Include only tangent in mesh data and calculate binormal on the fly

[libs/gl.git] / blender / io_mspgl / mesh.py
diff --git a/blender/io_mspgl/mesh.py b/blender/io_mspgl/mesh.py

index 95749f46d4eb67aede93b53a87bdb4be1f789487..9741b8dd916f28495d3e25cde8fd64e767a7d118 100644 (file)
--- a/blender/io_mspgl/mesh.py
+++ b/blender/io_mspgl/mesh.py
@@ -9,10 +9,8 @@ def make_edge_key(i1, i2):
  class Edge:
         def __init__(self, edge):
                 if edge.__class__==Edge:
-                       self._edge = edge._edge
                         self.smooth = edge.smooth
                 else:
-                       self._edge = edge
                         self.smooth = False
                 if edge:
                         self.vertices = edge.vertices[:]
@@ -22,9 +20,6 @@ class Edge:
                         self.key = None
                 self.faces = []
  
-       def __getattr__(self, attr):
-               return getattr(self._edge, attr)
-
         def check_smooth(self, limit):
                 if len(self.faces)!=2:
                         return
@@ -51,26 +46,20 @@ class Edge:
  class Vertex:
         def __init__(self, vertex):
                 if vertex.__class__==Vertex:
-                       self._vertex = vertex._vertex
                         self.uvs = vertex.uvs[:]
                         self.tan = vertex.tan
-                       self.bino = vertex.bino
                 else:
-                       self._vertex = vertex
                         self.uvs = []
                         self.tan = None
-                       self.bino = None
                 self.index = vertex.index
-               self.co = vertex.co
-               self.normal = vertex.normal
+               self.co = mathutils.Vector(vertex.co)
+               self.normal = mathutils.Vector(vertex.normal)
+               self.color = None
                 self.flag = False
                 self.edges = []
                 self.faces = []
                 self.groups = vertex.groups[:]
  
-       def __getattr__(self, attr):
-               return getattr(self._vertex, attr)
-
         def __cmp__(self, other):
                 if other is None:
                         return 1
@@ -79,26 +68,26 @@ class Vertex:
  
  class VertexGroup:
         def __init__(self, group):
-               self._group = group
-               self.group = group.group
-               self.weight = group.weight
-
-       def __getattr__(self, attr):
-               return getattr(self._group, attr)
+               if group:
+                       self.group = group.group
+                       self.weight = group.weight
+               else:
+                       self.group = 0
+                       self.weight = 0.0
  
  
  class Face:
         def __init__(self, face):
-               self._face = face
                 self.index = face.index
                 self.edges = []
+               self.edge_keys = face.edge_keys
                 self.vertices = face.vertices[:]
-               self.uvs = []
+               self.loop_indices = face.loop_indices
+               self.normal = face.normal
+               self.use_smooth = face.use_smooth
+               self.material_index = face.material_index
                 self.flag = False
  
-       def __getattr__(self, attr):
-               return getattr(self._face, attr)
-
         def __cmp__(self, other):
                 if other is None:
                         return 1
@@ -108,12 +97,8 @@ class Face:
                 n = self.vertices.index(v)
                 return [(n+i)%len(self.vertices) for i in range(len(self.vertices))]
  
-       def pivot_vertices(self, *vt):
-               flags = [(v in vt) for v in self.vertices]
-               l = len(self.vertices)
-               for i in range(l):
-                       if flags[i] and not flags[(i+l-1)%l]:
-                               return self.vertices[i:]+self.vertices[:i]
+       def get_loop_index(self, v):
+               return self.loop_indices[self.vertices.index(v)]
  
         def get_edge(self, v1, v2):
                 key = make_edge_key(v1.index, v2.index)
@@ -142,13 +127,11 @@ class Line:
  class UvLayer:
         def __init__(self, arg):
                 if type(arg)==str:
-                       self._layer = None
                         self.name = arg
                         self.uvs = []
                 else:
-                       self._layer = arg
                         self.name = arg.name
-                       self.uvs = [d.uv for d in self.data]
+                       self.uvs = [mathutils.Vector(d.uv) for d in arg.data]
  
                 self.unit = None
                 self.hidden = False
@@ -161,31 +144,41 @@ class UvLayer:
                         elif ext==".hidden":
                                 self.hidden = True
  
