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blender/intern/cycles/render/mesh.h
Kévin Dietrich bbe6d44928 Cycles: optimize device updates 
This optimizes device updates (during user edits or frame changes in
the viewport) by avoiding unnecessary computations. To achieve this,
we use a combination of the sockets' update flags as well as some new
flags passed to the various managers when tagging for an update to tell
exactly what the tagging is for (e.g. shader was modified, object was
removed, etc.).

Besides avoiding recomputations, we also avoid resending to the devices
unmodified data arrays, thus reducing bandwidth usage. For OptiX and
Embree, BVH packing was also multithreaded.

The performance improvements may vary depending on the used device (CPU
or GPU), and the content of the scene. Simple scenes (e.g. with no adaptive
subdivision or volumes) rendered using OptiX will benefit from this work
the most.

On average, for a variety of animated scenes, this gives a 3x speedup.

Reviewed By: #cycles, brecht

Maniphest Tasks: T79174

Differential Revision: https://developer.blender.org/D9555
2021-01-22 16:08:25 +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.
*/
#ifndef __MESH_H__
#define __MESH_H__
#include "graph/node.h"
#include "bvh/bvh_params.h"
#include "render/attribute.h"
#include "render/geometry.h"
#include "render/shader.h"
#include "util/util_array.h"
#include "util/util_boundbox.h"
#include "util/util_list.h"
#include "util/util_map.h"
#include "util/util_param.h"
#include "util/util_set.h"
#include "util/util_types.h"
#include "util/util_vector.h"
CCL_NAMESPACE_BEGIN
class Attribute;
class BVH;
class Device;
class DeviceScene;
class Mesh;
class Progress;
class RenderStats;
class Scene;
class SceneParams;
class AttributeRequest;
struct SubdParams;
class DiagSplit;
struct PackedPatchTable;
/* Mesh */
class Mesh : public Geometry {
protected:
Mesh(const NodeType *node_type_, Type geom_type_);
public:
NODE_DECLARE
/* Mesh Triangle */
struct Triangle {
int v[3];
void bounds_grow(const float3 *verts, BoundBox &bounds) const;
void motion_verts(const float3 *verts,
const float3 *vert_steps,
size_t num_verts,
size_t num_steps,
float time,
float3 r_verts[3]) const;
void verts_for_step(const float3 *verts,
const float3 *vert_steps,
size_t num_verts,
size_t num_steps,
size_t step,
float3 r_verts[3]) const;
float3 compute_normal(const float3 *verts) const;
bool valid(const float3 *verts) const;
};
Triangle get_triangle(size_t i) const
{
Triangle tri = {{triangles[i * 3 + 0], triangles[i * 3 + 1], triangles[i * 3 + 2]}};
return tri;
}
size_t num_triangles() const
{
return triangles.size() / 3;
}
/* Mesh SubdFace */
struct SubdFace {
int start_corner;
int num_corners;
int shader;
bool smooth;
int ptex_offset;
bool is_quad()
{
return num_corners == 4;
}
float3 normal(const Mesh *mesh) const;
int num_ptex_faces() const
{
return num_corners == 4 ? 1 : num_corners;
}
};
struct SubdEdgeCrease {
int v[2];
float crease;
};
SubdEdgeCrease get_subd_crease(size_t i) const
{
SubdEdgeCrease s;
s.v[0] = subd_creases_edge[i * 2];
s.v[1] = subd_creases_edge[i * 2 + 1];
s.crease = subd_creases_weight[i];
return s;
}
bool need_tesselation();
enum SubdivisionType {
SUBDIVISION_NONE,
SUBDIVISION_LINEAR,
SUBDIVISION_CATMULL_CLARK,
};
NODE_SOCKET_API(SubdivisionType, subdivision_type)
/* Mesh Data */
NODE_SOCKET_API_ARRAY(array<int>, triangles)
NODE_SOCKET_API_ARRAY(array<float3>, verts)
