void BlenderSync::sync_camera(BL::Object b_override, int width, int height)
{
BlenderCamera bcam;
blender_camera_init(&bcam, b_scene);
/* pixel aspect */
BL::RenderSettings r = b_scene.render();
bcam.pixelaspect.x = r.pixel_aspect_x();
bcam.pixelaspect.y = r.pixel_aspect_y();
bcam.shuttertime = r.motion_blur_shutter();
/* border */
if(r.use_border()) {
bcam.border.left = r.border_min_x();
bcam.border.right = r.border_max_x();
bcam.border.bottom = r.border_min_y();
bcam.border.top = r.border_max_y();
}
/* camera object */
BL::Object b_ob = b_scene.camera();
if(b_override)
b_ob = b_override;
if(b_ob) {
blender_camera_from_object(&bcam, b_ob);
bcam.matrix = get_transform(b_ob.matrix_world());
}
/* sync */
Camera *cam = scene->camera;
blender_camera_sync(cam, &bcam, width, height);
}
void BlenderSync::sync_camera(BL::RenderSettings b_render, BL::Object b_override, int width, int height)
{
BlenderCamera bcam;
blender_camera_init(&bcam, b_render);
/* pixel aspect */
bcam.pixelaspect.x = b_render.pixel_aspect_x();
bcam.pixelaspect.y = b_render.pixel_aspect_y();
bcam.shuttertime = b_render.motion_blur_shutter();
/* border */
if(b_render.use_border()) {
bcam.border.left = b_render.border_min_x();
bcam.border.right = b_render.border_max_x();
bcam.border.bottom = b_render.border_min_y();
bcam.border.top = b_render.border_max_y();
}
/* camera object */
BL::Object b_ob = b_scene.camera();
if(b_override)
b_ob = b_override;
if(b_ob) {
BL::Array<float, 16> b_ob_matrix;
blender_camera_from_object(&bcam, b_engine, b_ob);
b_engine.camera_model_matrix(b_ob, b_ob_matrix);
bcam.matrix = get_transform(b_ob_matrix);
}
/* sync */
Camera *cam = scene->camera;
blender_camera_sync(cam, &bcam, width, height);
}
void BlenderSync::sync_camera(BL::RenderSettings& b_render,
BL::Object& b_override,
int width, int height,
const char *viewname)
{
BlenderCamera bcam;
blender_camera_init(&bcam, b_render);
/* pixel aspect */
bcam.pixelaspect.x = b_render.pixel_aspect_x();
bcam.pixelaspect.y = b_render.pixel_aspect_y();
bcam.shuttertime = b_render.motion_blur_shutter();
BL::CurveMapping b_shutter_curve(b_render.motion_blur_shutter_curve());
curvemapping_to_array(b_shutter_curve, bcam.shutter_curve, RAMP_TABLE_SIZE);
PointerRNA cscene = RNA_pointer_get(&b_scene.ptr, "cycles");
bcam.motion_position =
(Camera::MotionPosition)get_enum(cscene,
"motion_blur_position",
Camera::MOTION_NUM_POSITIONS,
Camera::MOTION_POSITION_CENTER);
bcam.rolling_shutter_type =
(Camera::RollingShutterType)get_enum(cscene,
"rolling_shutter_type",
Camera::ROLLING_SHUTTER_NUM_TYPES,
Camera::ROLLING_SHUTTER_NONE);
bcam.rolling_shutter_duration = RNA_float_get(&cscene, "rolling_shutter_duration");
/* border */
if(b_render.use_border()) {
bcam.border.left = b_render.border_min_x();
bcam.border.right = b_render.border_max_x();
bcam.border.bottom = b_render.border_min_y();
bcam.border.top = b_render.border_max_y();
}
/* camera object */
BL::Object b_ob = b_scene.camera();
if(b_override)
b_ob = b_override;
if(b_ob) {
BL::Array<float, 16> b_ob_matrix;
blender_camera_from_object(&bcam, b_engine, b_ob);
b_engine.camera_model_matrix(b_ob, bcam.use_spherical_stereo, b_ob_matrix);
bcam.matrix = get_transform(b_ob_matrix);
}
/* sync */
Camera *cam = scene->camera;
blender_camera_sync(cam, &bcam, width, height, viewname);
}
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Create the Blender session and all Octane session data structures
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void BlenderSession::create_session() {
SessionParams session_params = BlenderSync::get_session_params(b_engine, b_userpref, b_scene, interactive);
