856 lines
39 KiB
Python
856 lines
39 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 getHandsPlayers(self):
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return self.handsplayers
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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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self.hands['texture'] = None # No calculation done for this yet.
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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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#print "DEBUG: vpip: %s" %(self.hands['playersVpi'])
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self.playersAtStreetX(hand) # Gives playersAtStreet1..4 and Showdown
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#print "DEBUG: playersAtStreet 1:'%s' 2:'%s' 3:'%s' 4:'%s'" %(self.hands['playersAtStreet1'],self.hands['playersAtStreet2'],self.hands['playersAtStreet3'],self.hands['playersAtStreet4'])
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self.streetXRaises(hand) # Empty function currently
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# comment TEXT,
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# commentTs DATETIME
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def assembleHandsPlayers(self, hand):
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#hand.players = [[seat, name, chips],[seat, name, chips]]
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for player in hand.players:
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self.handsplayers[player[1]]['seatNo'] = player[0]
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self.handsplayers[player[1]]['startCash'] = player[2]
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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 assembleHudCache(self, hand):
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# # def generateHudCacheData(player_ids, base, category, action_types, allIns, actionTypeByNo
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# # ,winnings, totalWinnings, positions, actionTypes, actionAmounts, antes):
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# #"""calculates data for the HUD during import. IMPORTANT: if you change this method make
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# # sure to also change the following storage method and table_viewer.prepare_data if necessary
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# #"""
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# #print "generateHudCacheData, len(player_ids)=", len(player_ids)
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# #setup subarrays of the result dictionary.
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# street0VPI=[]
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# street0Aggr=[]
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# street0_3BChance=[]
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# street0_3BDone=[]
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# street1Seen=[]
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# street2Seen=[]
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# street3Seen=[]
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# street4Seen=[]
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# sawShowdown=[]
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# street1Aggr=[]
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# street2Aggr=[]
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# street3Aggr=[]
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# street4Aggr=[]
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# otherRaisedStreet1=[]
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# otherRaisedStreet2=[]
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# otherRaisedStreet3=[]
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# otherRaisedStreet4=[]
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# foldToOtherRaisedStreet1=[]
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# foldToOtherRaisedStreet2=[]
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# foldToOtherRaisedStreet3=[]
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# foldToOtherRaisedStreet4=[]
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# wonWhenSeenStreet1=[]
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#
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# wonAtSD=[]
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# stealAttemptChance=[]
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# stealAttempted=[]
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# hudDataPositions=[]
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#
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# street0Calls=[]
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# street1Calls=[]
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# street2Calls=[]
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# street3Calls=[]
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# street4Calls=[]
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# street0Bets=[]
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# street1Bets=[]
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# street2Bets=[]
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# street3Bets=[]
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# street4Bets=[]
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# #street0Raises=[]
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# #street1Raises=[]
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# #street2Raises=[]
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# #street3Raises=[]
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# #street4Raises=[]
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#
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# # Summary figures for hand table:
