2023-02-18 08:00:29 +01:00 · 2023-02-17 16:23:01 +01:00 · 2023-02-18 07:55:07 +01:00 · 2023-02-17 17:13:29 +01:00 · 2023-02-17 17:43:31 +01:00
15 changed files with 803 additions and 590 deletions
--- a/source/blender/render/hydra/CMakeLists.txt
+++ b/source/blender/render/hydra/CMakeLists.txt
@ -62,10 +62,16 @@ set(SRC
  sceneDelegate/blenderSceneDelegate.h
  sceneDelegate/blenderSceneDelegate.cc
  sceneDelegate/id.h
  sceneDelegate/id.cc
  sceneDelegate/object.h
  sceneDelegate/object.cc
  sceneDelegate/material.h
  sceneDelegate/material.cc
  sceneDelegate/mesh.h
  sceneDelegate/mesh.cc
  sceneDelegate/light.h
  sceneDelegate/light.cc
  sceneDelegate/world.h
  sceneDelegate/world.cc
 )
--- a/source/blender/render/hydra/sceneDelegate/blenderSceneDelegate.cc
+++ b/source/blender/render/hydra/sceneDelegate/blenderSceneDelegate.cc
@ -25,75 +25,65 @@ BlenderSceneDelegate::BlenderSceneDelegate(HdRenderIndex* parentIndex, SdfPath c
 {
 }
-void BlenderSceneDelegate::set_material(ObjectData &obj_data)
+void BlenderSceneDelegate::set_material(MeshData &mesh_data)
 {
-  Material *material = obj_data.material();
+  Material *material = mesh_data.material();
  if (!material) {
-    obj_data.set_material_id(SdfPath::EmptyPath());
+    mesh_data.material_id = SdfPath::EmptyPath();
    return;
  }
-  SdfPath mat_id = material_id(material);
+  SdfPath id = MaterialData::prim_id(this, material);
-  if (!material_data(mat_id)) {
+  MaterialData *mat_data = material_data(id);
-    MaterialData mat_data(material);
+  if (!mat_data) {
-    GetRenderIndex().InsertSprim(HdPrimTypeTokens->material, this, mat_id);
+    materials[id] = MaterialData::init(this, material);
-    mat_data.export_mtlx();
+    mat_data = material_data(id);
-    materials[mat_id] = mat_data;
+    mat_data->export_mtlx();
-    LOG(INFO) << "Add material: " << mat_id << ", mtlx=" << mat_data.mtlx_path.GetResolvedPath();
+    mat_data->insert_prim();
  }
-  obj_data.set_material_id(mat_id);
+  mesh_data.material_id = id;
 }
 void BlenderSceneDelegate::update_material(Material *material)
 {
-  SdfPath mat_id = material_id(material);
+  MaterialData *mat_data = material_data(MaterialData::prim_id(this, material));
  MaterialData *mat_data = material_data(mat_id);
  if (mat_data) {
    mat_data->export_mtlx();
-    LOG(INFO) << "Update material: " << mat_id << ", mtlx=" << mat_data->mtlx_path.GetResolvedPath();
+    mat_data->mark_prim_dirty(IdData::DirtyBits::AllDirty);
    GetRenderIndex().GetChangeTracker().MarkSprimDirty(mat_id, HdMaterial::AllDirty);
  }
 }
-void BlenderSceneDelegate::add_update_world(World *world)
+void BlenderSceneDelegate::update_world()
 {
-  SdfPath world_light_id = world_id();
+  World *world = (World *)b_depsgraph->scene().world().ptr.data;
  LOG(INFO) << "Add world: " << world_light_id;
  if (!world) {
    world_data = nullptr;
    GetRenderIndex().RemoveSprim(HdPrimTypeTokens->domeLight, world_light_id);
    return;
  }
  if (!world_data) {
-    world_data = make_unique<WorldData>(world, (bContext *)b_context->ptr.data);
+    if (world) {
-    GetRenderIndex().InsertSprim(HdPrimTypeTokens->domeLight, this, world_light_id);
+      world_data = WorldData::init(this, world, (bContext *)b_context->ptr.data);
      world_data->insert_prim();
    }
  }
  else {
-    world_data = make_unique<WorldData>(world, (bContext *)b_context->ptr.data);
+    if (world) {
-    GetRenderIndex().GetChangeTracker().MarkSprimDirty(world_light_id, HdLight::AllDirty);
+      world_data = WorldData::init(this, world, (bContext *)b_context->ptr.data);
      world_data->mark_prim_dirty(IdData::DirtyBits::AllDirty);
    }
    else {
      world_data->remove_prim();
      world_data = nullptr;
    }
  }
 }
 bool BlenderSceneDelegate::GetVisible(SdfPath const &id)
 {
-  ObjectData *obj_data = object_data(id);
+  if (id == WorldData::prim_id(this)) {
-  LOG(INFO) << "GetVisible: " << id.GetAsString();
+    return true;
  HdRenderIndex &index = GetRenderIndex();
  if (id == world_id()) {
    return world_data->is_visible();
  }
-  return obj_data->is_visible();
+  return object_data(id)->visible;
 }
 void BlenderSceneDelegate::update_collection()
 {
  HdRenderIndex &index = GetRenderIndex();
  /* add new objects */
  std::set<SdfPath> available_objects;
  for (auto &inst : b_depsgraph->object_instances) {
@ -104,8 +94,7 @@ void BlenderSceneDelegate::update_collection()
    if (!supported_object(object)) {
      continue;
    }
-    SdfPath obj_id = object_id(object);
+    available_objects.insert(ObjectData::prim_id(this, object));
    available_objects.insert(obj_id);
    if (!is_populated) {
      add_update_object(object, true, true, true);
@ -121,13 +110,7 @@ void BlenderSceneDelegate::update_collection()
    if (available_objects.find(it->first) != available_objects.end()) {
      continue;
    }
-    LOG(INFO) << "Remove: " << it->first;
+    it->second->remove_prim();
    if (it->second.prim_type() == HdPrimTypeTokens->mesh) {
      index.RemoveRprim(it->first);
    }
    else if (it->second.prim_type() != HdBlenderTokens->empty) {
      index.RemoveSprim(it->second.prim_type(), it->first);
    }
    objects.erase(it);
    it = objects.begin();
  }
@ -135,16 +118,16 @@ void BlenderSceneDelegate::update_collection()
  /* remove unused materials */
  std::set<SdfPath> available_materials;
  for (auto &obj : objects) {
-    if (obj.second.has_data(HdBlenderTokens->materialId)) {
+    MeshData *m_data = dynamic_cast<MeshData *>(obj.second.get());
-      available_materials.insert(obj.second.get_data(HdBlenderTokens->materialId).Get<SdfPath>());
+    if (m_data && !m_data->material_id.IsEmpty()) {
      available_materials.insert(m_data->material_id);
    }
  }
  for (auto it = materials.begin(); it != materials.end(); ++it) {
    if (available_materials.find(it->first) != available_materials.end()) {
      continue;
    }
-    LOG(INFO) << "Remove material: " << it->first;
+    it->second->remove_prim();
    index.RemoveSprim(HdPrimTypeTokens->material, it->first);
    materials.erase(it);
    it = materials.begin();
  }
@ -152,56 +135,38 @@ void BlenderSceneDelegate::update_collection()
 void BlenderSceneDelegate::add_update_object(Object *object, bool geometry, bool transform, bool shading)
 {
-  HdRenderIndex &index = GetRenderIndex();
+  SdfPath id = ObjectData::prim_id(this, object);
-
+  ObjectData *obj_data = object_data(id);
  SdfPath obj_id = object_id(object);
  ObjectData *obj_data = object_data(obj_id);
  if (!obj_data) {
-    ObjectData new_obj_data(object);
+    objects[id] = ObjectData::init(this, object);
-    new_obj_data.update_visibility(view3d);
+    obj_data = object_data(id);
