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# Mastermind in python

I am trying to implement in python Donald Knuth's algorithm for codebreaking mastermind in not more than 5 moves. I have checked my code several times, and it seems to follow the algorithm, as its stated here: http://en.wikipedia.org/wiki/Mastermind_(board_game)#Five-guess_algorithm

However, I get that some of the secrets take 7 or even 8 moves to accomplish, such as [5, 4, 4, 5].

Here is the code:

``````# returns how many bulls and cows
def HowManyBc(guess,secret):
invalid=max(guess)+1
bulls=0
cows=0
r=0
while r<4:
if guess[r]==secret[r]:
bulls=bulls+1
secret[r]=invalid
guess[r]=invalid
r=r+1
r=0
while r<4:
p=0
while p<4:
if guess[r]==secret[p] and guess[r]!=invalid:
cows=cows+1
secret[p]=invalid
break
p=p+1
r=r+1
return [bulls,cows]

# sends every BC to its index in HMList
if BC1==[0,0]:
return 0
elif BC1==[0,1]:
return 1
elif BC1==[0,2]:
return 2
elif BC1==[0,3]:
return 3
elif BC1==[0,4]:
return 4
elif BC1==[1,0]:
return 5
elif BC1==[1,1]:
return 6
elif BC1==[1,2]:
return 7
elif BC1==[1,3]:
return 8
elif BC1==[2,0]:
return 9
elif BC1==[2,1]:
return 10
elif BC1==[2,2]:
return 11
elif BC1==[3,0]:
return 12
elif BC1==[4,0]:
return 13
# returns positive's list minimum without including zeros
def MinimumNozeros(List1):
minimum=max(List1)+1
for item in List1:
if item!=0 and item<minimum:
minimum=item
return minimum

TempList=[[5, 4, 4, 5]]

for secret in TempList:
guess=[0,0,1,1]
BC=HowManyBc(guess[:],secret[:])
counter=1
optionList=[]
allList=[]
for i0 in range(0,6):
for i1 in range(0,6):
for i2 in range(0,6):
for i3 in range(0,6):
optionList.append([i0,i1,i2,i3])
allList.append([i0,i1,i2,i3])
while BC!=[4,0]:
dummyList=[]
for i0 in range(0,6):
for i1 in range(0,6):
for i2 in range(0,6):
for i3 in range(0,6):
opSecret=[i0,i1,i2,i3]
if HowManyBc(guess[:],opSecret[:])==BC:
dummyList.append(opSecret)
List1=[item for item in optionList if item in dummyList]
optionList=List1[:]
nextGuess1=[]
item1Max=0
L1=optionList[:]
L2=allList[:]
for item1 in L1:
ListBC=[]
for item2 in L2:
ListBC.append(HowManyBc(item1[:],item2[:]))
HMList=[0]*14 # how many times every possible BC appeared
for BC1 in ListBC:
HMList[index]=HMList[index]+1
m=MinimumNozeros(HMList[:])
if m>item1Max:
item1Max=m
nextGuess1=item1[:]
guess=nextGuess1[:]
BC=HowManyBc(guess[:],secret[:])
counter=counter+1
``````

Can someone help?

Thanks,Mike

-

Knuth's algorithm is:

1. Create a set S of remaining possibilities (at this point there are 1296). The first guess is aabb.
2. Remove all possibilities from S that would not give the same score of colored and white pegs if they were the answer.
3. For each possible guess (not necessarily in S) calculate how many possibilities from S would be eliminated for each possible colored/white score. The score of the guess is the least of such values. Play the guess with the highest score (minimax).
4. Go back to step 2 until you have got it right.

1. Create a set S of remaining possibilities (at this point there are 1296). The first guess is aabb.
2. Remove all possibilities from S that would not give the same score of colored and white pegs if they were the answer.
3. For each possible guess (that has to be in S) calculate how many possibilities from the set of all options would remain for each possible colored/white score. The score of the guess is the least of such values. Play the guess with the highest score (minimax).
4. Go back to step 2 until you have got it right.

You can fix this by changing the loop to:

``````for secret in TempList:
guess=[0,0,1,1]
BC=HowManyBc(guess[:],secret[:])
counter=1
optionList=[]
allList=[]
for i0 in range(0,6):
for i1 in range(0,6):
for i2 in range(0,6):
for i3 in range(0,6):
optionList.append([i0,i1,i2,i3])
allList.append([i0,i1,i2,i3])
#while BC!=[4,0]:
while len(optionList)>1:
dummyList=[]
for i0 in range(0,6):
for i1 in range(0,6):
for i2 in range(0,6):
for i3 in range(0,6):
opSecret=[i0,i1,i2,i3]
if HowManyBc(guess[:],opSecret[:])==BC:
dummyList.append(opSecret)
List1=[item for item in optionList if item in dummyList]
optionList=List1[:]
nextGuess1=[]
item1Max=0
#L1=optionList[:]
#L2=allList[:]
L2=optionList[:]
L1=allList[:]
for item1 in L1:
ListBC=[]
for item2 in L2:
ListBC.append(HowManyBc(item1[:],item2[:]))
HMList=[0]*14
for BC1 in ListBC:
HMList[index]=HMList[index]+1
#m=MinimumNozeros(HMList[:])
m=len(L1)-max(HMList[:])
if m>item1Max:
item1Max=m
nextGuess1=item1[:]
guess=nextGuess1[:]
BC=HowManyBc(guess[:],secret[:])
counter=counter+1
print optionList
``````
-
Thanks A lot!!!! – Mike Nov 30 '13 at 19:41
Another thing: can this algorithm be improved? right now it runs very slow - for all possible 1296 secrets it takes something like 40 minutes. I am required to do it much faster. – Mike Nov 30 '13 at 20:13
Use the built in set type for a start rather than doing things like `List1=[item for item in optionList if item in dummyList]` – YXD Nov 30 '13 at 20:19
The thing is, I actually have to write it on C. I did it on python since it is easier with the lists and others things in python. I need to make the algorithm itself faster (less moves, less checks...). – Mike Nov 30 '13 at 20:26
Probably fastest runtime is to use Python to precompute a decision tree showing which guess to make in every situation. Based on the score of bulls and cows you can choose which subtree to move to. This would execute in microseconds and only use a few kbytes of RAM :) – Peter de Rivaz Nov 30 '13 at 20:35