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I am trying to code a simple A* solver in Python for a simple 8-Puzzle game. I have represented the goal of my game in this way:

goal = [[1, 2, 3],
        [8, 0, 4], 
        [7, 6, 5]]

My problem is that I don't know how to write a simple Manhattan Distance heuristic for my goal. I know it should be defined as the sum of the distances between a generic state and my goal state. I think I should code something like:

def manhattan_distance(state):
    distance = 0
    for x in xrange(3):
        for y in xrange(3):
            value = state[x][y]
            x_value = x
            y_value = y
            x_goal = ...?
            y_goal = ...?
            distance += abs(x_value - x_goal) + abs(y_value - y_goal)
    return distance

My problem is that I don't have an explicit representation of the coordinates of the pieces in the goal state, so I don't know how to define 'x_goal' and 'y_goal' for the 'value' piece of the board. I am trying to do it using division and module operations, but it's difficult.

Can you give me some hints to define my 'x_goal' and 'y_goal' variables?

Thank you

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You're right to use divison and modulo operators. Try working out the formula on paper before writing any code. –  Colonel Panic May 1 '13 at 13:18
    
I have seen other implementations using division and modulo operations, but they define the goal state in a different way. My problem is that I can't find anything in common between the elements in the second and third rows of my goal state... –  JohnQ May 1 '13 at 13:22
    
How about: Relabel the pieces so the goal is 012345678 (easier to think about). Solve (textbook). Restore the original labels. –  Colonel Panic May 1 '13 at 13:52
    
I have changed the representation of the goal state to a dictionary of labels with their coordinates. I don't know if there is a better solution, but now it works. Thank you anyway! –  JohnQ May 1 '13 at 14:51
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2 Answers

Manhattan distance is the taxi distance in road similar to those in Manhattan. You are right with your formula

distance += abs(x_value - x_goal) + abs(y_value - y_goal)

where x_value, y_value is where you are and x_goal, y_goal is where you want to go.

This implementation using mhd uses this heuristic: the mhd between the point defined by the indices of each of '12346578' in current position and the point defined by the indices of each of '12346578' in goal

def h(self, node):
    """Heuristic for 8 puzzle: returns sum for each tile of manhattan
    distance between it's position in node's state and goal"""
    sum = 0
    for c in '12345678':
        sum =+ mhd(node.state.index(c), self.goal.index(c))
    return sum

Didnt try yet. Maybe link is of some help.

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I know it would work, but a method like this would have a greater complexity than the method I was trying to code... –  JohnQ May 1 '13 at 15:03
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I had the exact same question that you had, and I solved it by writing a different function that takes the representation you have and translates it into the representation you settled on (dictionary of value/coordinate pairs).

def make_dict(state):
coordinate_dict = {}
for x,row in enumerate(state):
    for y,value in enumerate(row):
        coordinate_dict[value] = (x,y)
return coordinate_dict

That way, you get the best of both worlds. Whenever you want to treat the grid as a grid, you can use the original list-of-lists form, but if all you need is a quick lookup of where the value is for the manhattan distance function, you can use the new dictionary you've created.

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