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main.py
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import random
import accessJSON
import copy
import sys
import json
#NEXT UPDATE -
#ADD NO-BALLS
#ADD BYES/LEGBYES
#SHOW NOT OUT IF CAME IN BUT DIDN'T BAT
#FIX BOWLING SELECTION
#If bowling rate is less than x then dont bowl
#IMPROVE BOWLER ROTATION
#If RRR is low in the last 10, team may falter, fix it
#designate 6 bowlers and bowl them in a shuffled
#see for localBattingOrder
#K Williamson bowling
#TRANSLATE RATING TO DEN AVG, OUT AVG, ETC.
#BIPUL SHARMA - OVERPOWERED AND SO ->
# - 1. MAKE SURE PLAYER HAS PLAYED X NUMBER OF GAMES OR ELSE DRIVE DOWN HIS RATINGS (such as avgs, dens, etc.) (!!!IMPORTANT)
# - 2. DO FOR BOTH BATTING & BOWLING SEPARATELY
#BAD PLAYERS GETTING GOOD SCORES DURING CHASE, SEE TO THAT (RELATED TO PREV ONE, REDUCE PLAYERS
# WHO HAVE PLAYED A FEW GAMES' 6s, 4s, RATE AND INCREASE OUT AVG AND 0s, 1s)
#CHECK IF PLAYER HAS PLAYED LESS THAN X NUMBER OF BALLS, OR BOWLED LESS THAN X NUMBER OF BALLS
#IF BAT RUNS 0, OR VERY LOW, CREATE FILLER WHICH IS VERY BAD FOR BATTING (highs 0s,1s, outavg, low 4s, 6s: see other
#tail-enders for reference)
#Triple not out
#not many 100s
#12-over rule
#too many dots (increase 1s & 2s, reduce 0s)
#too many all-outs
#Last 10 overs both innings very slow even when 1-2 wickets fall (too many wickets fall)
#weigh economy more, if eco is like 6 or 7, then bowl over a player with 1 wicket but 9 economy
#dont drag game too long if rrr < 9 in last 3-4 overs
#IMP
#12-17 over increase rate (1st innings) & (2nd innings too)
#Wickets (140s scores with 3 wickets in 1st innings - fix it (apply 2nd inn logic))
#FEATURES
#Commentary
#GUI
#Super overs
#Better rotation
#Venue
#Six distance
#Type of shot
#Match summaries
#i will ask different people for shot selection of players and then average them out while eliminating outliers
#Add option to add custom players by fabricating stats
#Screenshot (207) for pitch stats
#Focus more on pitches, attach pitches to venues, pitch detoriation
#performance affects all time stats
#LONGSHOTS
#Add ratings for players
#Player analysis by phases
from tabulate import tabulate
target = 1
innings1Batting = None
innings1Bowling = None
innings2Batting = None
innings2Bowling = None
innings1Balls = None
innings2Balls = None
innings1Runs = None
innings2Runs = None
winner = None
winMsg = None
innings1Battracker = None
innings2Battracker = None
innings1Bowltracker = None
innings2Bowltracker = None
innings1Log = []
innings2Log = []
tossMsg = None
def doToss(pace, spin, outfield, secondInnDew, pitchDetoriate, typeOfPitch, team1, team2):
global tossMsg
battingLikely = 0.45
if(secondInnDew):
battingLikely = battingLikely - random.uniform(0.09, 0.2)
if(pitchDetoriate):
battingLikely = battingLikely + random.uniform(0.09, 0.2)
if(typeOfPitch == "dead"):
battingLikely = battingLikely - random.uniform(0.05, 0.15)
if(typeOfPitch == "green"):
battingLikely = battingLikely + random.uniform(0.05, 0.15)
if(typeOfPitch == "dusty"):
battingLikely = battingLikely + random.uniform(0.04, 0.1)
toss = random.randint(0, 1)
# print(toss, battingLikely)
if(toss == 0):
outcome = random.uniform(0, 1)
if(outcome > battingLikely):
print(team1, "won the toss and chose to field")
tossMsg = team1 + " won the toss and chose to field"
return(1)
else:
print(team1, "won the toss and chose to bat")
tossMsg = team1 + " won the toss and chose to bat"
return(0)
else:
outcome = random.uniform(0, 1)
if(outcome > battingLikely):
print(team2, "won the toss and chose to field")
tossMsg = team2 + " won the toss and chose to bat"
return(0)
else:
print(team2, "won the toss and chose to bat")
tossMsg = team2 + " won the toss and chose to field"
return(1)
def pitchInfo(venue, typeOfPitch):
if(typeOfPitch == "dusty"):
# how good the pitch is for pace. 0.75-1.25, lower is better for bowling
pace = 1 + 0.5*(random.random() * (random.random()-random.random()))
# how good the pitch is for spin. 0.75-1.25, lower is better for bowling
spin = 1 + 0.5*(random.random() * (random.random()-random.random()))
spin = spin - random.uniform(0.1, 0.16)
# how good the outfield is. 0.75-1.25, lower is better for bowling
outfield = 1 + 0.5*(random.random() *
