Moved check of existing MaterialX addon from bpy_hydra.py to material.cc and log warning only once. #83

Merged
Bogdan Nagirniak merged 3 commits from hydra-matx-check into hydra-render 2023-08-02 07:45:13 +02:00
20 changed files with 151 additions and 145 deletions
Showing only changes of commit a0fe6cb355 - Show all commits

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@ -1283,7 +1283,6 @@ class HydraRenderEngine(RenderEngine):
# Final render.
def update(self, data, depsgraph):
import _bpy_hydra
import bpy
engine_type = 'PREVIEW' if self.is_preview else 'FINAL'
if not self.engine_ptr:
@ -1294,7 +1293,7 @@ class HydraRenderEngine(RenderEngine):
for key, val in self.get_sync_settings(engine_type).items():
_bpy_hydra.engine_set_sync_setting(self.engine_ptr, key, val)
_bpy_hydra.engine_update(self.engine_ptr, depsgraph, bpy.context)
_bpy_hydra.engine_update(self.engine_ptr, depsgraph, None)
for key, val in self.get_render_settings('PREVIEW' if self.is_preview else 'FINAL').items():
_bpy_hydra.engine_set_render_setting(self.engine_ptr, key, val)
@ -1304,7 +1303,7 @@ class HydraRenderEngine(RenderEngine):
return
import _bpy_hydra
_bpy_hydra.engine_render(self.engine_ptr, depsgraph)
_bpy_hydra.engine_render(self.engine_ptr)
# Viewport render.
def view_update(self, context, depsgraph):
@ -1327,4 +1326,4 @@ class HydraRenderEngine(RenderEngine):
return
import _bpy_hydra
_bpy_hydra.engine_view_draw(self.engine_ptr, depsgraph, context)
_bpy_hydra.engine_view_draw(self.engine_ptr, context)

