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blender/intern/cycles/render/object.cpp
Lukas Toenne f0d2477484 Fix for #32184 and redesign of particle storage in Cycles. 
The particle data used by the Particle Info node was stored in cycles as a list in each object. This is a problem when the particle emitter mesh is hidden: Objects in cycles are only intended as instances of renderable meshes, so when hiding the emitter mesh the particle data doesn't get stored either. Also the particle data can potentially be copied to multiple instances of the same object, which is a waste of texture space.

The solution in this patch is to make a completely separate list of particle systems in the Cycles scene data. This way the particle data can be generated even when the emitter object itself is not visible.
2012-08-31 17:27:08 +00:00

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/*
* Copyright 2011, Blender Foundation.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "device.h"
#include "light.h"
#include "mesh.h"
#include "object.h"
#include "scene.h"
#include "util_foreach.h"
#include "util_map.h"
#include "util_progress.h"
#include "util_vector.h"
CCL_NAMESPACE_BEGIN
/* Object */
Object::Object()
{
name = "";
mesh = NULL;
tfm = transform_identity();
visibility = ~0;
random_id = 0;
pass_id = 0;
particle_id = 0;
bounds = BoundBox::empty;
motion.pre = transform_identity();
motion.post = transform_identity();
use_motion = false;
use_holdout = false;
}
Object::~Object()
{
}
void Object::compute_bounds(bool motion_blur)
{
BoundBox mbounds = mesh->bounds;
if(motion_blur && use_motion) {
MotionTransform decomp;
transform_motion_decompose(&decomp, &motion);
bounds = BoundBox::empty;
/* todo: this is really terrible. according to pbrt there is a better
* way to find this iteratively, but did not find implementation yet
* or try to implement myself */
for(float t = 0.0f; t < 1.0f; t += 1.0f/128.0f) {
Transform ttfm;
transform_motion_interpolate(&ttfm, &decomp, t);
bounds.grow(mbounds.transformed(&ttfm));
}
}
else
bounds = mbounds.transformed(&tfm);
}
void Object::apply_transform()
{
if(!mesh || tfm == transform_identity())
return;
for(size_t i = 0; i < mesh->verts.size(); i++)
mesh->verts[i] = transform_point(&tfm, mesh->verts[i]);
Attribute *attr_fN = mesh->attributes.find(ATTR_STD_FACE_NORMAL);
Attribute *attr_vN = mesh->attributes.find(ATTR_STD_VERTEX_NORMAL);
Transform ntfm = transform_transpose(transform_inverse(tfm));
/* we keep normals pointing in same direction on negative scale, notify
* mesh about this in it (re)calculates normals */
if(transform_negative_scale(tfm))
mesh->transform_negative_scaled = true;
if(attr_fN) {
float3 *fN = attr_fN->data_float3();
for(size_t i = 0; i < mesh->triangles.size(); i++)
fN[i] = transform_direction(&ntfm, fN[i]);
}
if(attr_vN) {
float3 *vN = attr_vN->data_float3();
for(size_t i = 0; i < mesh->verts.size(); i++)
vN[i] = transform_direction(&ntfm, vN[i]);
}
if(bounds.valid()) {
mesh->compute_bounds();
compute_bounds(false);
}
/* tfm is not reset to identity, all code that uses it needs to check the
transform_applied boolean */
}
void Object::tag_update(Scene *scene)
{
if(mesh) {
if(mesh->transform_applied)
mesh->need_update = true;
foreach(uint sindex, mesh->used_shaders) {
Shader *shader = scene->shaders[sindex];
if(shader->sample_as_light && shader->has_surface_emission)
scene->light_manager->need_update = true;
}
}
scene->mesh_manager->need_update = true;
scene->object_manager->need_update = true;
}
/* Object Manager */
ObjectManager::ObjectManager()
{
need_update = true;
}
ObjectManager::~ObjectManager()
{
}
void ObjectManager::device_update_transforms(Device *device, DeviceScene *dscene, Scene *scene, Progress& progress)
{
float4 *objects = dscene->objects.resize(OBJECT_SIZE*scene->objects.size());
uint *object_flag = dscene->object_flag.resize(scene->objects.size());
int i = 0;
map<Mesh*, float> surface_area_map;
Scene::MotionType need_motion = scene->need_motion();
foreach(Object *ob, scene->objects) {
Mesh *mesh = ob->mesh;
uint flag = 0;
/* compute transformations */
Transform tfm = ob->tfm;
Transform itfm = transform_inverse(tfm);
/* compute surface area. for uniform scale we can do avoid the many
* transform calls and share computation for instances */
/* todo: correct for displacement, and move to a better place */
