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godot/thirdparty/embree/kernels/bvh/node_intersector1.h
JFonS 1cfed0d583
Switch to embree-aarch64 
(cherry picked from commit 73e2ccd603)
2021-05-05 15:11:13 +02:00

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// Copyright 2009-2020 Intel Corporation
// SPDX-License-Identifier: Apache-2.0
#pragma once
#include "node_intersector.h"
#if defined(__AVX2__)
#define __FMA_X4__
#endif
#if defined(__aarch64__)
#define __FMA_X4__
#endif
namespace embree
{
namespace isa
{
//////////////////////////////////////////////////////////////////////////////////////
// Ray structure used in single-ray traversal
//////////////////////////////////////////////////////////////////////////////////////
template<int N, int Nx, bool robust>
struct TravRayBase;
/* Base (without tnear and tfar) */
template<int N, int Nx>
struct TravRayBase<N,Nx,false>
{
__forceinline TravRayBase() {}
__forceinline TravRayBase(const Vec3fa& ray_org, const Vec3fa& ray_dir)
: org_xyz(ray_org), dir_xyz(ray_dir)
{
const Vec3fa ray_rdir = rcp_safe(ray_dir);
org = Vec3vf<N>(ray_org.x,ray_org.y,ray_org.z);
dir = Vec3vf<N>(ray_dir.x,ray_dir.y,ray_dir.z);
rdir = Vec3vf<N>(ray_rdir.x,ray_rdir.y,ray_rdir.z);
#if defined(__FMA_X4__)
const Vec3fa ray_org_rdir = ray_org*ray_rdir;
#if !defined(__aarch64__)
org_rdir = Vec3vf<N>(ray_org_rdir.x,ray_org_rdir.y,ray_org_rdir.z);
#else
//for aarch64, we do not have msub equal instruction, so we negeate orig and use madd
//x86 will use msub
neg_org_rdir = Vec3vf<N>(-ray_org_rdir.x,-ray_org_rdir.y,-ray_org_rdir.z);
#endif
#endif
nearX = ray_rdir.x >= 0.0f ? 0*sizeof(vfloat<N>) : 1*sizeof(vfloat<N>);
nearY = ray_rdir.y >= 0.0f ? 2*sizeof(vfloat<N>) : 3*sizeof(vfloat<N>);
nearZ = ray_rdir.z >= 0.0f ? 4*sizeof(vfloat<N>) : 5*sizeof(vfloat<N>);
farX = nearX ^ sizeof(vfloat<N>);
farY = nearY ^ sizeof(vfloat<N>);
farZ = nearZ ^ sizeof(vfloat<N>);
#if defined(__AVX512ER__) // KNL+
/* optimization works only for 8-wide BVHs with 16-wide SIMD */
const vint<16> id(step);
const vint<16> id2 = align_shift_right<16/2>(id, id);
permX = select(vfloat<16>(dir.x) >= 0.0f, id, id2);
permY = select(vfloat<16>(dir.y) >= 0.0f, id, id2);
permZ = select(vfloat<16>(dir.z) >= 0.0f, id, id2);
#endif
}
template<int K>
__forceinline TravRayBase(size_t k, const Vec3vf<K>& ray_org, const Vec3vf<K>& ray_dir,
const Vec3vf<K>& ray_rdir, const Vec3vi<K>& nearXYZ,
size_t flip = sizeof(vfloat<N>))
{
org = Vec3vf<Nx>(ray_org.x[k], ray_org.y[k], ray_org.z[k]);
dir = Vec3vf<Nx>(ray_dir.x[k], ray_dir.y[k], ray_dir.z[k]);
rdir = Vec3vf<Nx>(ray_rdir.x[k], ray_rdir.y[k], ray_rdir.z[k]);
#if defined(__FMA_X4__)
#if !defined(__aarch64__)
org_rdir = org*rdir;
#else
neg_org_rdir = -(org*rdir);
#endif
#endif
nearX = nearXYZ.x[k];
nearY = nearXYZ.y[k];
nearZ = nearXYZ.z[k];
farX = nearX ^ flip;
farY = nearY ^ flip;
farZ = nearZ ^ flip;
#if defined(__AVX512ER__) // KNL+
/* optimization works only for 8-wide BVHs with 16-wide SIMD */
const vint<16> id(step);
const vint<16> id2 = align_shift_right<16/2>(id, id);
permX = select(vfloat<16>(dir.x) >= 0.0f, id, id2);
permY = select(vfloat<16>(dir.y) >= 0.0f, id, id2);
permZ = select(vfloat<16>(dir.z) >= 0.0f, id, id2);
#endif
}
Vec3fa org_xyz, dir_xyz;
Vec3vf<Nx> org, dir, rdir;
#if defined(__FMA_X4__)
#if !defined(__aarch64__)
Vec3vf<Nx> org_rdir;
#else
//aarch64 version are keeping negation of the org_rdir and use madd
//x86 uses msub
Vec3vf<Nx> neg_org_rdir;
#endif
#endif
#if defined(__AVX512ER__) // KNL+
vint16 permX, permY, permZ;
#endif
size_t nearX, nearY, nearZ;
size_t farX, farY, farZ;
};
/* Base (without tnear and tfar) */
template<int N, int Nx>
struct TravRayBase<N,Nx,true>
{
__forceinline TravRayBase() {}
__forceinline TravRayBase(const Vec3fa& ray_org, const Vec3fa& ray_dir)
: org_xyz(ray_org), dir_xyz(ray_dir)
{
const float round_down = 1.0f-3.0f*float(ulp);
const float round_up = 1.0f+3.0f*float(ulp);
const Vec3fa ray_rdir = 1.0f/zero_fix(ray_dir);
const Vec3fa ray_rdir_near = round_down*ray_rdir;
const Vec3fa ray_rdir_far = round_up *ray_rdir;
org = Vec3vf<N>(ray_org.x,ray_org.y,ray_org.z);
dir = Vec3vf<N>(ray_dir.x,ray_dir.y,ray_dir.z);
rdir_near = Vec3vf<N>(ray_rdir_near.x,ray_rdir_near.y,ray_rdir_near.z);
rdir_far = Vec3vf<N>(ray_rdir_far .x,ray_rdir_far .y,ray_rdir_far .z);
nearX = ray_rdir_near.x >= 0.0f ? 0*sizeof(vfloat<N>) : 1*sizeof(vfloat<N>);
nearY = ray_rdir_near.y >= 0.0f ? 2*sizeof(vfloat<N>) : 3*sizeof(vfloat<N>);
nearZ = ray_rdir_near.z >= 0.0f ? 4*sizeof(vfloat<N>) : 5*sizeof(vfloat<N>);
farX = nearX ^ sizeof(vfloat<N>);
farY = nearY ^ sizeof(vfloat<N>);
farZ = nearZ ^ sizeof(vfloat<N>);
#if defined(__AVX512ER__) // KNL+
/* optimization works only for 8-wide BVHs with 16-wide SIMD */
const vint<16> id(step);
const vint<16> id2 = align_shift_right<16/2>(id, id);
permX = select(vfloat<16>(dir.x) >= 0.0f, id, id2);
permY = select(vfloat<16>(dir.y) >= 0.0f, id, id2);
permZ = select(vfloat<16>(dir.z) >= 0.0f, id, id2);
#endif
}
template<int K>
__forceinline TravRayBase(size_t k, const Vec3vf<K>& ray_org, const Vec3vf<K>& ray_dir,
const Vec3vf<K>& ray_rdir, const Vec3vi<K>& nearXYZ,
size_t flip = sizeof(vfloat<N>))
{
const vfloat<Nx> round_down = 1.0f-3.0f*float(ulp);
const vfloat<Nx> round_up = 1.0f+3.0f*float(ulp);
org = Vec3vf<Nx>(ray_org.x[k], ray_org.y[k], ray_org.z[k]);
dir = Vec3vf<Nx>(ray_dir.x[k], ray_dir.y[k], ray_dir.z[k]);
rdir_near = round_down*Vec3vf<Nx>(ray_rdir.x[k], ray_rdir.y[k], ray_rdir.z[k]);
rdir_far = round_up *Vec3vf<Nx>(ray_rdir.x[k], ray_rdir.y[k], ray_rdir.z[k]);
nearX = nearXYZ.x[k];
nearY = nearXYZ.y[k];
nearZ = nearXYZ.z[k];
farX = nearX ^ flip;
farY = nearY ^ flip;
farZ = nearZ ^ flip;
#if defined(__AVX512ER__) // KNL+
/* optimization works only for 8-wide BVHs with 16-wide SIMD */
const vint<16> id(step);
const vint<16> id2 = align_shift_right<16/2>(id, id);
permX = select(vfloat<16>(dir.x) >= 0.0f, id, id2);
permY = select(vfloat<16>(dir.y) >= 0.0f, id, id2);
permZ = select(vfloat<16>(dir.z) >= 0.0f, id, id2);
#endif
}
Vec3fa org_xyz, dir_xyz;
Vec3vf<Nx> org, dir, rdir_near, rdir_far;
#if defined(__AVX512ER__) // KNL+
vint16 permX, permY, permZ;
#endif
size_t nearX, nearY, nearZ;
size_t farX, farY, farZ;
};
/* Full (with tnear and tfar) */
template<int N, int Nx, bool robust>
struct TravRay : TravRayBase<N,Nx,robust>
{
__forceinline TravRay() {}
__forceinline TravRay(const Vec3fa& ray_org, const Vec3fa& ray_dir, float ray_tnear, float ray_tfar)
: TravRayBase<N,Nx,robust>(ray_org, ray_dir),
tnear(ray_tnear), tfar(ray_tfar) {}
template<int K>
__forceinline TravRay(size_t k, const Vec3vf<K>& ray_org, const Vec3vf<K>& ray_dir,
const Vec3vf<K>& ray_rdir, const Vec3vi<K>& nearXYZ,
float ray_tnear, float ray_tfar,
size_t flip = sizeof(vfloat<N>))
: TravRayBase<N,Nx,robust>(k, ray_org, ray_dir, ray_rdir, nearXYZ, flip),
tnear(ray_tnear), tfar(ray_tfar) {}
vfloat<Nx> tnear;
vfloat<Nx> tfar;
};
//////////////////////////////////////////////////////////////////////////////////////
// Point Query structure used in single-ray traversal
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
struct TravPointQuery
{
__forceinline TravPointQuery() {}
__forceinline TravPointQuery(const Vec3fa& query_org, const Vec3fa& query_rad)
{
org = Vec3vf<N>(query_org.x, query_org.y, query_org.z);
rad = Vec3vf<N>(query_rad.x, query_rad.y, query_rad.z);
}
__forceinline vfloat<N> const& tfar() const {
return rad.x;
}
Vec3vf<N> org, rad;
};
//////////////////////////////////////////////////////////////////////////////////////
// point query
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
__forceinline size_t pointQuerySphereDistAndMask(
const TravPointQuery<N>& query, vfloat<N>& dist, vfloat<N> const& minX, vfloat<N> const& maxX,
vfloat<N> const& minY, vfloat<N> const& maxY, vfloat<N> const& minZ, vfloat<N> const& maxZ)
{
const vfloat<N> vX = min(max(query.org.x, minX), maxX) - query.org.x;
const vfloat<N> vY = min(max(query.org.y, minY), maxY) - query.org.y;
const vfloat<N> vZ = min(max(query.org.z, minZ), maxZ) - query.org.z;
dist = vX * vX + vY * vY + vZ * vZ;
const vbool<N> vmask = dist <= query.tfar()*query.tfar();
const vbool<N> valid = minX <= maxX;
return movemask(vmask) & movemask(valid);
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::AABBNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
const vfloat<N> minX = vfloat<N>::load((float*)((const char*)&node->lower_x));
const vfloat<N> minY = vfloat<N>::load((float*)((const char*)&node->lower_y));
const vfloat<N> minZ = vfloat<N>::load((float*)((const char*)&node->lower_z));
const vfloat<N> maxX = vfloat<N>::load((float*)((const char*)&node->upper_x));
const vfloat<N> maxY = vfloat<N>::load((float*)((const char*)&node->upper_y));
const vfloat<N> maxZ = vfloat<N>::load((float*)((const char*)&node->upper_z));
return pointQuerySphereDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ);