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# result={}
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# result['playersVpi']=0
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# result['playersAtStreet1']=0
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# result['playersAtStreet2']=0
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# result['playersAtStreet3']=0
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# result['playersAtStreet4']=0
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# result['playersAtShowdown']=0
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# result['street0Raises']=0
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# result['street1Raises']=0
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# result['street2Raises']=0
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# result['street3Raises']=0
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# result['street4Raises']=0
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# result['street1Pot']=0
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# result['street2Pot']=0
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# result['street3Pot']=0
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# result['street4Pot']=0
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# result['showdownPot']=0
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#
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# firstPfRaiseByNo=-1
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# firstPfRaiserId=-1
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# firstPfRaiserNo=-1
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# firstPfCallByNo=-1
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# firstPfCallerId=-1
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#
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# for i, action in enumerate(actionTypeByNo[0]):
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# if action[1] == "bet":
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# firstPfRaiseByNo = i
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# firstPfRaiserId = action[0]
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# for j, pid in enumerate(player_ids):
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# if pid == firstPfRaiserId:
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# firstPfRaiserNo = j
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# break
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# break
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# for i, action in enumerate(actionTypeByNo[0]):
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# if action[1] == "call":
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# firstPfCallByNo = i
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# firstPfCallerId = action[0]
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# break
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# firstPlayId = firstPfCallerId
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# if firstPfRaiseByNo <> -1:
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# if firstPfRaiseByNo < firstPfCallByNo or firstPfCallByNo == -1:
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# firstPlayId = firstPfRaiserId
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#
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#
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# cutoffId=-1
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# buttonId=-1
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# sbId=-1
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# bbId=-1
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# if base=="hold":
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# for player, pos in enumerate(positions):
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# if pos == 1:
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# cutoffId = player_ids[player]
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# if pos == 0:
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# buttonId = player_ids[player]
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# if pos == 'S':
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# sbId = player_ids[player]
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# if pos == 'B':
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# bbId = player_ids[player]
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#
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# someoneStole=False
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#
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# #run a loop for each player preparing the actual values that will be commited to SQL
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# for player in xrange(len(player_ids)):
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# #set default values
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# myStreet0VPI=False
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# myStreet0Aggr=False
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# myStreet0_3BChance=False
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# myStreet0_3BDone=False
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# myStreet1Seen=False
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# myStreet2Seen=False
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# myStreet3Seen=False
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# myStreet4Seen=False
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# mySawShowdown=False
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# myStreet1Aggr=False
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# myStreet2Aggr=False
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# myStreet3Aggr=False
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# myStreet4Aggr=False
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# myOtherRaisedStreet1=False
