bf25f1ea96
number of keys in the curve, rather than curve segments with the indices of two keys. ShaderData.segment now stores the segment number in the curve.
327 lines
10 KiB
C++
327 lines
10 KiB
C++
/*
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* Adapted from code copyright 2009-2010 NVIDIA Corporation
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* Modifications Copyright 2011, Blender Foundation.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "bvh_build.h"
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#include "bvh_split.h"
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#include "bvh_sort.h"
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#include "mesh.h"
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#include "object.h"
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#include "util_algorithm.h"
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CCL_NAMESPACE_BEGIN
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/* Object Split */
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BVHObjectSplit::BVHObjectSplit(BVHBuild *builder, const BVHRange& range, float nodeSAH)
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: sah(FLT_MAX), dim(0), num_left(0), left_bounds(BoundBox::empty), right_bounds(BoundBox::empty)
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{
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const BVHReference *ref_ptr = &builder->references[range.start()];
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float min_sah = FLT_MAX;
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for(int dim = 0; dim < 3; dim++) {
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/* sort references */
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bvh_reference_sort(range.start(), range.end(), &builder->references[0], dim);
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/* sweep right to left and determine bounds. */
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BoundBox right_bounds = BoundBox::empty;
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for(int i = range.size() - 1; i > 0; i--) {
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right_bounds.grow(ref_ptr[i].bounds());
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builder->spatial_right_bounds[i - 1] = right_bounds;
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}
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/* sweep left to right and select lowest SAH. */
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BoundBox left_bounds = BoundBox::empty;
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for(int i = 1; i < range.size(); i++) {
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left_bounds.grow(ref_ptr[i - 1].bounds());
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right_bounds = builder->spatial_right_bounds[i - 1];
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float sah = nodeSAH +
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left_bounds.safe_area() * builder->params.triangle_cost(i) +
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right_bounds.safe_area() * builder->params.triangle_cost(range.size() - i);
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if(sah < min_sah) {
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min_sah = sah;
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this->sah = sah;
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this->dim = dim;
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this->num_left = i;
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this->left_bounds = left_bounds;
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this->right_bounds = right_bounds;
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}
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}
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}
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}
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void BVHObjectSplit::split(BVHBuild *builder, BVHRange& left, BVHRange& right, const BVHRange& range)
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{
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/* sort references according to split */
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bvh_reference_sort(range.start(), range.end(), &builder->references[0], this->dim);
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/* split node ranges */
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left = BVHRange(this->left_bounds, range.start(), this->num_left);
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right = BVHRange(this->right_bounds, left.end(), range.size() - this->num_left);
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}
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/* Spatial Split */
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BVHSpatialSplit::BVHSpatialSplit(BVHBuild *builder, const BVHRange& range, float nodeSAH)
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: sah(FLT_MAX), dim(0), pos(0.0f)
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{
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/* initialize bins. */
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float3 origin = range.bounds().min;
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float3 binSize = (range.bounds().max - origin) * (1.0f / (float)BVHParams::NUM_SPATIAL_BINS);
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float3 invBinSize = 1.0f / binSize;
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for(int dim = 0; dim < 3; dim++) {
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for(int i = 0; i < BVHParams::NUM_SPATIAL_BINS; i++) {
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BVHSpatialBin& bin = builder->spatial_bins[dim][i];
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bin.bounds = BoundBox::empty;
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bin.enter = 0;
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bin.exit = 0;
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}
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}
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/* chop references into bins. */
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for(unsigned int refIdx = range.start(); refIdx < range.end(); refIdx++) {
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const BVHReference& ref = builder->references[refIdx];
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float3 firstBinf = (ref.bounds().min - origin) * invBinSize;
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float3 lastBinf = (ref.bounds().max - origin) * invBinSize;
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int3 firstBin = make_int3((int)firstBinf.x, (int)firstBinf.y, (int)firstBinf.z);
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int3 lastBin = make_int3((int)lastBinf.x, (int)lastBinf.y, (int)lastBinf.z);
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firstBin = clamp(firstBin, 0, BVHParams::NUM_SPATIAL_BINS - 1);