NODE_SOCKET_API_ARRAY(array<int>, shader)
NODE_SOCKET_API_ARRAY(array<bool>, smooth)
/* used for storing patch info for subd triangles, only allocated if there are patches */
NODE_SOCKET_API_ARRAY(array<int>, triangle_patch) /* must be < 0 for non subd triangles */
NODE_SOCKET_API_ARRAY(array<float2>, vert_patch_uv)
/* SubdFaces */
NODE_SOCKET_API_ARRAY(array<int>, subd_start_corner)
NODE_SOCKET_API_ARRAY(array<int>, subd_num_corners)
NODE_SOCKET_API_ARRAY(array<int>, subd_shader)
NODE_SOCKET_API_ARRAY(array<bool>, subd_smooth)
NODE_SOCKET_API_ARRAY(array<int>, subd_ptex_offset)
NODE_SOCKET_API_ARRAY(array<int>, subd_face_corners)
NODE_SOCKET_API(int, num_ngons)
NODE_SOCKET_API_ARRAY(array<int>, subd_creases_edge)
NODE_SOCKET_API_ARRAY(array<float>, subd_creases_weight)
/* Subdivisions parameters */
NODE_SOCKET_API(float, subd_dicing_rate)
NODE_SOCKET_API(int, subd_max_level)
NODE_SOCKET_API(Transform, subd_objecttoworld)
AttributeSet subd_attributes;
private:
PackedPatchTable *patch_table;
/* BVH */
size_t vert_offset;
size_t patch_offset;
size_t patch_table_offset;
size_t face_offset;
size_t corner_offset;
size_t num_subd_verts;
size_t num_subd_faces;
unordered_map<int, int> vert_to_stitching_key_map; /* real vert index -> stitching index */
unordered_multimap<int, int>
vert_stitching_map; /* stitching index -> multiple real vert indices */
friend class BVH2;
friend class BVHBuild;
friend class BVHSpatialSplit;
friend class DiagSplit;
friend class EdgeDice;
friend class GeometryManager;
friend class ObjectManager;
SubdParams *subd_params = nullptr;
public:
/* Functions */
Mesh();
~Mesh();
void resize_mesh(int numverts, int numfaces);
void reserve_mesh(int numverts, int numfaces);
void resize_subd_faces(int numfaces, int num_ngons, int numcorners);
void reserve_subd_faces(int numfaces, int num_ngons, int numcorners);
void reserve_subd_creases(size_t num_creases);
void clear_non_sockets();
void clear(bool preserve_shaders = false) override;
void add_vertex(float3 P);
void add_vertex_slow(float3 P);
void add_triangle(int v0, int v1, int v2, int shader, bool smooth);
void add_subd_face(int *corners, int num_corners, int shader_, bool smooth_);
void add_crease(int v0, int v1, float weight);
void copy_center_to_motion_step(const int motion_step);
void compute_bounds() override;
void apply_transform(const Transform &tfm, const bool apply_to_motion) override;
void add_face_normals();
void add_vertex_normals();
void add_undisplaced();
void get_uv_tiles(ustring map, unordered_set<int> &tiles) override;
void pack_shaders(Scene *scene, uint *shader);
void pack_normals(float4 *vnormal);
void pack_verts(const vector<uint> &tri_prim_index,
uint4 *tri_vindex,
uint *tri_patch,
float2 *tri_patch_uv,
size_t vert_offset,
size_t tri_offset);
void pack_patches(uint *patch_data, uint vert_offset, uint face_offset, uint corner_offset);
void pack_primitives(PackedBVH *pack, int object, uint visibility, bool pack_all) override;
void tessellate(DiagSplit *split);
SubdFace get_subd_face(size_t index) const;
SubdParams *get_subd_params();
size_t get_num_subd_faces() const
{
return num_subd_faces;
}
void set_num_subd_faces(size_t num_subd_faces_)
{
num_subd_faces = num_subd_faces_;
}
size_t get_num_subd_verts()
{
return num_subd_verts;
}
protected:
void clear(bool preserve_shaders, bool preserve_voxel_data);
};
CCL_NAMESPACE_END
#endif /* __MESH_H__ */
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