(random.random()-random.random()))
elif(typeOfPitch == "green"):
# how good the pitch is for pace. 0.75-1.25, lower is better for bowling
pace = 1 + 0.5*(random.random() * (random.random()-random.random()))
pace = pace - random.uniform(0.1, 0.16)
# how good the pitch is for spin. 0.75-1.25, lower is better for bowling
spin = 1 + 0.5*(random.random() * (random.random()-random.random()))
# how good the outfield is. 0.75-1.25, lower is better for bowling
outfield = 1 + 0.5*(random.random() *
(random.random()-random.random()))
elif(typeOfPitch == "dead"):
# how good the pitch is for pace. 0.75-1.25, lower is better for bowling
pace = 1 + 0.5*(random.random() * (random.random()-random.random()))
# how good the pitch is for spin. 0.75-1.25, lower is better for bowling
spin = 1 + 0.5*(random.random() * (random.random()-random.random()))
# how good the outfield is. 0.75-1.25, lower is better for bowling
outfield = 1 + 0.5*(random.random() *
(random.random()-random.random()))
return [pace, spin, outfield]
def innings1(batting, bowling, battingName, bowlingName, pace, spin, outfield, dew, detoriate):
global target, innings1Balls, innings1Runs, innings1Batting, innings2Batting, winner, winMsg, innings1Battracker, innings1Bowltracker, innings1Log
# print(battingName, bowlingName, pace, spin, outfield, dew, detoriate)
bowlerTracker = {} #add names of all in innings def
batterTracker = {} #add names of all in innings def
battingOrder = []
catchingOrder = []
ballLog = []
runs = 0
balls = 0
wickets = 0
# break or spin; medium or fast
# Deciding batting order
for i in batting:
batterTracker[i['playerInitials']] = {'playerInitials': i['playerInitials'], 'balls': 0, 'runs': 0, 'ballLog': []}
runObj = {}
outObj = {}
i['batBallsTotal'] += 1
for run in i['batRunDenominations']:
runObj[run] = i['batRunDenominations'][run] / i['batBallsTotal']
i['batRunDenominationsObject'] = runObj
for out in i['batOutTypes']:
outObj[out] = i['batOutTypes'][out] / i['batBallsTotal']
i['batOutTypesObject'] = outObj
# for styles in i['byBowler']:
# runObj2 = {}
# outObj2 = {}
# batOutsRate = i['byBowler'][styles]['batOutsTotal'] / \
# i['byBowler'][styles]['batBallsTotal']
# i['byBowler'][styles]['batOutsRate'] = batOutsRate
# for run in i['byBowler'][styles]['batRunDenominations']:
# runObj2[run] = i['byBowler'][styles]['batRunDenominations'][run] / \
# i['byBowler'][styles]['batBallsTotal']
# i['byBowler'][styles]['batRunDenominationsObject'] = runObj2
# for out in i['byBowler'][styles]['batOutTypes']:
# outObj2[out] = i['byBowler'][styles]['batOutTypes'][out] / \
# i['byBowler'][styles]['batBallsTotal']
# i['byBowler'][styles]['batOutTypesObject'] = outObj2
i['batOutsRate'] = i['batOutsTotal'] / i['batBallsTotal']
newPos = []
posAvgObj = {"0": 0, "1": 0, "2": 0, "3": 0, "4": 0, "5": 0, "6": 0, "7":0,"8": 0, "9":0, "10":0}
for p in i['position']:
if(p != "null"):
newPos.append(p)
posTotal = sum(newPos)
for p in newPos:
if(str(p) in posAvgObj):
posAvgObj[str(p)] += 1
else:
posAvgObj[str(p)] = 1
for key_p in posAvgObj:
posAvgObj[key_p] = posAvgObj[key_p]/i['matches']
if(len(newPos) != 0):
posAvg = posTotal/len(newPos)
else:
posAvg = 9.0
battingOrder.append({"posAvg": posAvg, "player": i, "posAvgsAll": posAvgObj})
battingOrder = sorted(battingOrder, key=lambda k: k['posAvg'])
catchingOrder = sorted(catchingOrder, key=lambda k: k['catchRate'])
for i in bowling:
i['bowlBallsTotalRate'] = i['bowlBallsTotal'] / i['matches']
bowlerTracker[i['playerInitials']] = {'playerInitials': i['playerInitials'], 'balls': 0,
'runs': 0, 'ballLog': [], 'overs': 0, 'wickets': 0}
runObj = {}
outObj = {}
i['catchRate'] = i['catches'] / i['matches']
i['bowlWideRate'] = i['bowlWides'] / (i['bowlBallsTotal'] + 1)
i['bowlNoballRate'] = i['bowlNoballs'] / (i['bowlBallsTotal'] + 1)
i['bowlBallsTotal'] += 1
for run in i['bowlRunDenominations']:
runObj[run] = i['bowlRunDenominations'][run] / i['bowlBallsTotal']
i['bowlRunDenominationsObject'] = runObj
for out in i['bowlOutTypes']:
outObj[out] = i['bowlOutTypes'][out] / i['bowlBallsTotal']
i['bowlOutTypesObject'] = outObj