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::AABBNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const vfloat<N>* pMinX = (const vfloat<N>*)((const char*)&node->lower_x);
const vfloat<N>* pMinY = (const vfloat<N>*)((const char*)&node->lower_y);
const vfloat<N>* pMinZ = (const vfloat<N>*)((const char*)&node->lower_z);
const vfloat<N>* pMaxX = (const vfloat<N>*)((const char*)&node->upper_x);
const vfloat<N>* pMaxY = (const vfloat<N>*)((const char*)&node->upper_y);
const vfloat<N>* pMaxZ = (const vfloat<N>*)((const char*)&node->upper_z);
const vfloat<N> minX = madd(time,pMinX[6],vfloat<N>(pMinX[0]));
const vfloat<N> minY = madd(time,pMinY[6],vfloat<N>(pMinY[0]));
const vfloat<N> minZ = madd(time,pMinZ[6],vfloat<N>(pMinZ[0]));
const vfloat<N> maxX = madd(time,pMaxX[6],vfloat<N>(pMaxX[0]));
const vfloat<N> maxY = madd(time,pMaxY[6],vfloat<N>(pMaxY[0]));
const vfloat<N> maxZ = madd(time,pMaxZ[6],vfloat<N>(pMaxZ[0]));
return pointQuerySphereDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ);
}
template<int N>
__forceinline size_t pointQueryNodeSphereMB4D(const typename BVHN<N>::NodeRef ref, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const typename BVHN<N>::AABBNodeMB* node = ref.getAABBNodeMB();
size_t mask = pointQueryNodeSphere(node, query, time, dist);
if (unlikely(ref.isAABBNodeMB4D())) {
const typename BVHN<N>::AABBNodeMB4D* node1 = (const typename BVHN<N>::AABBNodeMB4D*) node;
const vbool<N> vmask = (node1->lower_t <= time) & (time < node1->upper_t);
mask &= movemask(vmask);
}
return mask;
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::QuantizedBaseNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
const vfloat<N> start_x(node->start.x);
const vfloat<N> scale_x(node->scale.x);
const vfloat<N> minX = madd(node->template dequantize<N>((0*sizeof(vfloat<N>)) >> 2),scale_x,start_x);
const vfloat<N> maxX = madd(node->template dequantize<N>((1*sizeof(vfloat<N>)) >> 2),scale_x,start_x);
const vfloat<N> start_y(node->start.y);
const vfloat<N> scale_y(node->scale.y);
const vfloat<N> minY = madd(node->template dequantize<N>((2*sizeof(vfloat<N>)) >> 2),scale_y,start_y);
const vfloat<N> maxY = madd(node->template dequantize<N>((3*sizeof(vfloat<N>)) >> 2),scale_y,start_y);
const vfloat<N> start_z(node->start.z);
const vfloat<N> scale_z(node->scale.z);
const vfloat<N> minZ = madd(node->template dequantize<N>((4*sizeof(vfloat<N>)) >> 2),scale_z,start_z);
const vfloat<N> maxZ = madd(node->template dequantize<N>((5*sizeof(vfloat<N>)) >> 2),scale_z,start_z);
return pointQuerySphereDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ) & movemask(node->validMask());
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const vfloat<N> minX = node->dequantizeLowerX(time);
const vfloat<N> maxX = node->dequantizeUpperX(time);
const vfloat<N> minY = node->dequantizeLowerY(time);
const vfloat<N> maxY = node->dequantizeUpperY(time);
const vfloat<N> minZ = node->dequantizeLowerZ(time);
const vfloat<N> maxZ = node->dequantizeUpperZ(time);
return pointQuerySphereDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ) & movemask(node->validMask());
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::OBBNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
// TODO: point query - implement
const vbool<N> vmask = vbool<N>(true);
const size_t mask = movemask(vmask) & ((1<<N)-1);
dist = vfloat<N>(0.0f);
return mask;
}
template<int N>
__forceinline size_t pointQueryNodeSphere(const typename BVHN<N>::OBBNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
// TODO: point query - implement
const vbool<N> vmask = vbool<N>(true);
const size_t mask = movemask(vmask) & ((1<<N)-1);
dist = vfloat<N>(0.0f);
return mask;
}
template<int N>
__forceinline size_t pointQueryAABBDistAndMask(
const TravPointQuery<N>& query, vfloat<N>& dist, vfloat<N> const& minX, vfloat<N> const& maxX,
vfloat<N> const& minY, vfloat<N> const& maxY, vfloat<N> const& minZ, vfloat<N> const& maxZ)
{
const vfloat<N> vX = min(max(query.org.x, minX), maxX) - query.org.x;
const vfloat<N> vY = min(max(query.org.y, minY), maxY) - query.org.y;
const vfloat<N> vZ = min(max(query.org.z, minZ), maxZ) - query.org.z;
dist = vX * vX + vY * vY + vZ * vZ;
const vbool<N> valid = minX <= maxX;
const vbool<N> vmask = !((maxX < query.org.x - query.rad.x) | (minX > query.org.x + query.rad.x) |
(maxY < query.org.y - query.rad.y) | (minY > query.org.y + query.rad.y) |
(maxZ < query.org.z - query.rad.z) | (minZ > query.org.z + query.rad.z));
return movemask(vmask) & movemask(valid);
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::AABBNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
const vfloat<N> minX = vfloat<N>::load((float*)((const char*)&node->lower_x));
const vfloat<N> minY = vfloat<N>::load((float*)((const char*)&node->lower_y));
const vfloat<N> minZ = vfloat<N>::load((float*)((const char*)&node->lower_z));
const vfloat<N> maxX = vfloat<N>::load((float*)((const char*)&node->upper_x));
const vfloat<N> maxY = vfloat<N>::load((float*)((const char*)&node->upper_y));
const vfloat<N> maxZ = vfloat<N>::load((float*)((const char*)&node->upper_z));
return pointQueryAABBDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ);
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::AABBNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const vfloat<N>* pMinX = (const vfloat<N>*)((const char*)&node->lower_x);
const vfloat<N>* pMinY = (const vfloat<N>*)((const char*)&node->lower_y);
const vfloat<N>* pMinZ = (const vfloat<N>*)((const char*)&node->lower_z);
const vfloat<N>* pMaxX = (const vfloat<N>*)((const char*)&node->upper_x);
const vfloat<N>* pMaxY = (const vfloat<N>*)((const char*)&node->upper_y);
const vfloat<N>* pMaxZ = (const vfloat<N>*)((const char*)&node->upper_z);
const vfloat<N> minX = madd(time,pMinX[6],vfloat<N>(pMinX[0]));
const vfloat<N> minY = madd(time,pMinY[6],vfloat<N>(pMinY[0]));
const vfloat<N> minZ = madd(time,pMinZ[6],vfloat<N>(pMinZ[0]));
const vfloat<N> maxX = madd(time,pMaxX[6],vfloat<N>(pMaxX[0]));
const vfloat<N> maxY = madd(time,pMaxY[6],vfloat<N>(pMaxY[0]));
const vfloat<N> maxZ = madd(time,pMaxZ[6],vfloat<N>(pMaxZ[0]));
return pointQueryAABBDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ);
}
template<int N>
__forceinline size_t pointQueryNodeAABBMB4D(const typename BVHN<N>::NodeRef ref, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const typename BVHN<N>::AABBNodeMB* node = ref.getAABBNodeMB();
size_t mask = pointQueryNodeAABB(node, query, time, dist);
if (unlikely(ref.isAABBNodeMB4D())) {
const typename BVHN<N>::AABBNodeMB4D* node1 = (const typename BVHN<N>::AABBNodeMB4D*) node;
const vbool<N> vmask = (node1->lower_t <= time) & (time < node1->upper_t);
mask &= movemask(vmask);
}
return mask;
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::QuantizedBaseNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat<N> start_x(node->start.x);
const vfloat<N> scale_x(node->scale.x);
const vfloat<N> minX = madd(node->template dequantize<N>((0*sizeof(vfloat<N>)) >> 2),scale_x,start_x);
const vfloat<N> maxX = madd(node->template dequantize<N>((1*sizeof(vfloat<N>)) >> 2),scale_x,start_x);
const vfloat<N> start_y(node->start.y);
const vfloat<N> scale_y(node->scale.y);
const vfloat<N> minY = madd(node->template dequantize<N>((2*sizeof(vfloat<N>)) >> 2),scale_y,start_y);
const vfloat<N> maxY = madd(node->template dequantize<N>((3*sizeof(vfloat<N>)) >> 2),scale_y,start_y);
const vfloat<N> start_z(node->start.z);
const vfloat<N> scale_z(node->scale.z);
const vfloat<N> minZ = madd(node->template dequantize<N>((4*sizeof(vfloat<N>)) >> 2),scale_z,start_z);
const vfloat<N> maxZ = madd(node->template dequantize<N>((5*sizeof(vfloat<N>)) >> 2),scale_z,start_z);
return pointQueryAABBDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ) & mvalid;
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat<N> minX = node->dequantizeLowerX(time);
const vfloat<N> maxX = node->dequantizeUpperX(time);
const vfloat<N> minY = node->dequantizeLowerY(time);
const vfloat<N> maxY = node->dequantizeUpperY(time);
const vfloat<N> minZ = node->dequantizeLowerZ(time);
const vfloat<N> maxZ = node->dequantizeUpperZ(time);
return pointQueryAABBDistAndMask(query, dist, minX, maxX, minY, maxY, minZ, maxZ) & mvalid;
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::OBBNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
// TODO: point query - implement
const vbool<N> vmask = vbool<N>(true);
const size_t mask = movemask(vmask) & ((1<<N)-1);
dist = vfloat<N>(0.0f);
return mask;
}
template<int N>
__forceinline size_t pointQueryNodeAABB(const typename BVHN<N>::OBBNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
// TODO: point query - implement
const vbool<N> vmask = vbool<N>(true);
const size_t mask = movemask(vmask) & ((1<<N)-1);
dist = vfloat<N>(0.0f);
return mask;
}
