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# img = doLoadImage(path+"/"+name+".png")
# if img:
# return img
img = doLoadImage(path+"/"+filename)
if img:
return img
if warnedTextureDir:
return None
warnedTextureDir = True
return None
TexDir = Draw.PupStrInput("TexDir? ", path, 100)
texDir = os.path.expanduser(TexDir)
img = doLoadImage(texDir+"/"+name+".png")
if img:
return img
img = doLoadImage(TexDir+"/"+filename)
return img
global todo
imgName = args[0]
img = None
for (key, val, sub) in tokens:
if key == 'Filename':
filename = val[0]
for n in range(1,len(val)):
filename += " " + val[n]
img = loadImage(filename)
if img is None:
return None
img.name = imgName
else:
defaultKey(key, val, sub, "img", ['depth', 'dirty', 'has_data', 'size', 'type'], globals(), locals())
print ("Image %s" % img )
loadedData['Image'][imgName] = img
return img
#
# parseObject(args, tokens):
# createObject(type, name, data, datName):
# setObjectAndData(args, typ):
#
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if verbosity > 2:
print( "Parsing object %s" % args )
name = args[0]
typ = args[1]
datName = args[2]
if typ == 'EMPTY':
ob = bpy.data.objects.new(name, None)
loadedData['Object'][name] = ob
linkObject(ob, None)
else:
try:
data = loadedData[typ.capitalize()][datName]
except:
raise NameError("Failed to find data: %s %s %s" % (name, typ, datName))
return
try:
ob = loadedData['Object'][name]
bpy.context.scene.objects.active = ob
#print("Found data", ob)
except:
ob = None
if ob is None:
print("Create", name, data, datName)
ob = createObject(typ, name, data, datName)
print("created", ob)
linkObject(ob, data)
for (key, val, sub) in tokens:
if key == 'Modifier':
parseModifier(ob, val, sub)
elif key == 'Constraint':
parseConstraint(ob.constraints, None, val, sub)
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elif key == 'AnimationData':
parseAnimationData(ob, val, sub)
elif key == 'ParticleSystem':
parseParticleSystem(ob, val, sub)
elif key == 'FieldSettings':
parseDefault(ob.field, sub, {}, [])
else:
defaultKey(key, val, sub, "ob", ['type', 'data'], globals(), locals())
# Needed for updating layers
if bpy.context.object == ob:
pass
'''
if ob.data in ['MESH', 'ARMATURE']:
print(ob, ob.data)
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.object.mode_set(mode='OBJECT')
'''
else:
print("Context", ob, bpy.context.object, bpy.context.scene.objects.active)
return
# print( "Creating object %s %s %s" % (typ, name, data) )
ob = bpy.data.objects.new(name, data)
if data:
loadedData[typ.capitalize()][datName] = data
loadedData['Object'][name] = ob
return ob
if data and ob.data is None:
ob.data = data
print("Data linked", ob, ob.data)
scn = bpy.context.scene
scn.objects.link(ob)
scn.objects.active = ob
#print("Linked object", ob)
#print("Scene", scn)
#print("Active", scn.objects.active)
#print("Context", bpy.context.object)
return ob
def setObjectAndData(args, typ):
datName = args[0]
obName = args[1]
#bpy.ops.object.add(type=typ)
ob = bpy.context.object
ob.name = obName
ob.data.name = datName
loadedData[typ][datName] = ob.data
loadedData['Object'][obName] = ob
return ob.data
#
name = args[0]
typ = args[1]
if typ == 'PARTICLE_SYSTEM':
return None
mod = ob.modifiers.new(name, typ)
for (key, val, sub) in tokens:
if key == 'HookAssignNth':
if val[0] == 'CURVE':
hookAssignNth(mod, int(val[1]), True, ob.data.splines[0].points)
elif val[0] == 'LATTICE':
hookAssignNth(mod, int(val[1]), False, ob.data.points)
elif val[0] == 'MESH':
hookAssignNth(mod, int(val[1]), True, ob.data.vertices)
else:
raise NameError("Unknown hook %s" % val)
