6 |
|
mlib = env['RAD_MLIB'] |
7 |
|
|
8 |
|
# compose paths |
9 |
< |
def radbin(name): return os.path.join(env['RAD_BUILDBIN'], name) |
10 |
< |
def radlib(name): return os.path.join(env['RAD_BUILDLIB'], name) |
11 |
< |
def mgfsf(src): return map(lambda s:os.path.join('mgflib', s), src) |
9 |
> |
def rbin(name): return os.path.join(env['RAD_BUILDBIN'], name) |
10 |
> |
def rlib(name): return os.path.join(env['RAD_BUILDLIB'], name) |
11 |
> |
def mgfs(src): return map(lambda s:os.path.join('mgflib', s), src) |
12 |
|
|
13 |
|
MGFSRC = Split('''parser.c context.c xf.c object.c lookup.c badarg.c |
14 |
|
words.c |
15 |
|
fvect.c''') |
16 |
< |
libmgf = env.StaticLibrary(radlib('mgf'), source=mgfsf(MGFSRC)) |
16 |
> |
libmgf = env.StaticLibrary(rlib('mgf'), source=mgfs(MGFSRC)) |
17 |
> |
|
18 |
|
MGFPROGS = ( |
19 |
|
('mgfilt', Split('mgfilt.c')), |
20 |
|
('mgf2inv', Split('mgf2inv.c cvrgb.c')), |
21 |
|
('3ds2mgf', Split('3ds2mgf.c rayopt.c vect.c')), |
22 |
|
) |
23 |
|
for p in MGFPROGS: |
24 |
< |
prog = env.Program(target=radbin(p[0]), source=mgfsf(p[1]) + [libmgf], |
24 |
< |
LIBS=mlib) |
24 |
> |
prog = env.Program(target=rbin(p[0]), source=mgfs(p[1]), LIBS=mlib+['mgf']) |
25 |
|
Default(prog) |
26 |
|
env.Append(RAD_BININSTALL=[env.Install(env['RAD_BINDIR'], prog)]) |
27 |
|
|
29 |
|
|
30 |
|
# standard targets |
31 |
|
PROGS = [ |
32 |
– |
('thf2rad', ['thf2rad.c'], []), |
32 |
|
('ies2rad', ['ies2rad.c'], ['rtlamps','rtcolor','rtio','rtpath']+ mlib), |
33 |
|
('arch2rad', ['arch2rad.c',trans],['rtcont','rtmem'] + mlib), |
34 |
|
('nff2rad', ['nff2rad.c'], []), |
35 |
< |
('lampcolor', ['lampcolor.c'], ['rtlamps','rtcolor','rtpath']), |
35 |
> |
('lampcolor', ['lampcolor.c'], ['rtlamps','rtcolor','rtio','rtpath']), |
36 |
|
('tmesh2rad', ['tmesh2rad.c'], ['rtscene','rtmath'] + mlib), |
37 |
|
('obj2rad', ['obj2rad.c',trans], |
38 |
|
['rtscene','rtargs','rtio','rtcont','rtmem','rtmath','rterror'] + mlib), |
40 |
|
('rad2mgf', ['rad2mgf.c'], |
41 |
|
['rtproc', 'rtpath', # for win_popen() |
42 |
|
'rtscene','rtio','rtcolor','rtcont','rtmem','rterror'] + mlib), |
44 |
– |
('mgf2meta', ['mgf2meta.c'], |
45 |
– |
['meta','rtmath','rtcont','rtmem','rterror','mgf'] + mlib), |
43 |
|
] |
44 |
|
for p in PROGS: |
45 |
< |
prog = env.Program(target=radbin(p[0]), source=p[1], LIBS=p[2]) |
45 |
> |
prog = env.Program(target=rbin(p[0]), source=p[1], LIBS=p[2]) |
46 |
|
Default(prog) |
47 |
|
env.Append(RAD_BININSTALL=[env.Install(env['RAD_BINDIR'], prog)]) |
48 |
|
|
49 |
< |
LIBFILES = Split('source.cal tilt.cal')# lamp.tab') |
49 |
> |
# meta targets |
50 |
> |
prog = env.Program(target=rbin('mgf2meta'), source=['mgf2meta.c'], |
51 |
> |
CPPPATH=env.get('CPPPATH', []) + [os.path.join('#src','meta')], |
52 |
> |
LIBS=['meta','rtmath','rtcont','rtmem','rterror','mgf'] + mlib) |
53 |
> |
|
54 |
> |
LIBFILES = Split('source.cal tilt.cal window.cal') |
55 |
|
env.Append(RAD_RLIBINSTALL=env.Install(env['RAD_RLIBDIR'], LIBFILES)) |
56 |
|
|
57 |
< |
|
57 |
> |
if os.name == 'posix': |
58 |
> |
for s in Split('''optics2rad'''): |
59 |
> |
Default(env.InstallCsh(rbin(s), s + '.csh')) |