2022-04-04 20:41:30 +02:00
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import itertools
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2022-04-09 00:57:08 +02:00
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from copy import deepcopy
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2022-04-04 20:41:30 +02:00
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from itertools import combinations, combinations_with_replacement
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OP_PLUS = "PLUS"
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OP_MINUS = "MINUS"
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OP_MULTIPLY = "MULTIPLY"
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OP_DIVIDE = "DIVIDE"
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OP_NONE = "NONE"
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def lambda_mul(x):
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rv = 1
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for v in x:
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rv *= v
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return rv
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OP_LAMBDAS = {
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OP_PLUS: sum,
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OP_MINUS: lambda x: abs(x[0] - x[1]),
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OP_MULTIPLY: lambda_mul,
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OP_DIVIDE: lambda x: x[0] / x[1] if x[0] % x[1] == 0 else x[1] / x[0],
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OP_NONE: lambda x: x[0],
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}
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BOX_H_LABELS = 'ABCDEF'
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2022-04-09 00:57:08 +02:00
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BOX_V_LABELS = '654321'
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2022-04-04 20:41:30 +02:00
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class Block(object):
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def __init__(self, boxes, operation, result):
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self.boxes = boxes
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self.operation = operation
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self.result = result
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2022-04-09 00:57:08 +02:00
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self.solutions = set()
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2022-04-04 20:41:30 +02:00
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self.verify()
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def verify(self):
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assert self.operation in OP_LAMBDAS
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if self.operation in [OP_NONE]:
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assert len(self.boxes) == 1
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elif self.operation in [OP_MINUS, OP_DIVIDE]:
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assert len(self.boxes) == 2
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else:
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assert len(self.boxes) > 1
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for box in self.boxes:
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assert len(box) == 2
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assert box[0] in BOX_H_LABELS
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assert box[1] in BOX_V_LABELS
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def all_boxes_in_one_row_or_column(self):
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is_same_column, is_same_row = True, True
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for box in self.boxes[1:]:
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if self.boxes[0][0] != box[0]:
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is_same_column = False
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if self.boxes[0][1] != box[1]:
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is_same_row = False
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return is_same_row or is_same_column
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def generate_combinations(self, k, n):
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assert 1 <= k < n
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# Exploit the structure of the problem
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# For block of size 2, we don't need comb with replacement as they will
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# neccesarily be in different columns/rows
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if k == 2:
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return list(combinations(range(1, n + 1), k))
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# for 3 and more we don't need if all of the boxes are on the
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# same row or same column
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elif k > 2:
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if self.all_boxes_in_one_row_or_column():
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return list(combinations(range(1, n + 1), k))
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return list(combinations_with_replacement(range(1, n + 1), k))
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def generate_hypotheses(self, grid_size):
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rv = []
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op = OP_LAMBDAS[self.operation]
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hypotheses = self.generate_combinations(k=len(self.boxes), n=grid_size)
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for hypothesis in hypotheses:
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if op(hypothesis) == self.result:
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rv.append(hypothesis)
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return rv
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def generate_solutions(self, grid_size):
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self.generate_hypotheses(grid_size)
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for hyp in self.generate_hypotheses(grid_size):
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for perm in itertools.permutations(hyp):
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2022-04-09 00:57:08 +02:00
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sol = tuple(zip(self.boxes, perm))
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self.solutions.add(sol)
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def __repr__(self):
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return 'Block {}'.format(self.boxes)
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2022-04-09 00:57:08 +02:00
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def translate_box_to_rc(box):
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return BOX_V_LABELS.index(box[1]), BOX_H_LABELS.index(box[0])
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def has_line_integrity(line):
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existing_values = set()
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for value in line:
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if value in existing_values:
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return False
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if value != 0:
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existing_values.add(value)
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return True
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def fill_grid(grid, solution):
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box_values = []
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for box_value in solution:
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box_values.append(box_value)
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for box, value in box_values:
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br, bc = translate_box_to_rc(box)
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grid[br][bc] = value
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return grid
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2022-04-04 20:41:30 +02:00
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class Game(object):
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def __init__(self, grid_size, blocks):
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self.blocks = blocks
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self.grid_size = grid_size
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self.verify()
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2022-04-09 00:57:08 +02:00
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for block in self.blocks:
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block.generate_solutions(self.grid_size)
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def init_grid(self):
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return [[0] * self.grid_size for _ in range(self.grid_size)]
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2022-04-04 20:41:30 +02:00
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def verify(self):
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found = set()
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for block in self.blocks:
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for box in block.boxes:
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assert box not in found
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found.add(box)
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assert len(found) == self.grid_size ** 2
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def find_blocks_in_row(self, row_num):
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rv = set()
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for block in self.blocks:
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for box in block.boxes:
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if int(box[1]) == row_num:
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rv.add(block)
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return rv
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2022-04-09 00:57:08 +02:00
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def check_grid(self, grid):
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for row in grid:
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if not has_line_integrity(row):
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return False
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for col_id in range(self.grid_size):
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col = [grid[r][col_id] for r in range(self.grid_size)]
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if not has_line_integrity(col):
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return False
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return True
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def solve(self, grid, current_block_id=0):
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block = self.blocks[current_block_id]
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for solution in block.solutions:
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prev_grid = deepcopy(grid)
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grid = fill_grid(grid, solution)
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if not self.check_grid(grid):
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grid = prev_grid
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else:
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if current_block_id == len(self.blocks) - 1:
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return grid
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sol = self.solve(deepcopy(grid), current_block_id + 1)
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if sol:
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return sol
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2022-04-04 20:41:30 +02:00
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def main():
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game = Game(grid_size=6,
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blocks=[
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2022-04-09 00:57:08 +02:00
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Block(boxes=['A6', 'B6', 'C6', 'D6'], operation=OP_MULTIPLY, result=120),
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Block(boxes=['E6', 'E5', 'E4', 'F4'], operation=OP_PLUS, result=17),
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Block(boxes=['F6', 'F5'], operation=OP_PLUS, result=5),
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Block(boxes=['A5', 'B5'], operation=OP_MINUS, result=1),
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Block(boxes=['C5', 'C4'], operation=OP_DIVIDE, result=2),
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Block(boxes=['D5', 'D4'], operation=OP_PLUS, result=3),
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Block(boxes=['A4', 'A3'], operation=OP_PLUS, result=5),
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Block(boxes=['B4', 'B3', 'C3'], operation=OP_MULTIPLY, result=30),
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Block(boxes=['D3', 'D2', 'E2'], operation=OP_MULTIPLY, result=15),
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Block(boxes=['B2', 'C2', 'C1'], operation=OP_MULTIPLY, result=10),
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Block(boxes=['A2'], operation=OP_NONE, result=6),
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Block(boxes=['A1', 'B1'], operation=OP_DIVIDE, result=3),
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Block(boxes=['D1', 'E1'], operation=OP_MINUS, result=1),
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Block(boxes=['F1', 'F2', 'F3', 'E3'], operation=OP_PLUS, result=16),
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])
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2022-04-09 00:57:08 +02:00
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grid = game.solve(grid=game.init_grid())
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for line in grid:
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print(line)
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2022-04-04 20:41:30 +02:00
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if __name__ == '__main__':
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main()
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