else:
defaultKey(key, val, sub, 'mod', [], globals(), locals())
def hookAssignNth(mod, n, select, points):
if select:
for pt in points:
pt.select = False
points[n].select = True
sel = []
for pt in points:
sel.append(pt.select)
#print(mod, sel, n, points)
bpy.ops.object.mode_set(mode='EDIT')
bpy.ops.object.hook_reset(modifier=mod.name)
bpy.ops.object.hook_select(modifier=mod.name)
bpy.ops.object.hook_assign(modifier=mod.name)
bpy.ops.object.mode_set(mode='OBJECT')
return
# parseParticleSystem(ob, args, tokens):
# parseParticles(particles, args, tokens):
# parseParticle(par, args, tokens):
#
def parseParticleSystem(ob, args, tokens):
print(ob, bpy.context.object)
pss = ob.particle_systems
print(pss, pss.values())
name = args[0]
typ = args[1]
#psys = pss.new(name, typ)
bpy.ops.object.particle_system_add()
print(pss, pss.values())
psys = pss[-1]
psys.name = name
psys.settings.type = typ
loadedData['ParticleSystem'][name] = psys
print("Psys", psys)
for (key, val, sub) in tokens:
if key == 'Particles':
parseParticles(psys, val, sub)
else:
defaultKey(key, val, sub, 'psys', [], globals(), locals())
return psys
particles = psys.particles
bpy.ops.particle.particle_edit_toggle()
n = 0
for (key, val, sub) in tokens:
if key == 'Particle':
parseParticle(particles[n], val, sub)
n += 1
else:
for par in particles:
defaultKey(key, val, sub, 'par', [], globals(), locals())
bpy.ops.particle.particle_edit_toggle()
return particles
n = 0
for (key, val, sub) in tokens:
if key == 'h':
h = par.hair[n]
h.location = eval(val[0])
h.time = int(val[1])
h.weight = float(val[2])
n += 1
elif key == 'location':
par.location = eval(val[0])
return
l = []
for t in list_of_tuples:
l.extend(t)
return l
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global todo
if verbosity > 2:
print( "Parsing mesh %s" % args )
mename = args[0]
obname = args[1]
me = bpy.data.meshes.new(mename)
ob = createObject('MESH', obname, me, mename)
verts = []
edges = []
faces = []
vertsTex = []
texFaces = []
for (key, val, sub) in tokens:
if key == 'Verts':
verts = parseVerts(sub)
elif key == 'Edges':
edges = parseEdges(sub)
elif key == 'Faces':
faces = parseFaces(sub)
if faces:
me.from_pydata(verts, [], faces)
else:
me.from_pydata(verts, edges, [])
me.update()
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linkObject(ob, me)
mats = []
for (key, val, sub) in tokens:
if key == 'Verts' or key == 'Edges' or key == 'Faces':
pass
elif key == 'MeshTextureFaceLayer':
parseUvTexture(val, sub, me)
elif key == 'MeshColorLayer':
parseVertColorLayer(val, sub, me)
elif key == 'VertexGroup':
parseVertexGroup(ob, me, val, sub)
elif key == 'ShapeKeys':
parseShapeKeys(ob, me, val, sub)
elif key == 'Material':
try:
mat = loadedData['Material'][val[0]]
except:
mat = None
if mat:
me.materials.append(mat)
else:
defaultKey(key, val, sub, "me", [], globals(), locals())
for (key, val, sub) in tokens:
if key == 'Faces':
parseFaces2(sub, me)
print(me)
return me
#
# parseVerts(tokens):
# parseEdges(tokens):
# parseFaces(tokens):
# parseFaces2(tokens, me):
verts = []
for (key, val, sub) in tokens:
if key == 'v':
verts.append( (theScale*float(val[0]), theScale*float(val[1]), theScale*float(val[2])) )
return verts
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edges = []
for (key, val, sub) in tokens:
if key == 'e':
edges.append((int(val[0]), int(val[1])))
return edges
def parseFaces(tokens):
faces = []
for (key, val, sub) in tokens:
if key == 'f':
if len(val) == 3:
face = [int(val[0]), int(val[1]), int(val[2])]
elif len(val) == 4:
face = [int(val[0]), int(val[1]), int(val[2]), int(val[3])]