-    if (new_obj_data.prim_type() == HdPrimTypeTokens->mesh) {
+    obj_data->update_visibility(view3d);
-      LOG(INFO) << "Add mesh object: " << new_obj_data.name() << " id=" << obj_id;
+    obj_data->insert_prim();
-      index.InsertRprim(new_obj_data.prim_type(), this, obj_id);
+    MeshData *m_data = dynamic_cast<MeshData *>(obj_data);
-      set_material(new_obj_data);
+    if (m_data) {
      set_material(*m_data);
    }
    else if (new_obj_data.type() == OB_LAMP) {
      LOG(INFO) << "Add light object: " << new_obj_data.name() << " id=" << obj_id;
      index.InsertSprim(new_obj_data.prim_type(), this, obj_id);
    }
    objects[obj_id] = new_obj_data;
    return;
  }
  if (geometry) {
-    LOG(INFO) << "Full updated: " << obj_id;
+    objects[id] = ObjectData::init(this, object);
-    ObjectData new_obj_data(object);
+    obj_data = object_data(id);
-    new_obj_data.update_visibility(view3d);
+    obj_data->update_visibility(view3d);
-    if (new_obj_data.prim_type() == HdPrimTypeTokens->mesh) {
+    MeshData *m_data = dynamic_cast<MeshData *>(obj_data);
-      set_material(new_obj_data);
+    if (m_data) {
-      index.GetChangeTracker().MarkRprimDirty(obj_id, HdChangeTracker::AllDirty);
+      set_material(*m_data);
    }
-    else if (new_obj_data.type() == OB_LAMP) {
+    obj_data->mark_prim_dirty(IdData::DirtyBits::AllDirty);
      index.GetChangeTracker().MarkSprimDirty(obj_id, HdLight::AllDirty);
    }
    objects[obj_id] = new_obj_data;
    return;
  }
  if (transform) {
-    LOG(INFO) << "Transform updated: " << obj_id;
+    obj_data->mark_prim_dirty(IdData::DirtyBits::DirtyTransform);
    if (obj_data->prim_type() == HdPrimTypeTokens->mesh) {
      index.GetChangeTracker().MarkRprimDirty(obj_id, HdChangeTracker::DirtyTransform);
    }
    else if (obj_data->type() == OB_LAMP) {
      index.GetChangeTracker().MarkSprimDirty(obj_id, HdLight::DirtyTransform);
    }
  }
  if (shading) {
-    LOG(INFO) << "Shading updated: " << obj_id;
+    obj_data->mark_prim_dirty(IdData::DirtyBits::DirtyMaterial);
    if (obj_data->prim_type() == HdPrimTypeTokens->mesh) {
      index.GetChangeTracker().MarkRprimDirty(obj_id, HdChangeTracker::DirtyMaterialId);
    }
  }
 }
@ -211,7 +176,17 @@ ObjectData *BlenderSceneDelegate::object_data(SdfPath const &id)
  if (it == objects.end()) {
    return nullptr;
  }
-  return &it->second;
+  return it->second.get();
 }
 MeshData *BlenderSceneDelegate::mesh_data(SdfPath const &id)
 {
  return static_cast<MeshData *>(object_data(id));
 }
 LightData *BlenderSceneDelegate::light_data(SdfPath const &id)
 {
  return static_cast<LightData *>(object_data(id));
 }
 MaterialData *BlenderSceneDelegate::material_data(SdfPath const &id)
@ -220,28 +195,7 @@ MaterialData *BlenderSceneDelegate::material_data(SdfPath const &id)
  if (it == materials.end()) {
    return nullptr;
  }
-  return &it->second;
+  return it->second.get();
 }
 SdfPath BlenderSceneDelegate::object_id(Object *object)
 {
  /* Making id of object in form like O_<pointer in 16 hex digits format>. Example: O_000002073e369608 */
  char str[32];
  snprintf(str, 32, "O_%016llx", (uint64_t)object);
  return GetDelegateID().AppendElementString(str);
 }
 SdfPath BlenderSceneDelegate::material_id(Material *material)
 {
  /* Making id of material in form like M_<pointer in 16 hex digits format>. Example: M_000002074e812088 */
  char str[32];
  snprintf(str, 32, "M_%016llx", (uint64_t)material);
  return GetDelegateID().AppendElementString(str);
 }
 SdfPath BlenderSceneDelegate::world_id()
 {
  return GetDelegateID().AppendElementString("World");
 }
 bool BlenderSceneDelegate::supported_object(Object *object)
@ -259,16 +213,14 @@ void BlenderSceneDelegate::Populate(BL::Depsgraph &b_deps, BL::Context &b_cont)
 {
  LOG(INFO) << "Populate " << is_populated;
  view3d = (View3D *)b_cont.space_data().ptr.data;
  b_depsgraph = &b_deps;
  b_context = &b_cont;
  view3d = (View3D *)b_context->space_data().ptr.data;
  if (!is_populated) {
    /* Export initial objects */
    update_collection();
-
+    update_world();
    World *world = (World *)b_depsgraph->scene().world().ptr.data;
    add_update_world(world);
    is_populated = true;
    return;
@ -277,13 +229,14 @@ void BlenderSceneDelegate::Populate(BL::Depsgraph &b_deps, BL::Context &b_cont)
  /* Working with updates */
  bool do_update_collection = false;
  bool do_update_visibility = false;
  bool do_update_world = false;
  for (auto &update : b_depsgraph->updates) {
    BL::ID id = update.id();
-    LOG(INFO) << "Update: " << id.name_full() << " "
+    LOG(INFO) << "Update: " << id.name_full() << " ["
              << update.is_updated_transform()
              << update.is_updated_geometry()
-              << update.is_updated_shading();
+              << update.is_updated_shading() << "]";
    if (id.is_a(&RNA_Object)) {
      Object *object = (Object *)id.ptr.data;
@ -313,23 +266,21 @@ void BlenderSceneDelegate::Populate(BL::Depsgraph &b_deps, BL::Context &b_cont)
    }
    if (id.is_a(&RNA_Scene)) {
      World *world = (World *)b_depsgraph->scene().world().ptr.data;
      add_update_world(world);
      if (!update.is_updated_geometry() && !update.is_updated_transform() && !update.is_updated_shading()) {
        do_update_visibility = true;
        Scene *scene = (Scene *)id.ptr.data;
        if ((scene->world && !world_data) || (!scene->world && world_data)) {
          do_update_world = true;
        }
      }
      continue;
    }
    if (id.is_a(&RNA_World)) {
-      World *world = (World *)b_depsgraph->scene().world().ptr.data;
+      if (update.is_updated_shading()) {
-      add_update_world(world);
+        do_update_world = true;
      continue;
      }
    if (id.is_a(&RNA_ShaderNodeTree)) {
      World *world = (World *)b_depsgraph->scene().world().ptr.data;
      add_update_world(world);
      continue;
    }
  }
@ -340,22 +291,18 @@ void BlenderSceneDelegate::Populate(BL::Depsgraph &b_deps, BL::Context &b_cont)
  if (do_update_visibility) {
    update_visibility();
  }
  if (do_update_world) {
    update_world();
  }
 }
 void BlenderSceneDelegate::update_visibility()
 {
  HdRenderIndex &index = GetRenderIndex();
  /* Check and update visibility */
  for (auto &obj : objects) {
-    if (obj.second.update_visibility(view3d)) {
+    if (obj.second->update_visibility(view3d)) {
-      LOG(INFO) << "Visible changed: " << obj.first.GetAsString() << " " << obj.second.is_visible();
+      obj.second->mark_prim_dirty(IdData::DirtyBits::DirtyVisibility);
      if (obj.second.prim_type() == HdPrimTypeTokens->mesh) {
        index.GetChangeTracker().MarkRprimDirty(obj.first, HdChangeTracker::DirtyVisibility);
      }