-       def __getattr__(self, attr):
-               return getattr(self._layer, attr)
+
+class ColorLayer:
+       def __init__(self, l):
+               self.name = l.name
+               self.colors = [c.color[:] for c in l.data]
  
  
  class Mesh:
         def __init__(self, mesh):
-               self._mesh = mesh
                 self.name = mesh.name
  
                 self.winding_test = mesh.winding_test
-               self.tbn_vecs = mesh.tbn_vecs
+               self.smoothing = mesh.smoothing
+               self.use_uv = mesh.use_uv
+               self.tangent_vecs = mesh.tangent_vecs
+               self.tangent_uvtex = mesh.tangent_uvtex
                 self.vertex_groups = mesh.vertex_groups
  
                 # Clone basic data
                 self.vertices = [Vertex(v) for v in mesh.vertices]
-               for v in self.vertices:
-                       v.groups = [VertexGroup(g) for g in v.groups]
+               if self.vertex_groups:
+                       for v in self.vertices:
+                               v.groups = [VertexGroup(g) for g in v.groups]
  
                 self.faces = [Face(f) for f in mesh.polygons]
                 self.edges = [Edge(e) for e in mesh.edges]
                 self.loops = mesh.loops[:]
                 self.materials = mesh.materials[:]
  
+               self.use_auto_smooth = mesh.use_auto_smooth
+               self.auto_smooth_angle = mesh.auto_smooth_angle
+               self.max_groups_per_vertex = mesh.max_groups_per_vertex
+
                 # Clone only the desired UV layers
-               if self.use_uv=='NONE' or not mesh.uv_layers:
+               if mesh.use_uv=='NONE' or not mesh.uv_layers:
                         self.uv_layers = []
                 else:
                         self.uv_layers = [UvLayer(u) for u in mesh.uv_layers]
@@ -200,11 +193,15 @@ class Mesh:
  
                         self.uv_layers = sorted(self.uv_layers, key=(lambda u: u.unit))
  
-                       if self.use_uv=='UNIT0':
+                       if mesh.use_uv=='UNIT0':
                                 self.uv_layers = [self.uv_layers[0]]
                                 if self.uv_layers[0].unit!=0:
                                         self.uv_layers = []
  
+               self.colors = None
+               if mesh.vertex_colors:
+                       self.colors = ColorLayer(mesh.vertex_colors[0])
+
                 # Rewrite links between elements to point to cloned data, or create links
                 # where they don't exist
                 edge_map = {e.key: e for e in self.edges}
@@ -227,19 +224,16 @@ class Mesh:
                                 v.edges.append(e)
  
                 # Store loose edges as lines
-               if self.use_lines:
+               if mesh.use_lines:
                         self.lines = [Line(e) for e in self.edges if not e.faces]
                 else:
                         self.lines = []
  
                 self.vertex_sequence = []
  
-       def __getattr__(self, attr):
-               return getattr(self._mesh, attr)
-
         def transform(self, matrix):
                 for v in self.vertices:
-                       v.co = matrix*v.co
+                       v.co = matrix@v.co
  
         def splice(self, other):
                 if len(self.uv_layers)!=len(other.uv_layers):
@@ -250,12 +244,12 @@ class Mesh:
  
                 # Merge materials and form a lookup from source material indices to the
                 # merged material list
-               material_map = []
+               material_atlas = []
                 for m in other.materials:
                         if m in self.materials:
-                               material_map.append(self.materials.index(m))
+                               material_atlas.append(self.materials.index(m))
                         else:
-                               material_map.append(len(self.materials))
+                               material_atlas.append(len(self.materials))
                                 self.materials.append(m)
  
                 # Append data and adjust indices where necessary.  Since the data is
@@ -263,6 +257,15 @@ class Mesh:
                 for i, u in enumerate(self.uv_layers):
                         u.uvs += other.uv_layers[i].uvs
  
