164 lines
6.9 KiB
Python
164 lines
6.9 KiB
Python
#!/usr/bin/python
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#Copyright 2008 Carl Gherardi
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#This program is free software: you can redistribute it and/or modify
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#it under the terms of the GNU Affero General Public License as published by
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#the Free Software Foundation, version 3 of the License.
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#
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#This program is distributed in the hope that it will be useful,
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#but WITHOUT ANY WARRANTY; without even the implied warranty of
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#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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#GNU General Public License for more details.
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#
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#You should have received a copy of the GNU Affero General Public License
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#along with this program. If not, see <http://www.gnu.org/licenses/>.
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#In the "official" distribution you can find the license in
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#agpl-3.0.txt in the docs folder of the package.
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#fpdb modules
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import Card
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class DerivedStats():
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def __init__(self, hand):
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self.hand = hand
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self.hands = {}
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self.handsplayers = {}
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def getStats(self, hand):
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for player in hand.players:
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self.handsplayers[player[1]] = {}
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self.assembleHands(self.hand)
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self.assembleHandsPlayers(self.hand)
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print "hands =", self.hands
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print "handsplayers =", self.handsplayers
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def getHands(self):
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return self.hands
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def assembleHands(self, hand):
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self.hands['tableName'] = hand.tablename
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self.hands['siteHandNo'] = hand.handid
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self.hands['gametypeId'] = None # Leave None, handled later after checking db
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self.hands['handStart'] = hand.starttime # format this!
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self.hands['importTime'] = None
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self.hands['seats'] = self.countPlayers(hand)
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self.hands['maxSeats'] = hand.maxseats
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# This (i think...) is correct for both stud and flop games, as hand.board['street'] disappears, and
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# those values remain default in stud.
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boardcards = hand.board['FLOP'] + hand.board['TURN'] + hand.board['RIVER'] + [u'0x', u'0x', u'0x', u'0x', u'0x']
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cards = [Card.encodeCard(c) for c in boardcards[0:5]]
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self.hands['boardcard1'] = cards[0]
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self.hands['boardcard2'] = cards[1]
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self.hands['boardcard3'] = cards[2]
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self.hands['boardcard4'] = cards[3]
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self.hands['boardcard5'] = cards[4]
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#print "DEBUG: self.getStreetTotals = (%s, %s, %s, %s, %s)" % hand.getStreetTotals()
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#FIXME: Pot size still in decimal, needs to be converted to cents
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(self.hands['street1Pot'],
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self.hands['street2Pot'],
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self.hands['street3Pot'],
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self.hands['street4Pot'],
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self.hands['showdownPot']) = hand.getStreetTotals()
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self.vpip(hand) # Gives playersVpi (num of players vpip)
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self.playersAtStreetX(hand) # Gives playersAtStreet1..4 and Showdown
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# texture smallint,
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# street0Raises TINYINT NOT NULL, /* num small bets paid to see flop/street4, including blind */
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# Needs to be recorded
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# street1Raises TINYINT NOT NULL, /* num small bets paid to see turn/street5 */
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# Needs to be recorded
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# street2Raises TINYINT NOT NULL, /* num big bets paid to see river/street6 */
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# Needs to be recorded
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# street3Raises TINYINT NOT NULL, /* num big bets paid to see sd/street7 */
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# Needs to be recorded
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# street4Raises TINYINT NOT NULL, /* num big bets paid to see showdown */
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# Needs to be recorded
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# comment TEXT,
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# commentTs DATETIME
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def assembleHandsPlayers(self, hand):
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self.vpip(self.hand)
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for i, street in enumerate(hand.actionStreets[1:]):
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self.aggr(self.hand, i)
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def vpip(self, hand):
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vpipers = set()
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for act in hand.actions[hand.actionStreets[1]]:
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if act[1] in ('calls','bets', 'raises'):
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vpipers.add(act[0])
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for player in hand.players:
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if player[1] in vpipers:
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self.handsplayers[player[1]]['vpip'] = True
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else:
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self.handsplayers[player[1]]['vpip'] = False
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self.hands['playersVpi'] = len(vpipers)
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def playersAtStreetX(self, hand):
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""" playersAtStreet1 SMALLINT NOT NULL, /* num of players seeing flop/street4/draw1 */"""
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# self.actions[street] is a list of all actions in a tuple, contining the player name first
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# [ (player, action, ....), (player2, action, ...) ]
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# The number of unique players in the list per street gives the value for playersAtStreetXXX
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self.hands['playersAtStreet1'] = 0
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self.hands['playersAtStreet2'] = 0
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self.hands['playersAtStreet3'] = 0
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self.hands['playersAtStreet4'] = 0
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self.hands['playersAtShowdown'] = 0
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for street in hand.actionStreets:
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actors = {}
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for act in a[street]:
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actors[act[0]] = 1
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#print "len(actors.keys(%s)): %s" % ( street, len(actors.keys()))
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if hand.gametype['base'] in ("hold"):
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if street in "FLOP": self.hands['playersAtStreet1'] = len(actors.keys())
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elif street in "TURN": self.hands['playersAtStreet2'] = len(actors.keys())
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elif street in "RIVER": self.hands['playersAtStreet3'] = len(actors.keys())
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elif hand.gametype['base'] in ("stud"):
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if street in "FOURTH": self.hands['playersAtStreet1'] = len(actors.keys())
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elif street in "FIFTH": self.hands['playersAtStreet2'] = len(actors.keys())
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elif street in "SIXTH": self.hands['playersAtStreet3'] = len(actors.keys())
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elif street in "SEVENTH": self.hands['playersAtStreet4'] = len(actors.keys())
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elif hand.gametype['base'] in ("draw"):
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if street in "DRAWONE": self.hands['playersAtStreet1'] = len(actors.keys())
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elif street in "DRAWTWO": self.hands['playersAtStreet2'] = len(actors.keys())
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elif street in "DRAWTHREE": self.hands['playersAtStreet3'] = len(actors.keys())
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#Need playersAtShowdown
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def streetXRaises(self, hand):
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# self.actions[street] is a list of all actions in a tuple, contining the action as the second element
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# [ (player, action, ....), (player2, action, ...) ]
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# No idea what this value is actually supposed to be
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# In theory its "num small bets paid to see flop/street4, including blind" which makes sense for limit. Not so useful for nl
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pass
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def aggr(self, hand, i):
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aggrers = set()
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for act in hand.actions[hand.actionStreets[i]]:
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if act[1] in ('completes', 'raises'):
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aggrers.add(act[0])
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for player in hand.players:
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if player[1] in aggrers:
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self.handsplayers[player[1]]['street%sAggr' % i] = True
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else:
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self.handsplayers[player[1]]['street%sAggr' % i] = False
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def countPlayers(self, hand):
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pass
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