//////////////////////////////////////////////////////////////////////////////////////
// Fast AABBNode intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N, int Nx, bool robust>
__forceinline size_t intersectNode(const typename BVHN<N>::AABBNode* node, const TravRay<N,Nx,robust>& ray, vfloat<Nx>& dist);
template<>
__forceinline size_t intersectNode<4,4>(const typename BVH4::AABBNode* node, const TravRay<4,4,false>& ray, vfloat4& dist)
{
#if defined(__FMA_X4__)
#if defined(__aarch64__)
const vfloat4 tNearX = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearX)), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat4 tNearY = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearY)), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat4 tNearZ = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearZ)), ray.rdir.z, ray.neg_org_rdir.z);
const vfloat4 tFarX = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.farX )), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat4 tFarY = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.farY )), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat4 tFarZ = madd(vfloat4::load((float*)((const char*)&node->lower_x+ray.farZ )), ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat4 tNearX = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearX)), ray.rdir.x, ray.org_rdir.x);
const vfloat4 tNearY = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearY)), ray.rdir.y, ray.org_rdir.y);
const vfloat4 tNearZ = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.nearZ)), ray.rdir.z, ray.org_rdir.z);
const vfloat4 tFarX = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.farX )), ray.rdir.x, ray.org_rdir.x);
const vfloat4 tFarY = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.farY )), ray.rdir.y, ray.org_rdir.y);
const vfloat4 tFarZ = msub(vfloat4::load((float*)((const char*)&node->lower_x+ray.farZ )), ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat4 tNearX = (vfloat4::load((float*)((const char*)&node->lower_x+ray.nearX)) - ray.org.x) * ray.rdir.x;
const vfloat4 tNearY = (vfloat4::load((float*)((const char*)&node->lower_x+ray.nearY)) - ray.org.y) * ray.rdir.y;
const vfloat4 tNearZ = (vfloat4::load((float*)((const char*)&node->lower_x+ray.nearZ)) - ray.org.z) * ray.rdir.z;
const vfloat4 tFarX = (vfloat4::load((float*)((const char*)&node->lower_x+ray.farX )) - ray.org.x) * ray.rdir.x;
const vfloat4 tFarY = (vfloat4::load((float*)((const char*)&node->lower_x+ray.farY )) - ray.org.y) * ray.rdir.y;
const vfloat4 tFarZ = (vfloat4::load((float*)((const char*)&node->lower_x+ray.farZ )) - ray.org.z) * ray.rdir.z;
#endif
#if defined(__aarch64__)
const vfloat4 tNear = maxi(tNearX, tNearY, tNearZ, ray.tnear);
const vfloat4 tFar = mini(tFarX, tFarY, tFarZ, ray.tfar);
const vbool4 vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#elif defined(__SSE4_1__) && !defined(__AVX512F__) // up to HSW
const vfloat4 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = asInt(tNear) > asInt(tFar);
const size_t mask = movemask(vmask) ^ ((1<<4)-1);
#elif defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vfloat4 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#else
const vfloat4 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
#endif
dist = tNear;
return mask;
}
#if defined(__AVX__)
template<>
__forceinline size_t intersectNode<8,8>(const typename BVH8::AABBNode* node, const TravRay<8,8,false>& ray, vfloat8& dist)
{
#if defined(__AVX2__)
#if defined(__aarch64__)
const vfloat8 tNearX = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearX)), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat8 tNearY = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearY)), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat8 tNearZ = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearZ)), ray.rdir.z, ray.neg_org_rdir.z);
const vfloat8 tFarX = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.farX )), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat8 tFarY = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.farY )), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat8 tFarZ = madd(vfloat8::load((float*)((const char*)&node->lower_x+ray.farZ )), ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat8 tNearX = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearX)), ray.rdir.x, ray.org_rdir.x);
const vfloat8 tNearY = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearY)), ray.rdir.y, ray.org_rdir.y);
const vfloat8 tNearZ = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.nearZ)), ray.rdir.z, ray.org_rdir.z);
const vfloat8 tFarX = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.farX )), ray.rdir.x, ray.org_rdir.x);
const vfloat8 tFarY = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.farY )), ray.rdir.y, ray.org_rdir.y);
const vfloat8 tFarZ = msub(vfloat8::load((float*)((const char*)&node->lower_x+ray.farZ )), ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat8 tNearX = (vfloat8::load((float*)((const char*)&node->lower_x+ray.nearX)) - ray.org.x) * ray.rdir.x;
const vfloat8 tNearY = (vfloat8::load((float*)((const char*)&node->lower_x+ray.nearY)) - ray.org.y) * ray.rdir.y;
const vfloat8 tNearZ = (vfloat8::load((float*)((const char*)&node->lower_x+ray.nearZ)) - ray.org.z) * ray.rdir.z;
const vfloat8 tFarX = (vfloat8::load((float*)((const char*)&node->lower_x+ray.farX )) - ray.org.x) * ray.rdir.x;
const vfloat8 tFarY = (vfloat8::load((float*)((const char*)&node->lower_x+ray.farY )) - ray.org.y) * ray.rdir.y;
const vfloat8 tFarZ = (vfloat8::load((float*)((const char*)&node->lower_x+ray.farZ )) - ray.org.z) * ray.rdir.z;
#endif
#if defined(__AVX2__) && !defined(__AVX512F__) // HSW
const vfloat8 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = asInt(tNear) > asInt(tFar);
const size_t mask = movemask(vmask) ^ ((1<<8)-1);
#elif defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vfloat8 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#else
const vfloat8 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
#endif
dist = tNear;
return mask;
}
#endif
#if defined(__AVX512F__) && !defined(__AVX512VL__) // KNL
template<>
__forceinline size_t intersectNode<4,16>(const typename BVH4::AABBNode* node, const TravRay<4,16,false>& ray, vfloat16& dist)
{
const vfloat16 tNearX = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.nearX)), ray.rdir.x, ray.org_rdir.x);
const vfloat16 tNearY = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.nearY)), ray.rdir.y, ray.org_rdir.y);
const vfloat16 tNearZ = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.nearZ)), ray.rdir.z, ray.org_rdir.z);
const vfloat16 tFarX = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.farX )), ray.rdir.x, ray.org_rdir.x);
const vfloat16 tFarY = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.farY )), ray.rdir.y, ray.org_rdir.y);
const vfloat16 tFarZ = msub(vfloat16(*(vfloat4*)((const char*)&node->lower_x+ray.farZ )), ray.rdir.z, ray.org_rdir.z);
const vfloat16 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat16 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool16 vmask = le(vbool16(0xf),tNear,tFar);
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
template<>
__forceinline size_t intersectNode<8,16>(const typename BVH8::AABBNode* node, const TravRay<8,16,false>& ray, vfloat16& dist)
{
const vllong8 invalid((size_t)BVH8::emptyNode);
const vboold8 m_valid(invalid != vllong8::loadu(node->children));
const vfloat16 bminmaxX = permute(vfloat16::load((const float*)&node->lower_x), ray.permX);
const vfloat16 bminmaxY = permute(vfloat16::load((const float*)&node->lower_y), ray.permY);
const vfloat16 bminmaxZ = permute(vfloat16::load((const float*)&node->lower_z), ray.permZ);
const vfloat16 tNearFarX = msub(bminmaxX, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tNearFarY = msub(bminmaxY, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tNearFarZ = msub(bminmaxZ, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tNear = max(tNearFarX, tNearFarY, tNearFarZ, ray.tnear);
const vfloat16 tFar = min(tNearFarX, tNearFarY, tNearFarZ, ray.tfar);
const vbool16 vmask = le(vboolf16(m_valid),tNear,align_shift_right<8>(tFar, tFar));
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
#endif
//////////////////////////////////////////////////////////////////////////////////////
// Robust AABBNode intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N, int Nx>
__forceinline size_t intersectNodeRobust(const typename BVHN<N>::AABBNode* node, const TravRay<N,Nx,true>& ray, vfloat<Nx>& dist)
{
const vfloat<N> tNearX = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.nearX)) - ray.org.x) * ray.rdir_near.x;
const vfloat<N> tNearY = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.nearY)) - ray.org.y) * ray.rdir_near.y;
const vfloat<N> tNearZ = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.nearZ)) - ray.org.z) * ray.rdir_near.z;