      else if (obj.second.type() == OB_LAMP) {
        index.GetChangeTracker().MarkSprimDirty(obj.first, HdLight::DirtyParams);
      }
    };
  }
@ -369,8 +316,7 @@ void BlenderSceneDelegate::update_visibility()
      continue;
    }
-    SdfPath obj_id = object_id(object);
+    if (!object_data(ObjectData::prim_id(this, object))) {
    if (!object_data(obj_id)) {
      add_update_object(object, true, true, true);
    }
  }
@ -378,113 +324,65 @@ void BlenderSceneDelegate::update_visibility()
 HdMeshTopology BlenderSceneDelegate::GetMeshTopology(SdfPath const& id)
 {
-  LOG(INFO) << "GetMeshTopology: " << id.GetAsString();
+  MeshData *m_data = mesh_data(id);
-  ObjectData &obj_data = objects[id];
+  return m_data->mesh_topology();
  return HdMeshTopology(PxOsdOpenSubdivTokens->catmullClark, HdTokens->rightHanded,
                        obj_data.get_data<VtIntArray>(HdBlenderTokens->faceCounts),
                        obj_data.get_data<VtIntArray>(HdTokens->pointsIndices));
 }
 VtValue BlenderSceneDelegate::Get(SdfPath const& id, TfToken const& key)
 {
  LOG(INFO) << "Get: " << id.GetAsString() << " [" << key.GetString() << "]";
  VtValue ret;
  ObjectData *obj_data = object_data(id);
  if (obj_data) {
-    if (obj_data->has_data(key)) {
+    return obj_data->get_data(key);
      ret = obj_data->get_data(key);
  }
  MaterialData *mat_data = material_data(id);
  if (mat_data) {
    return mat_data->get_data(key);
  }
-  else if (key.GetString() == "MaterialXFilename") {
+  return VtValue();
    MaterialData &mat_data = materials[id];
    if (!mat_data.mtlx_path.GetResolvedPath().empty()) {
      ret = mat_data.mtlx_path;
    }
  }
  else if (key == HdStRenderBufferTokens->stormMsaaSampleCount) {
    // TODO: temporary value, it should be delivered through Python UI
    ret = 16;
  }
  return ret;
 }
 HdPrimvarDescriptorVector BlenderSceneDelegate::GetPrimvarDescriptors(SdfPath const& id, HdInterpolation interpolation)
 {
-  LOG(INFO) << "GetPrimvarDescriptors: " << id.GetAsString() << " " << interpolation;
+  return mesh_data(id)->primvar_descriptors(interpolation);
  HdPrimvarDescriptorVector primvars;
  ObjectData &obj_data = objects[id];
  if (interpolation == HdInterpolationVertex) {
    if (obj_data.has_data(HdTokens->points)) {
      primvars.emplace_back(HdTokens->points, interpolation, HdPrimvarRoleTokens->point);
    }
  }
  else if (interpolation == HdInterpolationFaceVarying) {
    if (obj_data.has_data(HdTokens->normals)) {
      primvars.emplace_back(HdTokens->normals, interpolation, HdPrimvarRoleTokens->normal);
    }
    if (obj_data.has_data(HdPrimvarRoleTokens->textureCoordinate)) {
      primvars.emplace_back(HdPrimvarRoleTokens->textureCoordinate, interpolation, HdPrimvarRoleTokens->textureCoordinate);
    }
  }
  return primvars;
 }
 SdfPath BlenderSceneDelegate::GetMaterialId(SdfPath const & rprimId)
 {
-  SdfPath ret;
+  return mesh_data(rprimId)->material_id;
  ObjectData *obj_data = object_data(rprimId);
  if (obj_data && obj_data->has_data(HdBlenderTokens->materialId)) {
    ret = obj_data->get_data<SdfPath>(HdBlenderTokens->materialId);
  }
  LOG(INFO) << "GetMaterialId [" << rprimId.GetAsString() << "] = " << ret.GetAsString();
  return ret;
 }
 VtValue BlenderSceneDelegate::GetMaterialResource(SdfPath const& id)
 {
-  LOG(INFO) << "GetMaterialResource: " << id.GetAsString();
+  MaterialData *mat_data = material_data(id);
  if (mat_data) {
    return mat_data->material_resource();
  }
  return VtValue();
 }
 GfMatrix4d BlenderSceneDelegate::GetTransform(SdfPath const& id)
 {
-  LOG(INFO) << "GetTransform: " << id.GetAsString();
+  ObjectData *obj_data = object_data(id);
-
+  if (obj_data) {
-  HdRenderIndex &index = GetRenderIndex();
+    return obj_data->transform();
  if (id == world_id()) {
    return world_data->transform(index.GetRenderDelegate()->GetRendererDisplayName());
  }
-
+  if (id == WorldData::prim_id(this)) {
-  return objects[id].transform();
+    return world_data->transform();
  }
  return GfMatrix4d();
 }
 VtValue BlenderSceneDelegate::GetLightParamValue(SdfPath const& id, TfToken const& key)
 {
-  LOG(INFO) << "GetLightParamValue: " << id.GetAsString() << " [" << key.GetString() << "]";
+  LightData *l_data = light_data(id);
-  VtValue ret;
+  if (l_data) {
-
+    return l_data->get_data(key);
  HdRenderIndex &index = GetRenderIndex();
  ObjectData *obj_data = object_data(id);
  if (obj_data) {
    if (obj_data->has_data(key)) {
      ret = obj_data->get_data(key);
  }
-    else if (key == HdLightTokens->exposure) {
+  if (id == WorldData::prim_id(this)) {
-      // TODO: temporary value, it should be delivered through Python UI
+    return world_data->get_data(key);
      ret = 1.0f;
  }
-  }
+  return VtValue();
  else if (id == world_id()) {
    if (world_data->has_data(key)) {
      ret = world_data->get_data(key);
    }
  }
  return ret;
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/blenderSceneDelegate.h
+++ b/source/blender/render/hydra/sceneDelegate/blenderSceneDelegate.h
@ -15,6 +15,8 @@
 #include "RNA_blender_cpp.h"
 #include "object.h"
 #include "mesh.h"
 #include "light.h"
 #include "world.h"
 using namespace pxr;
@ -40,16 +42,15 @@ public:
 private:
  ObjectData *object_data(SdfPath const &id);
  MeshData *mesh_data(SdfPath const &id);
  LightData *light_data(SdfPath const &id);
  MaterialData *material_data(SdfPath const &id);
  SdfPath object_id(Object *object);
  SdfPath material_id(Material *material);
  SdfPath world_id();
  bool supported_object(Object *object);
  void add_update_object(Object *object, bool geometry, bool transform, bool shading);
-  void set_material(ObjectData &obj_data);
+  void set_material(MeshData &mesh_data);
  void update_material(Material *material);
-  void add_update_world(World *world);
+  void update_world();
  void update_collection();
  void update_visibility();
--- a/source/blender/render/hydra/sceneDelegate/id.cc
+++ b/source/blender/render/hydra/sceneDelegate/id.cc
@ -0,0 +1,30 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #include "BKE_lib_id.h"
 #include "id.h"
 using namespace pxr;
 namespace blender::render::hydra {
 IdData::IdData(pxr::HdSceneDelegate *scene_delegate, ID *id)
  : scene_delegate(scene_delegate)
  , id(id)
 {
 }
 std::string IdData::name()
 {
  char str[MAX_ID_FULL_NAME];
  BKE_id_full_name_get(str, id, 0);
  return str;
 }
 VtValue IdData::get_data(TfToken const &key)
 {
  return VtValue();
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/id.h
+++ b/source/blender/render/hydra/sceneDelegate/id.h
@ -0,0 +1,44 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #pragma once
 #include <pxr/base/vt/value.h>
 #include <pxr/base/tf/token.h>
