- if big_strip:
- glue = [big_strip[-1], vertices[0]]
- big_strip += glue
- if cache:
- total_hits += cache.fetch_strip(glue)
-
- big_strip += vertices
- if cache:
- total_hits += cache.fetch_strip(vertices)
-
- strips = [big_strip]
- loose = []
-
- return strips, loose
-
- def export(self, context, out_file, objs=None):
- if self.compound:
- if objs is None:
- objs = context.selected_objects
- check = objs
- while check:
- children = []
- for o in check:
- for c in o.children:
- if c.compound:
- children.append(c)
- objs += children
- check = children
- elif objs is None:
- objs = [context.active_object]
-
- if not objs:
- raise Exception("Nothing to export")
- for o in objs:
- if o.type!="MESH":
- raise Exception("Can only export Mesh data")
-
- from .mesh import Mesh
- from .util import Progress
-
- progress = Progress(context)
- progress.set_task("Preparing", 0.0, 0.0)
-
- mesh = None
- bmeshes = []
- for o in objs:
- bmesh = o.to_mesh(context.scene, True, "PREVIEW")
- bmeshes.append(bmesh)
- if not mesh:
- mesh = Mesh(bmesh)
- else:
- mesh.splice(Mesh(bmesh))
-
- progress.set_task("Smoothing", 0.05, 0.35)
- if self.smoothing=="NONE":
- mesh.flatten_faces()
- mesh.split_smooth(progress)
-
- if self.smoothing!="BLENDER":
- mesh.compute_normals()
-
- if self.export_groups:
- mesh.sort_vertex_groups(self.max_groups)
-
- # Create a mapping from vertex group indices to bone indices
- group_index_map = dict((i, i) for i in range(len(objs[0].vertex_groups)))
- if objs[0].parent and objs[0].parent.type=="ARMATURE":
- armature = objs[0].parent.data
- bone_indices = dict((armature.bones[i].name, i) for i in range(len(armature.bones)))
- for g in objs[0].vertex_groups:
- if g.name in bone_indices:
- group_index_map[g.index] = bone_indices[g.name]
-
- if self.material_tex and mesh.materials:
- mesh.generate_material_uv()
-
- texunits = []
- force_unit0 = False
- if mesh.uv_layers and (self.export_uv!="NONE" or self.material_tex):
- # Figure out which UV layers to export
- if self.export_uv=="ALL":
- texunits = range(len(mesh.uv_layers))
- elif self.material_tex:
- # The material UV layer is always the last one
- texunits = [len(mesh.uv_layers)-1]
- force_unit0 = True
- else:
- for i, u in enumerate(mesh.uv_layers):
- if u.unit==0:
- texunits = [i]
- break
- texunits = [(i, mesh.uv_layers[i]) for i in texunits]
- texunits = [u for u in texunits if not u[1].hidden]
-
- if self.tbn_vecs:
- # TBN coordinates must be generated before vertices are split by any other layer
- uv_names = [u.name for i, u in texunits]
- if self.tbn_uvtex in uv_names:
- tbn_index = uv_names.index(self.tbn_uvtex)
- unit = texunits[tbn_index]
- del texunits[tbn_index]
- texunits.insert(0, unit)
-
- for i, u in texunits:
- progress.set_task("Splitting UVs", 0.35+0.3*i/len(texunits), 0.35+0.3*(i+1)/len(texunits))
- mesh.split_uv(i, progress)
- if self.tbn_vecs and u.name==self.tbn_uvtex:
- mesh.compute_uv()
- mesh.compute_tbn(i)
-
- mesh.compute_uv()
-
- strips = []
- loose = mesh.faces
- if self.use_strips:
- progress.set_task("Creating strips", 0.65, 0.95)
- strips, loose = self.stripify(mesh, progress)
-
- progress.set_task("Writing file", 0.95, 1.0)
-
- from .outfile import open_output
- out_file = open_output(out_file)
-
- fmt = ["NORMAL3"]
- if texunits:
- for i, u in texunits:
- if u.unit==0 or force_unit0:
- fmt.append("TEXCOORD2")
- else:
- fmt.append("TEXCOORD2_%d"%u.unit)
- if self.tbn_vecs:
- fmt += ["TANGENT3", "BINORMAL3"]
- if self.export_groups:
- fmt.append("ATTRIB%d_5"%(self.max_groups*2))
- fmt.append("VERTEX3")
- out_file.begin("vertices", *fmt)