378 lines
14 KiB
C++
378 lines
14 KiB
C++
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// Copyright 2009-2020 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
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#include "bvh_builder_twolevel.h"
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#include "bvh_statistics.h"
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#include "../builders/bvh_builder_sah.h"
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#include "../common/scene_line_segments.h"
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#include "../common/scene_triangle_mesh.h"
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#include "../common/scene_quad_mesh.h"
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#define PROFILE 0
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namespace embree
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{
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namespace isa
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{
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template<int N, typename Mesh, typename Primitive>
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BVHNBuilderTwoLevel<N,Mesh,Primitive>::BVHNBuilderTwoLevel (BVH* bvh, Scene* scene, Geometry::GTypeMask gtype, bool useMortonBuilder, const size_t singleThreadThreshold)
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: bvh(bvh), scene(scene), refs(scene->device,0), prims(scene->device,0), singleThreadThreshold(singleThreadThreshold), gtype(gtype), useMortonBuilder_(useMortonBuilder) {}
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template<int N, typename Mesh, typename Primitive>
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BVHNBuilderTwoLevel<N,Mesh,Primitive>::~BVHNBuilderTwoLevel () {
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}
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// ===========================================================================
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// ===========================================================================
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// ===========================================================================
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::build()
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{
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/* delete some objects */
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size_t num = scene->size();
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if (num < bvh->objects.size()) {
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parallel_for(num, bvh->objects.size(), [&] (const range<size_t>& r) {
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for (size_t i=r.begin(); i<r.end(); i++) {
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builders[i].reset();
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delete bvh->objects[i]; bvh->objects[i] = nullptr;
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}
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});
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}
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#if PROFILE
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while(1)
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#endif
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{
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/* reset memory allocator */
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bvh->alloc.reset();
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/* skip build for empty scene */
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const size_t numPrimitives = scene->getNumPrimitives(gtype,false);
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if (numPrimitives == 0) {
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prims.resize(0);
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bvh->set(BVH::emptyNode,empty,0);
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return;
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}
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/* calculate the size of the entire BVH */
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const size_t numLeafBlocks = Primitive::blocks(numPrimitives);
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const size_t node_bytes = 2*numLeafBlocks*sizeof(typename BVH::AABBNode)/N;
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const size_t leaf_bytes = size_t(1.2*numLeafBlocks*sizeof(Primitive));
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bvh->alloc.init_estimate(node_bytes+leaf_bytes);
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double t0 = bvh->preBuild(TOSTRING(isa) "::BVH" + toString(N) + "BuilderTwoLevel");
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/* resize object array if scene got larger */
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if (bvh->objects.size() < num) bvh->objects.resize(num);
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if (builders.size() < num) builders.resize(num);
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resizeRefsList ();
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nextRef.store(0);
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/* create acceleration structures */
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parallel_for(size_t(0), num, [&] (const range<size_t>& r)
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{
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for (size_t objectID=r.begin(); objectID<r.end(); objectID++)
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{
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Mesh* mesh = scene->getSafe<Mesh>(objectID);
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/* ignore meshes we do not support */
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if (mesh == nullptr || mesh->numTimeSteps != 1)
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continue;
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if (isSmallGeometry(mesh)) {
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setupSmallBuildRefBuilder (objectID, mesh);
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} else {
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setupLargeBuildRefBuilder (objectID, mesh);
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}
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}
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});
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/* parallel build of acceleration structures */
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parallel_for(size_t(0), num, [&] (const range<size_t>& r)
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{
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for (size_t objectID=r.begin(); objectID<r.end(); objectID++)
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{
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/* ignore if no triangle mesh or not enabled */
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Mesh* mesh = scene->getSafe<Mesh>(objectID);
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if (mesh == nullptr || !mesh->isEnabled() || mesh->numTimeSteps != 1)
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continue;
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builders[objectID]->attachBuildRefs (this);
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}
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});
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#if PROFILE
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double d0 = getSeconds();
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#endif
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/* fast path for single geometry scenes */
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if (nextRef == 1) {
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bvh->set(refs[0].node,LBBox3fa(refs[0].bounds()),numPrimitives);
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}
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else
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{
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/* open all large nodes */
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refs.resize(nextRef);
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/* this probably needs some more tuning */
