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I am confused with what the goal of a 8-puzzle exactly is. This site has a goal state different from that from that of this one and from this one. So should all these be considered as goal states?
One more question, is there any site that will tell me the steps to reach a goal state if I give the initial state(with minimum moves)?

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closed as off topic by Baz, Matthieu, ChrisF, casperOne Oct 19 '12 at 15:06

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Can you post a short description of each instead of linking to other sites? –  Keppil Oct 19 '12 at 14:54
@keppil : they contain images of the goal states. It would be difficult to understand if I explain each goal state individually. –  Ashwin Oct 19 '12 at 16:22

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This link about 8 Puzzle Algorithm quickly shows that there can be different goal states and summarizes a technique to determine if a particular goal can be reached from an arbitrary initial state. (Note that there are "odd" and "even" states which form two non-overlapping sets of valid states.)

They are all the same, really.

One tile as been removed. Put the other tiles - from an arbitrary but valid game state - in the correct location - the goal state - by sliding columns or rows.

The only "difference" is that this goal state might change depending upon which tile was originally removed - top-left, middle or bottom-right in the examples. (This does not change any other rules, and is itself only an exercise in historical research to find the "original" 1880's-era goal state choice.)

In addition, note that numbers are only for easy human identification, e.g. the top-left tile does not have to be "1", and indeed it is "0" in one of the links: some puzzles just form pictures when solved.

FWIW, see "Fifteen Puzzle" which shows that a number of boards came with all 16 tiles. Also note the variations with different missing tile locations and rules.

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So are you saying that all the goal states are the same. So whenever the user makes a move, all the goal states should be checked if the goal state has been reached? –  Ashwin Oct 19 '12 at 16:07
I am saying that it doesn't matter - it's the same puzzle. It's like coloring one side of a Rubik's Cube purple. All the end conditions are checked in exactly the same way: it is met if and only if all the tile pieces are in the correct location. The user will, of course, be going for a particular end-state (which is determined by which tile has been removed) and of which there is only one per game. –  user166390 Oct 19 '12 at 16:11
@Ashwin It can be trivially reasoned that any tile can be removed - as all valid game states derive from the particular end/goal state (which is all tiles in the correct location with one missing) by means of valid moves. Thus, any valid starting state is also a valid game state (and vice versa) and can be "reversed" back to the goal state. –  user166390 Oct 19 '12 at 16:19
you said it is the same -as coloring one side of the Rubik's Cube purple. But here in one of the sites that I gave link to, there is tile removed in the center. That becomes different from the rest right? –  Ashwin Oct 19 '12 at 17:34
@Ashwin It's still the same puzzle with the same rule to determine the end goal :) Start with all pieces in order (all 9 pieces). Take out a piece. Any piece. This is then the goal state. Then randomly move columns/rows (per the rules) and stop after some time. This is a valid starting state (we know that it is valid because all moves are reversible and only valid moves were followed). Solve. The goal is the same - when all the pieces are in their original locations the problem is solved. The location of the missing piece - which is not there at all - does not have to be considered. –  user166390 Oct 19 '12 at 18:25

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