tictacdat.py
Modul-Datei für tictac.py; ist selber nicht lauffähig.
tictacdat.py — text/python-source, 3 KB (3151 bytes)
Dateiinhalt
from visual import * def grid(n=5, ds = 1., gridcolor = (.6, .6, .6)): assert n > 2, "n must be > 2" j=n//2 k=j*2 if k==n: offset=0 else: offset = ds/2. grid = curve(color = gridcolor) for z in arange (-(j+offset)*ds, (j+offset+1)*ds, ds): for x in arange(-(j+offset)*ds, (j+offset+1)*ds, ds): grid.append(pos=(x, 0, z)) if x == (j+offset) and not z==(j+offset): grid.append (pos=(-(j+offset)*ds,0,z)) grid.append (pos=(-(j+offset)*ds,0,z+1)) grid.append(pos=((j+offset)*ds,0,-(j+offset)*ds)) grid.append (pos=(-(j+offset-1)*ds,0,-(j+offset)*ds)) for x in arange (-(j+offset)*ds, (j+offset)*ds, ds): for z in arange (-(j+offset)*ds, (j+offset+1)*ds, 1): grid.append (pos=(x, 0, z)) if z == (j+offset): grid.append (pos=(x,0,-(j+offset)*ds)) grid.append (pos=(x+1, 0, -(j+offset)*ds)) return grid def win(): wins1=[] wins2=[] wins3=[] wins4=[] wins=[] # planar rows & columns for y in arange (-2,2,1): z=-2 for x in arange(-2, 2,1): col=[(x,y,z), (x,y,z+1), (x,y,z+2), (x,y,z+3)] wins1.append(col) x=-2 for z in arange(-2,2,1): row=[(x,y,z), (x+1,y,z), (x+2,y,z),(x+3,y,z)] wins1.append(row) ## print "wins1" ## for a in arange(0,len(wins1)): ## print wins1[a] # planar diagonals x=-2 z=-2 for y in arange (-2,2,1): wins2.append([(x,y,z), (x+1,y,z+1), (x+2,y,z+2), (x+3,y,z+3)]) wins2.append([(x,y,z+3), (x+1,y,z+2), (x+2,y,z+1), (x+3,y,z)]) ## print " " ## print "wins2" ## for a in arange(0,len(wins2)): ## print wins2[a] y=-2 # vertical columns for x in arange (-2,2,1): for z in arange (-2,2,1): wins3.append([(x,y,z),(x,y+1,z), (x,y+2,z), (x,y+3,z)]) ## print " " ## print "wins3" ## for a in arange(0,len(wins3)): ## print wins3[a] # 3d diagonals x=-2 y=-2 z=-2 wins4.append([(x,y,z), (x+1, y+1, z+1), (x+2, y+2, z+2), (x+3,y+3,z+3)]) z=1 wins4.append([(x,y,z), (x+1, y+1, z-1), (x+2, y+2, z-2), (x+3,y+3,z-3)]) x=1 z=-2 wins4.append([(x,y,z), (x-1, y+1, z+1), (x-2, y+2, z+2), (x-3,y+3,z+3)]) z=1 wins4.append([(x,y,z), (x-1, y+1, z-1), (x-2, y+2, z-2),(x-3,y+3,z-3)]) # 3d slant z=-2 y=-2 for x in arange(-2,2,1): wins4.append([(x,y,z), (x,y+1,z+1), (x,y+2,z+2), (x,y+3,z+3)]) wins4.append([(x,y,z+3), (x,y+1,z+2), (x,y+2,z+1), (x,y+3,z)]) x=-2 for z in arange(-2,2,1): wins4.append([(x,y,z), (x+1,y+1,z), (x+2,y+2,z), (x+3,y+3,z)]) wins4.append([(x+3,y,z), (x+2,y+1,z), (x+1,y+2,z), (x,y+3,z)]) ## print " " ## print "wins4" ## for a in arange(0,len(wins4)): ## print wins4[a] wins=wins1+wins2+wins3+wins4 return wins ##a=win() print " " print "Run 'tictac.py' to play 3D tictactoe."