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@ -13,7 +13,7 @@
namespace blender::io::hydra {
CLG_LOGREF_DECLARE_GLOBAL(LOG_RENDER_HYDRA_SCENE, "render.hydra.scene");
CLG_LOGREF_DECLARE_GLOBAL(LOG_HYDRA_SCENE, "hydra.scene");
bool HydraSceneDelegate::ShadingSettings::operator==(const ShadingSettings &other)
{
@ -38,21 +38,21 @@ HydraSceneDelegate::HydraSceneDelegate(pxr::HdRenderIndex *parent_index,
pxr::HdMeshTopology HydraSceneDelegate::GetMeshTopology(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
MeshData *m_data = mesh_data(id);
return m_data->topology(id);
}
pxr::HdBasisCurvesTopology HydraSceneDelegate::GetBasisCurvesTopology(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
CurvesData *c_data = curves_data(id);
return c_data->topology();
};
pxr::GfMatrix4d HydraSceneDelegate::GetTransform(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
InstancerData *i_data = instancer_data(id, true);
if (i_data) {
return i_data->transform(id);
@ -69,7 +69,7 @@ pxr::GfMatrix4d HydraSceneDelegate::GetTransform(pxr::SdfPath const &id)
pxr::VtValue HydraSceneDelegate::Get(pxr::SdfPath const &id, pxr::TfToken const &key)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s, %s", id.GetText(), key.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s, %s", id.GetText(), key.GetText());
ObjectData *obj_data = object_data(id);
if (obj_data) {
return obj_data->get_data(id, key);
@ -88,7 +88,7 @@ pxr::VtValue HydraSceneDelegate::Get(pxr::SdfPath const &id, pxr::TfToken const
pxr::VtValue HydraSceneDelegate::GetLightParamValue(pxr::SdfPath const &id,
pxr::TfToken const &key)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s, %s", id.GetText(), key.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s, %s", id.GetText(), key.GetText());
LightData *l_data = light_data(id);
if (l_data) {
return l_data->get_data(key);
@ -99,7 +99,7 @@ pxr::VtValue HydraSceneDelegate::GetLightParamValue(pxr::SdfPath const &id,
pxr::HdPrimvarDescriptorVector HydraSceneDelegate::GetPrimvarDescriptors(
pxr::SdfPath const &id, pxr::HdInterpolation interpolation)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s, %d", id.GetText(), interpolation);
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s, %d", id.GetText(), interpolation);
MeshData *m_data = mesh_data(id);
if (m_data) {
return m_data->primvar_descriptors(interpolation);
@ -117,7 +117,7 @@ pxr::HdPrimvarDescriptorVector HydraSceneDelegate::GetPrimvarDescriptors(
pxr::SdfPath HydraSceneDelegate::GetMaterialId(pxr::SdfPath const &rprim_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", rprim_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", rprim_id.GetText());
ObjectData *obj_data = object_data(rprim_id);
if (obj_data) {
return obj_data->material_id(rprim_id);
@ -127,7 +127,7 @@ pxr::SdfPath HydraSceneDelegate::GetMaterialId(pxr::SdfPath const &rprim_id)
pxr::VtValue HydraSceneDelegate::GetMaterialResource(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
MaterialData *mat_data = material_data(id);
if (mat_data) {
return mat_data->get_material_resource();
@ -137,7 +137,7 @@ pxr::VtValue HydraSceneDelegate::GetMaterialResource(pxr::SdfPath const &id)
bool HydraSceneDelegate::GetVisible(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
if (id == world_prim_id()) {
return true;
}
@ -150,19 +150,19 @@ bool HydraSceneDelegate::GetVisible(pxr::SdfPath const &id)
bool HydraSceneDelegate::GetDoubleSided(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
return mesh_data(id)->double_sided(id);
}
pxr::HdCullStyle HydraSceneDelegate::GetCullStyle(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", id.GetText());
return mesh_data(id)->cull_style(id);
}
pxr::SdfPath HydraSceneDelegate::GetInstancerId(pxr::SdfPath const &prim_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", prim_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", prim_id.GetText());
InstancerData *i_data = instancer_data(prim_id, true);
if (i_data && mesh_data(prim_id)) {
return i_data->prim_id;
@ -172,7 +172,7 @@ pxr::SdfPath HydraSceneDelegate::GetInstancerId(pxr::SdfPath const &prim_id)
pxr::SdfPathVector HydraSceneDelegate::GetInstancerPrototypes(pxr::SdfPath const &instancer_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", instancer_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", instancer_id.GetText());
InstancerData *i_data = instancer_data(instancer_id);
return i_data->prototypes();
}
@ -180,14 +180,14 @@ pxr::SdfPathVector HydraSceneDelegate::GetInstancerPrototypes(pxr::SdfPath const
pxr::VtIntArray HydraSceneDelegate::GetInstanceIndices(pxr::SdfPath const &instancer_id,
pxr::SdfPath const &prototype_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s, %s", instancer_id.GetText(), prototype_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s, %s", instancer_id.GetText(), prototype_id.GetText());
InstancerData *i_data = instancer_data(instancer_id);
return i_data->indices(prototype_id);
}
pxr::GfMatrix4d HydraSceneDelegate::GetInstancerTransform(pxr::SdfPath const &instancer_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", instancer_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", instancer_id.GetText());
InstancerData *i_data = instancer_data(instancer_id);
return i_data->transform(instancer_id);
}
@ -195,7 +195,7 @@ pxr::GfMatrix4d HydraSceneDelegate::GetInstancerTransform(pxr::SdfPath const &in
pxr::HdVolumeFieldDescriptorVector HydraSceneDelegate::GetVolumeFieldDescriptors(
pxr::SdfPath const &volume_id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 3, "%s", volume_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 3, "%s", volume_id.GetText());
VolumeData *v_data = volume_data(volume_id);
return v_data->field_descriptors();
}
@ -271,8 +271,8 @@ ObjectData *HydraSceneDelegate::object_data(pxr::SdfPath const &id) const
if (id == world_prim_id()) {
return world_data_.get();
}
pxr::SdfPath p_id = (id.GetName().find("SM_") == 0 || id.GetName().find("VF_") == 0) ?
auto name = id.GetName();
pxr::SdfPath p_id = (STRPREFIX(name.c_str(), "SM_") || STRPREFIX(name.c_str(), "VF_")) ?
id.GetParentPath() :
id;
auto obj_data = objects_.lookup_ptr(p_id);
@ -378,7 +378,7 @@ void HydraSceneDelegate::check_updates()
data.only_updated = true;
ITER_BEGIN (DEG_iterator_ids_begin, DEG_iterator_ids_next, DEG_iterator_ids_end, &data, ID *, id)
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE,
CLOG_INFO(LOG_HYDRA_SCENE,
0,
"Update: %s [%s]",
id->name,
@ -459,7 +459,7 @@ void HydraSceneDelegate::update_collection()
continue;
}
instancer_data_->update_instance(data.dupli_parent, dupli);
instancer_data_->update_instance(dupli);
continue;
}

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@ -29,7 +29,7 @@ struct View3D;
namespace blender::io::hydra {
extern struct CLG_LogRef *LOG_RENDER_HYDRA_SCENE;
extern struct CLG_LogRef *LOG_HYDRA_SCENE;
class Engine;

View File

@ -50,10 +50,10 @@ class IdData {
};
#define ID_LOG(level, msg, ...) \
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, level, "%s: " msg, prim_id.GetText(), ##__VA_ARGS__);
CLOG_INFO(LOG_HYDRA_SCENE, level, "%s: " msg, prim_id.GetText(), ##__VA_ARGS__);
#define ID_LOGN(level, msg, ...) \
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, \
CLOG_INFO(LOG_HYDRA_SCENE, \
level, \
"%s (%s): " msg, \
prim_id.GetText(), \

