virtualx-engine/thirdparty/embree/kernels/bvh/bvh_rotate.cpp

// Copyright 2009-2021 Intel Corporation
// SPDX-License-Identifier: Apache-2.0

#include "bvh_rotate.h"

namespace embree
{
  namespace isa 
  {
    /*! Computes half surface area of box. */
    __forceinline float halfArea3f(const BBox<vfloat4>& box) {
      const vfloat4 d = box.size();
      const vfloat4 a = d*shuffle<1,2,0,3>(d);
      return a[0]+a[1]+a[2];
    }
    
    size_t BVHNRotate<4>::rotate(NodeRef parentRef, size_t depth)
    {
      /*! nothing to rotate if we reached a leaf node. */
      if (parentRef.isBarrier()) return 0;
      if (parentRef.isLeaf()) return 0;
      AABBNode* parent = parentRef.getAABBNode();
      
      /*! rotate all children first */
      vint4 cdepth;
      for (size_t c=0; c<4; c++)
	cdepth[c] = (int)rotate(parent->child(c),depth+1);
      
      /* compute current areas of all children */
      vfloat4 sizeX = parent->upper_x-parent->lower_x;
      vfloat4 sizeY = parent->upper_y-parent->lower_y;
      vfloat4 sizeZ = parent->upper_z-parent->lower_z;
      vfloat4 childArea = madd(sizeX,(sizeY + sizeZ),sizeY*sizeZ);
      
      /*! get node bounds */
      BBox<vfloat4> child1_0,child1_1,child1_2,child1_3;
      parent->bounds(child1_0,child1_1,child1_2,child1_3);
      
      /*! Find best rotation. We pick a first child (child1) and a sub-child 
	(child2child) of a different second child (child2), and swap child1 
	and child2child. We perform the best such swap. */
      float bestArea = 0;
      size_t bestChild1 = -1, bestChild2 = -1, bestChild2Child = -1;
      for (size_t c2=0; c2<4; c2++)
      {
	/*! ignore leaf nodes as we cannot descent into them */
	if (parent->child(c2).isBarrier()) continue;
	if (parent->child(c2).isLeaf()) continue;
	AABBNode* child2 = parent->child(c2).getAABBNode();
	
	/*! transpose child bounds */
	BBox<vfloat4> child2c0,child2c1,child2c2,child2c3;
	child2->bounds(child2c0,child2c1,child2c2,child2c3);
	
	/*! put child1_0 at each child2 position */
	float cost00 = halfArea3f(merge(child1_0,child2c1,child2c2,child2c3));
	float cost01 = halfArea3f(merge(child2c0,child1_0,child2c2,child2c3));
	float cost02 = halfArea3f(merge(child2c0,child2c1,child1_0,child2c3));
	float cost03 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_0));
	vfloat4 cost0 = vfloat4(cost00,cost01,cost02,cost03);
	vfloat4 min0 = vreduce_min(cost0);
	int pos0 = (int)bsf(movemask(min0 == cost0));
	
	/*! put child1_1 at each child2 position */
	float cost10 = halfArea3f(merge(child1_1,child2c1,child2c2,child2c3));
	float cost11 = halfArea3f(merge(child2c0,child1_1,child2c2,child2c3));
	float cost12 = halfArea3f(merge(child2c0,child2c1,child1_1,child2c3));
	float cost13 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_1));
	vfloat4 cost1 = vfloat4(cost10,cost11,cost12,cost13);
	vfloat4 min1 = vreduce_min(cost1);
	int pos1 = (int)bsf(movemask(min1 == cost1));
	
	/*! put child1_2 at each child2 position */
	float cost20 = halfArea3f(merge(child1_2,child2c1,child2c2,child2c3));
	float cost21 = halfArea3f(merge(child2c0,child1_2,child2c2,child2c3));
	float cost22 = halfArea3f(merge(child2c0,child2c1,child1_2,child2c3));
	float cost23 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_2));
	vfloat4 cost2 = vfloat4(cost20,cost21,cost22,cost23);
	vfloat4 min2 = vreduce_min(cost2);
	int pos2 = (int)bsf(movemask(min2 == cost2));
	
	/*! put child1_3 at each child2 position */
	float cost30 = halfArea3f(merge(child1_3,child2c1,child2c2,child2c3));
	float cost31 = halfArea3f(merge(child2c0,child1_3,child2c2,child2c3));
	float cost32 = halfArea3f(merge(child2c0,child2c1,child1_3,child2c3));
	float cost33 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_3));
	vfloat4 cost3 = vfloat4(cost30,cost31,cost32,cost33);
	vfloat4 min3 = vreduce_min(cost3);
	int pos3 = (int)bsf(movemask(min3 == cost3));
	