+               if self.colors:
+                       if other.colors:
+                               self.colors.colors += other.colors.colors
+                       else:
+                               self.colors.colors += [(1.0, 1.0, 1.0, 1.0)]*len(other.loops)
+               elif other.colors:
+                       self.colors = ColorLayer(other.colors.name)
+                       self.colors.colors = [(1.0, 1.0, 1.0, 1.0)]*len(self.loops)+other.colors.colors
+
                 offset = len(self.vertices)
                 self.vertices += other.vertices
                 for v in self.vertices[offset:]:
@@ -275,10 +278,9 @@ class Mesh:
                 self.faces += other.faces
                 for f in self.faces[offset:]:
                         f.index += offset
-                       f.loop_start += loop_offset
-                       f.loop_indices = range(f.loop_start, f.loop_start+f.loop_total)
+                       f.loop_indices = range(f.loop_indices.start+offset, f.loop_indices.stop+offset)
                         if other.materials:
-                               f.material_index = material_map[f.material_index]
+                               f.material_index = material_atlas[f.material_index]
  
                 offset = len(self.edges)
                 self.edges += other.edges
@@ -373,6 +375,9 @@ class Mesh:
                 progress.pop_task()
  
         def prepare_vertex_groups(self, obj):
+               if not self.vertex_groups:
+                       return
+
                 for v in self.vertices:
                         if v.groups:
                                 weight_sum = sum(g.weight for g in v.groups)
@@ -380,6 +385,8 @@ class Mesh:
                                 weight_scale = weight_sum/sum(g.weight for g in v.groups)
                                 for g in v.groups:
                                         g.weight *= weight_scale
+                       while len(v.groups)<self.max_groups_per_vertex:
+                               v.groups.append(VertexGroup(None))
  
                 if obj.parent and obj.parent.type=="ARMATURE":
                         armature = obj.parent.data
@@ -393,10 +400,34 @@ class Mesh:
                                 for g in v.groups:
                                         g.group = group_index_map[g.group]
  
+       def apply_material_atlas(self, material_atlas):
+               for m in self.materials:
+                       if m.name not in material_atlas.material_names:
+                               raise Exception("Material atlas is not compatible with Mesh")
+
+               if self.use_uv=='NONE':
+                       return
+
+               layer = UvLayer("material_atlas")
+               if self.use_uv=='UNIT0':
+                       self.uv_layers = [layer]
+                       layer.unit = 0
+               else:
+                       self.uv_layers.append(layer)
+                       used_units = [u.unit for u in self.uv_layers]
+                       layer.unit = next(i for i in itertools.count() if i not in used_units)
+                       self.uv_layers.sort(key=lambda u: u.unit)
+
+               layer.uvs = [(0.0, 0.0)]*len(self.loops)
+               for f in self.faces:
+                       uv = material_atlas.get_material_uv(self.materials[f.material_index])
+                       for i in f.loop_indices:
+                               layer.uvs[i] = uv
+
         def prepare_uv(self, progress):
                 # Form a list of UV layers referenced by materials with the array atlas
                 # property set
-               array_uv_layers = [t.uv_layer for m in self.materials if m.array_atlas for t in m.texture_slots if t and t.texture_coords=='UV']
+               array_uv_layers = [] #[t.uv_layer for m in self.materials if m.array_atlas for t in m.texture_slots if t and t.texture_coords=='UV']
                 array_uv_layers = [u for u in self.uv_layers if u.name in array_uv_layers]
  
                 if array_uv_layers:
@@ -411,32 +442,34 @@ class Mesh:
                                         for i in f.loop_indices:
                                                 l.uvs[i] = mathutils.Vector((*l.uvs[i], layer))
  
-               # Copy UVs from layers to faces
-               for f in self.faces:
-                       for u in self.uv_layers:
-                               f.uvs.append([u.uvs[i] for i in f.loop_indices])
-
                 prog_count = len(self.uv_layers)
                 prog_step = 0
  
