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
)
242 lines
9.4 KiB
C++
242 lines
9.4 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 "../common/default.h"
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#include "../common/alloc.h"
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#include "../common/accel.h"
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#include "../common/device.h"
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#include "../common/scene.h"
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#include "../geometry/primitive.h"
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#include "../common/ray.h"
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namespace embree
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{
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/* BVH node reference with bounds */
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template<typename NodeRef>
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struct BVHNodeRecord
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{
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__forceinline BVHNodeRecord() {}
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__forceinline BVHNodeRecord(NodeRef ref, const BBox3fa& bounds) : ref(ref), bounds((BBox3fx)bounds) {}
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__forceinline BVHNodeRecord(NodeRef ref, const BBox3fx& bounds) : ref(ref), bounds(bounds) {}
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NodeRef ref;
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BBox3fx bounds;
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};
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template<typename NodeRef>
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struct BVHNodeRecordMB
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{
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__forceinline BVHNodeRecordMB() {}
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__forceinline BVHNodeRecordMB(NodeRef ref, const LBBox3fa& lbounds) : ref(ref), lbounds(lbounds) {}
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NodeRef ref;
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LBBox3fa lbounds;
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};
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template<typename NodeRef>
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struct BVHNodeRecordMB4D
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{
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__forceinline BVHNodeRecordMB4D() {}
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__forceinline BVHNodeRecordMB4D(NodeRef ref, const LBBox3fa& lbounds, const BBox1f& dt) : ref(ref), lbounds(lbounds), dt(dt) {}
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NodeRef ref;
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LBBox3fa lbounds;
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BBox1f dt;
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};
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template<typename NodeRef, int N> struct BaseNode_t;
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template<typename NodeRef, int N> struct AABBNode_t;
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template<typename NodeRef, int N> struct AABBNodeMB_t;
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template<typename NodeRef, int N> struct AABBNodeMB4D_t;
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template<typename NodeRef, int N> struct OBBNode_t;
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template<typename NodeRef, int N> struct OBBNodeMB_t;
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template<typename NodeRef, int N> struct QuantizedNode_t;
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template<typename NodeRef, int N> struct QuantizedNodeMB_t;
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/*! Pointer that points to a node or a list of primitives */
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template<int N>
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struct NodeRefPtr
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{
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//template<int NN> friend class BVHN;
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/*! Number of bytes the nodes and primitives are minimally aligned to.*/
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static const size_t byteAlignment = 16;
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static const size_t byteNodeAlignment = 4*N;
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/*! highest address bit is used as barrier for some algorithms */
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static const size_t barrier_mask = (1LL << (8*sizeof(size_t)-1));
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/*! Masks the bits that store the number of items per leaf. */
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static const size_t align_mask = byteAlignment-1;
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static const size_t items_mask = byteAlignment-1;
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/*! different supported node types */
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static const size_t tyAABBNode = 0;
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static const size_t tyAABBNodeMB = 1;
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static const size_t tyAABBNodeMB4D = 6;
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static const size_t tyOBBNode = 2;
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static const size_t tyOBBNodeMB = 3;
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static const size_t tyQuantizedNode = 5;
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static const size_t tyLeaf = 8;
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/*! Empty node */
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static const size_t emptyNode = tyLeaf;
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/*! Invalid node, used as marker in traversal */
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static const size_t invalidNode = (((size_t)-1) & (~items_mask)) | (tyLeaf+0);
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static const size_t popRay = (((size_t)-1) & (~items_mask)) | (tyLeaf+1);
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/*! Maximum number of primitive blocks in a leaf. */
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static const size_t maxLeafBlocks = items_mask-tyLeaf;
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/*! Default constructor */
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__forceinline NodeRefPtr () {}
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/*! Construction from integer */
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__forceinline NodeRefPtr (size_t ptr) : ptr(ptr) {}
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/*! Cast to size_t */
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__forceinline operator size_t() const { return ptr; }
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/*! Sets the barrier bit. */
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__forceinline void setBarrier() {
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#if defined(__64BIT__)
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assert(!isBarrier());
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ptr |= barrier_mask;
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#else
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assert(false);
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#endif
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}
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/*! Clears the barrier bit. */
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__forceinline void clearBarrier() {
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#if defined(__64BIT__)
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ptr &= ~barrier_mask;
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#else
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assert(false);
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#endif
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}
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/*! Checks if this is an barrier. A barrier tells the top level tree rotations how deep to enter the tree. */
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__forceinline bool isBarrier() const { return (ptr & barrier_mask) != 0; }
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/*! checks if this is a leaf */
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__forceinline size_t isLeaf() const { return ptr & tyLeaf; }
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/*! returns node type */
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__forceinline int type() const { return ptr & (size_t)align_mask; }
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/*! checks if this is a node */
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__forceinline int isAABBNode() const { return (ptr & (size_t)align_mask) == tyAABBNode; }
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/*! checks if this is a motion blur node */