 #include <pxr/imaging/hd/sceneDelegate.h>
 #include "DNA_ID.h"
 namespace blender::render::hydra {
 class IdData {
 public:
  IdData(pxr::HdSceneDelegate *scene_delegate, ID *id);
  virtual ~IdData() = default;
  std::string name();
  virtual pxr::VtValue get_data(pxr::TfToken const &key);
  template<class T> const T get_data(pxr::TfToken const &key);
  enum class DirtyBits {
    DirtyTransform = 1,
    DirtyVisibility,
    DirtyMaterial,
    AllDirty
  };
  virtual void insert_prim() = 0;
  virtual void remove_prim() = 0;
  virtual void mark_prim_dirty(DirtyBits dirty_bits) = 0;
 protected:
  pxr::HdSceneDelegate *scene_delegate;
  ID *id;
 };
 template<class T> const T IdData::get_data(pxr::TfToken const &key)
 {
  return get_data(key).Get<T>();
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/light.cc
+++ b/source/blender/render/hydra/sceneDelegate/light.cc
@ -0,0 +1,173 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #include <boost/algorithm/string/predicate.hpp>
 #include <pxr/imaging/hd/light.h>
 #include <pxr/imaging/hd/tokens.h>
 #include <pxr/usd/usdLux/tokens.h>
 #include "glog/logging.h"
 #include "BKE_light.h"
 #include "DNA_light_types.h"
 #include "light.h"
 using namespace pxr;
 using namespace boost::algorithm;
 namespace blender::render::hydra {
 LightData::LightData(pxr::HdSceneDelegate *scene_delegate, Object *object)
  : ObjectData(scene_delegate, object)
 {
  Light *light = (Light *)((Object *)id)->data;
  data[HdLightTokens->intensity] = light->energy;
  data[HdLightTokens->color] = GfVec3f(light->r, light->g, light->b);
  switch (light->type) {
    case LA_LOCAL:
      data[HdLightTokens->radius] = light->area_size / 2;
      break;
    case LA_SUN:
      data[HdLightTokens->angle] = light->sun_angle * 180.0 / M_PI;
      break;
    case LA_SPOT:
      data[HdLightTokens->shapingConeAngle] = light->spotsize / 2;
      data[HdLightTokens->shapingConeSoftness] = light->spotblend;
      data[UsdLuxTokens->treatAsPoint] = true;
      break;
    case LA_AREA:
      switch (light->area_shape) {
        case LA_AREA_SQUARE:
          data[HdLightTokens->width] = light->area_size;
          data[HdLightTokens->height] = light->area_size;
          break;
        case LA_AREA_RECT:
          data[HdLightTokens->width] = light->area_size;
          data[HdLightTokens->height] = light->area_sizey;
          break;
        case LA_AREA_DISK:
          data[HdLightTokens->radius] = light->area_size / 2;
          break;
        case LA_AREA_ELLIPSE:
          data[HdLightTokens->radius] = (light->area_size + light->area_sizey) / 4;
          break;
        default:
          break;
      }
      data[HdLightTokens->normalize] = true;
      break;
    default:
      break;
  }
  /* TODO: temporary value, it should be delivered through Python UI */
  data[HdLightTokens->exposure] = 1.0f;
 }
 pxr::TfToken LightData::prim_type()
 {
  Light *light = (Light *)((Object *)id)->data;
  TfToken ret;
  switch (light->type) {
    case LA_LOCAL:
    case LA_SPOT:
      ret = HdPrimTypeTokens->sphereLight;
      break;
    case LA_SUN:
      ret = HdPrimTypeTokens->distantLight;
      break;
    case LA_AREA:
      switch (light->area_shape) {
        case LA_AREA_SQUARE:
        case LA_AREA_RECT:
          ret = HdPrimTypeTokens->rectLight;
          break;
        case LA_AREA_DISK:
        case LA_AREA_ELLIPSE:
          ret = HdPrimTypeTokens->diskLight;
          break;
        default:
          ret = HdPrimTypeTokens->rectLight;
      }
      break;
    default:
      ret = HdPrimTypeTokens->sphereLight;
  }
  return ret;
 }
 VtValue LightData::get_data(TfToken const &key)
 {
  LOG(INFO) << "Get data light: " << name() << " [" << key.GetString() << "]";
  VtValue ret;
  auto it = data.find(key);
  if (it != data.end()) {
    ret = it->second;
  }
  else {
    std::string n = key.GetString();
    if (contains(n, "object:visibility:")) {
      if (ends_with(n, "camera") || ends_with(n, "shadow")) {
        ret = false;
      }
      else {
        ret = true;
      }
    }
  }
  return ret;
 }
 void LightData::insert_prim()
 {
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  scene_delegate->GetRenderIndex().InsertSprim(prim_type(), scene_delegate, p_id);
  LOG(INFO) << "Add light: " << name() << " id=" << p_id.GetAsString();
 }
 void LightData::remove_prim()
 {
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  scene_delegate->GetRenderIndex().RemoveSprim(prim_type(), p_id);
  LOG(INFO) << "Remove light: " << name();
 }
 void LightData::mark_prim_dirty(DirtyBits dirty_bits)
 {
  HdDirtyBits bits = HdLight::Clean;
  switch (dirty_bits) {
    case DirtyBits::DirtyTransform:
      bits = HdLight::DirtyTransform;
      break;
    case DirtyBits::DirtyVisibility:
      bits = HdLight::DirtyParams;
      break;
    case DirtyBits::AllDirty:
      bits = HdLight::AllDirty;
      break;
    default:
      break;
  }
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  scene_delegate->GetRenderIndex().GetChangeTracker().MarkSprimDirty(p_id, bits);
  LOG(INFO) << "Update light: " << name() << " [" << (int)dirty_bits << "]";
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/light.h
+++ b/source/blender/render/hydra/sceneDelegate/light.h
@ -0,0 +1,28 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #pragma once
 #include <pxr/usd/sdf/assetPath.h>
 #include <pxr/usd/sdf/path.h>
 #include "pxr/base/tf/hashmap.h"
 #include "object.h"
 namespace blender::render::hydra {
 class LightData: public ObjectData {
 public:
  LightData(pxr::HdSceneDelegate *scene_delegate, Object *object);
  pxr::VtValue get_data(pxr::TfToken const &key) override;
  void insert_prim() override;
  void remove_prim() override;
  void mark_prim_dirty(DirtyBits dirty_bits) override;
 private:
  std::map<pxr::TfToken, pxr::VtValue> data;
  pxr::TfToken prim_type();
 };
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/material.cc
+++ b/source/blender/render/hydra/sceneDelegate/material.cc
@ -3,6 +3,11 @@
 #include <Python.h>
 #include <pxr/imaging/hd/tokens.h>
 #include <pxr/imaging/hd/material.h>
 #include "glog/logging.h"
 #include "BKE_material.h"
 #include "BKE_lib_id.h"
@ -12,32 +17,50 @@ using namespace pxr;
 namespace blender::render::hydra {
-MaterialData::MaterialData()
+std::unique_ptr<MaterialData> MaterialData::init(pxr::HdSceneDelegate *scene_delegate, Material *material)
-  : material(nullptr)
+{
  return std::make_unique<MaterialData>(scene_delegate, material);
 }
 pxr::SdfPath MaterialData::prim_id(pxr::HdSceneDelegate *scene_delegate, Material *material)
 {
  /* Making id of material in form like M_<pointer in 16 hex digits format>.