# for styles in i['byBatsman']:
# runObj2 = {}
# outObj2 = {}
# bowlOutsRate = i['byBatsman'][styles]['bowlOutsTotal'] / \
# i['byBatsman'][styles]['bowlBallsTotal']
# i['byBatsman'][styles]['bowlOutsRate'] = batOutsRate
# for run in i['byBatsman'][styles]['bowlRunDenominations']:
# runObj2[run] = i['byBatsman'][styles]['bowlRunDenominations'][run] / \
# i['byBatsman'][styles]['bowlBallsTotal']
# i['byBatsman'][styles]['bowlRunDenominationsObject'] = runObj2
# for out in i['byBatsman'][styles]['bowlOutTypes']:
# outObj2[out] = i['byBatsman'][styles]['bowlOutTypes'][out] / \
# i['byBatsman'][styles]['bowlBallsTotal']
# i['byBatsman'][styles]['bowlOutTypesObject'] = outObj2
i['bowlOutsRate'] = i['bowlOutsTotal'] / i['bowlBallsTotal']
obj = {"20": 0, "1": 0, "2": 0, "3": 0, "4": 0, "5": 0, "6": 0, "7": 0, "8": 0, "9": 0,
"10": 0, "11": 0, "12": 0, "13": 0, "14": 0, "15": 0, "16": 0, "17": 0, "18": 0, "19": 0}
for over in i['overNumbers']:
obj[over] += 1
for keys in obj:
if(i['matches'] != 0):
avg = obj[keys]/i['matches']
else:
avg = -1
obj[keys] = avg
i['overNumbersObject'] = obj
bowling = sorted(bowling, key=lambda k: k['bowlOutsRate'])
bowling.reverse()
bowling = bowling[0:7]
bowlingOpening = sorted(bowling, key=lambda k: k['overNumbersObject']['1'])
bowlingOpening.reverse()
bowlingOpening[0:7]
bowlingDeath = sorted(bowling, key=lambda k: k['overNumbersObject']['19'])
bowlingDeath.reverse()
bowlingDeath[0:7]
bowlingMiddle = sorted(bowling, key=lambda k: k['overNumbersObject']['10'])
bowlingMiddle.reverse()
bowlingMiddle[0:7]
batter1 = battingOrder[0]
batter2 = battingOrder[1]
onStrike = batter1
bowler1 = bowlingOpening[0]
bowler2 = bowlingOpening[1]
lastOver = None
def playerDismissed(player):
nonlocal batter1, batter2, onStrike
# print("OUT", player['player']['playerInitials'])
if(wickets == 10):
print("ALL OUT")
else:
if(batter1 == player):
onStrike = battingOrder[wickets + 1]
batter1 = battingOrder[wickets + 1]
found = False
index_l = 0
while(not found):
# localBattingOrder = sorted(battingOrder, key=lambda k: k['posAvgsAll'][str(wickets)])
# localBattingOrder.reverse()
localBattingOrder = battingOrder
if(batterTracker[localBattingOrder[index_l]['player']['playerInitials']]['balls'] == 0):
onStrike = localBattingOrder[index_l]
batter1 = localBattingOrder[index_l]
found = True
else:
index_l += 1
else:
onStrike = battingOrder[wickets + 1]
batter2 = battingOrder[wickets + 1]
found = False
index_l = 0
while(not found):
# localBattingOrder = sorted(battingOrder, key=lambda k: k['posAvgsAll'][str(wickets)])
# localBattingOrder.reverse()
localBattingOrder = battingOrder
if(batterTracker[localBattingOrder[index_l]['player']['playerInitials']]['balls'] == 0):
onStrike = localBattingOrder[index_l]
batter2 = localBattingOrder[index_l]
found = True
else:
index_l += 1
# print(batter1['player']['playerInitials'])
# print(batter2['player']['playerInitials'])
def delivery(bowler, batter, over):
nonlocal batterTracker, bowlerTracker, onStrike, ballLog, balls, runs, wickets
global innings1Log
batInfo = None
bowlInfo = None
wideRate = bowler['bowlWideRate']
noballRate = bowler['bowlNoballRate']
blname = bowler['playerInitials']
btname = batter['player']['playerInitials']
# if(bowler['bowlStyle'] in batter['player']['byBowler']):
# batInfo = batter['player']['byBowler'][bowler['bowlStyle']]
# else:
# batInfo = batter['player']
batInfo = batter['player']
# if(batter['player']['batStyle'] in bowler['byBatsman']):
# bowlInfo = bowler['byBatsman'][batter['player']['batStyle']]
# else:
# bowlInfo = bowler
bowlInfo = bowler
# Increase effect and divide from negative things for bowler to positive (W, 1, 0)
if('break' or 'spin' in bowler['bowlStyle']):
effect = (1.0 - spin)/2
# print("effect:", effect, "original:", spin)
bowlInfo['bowlOutsRate'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['0'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['1'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['4'] -= (effect * 0.38)
bowlInfo['bowlRunDenominationsObject']['6'] -= (effect * 0.3)
elif('medium' or 'fast' in bowler['bowlStyle']):
effect = (1.0 - fast)/2
# print("effect:", effect, "original:", fast)
bowlInfo['bowlOutsRate'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['0'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['1'] += (effect * 0.25)