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@ -56,10 +56,10 @@ static std::string cache_image_file(
opts.save_copy = true;
STRNCPY(opts.filepath, file_path.c_str());
if (BKE_image_save(nullptr, bmain, image, iuser, &opts)) {
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 1, "%s -> %s", image->id.name, file_path.c_str());
CLOG_INFO(LOG_HYDRA_SCENE, 1, "%s -> %s", image->id.name, file_path.c_str());
}
else {
CLOG_ERROR(LOG_RENDER_HYDRA_SCENE, "Can't save %s", file_path.c_str());
CLOG_ERROR(LOG_HYDRA_SCENE, "Can't save %s", file_path.c_str());
file_path = "";
}
}
@ -86,7 +86,7 @@ std::string cache_or_get_image_file(Main *bmain, Scene *scene, Image *image, Ima
}
}
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 1, "%s -> %s", image->id.name, file_path.c_str());
CLOG_INFO(LOG_HYDRA_SCENE, 1, "%s -> %s", image->id.name, file_path.c_str());
return file_path;
}
@ -109,10 +109,10 @@ std::string cache_image_color(float color[4])
ibuf->ftype = IMB_FTYPE_RADHDR;
if (IMB_saveiff(ibuf, file_path.c_str(), IB_rectfloat)) {
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 1, "%s", file_path.c_str());
CLOG_INFO(LOG_HYDRA_SCENE, 1, "%s", file_path.c_str());
}
else {
CLOG_ERROR(LOG_RENDER_HYDRA_SCENE, "Can't save %s", file_path.c_str());
CLOG_ERROR(LOG_HYDRA_SCENE, "Can't save %s", file_path.c_str());
file_path = "";
}
IMB_freeImBuf(ibuf);

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@ -23,7 +23,7 @@ void InstancerData::insert() {}
void InstancerData::remove()
{
CLOG_INFO(LOG_RENDER_HYDRA_SCENE, 1, "%s", prim_id.GetText());
CLOG_INFO(LOG_HYDRA_SCENE, 1, "%s", prim_id.GetText());
for (auto &m_inst : mesh_instances_.values()) {
m_inst.data->remove();
}
@ -129,7 +129,7 @@ void InstancerData::pre_update()
}
}
void InstancerData::update_instance(Object * /* parent_ob */, DupliObject *dupli)
void InstancerData::update_instance(DupliObject *dupli)
{
Object *object = dupli->ob;
pxr::SdfPath p_id = object_prim_id(object);

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@ -51,7 +51,7 @@ class InstancerData : public IdData {
* ...
* post_update() */
void pre_update();
void update_instance(Object *parent_ob, DupliObject *dupli);
void update_instance(DupliObject *dupli);
void post_update();
private:

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@ -155,28 +155,28 @@ pxr::TfToken LightData::prim_type(Light *light)
switch (light->area_shape) {
case LA_AREA_SQUARE:
case LA_AREA_RECT:
return pxr::TfToken(pxr::HdPrimTypeTokens->rectLight);
return pxr::HdPrimTypeTokens->rectLight;
case LA_AREA_DISK:
case LA_AREA_ELLIPSE:
return pxr::TfToken(pxr::HdPrimTypeTokens->diskLight);
return pxr::HdPrimTypeTokens->diskLight;
default:
return pxr::TfToken(pxr::HdPrimTypeTokens->rectLight);
return pxr::HdPrimTypeTokens->rectLight;
}
break;
case LA_LOCAL:
case LA_SPOT:
return pxr::TfToken(pxr::HdPrimTypeTokens->sphereLight);
return pxr::HdPrimTypeTokens->sphereLight;
case LA_SUN:
return pxr::TfToken(pxr::HdPrimTypeTokens->distantLight);
return pxr::HdPrimTypeTokens->distantLight;
default:
BLI_assert_unreachable();
return pxr::TfToken(pxr::HdPrimTypeTokens->sphereLight);
}
return pxr::TfToken();
}
} // namespace blender::io::hydra

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@ -174,7 +174,7 @@ void MaterialData::export_mtlx()
err_str += PyUnicode_AsUTF8(pstr);
Py_DECREF(pstr);
}
CLOG_ERROR(LOG_RENDER_HYDRA_SCENE,
CLOG_ERROR(LOG_HYDRA_SCENE,
"Export error for %s (%s): %s",
prim_id.GetText(),
id->name,

View File

@ -50,7 +50,7 @@ void VolumeModifierData::init()
scene_delegate_->depsgraph, object, md);
if ((modifier_->domain->cache_data_format & FLUID_DOMAIN_FILE_OPENVDB) == 0) {
CLOG_WARN(LOG_RENDER_HYDRA_SCENE,
CLOG_WARN(LOG_HYDRA_SCENE,
"Volume %s is't exported: only OpenVDB file format supported",
prim_id.GetText());
return;

