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game_agent.py
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game_agent.py
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"""Finish all TODO items in this file to complete the isolation project, then
test your agent's strength against a set of known agents using tournament.py
and include the results in your report.
"""
import random
class SearchTimeout(Exception):
"""Subclass base exception for code clarity. """
pass
def custom_score(game, player):
"""Calculate the heuristic value of a game state from the point of view
of the given player.
This should be the best heuristic function for your project submission.
Note: this function should be called from within a Player instance as
`self.score()` -- you should not need to call this function directly.
Parameters
----------
game : `isolation.Board`
An instance of `isolation.Board` encoding the current state of the
game (e.g., player locations and blocked cells).
player : object
A player instance in the current game (i.e., an object corresponding to
one of the player objects `game.__player_1__` or `game.__player_2__`.)
Returns
-------
float
The heuristic value of the current game state to the specified player.
"""
if game.is_loser(player):
return float("-inf")
if game.is_winner(player):
return float("inf")
own_y,own_x=game.get_player_location(player)
opponent_y, opponent_x = game.get_player_location(game.get_opponent(player))
own_moves = len(game.get_legal_moves(player))
opp_moves = len(game.get_legal_moves(game.get_opponent(player)))
return own_moves - 1/float((own_y - opponent_y)**2 + (own_x - opponent_x)**2)* opp_moves
def custom_score_2(game, player):
"""Calculate the heuristic value of a game state from the point of view
of the given player.
Note: this function should be called from within a Player instance as
`self.score()` -- you should not need to call this function directly.
Parameters
----------
game : `isolation.Board`
An instance of `isolation.Board` encoding the current state of the
game (e.g., player locations and blocked cells).
player : object
A player instance in the current game (i.e., an object corresponding to
one of the player objects `game.__player_1__` or `game.__player_2__`.)
Returns
-------
float
The heuristic value of the current game state to the specified player.
"""
if game.is_loser(player):
return float("-inf")
if game.is_winner(player):
return float("inf")
w, h = game.width / 2., game.height / 2.
y, x = game.get_player_location(game.get_opponent(player))
own_moves = len(game.get_legal_moves(player))
opp_moves = len(game.get_legal_moves(game.get_opponent(player)))
return own_moves - (1/float((h - y)**2 + (w - x)**2))*opp_moves
def custom_score_3(game, player):
"""Calculate the heuristic value of a game state from the point of view
of the given player.
Note: this function should be called from within a Player instance as
`self.score()` -- you should not need to call this function directly.
Parameters
----------
game : `isolation.Board`
An instance of `isolation.Board` encoding the current state of the
game (e.g., player locations and blocked cells).
player : object
A player instance in the current game (i.e., an object corresponding to
one of the player objects `game.__player_1__` or `game.__player_2__`.)
Returns
-------
float
The heuristic value of the current game state to the specified player.
"""
if game.is_loser(player):
return float("-inf")
if game.is_winner(player):
return float("inf")
own_moves = len(game.get_legal_moves(player))
opp_moves = len(game.get_legal_moves(game.get_opponent(player)))
w, h = game.width / 2., game.height / 2.
y, x = game.get_player_location(player)
return float(1/((h - y)**2 + (w - x)**2)*(own_moves) - opp_moves)
class IsolationPlayer:
"""Base class for minimax and alphabeta agents -- this class is never
constructed or tested directly.
******************** DO NOT MODIFY THIS CLASS ********************
Parameters
----------
search_depth : int (optional)
A strictly positive integer (i.e., 1, 2, 3,...) for the number of
layers in the game tree to explore for fixed-depth search. (i.e., a
depth of one (1) would only explore the immediate sucessors of the
current state.)
score_fn : callable (optional)
A function to use for heuristic evaluation of game states.
timeout : float (optional)
Time remaining (in milliseconds) when search is aborted. Should be a
positive value large enough to allow the function to return before the
timer expires.
