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2X2.py
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2X2.py
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from curses import initscr,curs_set,newwin,endwin,KEY_RIGHT,KEY_LEFT,KEY_DOWN,KEY_UP
from random import randrange
import curses
import gamehelp
initscr()
welcome=newwin(200,200,0,0)
#def gamehelp1():
# key=None
# initscr()
# global welcome
# welcome.erase()
# welcome.refresh()
# key=welcome.getch()
# while(1):
# global welcome
# initscr()
# key=welcome.getch()
# curses.start_color()
# curses.init_pair(1,curses.COLOR_CYAN,curses.COLOR_BLACK)
# curses.init_pair(2,curses.COLOR_RED,curses.COLOR_WHITE)
# curses.init_pair(3,curses.COLOR_WHITE,curses.COLOR_BLUE)
# welcome=newwin(100,100,0,0)
# welcome.bkgd(' ',curses.color_pair(2))
# welcome.addstr(0,0,'WELCOME TO HELP MENU')
# welcome.refresh()
#curses.flash()
# d=curses.color_pair(2)
# n=curses.A_NORMAL
# curs_set(0)
#
# welcome.addstr(15,50,'USE ARROW KEYS TO MOVE THE ROBOT ',curses.color_pair(2))
# welcome.refresh()
# welcome.addstr(17,50,'USE P TO PAUSE AND ESC ANYTIME TO QUIT THE GAME',curses.color_pair(2))
# welcome.addstr(19,50,'USE OPTIONS TO MODIFY GAME',curses.color_pair(2))
# welcome.addstr(21,50,'COLLECT ALL CODES BEFORE GOING FOR BOMB TO WIN THE GAME',n)
# welcome.addstr(23,50,'IF ROBO COLLECTS THE BOMB BEFORE ALL CODES YOU LOOSE THE GAME',curses.color_pair(2))
# welcome.addstr(25,50,'PRESS Q TO GO BACK',curses.color_pair(3))
# welcome.addstr(27,50,'ENJOY THE GAME!!',curses.color_pair(3))
# welcome.addstr(29,50,'CREDITS RISHABH',curses.color_pair(3))
# if welcome.getch()==ord('q') or welcome.getch()==ord('Q'):
# break
# welcome1()
arrofcodes=[' 1',' 2',' 3',' 4',' 5',' 6',' 7',' 8',' 9','10']
codes=10
arroflevels=["Rookie ","Intermediate","Pro "]
levelx=1
arrofspeed=["slow ","fast ","medium","insane "]
speed=1
arrofrobo=["2X2","3X3","4X4"]
robonumber=1
countturn=1
def options():
global arrofcodes
global levelx
global arrofspeed
global codes
global arroflevels
global speed
global arrofrobo
global robonumber
global welcome
global countturn
welcome=newwin(200,200,0,0)
welcome.erase()
welcome.refresh()
# key=None
welcome.addstr(19,80,arroflevels[0])
welcome.addstr(21,80,str(arrofcodes[0]))
welcome.addstr(23,80,arrofspeed[0])
welcome.addstr(25,80,arrofrobo[0])
def mainfunc():
key=0
global countturn
# countturn=1
while(key & 255!=10):
initscr()
curses.start_color()
curses.init_pair(1,curses.COLOR_CYAN,curses.COLOR_BLACK)
curses.init_pair(2,curses.COLOR_RED,curses.COLOR_WHITE)
curses.init_pair(3,curses.COLOR_WHITE,curses.COLOR_BLUE)
welcome.bkgd(' ',curses.color_pair(1))
#curses.flash()
d=curses.color_pair(2)
n=curses.A_NORMAL
curs_set(0)
welcome.keypad(1)
# print countturn
#welcome.addstr(1,1,str(countturn))
welcome.addstr(17,60,'PLEASE SELECT AN OPTION',curses.color_pair(2))
if countturn==1:
welcome.addstr(19,60,'LEVEL',d)
else:
welcome.addstr(19,60,'LEVEL',n)
if countturn==2:
welcome.addstr(21,60,'NUMBER OF CODES',d)
else:
welcome.addstr(21,60,'NUMBER OF CODES',n)
if countturn==3:
welcome.addstr(23,60,'SPEED',d)
else:
welcome.addstr(23,60,'SPEED',n)
if countturn==4:
welcome.addstr(25,60,'ROBO SIZE',d)
else:
welcome.addstr(25,60,'ROBO SIZE',n)
if countturn==5:
welcome.addstr(27,60,'BACK',d)
else:
welcome.addstr(27,60,'BACK',n)
key=welcome.getch()
if key==KEY_DOWN:
countturn=countturn+1
if(countturn>5):
countturn=1
if key==KEY_UP:
countturn=countturn-1
if(countturn==0):
countturn=5
#y=None
# while(y!='\n'):
# if key==KEY_UP:
# countcodes=countcodes-1
# if(countcodes==-1):
# countcodes=7
# welcome.addch(21,70,lofd[countcodes])
# welcome.refresh()
mainfunc()
if countturn==5:
welcome.erase()
welcome.refresh()
welcome1()
while countturn!=5:
if(countturn==1):
y=0
x=0
while(y & 255!=10 ):
welcome.addstr(19,80,arroflevels[x])
#welcome.addstr(19,95,str(countturn))
levelx=x
#welcome.addstr(2,2,str(levelx))
welcome.refresh()
y=welcome.getch()
if y==KEY_DOWN:
x=x+1
if(x==3):
x=0
if y==KEY_UP:
x=x-1
if(x<0):
x=2
welcome.refresh()
mainfunc()
if (countturn==2):
y=0
x=0
while(y & 255 != 10):
welcome.addstr(21,80,arrofcodes[x])
codes=int(arrofcodes[x])
#welcome.addstr(21,95,str(countturn))
welcome.refresh()
y=welcome.getch()
if y==KEY_DOWN:
x=x+1
if(x==10):
x=0
elif y==KEY_UP:
x=x-1
if(x<0):
x=9
welcome.refresh()
mainfunc()
if countturn==3:
y=0
x=0
while(y & 255!= 10):
welcome.addstr(23,80,arrofspeed[x])
speed=x
welcome.refresh()
y=welcome.getch()
if y==KEY_DOWN:
x=x+1
if(x==4):
x=0
elif y==KEY_UP:
x=x-1
if x<0:
x=3
welcome.refresh()
mainfunc()
if countturn==4:
y=0
x=0
while(y & 255 != 10):
welcome.addstr(25,80,arrofrobo[x])
robonumber=x
# welcome.addstr(25,90,str(robonumber))
welcome.refresh()
y=welcome.getch()
if y==KEY_DOWN:
x=x+1
if(x==3):
x=0
elif y==KEY_UP:
x=x-1
if x<0:
x=2
welcome.refresh()
mainfunc()
if countturn==5:
welcome.erase()
welcome.refresh()
welcome1()
#mainfunc()
#if key==ord('c') or key==ord('C'):
# return
# elif key==ord('e') or key==ord('E'):
# endwin()
# exit()
speedarr=[180,140,100,60]
def welcome1():
global welcome
welcome.erase()
welcome.refresh()
countturn=1
key=0
# global robo
#welcome.addstr(2,2,str(robo))
while(key & 255!=10):
initscr()
curses.start_color()
curses.init_pair(1,curses.COLOR_CYAN,curses.COLOR_BLACK)
curses.init_pair(2,curses.COLOR_RED,curses.COLOR_WHITE)
curses.init_pair(3,curses.COLOR_WHITE,curses.COLOR_BLUE)
welcome.bkgd(' ',curses.color_pair(1))
#curses.flash()
d=curses.color_pair(2)
n=curses.A_NORMAL
curs_set(0)
welcome.keypad(1)
welcome.addstr(30,50,'copyright (Kumar Rishabh) ',curses.color_pair(3))
welcome.addstr(32,50,'TO BE PUBLISHED UNDER GNU LICENSE ON GITHUB SOON',curses.color_pair(3))
welcome.addstr(34,50,'WITH LOTS OF MODIFICATIONS',curses.color_pair(3))
welcome.addstr(15,60,'WELCOME TO ROBO BOMB DEFUSER',n)
welcome.addstr(17,60,'PLEASE SELECT AN OPTION',curses.color_pair(2))
if countturn==1:
welcome.addstr(19,60,'NEW GAME',d)
else:
welcome.addstr(19,60,'NEW GAME',n)
if countturn==2:
welcome.addstr(21,60,'HIGHSCORE',d)
else:
welcome.addstr(21,60,'HIGHSCORE',n)
if countturn==3:
welcome.addstr(23,60,'HELP',d)
else:
welcome.addstr(23,60,'HELP',n)
if countturn==4:
welcome.addstr(25,60,'OPTIONS',d)
else:
welcome.addstr(25,60,'OPTIONS',n)
if countturn==5:
welcome.addstr(27,60,'EXIT',d)
else:
welcome.addstr(27,60,'EXIT',n)
key=welcome.getch()
if key==KEY_DOWN:
countturn=countturn+1
if(countturn>5):