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# myOtherRaisedStreet2=False
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# myOtherRaisedStreet3=False
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# myOtherRaisedStreet4=False
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# myFoldToOtherRaisedStreet1=False
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# myFoldToOtherRaisedStreet2=False
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# myFoldToOtherRaisedStreet3=False
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# myFoldToOtherRaisedStreet4=False
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# myWonWhenSeenStreet1=0.0
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# myWonAtSD=0.0
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# myStealAttemptChance=False
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# myStealAttempted=False
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# myStreet0Calls=0
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# myStreet1Calls=0
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# myStreet2Calls=0
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# myStreet3Calls=0
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# myStreet4Calls=0
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# myStreet0Bets=0
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# myStreet1Bets=0
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# myStreet2Bets=0
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# myStreet3Bets=0
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# myStreet4Bets=0
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# #myStreet0Raises=0
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# #myStreet1Raises=0
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# #myStreet2Raises=0
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# #myStreet3Raises=0
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# #myStreet4Raises=0
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#
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# #calculate VPIP and PFR
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# street=0
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# heroPfRaiseCount=0
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# for currentAction in action_types[street][player]: # finally individual actions
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# if currentAction == "bet":
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# myStreet0Aggr = True
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# if currentAction == "bet" or currentAction == "call":
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# myStreet0VPI = True
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#
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# if myStreet0VPI:
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# result['playersVpi'] += 1
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# myStreet0Calls = action_types[street][player].count('call')
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# myStreet0Bets = action_types[street][player].count('bet')
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# # street0Raises = action_types[street][player].count('raise') bet count includes raises for now
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# result['street0Raises'] += myStreet0Bets
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#
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# #PF3BChance and PF3B
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# pfFold=-1
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# pfRaise=-1
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# if firstPfRaiseByNo != -1:
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# for i, actionType in enumerate(actionTypeByNo[0]):
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# if actionType[0] == player_ids[player]:
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# if actionType[1] == "bet" and pfRaise == -1 and i > firstPfRaiseByNo:
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# pfRaise = i
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# if actionType[1] == "fold" and pfFold == -1:
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# pfFold = i
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# if pfFold == -1 or pfFold > firstPfRaiseByNo:
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# myStreet0_3BChance = True
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# if pfRaise > firstPfRaiseByNo:
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# myStreet0_3BDone = True
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#
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# #steal calculations
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# if base=="hold":
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# if len(player_ids)>=3: # no point otherwise # was 5, use 3 to match pokertracker definition
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# if positions[player]==1:
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# if firstPfRaiserId==player_ids[player] \
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# and (firstPfCallByNo==-1 or firstPfCallByNo>firstPfRaiseByNo):
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# myStealAttempted=True
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# myStealAttemptChance=True
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# if firstPlayId==cutoffId or firstPlayId==buttonId or firstPlayId==sbId or firstPlayId==bbId or firstPlayId==-1:
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# myStealAttemptChance=True
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# if positions[player]==0:
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# if firstPfRaiserId==player_ids[player] \
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# and (firstPfCallByNo==-1 or firstPfCallByNo>firstPfRaiseByNo):