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lastBin = clamp(lastBin, firstBin, BVHParams::NUM_SPATIAL_BINS - 1);
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for(int dim = 0; dim < 3; dim++) {
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BVHReference currRef = ref;
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for(int i = firstBin[dim]; i < lastBin[dim]; i++) {
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BVHReference leftRef, rightRef;
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split_reference(builder, leftRef, rightRef, currRef, dim, origin[dim] + binSize[dim] * (float)(i + 1));
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builder->spatial_bins[dim][i].bounds.grow(leftRef.bounds());
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currRef = rightRef;
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}
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builder->spatial_bins[dim][lastBin[dim]].bounds.grow(currRef.bounds());
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builder->spatial_bins[dim][firstBin[dim]].enter++;
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builder->spatial_bins[dim][lastBin[dim]].exit++;
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}
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}
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/* select best split plane. */
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for(int dim = 0; dim < 3; dim++) {
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/* sweep right to left and determine bounds. */
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BoundBox right_bounds = BoundBox::empty;
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for(int i = BVHParams::NUM_SPATIAL_BINS - 1; i > 0; i--) {
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right_bounds.grow(builder->spatial_bins[dim][i].bounds);
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builder->spatial_right_bounds[i - 1] = right_bounds;
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}
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/* sweep left to right and select lowest SAH. */
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BoundBox left_bounds = BoundBox::empty;
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int leftNum = 0;
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int rightNum = range.size();
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for(int i = 1; i < BVHParams::NUM_SPATIAL_BINS; i++) {
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left_bounds.grow(builder->spatial_bins[dim][i - 1].bounds);
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leftNum += builder->spatial_bins[dim][i - 1].enter;
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rightNum -= builder->spatial_bins[dim][i - 1].exit;
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float sah = nodeSAH +
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left_bounds.safe_area() * builder->params.triangle_cost(leftNum) +
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builder->spatial_right_bounds[i - 1].safe_area() * builder->params.triangle_cost(rightNum);
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if(sah < this->sah) {
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this->sah = sah;
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this->dim = dim;
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this->pos = origin[dim] + binSize[dim] * (float)i;
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}
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}
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}
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}
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void BVHSpatialSplit::split(BVHBuild *builder, BVHRange& left, BVHRange& right, const BVHRange& range)
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{
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/* Categorize references and compute bounds.
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*
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* Left-hand side: [left_start, left_end[
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* Uncategorized/split: [left_end, right_start[
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* Right-hand side: [right_start, refs.size()[ */
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vector<BVHReference>& refs = builder->references;
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int left_start = range.start();
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int left_end = left_start;
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int right_start = range.end();
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int right_end = range.end();
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BoundBox left_bounds = BoundBox::empty;
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BoundBox right_bounds = BoundBox::empty;
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for(int i = left_end; i < right_start; i++) {
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if(refs[i].bounds().max[this->dim] <= this->pos) {
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/* entirely on the left-hand side */
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left_bounds.grow(refs[i].bounds());
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swap(refs[i], refs[left_end++]);
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}
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else if(refs[i].bounds().min[this->dim] >= this->pos) {
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/* entirely on the right-hand side */
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right_bounds.grow(refs[i].bounds());
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swap(refs[i--], refs[--right_start]);
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}
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}
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/* duplicate or unsplit references intersecting both sides. */
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while(left_end < right_start) {
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/* split reference. */
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BVHReference lref, rref;
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split_reference(builder, lref, rref, refs[left_end], this->dim, this->pos);
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/* compute SAH for duplicate/unsplit candidates. */
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BoundBox lub = left_bounds; // Unsplit to left: new left-hand bounds.
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BoundBox rub = right_bounds; // Unsplit to right: new right-hand bounds.
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BoundBox ldb = left_bounds; // Duplicate: new left-hand bounds.
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BoundBox rdb = right_bounds; // Duplicate: new right-hand bounds.
