X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=blender%2Fio_mspgl%2Fexport_mesh.py;h=3e146cad24699d956b1a48bd537d8ffc6ef4f5a3;hb=ab60e3a21afcfc970004512044ae32fac5c2112e;hp=dbb3a269fcdab5f711bab6920da3f6f9b696e1ff;hpb=7533ecca549e09eab5ef229292de8908370c395c;p=libs%2Fgl.git

diff --git a/blender/io_mspgl/export_mesh.py b/blender/io_mspgl/export_mesh.py
index dbb3a269..3e146cad 100644
--- a/blender/io_mspgl/export_mesh.py
+++ b/blender/io_mspgl/export_mesh.py
@@ -1,314 +1,68 @@
 import itertools
 import bpy
-
-class VertexCache:
-	def __init__(self, size):
-		self.size = size
-		self.slots = [-1]*self.size
-
-	def fetch(self, v):
-		hit = v.index in self.slots
-		if hit:
-			self.slots.remove(v.index)
-		self.slots.append(v.index)
-		if not hit:
-			del self.slots[0]
-		return hit
-
-	def fetch_strip(self, strip):
-		hits = 0
-		for v in strip:
-			if self.fetch(v):
-				hits += 1
-		return hits
-
-	def test_strip(self, strip):
-		hits = 0
-		for i in range(len(strip)):
-			if i>=self.size:
-				break
-			if strip[i].index in self.slots[i:]:
-				hits += 1
-		return hits
-
+import mathutils
 
 class MeshExporter:
 	def __init__(self):
+		self.show_progress = True
 		self.use_strips = True
 		self.use_degen_tris = False
-		self.max_strip_len = 1024
-		self.optimize_cache = True
-		self.cache_size = 64
-		self.export_lines = False
-		self.export_uv = "UNIT0"
-		self.tbn_vecs = False
-		self.tbn_uvtex = ""
-		self.compound = False
-		self.material_tex = False
-		self.smoothing = "MSPGL"
-		self.export_groups = False
-		self.max_groups = 2
-
-	def stripify(self, mesh, progress = None):
-		for f in mesh.faces:
-			f.flag = False
-
-		faces_done = 0
-		strips = []
-		loose = []
-
-		cache = None
-		if self.optimize_cache:
-			cache = VertexCache(self.cache_size)
-
-		island = []
-		island_strips = []
-		while 1:
-			if not island:
-				# No current island; find any unused face to start from
-				queue = []
-				for f in mesh.faces:
-					if not f.flag:
-						f.flag = True
-						queue.append(f)
-						break
-
-				if not queue:
-					break
-
-				# Find all faces connected to the first one
-				while queue:
-					face = queue.pop(0)
-					island.append(face)
-
-					for n in f.get_neighbors():
-						if not n.flag:
-							n.flag = True
-							queue.append(n)
-
-				# Unflag the island for the next phase
-				for f in island:
-					f.flag = False
-
-			# Find an unused face with as few unused neighbors as possible, but
-			# at least one.  This heuristic gives a preference to faces in corners
-			# or along borders of a non-closed island.
-			best = 5
-			face = None
-			for f in island:
-				if f.flag:
-					continue
-
-				score = sum(not n.flag for n in f.get_neighbors())
-				if score>0 and score<best:
-					face = f
-					best = score
-
-			if face:
-				# Create a strip starting from the face.  This will flag the faces.
-				strip = mesh.create_strip(face, self.max_strip_len)
-				if strip:
-					island_strips.append(strip)
-				else:
-					face.flag = True
-			else:
-				# Couldn't find a candidate face for starting a strip, so we're
-				# done with this island
-				while island_strips:
-					best = 0
-					if cache:
-						# Find the strip that benefits the most from the current
-						# contents of the vertex cache
-						best_hits = 0
-						for i in range(len(island_strips)):
-							hits = cache.test_strip(island_strips[i])
-							if hits>best_hits:
-								best = i
-								best_hits = hits
-
-					strip = island_strips.pop(best)
-					strips.append(strip)
-
-					if cache:
-						cache.fetch_strip(strip)
-
-				faces_done += len(island)
-				if progress:
-					progress.set_progress(float(faces_done)/len(mesh.faces))
-
-				# Collect any faces that weren't used in strips
-				loose += [f for f in island if not f.flag]
-				for f in island:
-					f.flag = True
-
-				island = []
-				island_strips = []
 
-		if cache:
-			cache = VertexCache(self.cache_size)
-			total_hits = 0
+	def join_strips(self, strips):
+		big_strip = []
 