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# myStealAttempted=True
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# myStealAttemptChance=True
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# if firstPlayId==buttonId or firstPlayId==sbId or firstPlayId==bbId or firstPlayId==-1:
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# myStealAttemptChance=True
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# if positions[player]=='S':
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# if firstPfRaiserId==player_ids[player] \
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# and (firstPfCallByNo==-1 or firstPfCallByNo>firstPfRaiseByNo):
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# myStealAttempted=True
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# myStealAttemptChance=True
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# if firstPlayId==sbId or firstPlayId==bbId or firstPlayId==-1:
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# myStealAttemptChance=True
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# if positions[player]=='B':
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# pass
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#
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# if myStealAttempted:
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# someoneStole=True
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#
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#
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# #calculate saw* values
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# isAllIn = False
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# if any(i for i in allIns[0][player]):
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# isAllIn = True
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# if (len(action_types[1][player])>0 or isAllIn):
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# myStreet1Seen = True
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#
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# if any(i for i in allIns[1][player]):
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# isAllIn = True
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# if (len(action_types[2][player])>0 or isAllIn):
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# myStreet2Seen = True
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#
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# if any(i for i in allIns[2][player]):
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# isAllIn = True
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# if (len(action_types[3][player])>0 or isAllIn):
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# myStreet3Seen = True
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#
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# #print "base:", base
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# if base=="hold":
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# mySawShowdown = True
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# if any(actiontype == "fold" for actiontype in action_types[3][player]):
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# mySawShowdown = False
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# else:
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# #print "in else"
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# if any(i for i in allIns[3][player]):
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# isAllIn = True
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# if (len(action_types[4][player])>0 or isAllIn):
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# #print "in if"
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# myStreet4Seen = True
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#
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# mySawShowdown = True
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# if any(actiontype == "fold" for actiontype in action_types[4][player]):
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# mySawShowdown = False
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#
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# if myStreet1Seen:
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# result['playersAtStreet1'] += 1
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# if myStreet2Seen:
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# result['playersAtStreet2'] += 1
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# if myStreet3Seen:
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# result['playersAtStreet3'] += 1
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# if myStreet4Seen:
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# result['playersAtStreet4'] += 1
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# if mySawShowdown:
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# result['playersAtShowdown'] += 1
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#
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# #flop stuff
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# street=1
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# if myStreet1Seen:
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# if any(actiontype == "bet" for actiontype in action_types[street][player]):
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# myStreet1Aggr = True
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#
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# myStreet1Calls = action_types[street][player].count('call')
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# myStreet1Bets = action_types[street][player].count('bet')
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# # street1Raises = action_types[street][player].count('raise') bet count includes raises for now
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# result['street1Raises'] += myStreet1Bets