faces.append(face)
return faces
def parseFaces2(tokens, me):
n = 0
for (key, val, sub) in tokens:
if key == 'ft':
f = me.faces[n]
f.material_index = int(val[0])
f.use_smooth = int(val[1])
n += 1
elif key == 'mn':
fn = int(val[0])
mn = int(val[1])
f = me.faces[fn]
f.material_index = mn
elif key == 'ftall':
mat = int(val[0])
smooth = int(val[1])
for f in me.faces:
f.material_index = mat
f.use_smooth = smooth
return
#
# parseUvTexture(args, tokens, me):
# parseUvTexData(args, tokens, uvdata):
name = args[0]
me.uv_textures.new(name = name)
uvtex = me.uv_textures[-1]
loadedData['MeshTextureFaceLayer'][name] = uvtex
for (key, val, sub) in tokens:
if key == 'Data':
parseUvTexData(val, sub, uvtex.data)
else:
defaultKey(key, val, sub, "uvtex", [], globals(), locals())
return
n = 0
for (key, val, sub) in tokens:
if key == 'vt':
data[n].uv1 = (float(val[0]), float(val[1]))
data[n].uv2 = (float(val[2]), float(val[3]))
data[n].uv3 = (float(val[4]), float(val[5]))
if len(val) > 6:
data[n].uv4 = (float(val[6]), float(val[7]))
n += 1
else:
pass
#for i in range(n):
# defaultKey(key, val, sub, "data[i]", [], globals(), locals())
return
#
# parseVertColorLayer(args, tokens, me):
# parseVertColorData(args, tokens, data):
#
def parseVertColorLayer(args, tokens, me):
name = args[0]
print("VertColorLayer", name)
vcol = me.vertex_colors.new(name)
loadedData['MeshColorLayer'][name] = vcol
for (key, val, sub) in tokens:
if key == 'Data':
parseVertColorData(val, sub, vcol.data)
else:
defaultKey(key, val, sub, "vcol", [], globals(), locals())
return
n = 0
for (key, val, sub) in tokens:
if key == 'cv':
data[n].color1 = eval(val[0])
data[n].color2 = eval(val[1])
data[n].color3 = eval(val[2])
data[n].color4 = eval(val[3])
n += 1
return
#
def parseVertexGroup(ob, me, args, tokens):
global toggle, theBlenderVersion
if verbosity > 2:
print( "Parsing vertgroup %s" % args )
grpName = args[0]
try:
res = eval(args[1])
except:
res = True
if not res:
return
if (toggle & T_Armature) or (grpName in ['Eye_L', 'Eye_R', 'Gums', 'Head', 'Jaw', 'Left', 'Middle', 'Right', 'Scalp']):
group = ob.vertex_groups.new(grpName)
loadedData['VertexGroup'][grpName] = group
if theBlenderVersion >= BLENDER_256a:
for (key, val, sub) in tokens:
if key == 'wv':
ob.vertex_groups.assign([int(val[0])], group, float(val[1]), 'REPLACE')
else:
for (key, val, sub) in tokens:
if key == 'wv':
group.add( [int(val[0])], float(val[1]), 'REPLACE' )
return
#
# parseShapeKeys(ob, me, args, tokens):
# parseShapeKey(ob, me, args, tokens):
# addShapeKey(ob, name, vgroup, tokens):
# doShape(name):
if (toggle & T_Shape+T_Face) and (name == 'Basis'):
return True
else:
return (toggle & T_Face)
for (key, val, sub) in tokens:
if key == 'ShapeKey':
parseShapeKey(ob, me, val, sub)
elif key == 'AnimationData':
if me.shape_keys:
parseAnimationData(me.shape_keys, val, sub)
ob.active_shape_key_index = 0
print("Shapekeys parsed")
if verbosity > 2:
print( "Parsing ob %s shape %s" % (bpy.context.object, args[0] ))
name = args[0]
lr = args[1]
if invalid(args[2]):
return
if lr == 'Sym' or toggle & T_Symm:
addShapeKey(ob, name, None, tokens)
elif lr == 'LR':
addShapeKey(ob, name+'_L', 'Left', tokens)
addShapeKey(ob, name+'_R', 'Right', tokens)
else:
raise NameError("ShapeKey L/R %s" % lr)
return
skey = ob.shape_key_add(name=name, from_mix=False)
if name != 'Basis':
skey.relative_key = loadedData['ShapeKey']['Basis']
skey.name = name
if vgroup:
skey.vertex_group = vgroup
loadedData['ShapeKey'][name] = skey
for (key, val, sub) in tokens:
if key == 'sv':
index = int(val[0])
