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Merge branch 'master' of git://git.assembla.com/fpdboz.git

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eblade 2009-01-28 04:32:20 -05:00
commit 6095c95c33
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209
pyfpdb/BetfairToFpdb.py Executable file
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#!/usr/bin/env python
# -*- coding: iso-8859-15 -*-
# Copyright 2008, Carl Gherardi
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
########################################################################
import sys
import Configuration
from HandHistoryConverter import *
# Betfair HH format
#***** Betfair Poker Hand History for Game 466894418 *****
#NL $0.02/$0.04 Texas Hold'em - Tuesday, January 13, 18:58:55 GMT 2009
#Table Rookie 102 6-max (Real Money)
#Seat 1 is the button
#Total number of active players : 3
#Seat 1: wilco16 ( $5.12 )
#Seat 2: fredo2003 ( $6.12 )
#Seat 4: Didlidaa ( $3.61 )
#Seat 5: Heck ( $4.47 )
#Seat 6: MoDDe200009 ( $0 )
#Didlidaa posts big blind [$0.04]
#** Dealing down cards **
#Heck calls [$0.04]
#wilco16 calls [$0.04]
#Didlidaa checks
#** Dealing Flop ** [ 2c, Kd, Jh ]
#Didlidaa checks
#Heck checks
#wilco16 checks
#** Dealing Turn ** [ 5c ]
#Didlidaa checks
#Heck bets [$0.12]
#wilco16 folds
#Didlidaa calls [$0.12]
#** Dealing River ** [ Kc ]
#Didlidaa checks
#Heck bets [$0.18]
#Didlidaa calls [$0.18]
#** Showdown **
#Heck shows [ Qs, 6c ] a pair of Kings
#Didlidaa shows [ Ad, 5h ] two pair, Kings and Fives
#** Hand Conclusion **
#Didlidaa wins $0.69 from main pot with two pair, Kings and Fives
#************ Game 466894418 ends ************
class Betfair(HandHistoryConverter):
def __init__(self, config, file):
print "Initialising Betfair converter class"
HandHistoryConverter.__init__(self, config, file, sitename="Betfair") # Call super class init.
self.sitename = "Betfair"
self.setFileType("text", "cp1252")
self.rexx.setGameInfoRegex('.*Blinds \$?(?P<SB>[.0-9]+)/\$?(?P<BB>[.0-9]+)')
self.rexx.setSplitHandRegex('\n\n+')
self.rexx.setHandInfoRegex('.*#(?P<HID>[0-9]+)\n.*\nBlinds \$?(?P<SB>[.0-9]+)/\$?(?P<BB>[.0-9]+) (?P<GAMETYPE>.*) - (?P<DATETIME>\d\d\d\d/\d\d/\d\d - \d\d:\d\d:\d\d)\nTable (?P<TABLE>[ a-zA-Z]+)\nSeat (?P<BUTTON>[0-9]+)')
self.rexx.setPlayerInfoRegex('Seat (?P<SEAT>[0-9]+): (?P<PNAME>.*) \(\s+(\$ (?P<CASH>[.0-9]+) USD|new player|All-in) \)')
self.rexx.setPostSbRegex('.*\n(?P<PNAME>.*): posts small blind \[\$? (?P<SB>[.0-9]+)')
self.rexx.setPostBbRegex('.*\n(?P<PNAME>.*): posts big blind \[\$? (?P<BB>[.0-9]+)')
self.rexx.setPostBothRegex('.*\n(?P<PNAME>.*): posts small \& big blinds \[\$? (?P<SBBB>[.0-9]+)')
self.rexx.setHeroCardsRegex('.*\nDealt\sto\s(?P<PNAME>.*)\s\[ (?P<CARDS>.*) \]')
self.rexx.setActionStepRegex('.*\n(?P<PNAME>.*)(?P<ATYPE>: bets| checks| raises| calls| folds)(\s\[\$ (?P<BET>[.\d]+) (USD|EUR)\])?')
self.rexx.setShowdownActionRegex('.*\n(?P<PNAME>.*) shows \[ (?P<CARDS>.*) \]')
self.rexx.setCollectPotRegex('.*\n(?P<PNAME>.*) wins \$ (?P<POT>[.\d]+) (USD|EUR)(.*?\[ (?P<CARDS>.*?) \])?')