"""
def __init__(self, search_depth=3, score_fn=custom_score, timeout=10.):
self.search_depth = search_depth
self.score = score_fn
self.time_left = None
self.TIMER_THRESHOLD = timeout
class MinimaxPlayer(IsolationPlayer):
"""Game-playing agent that chooses a move using depth-limited minimax
search. You must finish and test this player to make sure it properly uses
minimax to return a good move before the search time limit expires.
"""
def get_move(self, game, time_left):
"""Search for the best move from the available legal moves and return a
result before the time limit expires.
************** YOU DO NOT NEED TO MODIFY THIS FUNCTION *************
For fixed-depth search, this function simply wraps the call to the
minimax method, but this method provides a common interface for all
Isolation agents, and you will replace it in the AlphaBetaPlayer with
iterative deepening search.
Parameters
----------
game : `isolation.Board`
An instance of `isolation.Board` encoding the current state of the
game (e.g., player locations and blocked cells).
time_left : callable
A function that returns the number of milliseconds left in the
current turn. Returning with any less than 0 ms remaining forfeits
the game.
Returns
-------
(int, int)
Board coordinates corresponding to a legal move; may return
(-1, -1) if there are no available legal moves.
"""
self.time_left = time_left
# Initialize the best move so that this function returns something
# in case the search fails due to timeout
best_move = (-1, -1)
try:
# The try/except block will automatically catch the exception
# raised when the timer is about to expire.
return self.minimax(game, self.search_depth -1) #RIMA togli sto -1
except SearchTimeout:
moves=game.get_legal_moves()
return moves[0] # Handle any actions required after timeout as needed
# Return the best move from the last completed search iteration
return best_move
def min_play(self, game, depth):
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
if (not game.get_legal_moves()) or depth==0:
return self.score(game, self)
moves = game.get_legal_moves()
best_score = float('inf')
for move in moves:
game_cloned = game.forecast_move(move)
score = self.max_play(game_cloned, (depth-1))
if score < best_score:
best_move = move
best_score = score
return best_score
def max_play(self, game, depth):
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
if (not game.get_legal_moves()) or depth==0:
return self.score(game, self)
moves = game.get_legal_moves()
best_score = float('-inf')
for move in moves:
game_cloned = game.forecast_move(move)
#print(game_cloned.to_string())
score = self.min_play(game_cloned, (depth -1))
if score > best_score:
best_move = move
best_score = score
return best_score
def minimax(self, game, depth):
"""Implement depth-limited minimax search algorithm as described in
the lectures.
This should be a modified version of MINIMAX-DECISION in the AIMA text.
https://github.com/aimacode/aima-pseudocode/blob/master/md/Minimax-Decision.md
**********************************************************************
You MAY add additional methods to this class, or define helper
functions to implement the required functionality.
**********************************************************************
Parameters
----------
game : isolation.Board
An instance of the Isolation game `Board` class representing the
current game state
depth : int
Depth is an integer representing the maximum number of plies to
search in the game tree before aborting
Returns
-------
(int, int)
The board coordinates of the best move found in the current search;
(-1, -1) if there are no legal moves
Notes
-----
(1) You MUST use the `self.score()` method for board evaluation
to pass the project tests; you cannot call any other evaluation
function directly.
(2) If you use any helper functions (e.g., as shown in the AIMA
pseudocode) then you must copy the timer check into the top of
each helper function or else your agent will timeout during
testing.
"""
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
# TODO: finish this function!
moves=game.get_legal_moves()
best_move=(-1,-1)
best_score=float('-inf')
for move in moves:
if self.time_left() < self.TIMER_THRESHOLD:
return best_move
game_cloned=game.forecast_move(move)
score=self.min_play(game_cloned, (depth -1))
if score > best_score:
best_move=move
best_score=score
return best_move
class AlphaBetaPlayer(IsolationPlayer):
"""Game-playing agent that chooses a move using iterative deepening minimax
search with alpha-beta pruning. You must finish and test this player to
make sure it returns a good move before the search time limit expires.
"""
def get_move(self, game, time_left):
"""Search for the best move from the available legal moves and return a
result before the time limit expires.
Modify the get_move() method from the MinimaxPlayer class to implement
iterative deepening search instead of fixed-depth search.
