2021-05-20 12:49:33 +02:00
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// Copyright 2009-2021 Intel Corporation
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2020-12-19 14:50:20 +01:00
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// SPDX-License-Identifier: Apache-2.0
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#pragma once
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#include "priminfo.h"
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#include "../../common/algorithms/parallel_reduce.h"
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#include "../../common/algorithms/parallel_partition.h"
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namespace embree
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{
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namespace isa
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{
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/*! Performs standard object binning */
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struct HeuristicStrandSplit
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{
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typedef range<size_t> Set;
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static const size_t PARALLEL_THRESHOLD = 10000;
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static const size_t PARALLEL_FIND_BLOCK_SIZE = 4096;
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static const size_t PARALLEL_PARTITION_BLOCK_SIZE = 64;
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/*! stores all information to perform some split */
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struct Split
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{
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/*! construct an invalid split by default */
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__forceinline Split()
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: sah(inf), axis0(zero), axis1(zero) {}
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/*! constructs specified split */
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__forceinline Split(const float sah, const Vec3fa& axis0, const Vec3fa& axis1)
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: sah(sah), axis0(axis0), axis1(axis1) {}
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/*! calculates standard surface area heuristic for the split */
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__forceinline float splitSAH() const { return sah; }
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/*! test if this split is valid */
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__forceinline bool valid() const { return sah != float(inf); }
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public:
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float sah; //!< SAH cost of the split
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Vec3fa axis0, axis1; //!< axis the two strands are aligned into
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};
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__forceinline HeuristicStrandSplit () // FIXME: required?
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: scene(nullptr), prims(nullptr) {}
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/*! remember prim array */
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__forceinline HeuristicStrandSplit (Scene* scene, PrimRef* prims)
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: scene(scene), prims(prims) {}
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__forceinline const Vec3fa direction(const PrimRef& prim) {
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return scene->get(prim.geomID())->computeDirection(prim.primID());
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}
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__forceinline const BBox3fa bounds(const PrimRef& prim) {
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return scene->get(prim.geomID())->vbounds(prim.primID());
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}
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__forceinline const BBox3fa bounds(const LinearSpace3fa& space, const PrimRef& prim) {
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return scene->get(prim.geomID())->vbounds(space,prim.primID());
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}
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/*! finds the best split */
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const Split find(const range<size_t>& set, size_t logBlockSize)
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{
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Vec3fa axis0(0,0,1);
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uint64_t bestGeomPrimID = -1;
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/* curve with minimum ID determines first axis */
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for (size_t i=set.begin(); i<set.end(); i++)
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{
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const uint64_t geomprimID = prims[i].ID64();
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if (geomprimID >= bestGeomPrimID) continue;
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const Vec3fa axis = direction(prims[i]);
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if (sqr_length(axis) > 1E-18f) {
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axis0 = normalize(axis);
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bestGeomPrimID = geomprimID;
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}
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}
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/* find 2nd axis that is most misaligned with first axis and has minimum ID */
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float bestCos = 1.0f;
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Vec3fa axis1 = axis0;
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bestGeomPrimID = -1;
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for (size_t i=set.begin(); i<set.end(); i++)
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{
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const uint64_t geomprimID = prims[i].ID64();
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Vec3fa axisi = direction(prims[i]);
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float leni = length(axisi);
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if (leni == 0.0f) continue;
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axisi /= leni;
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float cos = abs(dot(axisi,axis0));
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if ((cos == bestCos && (geomprimID < bestGeomPrimID)) || cos < bestCos) {
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bestCos = cos; axis1 = axisi;
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bestGeomPrimID = geomprimID;
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}
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}
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/* partition the two strands */
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size_t lnum = 0, rnum = 0;
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BBox3fa lbounds = empty, rbounds = empty;
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const LinearSpace3fa space0 = frame(axis0).transposed();
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const LinearSpace3fa space1 = frame(axis1).transposed();
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for (size_t i=set.begin(); i<set.end(); i++)
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{
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PrimRef& prim = prims[i];
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const Vec3fa axisi = normalize(direction(prim));
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const float cos0 = abs(dot(axisi,axis0));
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const float cos1 = abs(dot(axisi,axis1));
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if (cos0 > cos1) { lnum++; lbounds.extend(bounds(space0,prim)); }
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else { rnum++; rbounds.extend(bounds(space1,prim)); }
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}
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/*! return an invalid split if we do not partition */
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if (lnum == 0 || rnum == 0)
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return Split(inf,axis0,axis1);
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/*! calculate sah for the split */
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const size_t lblocks = (lnum+(1ull<<logBlockSize)-1ull) >> logBlockSize;
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const size_t rblocks = (rnum+(1ull<<logBlockSize)-1ull) >> logBlockSize;
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const float sah = madd(float(lblocks),halfArea(lbounds),float(rblocks)*halfArea(rbounds));
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return Split(sah,axis0,axis1);
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}
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/*! array partitioning */
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void split(const Split& split, const PrimInfoRange& set, PrimInfoRange& lset, PrimInfoRange& rset)
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{
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if (!split.valid()) {
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deterministic_order(set);
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return splitFallback(set,lset,rset);
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}
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const size_t begin = set.begin();
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const size_t end = set.end();
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CentGeomBBox3fa local_left(empty);
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CentGeomBBox3fa local_right(empty);
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auto primOnLeftSide = [&] (const PrimRef& prim) -> bool {
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const Vec3fa axisi = normalize(direction(prim));
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const float cos0 = abs(dot(axisi,split.axis0));
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const float cos1 = abs(dot(axisi,split.axis1));
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return cos0 > cos1;
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};
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auto mergePrimBounds = [this] (CentGeomBBox3fa& pinfo,const PrimRef& ref) {
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pinfo.extend(bounds(ref));
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};
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size_t center = serial_partitioning(prims,begin,end,local_left,local_right,primOnLeftSide,mergePrimBounds);
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new (&lset) PrimInfoRange(begin,center,local_left);
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new (&rset) PrimInfoRange(center,end,local_right);
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assert(area(lset.geomBounds) >= 0.0f);
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assert(area(rset.geomBounds) >= 0.0f);
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}
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void deterministic_order(const Set& set)
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{
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/* required as parallel partition destroys original primitive order */
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std::sort(&prims[set.begin()],&prims[set.end()]);
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}
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void splitFallback(const Set& set, PrimInfoRange& lset, PrimInfoRange& rset)
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{
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const size_t begin = set.begin();
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const size_t end = set.end();
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const size_t center = (begin + end)/2;
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CentGeomBBox3fa left(empty);
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for (size_t i=begin; i<center; i++)
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left.extend(bounds(prims[i]));
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new (&lset) PrimInfoRange(begin,center,left);
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CentGeomBBox3fa right(empty);
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for (size_t i=center; i<end; i++)
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right.extend(bounds(prims[i]));
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new (&rset) PrimInfoRange(center,end,right);
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}
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private:
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Scene* const scene;
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PrimRef* const prims;
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};
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}
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}
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