#self.rexx.setCollectPotRegex('.*\n(?P<PNAME>.*) wins \$ (?P<POT>[.\d]+) USD(.*\[ (?P<CARDS>) \S\S, \S\S, \S\S, \S\S, \S\S \])?')
self.rexx.sits_out_re = re.compile('(?P<PNAME>.*) sits out')
self.rexx.compileRegexes()
def readSupportedGames(self):
pass
def determineGameType(self):
# Cheating with this regex, only support nlhe at the moment
gametype = ["ring", "hold", "nl"]
m = self.rexx.game_info_re.search(self.obs)
gametype = gametype + [m.group('SB')]
gametype = gametype + [m.group('BB')]
return gametype
def readHandInfo(self, hand):
m = self.rexx.hand_info_re.search(hand.string)
hand.handid = m.group('HID')
hand.tablename = m.group('TABLE')
# These work, but the info is already in the Hand class - should be used for tourneys though.
# m.group('SB')
# m.group('BB')
# m.group('GAMETYPE')
# Betfair HH files in GMT
# Stars format (Nov 10 2008): 2008/11/07 12:38:49 CET [2008/11/07 7:38:49 ET]
# or : 2008/11/07 12:38:49 ET
# Not getting it in my HH files yet, so using
# 2008/11/10 3:58:52 ET
#TODO: Do conversion from GMT to ET
#TODO: Need some date functions to convert to different timezones (Date::Manip for perl rocked for this)
hand.starttime = time.strptime(m.group('DATETIME'), "%Y/%m/%d - %H:%M:%S")
hand.buttonpos = int(m.group('BUTTON'))
def readPlayerStacks(self, hand):
m = self.rexx.player_info_re.finditer(hand.string)
players = []
for a in m:
hand.addPlayer(int(a.group('SEAT')), a.group('PNAME'), a.group('CASH'))
def markStreets(self, hand):
# PREFLOP = ** Dealing down cards **
# This re fails if, say, river is missing; then we don't get the ** that starts the river.
#m = re.search('(\*\* Dealing down cards \*\*\n)(?P<PREFLOP>.*?\n\*\*)?( Dealing Flop \*\* \[ (?P<FLOP1>\S\S), (?P<FLOP2>\S\S), (?P<FLOP3>\S\S) \])?(?P<FLOP>.*?\*\*)?( Dealing Turn \*\* \[ (?P<TURN1>\S\S) \])?(?P<TURN>.*?\*\*)?( Dealing River \*\* \[ (?P<RIVER1>\S\S) \])?(?P<RIVER>.*)', hand.string,re.DOTALL)
m = re.search(r"\*\* Dealing down cards \*\*(?P<PREFLOP>.+(?=\*\* Dealing Flop \*\*)|.+)"
r"(\*\* Dealing Flop \*\*(?P<FLOP> \[ \S\S, \S\S, \S\S \].+(?=\*\* Dealing Turn \*\*)|.+))?"
r"(\*\* Dealing Turn \*\*(?P<TURN> \[ \S\S \].+(?=\*\* Dealing River \*\*)|.+))?"
r"(\*\* Dealing River \*\*(?P<RIVER> \[ \S\S \].+))?", hand.string,re.DOTALL)
hand.addStreets(m)
def readCommunityCards(self, hand, street): # street has been matched by markStreets, so exists in this hand
self.rexx.board_re = re.compile(r"\[ (?P<CARDS>.+) \]")
print hand.streets.group(street)
if street in ('FLOP','TURN','RIVER'): # a list of streets which get dealt community cards (i.e. all but PREFLOP)
m = self.rexx.board_re.search(hand.streets.group(street))
hand.setCommunityCards(street, m.group('CARDS').split(', '))
def readBlinds(self, hand):
try:
m = self.rexx.small_blind_re.search(hand.string)
hand.addBlind(m.group('PNAME'), 'small blind', m.group('SB'))
except: # no small blind
hand.addBlind(None, None, None)
for a in self.rexx.big_blind_re.finditer(hand.string):
hand.addBlind(a.group('PNAME'), 'big blind', a.group('BB'))
for a in self.rexx.both_blinds_re.finditer(hand.string):
hand.addBlind(a.group('PNAME'), 'small & big blinds', a.group('SBBB'))
def readHeroCards(self, hand):
m = self.rexx.hero_cards_re.search(hand.string)
if(m == None):
#Not involved in hand
hand.involved = False
else:
hand.hero = m.group('PNAME')