**********************************************************************
NOTE: If time_left() < 0 when this function returns, the agent will
forfeit the game due to timeout. You must return _before_ the
timer reaches 0.
**********************************************************************
Parameters
----------
game : `isolation.Board`
An instance of `isolation.Board` encoding the cuclsrrent state of the
game (e.g., player locations and blocked cells).
time_left : callable
A function that returns the number of milliseconds left in the
current turn. Returning with any less than 0 ms remaining forfeits
the game.
Returns
-------
(int, int)
Board coordinates corresponding to a legal move; may return
(-1, -1) if there are no available legal moves.
"""
self.time_left = time_left
# Initialize the best move so that this function returns something
# in case the search fails due to timeout
best_move = (-1, -1)
try:
# The try/except block will automatically catch the exception
# raised when the timer is about to expire.
# how it was, working fine, changing now for iterarive deepening
#return self.alphabeta(game, self.search_depth -1)
for depth in range (1,game.width*game.height):
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
best_move= self.alphabeta(game, depth)
except SearchTimeout:
##logger.info('####*Get_move - Time Out, Do Something!!!!!!')
#return best_move
moves=game.get_legal_moves()
return moves[0] # Handle any actions required after timeout as needed
# Return the best move from the last completed search iteration
return best_move
#inizio minimax rima 08/08/2017
def min_play_alphabeta(self, game, depth,alpha, beta):
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
if (not game.get_legal_moves()) or depth==0:
return self.score(game, self)
moves = game.get_legal_moves()
best_score = float('inf')
for move in moves:
game_cloned = game.forecast_move(move)
score = self.max_play_alphabeta(game_cloned, (depth-1), alpha, beta)
if score < best_score:
best_score = score
if score < beta:
beta=score
if alpha>=beta:
break
return best_score
def max_play_alphabeta(self, game, depth, alpha, beta):
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
if (not game.get_legal_moves()) or depth==0:
return self.score(game, self)
moves = game.get_legal_moves()
best_score = float('-inf')
for move in moves:
game_cloned = game.forecast_move(move)
score = self.min_play_alphabeta(game_cloned, (depth -1), alpha,beta)
if score > best_score:
best_score = score
if score > alpha:
alpha=score
if alpha>=beta:
break
return best_score
def alphabeta(self, game, depth, alpha=float("-inf"), beta=float("inf")):
"""Implement depth-limited minimax search with alpha-beta pruning as
described in the lectures.
This should be a modified version of ALPHA-BETA-SEARCH in the AIMA text
https://github.com/aimacode/aima-pseudocode/blob/master/md/Alpha-Beta-Search.md
**********************************************************************
You MAY add additional methods to this class, or define helper
functions to implement the required functionality.
**********************************************************************
Parameters
----------
game : isolation.Board
An instance of the Isolation game `Board` class representing the
current game state
depth : int
Depth is an integer representing the maximum number of plies to
search in the game tree before aborting
alpha : float
Alpha limits the lower bound of search on minimizing layers
beta : float
Beta limits the upper bound of search on maximizing layers
Returns
-------
(int, int)
The board coordinates of the best move found in the current search;
(-1, -1) if there are no legal moves
Notes
-----
(1) You MUST use the `self.score()` method for board evaluation
to pass the project tests; you cannot call any other evaluation
function directly.
(2) If you use any helper functions (e.g., as shown in the AIMA
pseudocode) then you must copy the timer check into the top of
each helper function or else your agent will timeout during
testing.
"""
if self.time_left() < self.TIMER_THRESHOLD:
raise SearchTimeout()
# TODO: finish this function!
moves=game.get_legal_moves()
best_move=(-1,-1)
best_score=float('-inf')
for move in moves:
if self.time_left() < self.TIMER_THRESHOLD:
return best_move
game_cloned=game.forecast_move(move)
score=self.min_play_alphabeta(game_cloned, (depth -1),alpha,beta)
if score > best_score:
best_move=move
best_score=score
if score > alpha:
alpha=score
if alpha>=beta:
break
return best_move