-               # Split by the UV layer used for TBN vectors first so connectivity
-               # remains intact for TBN vector computation
-               tbn_layer_index = -1
-               if self.tbn_vecs:
-                       uv_names = [u.name for u in self.uv_layers]
-                       if self.tbn_uvtex in uv_names:
+               # Split by the UV layer used for tangent vectors first so connectivity
+               # remains intact for tangent vector computation
+               tangent_layer_index = -1
+               if self.tangent_vecs:
+                       if self.tangent_uvtex:
+                               uv_names = [u.name for u in self.uv_layers]
+                               if self.tangent_uvtex in uv_names:
+                                       tangent_layer_index = uv_names.index(self.tangent_uvtex)
+                       elif self.uv_layers[0].unit==0:
+                               tangent_layer_index = 0
+
+                       if tangent_layer_index>=0:
                                 prog_count += 1
-                               tbn_layer_index = uv_names.index(self.tbn_uvtex)
-                               progress.push_task_slice("Computing TBN", 0, prog_count)
-                               self.split_vertices(self.find_uv_group, progress, tbn_layer_index)
-                               progress.set_task_slice(self.tbn_uvtex, 1, prog_count)
-                               self.compute_tbn(tbn_layer_index, progress)
+                               progress.push_task_slice("Computing tangents", 0, prog_count)
+                               self.split_vertices(self.find_uv_group, progress, tangent_layer_index)
+                               progress.set_task_slice(self.tangent_uvtex, 1, prog_count)
+                               self.compute_tangents(tangent_layer_index, progress)
                                 progress.pop_task()
                                 prog_step = 2
+                       else:
+                               raise Exception("Tangent UV layer not found")
  
                 # Split by the remaining UV layers
                 for i, u in enumerate(self.uv_layers):
-                       if i==tbn_layer_index:
+                       if i==tangent_layer_index:
                                 continue
  
                         progress.push_task_slice(u.name, prog_step, prog_count)
@@ -444,16 +477,29 @@ class Mesh:
                         progress.pop_task()
                         prog_step += 1
  
-               # Copy UVs from faces to vertices
+               # Copy UVs from layers to vertices
                 for v in self.vertices:
                         if v.faces:
                                 # All faces still connected to the vertex have the same UV value
                                 f = v.faces[0]
-                               i = f.vertices.index(v)
-                               v.uvs = [u[i] for u in f.uvs]
+                               i = f.get_loop_index(v)
+                               v.uvs = [u.uvs[i] for u in self.uv_layers]
                         else:
                                 v.uvs = [(0.0, 0.0)]*len(self.uv_layers)
  
+       def prepare_colors(self, progress):
+               if not self.colors:
+                       return
+
+               self.split_vertices(self.find_color_group, progress)
+
+               for v in self.vertices:
+                       if v.faces:
+                               f = v.faces[0]
+                               v.color = self.colors.colors[f.get_loop_index(v)]
+                       else:
+                               v.color = (1.0, 1.0, 1.0, 1.0)
+
         def split_vertices(self, find_group_func, progress, *args):
                 vertex_count = len(self.vertices)
                 for i in range(vertex_count):
@@ -528,12 +574,25 @@ class Mesh:
                 return group
  
         def find_uv_group(self, vertex, face, index):
-               uv = face.uvs[index][face.vertices.index(vertex)]
+               layer = self.uv_layers[index]
+               uv = layer.uvs[face.get_loop_index(vertex)]
                 face.flag = True
  
                 group = [face]
                 for f in vertex.faces:
-                       if not f.flag and f.uvs[index][f.vertices.index(vertex)]==uv:
+                       if not f.flag and layer.uvs[f.get_loop_index(vertex)]==uv:
+                               f.flag = True
+                               group.append(f)
+
+               return group
+
+       def find_color_group(self, vertex, face):
+               color = self.colors.colors[face.get_loop_index(vertex)]
+               face.flag = True
+
+               group = [face]
+               for f in vertex.faces:
+                       if not f.flag and self.colors.colors[f.get_loop_index(vertex)]==color:
                                 f.flag = True
                                 group.append(f)
  
@@ -543,9 +602,9 @@ class Mesh:
                 for i, v in enumerate(self.vertices):
                         v.normal = mathutils.Vector()
                         for f in v.faces:
-                               fv = f.pivot_vertices(v)
-                               edge1 = fv[1].co-fv[0].co
-                               edge2 = fv[-1].co-fv[0].co
+                               vi = f.pivot_vertex(v)
+                               edge1 = f.vertices[vi[1]].co-v.co
+                               edge2 = f.vertices[vi[-1]].co-v.co
                                 if edge1.length and edge2.length:
                                         # Use the angle between edges as a weighting factor.  This gives
                                         # more consistent normals on bends with an inequal number of
@@ -559,14 +618,11 @@ class Mesh:
  
                         progress.set_progress(i/len(self.vertices))
  