const vfloat<N> tFarX = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.farX )) - ray.org.x) * ray.rdir_far.x;
const vfloat<N> tFarY = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.farY )) - ray.org.y) * ray.rdir_far.y;
const vfloat<N> tFarZ = (vfloat<N>::load((float*)((const char*)&node->lower_x+ray.farZ )) - ray.org.z) * ray.rdir_far.z;
const vfloat<N> tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat<N> tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool<N> vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
#if defined(__AVX512F__) && !defined(__AVX512VL__) // KNL
template<>
__forceinline size_t intersectNodeRobust<4,16>(const typename BVHN<4>::AABBNode* node, const TravRay<4,16,true>& ray, vfloat<16>& dist)
{
const vfloat16 tNearX = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.nearX)) - ray.org.x) * ray.rdir_near.x;
const vfloat16 tNearY = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.nearY)) - ray.org.y) * ray.rdir_near.y;
const vfloat16 tNearZ = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.nearZ)) - ray.org.z) * ray.rdir_near.z;
const vfloat16 tFarX = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.farX )) - ray.org.x) * ray.rdir_far.x;
const vfloat16 tFarY = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.farY )) - ray.org.y) * ray.rdir_far.y;
const vfloat16 tFarZ = (vfloat16(*(vfloat<4>*)((const char*)&node->lower_x+ray.farZ )) - ray.org.z) * ray.rdir_far.z;
const vfloat16 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat16 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool16 vmask = le((1 << 4)-1,tNear,tFar);
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
template<>
__forceinline size_t intersectNodeRobust<8,16>(const typename BVHN<8>::AABBNode* node, const TravRay<8,16,true>& ray, vfloat<16>& dist)
{
const vfloat16 tNearX = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.nearX)) - ray.org.x) * ray.rdir_near.x;
const vfloat16 tNearY = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.nearY)) - ray.org.y) * ray.rdir_near.y;
const vfloat16 tNearZ = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.nearZ)) - ray.org.z) * ray.rdir_near.z;
const vfloat16 tFarX = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.farX )) - ray.org.x) * ray.rdir_far.x;
const vfloat16 tFarY = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.farY )) - ray.org.y) * ray.rdir_far.y;
const vfloat16 tFarZ = (vfloat16(*(vfloat<8>*)((const char*)&node->lower_x+ray.farZ )) - ray.org.z) * ray.rdir_far.z;
const vfloat16 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat16 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool16 vmask = le((1 << 8)-1,tNear,tFar);
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
#endif
//////////////////////////////////////////////////////////////////////////////////////
// Fast AABBNodeMB intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
__forceinline size_t intersectNode(const typename BVHN<N>::AABBNodeMB* node, const TravRay<N,N,false>& ray, const float time, vfloat<N>& dist)
{
const vfloat<N>* pNearX = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearX);
const vfloat<N>* pNearY = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearY);
const vfloat<N>* pNearZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearZ);
const vfloat<N>* pFarX = (const vfloat<N>*)((const char*)&node->lower_x+ray.farX);
const vfloat<N>* pFarY = (const vfloat<N>*)((const char*)&node->lower_x+ray.farY);
const vfloat<N>* pFarZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.farZ);
#if defined(__FMA_X4__)
#if defined(__aarch64__)
const vfloat<N> tNearX = madd(madd(time,pNearX[6],vfloat<N>(pNearX[0])), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tNearY = madd(madd(time,pNearY[6],vfloat<N>(pNearY[0])), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tNearZ = madd(madd(time,pNearZ[6],vfloat<N>(pNearZ[0])), ray.rdir.z, ray.neg_org_rdir.z);
const vfloat<N> tFarX = madd(madd(time,pFarX [6],vfloat<N>(pFarX [0])), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tFarY = madd(madd(time,pFarY [6],vfloat<N>(pFarY [0])), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tFarZ = madd(madd(time,pFarZ [6],vfloat<N>(pFarZ [0])), ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat<N> tNearX = msub(madd(time,pNearX[6],vfloat<N>(pNearX[0])), ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tNearY = msub(madd(time,pNearY[6],vfloat<N>(pNearY[0])), ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tNearZ = msub(madd(time,pNearZ[6],vfloat<N>(pNearZ[0])), ray.rdir.z, ray.org_rdir.z);
const vfloat<N> tFarX = msub(madd(time,pFarX [6],vfloat<N>(pFarX [0])), ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tFarY = msub(madd(time,pFarY [6],vfloat<N>(pFarY [0])), ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tFarZ = msub(madd(time,pFarZ [6],vfloat<N>(pFarZ [0])), ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat<N> tNearX = (madd(time,pNearX[6],vfloat<N>(pNearX[0])) - ray.org.x) * ray.rdir.x;
const vfloat<N> tNearY = (madd(time,pNearY[6],vfloat<N>(pNearY[0])) - ray.org.y) * ray.rdir.y;
const vfloat<N> tNearZ = (madd(time,pNearZ[6],vfloat<N>(pNearZ[0])) - ray.org.z) * ray.rdir.z;
const vfloat<N> tFarX = (madd(time,pFarX [6],vfloat<N>(pFarX [0])) - ray.org.x) * ray.rdir.x;
const vfloat<N> tFarY = (madd(time,pFarY [6],vfloat<N>(pFarY [0])) - ray.org.y) * ray.rdir.y;
const vfloat<N> tFarZ = (madd(time,pFarZ [6],vfloat<N>(pFarZ [0])) - ray.org.z) * ray.rdir.z;
#endif
#if defined(__FMA_X4__) && !defined(__AVX512F__) // HSW
const vfloat<N> tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat<N> tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool<N> vmask = asInt(tNear) > asInt(tFar);
const size_t mask = movemask(vmask) ^ ((1<<N)-1);
#elif defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vfloat<N> tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat<N> tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool<N> vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#else
const vfloat<N> tNear = max(ray.tnear,tNearX,tNearY,tNearZ);
const vfloat<N> tFar = min(ray.tfar, tFarX ,tFarY ,tFarZ );
const vbool<N> vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
#endif
dist = tNear;
return mask;
}
//////////////////////////////////////////////////////////////////////////////////////
// Robust AABBNodeMB intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
__forceinline size_t intersectNodeRobust(const typename BVHN<N>::AABBNodeMB* node, const TravRay<N,N,true>& ray, const float time, vfloat<N>& dist)
{
const vfloat<N>* pNearX = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearX);
const vfloat<N>* pNearY = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearY);
const vfloat<N>* pNearZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearZ);
const vfloat<N> tNearX = (madd(time,pNearX[6],vfloat<N>(pNearX[0])) - ray.org.x) * ray.rdir_near.x;
const vfloat<N> tNearY = (madd(time,pNearY[6],vfloat<N>(pNearY[0])) - ray.org.y) * ray.rdir_near.y;
const vfloat<N> tNearZ = (madd(time,pNearZ[6],vfloat<N>(pNearZ[0])) - ray.org.z) * ray.rdir_near.z;
const vfloat<N> tNear = max(ray.tnear,tNearX,tNearY,tNearZ);
const vfloat<N>* pFarX = (const vfloat<N>*)((const char*)&node->lower_x+ray.farX);
const vfloat<N>* pFarY = (const vfloat<N>*)((const char*)&node->lower_x+ray.farY);
const vfloat<N>* pFarZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.farZ);
const vfloat<N> tFarX = (madd(time,pFarX[6],vfloat<N>(pFarX[0])) - ray.org.x) * ray.rdir_far.x;
const vfloat<N> tFarY = (madd(time,pFarY[6],vfloat<N>(pFarY[0])) - ray.org.y) * ray.rdir_far.y;
const vfloat<N> tFarZ = (madd(time,pFarZ[6],vfloat<N>(pFarZ[0])) - ray.org.z) * ray.rdir_far.z;
const vfloat<N> tFar = min(ray.tfar,tFarX,tFarY,tFarZ);
const size_t mask = movemask(tNear <= tFar);
dist = tNear;
return mask;
}
//////////////////////////////////////////////////////////////////////////////////////
// Fast AABBNodeMB4D intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
__forceinline size_t intersectNodeMB4D(const typename BVHN<N>::NodeRef ref, const TravRay<N,N,false>& ray, const float time, vfloat<N>& dist)
{
const typename BVHN<N>::AABBNodeMB* node = ref.getAABBNodeMB();
const vfloat<N>* pNearX = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearX);
const vfloat<N>* pNearY = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearY);
const vfloat<N>* pNearZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearZ);
const vfloat<N>* pFarX = (const vfloat<N>*)((const char*)&node->lower_x+ray.farX);
const vfloat<N>* pFarY = (const vfloat<N>*)((const char*)&node->lower_x+ray.farY);
const vfloat<N>* pFarZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.farZ);
#if defined (__FMA_X4__)
#if defined(__aarch64__)