countturn=1
if key==KEY_UP:
countturn=countturn-1
if(countturn==0):
countturn=5
if countturn==1:
welcome.erase()
welcome.refresh()
return
if countturn==5:
endwin()
exit()
if countturn==4:
welcome.erase()
welcome.refresh()
options()
if countturn==3:
welcome.erase()
welcome.refresh()
gamehelp.gamehelp()
welcome1()
if countturn==2:
#welcome.erase()
welcome.refresh()
welcome.addstr(2,2,"High Score function not functional till now")
# endwin()
#if key==ord('c') or key==ord('C'):
# return
# elif key==ord('e') or key==ord('E'):
# endwin()
# exit()
welcome1()
welcome.erase()
welcome.refresh()
#gamehelp()
initscr()
curses.start_color()
curses.init_pair(1,curses.COLOR_GREEN,curses.COLOR_BLACK)
curses.init_pair(2,curses.COLOR_RED,curses.COLOR_BLACK)
curses.init_pair(3,curses.COLOR_CYAN,curses.COLOR_BLACK)
curses.init_pair(5,curses.COLOR_BLACK,curses.COLOR_CYAN)
curs_set(0)
hnw=[[30,80],[40,90],[50,100]]
height=40
width=90
if levelx==0:
height=hnw[0][0]
width=hnw[0][1]
elif levelx==1:
height=hnw[1][0]
width=hnw[1][1]
elif levelx==2:
height=hnw[2][0]
width=hnw[2][1]
#win = newwin(30,80,5,5)
win=newwin(height,width,5,5)
#test= newwin(30,30,40,80)
#test.border()
#if levelx==1:
# win.bkgd(' ',curses.color_pair(5))
# curses.init_pair(2,curses.COLOR_RED,curses.COLOR_CYAN)
# curses.init_pair(3,curses.COLOR_BLUE,curses.COLOR_CYAN)
#else:
win.bkgd(' ',curses.color_pair(1))
win.keypad(1)
win.nodelay(1)
win.border()
#win.addch(29,44,'O')
snake = [ [30,7],[30,6],[30,5],[30,4],[29,7],[29,6],[29,5],[29,4],[28,7],[28,6],[28,5],[28,4],[27,7],[27,6],[27,5],[27,4] ]
robocoord=[[30,7],[30,6],[29,7],[29,6]]
robomedcoord=[[30,7],[30,6],[30,5],[29,7],[29,6],[29,5],[28,7],[28,6],[28,5]]
key = KEY_RIGHT
#print KEY_RIGHT
d=codes
#win.addch(60,20,'T')
decision=0
cOFd=[n for n in [[randrange(1,height-1,1),randrange(1,width-1,1)] for x in range(d) ] if n not in snake]
#print cOFd[0][1],cOFd[0][0]
cOFo=[n for n in [[randrange(1,height-1,1),randrange(1,width-1,1)] for x in range(codes/2)] if n not in snake if n not in cOFd]
#for x in range(0,len(cOFd)):
#print cOFd
# win.addch(cOFd[x][0],cOFd[x][1],'C',curses.color_pair(2))
#if levelx==1:
# for x in range(0,len(cOFo)):
# win.addch(cOFo[x][0],cOFo[x][1],'A',curses.color_pair(3))
posy=0
posx=0
#for i in xrange(0,height):
# for j in xrange(0,width):
# if win.inch(i,j)==ord('B'):
# posy=i
#
# posx=j
#win.addstr(2,2,str(posy)+str(posx))
ancount=codes/2-1
antiscore=0
class level:
def __init__(self,height,width,levelx,count,ancount,antiscore,d):
self.height=height
self.width=width
self.levelx=levelx
self.ancount=ancount
self.antiscore=antiscore
self.count=count
self.d=d
def placecodes(self,win,cOFd):
for x in range(0,len(cOFd)):
win.addch(cOFd[x][0],cOFd[x][1],'C',curses.color_pair(3))
def placebomb(self,win):
win.addch(randrange(1,self.height-1,1),randrange(1,self.width-1,1),'B',curses.A_REVERSE)
def placeobstacle(self,win,cOFo):
for x in xrange(0,len(cOFo)):
win.addch(cOFo[x][0],cOFo[x][1],'A',curses.color_pair(2))
def inccount(self):
self.count=self.count+1
def decancount(self):
self.ancount=self.ancount-1
def incantiscore(self):
self.antiscore=self.antiscore+1
def checksm(self,robocoord):
global count