pt = skey.data[index].co
pt[0] += theScale*float(val[1])
pt[1] += theScale*float(val[2])
pt[2] += theScale*float(val[3])
else:
defaultKey(key, val, sub, "skey", [], globals(), locals())
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global toggle
if verbosity > 2:
print( "Parsing armature %s" % args )
amtname = args[0]
obname = args[1]
mode = args[2]
if mode == 'Rigify':
toggle |= T_Rigify
return parseRigify(amtname, obname, tokens)
toggle &= ~T_Rigify
amt = bpy.data.armatures.new(amtname)
ob = createObject('ARMATURE', obname, amt, amtname)
linkObject(ob, amt)
print("Linked")
bpy.ops.object.mode_set(mode='OBJECT')
bpy.ops.object.mode_set(mode='EDIT')
heads = {}
tails = {}
for (key, val, sub) in tokens:
if key == 'Bone':
bname = val[0]
if not invalid(val[1]):
bone = amt.edit_bones.new(bname)
parseBone(bone, amt, sub, heads, tails)
loadedData['Bone'][bname] = bone
elif key == 'RecalcRoll':
for bone in amt.edit_bones:
bone.select = False
blist = eval(val[0])
for name in blist:
bone = amt.edit_bones[name]
bone.select = True
bpy.ops.armature.calculate_roll(type='Z')
for bone in amt.edit_bones:
rolls[bone.name] = bone.roll
bpy.ops.object.mode_set(mode='OBJECT')
for bone in amt.bones:
bone['Roll'] = rolls[bone.name]
bpy.ops.object.mode_set(mode='EDIT')
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else:
defaultKey(key, val, sub, "amt", ['MetaRig'], globals(), locals())
bpy.ops.object.mode_set(mode='OBJECT')
return amt
#
# parseRigify(amtname, obname, tokens):
#
def parseRigify(amtname, obname, tokens):
(key,val,sub) = tokens[0]
if key != 'MetaRig':
raise NameError("Expected MetaRig")
typ = val[0]
if typ == "human":
bpy.ops.object.armature_human_advanced_add()
else:
bpy.ops.pose.metarig_sample_add(type = typ)
ob = bpy.context.scene.objects.active
amt = ob.data
loadedData['Rigify'][obname] = ob
loadedData['Armature'][amtname] = amt
loadedData['Object'][obname] = ob
print("Rigify object", ob, amt)
bpy.ops.object.mode_set(mode='OBJECT')
bpy.ops.object.mode_set(mode='EDIT')
heads = {}
tails = {}
for (bname, bone) in amt.edit_bones.items():
heads[bname] = 10*theScale*bone.head
tails[bname] = 10*theScale*bone.tail
for (key, val, sub) in tokens:
if key == 'Bone':
bname = val[0]
print("Bone", bname)
try:
bone = amt.edit_bones[bname]
except:
print("Did not find bone %s" % bname)
bone = None
print(" -> ", bone)
if bone:
parseBone(bone, amt, sub, heads, tails)
else:
defaultKey(key, val, sub, "amt", ['MetaRig'], globals(), locals())
bpy.ops.object.mode_set(mode='OBJECT')
return amt
#
# parseBone(bone, amt, tokens, heads, tails):
#
def parseBone(bone, amt, tokens, heads, tails):
for (key, val, sub) in tokens:
if key == "head":
bone.head = (theScale*float(val[0]), theScale*float(val[1]), theScale*float(val[2]))
elif key == "tail":
bone.tail = (theScale*float(val[0]), theScale*float(val[1]), theScale*float(val[2]))
#elif key == 'restrict_select':
# pass
elif key == 'hide' and val[0] == 'True':
name = bone.name
'''
#bpy.ops.object.mode_set(mode='OBJECT')
pbone = amt.bones[name]
pbone.hide = True
print("Hide", pbone, pbone.hide)
#bpy.ops.object.mode_set(mode='EDIT')
'''
else:
defaultKey(key, val, sub, "bone", [], globals(), locals())
return bone
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global todo
if toggle & T_Rigify:
return
name = args[0]
ob = loadedData['Object'][name]
bpy.context.scene.objects.active = ob
bpy.ops.object.mode_set(mode='POSE')
pbones = ob.pose.bones
nGrps = 0
for (key, val, sub) in tokens:
if key == 'Posebone':
parsePoseBone(pbones, ob, val, sub)
elif key == 'BoneGroup':
parseBoneGroup(ob.pose, nGrps, val, sub)