session_params.width = width;
session_params.height = height;
BL::RenderSettings r = b_scene.render();
motion_blur = r.use_motion_blur();
shuttertime = r.motion_blur_shutter();
mb_samples = r.motion_blur_samples();
mb_cur_sample = 0;
mb_sample_in_work = 0;
PointerRNA oct_scene = RNA_pointer_get(&b_scene.ptr, "octane");
mb_type = static_cast<MotionBlurType>(RNA_enum_get(&oct_scene, "mb_type"));
mb_direction = static_cast<MotionBlurDirection>(RNA_enum_get(&oct_scene, "mb_direction"));
mb_frame_time_sampling = motion_blur && mb_type == INTERNAL ? 1.0f / session_params.fps : -1.0f;
// Reset status/progress
last_status = "";
last_progress = -1.0f;
// Create session
string cur_path = blender_absolute_path(b_data, b_scene, b_scene.render().filepath().c_str());
cur_path += "/alembic_export.abc";
session = new Session(session_params, cur_path.c_str());
session->set_blender_session(this);
session->set_pause(BlenderSync::get_session_pause_state(b_scene, interactive));
// Create scene
scene = new Scene(session, interactive || !b_engine.is_animation() ? true : (b_scene.frame_current() == b_scene.frame_start()));
session->scene = scene;
scene->server = session->server;
// Create sync
sync = new BlenderSync(b_engine, b_data, b_scene, scene, interactive, session->progress);
if(b_rv3d)
sync->sync_view(b_v3d, b_rv3d, width, height);
else
sync->sync_camera(b_engine.camera_override(), width, height);
// Set buffer parameters
BufferParams buffer_params = BlenderSync::get_display_buffer_params(scene->camera, width, height);
if(interactive || !b_engine.is_animation() || b_scene.frame_current() == b_scene.frame_start())
session->reset(buffer_params, mb_frame_time_sampling);
} //create_session()
void BlenderSync::sync_camera(BL::RenderSettings& b_render,
BL::Object& b_override,
int width, int height)
{
BlenderCamera bcam;
blender_camera_init(&bcam, b_render);
/* pixel aspect */
bcam.pixelaspect.x = b_render.pixel_aspect_x();
bcam.pixelaspect.y = b_render.pixel_aspect_y();
bcam.shuttertime = b_render.motion_blur_shutter();
BL::CurveMapping b_shutter_curve(b_render.motion_blur_shutter_curve());
curvemapping_to_array(b_shutter_curve, bcam.shutter_curve, RAMP_TABLE_SIZE);
PointerRNA cscene = RNA_pointer_get(&b_scene.ptr, "cycles");
switch(RNA_enum_get(&cscene, "motion_blur_position")) {
case 0:
bcam.motion_position = Camera::MOTION_POSITION_START;
break;
case 1:
bcam.motion_position = Camera::MOTION_POSITION_CENTER;
break;
case 2:
bcam.motion_position = Camera::MOTION_POSITION_END;
break;
default:
bcam.motion_position = Camera::MOTION_POSITION_CENTER;
break;
}
switch(RNA_enum_get(&cscene, "rolling_shutter_type")) {
case 0:
bcam.rolling_shutter_type = Camera::ROLLING_SHUTTER_NONE;
break;
case 1:
bcam.rolling_shutter_type = Camera::ROLLING_SHUTTER_TOP;
break;
default:
bcam.rolling_shutter_type = Camera::ROLLING_SHUTTER_NONE;
break;
}
bcam.rolling_shutter_duration = RNA_float_get(&cscene, "rolling_shutter_duration");
/* border */
if(b_render.use_border()) {
bcam.border.left = b_render.border_min_x();
bcam.border.right = b_render.border_max_x();
bcam.border.bottom = b_render.border_min_y();
bcam.border.top = b_render.border_max_y();
}
/* camera object */
BL::Object b_ob = b_scene.camera();
if(b_override)
b_ob = b_override;
if(b_ob) {
BL::Array<float, 16> b_ob_matrix;
blender_camera_from_object(&bcam, b_engine, b_ob);
b_engine.camera_model_matrix(b_ob, b_ob_matrix);
bcam.matrix = get_transform(b_ob_matrix);
}
/* sync */
Camera *cam = scene->camera;
blender_camera_sync(cam, &bcam, width, height);
}
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Get additional Octane scene settings.
