X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=blender%2Fio_mspgl%2Fexport_object.py;h=6e399b0199f9f77b10175fe5a4a86027d29a88cc;hb=HEAD;hp=d89afd05df667fb7c26d648a167bde38cc7ff8f8;hpb=de5d710b87879d6a0b06407da096ec505f8b7679;p=libs%2Fgl.git

diff --git a/blender/io_mspgl/export_object.py b/blender/io_mspgl/export_object.py
index d89afd05..989d6758 100644
--- a/blender/io_mspgl/export_object.py
+++ b/blender/io_mspgl/export_object.py
@@ -1,139 +1,107 @@
 import os
 
-def linear_to_srgb(l):
-	if l<0.0031308:
-		return 12.92*l
-	else:
-		return 1.055*(l**(1/2.4))-0.055
+class ObjectExporter:
+	def collect_object_lods(self, obj):
+		lods = [obj]
+		lods += sorted([c for c in obj.children if c.lod_for_parent], key=(lambda l: l.lod_index))
+		for i, l in enumerate(lods):
+			if i>0 and l.lod_index!=i:
+				raise Exception("Invalid configuration on object {}: Inconsistent LOD indices".format(obj.name))
 
+		return lods
 
-class ObjectExporter:
-	def __init__(self):
-		self.material_tex = False
-		self.srgb_colors = True
-		self.textures = "REF"
-		self.separate_mesh = False
-		self.separate_tech = False
-		self.external_tech = True
-		self.shared_tech = True
-
-	def export(self, context, out_file, objs=None):
-		if objs is None:
-			obj = context.active_object
-		else:
-			obj = objs[0]
-
-		from .outfile import open_output
-		out_file = open_output(out_file)
+	def export_object_resources(self, ctx, obj, resources):
+		lods = self.collect_object_lods(obj)
 
