# Copyright 2021 Hakan Kjellerstrand hakank@gmail.com # # 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. """ Survo puzzle in OR-tools CP-SAT Solver. http://en.wikipedia.org/wiki/Survo_Puzzle ''' Survo puzzle is a kind of logic puzzle presented (in April 2006) and studied by Seppo Mustonen. The name of the puzzle is associated to Mustonen's Survo system which is a general environment for statistical computing and related areas. In a Survo puzzle the task is to fill an m * n table by integers 1,2,...,m*n so that each of these numbers appears only once and their row and column sums are equal to integers given on the bottom and the right side of the table. Often some of the integers are given readily in the table in order to guarantee uniqueness of the solution and/or for making the task easier. ''' See also http://www.survo.fi/english/index.html http://www.survo.fi/puzzles/index.html References: Mustonen, S. (2006b). "On certain cross sum puzzles" http://www.survo.fi/papers/puzzles.pdf Mustonen, S. (2007b). "Enumeration of uniquely solvable open Survo puzzles." http://www.survo.fi/papers/enum_survo_puzzles.pdf Kimmo Vehkalahti: "Some comments on magic squares and Survo puzzles" http://www.helsinki.fi/~kvehkala/Kimmo_Vehkalahti_Windsor.pdf R code: http://koti.mbnet.fi/tuimala/tiedostot/survo.R This is a port of my old CP model survo_puzzle.py This model was created by Hakan Kjellerstrand (hakank@gmail.com) Also see my other OR-tools models: http://www.hakank.org/or_tools/ """ from __future__ import print_function from ortools.sat.python import cp_model as cp import math, sys # from cp_sat_utils import * def main(r=0, c=0, rowsums=[], colsums=[], game=[]): model = cp.CpModel() # # data # if r == 0: r = 3 c = 4 rowsums = [30, 18, 30] colsums = [27, 16, 10, 25] game = [[0, 6, 0, 0], [8, 0, 0, 0], [0, 0, 3, 0]] print("r:", r, "c:", c) # declare variables x = {} for i in range(r): for j in range(c): x[(i, j)] = model.NewIntVar(1, r * c, "x %i %i" % (i, j)) # # constraints # # # set the clues # for i in range(r): for j in range(c): if game[i][j] > 0: model.Add(x[i, j] == game[i][j]) xflat = [x[(i, j)] for i in range(r) for j in range(c)] model.AddAllDifferent(xflat) # # calculate rowsums and colsums # for i in range(r): model.Add(rowsums[i] == sum([x[i, j] for j in range(c)])) for j in range(c): model.Add(colsums[j] == sum([x[i, j] for i in range(r)])) # # solution and search # solver = cp.CpSolver() status = solver.Solve(model) if status == cp.OPTIMAL: print() xval = [solver.Value(x[(i, j)]) for i in range(r) for j in range(c)] for i in range(r): for j in range(c): print("%2i" % (xval[i * c + j]), end=" ") print() print() print() print("NumConflicts:", solver.NumConflicts()) print("NumBranches:", solver.NumBranches()) print("WallTime:", solver.WallTime()) else: print("No solutions found") # # Read a problem instance from a file # def read_problem(file): f = open(file, "r") r = int(f.readline()) c = int(f.readline()) rowsums = f.readline() colsums = f.readline() rowsums = [int(t) for t in (rowsums.rstrip()).split(",")] colsums = [int(t) for t in (colsums.rstrip()).split(",")] game = [] for i in range(r): x = f.readline() x = [int(t) for t in (x.rstrip()).split(",")] row = [0] * c for j in range(c): row[j] = int(x[j]) game.append(row) return [r, c, rowsums, colsums, game] if __name__ == "__main__": if len(sys.argv) > 1: file = sys.argv[1] [r, c, rowsums, colsums, game] = read_problem(file) main(r, c, rowsums, colsums, game) else: main()