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const size_t extSize = max(max((size_t)SPLIT_MIN_EXT_SPACE,refs.size()*SPLIT_MEMORY_RESERVE_SCALE),size_t((float)numPrimitives / SPLIT_MEMORY_RESERVE_FACTOR));
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#if !ENABLE_DIRECT_SAH_MERGE_BUILDER
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#if ENABLE_OPEN_SEQUENTIAL
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open_sequential(extSize);
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#endif
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/* compute PrimRefs */
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prims.resize(refs.size());
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#endif
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#if defined(TASKING_TBB) && defined(__AVX512ER__) && USE_TASK_ARENA // KNL
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tbb::task_arena limited(min(32,(int)TaskScheduler::threadCount()));
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limited.execute([&]
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#endif
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{
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#if ENABLE_DIRECT_SAH_MERGE_BUILDER
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const PrimInfo pinfo = parallel_reduce(size_t(0), refs.size(), PrimInfo(empty), [&] (const range<size_t>& r) -> PrimInfo {
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PrimInfo pinfo(empty);
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for (size_t i=r.begin(); i<r.end(); i++) {
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pinfo.add_center2(refs[i]);
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}
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return pinfo;
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}, [] (const PrimInfo& a, const PrimInfo& b) { return PrimInfo::merge(a,b); });
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#else
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const PrimInfo pinfo = parallel_reduce(size_t(0), refs.size(), PrimInfo(empty), [&] (const range<size_t>& r) -> PrimInfo {
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PrimInfo pinfo(empty);
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for (size_t i=r.begin(); i<r.end(); i++) {
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pinfo.add_center2(refs[i]);
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prims[i] = PrimRef(refs[i].bounds(),(size_t)refs[i].node);
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}
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return pinfo;
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}, [] (const PrimInfo& a, const PrimInfo& b) { return PrimInfo::merge(a,b); });
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#endif
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/* skip if all objects where empty */
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if (pinfo.size() == 0)
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bvh->set(BVH::emptyNode,empty,0);
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/* otherwise build toplevel hierarchy */
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else
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{
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/* settings for BVH build */
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GeneralBVHBuilder::Settings settings;
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settings.branchingFactor = N;
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settings.maxDepth = BVH::maxBuildDepthLeaf;
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settings.logBlockSize = bsr(N);
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settings.minLeafSize = 1;
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settings.maxLeafSize = 1;
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settings.travCost = 1.0f;
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settings.intCost = 1.0f;
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settings.singleThreadThreshold = singleThreadThreshold;
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#if ENABLE_DIRECT_SAH_MERGE_BUILDER
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refs.resize(extSize);
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NodeRef root = BVHBuilderBinnedOpenMergeSAH::build<NodeRef,BuildRef>(
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typename BVH::CreateAlloc(bvh),
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typename BVH::AABBNode::Create2(),
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typename BVH::AABBNode::Set2(),
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[&] (const BuildRef* refs, const range<size_t>& range, const FastAllocator::CachedAllocator& alloc) -> NodeRef {
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assert(range.size() == 1);
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return (NodeRef) refs[range.begin()].node;
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},
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[&] (BuildRef &bref, BuildRef *refs) -> size_t {
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return openBuildRef(bref,refs);
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},
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[&] (size_t dn) { bvh->scene->progressMonitor(0); },
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refs.data(),extSize,pinfo,settings);
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#else
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NodeRef root = BVHBuilderBinnedSAH::build<NodeRef>(
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typename BVH::CreateAlloc(bvh),
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typename BVH::AABBNode::Create2(),
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typename BVH::AABBNode::Set2(),
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[&] (const PrimRef* prims, const range<size_t>& range, const FastAllocator::CachedAllocator& alloc) -> NodeRef {
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assert(range.size() == 1);
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return (NodeRef) prims[range.begin()].ID();
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},
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[&] (size_t dn) { bvh->scene->progressMonitor(0); },
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prims.data(),pinfo,settings);
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#endif
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bvh->set(root,LBBox3fa(pinfo.geomBounds),numPrimitives);
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}
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}
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#if defined(TASKING_TBB) && defined(__AVX512ER__) && USE_TASK_ARENA // KNL
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);
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#endif
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}
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bvh->alloc.cleanup();
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bvh->postBuild(t0);
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#if PROFILE
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double d1 = getSeconds();
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std::cout << "TOP_LEVEL OPENING/REBUILD TIME " << 1000.0*(d1-d0) << " ms" << std::endl;
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#endif
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}
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}
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::deleteGeometry(size_t geomID)
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{
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if (geomID >= bvh->objects.size()) return;
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if (builders[geomID]) builders[geomID].reset();
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delete bvh->objects [geomID]; bvh->objects [geomID] = nullptr;
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}
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::clear()
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{
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for (size_t i=0; i<bvh->objects.size(); i++)
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if (bvh->objects[i]) bvh->objects[i]->clear();
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for (size_t i=0; i<builders.size(); i++)
