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blender-archive/intern/cycles/blender/blender_light.cpp
Kévin Dietrich 31a620b942 Cycles API: encapsulate Node socket members 
This encapsulates Node socket members behind a set of specific methods;
as such it is no longer possible to directly access Node class members
from exporters and parts of Cycles.

The methods are defined via the NODE_SOCKET_API macros in `graph/
node.h`, and are for getting or setting a specific socket's value, as
well as querying or modifying the state of its update flag.

The setters will check whether the value has changed and tag the socket
as modified appropriately. This will let us know how a Node has changed
and what to update, which is the first concrete step toward a more
granular scene update system.

Since the setters will tag the Node sockets as modified when passed
different data, this patch also removes the various modified methods
on Nodes in favor of Node::is_modified which checks the sockets'
update flags status.

Reviewed By: brecht

Maniphest Tasks: T79174

Differential Revision: https://developer.blender.org/D8544
2020-11-04 13:03:33 +01:00

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/*
* Copyright 2011-2013 Blender Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "render/light.h"
#include "blender/blender_sync.h"
#include "blender/blender_util.h"
#include "util/util_hash.h"
CCL_NAMESPACE_BEGIN
void BlenderSync::sync_light(BL::Object &b_parent,
int persistent_id[OBJECT_PERSISTENT_ID_SIZE],
BL::Object &b_ob,
BL::Object &b_ob_instance,
int random_id,
Transform &tfm,
bool *use_portal)
{
/* test if we need to sync */
Light *light;
ObjectKey key(b_parent, persistent_id, b_ob_instance, false);
BL::Light b_light(b_ob.data());
/* Update if either object or light data changed. */
if (!light_map.add_or_update(&light, b_ob, b_parent, key)) {
Shader *shader;
if (!shader_map.add_or_update(&shader, b_light)) {
if (light->get_is_portal())
*use_portal = true;
return;
}
}
/* type */
switch (b_light.type()) {
case BL::Light::type_POINT: {
BL::PointLight b_point_light(b_light);
light->set_size(b_point_light.shadow_soft_size());
light->set_light_type(LIGHT_POINT);
break;
}
case BL::Light::type_SPOT: {
BL::SpotLight b_spot_light(b_light);
light->set_size(b_spot_light.shadow_soft_size());
light->set_light_type(LIGHT_SPOT);
light->set_spot_angle(b_spot_light.spot_size());
light->set_spot_smooth(b_spot_light.spot_blend());
break;
}
/* Hemi were removed from 2.8 */
// case BL::Light::type_HEMI: {
// light->type = LIGHT_DISTANT;
// light->size = 0.0f;
// break;
// }
case BL::Light::type_SUN: {
BL::SunLight b_sun_light(b_light);
light->set_angle(b_sun_light.angle());
light->set_light_type(LIGHT_DISTANT);
break;
}
case BL::Light::type_AREA: {
BL::AreaLight b_area_light(b_light);
light->set_size(1.0f);
light->set_axisu(transform_get_column(&tfm, 0));
light->set_axisv(transform_get_column(&tfm, 1));
light->set_sizeu(b_area_light.size());
switch (b_area_light.shape()) {
case BL::AreaLight::shape_SQUARE:
light->set_sizev(light->get_sizeu());
light->set_round(false);
break;
case BL::AreaLight::shape_RECTANGLE:
light->set_sizev(b_area_light.size_y());
light->set_round(false);
break;
case BL::AreaLight::shape_DISK:
light->set_sizev(light->get_sizeu());
light->set_round(true);
break;
case BL::AreaLight::shape_ELLIPSE:
light->set_sizev(b_area_light.size_y());
light->set_round(true);
break;
}
light->set_light_type(LIGHT_AREA);
break;
}
}
/* strength */
float3 strength = get_float3(b_light.color()) * BL::PointLight(b_light).energy();
light->set_strength(strength);
/* location and (inverted!) direction */
light->set_co(transform_get_column(&tfm, 3));
light->set_dir(-transform_get_column(&tfm, 2));
light->set_tfm(tfm);
/* shader */
array<Node *> used_shaders;
find_shader(b_light, used_shaders, scene->default_light);
light->set_shader(static_cast<Shader *>(used_shaders[0]));
/* shadow */
PointerRNA cscene = RNA_pointer_get(&b_scene.ptr, "cycles");
PointerRNA clight = RNA_pointer_get(&b_light.ptr, "cycles");
light->set_cast_shadow(get_boolean(clight, "cast_shadow"));
light->set_use_mis(get_boolean(clight, "use_multiple_importance_sampling"));
int samples = get_int(clight, "samples");
if (get_boolean(cscene, "use_square_samples"))
light->set_samples(samples * samples);
else
light->set_samples(samples);
light->set_max_bounces(get_int(clight, "max_bounces"));
if (b_ob != b_ob_instance) {
light->set_random_id(random_id);
}
else {
light->set_random_id(hash_uint2(hash_string(b_ob.name().c_str()), 0));
}
if (light->get_light_type() == LIGHT_AREA)
light->set_is_portal(get_boolean(clight, "is_portal"));
else
light->set_is_portal(false);
if (light->get_is_portal())
*use_portal = true;
/* visibility */
uint visibility = object_ray_visibility(b_ob);
light->set_use_diffuse((visibility & PATH_RAY_DIFFUSE) != 0);
light->set_use_glossy((visibility & PATH_RAY_GLOSSY) != 0);
light->set_use_transmission((visibility & PATH_RAY_TRANSMIT) != 0);
light->set_use_scatter((visibility & PATH_RAY_VOLUME_SCATTER) != 0);
/* tag */
light->tag_update(scene);
}
void BlenderSync::sync_background_light(BL::SpaceView3D &b_v3d, bool use_portal)
{
BL::World b_world = b_scene.world();
if (b_world) {
PointerRNA cscene = RNA_pointer_get(&b_scene.ptr, "cycles");
PointerRNA cworld = RNA_pointer_get(&b_world.ptr, "cycles");
enum SamplingMethod { SAMPLING_NONE = 0, SAMPLING_AUTOMATIC, SAMPLING_MANUAL, SAMPLING_NUM };
int sampling_method = get_enum(cworld, "sampling_method", SAMPLING_NUM, SAMPLING_AUTOMATIC);
bool sample_as_light = (sampling_method != SAMPLING_NONE);
if (sample_as_light || use_portal) {
/* test if we need to sync */
Light *light;
ObjectKey key(b_world, 0, b_world, false);
if (light_map.add_or_update(&light, b_world, b_world, key) || world_recalc ||
b_world.ptr.data != world_map) {
light->set_light_type(LIGHT_BACKGROUND);
if (sampling_method == SAMPLING_MANUAL) {
light->set_map_resolution(get_int(cworld, "sample_map_resolution"));
}
else {
light->set_map_resolution(0);
}
light->set_shader(scene->default_background);
light->set_use_mis(sample_as_light);
light->set_max_bounces(get_int(cworld, "max_bounces"));
/* force enable light again when world is resynced */
light->set_is_enabled(true);
int samples = get_int(cworld, "samples");
if (get_boolean(cscene, "use_square_samples"))
light->set_samples(samples * samples);
else
light->set_samples(samples);
light->tag_update(scene);
light_map.set_recalc(b_world);
}
}
}
world_map = b_world.ptr.data;
world_recalc = false;
viewport_parameters = BlenderViewportParameters(b_v3d);
}
CCL_NAMESPACE_END
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