# global robosmall
# global robosmall2
#global levelx
global antiscore
global ancount
status=0
for i in xrange(0,len(robocoord)):
if(win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('C')):
self.inccount()
# win.addch(5,5,count)
elif(self.count==d and win.inch(robocoord[i][1],robocoord[i][0]) & 255 ==ord('B')):
status=1
return status
elif(self.count!=d and win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('B')):
status=-1
return status
elif(self.levelx==1 and win.inch(robocoord[i][1],robocoord[i][0]) & 255 ==ord('A') and self.ancount!=0):
self.decancount()
self.incantiscore()
# win.addch(5,5,str(ancount))
elif(self.levelx==1 and win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('A') and self.ancount==0):
status=-1
return status
return status
count=0
a=level(height,width,levelx,count,ancount,antiscore,d)
a.placecodes(win,cOFd)
a.placebomb(win)
win.addstr(2,2,str(levelx))
if levelx==1:
a.placeobstacle(win,cOFo)
#print cOFd
count=0
flag=0
decision=0
#status=0
#snake=map(lambda x:[x[0]+1,x[1]],snake)
#print snake
#for x in range(0,len(snake)):
# win.addch(snake[x][1],snake[x][0],'X')
robo=['\\','|',']','/',' ','_','@','i',' ','_','@','i','/','|','[','\\']
robo2=['|','|',']','/',' ','_',' ','i',' ','_',' ','i','|','|','[','\\']
robo3=['|','|',']','/',' ','_','@',' ',' ','_','@',' ','|','|','[','\\']
robosmall=['@','/','@','\\']
robosmall1=[' ','/',' ','\\']
robomed=['\\','/','-',' ','R','@','/','\\','-']
robomed1=['|','/','>',' ','R','@','|','\\','-']
robomed2=['|','\\','>',' ','R','@','|','/','<']
def robomedfunc():
global speed
global speedarr
global robomedcoord
global key
global robomed
global flag
global decision
global count
global robomed1
global robomed2
global height
global width
global levelx
global codes
global ancount
global antiscore
prev=None
for i in xrange(0,len(robomedcoord)):
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed[i])
countleft=0
countright=0
countup=0
countdown=0
while key != 27:
if(robomedcoord[0][0]==width-1 or robomedcoord[8][0]==0):
flag=-1
break
elif(robomedcoord[0][1]==height-1 or robomedcoord[2][1]==0):
flag=-1
break
win.addstr(0,width/2-9,' code points' + ' : '+str(a.count*10-a.antiscore*10)+' ')
win.timeout(speedarr[speed]-count*10)#+ ( (len(snake)-6) % 10- (len(snake)-6) ) * 3 )
prev=key
getkey = win.getch()
key = key if getkey==-1 else getkey
def check():
global robomedcoord
global count
global robomed
global robomed1
global robomed2
global ancount
global levelx
global antiscore
# win.addstr(3,3,str(levelx))
status=0
for i in xrange(0,len(robomedcoord)):
if(win.inch(robomedcoord[i][1],robomedcoord[i][0]) & 255 == ord('C')):
count=count+1
# win.addch(5,5,count)
elif(count==d and win.inch(robomedcoord[i][1],robomedcoord[i][0]) & 255 ==ord('B')):
status=1
return status
elif(count!=d and win.inch(robomedcoord[i][1],robomedcoord[i][0]) & 255 == ord('B')):
status=-1
return status
elif(levelx==1 and win.inch(robomedcoord[i][1],robomedcoord[i][0]) & 255 ==ord('A') and ancount!=0):
ancount=ancount-1
antiscore=antiscore+1
# win.addch(5,5,str(ancount))
elif(levelx==1 and win.inch(robomedcoord[i][1],robomedcoord[i][0]) & 255 == ord('A') and ancount==0):
status=-1
return status
return status
if(key==KEY_RIGHT):