const vfloat<N> tNearX = madd(madd(time,pNearX[6],vfloat<N>(pNearX[0])), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tNearY = madd(madd(time,pNearY[6],vfloat<N>(pNearY[0])), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tNearZ = madd(madd(time,pNearZ[6],vfloat<N>(pNearZ[0])), ray.rdir.z, ray.neg_org_rdir.z);
const vfloat<N> tFarX = madd(madd(time,pFarX [6],vfloat<N>(pFarX [0])), ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tFarY = madd(madd(time,pFarY [6],vfloat<N>(pFarY [0])), ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tFarZ = madd(madd(time,pFarZ [6],vfloat<N>(pFarZ [0])), ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat<N> tNearX = msub(madd(time,pNearX[6],vfloat<N>(pNearX[0])), ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tNearY = msub(madd(time,pNearY[6],vfloat<N>(pNearY[0])), ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tNearZ = msub(madd(time,pNearZ[6],vfloat<N>(pNearZ[0])), ray.rdir.z, ray.org_rdir.z);
const vfloat<N> tFarX = msub(madd(time,pFarX [6],vfloat<N>(pFarX [0])), ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tFarY = msub(madd(time,pFarY [6],vfloat<N>(pFarY [0])), ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tFarZ = msub(madd(time,pFarZ [6],vfloat<N>(pFarZ [0])), ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat<N> tNearX = (madd(time,pNearX[6],vfloat<N>(pNearX[0])) - ray.org.x) * ray.rdir.x;
const vfloat<N> tNearY = (madd(time,pNearY[6],vfloat<N>(pNearY[0])) - ray.org.y) * ray.rdir.y;
const vfloat<N> tNearZ = (madd(time,pNearZ[6],vfloat<N>(pNearZ[0])) - ray.org.z) * ray.rdir.z;
const vfloat<N> tFarX = (madd(time,pFarX [6],vfloat<N>(pFarX [0])) - ray.org.x) * ray.rdir.x;
const vfloat<N> tFarY = (madd(time,pFarY [6],vfloat<N>(pFarY [0])) - ray.org.y) * ray.rdir.y;
const vfloat<N> tFarZ = (madd(time,pFarZ [6],vfloat<N>(pFarZ [0])) - ray.org.z) * ray.rdir.z;
#endif
#if defined(__FMA_X4__) && !defined(__AVX512F__)
const vfloat<N> tNear = maxi(maxi(tNearX,tNearY),maxi(tNearZ,ray.tnear));
const vfloat<N> tFar = mini(mini(tFarX ,tFarY ),mini(tFarZ ,ray.tfar ));
#else
const vfloat<N> tNear = max(ray.tnear,tNearX,tNearY,tNearZ);
const vfloat<N> tFar = min(ray.tfar, tFarX ,tFarY ,tFarZ );
#endif
vbool<N> vmask = tNear <= tFar;
if (unlikely(ref.isAABBNodeMB4D())) {
const typename BVHN<N>::AABBNodeMB4D* node1 = (const typename BVHN<N>::AABBNodeMB4D*) node;
vmask &= (node1->lower_t <= time) & (time < node1->upper_t);
}
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
//////////////////////////////////////////////////////////////////////////////////////
// Robust AABBNodeMB4D intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N>
__forceinline size_t intersectNodeMB4DRobust(const typename BVHN<N>::NodeRef ref, const TravRay<N,N,true>& ray, const float time, vfloat<N>& dist)
{
const typename BVHN<N>::AABBNodeMB* node = ref.getAABBNodeMB();
const vfloat<N>* pNearX = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearX);
const vfloat<N>* pNearY = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearY);
const vfloat<N>* pNearZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.nearZ);
const vfloat<N> tNearX = (madd(time,pNearX[6],vfloat<N>(pNearX[0])) - ray.org.x) * ray.rdir_near.x;
const vfloat<N> tNearY = (madd(time,pNearY[6],vfloat<N>(pNearY[0])) - ray.org.y) * ray.rdir_near.y;
const vfloat<N> tNearZ = (madd(time,pNearZ[6],vfloat<N>(pNearZ[0])) - ray.org.z) * ray.rdir_near.z;
const vfloat<N> tNear = max(ray.tnear,tNearX,tNearY,tNearZ);
const vfloat<N>* pFarX = (const vfloat<N>*)((const char*)&node->lower_x+ray.farX);
const vfloat<N>* pFarY = (const vfloat<N>*)((const char*)&node->lower_x+ray.farY);
const vfloat<N>* pFarZ = (const vfloat<N>*)((const char*)&node->lower_x+ray.farZ);
const vfloat<N> tFarX = (madd(time,pFarX[6],vfloat<N>(pFarX[0])) - ray.org.x) * ray.rdir_far.x;
const vfloat<N> tFarY = (madd(time,pFarY[6],vfloat<N>(pFarY[0])) - ray.org.y) * ray.rdir_far.y;
const vfloat<N> tFarZ = (madd(time,pFarZ[6],vfloat<N>(pFarZ[0])) - ray.org.z) * ray.rdir_far.z;
const vfloat<N> tFar = min(ray.tfar,tFarX,tFarY,tFarZ);
vbool<N> vmask = tNear <= tFar;
if (unlikely(ref.isAABBNodeMB4D())) {
const typename BVHN<N>::AABBNodeMB4D* node1 = (const typename BVHN<N>::AABBNodeMB4D*) node;
vmask &= (node1->lower_t <= time) & (time < node1->upper_t);
}
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
//////////////////////////////////////////////////////////////////////////////////////
// Fast QuantizedBaseNode intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N, int Nx, bool robust>
__forceinline size_t intersectNode(const typename BVHN<N>::QuantizedBaseNode* node, const TravRay<N,Nx,robust>& ray, vfloat<Nx>& dist);
template<>
__forceinline size_t intersectNode<4,4>(const typename BVH4::QuantizedBaseNode* node, const TravRay<4,4,false>& ray, vfloat4& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat4 start_x(node->start.x);
const vfloat4 scale_x(node->scale.x);
const vfloat4 lower_x = madd(node->dequantize<4>(ray.nearX >> 2),scale_x,start_x);
const vfloat4 upper_x = madd(node->dequantize<4>(ray.farX >> 2),scale_x,start_x);
const vfloat4 start_y(node->start.y);
const vfloat4 scale_y(node->scale.y);
const vfloat4 lower_y = madd(node->dequantize<4>(ray.nearY >> 2),scale_y,start_y);
const vfloat4 upper_y = madd(node->dequantize<4>(ray.farY >> 2),scale_y,start_y);
const vfloat4 start_z(node->start.z);
const vfloat4 scale_z(node->scale.z);
const vfloat4 lower_z = madd(node->dequantize<4>(ray.nearZ >> 2),scale_z,start_z);
const vfloat4 upper_z = madd(node->dequantize<4>(ray.farZ >> 2),scale_z,start_z);
#if defined(__FMA_X4__)
#if defined(__aarch64__)
const vfloat4 tNearX = madd(lower_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat4 tNearY = madd(lower_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat4 tNearZ = madd(lower_z, ray.rdir.z, ray.neg_org_rdir.z);
const vfloat4 tFarX = madd(upper_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat4 tFarY = madd(upper_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat4 tFarZ = madd(upper_z, ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat4 tNearX = msub(lower_x, ray.rdir.x, ray.org_rdir.x);
const vfloat4 tNearY = msub(lower_y, ray.rdir.y, ray.org_rdir.y);
const vfloat4 tNearZ = msub(lower_z, ray.rdir.z, ray.org_rdir.z);
const vfloat4 tFarX = msub(upper_x, ray.rdir.x, ray.org_rdir.x);
const vfloat4 tFarY = msub(upper_y, ray.rdir.y, ray.org_rdir.y);
const vfloat4 tFarZ = msub(upper_z, ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat4 tNearX = (lower_x - ray.org.x) * ray.rdir.x;
const vfloat4 tNearY = (lower_y - ray.org.y) * ray.rdir.y;
const vfloat4 tNearZ = (lower_z - ray.org.z) * ray.rdir.z;
const vfloat4 tFarX = (upper_x - ray.org.x) * ray.rdir.x;
const vfloat4 tFarY = (upper_y - ray.org.y) * ray.rdir.y;
const vfloat4 tFarZ = (upper_z - ray.org.z) * ray.rdir.z;
#endif
#if (defined(__aarch64__) && defined(BUILD_IOS)) || defined(__SSE4_1__) && !defined(__AVX512F__) // up to HSW
const vfloat4 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = asInt(tNear) > asInt(tFar);
const size_t mask = movemask(vmask) ^ ((1<<4)-1);
#elif defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vfloat4 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#else
const vfloat4 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
#endif
dist = tNear;
return mask & mvalid;
}
template<>
__forceinline size_t intersectNode<4,4>(const typename BVH4::QuantizedBaseNode* node, const TravRay<4,4,true>& ray, vfloat4& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat4 start_x(node->start.x);
const vfloat4 scale_x(node->scale.x);
const vfloat4 lower_x = madd(node->dequantize<4>(ray.nearX >> 2),scale_x,start_x);
const vfloat4 upper_x = madd(node->dequantize<4>(ray.farX >> 2),scale_x,start_x);
const vfloat4 start_y(node->start.y);
const vfloat4 scale_y(node->scale.y);
const vfloat4 lower_y = madd(node->dequantize<4>(ray.nearY >> 2),scale_y,start_y);
const vfloat4 upper_y = madd(node->dequantize<4>(ray.farY >> 2),scale_y,start_y);
const vfloat4 start_z(node->start.z);
const vfloat4 scale_z(node->scale.z);
const vfloat4 lower_z = madd(node->dequantize<4>(ray.nearZ >> 2),scale_z,start_z);
const vfloat4 upper_z = madd(node->dequantize<4>(ray.farZ >> 2),scale_z,start_z);
const vfloat4 tNearX = (lower_x - ray.org.x) * ray.rdir_near.x;
const vfloat4 tNearY = (lower_y - ray.org.y) * ray.rdir_near.y;
const vfloat4 tNearZ = (lower_z - ray.org.z) * ray.rdir_near.z;
const vfloat4 tFarX = (upper_x - ray.org.x) * ray.rdir_far.x;
const vfloat4 tFarY = (upper_y - ray.org.y) * ray.rdir_far.y;
const vfloat4 tFarZ = (upper_z - ray.org.z) * ray.rdir_far.z;
const vfloat4 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat4 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool4 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
dist = tNear;
return mask & mvalid;
}
#if defined(__AVX__)
template<>