	/*! find best other child */
	vfloat4 area0123 = vfloat4(extract<0>(min0),extract<0>(min1),extract<0>(min2),extract<0>(min3)) - vfloat4(childArea[c2]);
	int pos[4] = { pos0,pos1,pos2,pos3 };
	const size_t mbd = BVH4::maxBuildDepth;
	vbool4 valid = vint4(int(depth+1))+cdepth <= vint4(mbd); // only select swaps that fulfill depth constraints
	valid &= vint4(int(c2)) != vint4(step);
	if (none(valid)) continue;
	size_t c1 = select_min(valid,area0123);
	float area = area0123[c1]; 
        if (c1 == c2) continue; // can happen if bounds are NANs
	
	/*! accept a swap when it reduces cost and is not swapping a node with itself */
	if (area < bestArea) {
	  bestArea = area;
	  bestChild1 = c1;
	  bestChild2 = c2;
	  bestChild2Child = pos[c1];
	}
      }
      
      /*! if we did not find a swap that improves the SAH then do nothing */
      if (bestChild1 == size_t(-1)) return 1+reduce_max(cdepth);
      
      /*! perform the best found tree rotation */
      AABBNode* child2 = parent->child(bestChild2).getAABBNode();
      AABBNode::swap(parent,bestChild1,child2,bestChild2Child);
      parent->setBounds(bestChild2,child2->bounds());
      AABBNode::compact(parent);
      AABBNode::compact(child2);
      
      /*! This returned depth is conservative as the child that was
       *  pulled up in the tree could have been on the critical path. */
      cdepth[bestChild1]++; // bestChild1 was pushed down one level
      return 1+reduce_max(cdepth); 
    }
  }
}
Upgrade Embree to the latest official release. 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 767e374dced69b45db0afb30ca2ccf0bbbeef672) 2021-05-20 12:49:33 +02:00			`// Copyright 2009-2021 Intel Corporation`
Add Embree thirdparty library 2020-12-19 14:50:20 +01:00			`// SPDX-License-Identifier: Apache-2.0`

			`#include "bvh_rotate.h"`

			`namespace embree`
			`{`
			`namespace isa`
			`{`
			`/! Computes half surface area of box. /`
			`__forceinline float halfArea3f(const BBox<vfloat4>& box) {`
			`const vfloat4 d = box.size();`
			`const vfloat4 a = d*shuffle<1,2,0,3>(d);`
			`return a[0]+a[1]+a[2];`
			`}`

			`size_t BVHNRotate<4>::rotate(NodeRef parentRef, size_t depth)`
			`{`
			`/! nothing to rotate if we reached a leaf node. /`
			`if (parentRef.isBarrier()) return 0;`
			`if (parentRef.isLeaf()) return 0;`
			`AABBNode* parent = parentRef.getAABBNode();`

			`/! rotate all children first /`
			`vint4 cdepth;`
			`for (size_t c=0; c<4; c++)`
			`cdepth[c] = (int)rotate(parent->child(c),depth+1);`

			`/* compute current areas of all children */`
			`vfloat4 sizeX = parent->upper_x-parent->lower_x;`
			`vfloat4 sizeY = parent->upper_y-parent->lower_y;`
			`vfloat4 sizeZ = parent->upper_z-parent->lower_z;`
			`vfloat4 childArea = madd(sizeX,(sizeY + sizeZ),sizeY*sizeZ);`

			`/! get node bounds /`
			`BBox<vfloat4> child1_0,child1_1,child1_2,child1_3;`
			`parent->bounds(child1_0,child1_1,child1_2,child1_3);`

			`/*! Find best rotation. We pick a first child (child1) and a sub-child`
			`(child2child) of a different second child (child2), and swap child1`
			`and child2child. We perform the best such swap. */`
			`float bestArea = 0;`
			`size_t bestChild1 = -1, bestChild2 = -1, bestChild2Child = -1;`
			`for (size_t c2=0; c2<4; c2++)`
			`{`
			`/! ignore leaf nodes as we cannot descent into them /`
			`if (parent->child(c2).isBarrier()) continue;`
			`if (parent->child(c2).isLeaf()) continue;`
			`AABBNode* child2 = parent->child(c2).getAABBNode();`

