euler/python/e058.py

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"""Investigate the number of primes that lie on the diagonals of the spiral grid.
Starting with 1 and spiralling anticlockwise in the following way, a square spiral with side length 7 is formed.
37 36 35 34 33 32 31
38 17 16 15 14 13 30
39 18 5 4 3 12 29
40 19 6 1 2 11 28
41 20 7 8 9 10 27
42 21 22 23 24 25 26
43 44 45 46 47 48 49
It is interesting to note that the odd squares lie along the bottom right diagonal, but what is more interesting is that 8 out of the 13 numbers lying along both diagonals are prime; that is, a ratio of 8/13 62%.
If one complete new layer is wrapped around the spiral above, a square spiral with side length 9 will be formed. If this process is continued, what is the side length of the square spiral for which the ratio of primes along both diagonals first falls below 10%?
"""
from e007 import is_prime
def spiral_corners_generator():
n = 1
size = 1
while True:
corners = []
if size == 1:
yield [1]
else:
for i in range(4):
n = n + (size - 1)
corners.append(n)
yield corners
size = size + 2
def main():
size = 1
diagonals = 0
primes = 0
for corners in spiral_corners_generator():
diagonals = diagonals + len(corners)
primes = primes + len([c for c in corners if is_prime(c)])
pct = primes / float(diagonals) * 100
if size > 7 and pct < 10.0:
break
size = size + 2
print 'Side Length: {0}, Percentage: {1}'.format(size, pct)
if __name__ == '__main__':
main()