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void BlenderSync::sync_kernel() {
PointerRNA oct_scene = RNA_pointer_get(&b_scene.ptr, "octane");
Kernel *kernel = scene->kernel;
Kernel prevkernel = *kernel;
BL::RenderSettings r = b_scene.render();
if(r.use_motion_blur()) {
float fps = (float)b_scene.render().fps() / b_scene.render().fps_base();
float shuttertime = r.motion_blur_shutter();
BlenderSession::MotionBlurType mb_type = static_cast<BlenderSession::MotionBlurType>(RNA_enum_get(&oct_scene, "mb_type"));
float mb_frame_time_sampling = mb_type == BlenderSession::INTERNAL ? 1.0f / fps : 0.0f;
kernel->oct_node->fShutterTime = mb_frame_time_sampling != 0.0f ? shuttertime / mb_frame_time_sampling : 0.0f;
BlenderSession::MotionBlurDirection mb_direction = static_cast<BlenderSession::MotionBlurDirection>(RNA_enum_get(&oct_scene, "mb_direction"));
switch(mb_direction) {
case BlenderSession::BEFORE:
kernel->oct_node->mbAlignment = ::OctaneEngine::Kernel::BEFORE;
break;
case BlenderSession::AFTER:
kernel->oct_node->mbAlignment = ::OctaneEngine::Kernel::AFTER;
break;
case BlenderSession::SYMMETRIC:
kernel->oct_node->mbAlignment = ::OctaneEngine::Kernel::SYMMETRIC;
break;
default:
break;
}
}
else kernel->oct_node->fShutterTime = 0.0f;
kernel->oct_node->type = static_cast< ::OctaneEngine::Kernel::KernelType>(RNA_enum_get(&oct_scene, "kernel_type"));
kernel->oct_node->infoChannelType = channel_translator[RNA_enum_get(&oct_scene, "info_channel_type")];
::Octane::RenderPassId cur_pass_type = Passes::pass_type_translator[RNA_enum_get(&oct_scene, "cur_pass_type")];
if(cur_pass_type == ::Octane::RenderPassId::RENDER_PASS_BEAUTY) {
kernel->oct_node->iMaxSamples = interactive ? get_int(oct_scene, "max_preview_samples") : get_int(oct_scene, "max_samples");
//kernel->oct_node->iMaxPreviewSamples = get_int(oct_scene, "max_preview_samples");
//if(kernel->oct_node->iMaxPreviewSamples == 0) kernel->oct_node->iMaxPreviewSamples = 16000;
}
else if(cur_pass_type == ::Octane::RenderPassId::RENDER_PASS_AMBIENT_OCCLUSION) {
kernel->oct_node->iMaxSamples = get_int(oct_scene, "pass_ao_max_samples");
//kernel->oct_node->iMaxPreviewSamples = kernel->oct_node->iMaxSamples;
}
else {
kernel->oct_node->iMaxSamples = get_int(oct_scene, "pass_max_samples");
//kernel->oct_node->iMaxPreviewSamples = kernel->oct_node->iMaxSamples;
}
if(scene->session->b_session && scene->session->b_session->motion_blur && scene->session->b_session->mb_type == BlenderSession::SUBFRAME && scene->session->b_session->mb_samples > 1)
kernel->oct_node->iMaxSamples = kernel->oct_node->iMaxSamples / scene->session->b_session->mb_samples;
if(kernel->oct_node->iMaxSamples < 1) kernel->oct_node->iMaxSamples = 1;
kernel->oct_node->fFilterSize = get_float(oct_scene, "filter_size");
kernel->oct_node->fRayEpsilon = get_float(oct_scene, "ray_epsilon");
kernel->oct_node->bAlphaChannel = get_boolean(oct_scene, "alpha_channel");
kernel->oct_node->bAlphaShadows = get_boolean(oct_scene, "alpha_shadows");
kernel->oct_node->bBumpNormalMapping = get_boolean(oct_scene, "bump_normal_mapping");