 		from .export_mesh import MeshExporter
+		from .export_material import MaterialExporter
+		from .mesh import create_mesh_from_object
+		from .material import Material
 		mesh_export = MeshExporter()
-		for k, v in self.__dict__.items():
-			setattr(mesh_export, k, v)
-
-		if self.separate_mesh:
-			path, base = os.path.split(out_file.filename)
-			base, ext = os.path.splitext(base)
-			mesh_out = open_output(os.path.join(path, base+".mesh"))
-			mesh = mesh_export.export(context, mesh_out, objs)
-			out_file.write("mesh", '"{}.mesh"'.format(base))
-		else:
-			out_file.begin("mesh")
-			mesh = mesh_export.export(context, out_file, objs)
-			out_file.end()
-
-		if self.external_tech and obj.technique:
-			out_file.write("technique", '"{}"'.format(obj.technique))
-		elif self.separate_tech:
-			path, base = os.path.split(out_file.filename)
-			if self.shared_tech and mesh.materials:
-				tech_name = mesh.materials[0].name+".tech"
-			else:
-				base, ext = os.path.splitext(base)
-				tech_name = base+".tech"
-			tech_out = open_output(os.path.join(path, tech_name))
-			self.export_technique(mesh, tech_out)
-			out_file.write("technique", '"{}"'.format(tech_name))
-		else:
-			out_file.begin("technique")
-			self.export_technique(mesh, out_file)
-			out_file.end()
-
-	def export_technique(self, mesh, out_file):
-		out_file.begin("pass", '""')
-		if mesh.materials:
-			if self.srgb_colors:
-				cm = linear_to_srgb
-			else:
-				cm = lambda x: x
-
-			if self.material_tex:
-				out_file.begin("material")
-				out_file.write("diffuse", 1.0, 1.0, 1.0, 1.0)
-				out_file.end()
-				index = 0
-				for u in mesh.uv_layers:
-					if u.name=="material_tex":
-						index = u.unit
-				out_file.begin("texunit", index)
-				out_file.begin("texture2d")
-				out_file.write("min_filter", "NEAREST")
-				out_file.write("mag_filter", "NEAREST")
-				out_file.write("storage", "RGB", len(mesh.materials), 1)
-				texdata = '"'
-				for m in mesh.materials:
-					color = [int(cm(c)*255) for c in m.diffuse_color]
-					texdata += "\\x%02X\\x%02X\\x%02X"%tuple(color)
-				texdata += '"'
-				out_file.write("raw_data", texdata)
-				out_file.end()
-				out_file.end()
+		material_export = MaterialExporter()
+
+		ctx.set_slices(len(lods))
+		for l in lods:
+			lod_index = l.lod_index if l.lod_for_parent else 0
+			task = ctx.next_slice("LOD {}".format(lod_index))
+
+			if l.material_slots and l.material_slots[0].material:
+				material = l.material_slots[0].material
+				subtask = task.task(material, 0.1)
+				if material.render_mode!='EXTERNAL':
+					tech_name = material.name+".tech"
+					if tech_name not in resources:
+						material = Material(material)
+						material_export.export_technique_resources(subtask, material, resources)
+						resources[tech_name] = material_export.export_technique(material, resources)
+			elif "stub.tech" not in resources:
+				resources["stub.tech"] = self.export_stub_technique()
+
+			mesh_name = l.data.name+".mesh"
+			if mesh_name not in resources:
+				subtask = task.task(l.data, 1.0)
+				mesh = create_mesh_from_object(subtask, l)
+				mesh_res = mesh_export.export_mesh(subtask, mesh)
+				resources[mesh_name] = mesh_res
+
+	def export_object(self, obj, resources):
+		if obj.type!='MESH':
+			raise ValueError("Object {} is not a mesh".format(obj.name))
+
+		lods = self.collect_object_lods(obj)
+
+		from .datafile import Resource, Statement
+		obj_res = Resource(obj.name+".object", "object")
+		statements = obj_res.statements
+
+		from .util import compute_bounding_sphere
+		center, radius = compute_bounding_sphere([v.co for v in obj.data.vertices])
+		statements.append(Statement("bounding_sphere_hint", *center, radius))
+
+		prev_mesh = None
+		prev_tech = None
+		for i, l in enumerate(lods):
+			lod_st = []
+
+			if l.data.name!=prev_mesh:
+				mesh_res = resources[l.data.name+".mesh"]
+				lod_st.append(obj_res.create_reference_statement("mesh", mesh_res))
+
+				prev_mesh = l.data.name
+
+			material = None
+			if l.material_slots:
+				material = l.material_slots[0].material
+			if material:
+				if material.render_mode=='EXTERNAL':
+					tech_name = material.technique
+				else:
+					tech_name = material.name+".tech"
 			else:
-				mat = mesh.materials[0]
-				out_file.begin("material")
-				if any((s and s.use_map_color_diffuse) for s in mat.texture_slots):
-					out_file.write("diffuse", 1.0, 1.0, 1.0, 1.0)
-					amb = cm(mat.ambient)
-					out_file.write("ambient", amb, amb, amb, 1.0)
+				tech_name = "stub.tech"
+
+			if tech_name!=prev_tech:
+				if material and material.render_mode=='EXTERNAL':
+					lod_st.append(Statement("technique", material.technique))
 				else:
-					diff = mat.diffuse_color
-					out_file.write("diffuse", cm(diff.r), cm(diff.g), cm(diff.b), 1.0)
-					amb = diff*mat.ambient
-					out_file.write("ambient", cm(amb.r), cm(amb.g), cm(amb.b), 1.0)
-				spec = mat.specular_color*mat.specular_intensity
-				out_file.write("specular", spec.r, spec.g, spec.b, 1.0)
-				out_file.write("shininess", mat.specular_hardness);
-				out_file.end()
-
-			if self.textures!="NONE":
-				for slot in mesh.materials[0].texture_slots:
-					if not slot:
-						continue
-
-					tex = slot.texture
-					if tex.type!="IMAGE":
-						continue
-
-					if slot.uv_layer:
-						for u in mesh.uv_layers:
-							if u.name==slot.uv_layer:
-								index = u.unit
-					else:
-						index = mesh.uv_layers[0].unit
-
-					out_file.begin("texunit", index)
-					if self.textures=="INLINE":
-						out_file.begin("texture2d")
-						out_file.write("min_filter", "LINEAR")
-						out_file.write("storage", "RGBA", tex.image.size[0], tex.image.size[1])
-						texdata = '"'
-						for p in tex.image.pixels:
-							texdata += "\\x%02X"%int(p*255)
-						texdata += '"'
-						out_file.write("raw_data", texdata)
-						out_file.end()
-					else:
-						out_file.write("texture", '"%s"'%tex.image.name)
-					out_file.end()
-
-		out_file.end()
+					lod_st.append(obj_res.create_reference_statement("technique", resources[tech_name]))
+				prev_tech = tech_name
+
+			if i>0:
+				st = Statement("level_of_detail", i)
+				st.sub = lod_st
+				statements.append(st)
+			else:
+				statements += lod_st
+
+		return obj_res
+
+	def export_stub_technique(self):
+		from .datafile import Resource, Statement, Token
+		tech_res = Resource("stub.tech", "technique")
+		pass_st = Statement("method", "")
+		tech_res.statements.append(pass_st)
+		mat_st = Statement("material")
+		pass_st.sub.append(mat_st)
+		mat_st.sub.append(Statement("type", Token("basic")))
+		return tech_res