float uniform_scale;
float surface_area = 0.0f;
float pass_id = ob->pass_id;
float random_number = (float)ob->random_id * (1.0f/(float)0xFFFFFFFF);
if(transform_uniform_scale(tfm, uniform_scale)) {
map<Mesh*, float>::iterator it = surface_area_map.find(mesh);
if(it == surface_area_map.end()) {
foreach(Mesh::Triangle& t, mesh->triangles) {
float3 p1 = mesh->verts[t.v[0]];
float3 p2 = mesh->verts[t.v[1]];
float3 p3 = mesh->verts[t.v[2]];
surface_area += triangle_area(p1, p2, p3);
}
surface_area_map[mesh] = surface_area;
}
else
surface_area = it->second;
surface_area *= uniform_scale;
}
else {
foreach(Mesh::Triangle& t, mesh->triangles) {
float3 p1 = transform_point(&tfm, mesh->verts[t.v[0]]);
float3 p2 = transform_point(&tfm, mesh->verts[t.v[1]]);
float3 p3 = transform_point(&tfm, mesh->verts[t.v[2]]);
surface_area += triangle_area(p1, p2, p3);
}
}
/* pack in texture */
int offset = i*OBJECT_SIZE;
memcpy(&objects[offset], &tfm, sizeof(float4)*3);
memcpy(&objects[offset+3], &itfm, sizeof(float4)*3);
objects[offset+6] = make_float4(surface_area, pass_id, random_number, __int_as_float(ob->particle_id));
if(need_motion == Scene::MOTION_PASS) {
/* motion transformations, is world/object space depending if mesh
* comes with deformed position in object space, or if we transform
* the shading point in world space */
Transform mtfm_pre = ob->motion.pre;
Transform mtfm_post = ob->motion.post;
if(!mesh->attributes.find(ATTR_STD_MOTION_PRE))
mtfm_pre = mtfm_pre * itfm;
if(!mesh->attributes.find(ATTR_STD_MOTION_POST))
mtfm_post = mtfm_post * itfm;
memcpy(&objects[offset+8], &mtfm_pre, sizeof(float4)*4);
memcpy(&objects[offset+12], &mtfm_post, sizeof(float4)*4);
}
else if(need_motion == Scene::MOTION_BLUR) {
if(ob->use_motion) {
/* decompose transformations for interpolation */
MotionTransform decomp;
transform_motion_decompose(&decomp, &ob->motion);
memcpy(&objects[offset+8], &decomp, sizeof(float4)*8);
flag |= SD_OBJECT_MOTION;
}
else {
float4 no_motion = make_float4(FLT_MAX);
memcpy(&objects[offset+8], &no_motion, sizeof(float4));
}
}
/* object flag */
if(ob->use_holdout)
flag |= SD_HOLDOUT_MASK;
object_flag[i] = flag;
i++;
if(progress.get_cancel()) return;
}
device->tex_alloc("__objects", dscene->objects);
device->tex_alloc("__object_flag", dscene->object_flag);
}
void ObjectManager::device_update(Device *device, DeviceScene *dscene, Scene *scene, Progress& progress)
{
if(!need_update)
return;
device_free(device, dscene);
if(scene->objects.size() == 0)
return;
/* set object transform matrices, before applying static transforms */
progress.set_status("Updating Objects", "Copying Transformations to device");
device_update_transforms(device, dscene, scene, progress);
if(progress.get_cancel()) return;
/* prepare for static BVH building */
/* todo: do before to support getting object level coords? */
if(scene->params.bvh_type == SceneParams::BVH_STATIC) {
progress.set_status("Updating Objects", "Applying Static Transformations");
apply_static_transforms(scene, progress);
}
if(progress.get_cancel()) return;
need_update = false;
}
void ObjectManager::device_free(Device *device, DeviceScene *dscene)
{
device->tex_free(dscene->objects);
dscene->objects.clear();
device->tex_free(dscene->object_flag);
dscene->object_flag.clear();
}
void ObjectManager::apply_static_transforms(Scene *scene, Progress& progress)
{
/* todo: normals and displacement should be done before applying transform! */
/* todo: create objects/meshes in right order! */
/* counter mesh users */
map<Mesh*, int> mesh_users;
bool motion_blur = scene->need_motion() == Scene::MOTION_BLUR;
foreach(Object *object, scene->objects) {
map<Mesh*, int>::iterator it = mesh_users.find(object->mesh);
if(it == mesh_users.end())
mesh_users[object->mesh] = 1;
else
it->second++;
}
if(progress.get_cancel()) return;
/* apply transforms for objects with single user meshes */
foreach(Object *object, scene->objects) {
if(mesh_users[object->mesh] == 1) {
if(!(motion_blur && object->use_motion)) {
if(!object->mesh->transform_applied) {
object->apply_transform();
object->mesh->transform_applied = true;
if(progress.get_cancel()) return;
}
}
}
}
}
void ObjectManager::tag_update(Scene *scene)
{
need_update = true;
scene->mesh_manager->need_update = true;
scene->light_manager->need_update = true;
}
CCL_NAMESPACE_END
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