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#
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# for otherPlayer in xrange(len(player_ids)):
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# if player==otherPlayer:
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# pass
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# else:
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# for countOther in xrange(len(action_types[street][otherPlayer])):
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# if action_types[street][otherPlayer][countOther]=="bet":
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# myOtherRaisedStreet1=True
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# for countOtherFold in xrange(len(action_types[street][player])):
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# if action_types[street][player][countOtherFold]=="fold":
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# myFoldToOtherRaisedStreet1=True
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#
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# #turn stuff - copy of flop with different vars
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# street=2
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# if myStreet2Seen:
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# if any(actiontype == "bet" for actiontype in action_types[street][player]):
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# myStreet2Aggr = True
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#
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# myStreet2Calls = action_types[street][player].count('call')
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# myStreet2Bets = action_types[street][player].count('bet')
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# # street2Raises = action_types[street][player].count('raise') bet count includes raises for now
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# result['street2Raises'] += myStreet2Bets
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#
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# for otherPlayer in xrange(len(player_ids)):
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# if player==otherPlayer:
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# pass
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# else:
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# for countOther in xrange(len(action_types[street][otherPlayer])):
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# if action_types[street][otherPlayer][countOther]=="bet":
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# myOtherRaisedStreet2=True
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# for countOtherFold in xrange(len(action_types[street][player])):
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# if action_types[street][player][countOtherFold]=="fold":
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# myFoldToOtherRaisedStreet2=True
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#
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# #river stuff - copy of flop with different vars
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# street=3
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# if myStreet3Seen:
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# if any(actiontype == "bet" for actiontype in action_types[street][player]):
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# myStreet3Aggr = True
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#
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# myStreet3Calls = action_types[street][player].count('call')
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# myStreet3Bets = action_types[street][player].count('bet')
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# # street3Raises = action_types[street][player].count('raise') bet count includes raises for now
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# result['street3Raises'] += myStreet3Bets
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#
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# for otherPlayer in xrange(len(player_ids)):
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# if player==otherPlayer:
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# pass
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# else:
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# for countOther in xrange(len(action_types[street][otherPlayer])):
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# if action_types[street][otherPlayer][countOther]=="bet":
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# myOtherRaisedStreet3=True
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# for countOtherFold in xrange(len(action_types[street][player])):
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# if action_types[street][player][countOtherFold]=="fold":
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# myFoldToOtherRaisedStreet3=True
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#
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# #stud river stuff - copy of flop with different vars
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# street=4
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# if myStreet4Seen:
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# if any(actiontype == "bet" for actiontype in action_types[street][player]):
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# myStreet4Aggr=True
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#
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# myStreet4Calls = action_types[street][player].count('call')
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# myStreet4Bets = action_types[street][player].count('bet')
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# # street4Raises = action_types[street][player].count('raise') bet count includes raises for now
