cpython/Demo/sgi/gl/kunst.py

447 lines
9.9 KiB
Python
Executable File

#!/ufs/guido/bin/sgi/python
# Simulate the artwork in the hall.
# Jack Jansen, Feb 91.
#
# Please please please don't try to read this code.
# It is the first GL program I ever wrote, and used to do
# very different things before it's current function:-)
from gl import *
from GL import *
from math import *
from DEVICE import *
import sys
import __main__
main_dict = __main__.__dict__
SPOTDIRECTION = 103
SPOTLIGHT = 104
#
# Make a cylinder paralel with the Z axis with center (X,Y,0)
# and radius 1
def mkcyl(nslice, nparts, docircle):
cyl = []
step = 2.0 / float(nslice)
z = -1.0
for i in range(nslice):
cyl.append(mkslice(z, z+step, nparts, docircle))
z = z + step
return drawcylinder(cyl)
#
# Make one part of a cylinder
#
def mkslice(z1, z2, nparts, docircle):
if docircle:
w1 = z1
w2 = z2
w1 = sqrt(1.0-w1*w1)
w2 = sqrt(1.0-w2*w2)
normalz = 1.0
else:
w1 = 1.0
w2 = 1.0
normalz = 0.0
slice = []
step = (2.0*pi)/float(nparts)
angle = 0.0
for i in range(nparts+1):
vx = cos(angle)
vy = sin(angle)
slice.append( ((vx*w1,vy*w1,z1), (vx*w1, vy*w1, z1*normalz)) )
slice.append( ((vx*w2,vy*w2,z2), (vx*w2, vy*w2, z2*normalz)) )
angle = angle + step
return slice
#
# Drawcylinder : draw the cylinder
#
class struct(): pass
curobj = struct()
curobj.curobj = 1
def drawcylinder(cyl):
obj = curobj.curobj
curobj.curobj = curobj.curobj+1
makeobj(obj)
for slice in cyl:
bgntmesh()
vnarray(slice)
endtmesh()
closeobj()
return obj
#
def drawnormals(cyl):
for slice in cyl:
for triang in slice:
bgnline()
v3f(triang[0])
v3f(triang[0][0] + triang[1][0], triang[0][1] + triang[1][1], triang[0][2] + triang[1][2])
endline()
def drawfloors():
obj = curobj.curobj
curobj.curobj = curobj.curobj+1
makeobj(obj)
bgnpolygon()
v3i(4,6,-6)
v3i(-6,6,-6)
v3i(-6,-6,-6)
v3i(4,-6,-6)
endpolygon()
for floor in range(3):
pos = -1 + 5*floor
bgnpolygon()
v3i(4,4,pos)
v3i(-6,4,pos)
v3i(-6,6,pos)
v3i(4,6,pos)
endpolygon()
bgnpolygon()
v3i(-4,4,pos)
v3i(-4,-4,pos)
v3i(-6,-4,pos)
v3i(-6,4,pos)
endpolygon()
bgnpolygon()
v3i(-6,-4,pos)
v3i(-6,-6,pos)
v3i(4,-6,pos)
v3i(4,-4,pos)
endpolygon()
closeobj()
return obj
def drawdoors():
obj = curobj.curobj
curobj.curobj = curobj.curobj+1
makeobj(obj)
for floor in range(3):
pos = -1+5*floor
bgnpolygon()
v3i(-2,6,pos)
v3i(-2,6,pos+3)
v3i(0,6,pos+3)
v3i(0,6,pos)
endpolygon()
closeobj()
return obj
def drawrailing():
obj = curobj.curobj
curobj.curobj = curobj.curobj+1
makeobj(obj)
for floor in range(3):
pos = -1 + 5*floor
bgnpolygon()
v3i(4,4,pos)
v3i(4,4,pos-1)
v3i(-4,4,pos-1)
v3i(-4,4,pos)
endpolygon()
bgnpolygon()
v3i(-4,4,pos)
v3i(-4,4,pos-1)
v3i(-4,-4,pos-1)
v3i(-4,-4,pos)
endpolygon()
bgnpolygon()
v3i(-4,-4,pos)
v3i(-4,-4,pos-1)
v3i(4,-4,pos-1)