   * Example: M_000002074e812088 */
  char str[32];
  snprintf(str, 32, "M_%016llx", (uint64_t)material);
  return scene_delegate->GetDelegateID().AppendElementString(str);
 }
 MaterialData::MaterialData(pxr::HdSceneDelegate *scene_delegate, Material *material)
  : IdData(scene_delegate, (ID *)material)
 {
 }
-MaterialData::MaterialData(Material *material)
+VtValue MaterialData::get_data(TfToken const &key)
  : material(material)
 {
  VtValue ret;
  if (key.GetString() == "MaterialXFilename") {
    if (!mtlx_path.GetResolvedPath().empty()) {
      ret = mtlx_path;
    }
  }
  return ret;
 }
-std::string MaterialData::name()
+pxr::VtValue MaterialData::material_resource()
 {
-  char str[MAX_ID_FULL_NAME];
+  /* TODO: Implement return of HdMaterialNetwork */
-  BKE_id_full_name_get(str, (ID *)material, 0);
+  return pxr::VtValue();
  return str;
 }
 void MaterialData::export_mtlx()
 {
  /* Call of python function hydra.export_mtlx() */
  PyObject *module, *dict, *func, *result;
  PyGILState_STATE gstate;
  gstate = PyGILState_Ensure();
  PyObject *module, *dict, *func, *result;
  module = PyImport_ImportModule("hydra");
  dict = PyModule_GetDict(module);
  func = PyDict_GetItemString(dict, "export_mtlx");
@ -51,6 +74,36 @@ void MaterialData::export_mtlx()
  PyGILState_Release(gstate);
  mtlx_path = SdfAssetPath(path, path);
  LOG(INFO) << "Material export: " << name() << " mtlx=" << mtlx_path.GetResolvedPath();
 }
 void MaterialData::insert_prim()
 {
  SdfPath p_id = prim_id(scene_delegate, (Material *)id);
  scene_delegate->GetRenderIndex().InsertSprim(HdPrimTypeTokens->material, scene_delegate, p_id);
  LOG(INFO) << "Add material: " << name() << " id=" << p_id.GetAsString();
 }
 void MaterialData::remove_prim()
 {
  SdfPath p_id = prim_id(scene_delegate, (Material *)id);
  scene_delegate->GetRenderIndex().RemoveSprim(HdPrimTypeTokens->material, p_id);
  LOG(INFO) << "Remove material: " << name();
 }
 void MaterialData::mark_prim_dirty(DirtyBits dirty_bits)
 {
  HdDirtyBits bits = HdMaterial::Clean;
  switch (dirty_bits) {
    case DirtyBits::AllDirty:
      bits = HdMaterial::AllDirty;
      break;
    default:
      break;
  }
  SdfPath p_id = prim_id(scene_delegate, (Material *)id);
  scene_delegate->GetRenderIndex().GetChangeTracker().MarkSprimDirty(p_id, bits);
  LOG(INFO) << "Update material: " << name() << ", mtlx=" << mtlx_path.GetResolvedPath();
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/material.h
+++ b/source/blender/render/hydra/sceneDelegate/material.h
@ -3,28 +3,36 @@
 #pragma once
 #include <map>
 #include <pxr/usd/sdf/assetPath.h>
 #include <pxr/usd/sdf/path.h>
 #include "pxr/base/tf/hashmap.h"
 #include "DNA_material_types.h"
 #include "id.h"
 namespace blender::render::hydra {
-class MaterialData {
+class MaterialData;
 using MaterialDataMap = pxr::TfHashMap<pxr::SdfPath, std::unique_ptr<MaterialData>, pxr::SdfPath::Hash>;
 class MaterialData: IdData {
 public:
-  MaterialData();
+  static std::unique_ptr<MaterialData> init(pxr::HdSceneDelegate *scene_delegate, Material *material);
-  MaterialData(Material *material);
+  static pxr::SdfPath prim_id(pxr::HdSceneDelegate *scene_delegate, Material *material);
-  std::string name();
+  MaterialData(pxr::HdSceneDelegate *scene_delegate, Material *material);
  pxr::VtValue get_data(pxr::TfToken const &key) override;
  void insert_prim() override;
  void remove_prim() override;
  void mark_prim_dirty(DirtyBits dirty_bits) override;
  pxr::VtValue material_resource();
  void export_mtlx();
  pxr::SdfAssetPath mtlx_path;
- private:
+private:
-  Material *material;
+  pxr::SdfAssetPath mtlx_path;
 };
 using MaterialDataMap = std::map<pxr::SdfPath, MaterialData>;
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/mesh.cc
+++ b/source/blender/render/hydra/sceneDelegate/mesh.cc
@ -0,0 +1,187 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #include <pxr/base/gf/vec2f.h>
 #include <pxr/imaging/hd/tokens.h>
 #include "glog/logging.h"
 #include "BKE_mesh.h"
 #include "BKE_mesh_runtime.h"
 #include "BKE_object.h"
 #include "BKE_material.h"
 #include "mesh.h"
 using namespace pxr;
 namespace blender::render::hydra {
 MeshData::MeshData(pxr::HdSceneDelegate *scene_delegate, Object *object)
  : ObjectData(scene_delegate, object)
 {
  if (object->type == OB_MESH && object->mode == OB_MODE_OBJECT &&
      BLI_listbase_is_empty(&object->modifiers)) {
    set_mesh((Mesh *)object->data);
  }
  else {
    Mesh *mesh = BKE_object_to_mesh(nullptr, object, false);
    set_mesh(mesh);
    BKE_object_to_mesh_clear(object);
  }
 }
 VtValue MeshData::get_data(TfToken const &key)
 {
  VtValue ret;
  if (key == HdTokens->points) {
    ret = vertices;
  }
  else if (key == HdTokens->normals) {
    ret = normals;
  }
  else if (key == HdPrimvarRoleTokens->textureCoordinate) {
    ret = uvs;
  }
  return ret;
 }
 Material *MeshData::material()
 {
  Object *object = (Object *)id;
  if (BKE_object_material_count_eval(object) == 0) {
    return nullptr;
  }
  return BKE_object_material_get_eval(object, object->actcol);
 }
 HdMeshTopology MeshData::mesh_topology()
 {
  return HdMeshTopology(PxOsdOpenSubdivTokens->catmullClark, HdTokens->rightHanded,
                        face_vertex_counts, face_vertex_indices);
 }
 HdPrimvarDescriptorVector MeshData::primvar_descriptors(HdInterpolation interpolation)
 {
  HdPrimvarDescriptorVector primvars;
  if (interpolation == HdInterpolationVertex) {
    if (!vertices.empty()) {
      primvars.emplace_back(HdTokens->points, interpolation, HdPrimvarRoleTokens->point);
    }
  }
  else if (interpolation == HdInterpolationFaceVarying) {
    if (!vertices.empty()) {
      primvars.emplace_back(HdTokens->normals, interpolation, HdPrimvarRoleTokens->normal);
    }
    if (!uvs.empty()) {
      primvars.emplace_back(HdPrimvarRoleTokens->textureCoordinate, interpolation,
                            HdPrimvarRoleTokens->textureCoordinate);
    }
  }
  return primvars;
 }
 void MeshData::set_mesh(Mesh *mesh)
 {
  BKE_mesh_calc_normals_split(mesh);
  int tris_len = BKE_mesh_runtime_looptri_len(mesh);
  if (tris_len == 0) {
    return;
  }
  blender::Span<MLoopTri> loopTris = mesh->looptris();
  /* face_vertex_counts */
  face_vertex_counts = VtIntArray(tris_len, 3);
  /* face_vertex_indices */
  blender::Span<MLoop> loops = mesh->loops();
  face_vertex_indices.reserve(loopTris.size() * 3);
  for (MLoopTri lt : loopTris) {
    face_vertex_indices.push_back(loops[lt.tri[0]].v);