bowlInfo['bowlRunDenominationsObject']['4'] -= (effect * 0.38)
bowlInfo['bowlRunDenominationsObject']['6'] -= (effect * 0.3)
# print(batInfo)
denAvg = {}
outAvg = (batInfo['batOutsRate'] + bowlInfo['bowlOutsRate']) / 2
outTypeAvg = {}
runoutChance = 0.01
if(batter['player']['batOutsTotal'] != 0):
runoutChance = (batter['player']['runnedOut']) / batter['player']['batBallsTotal']
for batKey in batInfo['batRunDenominationsObject']:
denAvg[batKey] = (batInfo['batRunDenominationsObject']
[batKey] + bowlInfo['bowlRunDenominationsObject'][batKey])/2
runRate = 0
for a,b in zip(batInfo['batOutTypesObject'], bowlInfo['bowlOutTypesObject']):
outTypeAvg[a] = (batInfo['batOutTypesObject'][a] + bowlInfo['bowlOutTypesObject'][b]) / 2
outTypeAvg['runOut'] = runoutChance
# print(outTypeAvg)
def getOutcome(den, out, over):
nonlocal batterTracker, bowlerTracker, runs, balls, ballLog, wickets, onStrike
global innings1Log
# print(den)
if(wideRate > random.uniform(0,1)): #add batter tracking & bowler tracking logs, read ln 267 & ln 255
runs += 1
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}", "Wide", "Score: " + str(runs) + "/" + str(wickets))
ballLog.append(f"{str(balls)}:WD")
bowlerTracker[blname]['runs'] += 1
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:WD")
innings1Log.append({"event": over + f" {bowler['displayName']} to {batter['player']['displayName']}" + " Wide" + " Score: " + str(runs) + "/" + str(wickets),
"balls": balls, "batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker),
"batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "runs": runs, "wickets": wickets})
return
else:
total = 0
for denom in den:
total += den[denom]
last = 0
balls += 1
denominationProbabilties = []
for denom in den:
denomObj = {"denomination": denom,
"start": last, "end": last + den[denom]}
denominationProbabilties.append(denomObj)
last += den[denom]
decider = random.uniform(0, total)
for prob in denominationProbabilties:
if(prob['start'] <= decider and prob['end'] > decider):
# Next - add wicket types, extras, bowler rotation, new batsman, innings change, aggression changes based on over number and rr, and based on last 10 ball player form
runs += int(prob['denomination'])
if(prob['denomination'] != '0'):
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}", prob['denomination'], "Score: " + str(runs) + "/" + str(wickets))
bowlerTracker[blname]['runs'] += int(prob['denomination'])
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:{prob['denomination']}")
bowlerTracker[blname]['balls'] += 1
batterTracker[btname]['runs'] += int(prob['denomination'])
batterTracker[btname]['ballLog'].append(f"{str(balls)}:{prob['denomination']}")
batterTracker[btname]['balls'] += 1
innings1Log.append({"event" : over + f" {bowler['displayName']} to {batter['player']['displayName']} " + prob['denomination'] + " Score: " + str(runs) + "/" + str(wickets), "balls": balls,
"runs": runs, "batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker), "batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "wickets": wickets})
ballLog.append(f"{str(balls)}:{prob['denomination']}")
if(int(prob['denomination']) % 2 == 1):
if(onStrike == batter1):
onStrike = batter2
elif(onStrike == batter2):
onStrike = batter1
return
if(prob['denomination'] == '0'): #during high rrr or death overs, probability
#of boundary & wicket are both higher
probOut = outAvg*(total/den['0'])
outDecider = random.uniform(0, 1)
# print(over, outDecider)
if(probOut > outDecider): #change to >
wickets += 1
out_type = None
probs_o = []
total_o = 0
last_o = 0
for out_k in outTypeAvg:
total_o += outTypeAvg[out_k]
for out_k in outTypeAvg:
outobj = {"type": out_k, "start": last_o,
"end": last_o + outTypeAvg[out_k]}
probs_o.append(outobj)
last_o += outTypeAvg[out_k]
typeDeterminer = random.uniform(0, total_o)
for type_ in probs_o:
if(type_['start'] <= typeDeterminer and type_['end'] > typeDeterminer):
out_type = type_['type']
# print("OUTTTT", typeDeterminer, probs_o)
if(out_type == "runOut"): #dodismissal function
runOutRuns = random.randint(0,2)
runs += runOutRuns
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}",
"W", "Score: " + str(runs) + "/" + str(wickets), "Run Out!")