v3i(4,-4,pos)
endpolygon()
closeobj()
return obj
def drawwalls():
obj = curobj.curobj
curobj.curobj = curobj.curobj+1
makeobj(obj)
bgnpolygon()
v3i(4,6,-6)
v3i(4,6,18)
v3i(-6,6,18)
v3i(-6,6,-6)
endpolygon()
bgnpolygon()
v3i(-6,6,-6)
v3i(-6,6,18)
v3i(-6,-6,18)
v3i(-6,-6,-6)
endpolygon()
bgnpolygon()
v3i(-6,-6,-6)
v3i(-6,-6,18)
v3i(4,-6,18)
v3i(4,-6,-6)
endpolygon()
bgnpolygon()
v3i(4,-6,-6)
v3i(4,-6,18)
v3i(4,4,18)
v3i(4,4,-6)
endpolygon()
closeobj()
return obj
def axis():
bgnline()
cpack(0xff0000)
v3i(-1,0,0)
v3i(1,0,0)
v3f(1.0, 0.1, 0.1)
endline()
bgnline()
cpack(0xff00)
v3i(0,-1,0)
v3i(0,1,0)
v3f(0.1, 1.0, 0.1)
endline()
bgnline()
cpack(0xff)
v3i(0,0,-1)
v3i(0,0,1)
v3f(0.1,0.1,1.0)
endline()
#
silver = [ DIFFUSE, 0.3, 0.3, 0.3, SPECULAR, 0.9, 0.9, 0.95, \
SHININESS, 40.0, LMNULL]
floormat = [ AMBIENT, 0.5, 0.25, 0.15, DIFFUSE, 0.5, 0.25, 0.15, SPECULAR, 0.6, 0.3, 0.2, SHININESS, 20.0, LMNULL]
wallmat = [ DIFFUSE, 0.4, 0.2, 0.1, AMBIENT, 0.4, 0.20, 0.10, SPECULAR, 0.0, 0.0, 0.0, SHININESS, 20.0, LMNULL]
offwhite = [ DIFFUSE, 0.8, 0.8, 0.6, AMBIENT, 0.8, 0.8, 0.6, SPECULAR, 0.9, 0.9, 0.9, SHININESS, 30.0, LMNULL]
doormat = [ DIFFUSE, 0.1, 0.2, 0.5, AMBIENT, 0.2, 0.4, 1.0, SPECULAR, 0.2, 0.4, 1.0, SHININESS, 60.0, LMNULL]
toplight = [ LCOLOR, 1.0, 1.0, 0.5, \
POSITION, 0.0, 0.0, 11.0, 1.0, LMNULL]
floor1light = [ LCOLOR, 1.0, 1.0, 1.0, POSITION, 3.9, -3.9, 0.0, 1.0, \
SPOTDIRECTION, 1.0, 1.0, 0.0, SPOTLIGHT, 10.0, 90.0, LMNULL]
lmodel = [ AMBIENT, 0.92, 0.8, 0.5, LOCALVIEWER, 1.0, LMNULL]
#
def lighting():
INDIGO=1 # XXXX Seems indigo only has one light.
lmdef(DEFMATERIAL, 2, silver)
lmdef(DEFMATERIAL, 3, floormat)
lmdef(DEFMATERIAL, 4, wallmat)
lmdef(DEFMATERIAL, 5, offwhite)
lmdef(DEFMATERIAL, 6, doormat)
lmdef(DEFLIGHT, 1, toplight)
if not INDIGO:
lmdef(DEFLIGHT, 2, floor1light)
lmdef(DEFLMODEL, 1, lmodel)
lmbind(LIGHT0, 1)
if not INDIGO:
lmbind(LIGHT1, 2)
lmbind(LMODEL, 1)
IdMat=[1.0,0.0,0.0,0.0, 0.0,1.0,0.0,0.0, 0.0,0.0,1.0,0.0, 0.0,0.0,0.0,1.0]
#
wrongrange='Wrong Range'
def defun(axis):
done = 0
res = 0.0 # Hack around exec(...)
while not done:
print 'F'+axis+'(t) = ',
s = sys.stdin.readline(100)
print
try:
s = 'def f'+axis+'(t): return '+s
exec(s, main_dict)
exec('res = f'+axis+'(0.0)\n')
if res < -10.0 or res > 10.0:
raise wrongrange
exec('res = f'+axis+'(100.0)\n')
if res < -10.0 or res > 10.0:
raise wrongrange
done = 1
except RuntimeError:
print 'Sorry, there is a syntax error in your expression'
except TypeError:
print 'Please remember to use floating point numbers'
except wrongrange:
print 'Sorry, function values out of range (non-periodic function?)'
def getfunctions():
print 'Welcome to the CWI art simulator. You can now enter X, Y and Z'
print 'coordinates as a function of t.'