kernel->oct_node->bBkFaceHighlight = get_boolean(oct_scene, "wf_bkface_hl");
kernel->oct_node->fPathTermPower = get_float(oct_scene, "path_term_power");
kernel->oct_node->bKeepEnvironment = get_boolean(oct_scene, "keep_environment");
kernel->oct_node->fCausticBlur = get_float(oct_scene, "caustic_blur");
kernel->oct_node->iMaxDiffuseDepth = get_int(oct_scene, "max_diffuse_depth");
kernel->oct_node->iMaxGlossyDepth = get_int(oct_scene, "max_glossy_depth");
kernel->oct_node->fCoherentRatio = get_float(oct_scene, "coherent_ratio");
kernel->oct_node->bStaticNoise = get_boolean(oct_scene, "static_noise");
kernel->oct_node->iSpecularDepth = get_int(oct_scene, "specular_depth");
kernel->oct_node->iGlossyDepth = get_int(oct_scene, "glossy_depth");
kernel->oct_node->fAODist = get_float(oct_scene, "ao_dist");
kernel->oct_node->GIMode = static_cast< ::OctaneEngine::Kernel::DirectLightMode>(RNA_enum_get(&oct_scene, "gi_mode"));
kernel->oct_node->iDiffuseDepth = get_int(oct_scene, "diffuse_depth");
kernel->oct_node->sAoTexture = get_string(oct_scene, "ao_texture");
kernel->oct_node->fExploration = get_float(oct_scene, "exploration");
kernel->oct_node->fGIClamp = get_float(oct_scene, "gi_clamp");
kernel->oct_node->fDLImportance = get_float(oct_scene, "direct_light_importance");
kernel->oct_node->iMaxRejects = get_int(oct_scene, "max_rejects");
kernel->oct_node->iParallelism = get_int(oct_scene, "parallelism");
kernel->oct_node->fZdepthMax = get_float(oct_scene, "zdepth_max");
kernel->oct_node->fUVMax = get_float(oct_scene, "uv_max");
kernel->oct_node->iSamplingMode = RNA_enum_get(&oct_scene, "sampling_mode");
kernel->oct_node->fMaxSpeed = get_float(oct_scene, "max_speed");
kernel->oct_node->bLayersEnable = get_boolean(oct_scene, "layers_enable");
kernel->oct_node->iLayersCurrent = get_int(oct_scene, "layers_current");
kernel->oct_node->bLayersInvert = get_boolean(oct_scene, "layers_invert");
kernel->oct_node->layersMode = static_cast< ::OctaneEngine::Kernel::LayersMode>(RNA_enum_get(&oct_scene, "layers_mode"));
kernel->oct_node->iParallelSamples = get_int(oct_scene, "parallel_samples");
kernel->oct_node->iMaxTileSamples = get_int(oct_scene, "max_tile_samples");
kernel->oct_node->bMinimizeNetTraffic = get_boolean(oct_scene, "minimize_net_traffic");
kernel->oct_node->bDeepImageEnable = get_boolean(oct_scene, "deep_image");
kernel->oct_node->iMaxDepthSamples = get_int(oct_scene, "max_depth_samples");
kernel->oct_node->fDepthTolerance = get_float(oct_scene, "depth_tolerance");
kernel->oct_node->iWorkChunkSize = get_int(oct_scene, "work_chunk_size");
kernel->oct_node->bAoAlphaShadows = get_boolean(oct_scene, "ao_alpha_shadows");
kernel->oct_node->fOpacityThreshold = get_float(oct_scene, "opacity_threshold");
if(kernel->modified(prevkernel)) kernel->tag_update();
// GPUs
int iValues[8] = {0, 0, 0, 0, 0, 0, 0, 0};
RNA_boolean_get_array(&oct_scene, "devices", iValues);
kernel->uiGPUs = 0;
for(int i = 0; i < 8; ++i)
if(iValues[i]) kernel->uiGPUs |= 0x01 << i;
if(kernel->uiGPUs != prevkernel.uiGPUs) kernel->tag_updateGPUs();
} //sync_kernel()