ballLog.append(f"{str(balls)}:W")
bowlerTracker[blname]['runs'] += runOutRuns
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:W{runOutRuns}-runout")
bowlerTracker[blname]['balls'] += 1
batterTracker[btname]['runs'] += runOutRuns
batterTracker[btname]['ballLog'].append(f"{str(balls)}:{runOutRuns}")
batterTracker[btname]['balls'] += 1
innings1Log.append({"event" : over + f" {bowler['displayName']} to {batter['player']['displayName']}" +
" W" + " Score: " + str(runs) + "/" + str(wickets) + " Run Out!", "balls": balls, "runs": runs,
"batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker), "batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "wickets": wickets})
playerDismissed(onStrike)
return
elif(out_type == "caught"):
# if(random.randint(0,1) == 1):
# if(onStrike == batter1):
# onStrike = batter2
# elif(onStrike == batter2):
# onStrike = batter1
fTotal = 0
fList = []
catcher = None
for bowlF in bowling:
bowlF['catchRate']
fList.append({'playerInitials': bowlF['playerInitials'],
'displayName': bowlF['displayName'] ,
"start": fTotal, "end": fTotal + bowlF['catchRate']})
fTotal += bowlF['catchRate']
catcherDetermine = random.uniform(0, fTotal)
for fItem in fList:
if(fItem['start'] <= catcherDetermine and fItem['end'] > catcherDetermine):
catcher = {"playerInitials": fItem['playerInitials'],
"displayName": fItem['displayName']}
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}",
"W", "Score: " + str(runs) + "/" + str(wickets), f"Caught by {catcher['displayName']}")
ballLog.append(f"{str(balls)}:W-CaughtBy-{catcher['playerInitials']}")#add who caught for scorecard reference
bowlerTracker[blname]['runs'] += int(prob['denomination'])
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:W")
bowlerTracker[blname]['balls'] += 1
bowlerTracker[blname]['wickets'] += 1
batterTracker[btname]['runs'] += int(prob['denomination'])
batterTracker[btname]['ballLog'].append(f"{str(balls)}:W-CaughtBy-{catcher['playerInitials']}-Bowler-{blname}")
batterTracker[btname]['balls'] += 1
innings1Log.append({"event" : over + f" {bowler['displayName']} to {batter['player']['displayName']}" +
" W" + " Score: " + str(runs) + "/" + str(wickets) + f" Caught by {catcher['displayName']}", "balls": balls,
"runs": runs, "batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker), "batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "wickets": wickets})
playerDismissed(onStrike)
return
elif(out_type == "bowled" or out_type == "lbw" or out_type == "hitwicket" or out_type == "stumped"):
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}",
"W", "Score: " + str(runs) + "/" + str(wickets), f"{out_type.title()}")
ballLog.append(f"{str(balls)}:W")#add who caught for scorecard reference
bowlerTracker[blname]['runs'] += int(prob['denomination'])
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:W")
bowlerTracker[blname]['balls'] += 1
bowlerTracker[blname]['wickets'] += 1
batterTracker[btname]['runs'] += int(prob['denomination'])
batterTracker[btname]['ballLog'].append(f"{str(balls)}:W-{out_type}-Bowler-{blname}")
batterTracker[btname]['balls'] += 1
innings1Log.append({"event": over + f" {bowler['displayName']} to {batter['player']['displayName']}" +
" W" + " Score: " + str(runs) + "/" + str(wickets) + f" {out_type.title()}", "balls": balls,
"runs": runs, "batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker), "batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "wickets": wickets})
playerDismissed(onStrike)
return
else:
# Strike Rotation
print(over, f"{bowler['displayName']} to {batter['player']['displayName']}", prob['denomination'], "Score: " + str(runs) + "/" + str(wickets))
ballLog.append(f"{str(balls)}:{prob['denomination']}")
bowlerTracker[blname]['runs'] += int(prob['denomination'])
bowlerTracker[blname]['ballLog'].append(f"{str(balls)}:{prob['denomination']}")
bowlerTracker[blname]['balls'] += 1
batterTracker[btname]['runs'] += int(prob['denomination'])
batterTracker[btname]['ballLog'].append(f"{str(balls)}:{prob['denomination']}")
batterTracker[btname]['balls'] += 1
innings1Log.append({"event": over + f" {bowler['displayName']} to {batter['player']['displayName']} " + prob['denomination'] + " Score: " + str(runs) + "/" + str(wickets),