robomedcoord=map(lambda x:[x[0]+1,x[1]] , robomedcoord)
decision=a.checksm(robomedcoord)
if(decision==0):
for i in xrange(0,len(robomedcoord)):
if countright==0:
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed[i],curses.color_pair(2))
elif countright==1:
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed1[i])
for i in xrange(6,9):
win.addch(robomedcoord[i][1],robomedcoord[i][0]-1,' ')
if(countright==0):
countright=1
else:
countright=0
else:
break
elif(key==KEY_LEFT):
robomedcoord=map(lambda x:[x[0]-1,x[1]],robomedcoord)
# print snake
decision=a.checksm(robomedcoord)
if(decision==0):
# for i in xrange(0,4):
# win.addch(snake[i][1],snake[i][0]+1,' ')
# for i in xrange(4,8):
# win.addch(snake[i][1],snake[i][0],'X')
for i in xrange(0,len(robomedcoord)):
if countleft==1:
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed1[i])
win.addch(robomedcoord[8][1],robomedcoord[8][0],'<')
win.addch(robomedcoord[2][1],robomedcoord[2][0],'-')
else:
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed[i],curses.color_pair(2))
for i in xrange(0,3):
win.addch(robomedcoord[i][1],robomedcoord[i][0]+1,' ')
if(countleft==0):
countleft=1
else:
countleft=0
else:
break
#snake.insert(0,[snake[0][0]+(key==KEY_RIGHT and 1 or key==KEY_LEFT and -1), snake[0][1]+(key==KEY_DOWN and 1 or key==KEY_UP and -1)])
# win.addch(snake[len(snake)-1][1],snake[len(snake)-1][0],' ')
elif(key==KEY_DOWN):
robomedcoord=map(lambda x:[x[0],x[1]+1],robomedcoord)
# print snake
decision=a.checksm(robomedcoord)
if(decision==0):
for i in xrange(0,len(robomedcoord)):
if(countdown==0):
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed[i],curses.color_pair(2))
else:
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed2[i])
win.addch(robomedcoord[2][1]-1,robomedcoord[2][0],' ')
win.addch(robomedcoord[5][1]-1,robomedcoord[5][0],' ')
win.addch(robomedcoord[8][1]-1,robomedcoord[8][0],' ')
if(countdown==0):
countdown=1
else:
countdown=0
else:
break
elif(key==KEY_UP):
robomedcoord=map(lambda x:[x[0],x[1]-1],robomedcoord)
# print snake
decision=a.checksm(robomedcoord)
if(decision==0):
for i in xrange(0,len(robomedcoord)):
if(countup==0):
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed[i],curses.color_pair(2))
elif(countup==1):
win.addch(robomedcoord[i][1],robomedcoord[i][0],robomed2[i])
win.addch(robomedcoord[0][1]+1,robomedcoord[0][0],' ')
win.addch(robomedcoord[3][1]+1,robomedcoord[3][0],' ')
win.addch(robomedcoord[6][1]+1,robomedcoord[6][0],' ')
if(countup==0):
countup=1
else:
countup=0
else:
break
elif key == ord('p'):
y=win.getch()
while(y!=ord('p')):
y=win.getch()
key=prev
# print snake
def robosmallfunc():
global robocoord
global key
global robosmall
global speed
global speedarr
global flag
global decision
global count
global robsmall2
global height
global width
global ancount
countright=0
countleft=0
countup=0
countdown=0
prev=None
for i in xrange(0,len(robocoord)):
win.addch(robocoord[i][1],robocoord[i][0],robosmall[i])
while key != 27:
if(robocoord[0][0]==width-1 or robocoord[3][0]==0):
flag=-1
break
elif(robocoord[0][1]==height-1 or robocoord[1][1]==0):
flag=-1
break
win.addstr(0,width/2-7,' code points' + ' : '+str(a.count*10-a.antiscore*10)+' ')
