1:
ones += 1
twos -= 1
elif x == 2:
ones -= 1
twos += 1
if ones < 0:
ones_balanced = False
if twos < 0:
twos_balanced = False
return ones_balanced or twos_balanced
def euler_106():
n = 12
# Generate all possible subsets where both subsets have the same number of
# elements and at least two elements per subset.
xs = repeat(n, [0, 1, 2])
xs = [x for x in sequence(xs, [[]])
if x.count(1) > 1
if x.count(1) == x.count(2)]
return len([1 for x in xs if not is_balanced(x)]) // 2
if __name__ == "__main__":
solution = euler_106()
print("e106.py: " + str(solution))
assert(solution == 21384)