"balls": balls, "runs": runs, "batterTracker": copy.deepcopy(batterTracker), "bowlerTracker": copy.deepcopy(bowlerTracker),
"batsman": btname,"batter1": batter1['player']['playerInitials'], "batter2": batter2['player']['playerInitials'] , "bowler": blname, "wickets": wickets})
return
sumLast10 = 0
outsLast10 = 0
for i in ballLog:
spl_bl = i.split(":")
if("W" not in spl_bl[1]):
sumLast10 += int(spl_bl[1])
else:
outsLast10 += 1
if(balls < 105):
adjust_last10 = random.uniform(0.02,0.04)
if(outsLast10 < 2):
denAvg['0'] -= adjust_last10 * (1/2)
denAvg['1'] -= adjust_last10 * (1/2)
denAvg['2'] += adjust_last10 * (1/2)
denAvg['4'] += adjust_last10 * (1/2)
else:
adjust_last10 += 0.018
denAvg['0'] += adjust_last10 * (1.1/2)
denAvg['0'] += adjust_last10 * (0.9/2)
denAvg['4'] -= adjust_last10 * (1/2)
denAvg['6'] -= adjust_last10 * (1/2)
outAvg -= 0.02
if(batterTracker[btname]['balls'] < 8 and balls < 80):
adjust = random.uniform(-0.01, 0.03)
outAvg -= 0.015
denAvg['0'] += adjust * (1.5/3)
denAvg['1'] += adjust * (1/3)
denAvg['2'] += adjust * (0.5/3)
denAvg['4'] -= adjust * (0.5/3)
denAvg['6'] -= adjust * (1.5/3)
if(batterTracker[btname]['balls'] > 15 and batterTracker[btname]['balls'] < 30):
adjust = random.uniform(0.03, 0.07)
denAvg['0'] -= adjust * (1/3)
# denAvg['1'] -= adjust *(1/3)
denAvg['4'] += adjust * (1/3)
# if(batterTracker[btname]['balls'] > 30):
# adjust = random.uniform(0.05, 0.1)
# denAvg['0'] -= adjust * (1.5/3)
# denAvg['4'] += adjust * (0.75/3)
# denAvg['6'] += adjust * (0.75/3)
# outAvg += 0.01
if(batterTracker[btname]['balls'] > 20 and (batterTracker[btname]['runs'] / batterTracker[btname]['balls']) < 110):
adjust = random.uniform(0.05, 0.08)
denAvg['0'] += adjust * (1.5/3)
denAvg['1'] += adjust * (0.5/3)
denAvg['6'] += adjust * (2/3)
outAvg += 0.05
if(batterTracker[btname]['balls'] > 40 and (batterTracker[btname]['runs'] / batterTracker[btname]['balls']) < 120):
adjust = random.uniform(0.06, 0.09)
denAvg['0'] += adjust * (1.2/3)
denAvg['1'] += adjust * (0.7/3)
denAvg['6'] += adjust * (1.8/3)
outAvg += 0.04
if(batterTracker[btname]['balls'] > 30 and (batterTracker[btname]['runs'] / batterTracker[btname]['balls']) > 145 and (wickets < 5) or balls > 102):
adjust = random.uniform(0.06, 0.09)
denAvg['0'] -= adjust * (1/3)
denAvg['1'] -= adjust * (1.5/3)
denAvg['4'] += adjust * (1.6/3)
denAvg['6'] += adjust * (1.9/3)
if(balls > 105 and (runs / balls) < 1.17):
adjust = random.uniform(0.06, 0.09)
denAvg['0'] += adjust * (1.2/3)
denAvg['1'] -= adjust * (1.6/3)
denAvg['4'] += adjust * (1.4/3)
denAvg['6'] += adjust * (2.1/3)
outAvg += 0.03
elif(balls > 60 and (runs/balls) < 1.1):
adjust = random.uniform(0.06, 0.09)
denAvg['0'] -= adjust * (1.2/3)
denAvg['1'] -= adjust * (0.8/3)
denAvg['4'] += adjust * (1/3)
denAvg['6'] += adjust * (1/3)
outAvg += 0.02
if(balls > 0):
runRate = (runs/balls)*6
if(balls < 12):
sixAdjustment = random.uniform(0.02, 0.05)
if(outAvg < 0.07):
outAvg = 0
else:
outAvg = outAvg - 0.07
if(sixAdjustment > denAvg['6']):
sixAdjustment = denAvg['6']
denAvg['6'] -= sixAdjustment
denAvg['0'] += sixAdjustment * (1/3)
denAvg['1'] += sixAdjustment * (2/3)
getOutcome(denAvg, outAvg, over)
elif(balls >= 12 and balls < 36): #works very well with 120, try to adjust a bit for death and middle but
#dont tinker too much
if(wickets == 0):
defenseAndOneAdjustment = random.uniform(0.05, 0.11)
denAvg['0'] -= defenseAndOneAdjustment * (2/3)
denAvg['1'] -= defenseAndOneAdjustment * (1/3)
denAvg['4'] += defenseAndOneAdjustment * (2/3)
denAvg['6'] += defenseAndOneAdjustment * (1/3)
getOutcome(denAvg, outAvg, over)
else:
defenseAndOneAdjustment = random.uniform(0.02, 0.08)
denAvg['0'] -= defenseAndOneAdjustment * (2/3)
denAvg['1'] -= defenseAndOneAdjustment * (1/3)
denAvg['4'] += defenseAndOneAdjustment * (2.5/3)
denAvg['6'] += defenseAndOneAdjustment * (0.5/3)
outAvg -= 0.03
getOutcome(denAvg, outAvg, over)
elif(balls >= 36 and balls < 102): #works very well with 120, try to adjust a bit for death and middle but
#dont tinker too much
if(wickets < 3):
defenseAndOneAdjustment = random.uniform(0.05, 0.11)
denAvg['0'] -= defenseAndOneAdjustment * (1.5/3)
denAvg['1'] -= defenseAndOneAdjustment * (1/3)
denAvg['4'] += defenseAndOneAdjustment * (1.5/3)
