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Can you explain me how to build the tree?

I quite understood how the nodes are chosen, but a nicer explanation would really help me implementing this algorithm. I already have a board representing the game state, but I don't know (understand) how to generate the tree.

Can someone points me to a well commented implementation of the algorithm (I need to use it for AI)? Or better explanation/examples of it?

I didn't found a lot of resources on the net, this algorithm is rather new...

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C++ implementation: Full disclosure: I'm the author. – Adam Stelmaszczyk Mar 8 at 9:59
up vote 17 down vote accepted

The best way to generate the tree is a series of random playouts. The trick is being able to balance between exploration and exploitation (this is where the UCT comes in). There are some good code samples and plenty of research paper references here :

When I implemented the algorithm, I used random playouts until I hit an end point or termination state. I had a static evaluation function that would calculate the payoff at this point, then the score from this point is propagated back up the tree. Each player or "team" assumes that the other team will play the best move for themselves, and the worst move possible for their opponent.

I would also recommend checking out the papers by Chaslot and his phd thesis as well as some of the research that references his work (basically all the MCTS work since then).

For example: Player 1's first move could simulate 10 moves into the future alternating between player 1 moves and player 2 moves. Each time you must assume that the opposing player will try to minimize your score whilst maximizing their own score. There is an entire field based on this known as Game Theory. Once you simulate to the end of 10 games, you iterate from the start point again (because there is no point only simulating one set of decisions). Each of these branches of the tree must be scored where the score is propagated up the tree and the score represents the best possible payoff for the player doing the simulating assuming that the other player is also choosing the best moves for themselves.

MCTS consists of four strategic steps, repeated as long as there is time left. The steps are as follows.

  1. In the selection step the tree is traversed from the root node until we reach a node E, where we select a position that is not added to the tree yet.

  2. Next, during the play-out step moves are played in self-play until the end of the game is reached. The result R of this “simulated” game is +1 in case of a win for Black (the first player in LOA), 0 in case of a draw, and −1 in case of a win for White.

  3. Subsequently, in the expansion step children of E are added to the tree.

  4. Finally, R is propagated back along the path from E to the root node in the backpropagation step. When time is up, the move played by the program is the child of the root with the highest value. (This example is taken from this paper - PDF

Here are some implementations:

A list of libraries and games using some MCTS implementations

and a game independent open source UCT MCTS library called Fuego

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This is fairly clear. But is the tree constructed while making the decision, or is it build before, and then the AI uses it to determinate the right move? Can you write point per point from the start (nothing in memory) to the right move decision the steps the algorithm does? – Makers_F Jan 30 '12 at 23:04
Generally the tree is constructed while making a series of simulated decisions, and then the "actual" play through is made based on these previous decisions. An easy way to accomplish this is to have a method that can store the state of the game - I notice you already have this, then play through x amount of times (this depends on either how much computation time you have, or the quality of the choices required) and then restore the initial game state you simulated from and make a choice from there using the constructed and scored tree. – danielbeard Jan 31 '12 at 0:24
I also updated my answer with the main steps of MCTS and a link – danielbeard Jan 31 '12 at 0:36
I need to run it on a mobile device (read: no much memory, no fast cpu). So i thought of run multiple simulations on my pc, save the tree(slightly modified) to a file, and them in my app implement a method that can easily read the saved file (modified to be more easily readable without loading it all in the memory).[if i don't save changes back to the file] I will lose the learning part of it (since the matches the real player does don't update the tree), but i'll get fairly good ai for little expense. Is this right/feasible? – Makers_F Jan 31 '12 at 0:38
Depends on the size of the possible tree. Even a tic-tac-toe game can have a surprisingly large game tree and you would have to essentially brute force every possible move. This would take forever for something like chess. A possible implementation would to set up a server running a service based MCTS implementation. Found it! Here are some existing implementations: and a game independent UCT MCTS library called Fuego… – danielbeard Jan 31 '12 at 0:42


Below are links to some basic MCTS implementations in various
programming languages. The listings are shown with timing, testing
and debugging code removed for readability.



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I wrote this one if you're interrested :

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