print 'Alternatively, you can specify the name of a python module'
print 'defining functions fx(t), fy(t) and fz(t) on the command line'
print 'Normal trig functions are available. Please use floating point'
print 'values only (so 0.0 for 0). Comments to jack@cwi.nl'
defun('x')
defun('y')
defun('z')
print 'Ok, here you go. Use mouse+right button to move up/down,'
print 'mouse+middle to speed up/slow down time. type ESC to quit simulation'
def main():
if len(sys.argv) > 1:
exec('from '+sys.argv[1]+' import *\n')
else:
getfunctions()
foreground()
prefposition(100,600,100,600)
void = winopen('cyl')
qdevice(ESCKEY)
qdevice(MOUSE1)
qdevice(MOUSE2)
qdevice(PKEY)
RGBmode()
doublebuffer()
gconfig()
zbuffer(1)
mmode(MVIEWING)
perspective(600, 1.0, 0.01, 20.0)
loadmatrix(IdMat)
vx = 0.0
vy = -3.9
vz = 0.0
lookat(0.0, -3.9, 0.0, 0.0, 0.0, 0.0, 0)
lighting()
t = -1.0
step = 0.2
bol = mkcyl(12,24, 1)
cable = mkcyl(1, 6, 0)
floors = drawfloors()
walls = drawwalls()
pillar = mkcyl(1,4,0)
railing = drawrailing()
doors = drawdoors()
shademodel(GOURAUD)
mousing = -1
pausing = 0
while 1:
#
# Check for some user input
#
if qtest():
dev, value = qread()
if dev == PKEY and value == 1:
pausing = 1
if dev == ESCKEY:
break
elif (dev==MOUSE1 or dev==MOUSE2) and value == 1:
if mousing > 0:
vx = 0.0
vy = -3.9
vz = 0.0
mousing = dev
oldx = getvaluator(MOUSEX)
oldy = getvaluator(MOUSEY)
elif (dev==MOUSE1 or dev==MOUSE2):
mousing = -1
if mousing >= 0:
newx = getvaluator(MOUSEX)
newy = getvaluator(MOUSEY)
if newy <> oldy and mousing==MOUSE1:
vz = vz + float(newy - oldy)/100.0
if vz < -5.99:
vz = -5.99
dist = sqrt(vx*vx + vy*vy + vz*vz)
perspective(600, 1.0, 0.01, dist+16.0)
loadmatrix(IdMat)
if vz < 0.0:
lookat(vx, vy, vz, 0.0, 0.0, 0.0, 1800)
else:
lookat(vx, vy, vz, 0.0, 0.0, 0.0, 0)
if newy <> oldy and mousing==MOUSE2:
step = step * exp(float(newy-oldy)/400.0)
if getbutton(CTRLKEY) == 0:
t = t + step
else:
t = t - step
if getbutton(LEFTSHIFTKEY) == 0:
shademodel(GOURAUD)
else:
shademodel(FLAT)
#
# Draw background and axis
czclear(0x802020,getgdesc(GD_ZMAX))
#axis()
#
# draw the floors
#
lmbind(MATERIAL, 3)
callobj(floors)
lmbind(MATERIAL, 4)
callobj(walls)
lmbind(MATERIAL, 5)
pushmatrix()
translate(-4.5,4.5,3.0)
scale(0.2,0.2,9.0)
rotate(450,'z')
callobj(pillar)
popmatrix()
callobj(railing)
lmbind(MATERIAL, 6)
pushmatrix()
translate(0.0, -0.01, 0.0)
callobj(doors)
popmatrix()
#
# Draw object
#
bolx = fx(t)
boly = fy(t)
bolz = fz(t)
err = ''
if bolx < -4.0 or bolx > 4.0:
err = 'X('+`bolx`+') out of range [-4,4]'
if boly < -4.0 or boly > 4.0:
err = 'Y('+`boly`+') out of range [-4,4]'
if bolz < -4.0 or bolz > 8.0:
err = 'Z('+`bolz`+') out of range [-4,8]'
if not err:
pushmatrix()
translate(bolx, boly, bolz)
scale(0.3, 0.3, 0.3)
lmbind(MATERIAL, 2)
blendfunction(BF_ONE, BF_ONE)
callobj(bol)
blendfunction(BF_ONE, BF_ZERO)
popmatrix()
#
# Draw the cables
#
bolz = bolz + 0.3
pushmatrix()
#linesmooth(SML_ON)
bgnline()
v3i(-4,-4,9)
v3f(bolx, boly, bolz)
endline()
bgnline()
v3i(-4,4,9)
v3f(bolx, boly, bolz)
endline()
bgnline()
v3i(4,-4,9)
v3f(bolx, boly, bolz)
endline()
bgnline()
v3i(4,4,9)
v3f(bolx, boly, bolz)
endline()
popmatrix()
if mousing == MOUSE2 or err:
cpack(0xff0000)
cmov(0.0, 0.0, 0.4)
charstr('t='+`t`)
if mousing == MOUSE2:
cpack(0xff0000)
cmov(0.0, 0.0, 0.2)
charstr('delta-t='+`step`)
if err:
cpack(0xff00)
cmov(0.0, 0.0, 0.2)
charstr(err)
pausing = 1
if pausing:
cpack(0xff00)
cmov(0.0, 0.0, 0.0)
charstr('Pausing, type P to continue')
swapbuffers()
if pausing:
while 1:
dv=qread()
if dv==(PKEY,1):
break
if dv==(ESCKEY,1):
sys.exit(0)
pausing = 0
#
try:
main()
except KeyboardInterrupt:
sys.exit(1)