#<><><><><><><><><><><><><><><><><><><><><><><><> sodoko puzzle <><><><><><><><><><><><><><><><><><><><><><><><>
# By : Amir Naghvi #
# Olempico@Gmail.com #
global Platform
automatically.
Platform=[[0 for i in "."*9]for i in "."*9] # Main table to Handle Game
class main(object):
"------------- start --------------"
def __init__(self):
pass
def gameloop(self): # ----------------GAME LOOP
self.Fill()
while True:
o=raw_input('to show puzzle enter s to quit enter q: ')
if o=="s":self.show()
elif o=="q":return
(x,y,num)=input('first X then Y then NUM like X,Y,NUMBER: ')
if self.give(x,y,num):
print "True"
else:
print "you entered incorrect";
self.show()
def show(self): # -------To Printing puzzle
c1=0
c2=0
for i in Platform:
if c1%3==0:print">>>"*30,
print " "
c1+=1
for j in i:
c2+=1
if j==0:
print " ","_ _"," ",
if c2%3==0:print "||",;
else:
print " ",j," "," ",
if c2%3==0:print "||",;
print "\n";
print "\n\n";
def give(self,x,y,NUM): # ---for recieving number and it's position
""" first checks if the position in not filled then change position's number
then if the number is not valid changes the position number to 0 again and returns False"""
if Platform[x-1][y-1]!=0:print"\n_________Already Filled__________\n";return False
Platform [x-1][y-1]=NUM
if not self.control(x,y):
Platform [x-1][y-1]=0
return False
return True
def control(slef,x,y):
"""There is Three checking stages:1st we find the number's row ,column and cube number then
check if the row has not the same numbers ,2nd we collect the number's colmn neigbours in 'colmns' list
and simply do checking again 3rd: for checking the number in its cube area i explain below:"""
row=x-1/10
col=(y%10)-1
colmns=[]
# 1. row test >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>.1
rows=[Platform[row][i] for i in range(9)]
for i in range(9):
for j in range(9):
if j!=i:
if rows[i]==rows[j] and rows[i]!=0:
if not fill:
print 'row'
return False
# 2. column test >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>.2
colmns=[Platform[i][col] for i in range(9)]
for i in range(9):
for j in range(9):
if j!=i:
if colmns[i]==colmns[j] and colmns[j]!=0:
if not fill:
print 'col'
return False
# 3. 3x3 Cubes >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>.3
""" 1.frst for 'first' cube number in X attitiude and sec second cube number in y ,for example centeral cube is (3,3)
or first cube from bottom is (0,6) 2.then in 'cube' list i gather the cube numbers and 3.then simply check if there is a
repeated numbers"""
# 1.
frst=-1
sec=-1
if col<4:frst=0
elif col<7:frst=3
elif col<10:frst=6
if col<4:sec=0
elif col<7:sec=3
elif col<10:sec=6
# 2.
cube=[Platform[frst][sec+i]for i in range(3)] # creating cube
cube.extend([Platform[frst+1][sec+i]for i in range(3)])
cube.extend([Platform[frst+2][sec+i]for i in range(3)])
#print cube
# 3.
for i in range(9):
for j in range(9):
if j!=i:
if cube[i]==cube[j] and cube[i]!=0:
if not fill:
print 'cube'
return False
return True
# ---------------------------------------------------------------------
# ---------------------------------------------------------------------
o=main()
o.gameloop()
Diff to Previous Revision
--- revision 2 2011-05-23 08:40:15
+++ revision 3 2011-05-23 08:47:28
@@ -7,11 +7,10 @@
global Platform
-global fill
-fill=False # to not printing type of mistake while asighning table automatically.
+automatically.
Platform=[[0 for i in "."*9]for i in "."*9] # Main table to Handle Game
-import random
+
class main(object):
"------------- start --------------"
def __init__(self):
@@ -115,30 +114,7 @@
return False
return True
- def give2(self,x,y,NUM): # ---for recieving number and it's position
- """ first checks if the position in not filled then change position's number
- then if the number is not valid changes the position number to 0 again and returns False"""
-
- if Platform[x-1][y-1]!=0:return False
- Platform [x-1][y-1]=NUM
- if not self.control(x,y):
- Platform [x-1][y-1]=0
- return False
- return True
-
- def Fill(self): #asighning values to table automatically
- global fill
- fill=True
- c=0
- limit=random.randint(14,30)
- while c<=limit:
- l=[]
- (x,y,num)=(random.randint(0,8),random.randint(0,8),random.randint(0,8))
- if self.give2(x,y,num):
- c+=1
- fill=False
-
-
+
# ---------------------------------------------------------------------
# ---------------------------------------------------------------------