			`/! transpose child bounds /`
			`BBox<vfloat4> child2c0,child2c1,child2c2,child2c3;`
			`child2->bounds(child2c0,child2c1,child2c2,child2c3);`

			`/! put child1_0 at each child2 position /`
			`float cost00 = halfArea3f(merge(child1_0,child2c1,child2c2,child2c3));`
			`float cost01 = halfArea3f(merge(child2c0,child1_0,child2c2,child2c3));`
			`float cost02 = halfArea3f(merge(child2c0,child2c1,child1_0,child2c3));`
			`float cost03 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_0));`
			`vfloat4 cost0 = vfloat4(cost00,cost01,cost02,cost03);`
			`vfloat4 min0 = vreduce_min(cost0);`
			`int pos0 = (int)bsf(movemask(min0 == cost0));`

			`/! put child1_1 at each child2 position /`
			`float cost10 = halfArea3f(merge(child1_1,child2c1,child2c2,child2c3));`
			`float cost11 = halfArea3f(merge(child2c0,child1_1,child2c2,child2c3));`
			`float cost12 = halfArea3f(merge(child2c0,child2c1,child1_1,child2c3));`
			`float cost13 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_1));`
			`vfloat4 cost1 = vfloat4(cost10,cost11,cost12,cost13);`
			`vfloat4 min1 = vreduce_min(cost1);`
			`int pos1 = (int)bsf(movemask(min1 == cost1));`

			`/! put child1_2 at each child2 position /`
			`float cost20 = halfArea3f(merge(child1_2,child2c1,child2c2,child2c3));`
			`float cost21 = halfArea3f(merge(child2c0,child1_2,child2c2,child2c3));`
			`float cost22 = halfArea3f(merge(child2c0,child2c1,child1_2,child2c3));`
			`float cost23 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_2));`
			`vfloat4 cost2 = vfloat4(cost20,cost21,cost22,cost23);`
			`vfloat4 min2 = vreduce_min(cost2);`
			`int pos2 = (int)bsf(movemask(min2 == cost2));`

			`/! put child1_3 at each child2 position /`
			`float cost30 = halfArea3f(merge(child1_3,child2c1,child2c2,child2c3));`
			`float cost31 = halfArea3f(merge(child2c0,child1_3,child2c2,child2c3));`
			`float cost32 = halfArea3f(merge(child2c0,child2c1,child1_3,child2c3));`
			`float cost33 = halfArea3f(merge(child2c0,child2c1,child2c2,child1_3));`
			`vfloat4 cost3 = vfloat4(cost30,cost31,cost32,cost33);`
			`vfloat4 min3 = vreduce_min(cost3);`
			`int pos3 = (int)bsf(movemask(min3 == cost3));`

			`/! find best other child /`
			`vfloat4 area0123 = vfloat4(extract<0>(min0),extract<0>(min1),extract<0>(min2),extract<0>(min3)) - vfloat4(childArea[c2]);`
			`int pos[4] = { pos0,pos1,pos2,pos3 };`
			`const size_t mbd = BVH4::maxBuildDepth;`
			`vbool4 valid = vint4(int(depth+1))+cdepth <= vint4(mbd); // only select swaps that fulfill depth constraints`
			`valid &= vint4(int(c2)) != vint4(step);`
			`if (none(valid)) continue;`
			`size_t c1 = select_min(valid,area0123);`
			`float area = area0123[c1];`
			`if (c1 == c2) continue; // can happen if bounds are NANs`

			`/! accept a swap when it reduces cost and is not swapping a node with itself /`
			`if (area < bestArea) {`
			`bestArea = area;`
			`bestChild1 = c1;`
			`bestChild2 = c2;`
			`bestChild2Child = pos[c1];`
			`}`
			`}`

			`/! if we did not find a swap that improves the SAH then do nothing /`
			`if (bestChild1 == size_t(-1)) return 1+reduce_max(cdepth);`

			`/! perform the best found tree rotation /`
			`AABBNode* child2 = parent->child(bestChild2).getAABBNode();`
			`AABBNode::swap(parent,bestChild1,child2,bestChild2Child);`
			`parent->setBounds(bestChild2,child2->bounds());`
			`AABBNode::compact(parent);`
			`AABBNode::compact(child2);`

			`/*! This returned depth is conservative as the child that was`
			`* pulled up in the tree could have been on the critical path. */`
			`cdepth[bestChild1]++; // bestChild1 was pushed down one level`
			`return 1+reduce_max(cdepth);`
			`}`
			`}`
			`}`