-       def compute_tbn(self, index, progress):
-               # This function is called at an early stage during UV preparation when
-               # face UVs are not available yet
+       def compute_tangents(self, index, progress):
                 layer_uvs = self.uv_layers[index].uvs
  
                 for i, v in enumerate(self.vertices):
                         v.tan = mathutils.Vector()
-                       v.bino = mathutils.Vector()
                         for f in v.faces:
                                 vi = f.pivot_vertex(v)
                                 uv0 = layer_uvs[f.loop_indices[vi[0]]]
@@ -582,12 +638,9 @@ class Mesh:
                                 if div:
                                         mul = edge1.angle(edge2)/div
                                         v.tan += (edge1*dv2-edge2*dv1)*mul
-                                       v.bino += (edge2*du1-edge1*du2)*mul
  
                         if v.tan.length:
                                 v.tan.normalize()
-                       if v.bino.length:
-                               v.bino.normalize()
  
                         progress.set_progress(i/len(self.vertices))
  
@@ -726,21 +779,8 @@ class Mesh:
                 for e in self.edges:
                         e.key = make_edge_key(e.vertices[0].index, e.vertices[1].index)
  
-       def drop_references(self):
-               for v in self.vertices:
-                       v._vertex = None
-                       for g in v.groups:
-                               g._group = None
-               for e in self.edges:
-                       e._edge = None
-               for f in self.faces:
-                       f._face = None
-               for u in self.uv_layers:
-                       u._layer = None
-               self._mesh = None
-
  
-def create_mesh_from_object(context, obj, progress):
+def create_mesh_from_object(context, obj, progress, *, material_atlas=None):
         if obj.type!="MESH":
                 raise Exception("Object is not a mesh")
  
@@ -755,11 +795,12 @@ def create_mesh_from_object(context, obj, progress):
                         if c.type=="MESH" and c.compound:
                                 objs.append((c, m*c.matrix_local))
  
+       dg = context.evaluated_depsgraph_get()
+
         mesh = None
-       bmeshes = []
         for o, m in objs:
-               bmesh = o.to_mesh(context.scene, True, "PREVIEW")
-               bmeshes.append(bmesh)
+               eval_obj = o.evaluated_get(dg)
+               bmesh = eval_obj.to_mesh()
  
                 # Object.to_mesh does not copy custom properties
                 bmesh.winding_test = o.data.winding_test
@@ -768,12 +809,16 @@ def create_mesh_from_object(context, obj, progress):
                 bmesh.vertex_groups = o.data.vertex_groups
                 bmesh.max_groups_per_vertex = o.data.max_groups_per_vertex
                 bmesh.use_uv = o.data.use_uv
-               bmesh.tbn_vecs = o.data.tbn_vecs
-               bmesh.tbn_uvtex = o.data.tbn_uvtex
+               bmesh.tangent_vecs = o.data.tangent_vecs
+               bmesh.tangent_uvtex = o.data.tangent_uvtex
  
                 me = Mesh(bmesh)
                 me.transform(m)
  
+               for i, s in enumerate(eval_obj.material_slots):
+                       if s.link=='OBJECT':
+                               me.materials[i] = s.material
+
                 if mesh:
                         mesh.splice(me)
                 else:
@@ -781,23 +826,22 @@ def create_mesh_from_object(context, obj, progress):
  
         mesh.name = obj.data.name
  
+       if material_atlas:
+               mesh.apply_material_atlas(material_atlas)
+
         progress.set_task("Triangulating", 0.2, 0.3)
         mesh.prepare_triangles(progress)
         progress.set_task("Smoothing", 0.3, 0.5)
         mesh.prepare_smoothing(progress)
         progress.set_task("Vertex groups", 0.5, 0.6)
         mesh.prepare_vertex_groups(obj)
-       progress.set_task("Preparing UVs", 0.6, 0.8)
+       progress.set_task("Preparing UVs", 0.6, 0.75)
         mesh.prepare_uv(progress)
-       progress.set_task("Render sequence", 0.8, 1.0)
+       progress.set_task("Preparing vertex colors", 0.75, 0.85)
+       mesh.prepare_colors(progress)
+       progress.set_task("Render sequence", 0.85, 1.0)
         mesh.prepare_sequence(progress)
  
-       # Discard the temporary Blender meshes after making sure there's no
-       # references to the data
-       mesh.drop_references()
-       for m in bmeshes:
-               bpy.data.meshes.remove(m)
-
         progress.pop_task()
  
         return mesh