    face_vertex_indices.push_back(loops[lt.tri[1]].v);
    face_vertex_indices.push_back(loops[lt.tri[2]].v);
  }
  /* vertices */
  vertices.reserve(mesh->totvert);
  blender::Span<blender::float3> verts = mesh->vert_positions();
  for (blender::float3 v : verts) {
    vertices.push_back(GfVec3f(v.x, v.y, v.z));
  }
  /* normals */
  const float(*lnors)[3] = (float(*)[3])CustomData_get_layer(&mesh->ldata, CD_NORMAL);
  if (lnors) {
    normals.reserve(loopTris.size() * 3);
    for (MLoopTri lt : loopTris) {
      normals.push_back(GfVec3f(lnors[lt.tri[0]]));
      normals.push_back(GfVec3f(lnors[lt.tri[1]]));
      normals.push_back(GfVec3f(lnors[lt.tri[2]]));
    }
  }
  /* uvs*/
  const float(*luvs)[2] = (float(*)[2])CustomData_get_layer(&mesh->ldata, CD_PROP_FLOAT2);
  if (luvs) {
    uvs.reserve(loopTris.size() * 3);
    for (MLoopTri lt : loopTris) {
      uvs.push_back(GfVec2f(luvs[lt.tri[0]]));
      uvs.push_back(GfVec2f(luvs[lt.tri[1]]));
      uvs.push_back(GfVec2f(luvs[lt.tri[2]]));
    }
  }
 }
 void MeshData::insert_prim()
 {
  if (face_vertex_counts.empty()) {
    return;
  }
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  scene_delegate->GetRenderIndex().InsertRprim(HdPrimTypeTokens->mesh, scene_delegate, p_id);
  LOG(INFO) << "Add mesh: " << name() << " id=" << p_id.GetAsString();
 }
 void MeshData::remove_prim()
 {
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  if (!scene_delegate->GetRenderIndex().HasRprim(p_id)) {
    return;
  }
  scene_delegate->GetRenderIndex().RemoveRprim(p_id);
  LOG(INFO) << "Remove mesh: " << name();
 }
 void MeshData::mark_prim_dirty(DirtyBits dirty_bits)
 {
  SdfPath p_id = prim_id(scene_delegate, (Object *)id);
  if (!scene_delegate->GetRenderIndex().HasRprim(p_id)) {
    return;
  }
  HdDirtyBits bits = HdChangeTracker::Clean;
  switch (dirty_bits) {
    case DirtyBits::DirtyTransform:
      bits = HdChangeTracker::DirtyTransform;
      break;
    case DirtyBits::DirtyVisibility:
      bits = HdChangeTracker::DirtyVisibility;
      break;
    case DirtyBits::DirtyMaterial:
      bits = HdChangeTracker::DirtyMaterialId;
      break;
    case DirtyBits::AllDirty:
      bits = HdChangeTracker::AllDirty;
      break;
    default:
      break;
  }
  scene_delegate->GetRenderIndex().GetChangeTracker().MarkRprimDirty(p_id, bits);
  LOG(INFO) << "Update mesh: " << name() << " [" << (int)dirty_bits << "]";
 }
 }  // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/mesh.h
+++ b/source/blender/render/hydra/sceneDelegate/mesh.h
@ -0,0 +1,39 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #pragma once
 #include <pxr/base/vt/array.h>
 #include <pxr/imaging/hd/sceneDelegate.h>
 #include "object.h"
 namespace blender::render::hydra {
 class MeshData: public ObjectData {
 public:
  MeshData(pxr::HdSceneDelegate *scene_delegate, Object *object);
  pxr::VtValue get_data(pxr::TfToken const &key) override;
  void insert_prim() override;
  void remove_prim() override;
  void mark_prim_dirty(DirtyBits dirty_bits) override;
  Material *material();
  pxr::HdMeshTopology mesh_topology();
  pxr::HdPrimvarDescriptorVector primvar_descriptors(pxr::HdInterpolation interpolation);
  pxr::SdfPath material_id;
 private:
  void set_mesh(Mesh *mesh);
  pxr::VtIntArray face_vertex_counts;
  pxr::VtIntArray face_vertex_indices;
  pxr::VtVec3fArray vertices;
  pxr::VtVec3fArray normals;
  pxr::VtVec2fArray uvs;
 };
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/object.cc
+++ b/source/blender/render/hydra/sceneDelegate/object.cc
@ -1,173 +1,60 @@
 /* SPDX-License-Identifier: Apache-2.0
 * Copyright 2011-2022 Blender Foundation */
 #include <pxr/base/vt/array.h>
 #include <pxr/base/gf/vec2f.h>
 #include <pxr/imaging/hd/light.h>
 #include <pxr/imaging/hd/camera.h>
 #include <pxr/imaging/hd/tokens.h>
 #include <pxr/usd/usdLux/tokens.h>
 #include "DNA_light_types.h"
 #include "DNA_camera_types.h"
 #include "BKE_object.h"
 #include "BKE_lib_id.h"
 #include "BKE_material.h"
 #include "BKE_light.h"
 #include "BKE_mesh.h"
 #include "BKE_mesh_runtime.h"
 #include "BKE_layer.h"
 #include "object.h"
 #include "mesh.h"
 #include "light.h"
 #include "../utils.h"
 PXR_NAMESPACE_OPEN_SCOPE
 TF_DEFINE_PUBLIC_TOKENS(HdBlenderTokens, HD_BLENDER_TOKENS);
 PXR_NAMESPACE_CLOSE_SCOPE
 using namespace pxr;
 namespace blender::render::hydra {
-ObjectData::ObjectData()
+std::unique_ptr<ObjectData> ObjectData::init(pxr::HdSceneDelegate *scene_delegate, Object *object)
  : object(nullptr)
  , visible(true)
 {
 }
 ObjectData::ObjectData(Object *object)
  : object(object)
 {
  switch (object->type) {
    case OB_MESH:
      if (object->mode == OB_MODE_OBJECT && BLI_listbase_is_empty(&object->modifiers)) {
        set_as_mesh();
      }
      else {
        set_as_meshable();
      }
      break;
    case OB_SURF:
    case OB_FONT:
    case OB_CURVES:
    case OB_CURVES_LEGACY:
    case OB_MBALL:
-      set_as_meshable();
+      return std::make_unique<MeshData>(scene_delegate, object);
      break;
    case OB_LAMP:
-      set_as_light();
+      return std::make_unique<LightData>(scene_delegate, object);
      break;
    default:
      break;
  }
  return nullptr;
 }
-std::string ObjectData::name()
+pxr::SdfPath ObjectData::prim_id(pxr::HdSceneDelegate *scene_delegate, Object *object)
 {
  /* Making id of object in form like O_<pointer in 16 hex digits format>. Example:
   * O_000002073e369608 */
  char str[32];
  snprintf(str, 32, "O_%016llx", (uint64_t)object);
  return scene_delegate->GetDelegateID().AppendElementString(str);
 }
 ObjectData::ObjectData(pxr::HdSceneDelegate *scene_delegate, Object *object)
  : IdData(scene_delegate, (ID *)object)
  , visible(true)
 {
  char str[MAX_ID_FULL_NAME];
  BKE_id_full_name_get(str, (ID *)object, 0);
  return str;
 }
 int ObjectData::type()
 {
-  return object->type;
+  return ((Object *)id)->type;
 }
 TfToken ObjectData::prim_type()
 {
  TfToken ret = HdBlenderTokens->empty;
  Light *light;
  switch (object->type) {
    case OB_MESH:
    case OB_SURF:
    case OB_FONT:
    case OB_CURVES:
    case OB_CURVES_LEGACY:
    case OB_MBALL:
      if (!has_data(HdTokens->points)) {
        break;
      }
      ret = HdPrimTypeTokens->mesh;
      break;
    case OB_LAMP:
      light = (Light *)object->data;
      switch (light->type) {
        case LA_LOCAL:
        case LA_SPOT:
          ret = HdPrimTypeTokens->sphereLight;
          break;
        case LA_SUN:
          ret = HdPrimTypeTokens->distantLight;
          break;
        case LA_AREA:
          switch (light->area_shape) {
            case LA_AREA_SQUARE:
            case LA_AREA_RECT:
              ret = HdPrimTypeTokens->rectLight;
              break;
            case LA_AREA_DISK:
            case LA_AREA_ELLIPSE:
              ret = HdPrimTypeTokens->diskLight;
              break;
            default:
              ret = HdPrimTypeTokens->rectLight;
          }
          break;
        default:
          ret = HdPrimTypeTokens->sphereLight;
      }
      break;
    default:
      break;
  }
  return ret;
 }
 GfMatrix4d ObjectData::transform()
 {
-  return gf_matrix_from_transform(object->object_to_world);
+  return gf_matrix_from_transform(((Object *)id)->object_to_world);
 }
 Material *ObjectData::material()
 {
  if (BKE_object_material_count_eval(object) == 0) {
    return nullptr;
  }
  return BKE_object_material_get_eval(object, object->actcol);
 }
 VtValue &ObjectData::get_data(TfToken const &key)
 {
  return data[key];
 }
 bool ObjectData::has_data(TfToken const &key)
 {
  return data.find(key) != data.end();
 }
 void ObjectData::set_material_id(SdfPath const &id)
 {
  if (id.IsEmpty()) {
    data.erase(HdBlenderTokens->materialId);
  }
  else {
    data[HdBlenderTokens->materialId] = id;
  }
 }
 bool ObjectData::update_visibility(View3D *view3d)
@ -177,136 +64,8 @@ bool ObjectData::update_visibility(View3D *view3d)
  }
  bool prev_visible = visible;
-  visible = BKE_object_is_visible_in_viewport(view3d, object);
+  visible = BKE_object_is_visible_in_viewport(view3d, (Object *)id);
  return visible != prev_visible;
 }
 bool ObjectData::is_visible()
 {
  return visible;
 }
 void ObjectData::set_as_mesh()
 {
  Mesh *mesh = (Mesh *)object->data;
  set_mesh(mesh);
 }
 void ObjectData::set_as_meshable()
 {
  Mesh *mesh = BKE_object_to_mesh(nullptr, object, false);
  set_mesh(mesh);
  BKE_object_to_mesh_clear(object);
 }
 void ObjectData::set_mesh(Mesh *mesh)
 {
  BKE_mesh_calc_normals_split(mesh);
  int tris_len = BKE_mesh_runtime_looptri_len(mesh);
  if (tris_len == 0) {
    return;
  }
  blender::Span<MLoopTri> loopTris = mesh->looptris();
  /* faceVertexCounts */
  data[HdBlenderTokens->faceCounts] = VtIntArray(tris_len, 3);
  /* faceVertexIndices */
  VtIntArray faceVertexIndices;
  blender::Span<MLoop> loops = mesh->loops();
  faceVertexIndices.reserve(loopTris.size() * 3);
  for (MLoopTri lt : loopTris) {
    faceVertexIndices.push_back(loops[lt.tri[0]].v);
    faceVertexIndices.push_back(loops[lt.tri[1]].v);
    faceVertexIndices.push_back(loops[lt.tri[2]].v);
  }
  data[HdTokens->pointsIndices] = faceVertexIndices;
  /* vertices */
  VtVec3fArray vertices;
  vertices.reserve(mesh->totvert);
  blender::Span<blender::float3> verts = mesh->vert_positions();
  for (blender::float3 v : verts) {
    vertices.push_back(GfVec3f(v.x, v.y, v.z));
  }
  data[HdTokens->points] = vertices;
  /* normals */
  const float(*lnors)[3] = (float(*)[3])CustomData_get_layer(&mesh->ldata, CD_NORMAL);
  if (lnors) {
    VtVec3fArray normals;
    normals.reserve(loopTris.size() * 3);
    for (MLoopTri lt : loopTris) {
      normals.push_back(GfVec3f(lnors[lt.tri[0]]));
      normals.push_back(GfVec3f(lnors[lt.tri[1]]));
      normals.push_back(GfVec3f(lnors[lt.tri[2]]));
    }
    data[HdTokens->normals] = normals;
  }
  /* UVs*/
  const float(*luvs)[2] = (float(*)[2])CustomData_get_layer(&mesh->ldata, CD_PROP_FLOAT2);
  if (luvs) {
    VtVec2fArray uvs;
    uvs.reserve(loopTris.size() * 3);
    for (MLoopTri lt : loopTris) {
      uvs.push_back(GfVec2f(luvs[lt.tri[0]]));
      uvs.push_back(GfVec2f(luvs[lt.tri[1]]));
      uvs.push_back(GfVec2f(luvs[lt.tri[2]]));
    }
    data[HdPrimvarRoleTokens->textureCoordinate] = uvs;
  }
 }
 void ObjectData::set_as_light()
 {
  Light *light = (Light *)object->data;
  data[HdLightTokens->intensity] = light->energy;
  data[HdLightTokens->color] = GfVec3f(light->r, light->g, light->b);
  switch (light->type) {
    case LA_LOCAL:
      data[HdLightTokens->radius] = light->area_size / 2;
      break;
    case LA_SUN:
      data[HdLightTokens->angle] = light->sun_angle * 180.0 / M_PI;
      break;
    case LA_SPOT:
      data[HdLightTokens->shapingConeAngle] = light->spotsize / 2;
      data[HdLightTokens->shapingConeSoftness] = light->spotblend;
      data[UsdLuxTokens->treatAsPoint] = 1;
      break;
    case LA_AREA:
      switch (light->area_shape) {
        case LA_AREA_SQUARE:
          data[HdLightTokens->width] = light->area_size;
          data[HdLightTokens->height] = light->area_size;
          break;
        case LA_AREA_RECT:
          data[HdLightTokens->width] = light->area_size;
          data[HdLightTokens->height] = light->area_sizey;
          break;
        case LA_AREA_DISK:
          data[HdLightTokens->radius] = light->area_size / 2;
          break;
        case LA_AREA_ELLIPSE:
          data[HdLightTokens->radius] = (light->area_size + light->area_sizey) / 4;
          break;
        default:
          break;
      }
      break;
    default:
      break;
  }
 }
 }  // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/object.h
+++ b/source/blender/render/hydra/sceneDelegate/object.h
@ -3,66 +3,34 @@
 #pragma once
 #include <map>
 #include <pxr/base/gf/matrix4d.h>
-#include <pxr/usd/sdf/path.h>
+#include "pxr/base/tf/hashmap.h"
 #include <pxr/base/vt/value.h>
 #include "pxr/base/tf/staticTokens.h"
 #include "DNA_object_types.h"
 #include "BKE_layer.h"
 #include "id.h"
 #include "material.h"
 PXR_NAMESPACE_OPEN_SCOPE
 #define HD_BLENDER_TOKENS \
  (materialId) \
  (faceCounts) \
  (empty)
 TF_DECLARE_PUBLIC_TOKENS(HdBlenderTokens, HD_BLENDER_TOKENS);
 PXR_NAMESPACE_CLOSE_SCOPE
 namespace blender::render::hydra {
 class ObjectData;
 using ObjectDataMap = pxr::TfHashMap<pxr::SdfPath, std::unique_ptr<ObjectData>, pxr::SdfPath::Hash>;
-class ObjectData {
+class ObjectData: public IdData {
 public:
-  ObjectData();
+  static std::unique_ptr<ObjectData> init(pxr::HdSceneDelegate *scene_delegate, Object *object);
-  ObjectData(Object *object);
+  static pxr::SdfPath prim_id(pxr::HdSceneDelegate *scene_delegate, Object *object);
  ObjectData(pxr::HdSceneDelegate *scene_delegate, Object *object);
  std::string name();
  int type();
  pxr::TfToken prim_type();
  pxr::GfMatrix4d transform();
  Material *material();
  pxr::VtValue &get_data(pxr::TfToken const &key);
  template<class T>
  const T &get_data(pxr::TfToken const &key);
  bool has_data(pxr::TfToken const &key);
  void set_material_id(pxr::SdfPath const &id);