__forceinline size_t intersectNode<8,8>(const typename BVH8::QuantizedBaseNode* node, const TravRay<8,8,false>& ray, vfloat8& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat8 start_x(node->start.x);
const vfloat8 scale_x(node->scale.x);
const vfloat8 lower_x = madd(node->dequantize<8>(ray.nearX >> 2),scale_x,start_x);
const vfloat8 upper_x = madd(node->dequantize<8>(ray.farX >> 2),scale_x,start_x);
const vfloat8 start_y(node->start.y);
const vfloat8 scale_y(node->scale.y);
const vfloat8 lower_y = madd(node->dequantize<8>(ray.nearY >> 2),scale_y,start_y);
const vfloat8 upper_y = madd(node->dequantize<8>(ray.farY >> 2),scale_y,start_y);
const vfloat8 start_z(node->start.z);
const vfloat8 scale_z(node->scale.z);
const vfloat8 lower_z = madd(node->dequantize<8>(ray.nearZ >> 2),scale_z,start_z);
const vfloat8 upper_z = madd(node->dequantize<8>(ray.farZ >> 2),scale_z,start_z);
#if defined(__AVX2__)
#if defined(__aarch64__)
const vfloat8 tNearX = madd(lower_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat8 tNearY = madd(lower_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat8 tNearZ = madd(lower_z, ray.rdir.z, ray.neg_org_rdir.z);
const vfloat8 tFarX = madd(upper_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat8 tFarY = madd(upper_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat8 tFarZ = madd(upper_z, ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat8 tNearX = msub(lower_x, ray.rdir.x, ray.org_rdir.x);
const vfloat8 tNearY = msub(lower_y, ray.rdir.y, ray.org_rdir.y);
const vfloat8 tNearZ = msub(lower_z, ray.rdir.z, ray.org_rdir.z);
const vfloat8 tFarX = msub(upper_x, ray.rdir.x, ray.org_rdir.x);
const vfloat8 tFarY = msub(upper_y, ray.rdir.y, ray.org_rdir.y);
const vfloat8 tFarZ = msub(upper_z, ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat8 tNearX = (lower_x - ray.org.x) * ray.rdir.x;
const vfloat8 tNearY = (lower_y - ray.org.y) * ray.rdir.y;
const vfloat8 tNearZ = (lower_z - ray.org.z) * ray.rdir.z;
const vfloat8 tFarX = (upper_x - ray.org.x) * ray.rdir.x;
const vfloat8 tFarY = (upper_y - ray.org.y) * ray.rdir.y;
const vfloat8 tFarZ = (upper_z - ray.org.z) * ray.rdir.z;
#endif
#if defined(__AVX2__) && !defined(__AVX512F__) // HSW
const vfloat8 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = asInt(tNear) > asInt(tFar);
const size_t mask = movemask(vmask) ^ ((1<<8)-1);
#elif defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vfloat8 tNear = maxi(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = mini(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = asInt(tNear) <= asInt(tFar);
const size_t mask = movemask(vmask);
#else
const vfloat8 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
#endif
dist = tNear;
return mask & mvalid;
}
template<>
__forceinline size_t intersectNode<8,8>(const typename BVH8::QuantizedBaseNode* node, const TravRay<8,8,true>& ray, vfloat8& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat8 start_x(node->start.x);
const vfloat8 scale_x(node->scale.x);
const vfloat8 lower_x = madd(node->dequantize<8>(ray.nearX >> 2),scale_x,start_x);
const vfloat8 upper_x = madd(node->dequantize<8>(ray.farX >> 2),scale_x,start_x);
const vfloat8 start_y(node->start.y);
const vfloat8 scale_y(node->scale.y);
const vfloat8 lower_y = madd(node->dequantize<8>(ray.nearY >> 2),scale_y,start_y);
const vfloat8 upper_y = madd(node->dequantize<8>(ray.farY >> 2),scale_y,start_y);
const vfloat8 start_z(node->start.z);
const vfloat8 scale_z(node->scale.z);
const vfloat8 lower_z = madd(node->dequantize<8>(ray.nearZ >> 2),scale_z,start_z);
const vfloat8 upper_z = madd(node->dequantize<8>(ray.farZ >> 2),scale_z,start_z);
const vfloat8 tNearX = (lower_x - ray.org.x) * ray.rdir_near.x;
const vfloat8 tNearY = (lower_y - ray.org.y) * ray.rdir_near.y;
const vfloat8 tNearZ = (lower_z - ray.org.z) * ray.rdir_near.z;
const vfloat8 tFarX = (upper_x - ray.org.x) * ray.rdir_far.x;
const vfloat8 tFarY = (upper_y - ray.org.y) * ray.rdir_far.y;
const vfloat8 tFarZ = (upper_z - ray.org.z) * ray.rdir_far.z;
const vfloat8 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat8 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool8 vmask = tNear <= tFar;
const size_t mask = movemask(vmask);
dist = tNear;
return mask & mvalid;
}
#endif
#if defined(__AVX512F__) && !defined(__AVX512VL__) // KNL
template<>
__forceinline size_t intersectNode<4,16>(const typename BVH4::QuantizedBaseNode* node, const TravRay<4,16,false>& ray, vfloat16& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat16 start_x(node->start.x);
const vfloat16 scale_x(node->scale.x);
const vfloat16 lower_x = madd(vfloat16(node->dequantize<4>(ray.nearX >> 2)),scale_x,start_x);
const vfloat16 upper_x = madd(vfloat16(node->dequantize<4>(ray.farX >> 2)),scale_x,start_x);
const vfloat16 start_y(node->start.y);
const vfloat16 scale_y(node->scale.y);
const vfloat16 lower_y = madd(vfloat16(node->dequantize<4>(ray.nearY >> 2)),scale_y,start_y);
const vfloat16 upper_y = madd(vfloat16(node->dequantize<4>(ray.farY >> 2)),scale_y,start_y);
const vfloat16 start_z(node->start.z);
const vfloat16 scale_z(node->scale.z);
const vfloat16 lower_z = madd(vfloat16(node->dequantize<4>(ray.nearZ >> 2)),scale_z,start_z);
const vfloat16 upper_z = madd(vfloat16(node->dequantize<4>(ray.farZ >> 2)),scale_z,start_z);
const vfloat16 tNearX = msub(lower_x, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tNearY = msub(lower_y, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tNearZ = msub(lower_z, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tFarX = msub(upper_x, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tFarY = msub(upper_y, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tFarZ = msub(upper_z, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat16 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool16 vmask = le(vbool16(0xf),tNear,tFar);
const size_t mask = movemask(vmask) & mvalid;
dist = tNear;
return mask;
}
template<>
__forceinline size_t intersectNode<4,16>(const typename BVH4::QuantizedBaseNode* node, const TravRay<4,16,true>& ray, vfloat16& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat16 start_x(node->start.x);
const vfloat16 scale_x(node->scale.x);
const vfloat16 lower_x = madd(vfloat16(node->dequantize<4>(ray.nearX >> 2)),scale_x,start_x);
const vfloat16 upper_x = madd(vfloat16(node->dequantize<4>(ray.farX >> 2)),scale_x,start_x);
const vfloat16 start_y(node->start.y);
const vfloat16 scale_y(node->scale.y);
const vfloat16 lower_y = madd(vfloat16(node->dequantize<4>(ray.nearY >> 2)),scale_y,start_y);
const vfloat16 upper_y = madd(vfloat16(node->dequantize<4>(ray.farY >> 2)),scale_y,start_y);
const vfloat16 start_z(node->start.z);
const vfloat16 scale_z(node->scale.z);
const vfloat16 lower_z = madd(vfloat16(node->dequantize<4>(ray.nearZ >> 2)),scale_z,start_z);
const vfloat16 upper_z = madd(vfloat16(node->dequantize<4>(ray.farZ >> 2)),scale_z,start_z);
const vfloat16 tNearX = (lower_x - ray.org.x) * ray.rdir_near.x;
const vfloat16 tNearY = (lower_y - ray.org.y) * ray.rdir_near.y;
const vfloat16 tNearZ = (lower_z - ray.org.z) * ray.rdir_near.z;
const vfloat16 tFarX = (upper_x - ray.org.x) * ray.rdir_far.x;
const vfloat16 tFarY = (upper_y - ray.org.y) * ray.rdir_far.y;
const vfloat16 tFarZ = (upper_z - ray.org.z) * ray.rdir_far.z;
const vfloat16 tNear = max(tNearX,tNearY,tNearZ,ray.tnear);
const vfloat16 tFar = min(tFarX ,tFarY ,tFarZ ,ray.tfar);
const vbool16 vmask = le(vbool16(0xf),tNear,tFar);
const size_t mask = movemask(vmask) & mvalid;
dist = tNear;
return mask;
}
template<>
__forceinline size_t intersectNode<8,16>(const typename BVH8::QuantizedBaseNode* node, const TravRay<8,16,false>& ray, vfloat16& dist)
{
const vbool16 m_valid(node->validMask16());
const vfloat16 bminmaxX = node->dequantizeLowerUpperX(ray.permX);
const vfloat16 bminmaxY = node->dequantizeLowerUpperY(ray.permY);
const vfloat16 bminmaxZ = node->dequantizeLowerUpperZ(ray.permZ);
const vfloat16 tNearFarX = msub(bminmaxX, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tNearFarY = msub(bminmaxY, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tNearFarZ = msub(bminmaxZ, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tNear = max(tNearFarX, tNearFarY, tNearFarZ, ray.tnear);
const vfloat16 tFar = min(tNearFarX, tNearFarY, tNearFarZ, ray.tfar);
const vbool16 vmask = le(m_valid,tNear,align_shift_right<8>(tFar, tFar));
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
template<>
__forceinline size_t intersectNode<8,16>(const typename BVH8::QuantizedBaseNode* node, const TravRay<8,16,true>& ray, vfloat16& dist)
{
const vbool16 m_valid(node->validMask16());
const vfloat16 bminmaxX = node->dequantizeLowerUpperX(ray.permX);
const vfloat16 bminmaxY = node->dequantizeLowerUpperY(ray.permY);
const vfloat16 bminmaxZ = node->dequantizeLowerUpperZ(ray.permZ);
const vfloat16 tNearFarX = (bminmaxX - ray.org.x) * ray.rdir_far.x; // FIXME: this is not conservative !!!!!!!!!
