a69cc9f13d
Since Embree v3.13.0 supports AARCH64, switch back to the
official repo instead of using Embree-aarch64.
`thirdparty/embree/patches/godot-changes.patch` should now contain
an accurate diff of the changes done to the library.
(cherry picked from commit 767e374dce
)
214 lines
7.5 KiB
C++
214 lines
7.5 KiB
C++
// Copyright 2009-2021 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
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#pragma once
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#include "bvh_node_base.h"
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namespace embree
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{
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/*! BVHN AABBNode */
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template<typename NodeRef, int N>
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struct AABBNode_t : public BaseNode_t<NodeRef, N>
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{
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using BaseNode_t<NodeRef,N>::children;
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struct Create
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{
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__forceinline NodeRef operator() (const FastAllocator::CachedAllocator& alloc, size_t numChildren = 0) const
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{
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AABBNode_t* node = (AABBNode_t*) alloc.malloc0(sizeof(AABBNode_t),NodeRef::byteNodeAlignment); node->clear();
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return NodeRef::encodeNode(node);
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}
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};
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struct Set
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{
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__forceinline void operator() (NodeRef node, size_t i, NodeRef child, const BBox3fa& bounds) const {
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node.getAABBNode()->setRef(i,child);
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node.getAABBNode()->setBounds(i,bounds);
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}
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};
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struct Create2
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{
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template<typename BuildRecord>
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__forceinline NodeRef operator() (BuildRecord* children, const size_t num, const FastAllocator::CachedAllocator& alloc) const
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{
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AABBNode_t* node = (AABBNode_t*) alloc.malloc0(sizeof(AABBNode_t), NodeRef::byteNodeAlignment); node->clear();
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for (size_t i=0; i<num; i++) node->setBounds(i,children[i].bounds());
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return NodeRef::encodeNode(node);
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}
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};
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struct Set2
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{
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template<typename BuildRecord>
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__forceinline NodeRef operator() (const BuildRecord& precord, const BuildRecord* crecords, NodeRef ref, NodeRef* children, const size_t num) const
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{
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AABBNode_t* node = ref.getAABBNode();
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for (size_t i=0; i<num; i++) node->setRef(i,children[i]);
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return ref;
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}
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};
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struct Set3
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{
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Set3 (FastAllocator* allocator, PrimRef* prims)
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: allocator(allocator), prims(prims) {}
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template<typename BuildRecord>
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__forceinline NodeRef operator() (const BuildRecord& precord, const BuildRecord* crecords, NodeRef ref, NodeRef* children, const size_t num) const
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{
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AABBNode_t* node = ref.getAABBNode();
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for (size_t i=0; i<num; i++) node->setRef(i,children[i]);
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if (unlikely(precord.alloc_barrier))
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{
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PrimRef* begin = &prims[precord.prims.begin()];
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PrimRef* end = &prims[precord.prims.end()]; // FIXME: extended end for spatial split builder!!!!!
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size_t bytes = (size_t)end - (size_t)begin;
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allocator->addBlock(begin,bytes);
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}
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return ref;
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}
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FastAllocator* const allocator;
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PrimRef* const prims;
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};
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/*! Clears the node. */
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__forceinline void clear() {
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lower_x = lower_y = lower_z = pos_inf;
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upper_x = upper_y = upper_z = neg_inf;
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BaseNode_t<NodeRef,N>::clear();
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}
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/*! Sets bounding box and ID of child. */
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__forceinline void setRef(size_t i, const NodeRef& ref) {
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assert(i < N);
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children[i] = ref;
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}
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/*! Sets bounding box of child. */
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__forceinline void setBounds(size_t i, const BBox3fa& bounds)
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{
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assert(i < N);
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lower_x[i] = bounds.lower.x; lower_y[i] = bounds.lower.y; lower_z[i] = bounds.lower.z;
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upper_x[i] = bounds.upper.x; upper_y[i] = bounds.upper.y; upper_z[i] = bounds.upper.z;
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}
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/*! Sets bounding box and ID of child. */
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__forceinline void set(size_t i, const NodeRef& ref, const BBox3fa& bounds) {
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setBounds(i,bounds);
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children[i] = ref;
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}
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/*! Returns bounds of node. */
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__forceinline BBox3fa bounds() const {
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const Vec3fa lower(reduce_min(lower_x),reduce_min(lower_y),reduce_min(lower_z));
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const Vec3fa upper(reduce_max(upper_x),reduce_max(upper_y),reduce_max(upper_z));
