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ver1.py
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ver1.py
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import matplotlib.pyplot as plt
import numpy as np
#intitail
def create_deck():
for i in range(0,13):
card[i][0]*=num_deck
if(debug[0]):
print("start : ",card,"\n")
return card
#first_draw
def new_draw():
broker_hand.append(np.random.choice(draw_able)) #broker draw
card[broker_hand[0]-1][0]-=1 #amount of card in deck -1
if(card[broker_hand[0]-1][0]==0):draw_able.remove(broker_hand[0]) #if there are no type of that card,
#remove it from the card that u can draw
player_hand.append(np.random.choice(draw_able)) #player draw
card[player_hand[0]-1][0]-=1 #amount of card in deck -1
if(card[player_hand[0]-1][0]==0):draw_able.remove(player_hand[0])
broker_hand.append(np.random.choice(draw_able)) #broker darw
card[broker_hand[1]-1][0]-=1 #amount of card in deck -1
if(card[broker_hand[1]-1][0]==0):draw_able.remove(broker_hand[1])
value[0]=card[broker_hand[0]-1][1]+card[broker_hand[1]-1][1] #value of card in hand
value[0]%=10
player_hand.append(np.random.choice(draw_able)) #player draw
card[player_hand[1]-1][0]-=1
if(card[player_hand[1]-1][0]==0):draw_able.remove(player_hand[1])
value[1]=card[player_hand[0]-1][1]+card[player_hand[1]-1][1]
value[1]%=10
if(debug[1]): #print debug
print("=============================================")
print("hand player: ",player_hand)
print("card left",card)
print("value player : ",value[1])
print("hand broker: ",broker_hand)
print("card left",card)
print("value broker : ",value[0])
#second draw
def broker_draw():
broker_hand.append(np.random.choice(draw_able)) #broker_hand draw
card[broker_hand[2]-1][0]-=1 #amount of card in deck -1
if(card[broker_hand[2]-1][0]==0):draw_able.remove(broker_hand[2]) #if there are no type of that card,
#remove it from the card that u can draw
value[0]+=card[broker_hand[2]-1][1] #update the value of card in hand of broker
value[0]%=10
if(debug[2]): #print debug
print(">>><<<\nbroker draw again")
print("broker_hand: ",broker_hand)
print("card left",card)
print("value broker : ",value[0])
print(">>><<<")
def player_draw():
player_hand.append(np.random.choice(draw_able)) #broker_hand draw
card[player_hand[2]-1][0]-=1 #amount of card in deck -1
if(card[player_hand[2]-1][0]==0):draw_able.remove(player_hand[2]) #if there are no type of that card,
#remove it from the card that u can draw
value[1]+=card[player_hand[2]-1][1] #update the value of card in hand of player
value[1]%=10
if(debug[2]): #print debug
print(">>><<<\nplayer draw again")
print("player_hand: ",player_hand)
print("card left",card)
print("value player : ",value[1])
print(">>><<<")
#check bet
def check(bet):
type_print=0
if(type_bet == 1): #bet player
if(value[0]<value[1]): #player win
status[0]+=1
type_print=1
money[0]+=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
type_print=2
money[0]-=bet*1
if(value[0]==value[1]):#tiesum
status[2]+=1
type_print=3
money[0]-=bet*1
if(type_bet == 2): #bet broker
if(value[0]<value[1]): #player win
status[0]+=1
type_print=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
type_print=2
money[0]+=bet*0.95
if(value[0]==value[1]):#tiesum
status[2]+=1
type_print=3
money[0]-=bet*1
if(type_bet == 3): #bet tiesum
if(value[0]<value[1]): #player win
status[0]+=1
type_print=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
type_print=2
money[0]-=bet*1
if(value[0]==value[1]):#tiesum
status[2]+=1
type_print=3
money[0]+=bet*8
if(type_bet == 4): #bet tie2
if(value[0]<value[1]): #player win
status[0]+=1
type_print=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
type_print=2
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
type_print=3
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
type_print=3
money[0]+=bet*220
if(type_bet == 5): #bet pair player
if(player_hand[0]==player_hand[1]):
status[5]+=1
money[0]+=bet*11
if(player_hand[0]!=player_hand[1]):
if(value[0]<value[1]): #player win
status[0]+=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
money[0]-=bet*1
if(type_bet == 6): #bet pair broker
if(broker_hand[0]==broker_hand[1]):
status[6]+=1
money[0]+=bet*11
if(broker_hand[0]!=broker_hand[1]):
if(value[0]<value[1]): #player win
status[0]+=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
money[0]-=bet*1
if(type_bet == 7): #bet perfect pair
if(broker_hand[0]==broker_hand[1] and (player_hand[0]==player_hand[1])):
status[7]+=1
money[0]+=bet*25
if(broker_hand[0]!=broker_hand[1] or player_hand[0]!=player_hand[1]):
if(value[0]<value[1]): #player win
status[0]+=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
money[0]-=bet*1
if(type_bet == 8): #bet high
if(np.size(player_hand)==3 or np.size(broker_hand)==3):
status[8]+=1
money[0]+=bet*0.54
if(np.size(player_hand)==2 and np.size(broker_hand)==2):
if(value[0]<value[1]): #player win
status[0]+=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
money[0]-=bet*1
