blender/intern/cycles/bvh/bvh.h
Sergey Sharybin 9b1564a862 Cycles: Cleanup, rename RegularBVH to BinaryBVH
Makes it more explicit what the structure is from it's name.
2017-03-30 09:47:27 +02:00

205 lines
5.8 KiB
C++

/*
* Adapted from code copyright 2009-2010 NVIDIA Corporation
* Modifications Copyright 2011, 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 __BVH_H__
#define __BVH_H__
#include "bvh/bvh_params.h"
#include "util/util_types.h"
#include "util/util_vector.h"
CCL_NAMESPACE_BEGIN
class BVHNode;
struct BVHStackEntry;
class BVHParams;
class BoundBox;
class LeafNode;
class Object;
class Progress;
#define BVH_NODE_SIZE 4
#define BVH_NODE_LEAF_SIZE 1
#define BVH_QNODE_SIZE 8
#define BVH_QNODE_LEAF_SIZE 1
#define BVH_ALIGN 4096
#define TRI_NODE_SIZE 3
#define BVH_UNALIGNED_NODE_SIZE 7
#define BVH_UNALIGNED_QNODE_SIZE 14
/* Packed BVH
*
* BVH stored as it will be used for traversal on the rendering device. */
struct PackedBVH {
/* BVH nodes storage, one node is 4x int4, and contains two bounding boxes,
* and child, triangle or object indexes depending on the node type */
array<int4> nodes;
/* BVH leaf nodes storage. */
array<int4> leaf_nodes;
/* object index to BVH node index mapping for instances */
array<int> object_node;
/* Mapping from primitive index to index in triangle array. */
array<uint> prim_tri_index;
/* Continuous storage of triangle vertices. */
array<float4> prim_tri_verts;
/* primitive type - triangle or strand */
array<int> prim_type;
/* visibility visibilitys for primitives */
array<uint> prim_visibility;
/* mapping from BVH primitive index to true primitive index, as primitives
* may be duplicated due to spatial splits. -1 for instances. */
array<int> prim_index;
/* mapping from BVH primitive index, to the object id of that primitive. */
array<int> prim_object;
/* Time range of BVH primitive. */
array<float2> prim_time;
/* index of the root node. */
int root_index;
PackedBVH()
{
root_index = 0;
}
};
/* BVH */
class BVH
{
public:
PackedBVH pack;
BVHParams params;
vector<Object*> objects;
static BVH *create(const BVHParams& params, const vector<Object*>& objects);
virtual ~BVH() {}
void build(Progress& progress);
void refit(Progress& progress);
protected:
BVH(const BVHParams& params, const vector<Object*>& objects);
/* triangles and strands */
void pack_primitives();
void pack_triangle(int idx, float4 storage[3]);
/* merge instance BVH's */
void pack_instances(size_t nodes_size, size_t leaf_nodes_size);
/* for subclasses to implement */
virtual void pack_nodes(const BVHNode *root) = 0;
virtual void refit_nodes() = 0;
};
/* Binary BVH
*
* Typical BVH with each node having two children. */
class BinaryBVH : public BVH {
protected:
/* constructor */
friend class BVH;
BinaryBVH(const BVHParams& params, const vector<Object*>& objects);
/* pack */
void pack_nodes(const BVHNode *root);
void pack_leaf(const BVHStackEntry& e,
const LeafNode *leaf);
void pack_inner(const BVHStackEntry& e,
const BVHStackEntry& e0,
const BVHStackEntry& e1);
void pack_aligned_inner(const BVHStackEntry& e,
const BVHStackEntry& e0,
const BVHStackEntry& e1);
void pack_aligned_node(int idx,
const BoundBox& b0,
const BoundBox& b1,
int c0, int c1,
uint visibility0, uint visibility1);
void pack_unaligned_inner(const BVHStackEntry& e,
const BVHStackEntry& e0,
const BVHStackEntry& e1);
void pack_unaligned_node(int idx,
const Transform& aligned_space0,
const Transform& aligned_space1,
const BoundBox& b0,
const BoundBox& b1,
int c0, int c1,
uint visibility0, uint visibility1);
/* refit */
void refit_nodes();
void refit_node(int idx, bool leaf, BoundBox& bbox, uint& visibility);
};
/* QBVH
*
* Quad BVH, with each node having four children, to use with SIMD instructions. */
class QBVH : public BVH {
protected:
/* constructor */
friend class BVH;
QBVH(const BVHParams& params, const vector<Object*>& objects);
/* pack */
void pack_nodes(const BVHNode *root);
void pack_leaf(const BVHStackEntry& e, const LeafNode *leaf);
void pack_inner(const BVHStackEntry& e, const BVHStackEntry *en, int num);
void pack_aligned_inner(const BVHStackEntry& e,
const BVHStackEntry *en,
int num);
void pack_aligned_node(int idx,
const BoundBox *bounds,
const int *child,
const uint visibility,
const float time_from,
const float time_to,
const int num);
void pack_unaligned_inner(const BVHStackEntry& e,
const BVHStackEntry *en,
int num);
void pack_unaligned_node(int idx,
const Transform *aligned_space,
const BoundBox *bounds,
const int *child,
const uint visibility,
const float time_from,
const float time_to,
const int num);
/* refit */
void refit_nodes();
void refit_node(int idx, bool leaf, BoundBox& bbox, uint& visibility);
};
CCL_NAMESPACE_END
#endif /* __BVH_H__ */