def workerGame(PLAYERS, getBet=None):
'''
Accumulate the results of several games' calcGameHistoryValue
for a given number of players and betting strategy
'''
wins = [0, ] * PLAYERS
# for i in xrange(100000):
for _ in xrange(1000):
game = Game(players=PLAYERS - 1, decks=8)
if getBet != None:
for player in game.players:
player.getBet = getBet
# game.players[0].getBet = flatBet
if INTERACTIVE:
game.players[1].interactive = True
game.playShoe()
w = game.calcGameHistoryValue()
wins = map(lambda x, y: x + y, w, wins)
if DEBUG:
print "-"*20
return sum(wins[:PLAYERS - 1]) / (wins[PLAYERS - 1] * float((PLAYERS - 1)))
def workerHandEVByCount(players=6, numGames=1000):
'''
Accumulate the results of several game' calcHandEVByCount
for a given number of players and games.
'''
totEV = {}
for _ in xrange(numGames):
game = Game(players=players, decks=6)
game.playShoe()
gHandEV = game.calcHandEVByCount()
for (key, (gResult, gTotHands)) in gHandEV.iteritems():
result, totHands = totEV.get(key, (0, 0))
result += gResult
totHands += gTotHands
totEV[key] = (result, totHands)
return totEV
def fasterWorkerGame(PLAYERS, getBet=None, numShoes=10000):
'''
Accumulate the results of several games' fastCalcGameHistoryValue
for a given number of players, betting strategy, and number of games
'''
netValue = 0
netHands = 0
for _ in xrange(numShoes):
game = Game(players=PLAYERS - 1, decks=6)
if getBet != None:
for player in game.players:
player.getBet = getBet
game.playShoe()
value, hands = game.fastCalcGameHistoryValue()
netValue += value
netHands += hands
return netValue / (netHands * float((PLAYERS - 1)))
