2019-09-09 01:45:46 +02:00
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from functools import namedtuple
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from lib_a_star import A_Star
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from e081 import get_grid
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2019-08-16 05:26:47 +02:00
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def euler_082():
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2019-09-09 01:45:46 +02:00
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Node = namedtuple("Node", ["row", "col"])
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def cost(grid):
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n_rows = len(grid)
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n_cols = len(grid[0])
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start_nodes = [Node(row, 0) for row in range(n_rows)]
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end_nodes = [Node(row, n_cols - 1) for row in range(n_rows)]
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def h(node):
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c_self = grid[node.row][node.col]
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c_steps = n_cols - node.col
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return c_self + c_steps
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def d(current_node, next_node):
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return grid[next_node.row][next_node.col]
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def neighbors(node):
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neighbors = []
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# right neighbor
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if not node.col + 1 == n_cols:
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neighbors.append(Node(node.row, node.col + 1))
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# down neighbor
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if not node.row + 1 == n_rows:
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neighbors.append(Node(node.row + 1, node.col))
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# up neighbor
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if not node.row == 0:
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neighbors.append(Node(node.row - 1, node.col))
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return neighbors
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a = A_Star(start_nodes, end_nodes, h, d, neighbors)
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return a.cost
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grid = [[131, 673, 234, 103, 18],
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[201, 96, 342, 965, 150],
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[630, 803, 746, 422, 111],
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[537, 699, 497, 121, 956],
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[805, 732, 524, 37, 331]]
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assert(cost(grid) == 994) # Example from problem statement.
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return cost(get_grid())
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2019-08-16 05:26:47 +02:00
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if __name__ == "__main__":
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print("e082.py: " + str(euler_082()))
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2019-09-09 01:45:46 +02:00
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assert(euler_082() == 260324)
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