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if (builders[i]) builders[i].reset();
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refs.clear();
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}
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::open_sequential(const size_t extSize)
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{
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if (refs.size() == 0)
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return;
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refs.reserve(extSize);
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#if 1
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for (size_t i=0;i<refs.size();i++)
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{
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NodeRef ref = refs[i].node;
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if (ref.isAABBNode())
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BVH::prefetch(ref);
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}
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#endif
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std::make_heap(refs.begin(),refs.end());
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while (refs.size()+N-1 <= extSize)
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{
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std::pop_heap (refs.begin(),refs.end());
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NodeRef ref = refs.back().node;
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if (ref.isLeaf()) break;
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refs.pop_back();
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AABBNode* node = ref.getAABBNode();
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for (size_t i=0; i<N; i++) {
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if (node->child(i) == BVH::emptyNode) continue;
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refs.push_back(BuildRef(node->bounds(i),node->child(i)));
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#if 1
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NodeRef ref_pre = node->child(i);
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if (ref_pre.isAABBNode())
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ref_pre.prefetch();
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#endif
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std::push_heap (refs.begin(),refs.end());
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}
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}
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}
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::setupSmallBuildRefBuilder (size_t objectID, Mesh const * const /*mesh*/)
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{
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if (builders[objectID] == nullptr || // new mesh
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dynamic_cast<RefBuilderSmall*>(builders[objectID].get()) == nullptr) // size change resulted in large->small change
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{
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builders[objectID].reset (new RefBuilderSmall(objectID));
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}
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}
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template<int N, typename Mesh, typename Primitive>
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void BVHNBuilderTwoLevel<N,Mesh,Primitive>::setupLargeBuildRefBuilder (size_t objectID, Mesh const * const mesh)
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{
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if (bvh->objects[objectID] == nullptr || // new mesh
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builders[objectID]->meshQualityChanged (mesh->quality) || // changed build quality
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dynamic_cast<RefBuilderLarge*>(builders[objectID].get()) == nullptr) // size change resulted in small->large change
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{
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Builder* builder = nullptr;
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delete bvh->objects[objectID];
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createMeshAccel(objectID, builder);
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builders[objectID].reset (new RefBuilderLarge(objectID, builder, mesh->quality));
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}
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}
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#if defined(EMBREE_GEOMETRY_TRIANGLE)
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Builder* BVH4BuilderTwoLevelTriangle4MeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,TriangleMesh,Triangle4>((BVH4*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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Builder* BVH4BuilderTwoLevelTriangle4vMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,TriangleMesh,Triangle4v>((BVH4*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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Builder* BVH4BuilderTwoLevelTriangle4iMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,TriangleMesh,Triangle4i>((BVH4*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_QUAD)
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Builder* BVH4BuilderTwoLevelQuadMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,QuadMesh,Quad4v>((BVH4*)bvh,scene,QuadMesh::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_USER)
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Builder* BVH4BuilderTwoLevelVirtualSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,UserGeometry,Object>((BVH4*)bvh,scene,UserGeometry::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_INSTANCE)
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Builder* BVH4BuilderTwoLevelInstanceSAH (void* bvh, Scene* scene, Geometry::GTypeMask gtype, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<4,Instance,InstancePrimitive>((BVH4*)bvh,scene,gtype,useMortonBuilder);
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}
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#endif
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#if defined(__AVX__)
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#if defined(EMBREE_GEOMETRY_TRIANGLE)
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Builder* BVH8BuilderTwoLevelTriangle4MeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,TriangleMesh,Triangle4>((BVH8*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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Builder* BVH8BuilderTwoLevelTriangle4vMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,TriangleMesh,Triangle4v>((BVH8*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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Builder* BVH8BuilderTwoLevelTriangle4iMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,TriangleMesh,Triangle4i>((BVH8*)bvh,scene,TriangleMesh::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_QUAD)
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Builder* BVH8BuilderTwoLevelQuadMeshSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,QuadMesh,Quad4v>((BVH8*)bvh,scene,QuadMesh::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_USER)
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Builder* BVH8BuilderTwoLevelVirtualSAH (void* bvh, Scene* scene, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,UserGeometry,Object>((BVH8*)bvh,scene,UserGeometry::geom_type,useMortonBuilder);
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}
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#endif
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#if defined(EMBREE_GEOMETRY_INSTANCE)
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Builder* BVH8BuilderTwoLevelInstanceSAH (void* bvh, Scene* scene, Geometry::GTypeMask gtype, bool useMortonBuilder) {
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return new BVHNBuilderTwoLevel<8,Instance,InstancePrimitive>((BVH8*)bvh,scene,gtype,useMortonBuilder);
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}
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#endif
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#endif
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}
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}
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