const vfloat16 tNearFarY = (bminmaxY - ray.org.y) * ray.rdir_far.y;
const vfloat16 tNearFarZ = (bminmaxZ - ray.org.z) * ray.rdir_far.z;
const vfloat16 tNear = max(tNearFarX, tNearFarY, tNearFarZ, ray.tnear);
const vfloat16 tFar = min(tNearFarX, tNearFarY, tNearFarZ, ray.tfar);
const vbool16 vmask = le(m_valid,tNear,align_shift_right<8>(tFar, tFar));
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
#endif
template<int N, int Nx>
__forceinline size_t intersectNode(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravRay<N,Nx,false>& ray, const float time, vfloat<N>& dist)
{
const vboolf<N> mvalid = node->validMask();
const vfloat<N> lower_x = node->dequantizeLowerX(time);
const vfloat<N> upper_x = node->dequantizeUpperX(time);
const vfloat<N> lower_y = node->dequantizeLowerY(time);
const vfloat<N> upper_y = node->dequantizeUpperY(time);
const vfloat<N> lower_z = node->dequantizeLowerZ(time);
const vfloat<N> upper_z = node->dequantizeUpperZ(time);
#if defined(__FMA_X4__)
#if defined(__aarch64__)
const vfloat<N> tNearX = madd(lower_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tNearY = madd(lower_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tNearZ = madd(lower_z, ray.rdir.z, ray.neg_org_rdir.z);
const vfloat<N> tFarX = madd(upper_x, ray.rdir.x, ray.neg_org_rdir.x);
const vfloat<N> tFarY = madd(upper_y, ray.rdir.y, ray.neg_org_rdir.y);
const vfloat<N> tFarZ = madd(upper_z, ray.rdir.z, ray.neg_org_rdir.z);
#else
const vfloat<N> tNearX = msub(lower_x, ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tNearY = msub(lower_y, ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tNearZ = msub(lower_z, ray.rdir.z, ray.org_rdir.z);
const vfloat<N> tFarX = msub(upper_x, ray.rdir.x, ray.org_rdir.x);
const vfloat<N> tFarY = msub(upper_y, ray.rdir.y, ray.org_rdir.y);
const vfloat<N> tFarZ = msub(upper_z, ray.rdir.z, ray.org_rdir.z);
#endif
#else
const vfloat<N> tNearX = (lower_x - ray.org.x) * ray.rdir.x;
const vfloat<N> tNearY = (lower_y - ray.org.y) * ray.rdir.y;
const vfloat<N> tNearZ = (lower_z - ray.org.z) * ray.rdir.z;
const vfloat<N> tFarX = (upper_x - ray.org.x) * ray.rdir.x;
const vfloat<N> tFarY = (upper_y - ray.org.y) * ray.rdir.y;
const vfloat<N> tFarZ = (upper_z - ray.org.z) * ray.rdir.z;
#endif
const vfloat<N> tminX = mini(tNearX,tFarX);
const vfloat<N> tmaxX = maxi(tNearX,tFarX);
const vfloat<N> tminY = mini(tNearY,tFarY);
const vfloat<N> tmaxY = maxi(tNearY,tFarY);
const vfloat<N> tminZ = mini(tNearZ,tFarZ);
const vfloat<N> tmaxZ = maxi(tNearZ,tFarZ);
const vfloat<N> tNear = maxi(tminX,tminY,tminZ,ray.tnear);
const vfloat<N> tFar = mini(tmaxX,tmaxY,tmaxZ,ray.tfar);
#if defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vbool<N> vmask = le(mvalid,asInt(tNear),asInt(tFar));
#else
const vbool<N> vmask = (asInt(tNear) <= asInt(tFar)) & mvalid;
#endif
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
template<int N, int Nx>
__forceinline size_t intersectNode(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravRay<N,Nx,true>& ray, const float time, vfloat<N>& dist)
{
const vboolf<N> mvalid = node->validMask();
const vfloat<N> lower_x = node->dequantizeLowerX(time);
const vfloat<N> upper_x = node->dequantizeUpperX(time);
const vfloat<N> lower_y = node->dequantizeLowerY(time);
const vfloat<N> upper_y = node->dequantizeUpperY(time);
const vfloat<N> lower_z = node->dequantizeLowerZ(time);
const vfloat<N> upper_z = node->dequantizeUpperZ(time);
const vfloat<N> tNearX = (lower_x - ray.org.x) * ray.rdir_near.x;
const vfloat<N> tNearY = (lower_y - ray.org.y) * ray.rdir_near.y;
const vfloat<N> tNearZ = (lower_z - ray.org.z) * ray.rdir_near.z;
const vfloat<N> tFarX = (upper_x - ray.org.x) * ray.rdir_far.x;
const vfloat<N> tFarY = (upper_y - ray.org.y) * ray.rdir_far.y;
const vfloat<N> tFarZ = (upper_z - ray.org.z) * ray.rdir_far.z;
const vfloat<N> tminX = mini(tNearX,tFarX);
const vfloat<N> tmaxX = maxi(tNearX,tFarX);
const vfloat<N> tminY = mini(tNearY,tFarY);
const vfloat<N> tmaxY = maxi(tNearY,tFarY);
const vfloat<N> tminZ = mini(tNearZ,tFarZ);
const vfloat<N> tmaxZ = maxi(tNearZ,tFarZ);
const vfloat<N> tNear = maxi(tminX,tminY,tminZ,ray.tnear);
const vfloat<N> tFar = mini(tmaxX,tmaxY,tmaxZ,ray.tfar);
#if defined(__AVX512F__) && !defined(__AVX512ER__) // SKX
const vbool<N> vmask = le(mvalid,asInt(tNear),asInt(tFar));
#else
const vbool<N> vmask = (asInt(tNear) <= asInt(tFar)) & mvalid;
#endif
const size_t mask = movemask(vmask);
dist = tNear;
return mask;
}
#if defined(__AVX512ER__)
// for KNL
template<>
__forceinline size_t intersectNode<4,16>(const typename BVHN<4>::QuantizedBaseNodeMB* node, const TravRay<4,16,false>& ray, const float time, vfloat<4>& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat16 lower_x = node->dequantizeLowerX(time);
const vfloat16 upper_x = node->dequantizeUpperX(time);
const vfloat16 lower_y = node->dequantizeLowerY(time);
const vfloat16 upper_y = node->dequantizeUpperY(time);
const vfloat16 lower_z = node->dequantizeLowerZ(time);
const vfloat16 upper_z = node->dequantizeUpperZ(time);
const vfloat16 tNearX = msub(lower_x, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tNearY = msub(lower_y, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tNearZ = msub(lower_z, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tFarX = msub(upper_x, ray.rdir.x, ray.org_rdir.x);
const vfloat16 tFarY = msub(upper_y, ray.rdir.y, ray.org_rdir.y);
const vfloat16 tFarZ = msub(upper_z, ray.rdir.z, ray.org_rdir.z);
const vfloat16 tminX = min(tNearX,tFarX);
const vfloat16 tmaxX = max(tNearX,tFarX);
const vfloat16 tminY = min(tNearY,tFarY);
const vfloat16 tmaxY = max(tNearY,tFarY);
const vfloat16 tminZ = min(tNearZ,tFarZ);
const vfloat16 tmaxZ = max(tNearZ,tFarZ);
const vfloat16 tNear = max(tminX,tminY,tminZ,ray.tnear);
const vfloat16 tFar = min(tmaxX,tmaxY,tmaxZ,ray.tfar );
const vbool16 vmask = tNear <= tFar;
const size_t mask = movemask(vmask) & mvalid;
dist = extractN<4,0>(tNear);
return mask;
}
// for KNL
template<>
__forceinline size_t intersectNode<4,16>(const typename BVHN<4>::QuantizedBaseNodeMB* node, const TravRay<4,16,true>& ray, const float time, vfloat<4>& dist)
{
const size_t mvalid = movemask(node->validMask());
const vfloat16 lower_x = node->dequantizeLowerX(time);
const vfloat16 upper_x = node->dequantizeUpperX(time);
const vfloat16 lower_y = node->dequantizeLowerY(time);
const vfloat16 upper_y = node->dequantizeUpperY(time);
const vfloat16 lower_z = node->dequantizeLowerZ(time);
const vfloat16 upper_z = node->dequantizeUpperZ(time);
const vfloat16 tNearX = (lower_x - ray.org.x) * ray.rdir_near.x;
const vfloat16 tNearY = (lower_y - ray.org.y) * ray.rdir_near.y;
const vfloat16 tNearZ = (lower_z - ray.org.z) * ray.rdir_near.z;
const vfloat16 tFarX = (upper_x - ray.org.x) * ray.rdir_far.x;
const vfloat16 tFarY = (upper_y - ray.org.y) * ray.rdir_far.y;
const vfloat16 tFarZ = (upper_z - ray.org.z) * ray.rdir_far.z;
const vfloat16 tminX = min(tNearX,tFarX);
const vfloat16 tmaxX = max(tNearX,tFarX);
const vfloat16 tminY = min(tNearY,tFarY);
const vfloat16 tmaxY = max(tNearY,tFarY);
const vfloat16 tminZ = min(tNearZ,tFarZ);
const vfloat16 tmaxZ = max(tNearZ,tFarZ);
const vfloat16 tNear = max(tminX,tminY,tminZ,ray.tnear);
const vfloat16 tFar = min(tmaxX,tmaxY,tmaxZ,ray.tfar );
const vbool16 vmask = tNear <= tFar;
const size_t mask = movemask(vmask) & mvalid;
dist = extractN<4,0>(tNear);
return mask;
}
#endif
//////////////////////////////////////////////////////////////////////////////////////
// Fast OBBNode intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N, bool robust>
__forceinline size_t intersectNode(const typename BVHN<N>::OBBNode* node, const TravRay<N,N,robust>& ray, vfloat<N>& dist)
{
const Vec3vf<N> dir = xfmVector(node->naabb,ray.dir);
//const Vec3vf<N> nrdir = Vec3vf<N>(vfloat<N>(-1.0f))/dir;
const Vec3vf<N> nrdir = Vec3vf<N>(vfloat<N>(-1.0f))*rcp_safe(dir);
const Vec3vf<N> org = xfmPoint(node->naabb,ray.org);
const Vec3vf<N> tLowerXYZ = org * nrdir; // (Vec3fa(zero) - org) * rdir;
const Vec3vf<N> tUpperXYZ = tLowerXYZ - nrdir; // (Vec3fa(one ) - org) * rdir;
const vfloat<N> tNearX = mini(tLowerXYZ.x,tUpperXYZ.x);
const vfloat<N> tNearY = mini(tLowerXYZ.y,tUpperXYZ.y);
const vfloat<N> tNearZ = mini(tLowerXYZ.z,tUpperXYZ.z);
const vfloat<N> tFarX = maxi(tLowerXYZ.x,tUpperXYZ.x);
const vfloat<N> tFarY = maxi(tLowerXYZ.y,tUpperXYZ.y);
const vfloat<N> tFarZ = maxi(tLowerXYZ.z,tUpperXYZ.z);
vfloat<N> tNear = max(ray.tnear, tNearX,tNearY,tNearZ);
vfloat<N> tFar = min(ray.tfar, tFarX ,tFarY ,tFarZ );
if (robust) {
tNear = tNear*vfloat<N>(1.0f-3.0f*float(ulp));
tFar = tFar *vfloat<N>(1.0f+3.0f*float(ulp));
}
const vbool<N> vmask = tNear <= tFar;
dist = tNear;
return movemask(vmask);
}
//////////////////////////////////////////////////////////////////////////////////////
// Fast OBBNodeMB intersection
//////////////////////////////////////////////////////////////////////////////////////
template<int N, bool robust>
__forceinline size_t intersectNode(const typename BVHN<N>::OBBNodeMB* node, const TravRay<N,N,robust>& ray, const float time, vfloat<N>& dist)
{
const AffineSpace3vf<N> xfm = node->space0;
const Vec3vf<N> b0_lower = zero;
const Vec3vf<N> b0_upper = one;
const Vec3vf<N> lower = lerp(b0_lower,node->b1.lower,vfloat<N>(time));
const Vec3vf<N> upper = lerp(b0_upper,node->b1.upper,vfloat<N>(time));
const BBox3vf<N> bounds(lower,upper);
const Vec3vf<N> dir = xfmVector(xfm,ray.dir);
const Vec3vf<N> rdir = rcp_safe(dir);
const Vec3vf<N> org = xfmPoint(xfm,ray.org);
const Vec3vf<N> tLowerXYZ = (bounds.lower - org) * rdir;
const Vec3vf<N> tUpperXYZ = (bounds.upper - org) * rdir;