denAvg['6'] += defenseAndOneAdjustment * (1/3)
getOutcome(denAvg, outAvg, over)
else:
defenseAndOneAdjustment = random.uniform(0.02, 0.07)
denAvg['0'] -= defenseAndOneAdjustment * (1.6/3)
denAvg['1'] -= defenseAndOneAdjustment * (1.2/3)
denAvg['4'] += defenseAndOneAdjustment * (2.1/3)
denAvg['6'] += defenseAndOneAdjustment * (0.9/3)
outAvg -= 0.03
getOutcome(denAvg, outAvg, over)
else: #works very well with 120, try to adjust a bit for death and middle but
#dont tinker too much
if(wickets < 7):
defenseAndOneAdjustment = random.uniform(0.07, 0.1)
denAvg['0'] -= defenseAndOneAdjustment * (0.4/3)
denAvg['1'] -= defenseAndOneAdjustment * (1/3)
denAvg['4'] += defenseAndOneAdjustment * (1.4/3)
denAvg['6'] += defenseAndOneAdjustment * (1.8/3)
outAvg += 0.01
getOutcome(denAvg, outAvg, over)
else:
defenseAndOneAdjustment = random.uniform(0.07, 0.09)
denAvg['0'] -= defenseAndOneAdjustment * (0.4/3)
denAvg['1'] -= defenseAndOneAdjustment * (1.8/3)
denAvg['4'] += defenseAndOneAdjustment * (1.5/3)
denAvg['6'] += defenseAndOneAdjustment * (1.5/3)
outAvg += 0.01
getOutcome(denAvg, outAvg, over)
# elif(balls >= 36 and balls < 102):
# if(wickets == 0 or wickets == 1):
# defenseAndOneAdjustment = random.uniform(0.07, 0.11)
# denAvg['0'] -= defenseAndOneAdjustment * (2/3)
# denAvg['1'] -= defenseAndOneAdjustment * (1/3)
# denAvg['4'] += defenseAndOneAdjustment * (2/3)
# denAvg['6'] += defenseAndOneAdjustment * (1/3)
# getOutcome(denAvg, outAvg, over)
# else:
# # defenseAndOneAdjustment = random.uniform(0.03, 0.08)
# denAvg['0'] += 0.03
# # denAvg['1'] -= defenseAndOneAdjustment * (1/3)
# denAvg['4'] -= 0.03
# # denAvg['6'] += defenseAndOneAdjustment * (0.5/3)
# outAvg -= 0.06
# getOutcome(denAvg, outAvg, over)
# if(wickets == 0):
# adjust = random.uniform(0.06, 0.11)
# denAvg['0'] -= adjust * (1/3)
# denAvg['4'] += adjust * (1.5/3)
# denAvg['2'] += adjust * (0.5/3)
# denAvg['6'] += adjust * (1/3)
# outAvg += 0.02
# getOutcome(denAvg, outAvg, over)
# else:
# adjust = random.uniform(0.04, 0.8)
# denAvg['1'] += adjust * (1/3) * (wickets / 2)
# denAvg['4'] -= adjust * (2/3) * (wickets / 2)
# denAvg['6'] -= adjust * (1/3) * (wickets / 2)
# denAvg['2'] += adjust * (1/3) * (wickets / 2)
# denAvg['0'] += adjust * (1/3) * (wickets / 2)
# outAvg -= adjust * (1/3) * (wickets)
# # print(adjust * (1/3) * (wickets/2))
# getOutcome(denAvg, outAvg, over)
for i in range(20):
#change strike here
if(i != 0):
if(onStrike == batter1):
onStrike = batter2
else:
onStrike = batter1
if(i == 0):
overBowler = bowler1
n = 0
while(balls < 6):
if(wickets == 10):
break
else:
# print(overBowler['byBatsman']['right-hand bat']['bowlRunDenominationsObject']['4'])
delivery(copy.deepcopy(overBowler), copy.deepcopy(
onStrike), str(i) + "." + str(n + 1))
n += 1
lastOver = overBowler['playerInitials']
elif(i == 1):
overBowler = bowler2
n = 0
while(balls < 12):
if(wickets == 10):
break
else:
# print(overBowler['byBatsman']['right-hand bat']['bowlRunDenominationsObject']['4'])
delivery(copy.deepcopy(overBowler), copy.deepcopy(
onStrike), str(i) + "." + str(n + 1))
n += 1
lastOver = overBowler['playerInitials']
elif(i < 6):
def powerplayPick(bowlerInp):
bowlerDict = bowlerTracker[bowlerInp['playerInitials']]
bowlerToReturn = bowlerInp
if(bowlerDict['balls'] > 11 or (bowlerDict['runs'] / bowlerDict['balls']) > 1.7):
if(bowlerDict['balls'] > 11 or (bowlerDict['wickets'] / bowlerDict['balls']) < 0.091):
valid = False #continue this
localBowling = sorted(bowling, key=lambda k: k['overNumbersObject'][str(i)])
localBowling.reverse()
while(not valid):
pick = localBowling[random.randint(0,3)]
pickInfo = bowlerTracker[pick['playerInitials']]
if(pickInfo['balls'] < 11 and lastOver != pick['playerInitials']):
bowlerToReturn = pick
valid = True
else:
pass
return bowlerToReturn
overBowler = None
if(i % 2 == 1):
bowler2 = powerplayPick(bowler2)
overBowler = bowler2
else:
bowler1 = powerplayPick(bowler1)
overBowler = bowler1
# print(bowlingOpening[0])
n = 0
while(balls < ((i + 1)*6)):
if(wickets == 10):
break
else:
# print(overBowler['byBatsman']['right-hand bat']['bowlRunDenominationsObject']['4'])
delivery(copy.deepcopy(overBowler), copy.deepcopy(
onStrike), str(i) + "." + str(n + 1))
n += 1