win.timeout(speedarr[speed]-count*10)#+ ( (len(snake)-6) % 10- (len(snake)-6) ) * 3 )
prev=key
getkey = win.getch()
key = key if getkey==-1 else getkey
def check():
global robocoord
global count
global robosmall
global decision
global robosmall2
global levelx
global antiscore
global ancount
status=0
for i in xrange(0,len(robocoord)):
if(win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('C')):
count=count+1
# win.addch(5,5,count)
elif(count==d and win.inch(robocoord[i][1],robocoord[i][0]) & 255 ==ord('B')):
status=1
return status
elif(count!=d and win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('B')):
status=-1
return status
elif(levelx==1 and win.inch(robocoord[i][1],robocoord[i][0]) & 255 ==ord('A') and ancount!=0):
ancount=ancount-1
antiscore=antiscore+1
# win.addch(5,5,str(ancount))
elif(levelx==1 and win.inch(robocoord[i][1],robocoord[i][0]) & 255 == ord('A') and ancount==0):
status=-1
return status
return status
if(key==KEY_RIGHT):
robocoord=map(lambda x:[x[0]+1,x[1]] , robocoord)
decision=a.checksm(robocoord)
if(decision==0):
for i in xrange(0,len(robocoord)):
if countright==0:
win.addch(robocoord[i][1],robocoord[i][0],robosmall[i])
win.addch(robocoord[0][1],robocoord[0][0],robosmall[0],curses.color_pair(2))
win.addch(robocoord[2][1],robocoord[2][0],robosmall[2],curses.color_pair(2))
else:
win.addch(robocoord[i][1],robocoord[i][0],robosmall1[i])
for i in xrange(2,4):
win.addch(robocoord[i][1],robocoord[i][0]-1,' ')
if countright==0:
countright=1
else:
countright=0
else:
break
elif(key==KEY_LEFT):
robocoord=map(lambda x:[x[0]-1,x[1]],robocoord)
# print snake
decision=a.checksm(robocoord)
if(decision==0):
# for i in xrange(0,4):
# win.addch(snake[i][1],snake[i][0]+1,' ')
# for i in xrange(4,8):
# win.addch(snake[i][1],snake[i][0],'X')
for i in xrange(0,len(robocoord)):
if countleft==0:
win.addch(robocoord[i][1],robocoord[i][0],robosmall[i])
win.addch(robocoord[0][1],robocoord[0][0],robosmall[0],curses.color_pair(2))
win.addch(robocoord[2][1],robocoord[2][0],robosmall[2],curses.color_pair(2))
else :
win.addch(robocoord[i][1],robocoord[i][0],robosmall1[i])
for i in xrange(0,2):
win.addch(robocoord[i][1],robocoord[i][0]+1,' ')
if countleft==0:
countleft=1
else:
countleft=0
else:
break
#snake.insert(0,[snake[0][0]+(key==KEY_RIGHT and 1 or key==KEY_LEFT and -1), snake[0][1]+(key==KEY_DOWN and 1 or key==KEY_UP and -1)])
# win.addch(snake[len(snake)-1][1],snake[len(snake)-1][0],' ')
elif(key==KEY_DOWN):
robocoord=map(lambda x:[x[0],x[1]+1],robocoord)
# print snake
decision=a.checksm(robocoord)
if(decision==0):
for i in xrange(0,len(robocoord)):
if countdown==0:
win.addch(robocoord[i][1],robocoord[i][0],robosmall[i])
win.addch(robocoord[0][1],robocoord[0][0],robosmall[0],curses.color_pair(2))
win.addch(robocoord[2][1],robocoord[2][0],robosmall[2],curses.color_pair(2))
else:
win.addch(robocoord[i][1],robocoord[i][0],robosmall1[i])
win.addch(robocoord[1][1],robocoord[1][0],'\\')
win.addch(robocoord[3][1],robocoord[3][0],'/')
win.addch(robocoord[1][1]-1,robocoord[1][0],' ')
win.addch(robocoord[3][1]-1,robocoord[3][0],' ')
if countdown==0:
countdown=1
else:
countdown=0
else:
break
elif(key==KEY_UP):
