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MCTS.py
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MCTS.py
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import numpy as np
import logging
import config
from utils import setup_logger
import loggers as lg
class Node():
def __init__(self, state):
self.state = state
self.playerTurn = state.playerTurn
self.id = state.id
self.edges = []
def isLeaf(self):
if len(self.edges) > 0:
return False
else:
return True
class Edge():
def __init__(self, inNode, outNode, prior, action):
self.id = inNode.state.id + '|' + outNode.state.id
self.inNode = inNode
self.outNode = outNode
self.playerTurn = inNode.state.playerTurn
self.action = action
self.stats = {
'N': 0,
'W': 0,
'Q': 0,
'P': prior,
}
class MCTS():
def __init__(self, root, cpuct):
self.root = root
self.tree = {}
self.cpuct = cpuct
self.addNode(root)
def __len__(self):
return len(self.tree)
def moveToLeaf(self):
lg.logger_mcts.info('------MOVING TO LEAF------')
breadcrumbs = []
currentNode = self.root
done = 0
value = 0
while not currentNode.isLeaf():
lg.logger_mcts.info('PLAYER TURN...%d', currentNode.state.playerTurn)
maxQU = -99999
if currentNode == self.root:
epsilon = config.EPSILON
nu = np.random.dirichlet([config.ALPHA] * len(currentNode.edges))
else:
epsilon = 0
nu = [0] * len(currentNode.edges)
Nb = 0
for action, edge in currentNode.edges:
Nb = Nb + edge.stats['N']
for idx, (action, edge) in enumerate(currentNode.edges):
U = self.cpuct * \
((1-epsilon) * edge.stats['P'] + epsilon * nu[idx] ) * \
np.sqrt(Nb) / (1 + edge.stats['N'])
Q = edge.stats['Q']
lg.logger_mcts.info('action: %d (%d)... N = %d, P = %f, nu = %f, adjP = %f, W = %f, Q = %f, U = %f, Q+U = %f'
, action, action % 7, edge.stats['N'], np.round(edge.stats['P'],6), np.round(nu[idx],6), ((1-epsilon) * edge.stats['P'] + epsilon * nu[idx] )
, np.round(edge.stats['W'],6), np.round(Q,6), np.round(U,6), np.round(Q+U,6))
if Q + U > maxQU:
maxQU = Q + U
simulationAction = action
simulationEdge = edge
lg.logger_mcts.info('action with highest Q + U...%d', simulationAction)
newState, value, done = currentNode.state.takeAction(simulationAction) #the value of the newState from the POV of the new playerTurn
currentNode = simulationEdge.outNode
breadcrumbs.append(simulationEdge)
lg.logger_mcts.info('DONE...%d', done)
return currentNode, value, done, breadcrumbs
def backFill(self, leaf, value, breadcrumbs):
lg.logger_mcts.info('------DOING BACKFILL------')
currentPlayer = leaf.state.playerTurn
for edge in breadcrumbs:
playerTurn = edge.playerTurn
if playerTurn == currentPlayer:
direction = 1
else:
direction = -1
edge.stats['N'] = edge.stats['N'] + 1
edge.stats['W'] = edge.stats['W'] + value * direction
edge.stats['Q'] = edge.stats['W'] / edge.stats['N']
lg.logger_mcts.info('updating edge with value %f for player %d... N = %d, W = %f, Q = %f'
, value * direction
, playerTurn
, edge.stats['N']
, edge.stats['W']
, edge.stats['Q']
)
edge.outNode.state.render(lg.logger_mcts)
def addNode(self, node):
self.tree[node.id] = node