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# result['street4Raises'] += myStreet4Bets
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#
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# for otherPlayer in xrange(len(player_ids)):
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# if player==otherPlayer:
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# pass
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# else:
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# for countOther in xrange(len(action_types[street][otherPlayer])):
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# if action_types[street][otherPlayer][countOther]=="bet":
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# myOtherRaisedStreet4=True
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# for countOtherFold in xrange(len(action_types[street][player])):
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# if action_types[street][player][countOtherFold]=="fold":
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# myFoldToOtherRaisedStreet4=True
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#
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# if winnings[player] != 0:
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# if myStreet1Seen:
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# myWonWhenSeenStreet1 = winnings[player] / float(totalWinnings)
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# if mySawShowdown:
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# myWonAtSD=myWonWhenSeenStreet1
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#
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# #add each value to the appropriate array
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# street0VPI.append(myStreet0VPI)
|
|
# street0Aggr.append(myStreet0Aggr)
|
|
# street0_3BChance.append(myStreet0_3BChance)
|
|
# street0_3BDone.append(myStreet0_3BDone)
|
|
# street1Seen.append(myStreet1Seen)
|
|
# street2Seen.append(myStreet2Seen)
|
|
# street3Seen.append(myStreet3Seen)
|
|
# street4Seen.append(myStreet4Seen)
|
|
# sawShowdown.append(mySawShowdown)
|
|
# street1Aggr.append(myStreet1Aggr)
|
|
# street2Aggr.append(myStreet2Aggr)
|
|
# street3Aggr.append(myStreet3Aggr)
|
|
# street4Aggr.append(myStreet4Aggr)
|
|
# otherRaisedStreet1.append(myOtherRaisedStreet1)
|
|
# otherRaisedStreet2.append(myOtherRaisedStreet2)
|
|
# otherRaisedStreet3.append(myOtherRaisedStreet3)
|
|
# otherRaisedStreet4.append(myOtherRaisedStreet4)
|
|
# foldToOtherRaisedStreet1.append(myFoldToOtherRaisedStreet1)
|
|
# foldToOtherRaisedStreet2.append(myFoldToOtherRaisedStreet2)
|
|
# foldToOtherRaisedStreet3.append(myFoldToOtherRaisedStreet3)
|
|
# foldToOtherRaisedStreet4.append(myFoldToOtherRaisedStreet4)
|
|
# wonWhenSeenStreet1.append(myWonWhenSeenStreet1)
|
|
# wonAtSD.append(myWonAtSD)
|
|
# stealAttemptChance.append(myStealAttemptChance)
|
|
# stealAttempted.append(myStealAttempted)
|
|
# if base=="hold":
|
|
# pos=positions[player]
|
|
# if pos=='B':
|
|
# hudDataPositions.append('B')
|
|
# elif pos=='S':
|
|
# hudDataPositions.append('S')
|
|
# elif pos==0:
|
|
# hudDataPositions.append('D')
|
|
# elif pos==1:
|
|
# hudDataPositions.append('C')
|
|
# elif pos>=2 and pos<=4:
|
|
# hudDataPositions.append('M')
|
|
# elif pos>=5 and pos<=8:
|
|
# hudDataPositions.append('E')
|
|
# ### RHH Added this elif to handle being a dead hand before the BB (pos==9)
|
|
# elif pos==9:
|
|
# hudDataPositions.append('X')
|
|
# else:
|
|
# raise FpdbError("invalid position")
|
|
# elif base=="stud":
|
|
# #todo: stud positions and steals
|
|
# pass
|
|
#
|
|
# street0Calls.append(myStreet0Calls)
|
|
# street1Calls.append(myStreet1Calls)
|
|
# street2Calls.append(myStreet2Calls)
|
|
# street3Calls.append(myStreet3Calls)
|
|
# street4Calls.append(myStreet4Calls)
|
|
# street0Bets.append(myStreet0Bets)
|
|
# street1Bets.append(myStreet1Bets)
|
|
# street2Bets.append(myStreet2Bets)
|
|
# street3Bets.append(myStreet3Bets)
|
|
# street4Bets.append(myStreet4Bets)
|
|
# #street0Raises.append(myStreet0Raises)
|
|
# #street1Raises.append(myStreet1Raises)
|
|
# #street2Raises.append(myStreet2Raises)
|
|
# #street3Raises.append(myStreet3Raises)
|
|
# #street4Raises.append(myStreet4Raises)
|
|
#
|
|
# #add each array to the to-be-returned dictionary
|
|
# result['street0VPI']=street0VPI
|
|
# result['street0Aggr']=street0Aggr
|
|
# result['street0_3BChance']=street0_3BChance
|
|
# result['street0_3BDone']=street0_3BDone
|
|
# result['street1Seen']=street1Seen
|
|
# result['street2Seen']=street2Seen
|
|
# result['street3Seen']=street3Seen
|
|
# result['street4Seen']=street4Seen
|
|
# result['sawShowdown']=sawShowdown
|
|
#
|
|
# result['street1Aggr']=street1Aggr
|
|
# result['otherRaisedStreet1']=otherRaisedStreet1
|
|
# result['foldToOtherRaisedStreet1']=foldToOtherRaisedStreet1
|
|
# result['street2Aggr']=street2Aggr
|
|
# result['otherRaisedStreet2']=otherRaisedStreet2
|
|
# result['foldToOtherRaisedStreet2']=foldToOtherRaisedStreet2
|
|
# result['street3Aggr']=street3Aggr
|
|
# result['otherRaisedStreet3']=otherRaisedStreet3
|
|
# result['foldToOtherRaisedStreet3']=foldToOtherRaisedStreet3
|
|
# result['street4Aggr']=street4Aggr
|
|
# result['otherRaisedStreet4']=otherRaisedStreet4
|
|
# result['foldToOtherRaisedStreet4']=foldToOtherRaisedStreet4
|
|
# result['wonWhenSeenStreet1']=wonWhenSeenStreet1
|
|
# result['wonAtSD']=wonAtSD
|
|
# result['stealAttemptChance']=stealAttemptChance
|
|
# result['stealAttempted']=stealAttempted
|
|
# result['street0Calls']=street0Calls
|
|
# result['street1Calls']=street1Calls
|
|
# result['street2Calls']=street2Calls
|
|
# result['street3Calls']=street3Calls
|
|
# result['street4Calls']=street4Calls
|
|
# result['street0Bets']=street0Bets
|
|
# result['street1Bets']=street1Bets
|
|
# result['street2Bets']=street2Bets
|
|
# result['street3Bets']=street3Bets
|
|
# result['street4Bets']=street4Bets
|
|
# #result['street0Raises']=street0Raises
|
|