lastOver = overBowler['playerInitials']
elif(i < 17): #21 for now but 17 later
#2 death exclude
def middleOversPick(bowlerInp):
bowlerDict = bowlerTracker[bowlerInp['playerInitials']]
bowlerToReturn = bowlerInp
def inDeathBowlers(bowlerToCheck):
if(bowlerToCheck['playerInitials'] == bowlingDeath[0]['playerInitials'] or
bowlerToCheck['playerInitials'] == bowlingDeath[1]['playerInitials'] or
bowlerToCheck['playerInitials'] == bowlingDeath[2]['playerInitials']):
return True
else:
return False
if(inDeathBowlers(bowlerInp)):
if((bowlerDict['balls'] > 17) or (bowlerDict['runs'] / bowlerDict['balls']) > 1.5 or ((bowlerDict['runs'] / bowlerDict['balls']) - (balls / runs)) > 0.2 ):
if(bowlerDict['balls'] > 17 or (bowlerDict['runs'] / bowlerDict['balls'] < 0.088)):
valid = False
loopIndex = 3
playersExp = sorted(bowling, key=lambda k: k['bowlBallsTotalRate'])
playersExp.reverse()
# print(playersExp)
expIndex = 0
for pexp in playersExp:
if(expIndex < 4):
if(not inDeathBowlers(pexp)):
if(bowlerTracker[pexp['playerInitials']]['balls'] < 7 and pexp['playerInitials'] != lastOver):
bowlerToReturn = pexp
valid = True
else:
break
expIndex += 1
while(not valid):
pick = bowlingMiddle[random.randint(0,loopIndex)]
pickInfo = bowlerTracker[pick['playerInitials']]
if(pickInfo['balls'] == 0):
bowlerToReturn = pick
valid = True
else:
if(inDeathBowlers(pickInfo)):
if(pickInfo['balls'] < 11 and (pickInfo['runs'] / pickInfo['balls']) < 1.5):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
elif(pickInfo['balls'] < 11 and pickInfo['runs'] / pickInfo['balls'] > 0.088):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
else:
if(pickInfo['balls'] < 24 and (pickInfo['runs'] / pickInfo['balls']) < 1.5):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
elif(pickInfo['balls'] < 11 and pickInfo['runs'] / pickInfo['balls'] > 0.088):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
loopIndex += 1
if(loopIndex >= 6):
for i2 in range(7):
picked_ = bowlingMiddle[i2]
picked_info = bowlerTracker[picked_['playerInitials']]
if(not inDeathBowlers(picked_) and picked_['playerInitials'] != lastOver):
bowlerToReturn = picked_
valid = True
else:
if(bowlerDict['balls']) == 0:
pass
else:
if((bowlerDict['balls'] > 19) or (bowlerDict['runs'] / bowlerDict['balls']) > 1.6 or ((bowlerDict['runs'] / bowlerDict['balls']) - (balls / runs)) > 0.2 ):
if(bowlerDict['balls'] > 19 or (bowlerDict['runs'] / bowlerDict['balls'] < 0.095)):
valid = False
loopIndex = 3
playersExp = sorted(bowling, key=lambda k: k['bowlBallsTotalRate'])
playersExp.reverse()
# print(playersExp)
expIndex = 0
for pexp in playersExp:
if(expIndex < 4):
if(not inDeathBowlers(pexp)):
if(bowlerTracker[pexp['playerInitials']]['balls'] < 7 and pexp['playerInitials'] != lastOver):
bowlerToReturn = pexp
valid = True
else:
break
expIndex += 1
while(not valid):
pick = bowlingMiddle[random.randint(0,loopIndex)]
pickInfo = bowlerTracker[pick['playerInitials']]
if(pickInfo['balls'] == 0):
bowlerToReturn = pick
valid = True
else:
if(inDeathBowlers(pickInfo)):
if(pickInfo['balls'] < 11 and ((pickInfo['runs'] / pickInfo['balls']) < 1.7) or
(pickInfo['runs'] / pickInfo['balls']) > 0.088):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
else:
if(pickInfo['balls'] < 24 and ((pickInfo['runs'] / pickInfo['balls']) < 1.6) or
(pickInfo['runs'] / pickInfo['balls'] < 0.1)):
if(pickInfo['playerInitials'] != lastOver):
bowlerToReturn = pick
valid = True
loopIndex += 1
if(loopIndex >= 6):
for i2 in range(7):
picked_ = bowlingMiddle[i2]
picked_info = bowlerTracker[picked_['playerInitials']]
if(not inDeathBowlers(picked_) and picked_['playerInitials'] != lastOver):
bowlerToReturn = picked_
valid = True
return bowlerToReturn
overBowler = None
if(i % 2 == 1):
bowler2 = middleOversPick(bowler2)
overBowler = bowler2
else:
bowler1 = middleOversPick(bowler1)
overBowler = bowler1
n = 0
while(balls < ((i + 1)*6)):
if(wickets == 10):
break
else:
# print(overBowler['byBatsman']['right-hand bat']['bowlRunDenominationsObject']['4'])
delivery(copy.deepcopy(overBowler), copy.deepcopy(
onStrike), str(i) + "." + str(n + 1))
n += 1
lastOver = overBowler['playerInitials']
else:
def deathOversPick(bowlerInp):
bowlerDict = bowlerTracker[bowlerInp['playerInitials']]