nGrps += 1
elif key == 'SetProp':
bone = val[0]
prop = val[1]
value = eval(val[2])
pb = pbones[bone]
print("Setting", pb, prop, val)
pb[prop] = value
print("Prop set", pb[prop])
else:
defaultKey(key, val, sub, "ob.pose", [], globals(), locals())
bpy.ops.object.mode_set(mode='OBJECT')
return ob
#
# parsePoseBone(pbones, args, tokens):
# parseArray(data, exts, args):
#
def parseBoneGroup(pose, nGrps, args, tokens):
if verbosity > 2:
print( "Parsing bonegroup %s" % args )
name = args[0]
bpy.ops.pose.group_add()
bg = pose.bone_groups.active
loadedData['BoneGroup'][name] = bg
for (key, val, sub) in tokens:
defaultKey(key, val, sub, "bg", [], globals(), locals())
return
global todo
if invalid(args[1]):
return
name = args[0]
pb = pbones[name]
amt = ob.data
amt.bones.active = pb.bone
for (key, val, sub) in tokens:
if key == 'Constraint':
amt.bones.active = pb.bone
cns = parseConstraint(pb.constraints, pb, val, sub)
amt.bones.active = pb.bone
print(expr)
exec(expr)
elif key == 'ik_dof':
parseArray(pb, ["ik_dof_x", "ik_dof_y", "ik_dof_z"], val)
elif key == 'ik_limit':
parseArray(pb, ["ik_limit_x", "ik_limit_y", "ik_limit_z"], val)
elif key == 'ik_max':
parseArray(pb, ["ik_max_x", "ik_max_y", "ik_max_z"], val)
elif key == 'ik_min':
parseArray(pb, ["ik_min_x", "ik_min_y", "ik_min_z"], val)
elif key == 'ik_stiffness':
parseArray(pb, ["ik_stiffness_x", "ik_stiffness_y", "ik_stiffness_z"], val)
elif key == 'hide':
#bpy.ops.object.mode_set(mode='OBJECT')
amt.bones[name].hide = eval(val[0])
#bpy.ops.object.mode_set(mode='POSE')
else:
defaultKey(key, val, sub, "pb", [], globals(), locals())
#print("pb %s done" % name)
return
n = 1
for ext in exts:
expr = "data.%s = %s" % (ext, args[n])
# print(expr)
exec(expr)
n += 1
return
# parseConstraint(constraints, pb, args, tokens)
def parseConstraint(constraints, pb, args, tokens):
if (toggle&T_Opcns and pb):
print("Active")
aob = bpy.context.object
print("ob", aob)
aamt = aob.data
print("amt", aamt)
apose = aob.pose
print("pose", apose)
abone = aamt.bones.active
print("bone", abone)
print('Num cns before', len(list(constraints)))
bpy.ops.pose.constraint_add(type=args[1])
cns = constraints.active
print('and after', pb, cns, len(list(constraints)))
else:
cns = constraints.new(args[1])
cns.name = args[0]
for (key,val,sub) in tokens:
if key == 'invert':
parseArray(cns, ["invert_x", "invert_y", "invert_z"], val)
elif key == 'use':
parseArray(cns, ["use_x", "use_y", "use_z"], val)
elif key == 'pos_lock':
parseArray(cns, ["lock_location_x", "lock_location_y", "lock_location_z"], val)
elif key == 'rot_lock':
parseArray(cns, ["lock_rotation_x", "lock_rotation_y", "lock_rotation_z"], val)
else:
defaultKey(key, val, sub, "cns", [], globals(), locals())
#
# parseCurve (args, tokens):
# parseSpline(cu, args, tokens):
# parseBezier(spline, n, args, tokens):
global todo
if verbosity > 2:
print( "Parsing curve %s" % args )
bpy.ops.object.add(type='CURVE')
cu = setObjectAndData(args, 'Curve')
for (key, val, sub) in tokens:
if key == 'Spline':
parseSpline(cu, val, sub)
else:
defaultKey(key, val, sub, "cu", [], globals(), locals())
return
def parseTextCurve (args, tokens):
global todo
if verbosity > 2:
print( "Parsing text curve %s" % args )
bpy.ops.object.text_add()
txt = setObjectAndData(args, 'Text')
for (key, val, sub) in tokens:
if key == 'Spline':
parseSpline(txt, val, sub)
elif key == 'BodyFormat':
parseCollection(txt.body_format, sub, [])
elif key == 'EditFormat':
parseDefault(txt.edit_format, sub, {}, [])
elif key == 'Font':
parseDefault(txt.font, sub, {}, [])
