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# coding: utf-8 import os, sys from z3 import *
# get the playground information if len(sys.argv) != 2: print("Usage: python3 square.py <test-file>") sys.exit(0)
with open(sys.argv[1]) as f: playground = f.read() rows = playground.strip().split("\n") playground = [[None if x == "_" else int(x) for x in r.split()] for r in rows]
# get the playground size size_y = len(playground) assert(size_y != 0) size_x = len(playground[0]) assert(size_x != 0) assert(size_x == size_y)
#################################### Square ####################################
# create the solver solver = Solver()
numbers = [[None for _j in range(size_x)] for _j in range(size_y)]
# TODO: create an integer variable for each playground cell # hint: use something like the coordinates as part of the variable name # TODO: assign each known number the corresponding value from playground # TODO: declare a variable for the sum of all columns, rows and diagonals # TODO: enforce that each column sums up to the declared variable # TODO: enforce that each row sums up to the declared variable # TODO enforce that both diagonals sum up to the declared variable
# call the solver and check satisfiability res = solver.check() if res != sat: print("unsat") sys.exit(1)
# print the model m = solver.model() for i in range(size_y): results = [] for j in range(size_x): num = numbers[i][j] results.append("_" if num is None else m[num].as_long()) print(("%4s" * len(results)) % tuple(results))
################################################################################
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