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__forceinline int isAABBNodeMB() const { return (ptr & (size_t)align_mask) == tyAABBNodeMB; }
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/*! checks if this is a 4D motion blur node */
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__forceinline int isAABBNodeMB4D() const { return (ptr & (size_t)align_mask) == tyAABBNodeMB4D; }
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/*! checks if this is a node with unaligned bounding boxes */
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__forceinline int isOBBNode() const { return (ptr & (size_t)align_mask) == tyOBBNode; }
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/*! checks if this is a motion blur node with unaligned bounding boxes */
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__forceinline int isOBBNodeMB() const { return (ptr & (size_t)align_mask) == tyOBBNodeMB; }
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/*! checks if this is a quantized node */
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__forceinline int isQuantizedNode() const { return (ptr & (size_t)align_mask) == tyQuantizedNode; }
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/*! Encodes a node */
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static __forceinline NodeRefPtr encodeNode(AABBNode_t<NodeRefPtr,N>* node) {
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assert(!((size_t)node & align_mask));
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return NodeRefPtr((size_t) node);
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}
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static __forceinline NodeRefPtr encodeNode(AABBNodeMB_t<NodeRefPtr,N>* node) {
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assert(!((size_t)node & align_mask));
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return NodeRefPtr((size_t) node | tyAABBNodeMB);
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}
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static __forceinline NodeRefPtr encodeNode(AABBNodeMB4D_t<NodeRefPtr,N>* node) {
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assert(!((size_t)node & align_mask));
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return NodeRefPtr((size_t) node | tyAABBNodeMB4D);
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}
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/*! Encodes an unaligned node */
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static __forceinline NodeRefPtr encodeNode(OBBNode_t<NodeRefPtr,N>* node) {
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return NodeRefPtr((size_t) node | tyOBBNode);
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}
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/*! Encodes an unaligned motion blur node */
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static __forceinline NodeRefPtr encodeNode(OBBNodeMB_t<NodeRefPtr,N>* node) {
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return NodeRefPtr((size_t) node | tyOBBNodeMB);
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}
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/*! Encodes a leaf */
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static __forceinline NodeRefPtr encodeLeaf(void* tri, size_t num) {
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assert(!((size_t)tri & align_mask));
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assert(num <= maxLeafBlocks);
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return NodeRefPtr((size_t)tri | (tyLeaf+min(num,(size_t)maxLeafBlocks)));
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}
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/*! Encodes a leaf */
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static __forceinline NodeRefPtr encodeTypedLeaf(void* ptr, size_t ty) {
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assert(!((size_t)ptr & align_mask));
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return NodeRefPtr((size_t)ptr | (tyLeaf+ty));
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}
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/*! returns base node pointer */
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__forceinline BaseNode_t<NodeRefPtr,N>* baseNode()
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{
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assert(!isLeaf());
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return (BaseNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask);
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}
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__forceinline const BaseNode_t<NodeRefPtr,N>* baseNode() const
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{
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assert(!isLeaf());
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return (const BaseNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask);
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}
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/*! returns node pointer */
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__forceinline AABBNode_t<NodeRefPtr,N>* getAABBNode() { assert(isAABBNode()); return ( AABBNode_t<NodeRefPtr,N>*)ptr; }
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__forceinline const AABBNode_t<NodeRefPtr,N>* getAABBNode() const { assert(isAABBNode()); return (const AABBNode_t<NodeRefPtr,N>*)ptr; }
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/*! returns motion blur node pointer */
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__forceinline AABBNodeMB_t<NodeRefPtr,N>* getAABBNodeMB() { assert(isAABBNodeMB() || isAABBNodeMB4D()); return ( AABBNodeMB_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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__forceinline const AABBNodeMB_t<NodeRefPtr,N>* getAABBNodeMB() const { assert(isAABBNodeMB() || isAABBNodeMB4D()); return (const AABBNodeMB_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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/*! returns 4D motion blur node pointer */
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__forceinline AABBNodeMB4D_t<NodeRefPtr,N>* getAABBNodeMB4D() { assert(isAABBNodeMB4D()); return ( AABBNodeMB4D_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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__forceinline const AABBNodeMB4D_t<NodeRefPtr,N>* getAABBNodeMB4D() const { assert(isAABBNodeMB4D()); return (const AABBNodeMB4D_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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/*! returns unaligned node pointer */
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__forceinline OBBNode_t<NodeRefPtr,N>* ungetAABBNode() { assert(isOBBNode()); return ( OBBNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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__forceinline const OBBNode_t<NodeRefPtr,N>* ungetAABBNode() const { assert(isOBBNode()); return (const OBBNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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/*! returns unaligned motion blur node pointer */
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__forceinline OBBNodeMB_t<NodeRefPtr,N>* ungetAABBNodeMB() { assert(isOBBNodeMB()); return ( OBBNodeMB_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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__forceinline const OBBNodeMB_t<NodeRefPtr,N>* ungetAABBNodeMB() const { assert(isOBBNodeMB()); return (const OBBNodeMB_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask); }
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/*! returns quantized node pointer */
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__forceinline QuantizedNode_t<NodeRefPtr,N>* quantizedNode() { assert(isQuantizedNode()); return ( QuantizedNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask ); }
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__forceinline const QuantizedNode_t<NodeRefPtr,N>* quantizedNode() const { assert(isQuantizedNode()); return (const QuantizedNode_t<NodeRefPtr,N>*)(ptr & ~(size_t)align_mask ); }
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/*! returns leaf pointer */
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__forceinline char* leaf(size_t& num) const {
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assert(isLeaf());
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num = (ptr & (size_t)items_mask)-tyLeaf;
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return (char*)(ptr & ~(size_t)align_mask);
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}
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/*! clear all bit flags */
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__forceinline void clearFlags() {
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ptr &= ~(size_t)align_mask;
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}
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/*! returns the wideness */
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__forceinline size_t getN() const { return N; }
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public:
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size_t ptr;
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};
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}
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