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issue5.py
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issue5.py
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# Copyright 2010 Hakan Kjellerstrand [email protected]
#
# Licensed under the Apache License, Version 2.0 (the 'License');
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an 'AS IS' BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
'''
A programming puzzle from Einav in Google CP Solver.
From
'A programming puzzle from Einav'
http://gcanyon.wordpress.com/2009/10/28/a-programming-puzzle-from-einav/
My friend Einav gave me this programming puzzle to work on. Given
this array of positive and negative numbers:
33 30 -10 -6 18 7 -11 -23 6
...
-25 4 16 30 33 -23 -4 4 -23
You can flip the sign of entire rows and columns, as many of them
as you like. The goal is to make all the rows and columns sum to positive
numbers (or zero), and then to find the solution (there are more than one)
that has the smallest overall sum. So for example, for this array:
33 30 -10
-16 19 9
-17 -12 -14
You could flip the sign for the bottom row to get this array:
33 30 -10
-16 19 9
17 12 14
Now all the rows and columns have positive sums, and the overall total is
108.
But you could instead flip the second and third columns, and the second
row, to get this array:
33 -30 10
16 19 9
-17 12 14
All the rows and columns still total positive, and the overall sum is just
66. So this solution is better (I don't know if it's the best)
A pure brute force solution would have to try over 30 billion solutions.
I wrote code to solve this in J. I'll post that separately.
Compare with the following models:
* MiniZinc http://www.hakank.org/minizinc/einav_puzzle.mzn
* SICStus: http://hakank.org/sicstus/einav_puzzle.pl
This model was created by Hakan Kjellerstrand ([email protected])
Also see my other Google CP Solver models:
http://www.hakank.org/google_or_tools/
'''
from ortools.constraint_solver import pywrapcp
def main():
# Create the solver.
solver = pywrapcp.Solver('Einav puzzle')
#
# data
#
# small problem
# data = [
# [ 33, 30, -10],
# [-16, 19, 9],
# [-17, -12, -14]
# ]
data = [[33, 30, 10, -6, 18, -7, -11, 23, -6],
[16, -19, 9, -26, -8, -19, -8, -21, -14],
[17, 12, -14, 31, -30, 13, -13, 19, 16],
[-6, -11, 1, 17, -12, -4, -7, 14, -21],
[18, -31, 34, -22, 17, -19, 20, 24, 6],
[33, -18, 17, -15, 31, -5, 3, 27, -3],
[-18, -20, -18, 31, 6, 4, -2, -12, 24],
[27, 14, 4, -29, -3, 5, -29, 8, -12],
[-15, -7, -23, 23, -9, -8, 6, 8, -12],
[33, -23, -19, -4, -8, -7, 11, -12, 31],
[-20, 19, -15, -30, 11, 32, 7, 14, -5],
[-23, 18, -32, -2, -31, -7, 8, 24, 16],
[32, -4, -10, -14, -6, -1, 0, 23, 23],
[25, 0, -23, 22, 12, 28, -27, 15, 4],
[-30, -13, -16, -3, -3, -32, -3, 27, -31],
[22, 1, 26, 4, -2, -13, 26, 17, 14],
[-9, -18, 3, -20, -27, -32, -11, 27, 13],
[-17, 33, -7, 19, -32, 13, -31, -2, -24],
[-31, 27, -31, -29, 15, 2, 29, -15, 33],
[-18, -23, 15, 28, 0, 30, -4, 12, -32],
[-3, 34, 27, -25, -18, 26, 1, 34, 26],
[-21, -31, -10, -13, -30, -17, -12, -26, 31],
[23, -31, -19, 21, -17, -10, 2, -23, 23],
[-3, 6, 0, -3, -32, 0, -10, -25, 14],
[-19, 9, 14, -27, 20, 15, -5, -27, 18],
[11, -6, 24, 7, -17, 26, 20, -31, -25],
[-25, 4, -16, 30, 33, 23, -4, -4, 23]]
rows = len(data)
cols = len(data[0])
#
# variables
#
x = {}
for i in range(rows):
for j in range(cols):
x[i, j] = solver.IntVar(-100, 100, 'x[%i,%i]' % (i, j))
row_signs = [solver.IntVar([-1, 1], 'row_signs(%i)' % i)
for i in range(rows)]
col_signs = [solver.IntVar([-1, 1], 'col_signs(%i)' % j)
for j in range(cols)]
#
# constraints
#
for i in range(rows):
for j in range(cols):
solver.Add(x[i, j] == data[i][j] * row_signs[i] * col_signs[j])
total_sum = solver.Sum([x[i, j] for i in range(rows) for j in range(cols)])
# row sums
row_sums = [solver.Sum([x[i, j] for j in range(cols)]).Var()
for i in range(rows)]
# >= 0
for i in range(rows):
row_sums[i].SetMin(0)
# column sums
col_sums = [solver.Sum([x[i, j] for i in range(rows)]).Var()
for j in range(cols)]
for j in range(cols):
col_sums[j].SetMin(0)
# objective
objective = solver.Minimize(total_sum, 1)
#
# search and result
#
db = solver.Phase(col_signs + row_signs,
solver.CHOOSE_FIRST_UNBOUND,
solver.ASSIGN_MIN_VALUE)
search_log = solver.SearchLog(100000, total_sum)
solver.NewSearch(db, [objective, search_log])
num_solutions = 0
while solver.NextSolution():
num_solutions += 1
print('Sum =', objective.Best())
print('row_sums:', [row_sums[i].Value() for i in range(rows)])
print('col_sums:', [col_sums[j].Value() for j in range(cols)])
for i in range(rows):
for j in range(cols):
print(x[i, j].Value(),', ')
print('\n')
print('\n')
solver.EndSearch()
print('num_solutions:', num_solutions)
print('failures:', solver.Failures())
print('branches:', solver.Branches())
print('wall_time:', solver.WallTime(), 'ms')
if __name__ == '__main__':
main()