# #result['street1Raises']=street1Raises
|
|
# #result['street2Raises']=street2Raises
|
|
# #result['street3Raises']=street3Raises
|
|
# #result['street4Raises']=street4Raises
|
|
#
|
|
# #now the various steal values
|
|
# foldBbToStealChance=[]
|
|
# foldedBbToSteal=[]
|
|
# foldSbToStealChance=[]
|
|
# foldedSbToSteal=[]
|
|
# for player in xrange(len(player_ids)):
|
|
# myFoldBbToStealChance=False
|
|
# myFoldedBbToSteal=False
|
|
# myFoldSbToStealChance=False
|
|
# myFoldedSbToSteal=False
|
|
#
|
|
# if base=="hold":
|
|
# if someoneStole and (positions[player]=='B' or positions[player]=='S') and firstPfRaiserId!=player_ids[player]:
|
|
# street=0
|
|
# for count in xrange(len(action_types[street][player])):#individual actions
|
|
# if positions[player]=='B':
|
|
# myFoldBbToStealChance=True
|
|
# if action_types[street][player][count]=="fold":
|
|
# myFoldedBbToSteal=True
|
|
# if positions[player]=='S':
|
|
# myFoldSbToStealChance=True
|
|
# if action_types[street][player][count]=="fold":
|
|
# myFoldedSbToSteal=True
|
|
#
|
|
#
|
|
# foldBbToStealChance.append(myFoldBbToStealChance)
|
|
# foldedBbToSteal.append(myFoldedBbToSteal)
|
|
# foldSbToStealChance.append(myFoldSbToStealChance)
|
|
# foldedSbToSteal.append(myFoldedSbToSteal)
|
|
# result['foldBbToStealChance']=foldBbToStealChance
|
|
# result['foldedBbToSteal']=foldedBbToSteal
|
|
# result['foldSbToStealChance']=foldSbToStealChance
|
|
# result['foldedSbToSteal']=foldedSbToSteal
|
|
#
|
|
# #now CB
|
|
# street1CBChance=[]
|
|
# street1CBDone=[]
|
|
# didStreet1CB=[]
|
|
# for player in xrange(len(player_ids)):
|
|
# myStreet1CBChance=False
|
|
# myStreet1CBDone=False
|
|
#
|
|
# if street0VPI[player]:
|
|
# myStreet1CBChance=True
|
|
# if street1Aggr[player]:
|
|
# myStreet1CBDone=True
|
|
# didStreet1CB.append(player_ids[player])
|
|
#
|
|
# street1CBChance.append(myStreet1CBChance)
|
|
# street1CBDone.append(myStreet1CBDone)
|
|
# result['street1CBChance']=street1CBChance
|
|
# result['street1CBDone']=street1CBDone
|
|
#
|
|
# #now 2B
|
|
# street2CBChance=[]
|
|
# street2CBDone=[]
|
|
# didStreet2CB=[]
|
|
# for player in xrange(len(player_ids)):
|
|
# myStreet2CBChance=False
|
|
# myStreet2CBDone=False
|
|
#
|
|
# if street1CBDone[player]:
|
|
# myStreet2CBChance=True
|
|
# if street2Aggr[player]:
|
|
# myStreet2CBDone=True
|
|
# didStreet2CB.append(player_ids[player])
|
|
#
|
|
# street2CBChance.append(myStreet2CBChance)
|
|
# street2CBDone.append(myStreet2CBDone)
|
|
# result['street2CBChance']=street2CBChance
|
|
# result['street2CBDone']=street2CBDone
|
|
#
|
|
# #now 3B
|
|
# street3CBChance=[]
|
|
# street3CBDone=[]
|
|
# didStreet3CB=[]
|
|
# for player in xrange(len(player_ids)):
|
|
# myStreet3CBChance=False
|
|
# myStreet3CBDone=False
|
|
#
|
|
# if street2CBDone[player]:
|
|
# myStreet3CBChance=True
|
|
# if street3Aggr[player]:
|
|
# myStreet3CBDone=True
|
|
# didStreet3CB.append(player_ids[player])
|
|
#
|
|
# street3CBChance.append(myStreet3CBChance)
|
|
# street3CBDone.append(myStreet3CBDone)
|
|
# result['street3CBChance']=street3CBChance
|
|
# result['street3CBDone']=street3CBDone
|
|
#
|
|
# #and 4B
|
|
# street4CBChance=[]
|
|
# street4CBDone=[]
|
|
# didStreet4CB=[]
|
|
# for player in xrange(len(player_ids)):
|
|
# myStreet4CBChance=False
|
|
# myStreet4CBDone=False
|
|
#
|
|
# if street3CBDone[player]:
|
|
# myStreet4CBChance=True
|
|
# if street4Aggr[player]:
|
|
# myStreet4CBDone=True
|
|
# didStreet4CB.append(player_ids[player])
|
|
#
|
|
# street4CBChance.append(myStreet4CBChance)
|
|
# street4CBDone.append(myStreet4CBDone)
|
|
# result['street4CBChance']=street4CBChance
|
|
# result['street4CBDone']=street4CBDone
|
|
#
|
|
#
|
|
# result['position']=hudDataPositions
|
|
#
|
|
# foldToStreet1CBChance=[]
|
|
# foldToStreet1CBDone=[]
|
|
# foldToStreet2CBChance=[]
|
|
# foldToStreet2CBDone=[]
|
|
# foldToStreet3CBChance=[]
|
|
# foldToStreet3CBDone=[]
|
|
# foldToStreet4CBChance=[]
|
|
# foldToStreet4CBDone=[]
|
|
#
|
|
# for player in xrange(len(player_ids)):
|
|
# myFoldToStreet1CBChance=False
|
|
# myFoldToStreet1CBDone=False
|
|
# foldToStreet1CBChance.append(myFoldToStreet1CBChance)
|
|
# foldToStreet1CBDone.append(myFoldToStreet1CBDone)
|
|
#
|
|
# myFoldToStreet2CBChance=False
|
|
# myFoldToStreet2CBDone=False
|
|
# foldToStreet2CBChance.append(myFoldToStreet2CBChance)
|
|
# foldToStreet2CBDone.append(myFoldToStreet2CBDone)
|
|
#
|
|
# myFoldToStreet3CBChance=False
|
|
# myFoldToStreet3CBDone=False
|
|
# foldToStreet3CBChance.append(myFoldToStreet3CBChance)
|
|
# foldToStreet3CBDone.append(myFoldToStreet3CBDone)
|
|
#
|
|
# myFoldToStreet4CBChance=False
|
|
# myFoldToStreet4CBDone=False
|
|
# foldToStreet4CBChance.append(myFoldToStreet4CBChance)
|
|
# foldToStreet4CBDone.append(myFoldToStreet4CBDone)
|
|
#
|
|
# if len(didStreet1CB)>=1:
|
|
# generateFoldToCB(1, player_ids, didStreet1CB, street1CBDone, foldToStreet1CBChance, foldToStreet1CBDone, actionTypeByNo)
|
|
#
|
|
# if len(didStreet2CB)>=1:
|
|
# generateFoldToCB(2, player_ids, didStreet2CB, street2CBDone, foldToStreet2CBChance, foldToStreet2CBDone, actionTypeByNo)
|
|
#
|
|
# if len(didStreet3CB)>=1:
|
|
# generateFoldToCB(3, player_ids, didStreet3CB, street3CBDone, foldToStreet3CBChance, foldToStreet3CBDone, actionTypeByNo)
|
|
#
|
|
# if len(didStreet4CB)>=1:
|
|
# generateFoldToCB(4, player_ids, didStreet4CB, street4CBDone, foldToStreet4CBChance, foldToStreet4CBDone, actionTypeByNo)
|
|
#
|
|
# result['foldToStreet1CBChance']=foldToStreet1CBChance
|
|
# result['foldToStreet1CBDone']=foldToStreet1CBDone
|
|
# result['foldToStreet2CBChance']=foldToStreet2CBChance
|
|
# result['foldToStreet2CBDone']=foldToStreet2CBDone
|
|
# result['foldToStreet3CBChance']=foldToStreet3CBChance
|
|
# result['foldToStreet3CBDone']=foldToStreet3CBDone
|
|
# result['foldToStreet4CBChance']=foldToStreet4CBChance
|
|
# result['foldToStreet4CBDone']=foldToStreet4CBDone
|
|
#
|
|
#
|
|
# totalProfit=[]
|
|
#
|
|
# street1CheckCallRaiseChance=[]
|
