def test_safest_first_solver_with_hard_one(self): print("test_safest_first_solver_with_hard_one") grid = create_hard_sudoku() solver = SudokuSolver(grid) self.assertTrue( solver.safest_first_solver() ) self.assertTrue( solver.check() ) solver._debug()
def test_safest_first_solver(self): print("test_safest_first_solver") grid = create_real_world_grid() solver = SudokuSolver(grid) self.assertTrue( solver.safest_first_solver() ) self.assertTrue( solver.check()) solver._debug()
def test_solve_real_word_sudoku(self): grid = create_real_world_grid() solver = SudokuSolver(grid) import time start = time.monotonic() self.assertTrue( solver.brut_force() ) end = time.monotonic() print ("elapsed = {} s".format(end - start)) self.assertTrue( solver.check()) solver._debug()
def test_safest_first_solver_with_other_hard_one(self): print("test_safest_first_solver_with__other_hard_one") grid = [ [1,0,0, 0,0,0, 0,0,0], [3,8,0, 0,0,1, 0,0,0], [0,7,0, 0,0,3, 5,0,0], [8,0,0, 0,3,5, 7,2,0], [0,0,3, 0,7,0, 4,0,0], [0,9,2, 8,4,0, 0,0,3], [0,0,8, 2,0,0, 0,4,0], [0,0,0, 4,0,0, 0,6,7], [0,0,0, 0,0,0, 0,0,1] ] solver = SudokuSolver(grid) self.assertTrue( solver.safest_first_solver() ) self.assertTrue( solver.check()) solver._debug()