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n-queens-ii.py
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n-queens-ii.py
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from __future__ import print_function
from functools import reduce
# Time: O(n!)
# Space: O(n)
#
# Follow up for N-Queens problem.
#
# Now, instead outputting board configurations, return the total number of distinct solutions.
#
# quick solution for checking if it is diagonally legal
class Solution:
# @return an integer
def totalNQueens(self, n):
self.cols = [False] * n
self.main_diag = [False] * (2 * n)
self.anti_diag = [False] * (2 * n)
return self.totalNQueensRecu([], 0, n)
def totalNQueensRecu(self, solution, row, n):
if row == n:
return 1
result = 0
for i in xrange(n):
if not self.cols[i] and not self.main_diag[row + i] and not self.anti_diag[row - i + n]:
self.cols[i] = self.main_diag[row + i] = self.anti_diag[row - i + n] = True
result += self.totalNQueensRecu(solution + [i], row + 1, n)
self.cols[i] = self.main_diag[row + i] = self.anti_diag[row - i + n] = False
return result
# slower solution
class Solution2:
# @return an integer
def totalNQueens(self, n):
return self.totalNQueensRecu([], 0, n)
def totalNQueensRecu(self, solution, row, n):
if row == n:
return 1
result = 0
for i in xrange(n):
if i not in solution and reduce(lambda acc, j: abs(row - j) != abs(i - solution[j]) and acc, xrange(len(solution)), True):
result += self.totalNQueensRecu(solution + [i], row + 1, n)
return result
if __name__ == "__main__":
print(Solution().totalNQueens(8))