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lub.grow(refs[left_end].bounds());
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rub.grow(refs[left_end].bounds());
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ldb.grow(lref.bounds());
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rdb.grow(rref.bounds());
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float lac = builder->params.triangle_cost(left_end - left_start);
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float rac = builder->params.triangle_cost(right_end - right_start);
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float lbc = builder->params.triangle_cost(left_end - left_start + 1);
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float rbc = builder->params.triangle_cost(right_end - right_start + 1);
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float unsplitLeftSAH = lub.safe_area() * lbc + right_bounds.safe_area() * rac;
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float unsplitRightSAH = left_bounds.safe_area() * lac + rub.safe_area() * rbc;
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float duplicateSAH = ldb.safe_area() * lbc + rdb.safe_area() * rbc;
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float minSAH = min(min(unsplitLeftSAH, unsplitRightSAH), duplicateSAH);
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if(minSAH == unsplitLeftSAH) {
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/* unsplit to left */
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left_bounds = lub;
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left_end++;
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}
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else if(minSAH == unsplitRightSAH) {
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/* unsplit to right */
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right_bounds = rub;
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swap(refs[left_end], refs[--right_start]);
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}
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else {
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/* duplicate */
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left_bounds = ldb;
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right_bounds = rdb;
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refs[left_end++] = lref;
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refs.insert(refs.begin() + right_end, rref);
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right_end++;
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}
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}
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left = BVHRange(left_bounds, left_start, left_end - left_start);
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right = BVHRange(right_bounds, right_start, right_end - right_start);
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}
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void BVHSpatialSplit::split_reference(BVHBuild *builder, BVHReference& left, BVHReference& right, const BVHReference& ref, int dim, float pos)
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{
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/* initialize boundboxes */
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BoundBox left_bounds = BoundBox::empty;
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BoundBox right_bounds = BoundBox::empty;
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/* loop over vertices/edges. */
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Object *ob = builder->objects[ref.prim_object()];
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const Mesh *mesh = ob->mesh;
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if (ref.prim_segment() == ~0) {
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const int *inds = mesh->triangles[ref.prim_index()].v;
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const float3 *verts = &mesh->verts[0];
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const float3* v1 = &verts[inds[2]];
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for(int i = 0; i < 3; i++) {
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const float3* v0 = v1;
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int vindex = inds[i];
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v1 = &verts[vindex];
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float v0p = (*v0)[dim];
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float v1p = (*v1)[dim];
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/* insert vertex to the boxes it belongs to. */
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if(v0p <= pos)
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left_bounds.grow(*v0);
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if(v0p >= pos)
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right_bounds.grow(*v0);
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/* edge intersects the plane => insert intersection to both boxes. */
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if((v0p < pos && v1p > pos) || (v0p > pos && v1p < pos)) {
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float3 t = lerp(*v0, *v1, clamp((pos - v0p) / (v1p - v0p), 0.0f, 1.0f));
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left_bounds.grow(t);
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right_bounds.grow(t);
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}
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}
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}
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else {
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/* curve split: NOTE - Currently ignores curve width and needs to be fixed.*/
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const int k0 = mesh->curves[ref.prim_index()].first_key + ref.prim_segment();
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const int k1 = k0 + 1;
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const float3* v0 = &mesh->curve_keys[k0].co;
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const float3* v1 = &mesh->curve_keys[k1].co;
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float v0p = (*v0)[dim];
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float v1p = (*v1)[dim];
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/* insert vertex to the boxes it belongs to. */
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if(v0p <= pos)
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left_bounds.grow(*v0);
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if(v0p >= pos)
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right_bounds.grow(*v0);
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if(v1p <= pos)
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left_bounds.grow(*v1);
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if(v1p >= pos)
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right_bounds.grow(*v1);
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/* edge intersects the plane => insert intersection to both boxes. */
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if((v0p < pos && v1p > pos) || (v0p > pos && v1p < pos)) {
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float3 t = lerp(*v0, *v1, clamp((pos - v0p) / (v1p - v0p), 0.0f, 1.0f));
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left_bounds.grow(t);
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right_bounds.grow(t);
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}
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}
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/* intersect with original bounds. */
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left_bounds.max[dim] = pos;
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right_bounds.min[dim] = pos;
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left_bounds.intersect(ref.bounds());
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right_bounds.intersect(ref.bounds());
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/* set references */
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left = BVHReference(left_bounds, ref.prim_index(), ref.prim_object(), ref.prim_segment());
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right = BVHReference(right_bounds, ref.prim_index(), ref.prim_object(), ref.prim_segment());
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}
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CCL_NAMESPACE_END
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