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@ -24,7 +24,7 @@
namespace blender::render::hydra {
CLG_LOGREF_DECLARE_GLOBAL(LOG_RENDER_HYDRA, "render.hydra");
CLG_LOGREF_DECLARE_GLOBAL(LOG_HYDRA_RENDER, "hydra.render");
Engine::Engine(RenderEngine *bl_engine, const std::string &render_delegate_name)
: render_delegate_name_(render_delegate_name), bl_engine_(bl_engine)
@ -76,9 +76,11 @@ Engine::Engine(RenderEngine *bl_engine, const std::string &render_delegate_name)
void Engine::sync(Depsgraph *depsgraph, bContext *context)
{
const Scene *scene = DEG_get_evaluated_scene(depsgraph);
depsgraph_ = depsgraph;
context_ = context;
scene_ = DEG_get_evaluated_scene(depsgraph);
if (scene->hydra.export_method == SCE_HYDRA_EXPORT_HYDRA) {
if (scene_->hydra.export_method == SCE_HYDRA_EXPORT_HYDRA) {
/* Fast path. */
usd_scene_delegate_.reset();
@ -118,13 +120,7 @@ void Engine::set_sync_setting(const std::string &key, const pxr::VtValue &val)
void Engine::set_render_setting(const std::string &key, const pxr::VtValue &val)
{
if (STRPREFIX(key.c_str(), "aovToken:")) {
render_delegate_settings_.aovs.add_new(key.substr(key.find(":") + 1),
pxr::TfToken(val.UncheckedGet<std::string>()));
}
else {
render_delegate_->SetRenderSetting(pxr::TfToken(key), val);
}
render_delegate_->SetRenderSetting(pxr::TfToken(key), val);
}
float Engine::renderer_percent_done()
@ -132,7 +128,7 @@ float Engine::renderer_percent_done()
pxr::VtDictionary render_stats = render_delegate_->GetRenderStats();
auto it = render_stats.find("percentDone");
if (it == render_stats.end()) {
return 0.0;
return 0.0f;
}
return (float)it->second.UncheckedGet<double>();
}

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@ -27,16 +27,15 @@ struct CLG_LogRef;
namespace blender::render::hydra {
extern struct CLG_LogRef *LOG_RENDER_HYDRA;
struct RenderDelegateSettings {
Map<std::string, pxr::TfToken> aovs;
};
extern struct CLG_LogRef *LOG_HYDRA_RENDER;
class Engine {
protected:
std::string render_delegate_name_;
RenderEngine *bl_engine_ = nullptr;
Depsgraph *depsgraph_ = nullptr;
bContext *context_ = nullptr;
Scene *scene_ = nullptr;
/* The order is important due to deletion order */
pxr::HgiUniquePtr hgi_;
@ -48,7 +47,6 @@ class Engine {
std::unique_ptr<io::hydra::HydraSceneDelegate> hydra_scene_delegate_;
std::unique_ptr<io::hydra::USDSceneDelegate> usd_scene_delegate_;
RenderDelegateSettings render_delegate_settings_;
std::unique_ptr<RenderTaskDelegate> render_task_delegate_;
std::unique_ptr<pxr::HdxFreeCameraSceneDelegate> free_camera_delegate_;
std::unique_ptr<LightTasksDelegate> light_tasks_delegate_;
@ -59,13 +57,14 @@ class Engine {
virtual ~Engine() = default;
void sync(Depsgraph *depsgraph, bContext *context);
virtual void render(Depsgraph *depsgraph) = 0;
virtual void render() = 0;
void set_sync_setting(const std::string &key, const pxr::VtValue &val);
void set_render_setting(const std::string &key, const pxr::VtValue &val);
virtual void set_render_setting(const std::string &key, const pxr::VtValue &val);
protected:
float renderer_percent_done();
virtual void notify_status(float progress, const std::string &title, const std::string &info) = 0;
};
} // namespace blender::render::hydra