const vfloat<N> tNearX = mini(tLowerXYZ.x,tUpperXYZ.x);
const vfloat<N> tNearY = mini(tLowerXYZ.y,tUpperXYZ.y);
const vfloat<N> tNearZ = mini(tLowerXYZ.z,tUpperXYZ.z);
const vfloat<N> tFarX = maxi(tLowerXYZ.x,tUpperXYZ.x);
const vfloat<N> tFarY = maxi(tLowerXYZ.y,tUpperXYZ.y);
const vfloat<N> tFarZ = maxi(tLowerXYZ.z,tUpperXYZ.z);
vfloat<N> tNear = max(ray.tnear, tNearX,tNearY,tNearZ);
vfloat<N> tFar = min(ray.tfar, tFarX ,tFarY ,tFarZ );
if (robust) {
tNear = tNear*vfloat<N>(1.0f-3.0f*float(ulp));
tFar = tFar *vfloat<N>(1.0f+3.0f*float(ulp));
}
const vbool<N> vmask = tNear <= tFar;
dist = tNear;
return movemask(vmask);
}
//////////////////////////////////////////////////////////////////////////////////////
// Node intersectors used in point query raversal
//////////////////////////////////////////////////////////////////////////////////////
/*! Computes traversal information for N nodes with 1 point query */
template<int N, int types>
struct BVHNNodePointQuerySphere1;
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeSphere(node.getAABBNode(), query, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeSphere(node.getAABBNodeMB(), query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN2_AN4D>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeSphereMB4D<N>(node, query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN1_UN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (likely(node.isAABBNode())) mask = pointQueryNodeSphere(node.getAABBNode(), query, dist);
else if (unlikely(node.isOBBNode())) mask = pointQueryNodeSphere(node.ungetAABBNode(), query, dist);
else return false;
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN2_UN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (likely(node.isAABBNodeMB())) mask = pointQueryNodeSphere(node.getAABBNodeMB(), query, time, dist);
else if (unlikely(node.isOBBNodeMB())) mask = pointQueryNodeSphere(node.ungetAABBNodeMB(), query, time, dist);
else return false;
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_AN2_AN4D_UN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
if (unlikely(node.isOBBNodeMB())) mask = pointQueryNodeSphere(node.ungetAABBNodeMB(), query, time, dist);
else mask = pointQueryNodeSphereMB4D(node, query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQuerySphere1<N, BVH_QN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeSphere((const typename BVHN<N>::QuantizedNode*)node.quantizedNode(), query, dist);
return true;
}
};
template<int N>
struct BVHNQuantizedBaseNodePointQuerySphere1
{
static __forceinline size_t pointQuery(const typename BVHN<N>::QuantizedBaseNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
return pointQueryNodeSphere(node,query,dist);
}
static __forceinline size_t pointQuery(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
return pointQueryNodeSphere(node,query,time,dist);
}
};
/*! Computes traversal information for N nodes with 1 point query */
template<int N, int types>
struct BVHNNodePointQueryAABB1;
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeAABB(node.getAABBNode(), query, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeAABB(node.getAABBNodeMB(), query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN2_AN4D>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeAABBMB4D<N>(node, query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN1_UN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (likely(node.isAABBNode())) mask = pointQueryNodeAABB(node.getAABBNode(), query, dist);
else if (unlikely(node.isOBBNode())) mask = pointQueryNodeAABB(node.ungetAABBNode(), query, dist);
else return false;
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN2_UN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (likely(node.isAABBNodeMB())) mask = pointQueryNodeAABB(node.getAABBNodeMB(), query, time, dist);
else if (unlikely(node.isOBBNodeMB())) mask = pointQueryNodeAABB(node.ungetAABBNodeMB(), query, time, dist);
else return false;
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_AN2_AN4D_UN2>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
if (unlikely(node.isOBBNodeMB())) mask = pointQueryNodeAABB(node.ungetAABBNodeMB(), query, time, dist);
else mask = pointQueryNodeAABBMB4D(node, query, time, dist);
return true;
}
};
template<int N>
struct BVHNNodePointQueryAABB1<N, BVH_QN1>
{
static __forceinline bool pointQuery(const typename BVHN<N>::NodeRef& node, const TravPointQuery<N>& query, float time, vfloat<N>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = pointQueryNodeAABB((const typename BVHN<N>::QuantizedNode*)node.quantizedNode(), query, dist);
return true;
}
};
template<int N>
struct BVHNQuantizedBaseNodePointQueryAABB1
{
static __forceinline size_t pointQuery(const typename BVHN<N>::QuantizedBaseNode* node, const TravPointQuery<N>& query, vfloat<N>& dist)
{
return pointQueryNodeAABB(node,query,dist);
}
static __forceinline size_t pointQuery(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravPointQuery<N>& query, const float time, vfloat<N>& dist)
{
return pointQueryNodeAABB(node,query,time,dist);
}
};
//////////////////////////////////////////////////////////////////////////////////////
// Node intersectors used in ray traversal
//////////////////////////////////////////////////////////////////////////////////////
/*! Intersects N nodes with 1 ray */
template<int N, int Nx, int types, bool robust>
struct BVHNNodeIntersector1;
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN1, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNode(node.getAABBNode(), ray, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN1, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNodeRobust(node.getAABBNode(), ray, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNode(node.getAABBNodeMB(), ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNodeRobust(node.getAABBNodeMB(), ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_AN4D, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNodeMB4D<N>(node, ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_AN4D, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNodeMB4DRobust<N>(node, ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN1_UN1, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (likely(node.isAABBNode())) mask = intersectNode(node.getAABBNode(), ray, dist);
else if (unlikely(node.isOBBNode())) mask = intersectNode(node.ungetAABBNode(), ray, dist);
else return false;
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN1_UN1, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (likely(node.isAABBNode())) mask = intersectNodeRobust(node.getAABBNode(), ray, dist);
else if (unlikely(node.isOBBNode())) mask = intersectNode(node.ungetAABBNode(), ray, dist);
else return false;
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_UN2, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (likely(node.isAABBNodeMB())) mask = intersectNode(node.getAABBNodeMB(), ray, time, dist);
else if (unlikely(node.isOBBNodeMB())) mask = intersectNode(node.ungetAABBNodeMB(), ray, time, dist);
else return false;
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_UN2, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (likely(node.isAABBNodeMB())) mask = intersectNodeRobust(node.getAABBNodeMB(), ray, time, dist);
else if (unlikely(node.isOBBNodeMB())) mask = intersectNode(node.ungetAABBNodeMB(), ray, time, dist);
else return false;
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_AN4D_UN2, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
if (unlikely(node.isOBBNodeMB())) mask = intersectNode(node.ungetAABBNodeMB(), ray, time, dist);
else mask = intersectNodeMB4D(node, ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_AN2_AN4D_UN2, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
if (unlikely(node.isOBBNodeMB())) mask = intersectNode(node.ungetAABBNodeMB(), ray, time, dist);
else mask = intersectNodeMB4DRobust(node, ray, time, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_QN1, false>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,false>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNode((const typename BVHN<N>::QuantizedNode*)node.quantizedNode(), ray, dist);
return true;
}
};
template<int N, int Nx>
struct BVHNNodeIntersector1<N, Nx, BVH_QN1, true>
{
static __forceinline bool intersect(const typename BVHN<N>::NodeRef& node, const TravRay<N,Nx,true>& ray, float time, vfloat<Nx>& dist, size_t& mask)
{
if (unlikely(node.isLeaf())) return false;
mask = intersectNodeRobust((const typename BVHN<N>::QuantizedNode*)node.quantizedNode(), ray, dist);
return true;
}
};
/*! Intersects N nodes with K rays */
template<int N, int Nx, bool robust>
struct BVHNQuantizedBaseNodeIntersector1;
template<int N, int Nx>
struct BVHNQuantizedBaseNodeIntersector1<N, Nx, false>
{
static __forceinline size_t intersect(const typename BVHN<N>::QuantizedBaseNode* node, const TravRay<N,Nx,false>& ray, vfloat<Nx>& dist)
{
return intersectNode(node,ray,dist);
}
static __forceinline size_t intersect(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravRay<N,Nx,false>& ray, const float time, vfloat<N>& dist)
{
return intersectNode(node,ray,time,dist);
}
};
template<int N, int Nx>
struct BVHNQuantizedBaseNodeIntersector1<N, Nx, true>
{
static __forceinline size_t intersect(const typename BVHN<N>::QuantizedBaseNode* node, const TravRay<N,Nx,true>& ray, vfloat<Nx>& dist)
{
return intersectNode(node,ray,dist);
}
static __forceinline size_t intersect(const typename BVHN<N>::QuantizedBaseNodeMB* node, const TravRay<N,Nx,true>& ray, const float time, vfloat<N>& dist)
{
return intersectNode(node,ray,time,dist);
}
};
}
}
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