|
# street1CheckCallRaiseDone=[]
|
|
# street2CheckCallRaiseChance=[]
|
|
# street2CheckCallRaiseDone=[]
|
|
# street3CheckCallRaiseChance=[]
|
|
# street3CheckCallRaiseDone=[]
|
|
# street4CheckCallRaiseChance=[]
|
|
# street4CheckCallRaiseDone=[]
|
|
# #print "b4 totprof calc, len(playerIds)=", len(player_ids)
|
|
# for pl in xrange(len(player_ids)):
|
|
# #print "pl=", pl
|
|
# myTotalProfit=winnings[pl] # still need to deduct other costs
|
|
# if antes:
|
|
# myTotalProfit=winnings[pl] - antes[pl]
|
|
# for i in xrange(len(actionTypes)): #iterate through streets
|
|
# #for j in xrange(len(actionTypes[i])): #iterate through names (using pl loop above)
|
|
# for k in xrange(len(actionTypes[i][pl])): #iterate through individual actions of that player on that street
|
|
# myTotalProfit -= actionAmounts[i][pl][k]
|
|
#
|
|
# myStreet1CheckCallRaiseChance=False
|
|
# myStreet1CheckCallRaiseDone=False
|
|
# myStreet2CheckCallRaiseChance=False
|
|
# myStreet2CheckCallRaiseDone=False
|
|
# myStreet3CheckCallRaiseChance=False
|
|
# myStreet3CheckCallRaiseDone=False
|
|
# myStreet4CheckCallRaiseChance=False
|
|
# myStreet4CheckCallRaiseDone=False
|
|
#
|
|
# #print "myTotalProfit=", myTotalProfit
|
|
# totalProfit.append(myTotalProfit)
|
|
# #print "totalProfit[]=", totalProfit
|
|
#
|
|
# street1CheckCallRaiseChance.append(myStreet1CheckCallRaiseChance)
|
|
# street1CheckCallRaiseDone.append(myStreet1CheckCallRaiseDone)
|
|
# street2CheckCallRaiseChance.append(myStreet2CheckCallRaiseChance)
|
|
# street2CheckCallRaiseDone.append(myStreet2CheckCallRaiseDone)
|
|
# street3CheckCallRaiseChance.append(myStreet3CheckCallRaiseChance)
|
|
# street3CheckCallRaiseDone.append(myStreet3CheckCallRaiseDone)
|
|
# street4CheckCallRaiseChance.append(myStreet4CheckCallRaiseChance)
|
|
# street4CheckCallRaiseDone.append(myStreet4CheckCallRaiseDone)
|
|
#
|
|
# result['totalProfit']=totalProfit
|
|
# #print "res[totalProfit]=", result['totalProfit']
|
|
#
|
|
# result['street1CheckCallRaiseChance']=street1CheckCallRaiseChance
|
|
# result['street1CheckCallRaiseDone']=street1CheckCallRaiseDone
|
|
# result['street2CheckCallRaiseChance']=street2CheckCallRaiseChance
|
|
# result['street2CheckCallRaiseDone']=street2CheckCallRaiseDone
|
|
# result['street3CheckCallRaiseChance']=street3CheckCallRaiseChance
|
|
# result['street3CheckCallRaiseDone']=street3CheckCallRaiseDone
|
|
# result['street4CheckCallRaiseChance']=street4CheckCallRaiseChance
|
|
# result['street4CheckCallRaiseDone']=street4CheckCallRaiseDone
|
|
# return result
|
|
# #end def generateHudCacheData
|
|
pass
|
|
|
|
def vpip(self, hand):
|
|
vpipers = set()
|
|
for act in hand.actions[hand.actionStreets[1]]:
|
|
if act[1] in ('calls','bets', 'raises'):
|
|
vpipers.add(act[0])
|
|
|
|
self.hands['playersVpi'] = len(vpipers)
|
|
|
|
for player in hand.players:
|
|
if player[1] in vpipers:
|
|
self.handsplayers[player[1]]['vpip'] = True
|
|
else:
|
|
self.handsplayers[player[1]]['vpip'] = False
|
|
|
|
def playersAtStreetX(self, hand):
|
|
""" playersAtStreet1 SMALLINT NOT NULL, /* num of players seeing flop/street4/draw1 */"""
|
|
# self.actions[street] is a list of all actions in a tuple, contining the player name first
|
|
# [ (player, action, ....), (player2, action, ...) ]
|
|
# The number of unique players in the list per street gives the value for playersAtStreetXXX
|
|
|
|
self.hands['playersAtStreet1'] = 0
|
|
self.hands['playersAtStreet2'] = 0
|
|
self.hands['playersAtStreet3'] = 0
|
|
self.hands['playersAtStreet4'] = 0
|
|
self.hands['playersAtShowdown'] = 0
|
|
|
|
for street in hand.actionStreets:
|
|
actors = {}
|
|
for act in hand.actions[street]:
|
|
actors[act[0]] = 1
|
|
#print "len(actors.keys(%s)): %s" % ( street, len(actors.keys()))
|
|
if hand.gametype['base'] in ("hold"):
|
|
if street in "FLOP": self.hands['playersAtStreet1'] = len(actors.keys())
|
|
elif street in "TURN": self.hands['playersAtStreet2'] = len(actors.keys())
|
|
elif street in "RIVER": self.hands['playersAtStreet3'] = len(actors.keys())
|
|
elif hand.gametype['base'] in ("stud"):
|
|
if street in "FOURTH": self.hands['playersAtStreet1'] = len(actors.keys())
|
|
elif street in "FIFTH": self.hands['playersAtStreet2'] = len(actors.keys())
|
|
elif street in "SIXTH": self.hands['playersAtStreet3'] = len(actors.keys())
|
|
elif street in "SEVENTH": self.hands['playersAtStreet4'] = len(actors.keys())
|
|
elif hand.gametype['base'] in ("draw"):
|
|
if street in "DRAWONE": self.hands['playersAtStreet1'] = len(actors.keys())
|
|
elif street in "DRAWTWO": self.hands['playersAtStreet2'] = len(actors.keys())
|
|
elif street in "DRAWTHREE": self.hands['playersAtStreet3'] = len(actors.keys())
|
|
|
|
#Need playersAtShowdown
|
|
|
|
|
|
def streetXRaises(self, hand):
|
|
# self.actions[street] is a list of all actions in a tuple, contining the action as the second element
|
|
# [ (player, action, ....), (player2, action, ...) ]
|
|
# No idea what this value is actually supposed to be
|
|
# In theory its "num small bets paid to see flop/street4, including blind" which makes sense for limit. Not so useful for nl
|
|
# Leaving empty for the moment,
|
|
self.hands['street0Raises'] = 0 # /* num small bets paid to see flop/street4, including blind */
|
|
self.hands['street1Raises'] = 0 # /* num small bets paid to see turn/street5 */
|
|
self.hands['street2Raises'] = 0 # /* num big bets paid to see river/street6 */
|
|
self.hands['street3Raises'] = 0 # /* num big bets paid to see sd/street7 */
|
|
self.hands['street4Raises'] = 0 # /* num big bets paid to see showdown */
|
|
|
|
def aggr(self, hand, i):
|
|
aggrers = set()
|
|
for act in hand.actions[hand.actionStreets[i]]:
|
|
if act[1] in ('completes', 'raises'):
|
|
aggrers.add(act[0])
|
|
|
|
for player in hand.players:
|
|
if player[1] in aggrers:
|
|
self.handsplayers[player[1]]['street%sAggr' % i] = True
|
|
else:
|
|
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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