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@ -23,17 +23,14 @@
namespace blender::render::hydra {
void FinalEngine::render(Depsgraph *depsgraph)
void FinalEngine::render()
{
const Scene *scene = DEG_get_evaluated_scene(depsgraph);
const ViewLayer *view_layer = DEG_get_evaluated_view_layer(depsgraph);
const ViewLayer *view_layer = DEG_get_evaluated_view_layer(depsgraph_);
char scene_name[MAX_ID_FULL_NAME];
BKE_id_full_name_get(scene_name, &scene->id, 0);
scene_name_ = scene_name;
layer_name_ = view_layer->name;
BKE_id_full_name_get(scene_name, &scene_->id, 0);
const RenderData &r = scene->r;
const RenderData &r = scene_->r;
pxr::GfVec4f border(0, 0, 1, 1);
if (r.mode & R_BORDER) {
border.Set(r.border.xmin,
@ -42,33 +39,36 @@ void FinalEngine::render(Depsgraph *depsgraph)
r.border.ymax - r.border.ymin);
}
pxr::GfVec2i image_res(r.xsch * r.size / 100, r.ysch * r.size / 100);
resolution_ = pxr::GfVec2i(int(image_res[0] * border[2]), int(image_res[1] * border[3]));
int width = image_res[0] * border[2];
int height = image_res[1] * border[3];
pxr::GfCamera camera =
io::hydra::CameraData(scene->camera, image_res, pxr::GfVec4f(0, 0, 1, 1)).gf_camera(border);
io::hydra::CameraData(scene_->camera, image_res, pxr::GfVec4f(0, 0, 1, 1)).gf_camera(border);
free_camera_delegate_->SetCamera(camera);
render_task_delegate_->set_viewport(pxr::GfVec4d(0, 0, resolution_[0], resolution_[1]));
render_task_delegate_->set_viewport(pxr::GfVec4d(0, 0, width, height));
if (light_tasks_delegate_) {
light_tasks_delegate_->set_viewport(pxr::GfVec4d(0, 0, resolution_[0], resolution_[1]));
light_tasks_delegate_->set_viewport(pxr::GfVec4d(0, 0, width, height));
}
render_task_delegate_->add_aov(pxr::HdAovTokens->color);
if (bl_engine_->type->flag & RE_USE_GPU_CONTEXT) {
render_task_delegate_->add_aov(pxr::HdAovTokens->depth);
}
RenderResult *result = RE_engine_get_result(bl_engine_);
RenderLayer *layer = (RenderLayer *)result->layers.first;
for (RenderPass *pass = (RenderPass *)layer->passes.first; pass != nullptr; pass = pass->next) {
pxr::TfToken *aov_token = render_delegate_settings_.aovs.lookup_ptr(pass->name);
if (aov_token) {
render_task_delegate_->add_aov(*aov_token);
RenderResult *rr = RE_engine_get_result(bl_engine_);
RenderLayer *rlayer = (RenderLayer *)rr->layers.first;
LISTBASE_FOREACH (RenderPass *, rpass, &rlayer->passes) {
pxr::TfToken *aov_token = aov_tokens_.lookup_ptr(rpass->name);
if (!aov_token) {
CLOG_WARN(LOG_HYDRA_RENDER, "Couldn't find AOV token for render pass: %s", rpass->name);
continue;
}
render_task_delegate_->add_aov(*aov_token);
}
if (bl_engine_->type->flag & RE_USE_GPU_CONTEXT) {
/* For GPU context engine color and depth AOVs has to be added anyway */
render_task_delegate_->add_aov(pxr::HdAovTokens->color);
render_task_delegate_->add_aov(pxr::HdAovTokens->depth);
}
pxr::HdTaskSharedPtrVector tasks;
if (light_tasks_delegate_) {
if (scene->r.alphamode != R_ALPHAPREMUL) {
if (scene_->r.alphamode != R_ALPHAPREMUL) {
tasks.push_back(light_tasks_delegate_->skydome_task());
}
tasks.push_back(light_tasks_delegate_->simple_task());
@ -92,7 +92,7 @@ void FinalEngine::render(Depsgraph *depsgraph)
BLI_timecode_string_from_time_simple(
elapsed_time, sizeof(elapsed_time), PIL_check_seconds_timer() - time_begin);
notify_status(percent_done / 100.0,
scene_name_ + ": " + layer_name_,
std::string(scene_name) + ": " + view_layer->name,
std::string("Render Time: ") + elapsed_time +
" | Done: " + std::to_string(int(percent_done)) + "%");
@ -100,30 +100,39 @@ void FinalEngine::render(Depsgraph *depsgraph)
break;
}
update_render_result();
update_render_result(width, height, view_layer->name);
}
update_render_result();
update_render_result(width, height, view_layer->name);
render_task_delegate_->unbind();
}
void FinalEngine::set_render_setting(const std::string &key, const pxr::VtValue &val)
{
if (STRPREFIX(key.c_str(), "aovToken:")) {
aov_tokens_.add_overwrite(key.substr(key.find(":") + 1),
pxr::TfToken(val.UncheckedGet<std::string>()));
return;
}
Engine::set_render_setting(key, val);
}
void FinalEngine::notify_status(float progress, const std::string &title, const std::string &info)
{
RE_engine_update_progress(bl_engine_, progress);
RE_engine_update_stats(bl_engine_, title.c_str(), info.c_str());
}
void FinalEngine::update_render_result()
void FinalEngine::update_render_result(int width, int height, const char *layer_name)
{
RenderResult *rr = RE_engine_begin_result(
bl_engine_, 0, 0, resolution_[0], resolution_[1], layer_name_.c_str(), nullptr);
RenderResult *rr = RE_engine_begin_result(bl_engine_, 0, 0, width, height, layer_name, nullptr);
RenderLayer *rlayer = static_cast<RenderLayer *>(
BLI_findstring(&rr->layers, layer_name_.c_str(), offsetof(RenderLayer, name)));
BLI_findstring(&rr->layers, layer_name, offsetof(RenderLayer, name)));
if (rlayer) {
LISTBASE_FOREACH (RenderPass *, rpass, &rlayer->passes) {
pxr::TfToken *aov_token = render_delegate_settings_.aovs.lookup_ptr(rpass->name);
pxr::TfToken *aov_token = aov_tokens_.lookup_ptr(rpass->name);
if (aov_token) {
render_task_delegate_->read_aov(*aov_token, rpass->ibuf->float_buffer.data);
}