if(type_bet == 9): #bet low
if(np.size(player_hand)==2 and np.size(broker_hand)==2):
status[9]+=1
money[0]+=bet*1.5
if(np.size(player_hand)==3 or np.size(broker_hand)==3):
if(value[0]<value[1]): #player win
status[0]+=1
money[0]-=bet*1
if(value[0]>value[1]):#broker win
status[1]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]!=2):#tiesum
status[2]+=1
money[0]-=bet*1
if(value[0]==value[1] and value[1]==2):#tie2
status[4]+=1
money[0]-=bet*1
times[0]+=1
if(draw_able==[] and money[0]!=money[1]):
type_print=4
if(debug[3]):
print("broker vs player :",value)
if (type_print==1) : print("player win , money : ",money[0])
if (type_print==2) : print("broker win , money : ",money[0])
if (type_print==3) : print("tie , money : ",money[0])
if (type_print==4) : print("---------deck out---------")
print("")
#reset
def reset_hand():
broker_hand.clear()
player_hand.clear()
value[0]=0
value[1]=0
#check_deck
def check_deck():
sum=0 #sum of card left
for i in range(0,13):
sum+=card[i][0]
if(sum<7):
draw_able.clear()
for i in range(0,13):
card[i][0]=4*num_deck
draw_able.append(i+1)
return 1
#check_money
def check_money():
if(money[0]!=0 and money[0]!=money[1]):
return 1
return 0
#check_time
def check_times():
if(times[0]!=times_limit):
return 1
return 0
#condition_draw
def condition_draw():
#condition player draw
if(value[1]==8 or value[1]==9): #player got 8-9
return
if(value[0]==8 or value[0]==9): #broker got 8-9
return
if(value[1]>=0 and value[1]<=5): #player got 0-5
player_draw()
#condition broker draw
if(value[0]==7): #broker got 7
return
if(value[0]>=0 and value[0]<=2): #broker got 0-2
broker_draw()
return
if(np.size(player_hand)==3):
if(value[0]==3):
if(card[player_hand[2]-1][1]==8):
return
else:
broker_draw()
return
if(value[0]==4):
if(card[player_hand[2]-1][1]==1 or card[player_hand[2]-1][1]==0 or card[player_hand[2]-1][1]==8 or card[player_hand[2]-1][1]==9):
return
else:
broker_draw()
return
if(value[0]==5):
if(card[player_hand[2]-1][1]==4 or card[player_hand[2]-1][1]==5 or card[player_hand[2]-1][1]==6 or card[player_hand[2]-1][1]==7):
broker_draw()
return
else:
return
if(value[0]==6):
if(card[player_hand[2]-1][1]==6 or card[player_hand[2]-1][1]==7):
broker_draw()
return
else:
return
def expected_value(type_bet):
"""Calculate the expected value of a baccarat bet."""
commission = 0
if type_bet == 1: # Player bet
probability = status[0]/times_limit
payout = 1
elif type_bet == 2: # Banker bet
probability = status[1]/times_limit
payout = 0.95
elif type_bet == 3: # Tie with sum of 8:1
probability = status[2]/times_limit
payout = 8
elif type_bet == 4: # Tie with 2 points:1
probability = status[4]/times_limit
payout = 220
elif type_bet == 5: # bet player pair
probability = status[5]/times_limit
payout = 11
elif type_bet == 6: # bet broker pair
probability = status[6]/times_limit
payout = 11
elif type_bet == 7: # bet broker pair
probability = status[7]/times_limit
payout = 25
elif type_bet == 8: # bet broker pair
probability = status[8]/times_limit
payout = 0.54
elif type_bet == 9: # bet broker pair
probability = status[9]/times_limit
payout = 1.5
else:
raise ValueError("Invalid bet type")
# Calculate the expected value
expected_value = (probability * payout) - (1 - probability) * (1 - commission)
status[3] = expected_value
probabilitymain[0] = probability
return (expected_value,probability)
money=[1000,1500] #money[0]=money now ,money[1]=the end point #relate with check_money()
money_graph=[]
bet=100 #cost of each bet
type_bet = 3 #type of bet 1=player 2=broker 3=tiewithsum 4=tiewith2point 5=playerpair 6=brokerpair 7=perfectpair 8=high 9=low
times_limit=100000 #relate with check_times()
status=[0,0,0,0,0,0,0,0,0,0,0,0] #win(of player) lose tie # 0=win 1=lose 2=tie 3=expected value 4=tie2 5=playerpair 6=brokerpair 7=perfectpair 8 =high 9=low
times =[0] #times
probabilitymain = [0]
value=[0,0] #value of hand each times,u will see it when draw already,value[0]=value of broker ,value[1]=value of player
broker_hand=[] #card in hand1 in term of address
player_hand=[] #card in hand2 in term of address
num_deck=1#amount of deck
card=[[4,1,1],[4,2,2],[4,3,3],[4,4,4],[4,5,5],[4,6,6],
[4,7,7],[4,8,8],[4,9,9],[4,0,10],[4,0,11],[4,12],[4,0,13]]
#[amount of card,value]
draw_able=[1,2,3,4,5,6,7,8,9,10,11,12,13] #types of card u still can draw
debug=[0,0,0,0] #1=on,2=off [0]start_card [1]new_draw [2]second draw [3]status and money left
card=create_deck()
while(check_times() and check_deck()): #dont delete check_deck() but can delete other check
new_draw()
condition_draw()
check(bet)
money_graph.append(money[0])
reset_hand()
expected_value(type_bet)
print("win :",status[0],",lose :",status[1],",times :",times[0],"\n",
",tie :",status[2],",tie 2:",status[4],",pair player :",status[5],",pair broker :",status[6],",perfect pair :",status[7],",high :",status[8],",low :",status[9],"\n",
",money :",money[0],',probability :',probabilitymain[0],',expected value :',status[3])
plt.plot(money_graph)
plt.show()