-		if self.use_degen_tris and strips:
-			big_strip = []
-
-			for s in strips:
-				if big_strip:
-					# Generate glue elements, ensuring that the next strip begins at
-					# an even position
-					glue = [big_strip[-1], s[0]]
-					if len(big_strip)%2:
-						glue += [s[0]]
-
-					big_strip += glue
-					if cache:
-						total_hits += cache.fetch_strip(glue)
-
-				big_strip += s
-				if cache:
-					total_hits += cache.fetch_strip(s)
-
-			for f in loose:
-				# Add loose faces to the end.  This wastes space, using five
-				# elements per triangle and six elements per quad.
+		for s in strips:
+			if big_strip:
+				# Generate glue elements, ensuring that the next strip begins at
+				# an even position
+				glue = [big_strip[-1], s[0]]
 				if len(big_strip)%2:
-					order = (-1, -2, 0, 1)
-				else:
-					order = (0, 1, -1, -2)
-				vertices = [f.vertices[i] for i in order[:len(f.vertices)]]
-
-				if big_strip:
-					glue = [big_strip[-1], vertices[0]]
-					big_strip += glue
-					if cache:
-						total_hits += cache.fetch_strip(glue)
+					glue += [s[0]]
 
-				big_strip += vertices
-				if cache:
-					total_hits += cache.fetch_strip(vertices)
+				big_strip += glue
 
-			strips = [big_strip]
-			loose = []
+			big_strip += s
 
-		return strips, loose
+		return big_strip
 
-	def export(self, context, out_file):
-		if self.compound:
-			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
-		else:
-			objs = [context.active_object]
+	def export(self, context, out_file, obj=None, progress=None):
+		if obj is None:
+			obj = 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 .mesh import create_mesh_from_object
 		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))
+		if not progress:
+			progress = Progress(self.show_progress and context)
+		progress.push_task("", 0.0, 0.9)
 
-		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()
+		mesh = create_mesh_from_object(context, obj, progress)
 
 		strips = []
 		loose = mesh.faces
 		if self.use_strips:
-			progress.set_task("Creating strips", 0.65, 0.95)
-			strips, loose = self.stripify(mesh, progress)
+			strips = mesh.vertex_sequence
+			if self.use_degen_tris:
+				strips = [self.join_strips(strips)]
+			loose = []
 
-		progress.set_task("Writing file", 0.95, 1.0)
+		progress.set_task("Writing file", 0.9, 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")
+		if mesh.uv_layers:
+			for u in mesh.uv_layers:
+				size = str(len(u.uvs[0]))
+				if u.unit==0:
+					fmt.append("TEXCOORD"+size)
 				else:
-					fmt.append("TEXCOORD2_%d"%u.unit)
-			if self.tbn_vecs:
+					fmt.append("TEXCOORD%s_%d"%(size, u.unit))
+			if mesh.tbn_vecs:
 				fmt += ["TANGENT3", "BINORMAL3"]
-		if self.export_groups:
-			fmt.append("ATTRIB%d_5"%(self.max_groups*2))
+		if mesh.vertex_groups:
+			fmt.append("ATTRIB%d_5"%(mesh.max_groups_per_vertex*2))
 		fmt.append("VERTEX3")
 		out_file.begin("vertices", *fmt)
 		normal = None
@@ -320,23 +74,24 @@ class MeshExporter:
 			if v.normal!=normal:
 				out_file.write("normal3", *v.normal)
 				normal = v.normal
-			for i, u in texunits:
+			for i, u in enumerate(mesh.uv_layers):
 				if v.uvs[i]!=uvs.get(i):
-					if u.unit==0 or force_unit0:
-						out_file.write("texcoord2", *v.uvs[i])
+					size = str(len(v.uvs[i]))
+					if u.unit==0:
+						out_file.write("texcoord"+size, *v.uvs[i])
 					else:
-						out_file.write("multitexcoord2", u.unit, *v.uvs[i])
+						out_file.write("multitexcoord"+size, u.unit, *v.uvs[i])
 					uvs[i] = v.uvs[i]
-			if self.tbn_vecs:
+			if mesh.tbn_vecs:
 				if v.tan!=tan:
 					out_file.write("tangent3", *v.tan)
 					tan = v.tan
 				if v.bino!=bino:
 					out_file.write("binormal3", *v.bino)
 					bino = v.bino
-			if self.export_groups:
-				group_attr = [(group_index_map[g.group], g.weight*v.group_weight_scale) for g in v.groups[:self.max_groups]]
-				while len(group_attr)<self.max_groups:
+			if mesh.vertex_groups:
+				group_attr = [(group_index_map[g.group], g.weight*v.group_weight_scale) for g in v.groups[:mesh.max_groups_per_vertex]]
+				while len(group_attr)<mesh.max_groups_per_vertex:
 					group_attr.append((0, 0.0))
 				group_attr = list(itertools.chain(*group_attr))
 				if group_attr!=group:
@@ -364,15 +119,15 @@ class MeshExporter:
 					out_file.write("indices", f.vertices[0].index, f.vertices[i-1].index, f.vertices[i].index)
 			out_file.end()
 
-		if self.export_lines and mesh.lines:
+		if mesh.lines:
 			out_file.begin("batch", "LINES")
 			for l in mesh.lines:
 				out_file.write("indices", l.vertices[0].index, l.vertices[1].index)
 			out_file.end()
 
-		progress.set_task("Done", 1.0, 1.0)
+		if mesh.winding_test:
+			out_file.write("winding", "COUNTERCLOCKWISE")
 
-		for m in bmeshes:
-			bpy.data.meshes.remove(m)
+		progress.pop_task()
 
 		return mesh