View File

@ -8,19 +8,20 @@
namespace blender::render::hydra {
class FinalEngine : public Engine {
protected:
std::string scene_name_;
std::string layer_name_;
pxr::GfVec2i resolution_;
private:
Map<std::string, pxr::TfToken> aov_tokens_;
public:
using Engine::Engine;
void render(Depsgraph *depsgraph) override;
void render() override;
void set_render_setting(const std::string &key, const pxr::VtValue &val) override;
protected:
virtual void notify_status(float progress, const std::string &title, const std::string &info);
void update_render_result();
void notify_status(float progress, const std::string &title, const std::string &info) override;
private:
void update_render_result(int width, int height, const char *layer_name);
};
} // namespace blender::render::hydra

View File

@ -15,13 +15,13 @@ LightTasksDelegate::LightTasksDelegate(pxr::HdRenderIndex *parent_index,
skydome_task_id_ = GetDelegateID().AppendElementString("skydomeTask");
GetRenderIndex().InsertTask<pxr::HdxSkydomeTask>(this, skydome_task_id_);
CLOG_INFO(LOG_RENDER_HYDRA, 1, "%s", simple_task_id_.GetText());
CLOG_INFO(LOG_RENDER_HYDRA, 1, "%s", skydome_task_id_.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 1, "%s", simple_task_id_.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 1, "%s", skydome_task_id_.GetText());
}
pxr::VtValue LightTasksDelegate::Get(pxr::SdfPath const &id, pxr::TfToken const &key)
{
CLOG_INFO(LOG_RENDER_HYDRA, 3, "%s, %s", id.GetText(), key.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 3, "%s, %s", id.GetText(), key.GetText());
if (key == pxr::HdTokens->params) {
if (id == simple_task_id_) {