robocoord=map(lambda x:[x[0],x[1]-1],robocoord)
# print snake
decision=a.checksm(robocoord)
if(decision==0):
for i in xrange(0,len(robocoord)):
if countup==0:
win.addch(robocoord[i][1],robocoord[i][0],robosmall[i])
win.addch(robocoord[0][1],robocoord[0][0],robosmall[0],curses.color_pair(2))
win.addch(robocoord[2][1],robocoord[2][0],robosmall[2],curses.color_pair(2))
else:
win.addch(robocoord[i][1],robocoord[i][0],robosmall1[i])
win.addch(robocoord[1][1],robocoord[1][0],'\\')
win.addch(robocoord[3][1],robocoord[3][0],'/')
win.addch(robocoord[0][1]+1,robocoord[0][0],' ')
win.addch(robocoord[2][1]+1,robocoord[2][0],' ')
if countup==0:
countup=1
else:
countup=0
else:
break
elif key == ord('p'):
y=win.getch()
while(y!=ord('p')):
y=win.getch()
key=prev
#if key & 255 ==ord('p'):
# win.addch(3,3,"x")
# getkey=-1
# win.timeout(-1)
# while getkey==-1:
# getkey=win.getch()
# win.addch(3,3,"r")
# if getkey!=-1:
#
# win.timeout(180)
# getkey=KEY_RIGHT
# flagx=0
# break
curses.init_pair(4,curses.COLOR_BLUE,curses.COLOR_BLACK)
def robo1():
global snake
global key
global robo
global flag
global decision
global speed
global speedarr
global height
global width
global ancount
prev=None
countright=countleft=countup=countdown=0
win.addch(snake[0][1],snake[0][0],'\\')
win.addch(snake[1][1],snake[1][0],'|')
win.addch(snake[2][1],snake[2][0],']')
win.addch(snake[3][1],snake[3][0],'/')
win.addch(snake[4][1],snake[4][0],' ')
win.addch(snake[5][1],snake[5][0],'_')
win.addch(snake[6][1],snake[6][0],'@')
win.addch(snake[7][1],snake[7][0],'i')
win.addch(snake[8][1],snake[8][0],' ')
win.addch(snake[9][1],snake[9][0],'_')
win.addch(snake[10][1],snake[10][0],'@')
win.addch(snake[11][1],snake[11][0],'i')
win.addch(snake[12][1],snake[12][0],'/')
win.addch(snake[13][1],snake[13][0],'|')
win.addch(snake[14][1],snake[14][0],'[')
win.addch(snake[15][1],snake[15][0],'\\')
while key != 27:
if(snake[0][0]==width-1 or snake[15][0]==0):
flag=-1
break
elif(snake[0][1]==height-1 or snake[7][1]==0):
flag=-1
break
win.addstr(0,width/2-9,' code points' + ' : '+str(a.count*10-a.antiscore*10)+' ')
win.timeout(speedarr[speed]-count*8)#+ ( (len(snake)-6) % 10- (len(snake)-6) ) * 3 )
prev=key
getkey = win.getch()
key = key if getkey==-1 else getkey
def check():
global snake
global count
global levelx
global antiscore
global ancount
status=0
for i in xrange(0,len(snake)):
if(win.inch(snake[i][1],snake[i][0]) & 255 == ord('C')):
count=count+1
# win.addch(5,5,count)
elif(count==d and win.inch(snake[i][1],snake[i][0]) & 255 ==ord('B')):
status=1
return status
elif(count!=d and win.inch(snake[i][1],snake[i][0]) & 255 == ord('B')):
status=-1
return status
elif(levelx==1 and win.inch(snake[i][1],snake[i][0]) & 255 ==ord('A') and ancount!=0):
ancount=ancount-1
antiscore=antiscore+1
# win.addch(5,5,str(ancount))
elif(levelx==1 and win.inch(snake[i][1],snake[i][0]) & 255 == ord('A') and ancount==0):
status=-1
return status
return status
if(key==KEY_RIGHT):
snake=map(lambda x:[x[0]+1,x[1]] , snake)
decision=a.checksm(snake)
if(decision==0):
for i in xrange(0,len(snake)):
if countright==0:
win.addch(snake[i][1],snake[i][0],robo[i],curses.color_pair(4))
win.addch(snake[0][1],snake[0][0],robo[0],curses.color_pair(1))