# "2c, qh" -> set(["2c","qc"])
# Also works with Omaha hands.
cards = m.group('CARDS')
cards = set(cards.split(', '))
hand.addHoleCards(cards, m.group('PNAME'))
def readAction(self, hand, street):
m = self.rexx.action_re.finditer(hand.streets.group(street))
for action in m:
if action.group('ATYPE') == ' raises':
hand.addCallandRaise( street, action.group('PNAME'), action.group('BET') )
elif action.group('ATYPE') == ' calls':
hand.addCall( street, action.group('PNAME'), action.group('BET') )
elif action.group('ATYPE') == ': bets':
hand.addBet( street, action.group('PNAME'), action.group('BET') )
elif action.group('ATYPE') == ' folds':
hand.addFold( street, action.group('PNAME'))
elif action.group('ATYPE') == ' checks':
hand.addCheck( street, action.group('PNAME'))
else:
print "DEBUG: unimplemented readAction: %s %s" %(action.group('PNAME'),action.group('ATYPE'),)
def readShowdownActions(self, hand):
for shows in self.rexx.showdown_action_re.finditer(hand.string):
cards = shows.group('CARDS')
cards = set(cards.split(', '))
hand.addShownCards(cards, shows.group('PNAME'))
def readCollectPot(self,hand):
for m in self.rexx.collect_pot_re.finditer(hand.string):
hand.addCollectPot(player=m.group('PNAME'),pot=m.group('POT'))
def readShownCards(self,hand):
for m in self.rexx.collect_pot_re.finditer(hand.string):
if m.group('CARDS') is not None:
cards = m.group('CARDS')
cards = set(cards.split(', '))
hand.addShownCards(cards=None, player=m.group('PNAME'), holeandboard=cards)
if __name__ == "__main__":
c = Configuration.Config()
if len(sys.argv) == 1:
testfile = "regression-test-files/betfair/befair.02.04.txt"
else:
testfile = sys.argv[1]
e = Betfair(c, testfile)
e.processFile()
print str(e)

53
pyfpdb/GuiGraphViewer.py
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@ -282,13 +282,18 @@ class GuiGraphViewer (threading.Thread):
dia_chooser = gtk.FileChooserDialog(title="Please choose the directory you wish to export to:",
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL,gtk.RESPONSE_CANCEL,gtk.STOCK_OPEN,gtk.RESPONSE_OK))
#TODO: Suggest path and filename to start with
response = dia_chooser.run()
if response == gtk.RESPONSE_OK:
self.exportDir = dia_chooser.get_filename()
print "DEBUG: self.exportDir = %s" %(self.exportDir)
elif response == gtk.RESPONSE_CANCEL:
print 'Closed, no graph exported'
dia_chooser.destroy()
#TODO: Check to see if file exists
#NOTE: Dangerous - will happily overwrite any file we have write access too
self.fig.savefig(self.exportDir, format="png")
def __init__(self, db, settings, querylist, config, debug=True):
"""Constructor for GraphViewer"""
@ -368,29 +373,29 @@ class GuiGraphViewer (threading.Thread):
self.graphBox.show()
#################################
self.db.cursor.execute("""select UNIX_TIMESTAMP(handStart) as time, id from Hands ORDER BY time""")
THRESHOLD = 1800
hands = self.db.cursor.fetchall()
times = map(lambda x:long(x[0]), hands)
handids = map(lambda x:int(x[1]), hands)
print "DEBUG: len(times) %s" %(len(times))
diffs = diff(times)
print "DEBUG: len(diffs) %s" %(len(diffs))
index = nonzero(diff(times) > THRESHOLD)
print "DEBUG: len(index[0]) %s" %(len(index[0]))
print "DEBUG: index %s" %(index)
print "DEBUG: index[0][0] %s" %(index[0][0])
total = 0
last_idx = 0
for i in range(len(index[0])):
print "Hands in session %4s: %4s Start: %s End: %s Total: %s" %(i, index[0][i] - last_idx, strftime("%d/%m/%Y %H:%M", localtime(times[last_idx])), strftime("%d/%m/%Y %H:%M", localtime(times[index[0][i]])), times[index[0][i]] - times[last_idx])
total = total + (index[0][i] - last_idx)
last_idx = index[0][i] + 1
print "Total: ", total
#
# self.db.cursor.execute("""select UNIX_TIMESTAMP(handStart) as time, id from Hands ORDER BY time""")
# THRESHOLD = 1800
# hands = self.db.cursor.fetchall()
#
# times = map(lambda x:long(x[0]), hands)
# handids = map(lambda x:int(x[1]), hands)
# print "DEBUG: len(times) %s" %(len(times))
# diffs = diff(times)
# print "DEBUG: len(diffs) %s" %(len(diffs))
# index = nonzero(diff(times) > THRESHOLD)
# print "DEBUG: len(index[0]) %s" %(len(index[0]))
# print "DEBUG: index %s" %(index)
# print "DEBUG: index[0][0] %s" %(index[0][0])
#
# total = 0
#
# last_idx = 0
# for i in range(len(index[0])):
# print "Hands in session %4s: %4s Start: %s End: %s Total: %s" %(i, index[0][i] - last_idx, strftime("%d/%m/%Y %H:%M", localtime(times[last_idx])), strftime("%d/%m/%Y %H:%M", localtime(times[index[0][i]])), times[index[0][i]] - times[last_idx])
# total = total + (index[0][i] - last_idx)
# last_idx = index[0][i] + 1
#
# print "Total: ", total
#################################