View File

@ -50,11 +50,11 @@ static PyObject *engine_create_func(PyObject * /*self*/, PyObject *args)
}
}
catch (std::runtime_error &e) {
CLOG_ERROR(LOG_RENDER_HYDRA, "%s", e.what());
CLOG_ERROR(LOG_HYDRA_RENDER, "%s", e.what());
}
if (engine) {
CLOG_INFO(LOG_RENDER_HYDRA, 1, "Engine %p %s", engine, engine_type);
CLOG_INFO(LOG_HYDRA_RENDER, 1, "Engine %p %s", engine, engine_type);
}
return PyLong_FromVoidPtr(engine);
}
@ -69,7 +69,7 @@ static PyObject *engine_free_func(PyObject * /*self*/, PyObject *args)
Engine *engine = static_cast<Engine *>(PyLong_AsVoidPtr(pyengine));
delete engine;
CLOG_INFO(LOG_RENDER_HYDRA, 1, "Engine %p", engine);
CLOG_INFO(LOG_HYDRA_RENDER, 1, "Engine %p", engine);
Py_RETURN_NONE;
}
@ -84,7 +84,7 @@ static PyObject *engine_update_func(PyObject * /*self*/, PyObject *args)
Depsgraph *depsgraph = pyrna_to_pointer<Depsgraph>(pydepsgraph, &RNA_Depsgraph);
bContext *context = pyrna_to_pointer<bContext>(pycontext, &RNA_Context);
CLOG_INFO(LOG_RENDER_HYDRA, 2, "Engine %p", engine);
CLOG_INFO(LOG_HYDRA_RENDER, 2, "Engine %p", engine);
engine->sync(depsgraph, context);
Py_RETURN_NONE;
@ -92,20 +92,18 @@ static PyObject *engine_update_func(PyObject * /*self*/, PyObject *args)
static PyObject *engine_render_func(PyObject * /*self*/, PyObject *args)
{
PyObject *pyengine, *pydepsgraph;
if (!PyArg_ParseTuple(args, "OO", &pyengine, &pydepsgraph)) {
PyObject *pyengine;
if (!PyArg_ParseTuple(args, "O", &pyengine)) {
Py_RETURN_NONE;
}
Engine *engine = static_cast<Engine *>(PyLong_AsVoidPtr(pyengine));
Depsgraph *depsgraph = pyrna_to_pointer<Depsgraph>(pydepsgraph, &RNA_Depsgraph);
CLOG_INFO(LOG_RENDER_HYDRA, 2, "Engine %p", engine);
CLOG_INFO(LOG_HYDRA_RENDER, 2, "Engine %p", engine);
/* Allow Blender to execute other Python scripts. */
Py_BEGIN_ALLOW_THREADS;
engine->render(depsgraph);
engine->render();
Py_END_ALLOW_THREADS;
Py_RETURN_NONE;
@ -113,20 +111,19 @@ static PyObject *engine_render_func(PyObject * /*self*/, PyObject *args)
static PyObject *engine_view_draw_func(PyObject * /*self*/, PyObject *args)
{
PyObject *pyengine, *pydepsgraph, *pycontext;
if (!PyArg_ParseTuple(args, "OOO", &pyengine, &pydepsgraph, &pycontext)) {
PyObject *pyengine, *pycontext;
if (!PyArg_ParseTuple(args, "OO", &pyengine, &pycontext)) {
Py_RETURN_NONE;
}
ViewportEngine *engine = static_cast<ViewportEngine *>(PyLong_AsVoidPtr(pyengine));
Depsgraph *depsgraph = pyrna_to_pointer<Depsgraph>(pydepsgraph, &RNA_Depsgraph);
bContext *context = pyrna_to_pointer<bContext>(pycontext, &RNA_Context);
CLOG_INFO(LOG_RENDER_HYDRA, 3, "Engine %p", engine);
CLOG_INFO(LOG_HYDRA_RENDER, 3, "Engine %p", engine);
/* Allow Blender to execute other Python scripts. */
Py_BEGIN_ALLOW_THREADS;
engine->render(depsgraph, context);
engine->render(context);
Py_END_ALLOW_THREADS;
Py_RETURN_NONE;
@ -160,7 +157,7 @@ static PyObject *engine_set_sync_setting_func(PyObject * /*self*/, PyObject *arg
Engine *engine = static_cast<Engine *>(PyLong_AsVoidPtr(pyengine));
CLOG_INFO(LOG_RENDER_HYDRA, 3, "Engine %p: %s", engine, key);
CLOG_INFO(LOG_HYDRA_RENDER, 3, "Engine %p: %s", engine, key);
engine->set_sync_setting(key, get_setting_val(pyval));
Py_RETURN_NONE;
@ -176,7 +173,7 @@ static PyObject *engine_set_render_setting_func(PyObject * /*self*/, PyObject *a
Engine *engine = static_cast<Engine *>(PyLong_AsVoidPtr(pyengine));
CLOG_INFO(LOG_RENDER_HYDRA, 3, "Engine %p: %s", engine, key);
CLOG_INFO(LOG_HYDRA_RENDER, 3, "Engine %p: %s", engine, key);
engine->set_render_setting(key, get_setting_val(pyval));
Py_RETURN_NONE;