  bool update_visibility(View3D *view3d);
  bool is_visible();
 private:
  Object *object;
  std::map<pxr::TfToken, pxr::VtValue> data;
  bool visible;
  void set_as_mesh();
  void set_as_meshable();
  void set_mesh(Mesh *mesh);
  void set_as_light();
 };
 using ObjectDataMap = std::map<pxr::SdfPath, ObjectData>;
 template<class T>
 const T &ObjectData::get_data(pxr::TfToken const &key)
 {
  return get_data(key).Get<T>();
 }
 } // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/world.cc
+++ b/source/blender/render/hydra/sceneDelegate/world.cc
@ -8,6 +8,7 @@
 #include <pxr/base/gf/rotation.h>
 #include <pxr/imaging/hd/light.h>
 #include <pxr/imaging/hd/tokens.h>
 #include <pxr/imaging/hd/renderDelegate.h>
 #include <pxr/usd/usdLux/tokens.h>
 #include "BKE_context.h"
@ -19,31 +20,36 @@
 #include "BKE_image.h"
 #include "NOD_shader.h"
 #include "glog/logging.h"
 #include "world.h"
 #include "../utils.h"
 /* TODO : add custom tftoken "transparency"? */
 using namespace pxr;
 using namespace std;
 namespace blender::render::hydra {
-WorldData::WorldData()
+std::unique_ptr<WorldData> WorldData::init(pxr::HdSceneDelegate *scene_delegate,
-  : b_context(nullptr),
+                                           World *world, bContext *context)
    world(nullptr)    
 {
  return std::make_unique<WorldData>(scene_delegate, world, context);
 }
-WorldData::WorldData(World *world, bContext *b_context)
+SdfPath WorldData::prim_id(HdSceneDelegate *scene_delegate)
  : b_context(b_context),
    world(world)    
 {
-  data.clear();
+  return scene_delegate->GetDelegateID().AppendElementString("World");
 }
 WorldData::WorldData(pxr::HdSceneDelegate *scene_delegate, World *world, bContext *context)
  : IdData(scene_delegate, (ID *)world)
 {
  data[UsdLuxTokens->orientToStageUpAxis] = true;
  if (world->use_nodes) {
    /* TODO: Create nodes parsing system */
    bNode *output_node = ntreeShaderOutputNode(world->nodetree, SHD_OUTPUT_ALL);
    bNodeSocket input_socket = output_node->input_by_identifier("Surface");
    bNodeLink const *link = input_socket.directly_linked_links()[0];
@ -69,16 +75,16 @@ WorldData::WorldData(World *world, bContext *b_context)
        Image *image = (Image *)color_input_node->id;
        if (image) {
-          Main *bmain = CTX_data_main(b_context);
+          Main *bmain = CTX_data_main(context);
-          Scene *scene = CTX_data_scene(b_context);
+          Scene *scene = CTX_data_scene(context);
          ReportList reports;
          ImageSaveOptions opts;
          opts.im_format.imtype = R_IMF_IMTYPE_PNG;
-          string cached_image_path = cache_image(bmain, scene, image, &tex->iuser, &opts, &reports);
+          std::string image_path = cache_image(bmain, scene, image, &tex->iuser, &opts, &reports);
-          if (!cached_image_path.empty()) {
+          if (!image_path.empty()) {
-            data[HdLightTokens->textureFile] = SdfAssetPath(cached_image_path, cached_image_path);
+            data[HdLightTokens->textureFile] = SdfAssetPath(image_path, image_path);
          }
        }
      }
@ -91,35 +97,55 @@ WorldData::WorldData(World *world, bContext *b_context)
  }
 }
-GfMatrix4d WorldData::transform(string const &renderer_name)
+GfMatrix4d WorldData::transform()
 {
-  GfMatrix4d transform = GfMatrix4d().SetIdentity();
+  GfMatrix4d transform = GfMatrix4d(GfRotation(GfVec3d(1.0, 0.0, 0.0), -90), GfVec3d());
  if (has_data(UsdLuxTokens->orientToStageUpAxis)) {
    transform *= GfMatrix4d(GfRotation(GfVec3d(1.0, 0.0, 0.0), -90), GfVec3d());
  }
  /* TODO : do this check via RenderSettings*/ 
-  if (renderer_name == "RPR") {
+  if (scene_delegate->GetRenderIndex().GetRenderDelegate()->GetRendererDisplayName() == "RPR") {
    transform *= GfMatrix4d(GfRotation(GfVec3d(1.0, 0.0, 0.0), -180), GfVec3d());
    transform *= GfMatrix4d(GfRotation(GfVec3d(0.0, 0.0, 1.0), 90.0), GfVec3d());
  }
  return transform;
 }
-VtValue &WorldData::get_data(TfToken const &key)
+VtValue WorldData::get_data(TfToken const &key)
 {
-  return data[key];
+  VtValue ret;
  auto it = data.find(key);
  if (it != data.end()) {
    ret = it->second;
  }
  return ret;
 }
-bool WorldData::has_data(TfToken const &key)
+void WorldData::insert_prim()
 {
-  return data.find(key) != data.end();
+  SdfPath p_id = prim_id(scene_delegate);
  scene_delegate->GetRenderIndex().InsertSprim(HdPrimTypeTokens->domeLight, scene_delegate, p_id);
  LOG(INFO) << "Add World: id=" << p_id.GetAsString();
 }
-bool WorldData::is_visible()
+void WorldData::remove_prim()
 {
-  return true;
+  SdfPath p_id = prim_id(scene_delegate);
  scene_delegate->GetRenderIndex().RemoveSprim(HdPrimTypeTokens->domeLight, p_id);
  LOG(INFO) << "Remove World";
 }
 void WorldData::mark_prim_dirty(DirtyBits dirty_bits)
 {
  HdDirtyBits bits = HdLight::Clean;
  switch (dirty_bits) {
    case DirtyBits::AllDirty:
      bits = HdLight::AllDirty;
      break;
    default:
      break;
  }
  SdfPath p_id = prim_id(scene_delegate);
  scene_delegate->GetRenderIndex().GetChangeTracker().MarkSprimDirty(p_id, bits);
  LOG(INFO) << "Update World";
 }
 }  // namespace blender::render::hydra
--- a/source/blender/render/hydra/sceneDelegate/world.h
+++ b/source/blender/render/hydra/sceneDelegate/world.h
@ -14,33 +14,26 @@
 #include "DNA_view3d_types.h"
 #include "DNA_world_types.h"
 #include "id.h"
 namespace blender::render::hydra {
-class WorldData {
+class WorldData: public IdData {
 public:
-  WorldData();
+  static std::unique_ptr<WorldData> init(pxr::HdSceneDelegate *scene_delegate, World *world, bContext *context);
-  WorldData(World *world, bContext *b_context);
+  static pxr::SdfPath prim_id(pxr::HdSceneDelegate *scene_delegate);
-  pxr::TfToken prim_type();
+  WorldData(pxr::HdSceneDelegate *scene_delegate, World *world, bContext *context);
  pxr::GfMatrix4d transform(std::string const &renderer_name);
-  pxr::VtValue &get_data(pxr::TfToken const &key);
+  pxr::GfMatrix4d transform();
  template<class T>
  const T &get_data(pxr::TfToken const &key);
  bool has_data(pxr::TfToken const &key);
  bool is_visible();
-  bContext *b_context;
+  pxr::VtValue get_data(pxr::TfToken const &key) override;
-  World *world;
+  void insert_prim() override;
  void remove_prim() override;
  void mark_prim_dirty(DirtyBits dirty_bits) override;
 private:
  std::map<pxr::TfToken, pxr::VtValue> data;
 };
 template<class T>
 const T &WorldData::get_data(pxr::TfToken const &key)
 {
  return get_data(key).Get<T>();
 }
 } // namespace blender::render::hydra