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return BBox3fa(lower,upper);
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}
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/*! Returns bounds of specified child. */
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__forceinline BBox3fa bounds(size_t i) const
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{
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assert(i < N);
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const Vec3fa lower(lower_x[i],lower_y[i],lower_z[i]);
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const Vec3fa upper(upper_x[i],upper_y[i],upper_z[i]);
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return BBox3fa(lower,upper);
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}
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/*! Returns extent of bounds of specified child. */
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__forceinline Vec3fa extend(size_t i) const {
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return bounds(i).size();
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}
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/*! Returns bounds of all children (implemented later as specializations) */
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__forceinline void bounds(BBox<vfloat4>& bounds0, BBox<vfloat4>& bounds1, BBox<vfloat4>& bounds2, BBox<vfloat4>& bounds3) const;
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/*! swap two children of the node */
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__forceinline void swap(size_t i, size_t j)
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{
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assert(i<N && j<N);
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std::swap(children[i],children[j]);
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std::swap(lower_x[i],lower_x[j]);
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std::swap(lower_y[i],lower_y[j]);
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std::swap(lower_z[i],lower_z[j]);
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std::swap(upper_x[i],upper_x[j]);
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std::swap(upper_y[i],upper_y[j]);
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std::swap(upper_z[i],upper_z[j]);
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}
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/*! swap the children of two nodes */
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__forceinline static void swap(AABBNode_t* a, size_t i, AABBNode_t* b, size_t j)
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{
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assert(i<N && j<N);
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std::swap(a->children[i],b->children[j]);
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std::swap(a->lower_x[i],b->lower_x[j]);
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std::swap(a->lower_y[i],b->lower_y[j]);
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std::swap(a->lower_z[i],b->lower_z[j]);
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std::swap(a->upper_x[i],b->upper_x[j]);
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std::swap(a->upper_y[i],b->upper_y[j]);
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std::swap(a->upper_z[i],b->upper_z[j]);
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}
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/*! compacts a node (moves empty children to the end) */
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__forceinline static void compact(AABBNode_t* a)
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{
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/* find right most filled node */
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ssize_t j=N;
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for (j=j-1; j>=0; j--)
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if (a->child(j) != NodeRef::emptyNode)
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break;
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/* replace empty nodes with filled nodes */
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for (ssize_t i=0; i<j; i++) {
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if (a->child(i) == NodeRef::emptyNode) {
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a->swap(i,j);
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for (j=j-1; j>i; j--)
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if (a->child(j) != NodeRef::emptyNode)
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break;
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}
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}
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}
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/*! Returns reference to specified child */
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__forceinline NodeRef& child(size_t i) { assert(i<N); return children[i]; }
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__forceinline const NodeRef& child(size_t i) const { assert(i<N); return children[i]; }
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/*! output operator */
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friend embree_ostream operator<<(embree_ostream o, const AABBNode_t& n)
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{
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o << "AABBNode { " << embree_endl;
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o << " lower_x " << n.lower_x << embree_endl;
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o << " upper_x " << n.upper_x << embree_endl;
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o << " lower_y " << n.lower_y << embree_endl;
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o << " upper_y " << n.upper_y << embree_endl;
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o << " lower_z " << n.lower_z << embree_endl;
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o << " upper_z " << n.upper_z << embree_endl;
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o << " children = ";
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for (size_t i=0; i<N; i++) o << n.children[i] << " ";
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o << embree_endl;
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o << "}" << embree_endl;
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return o;
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}
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public:
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vfloat<N> lower_x; //!< X dimension of lower bounds of all N children.
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vfloat<N> upper_x; //!< X dimension of upper bounds of all N children.
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vfloat<N> lower_y; //!< Y dimension of lower bounds of all N children.
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vfloat<N> upper_y; //!< Y dimension of upper bounds of all N children.
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vfloat<N> lower_z; //!< Z dimension of lower bounds of all N children.
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vfloat<N> upper_z; //!< Z dimension of upper bounds of all N children.
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};
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template<>
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__forceinline void AABBNode_t<NodeRefPtr<4>,4>::bounds(BBox<vfloat4>& bounds0, BBox<vfloat4>& bounds1, BBox<vfloat4>& bounds2, BBox<vfloat4>& bounds3) const {
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transpose(lower_x,lower_y,lower_z,vfloat4(zero),bounds0.lower,bounds1.lower,bounds2.lower,bounds3.lower);
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transpose(upper_x,upper_y,upper_z,vfloat4(zero),bounds0.upper,bounds1.upper,bounds2.upper,bounds3.upper);
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}
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}
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