View File

@ -28,12 +28,12 @@ RenderTaskDelegate::RenderTaskDelegate(pxr::HdRenderIndex *parent_index,
task_params_.enableLighting = true;
task_params_.alphaThreshold = 0.1f;
CLOG_INFO(LOG_RENDER_HYDRA, 1, "%s", task_id_.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 1, "%s", task_id_.GetText());
}
pxr::VtValue RenderTaskDelegate::Get(pxr::SdfPath const &id, pxr::TfToken const &key)
{
CLOG_INFO(LOG_RENDER_HYDRA, 3, "%s, %s", id.GetText(), key.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 3, "%s, %s", id.GetText(), key.GetText());
if (key == pxr::HdTokens->params) {
return pxr::VtValue(task_params_);
@ -47,14 +47,14 @@ pxr::VtValue RenderTaskDelegate::Get(pxr::SdfPath const &id, pxr::TfToken const
pxr::TfTokenVector RenderTaskDelegate::GetTaskRenderTags(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 3, "%s", id.GetText());
return {pxr::HdRenderTagTokens->geometry};
}
pxr::HdRenderBufferDescriptor RenderTaskDelegate::GetRenderBufferDescriptor(pxr::SdfPath const &id)
{
CLOG_INFO(LOG_RENDER_HYDRA, 3, "%s", id.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 3, "%s", id.GetText());
return buffer_descriptors_[id];
}
@ -124,7 +124,7 @@ void RenderTaskDelegate::add_aov(pxr::TfToken const &aov_key)
task_params_.aovBindings.push_back(binding);
render_index.GetChangeTracker().MarkTaskDirty(task_id_, pxr::HdChangeTracker::DirtyParams);
CLOG_INFO(LOG_RENDER_HYDRA, 1, "%s", aov_key.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 1, "%s", aov_key.GetText());
}
void RenderTaskDelegate::read_aov(pxr::TfToken const &aov_key, void *data)
@ -225,7 +225,7 @@ void GPURenderTaskDelegate::add_aov(pxr::TfToken const &aov_key)
GPU_TEXTURE_USAGE_GENERAL,
nullptr);
CLOG_INFO(LOG_RENDER_HYDRA, 1, "%s", aov_key.GetText());
CLOG_INFO(LOG_HYDRA_RENDER, 1, "%s", aov_key.GetText());
}
void GPURenderTaskDelegate::read_aov(pxr::TfToken const &aov_key, void *data)
@ -289,6 +289,7 @@ void GPURenderTaskDelegate::bind()
glGenVertexArrays(1, &VAO_);
glBindVertexArray(VAO_);
}
CLOG_INFO(LOG_HYDRA_RENDER, 3, "");
}
void GPURenderTaskDelegate::unbind()
@ -301,6 +302,7 @@ void GPURenderTaskDelegate::unbind()
GPU_framebuffer_free(framebuffer_);
framebuffer_ = nullptr;
}
CLOG_INFO(LOG_HYDRA_RENDER, 3, "");
}
GPUTexture *GPURenderTaskDelegate::aov_texture(pxr::TfToken const &aov_key)

View File

@ -31,7 +31,7 @@ class RenderTaskDelegate : public pxr::HdSceneDelegate {
pxr::HdTaskSharedPtr task();
void set_camera(pxr::SdfPath const &camera_id);
virtual bool is_converged();
bool is_converged();
virtual void set_viewport(pxr::GfVec4d const &viewport);
virtual void add_aov(pxr::TfToken const &aov_key);
virtual void read_aov(pxr::TfToken const &aov_key, void *data);

View File

@ -210,15 +210,9 @@ GPUTexture *DrawTexture::texture() const
return texture_;
}
void ViewportEngine::render(Depsgraph * /* depsgraph */)
void ViewportEngine::render()
{
/* Empty function */
}
void ViewportEngine::render(Depsgraph *depsgraph, bContext *context)
{
ViewSettings view_settings(context);
const Scene *scene = DEG_get_evaluated_scene(depsgraph);
ViewSettings view_settings(context_);
if (view_settings.width() * view_settings.height() == 0) {
return;
};
@ -240,7 +234,7 @@ void ViewportEngine::render(Depsgraph *depsgraph, bContext *context)
pxr::HdTaskSharedPtrVector tasks;
if (light_tasks_delegate_) {
if (scene->r.alphamode != R_ALPHAPREMUL) {
if (scene_->r.alphamode != R_ALPHAPREMUL) {
tasks.push_back(light_tasks_delegate_->skydome_task());
}
tasks.push_back(light_tasks_delegate_->simple_task());
@ -280,18 +274,27 @@ void ViewportEngine::render(Depsgraph *depsgraph, bContext *context)
BLI_timecode_string_from_time_simple(
elapsed_time, sizeof(elapsed_time), PIL_check_seconds_timer() - time_begin_);
float percent_done = renderer_percent_done();
if (!render_task_delegate_->is_converged()) {
notify_status(std::string("Time: ") + elapsed_time +
" | Done: " + std::to_string(int(renderer_percent_done())) + "%",
notify_status(percent_done / 100.0,
std ::string("Time: ") + elapsed_time +
" | Done: " + std::to_string(int(percent_done)) + "%",
"Render");
bl_engine_->flag |= RE_ENGINE_DO_DRAW;
}
else {
notify_status((std::string("Time: ") + elapsed_time).c_str(), "Rendering Done");
notify_status(percent_done / 100.0, std::string("Time: ") + elapsed_time, "Rendering Done");
}
}
void ViewportEngine::notify_status(const std::string &info, const std::string &status)
void ViewportEngine::render(bContext *context)
{
context_ = context;
render();
}
void ViewportEngine::notify_status(float /*progress*/, const std::string &info,
const std::string &status)
{
RE_engine_update_stats(bl_engine_, status.c_str(), info.c_str());
}

View File

@ -37,11 +37,11 @@ class ViewportEngine : public Engine {
public:
using Engine::Engine;
void render(Depsgraph *depsgraph) override;
void render(Depsgraph *depsgraph, bContext *context);
void render() override;
void render(bContext *context);
private:
void notify_status(const std::string &title, const std::string &info);
protected:
void notify_status(float progress, const std::string &title, const std::string &info) override;
};
} // namespace blender::render::hydra