elif key == 'TextBox':
parseCollection(txt.body_format, sub, [])
else:
defaultKey(key, val, sub, "txt", [], globals(), locals())
return
def parseSpline(cu, args, tokens):
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typ = args[0]
spline = cu.splines.new(typ)
nPointsU = int(args[1])
nPointsV = int(args[2])
#spline.point_count_u = nPointsU
#spline.point_count_v = nPointsV
if typ == 'BEZIER' or typ == 'BSPLINE':
spline.bezier_points.add(nPointsU)
else:
spline.points.add(nPointsU)
n = 0
for (key, val, sub) in tokens:
if key == 'bz':
parseBezier(spline.bezier_points[n], val, sub)
n += 1
elif key == 'pt':
parsePoint(spline.points[n], val, sub)
n += 1
else:
defaultKey(key, val, sub, "spline", [], globals(), locals())
return
def parseBezier(bez, args, tokens):
bez.co = eval(args[0])
bez.co = theScale*bez.co
bez.handle1 = eval(args[1])
bez.handle1_type = args[2]
bez.handle2 = eval(args[3])
bez.handle2_type = args[4]
return
def parsePoint(pt, args, tokens):
print(" pt", pt.co)
global todo
if verbosity > 2:
print( "Parsing lattice %s" % args )
bpy.ops.object.add(type='LATTICE')
lat = setObjectAndData(args, 'Lattice')
for (key, val, sub) in tokens:
if key == 'Points':
parseLatticePoints(val, sub, lat.points)
else:
defaultKey(key, val, sub, "lat", [], globals(), locals())
return
global todo
n = 0
for (key, val, sub) in tokens:
if key == 'pt':
v = points[n].co_deform
v.x = theScale*float(val[0])
v.y = theScale*float(val[1])
v.z = theScale*float(val[2])
# parseLamp (args, tokens):
# parseFalloffCurve(focu, args, tokens):
def parseLamp (args, tokens):
global todo
if verbosity > 2:
print( "Parsing lamp %s" % args )
bpy.ops.object.add(type='LAMP')
lamp = setObjectAndData(args, 'Lamp')
for (key, val, sub) in tokens:
if key == 'FalloffCurve':
parseFalloffCurve(lamp.falloff_curve, val, sub)
else:
defaultKey(key, val, sub, "lamp", [], globals(), locals())
return
def parseFalloffCurve(focu, args, tokens):
# parseGroup (args, tokens):
# parseGroupObjects(args, tokens, grp):
#
def parseGroup (args, tokens):
global todo
if verbosity > 2:
print( "Parsing group %s" % args )
grpName = args[0]
grp = bpy.data.groups.new(grpName)
loadedData['Group'][grpName] = grp
for (key, val, sub) in tokens:
if key == 'Objects':
parseGroupObjects(val, sub, grp)
else:
defaultKey(key, val, sub, "grp", [], globals(), locals())
return
def parseGroupObjects(args, tokens, grp):
global todo
for (key, val, sub) in tokens:
if key == 'ob':
try:
ob = loadedData['Object'][val[0]]
grp.objects.link(ob)
except:
pass
return
#
def parseWorld (args, tokens):
global todo
if verbosity > 2:
print( "Parsing world %s" % args )
world = bpy.context.scene.world
for (key, val, sub) in tokens:
if key == 'Lighting':
parseDefault(world.lighting, sub, {}, [])
elif key == 'Mist':
parseDefault(world.mist, sub, {}, [])
elif key == 'Stars':
parseDefault(world.stars, sub, {}, [])
else:
defaultKey(key, val, sub, "world", [], globals(), locals())
return
#
# parseScene (args, tokens):
# parseRenderSettings(render, args, tokens):
# parseToolSettings(tool, args, tokens):
#
def parseScene (args, tokens):
global todo
if verbosity > 2:
print( "Parsing scene %s" % args )
scn = bpy.context.scene
for (key, val, sub) in tokens:
if key == 'NodeTree':
scn.use_nodes = True
parseNodeTree(scn, val, sub)
elif key == 'GameData':
parseDefault(scn.game_data, sub, {}, [])
elif key == 'KeyingSet':
pass
#parseDefault(scn.keying_sets, sub, {}, [])
elif key == 'ObjectBase':
pass
#parseDefault(scn.bases, sub, {}, [])
elif key == 'RenderSettings':
parseRenderSettings(scn.render, sub, [])
elif key == 'ToolSettings':