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// Copyright 2009-2021 Intel Corporation
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// SPDX-License-Identifier: Apache-2.0
# include "bvh.h"
# include "bvh_statistics.h"
namespace embree
{
template < int N >
BVHN < N > : : BVHN ( const PrimitiveType & primTy , Scene * scene )
: AccelData ( ( N = = 4 ) ? AccelData : : TY_BVH4 : ( N = = 8 ) ? AccelData : : TY_BVH8 : AccelData : : TY_UNKNOWN ) ,
primTy ( & primTy ) , device ( scene - > device ) , scene ( scene ) ,
root ( emptyNode ) , alloc ( scene - > device , scene - > isStaticAccel ( ) ) , numPrimitives ( 0 ) , numVertices ( 0 )
{
}
template < int N >
BVHN < N > : : ~ BVHN ( )
{
for ( size_t i = 0 ; i < objects . size ( ) ; i + + )
delete objects [ i ] ;
}
template < int N >
void BVHN < N > : : clear ( )
{
set ( BVHN : : emptyNode , empty , 0 ) ;
alloc . clear ( ) ;
}
template < int N >
void BVHN < N > : : set ( NodeRef root , const LBBox3fa & bounds , size_t numPrimitives )
{
this - > root = root ;
this - > bounds = bounds ;
this - > numPrimitives = numPrimitives ;
}
template < int N >
void BVHN < N > : : clearBarrier ( NodeRef & node )
{
if ( node . isBarrier ( ) )
node . clearBarrier ( ) ;
else if ( ! node . isLeaf ( ) ) {
BaseNode * n = node . baseNode ( ) ; // FIXME: flags should be stored in BVH
for ( size_t c = 0 ; c < N ; c + + )
clearBarrier ( n - > child ( c ) ) ;
}
}
template < int N >
void BVHN < N > : : layoutLargeNodes ( size_t num )
{
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# if defined(__64BIT__) // do not use tree rotations on 32 bit platforms, barrier bit in NodeRef will cause issues
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struct NodeArea
{
__forceinline NodeArea ( ) { }
__forceinline NodeArea ( NodeRef & node , const BBox3fa & bounds )
: node ( & node ) , A ( node . isLeaf ( ) ? float ( neg_inf ) : area ( bounds ) ) { }
__forceinline bool operator < ( const NodeArea & other ) const {
return this - > A < other . A ;
}
NodeRef * node ;
float A ;
} ;
std : : vector < NodeArea > lst ;
lst . reserve ( num ) ;
lst . push_back ( NodeArea ( root , empty ) ) ;
while ( lst . size ( ) < num )
{
std : : pop_heap ( lst . begin ( ) , lst . end ( ) ) ;
NodeArea n = lst . back ( ) ; lst . pop_back ( ) ;
if ( ! n . node - > isAABBNode ( ) ) break ;
AABBNode * node = n . node - > getAABBNode ( ) ;
for ( size_t i = 0 ; i < N ; i + + ) {
if ( node - > child ( i ) = = BVHN : : emptyNode ) continue ;
lst . push_back ( NodeArea ( node - > child ( i ) , node - > bounds ( i ) ) ) ;
std : : push_heap ( lst . begin ( ) , lst . end ( ) ) ;
}
}
for ( size_t i = 0 ; i < lst . size ( ) ; i + + )
lst [ i ] . node - > setBarrier ( ) ;
root = layoutLargeNodesRecursion ( root , alloc . getCachedAllocator ( ) ) ;
# endif
}
template < int N >
typename BVHN < N > : : NodeRef BVHN < N > : : layoutLargeNodesRecursion ( NodeRef & node , const FastAllocator : : CachedAllocator & allocator )
{
if ( node . isBarrier ( ) ) {
node . clearBarrier ( ) ;
return node ;
}
else if ( node . isAABBNode ( ) )
{
AABBNode * oldnode = node . getAABBNode ( ) ;
AABBNode * newnode = ( BVHN : : AABBNode * ) allocator . malloc0 ( sizeof ( BVHN : : AABBNode ) , byteNodeAlignment ) ;
* newnode = * oldnode ;
for ( size_t c = 0 ; c < N ; c + + )
newnode - > child ( c ) = layoutLargeNodesRecursion ( oldnode - > child ( c ) , allocator ) ;
return encodeNode ( newnode ) ;
}
else return node ;
}
template < int N >
double BVHN < N > : : preBuild ( const std : : string & builderName )
{
if ( builderName = = " " )
return inf ;
if ( device - > verbosity ( 2 ) )
{
Lock < MutexSys > lock ( g_printMutex ) ;
std : : cout < < " building BVH " < < N < < ( builderName . find ( " MBlur " ) ! = std : : string : : npos ? " MB " : " " ) < < " < " < < primTy - > name ( ) < < " > using " < < builderName < < " ... " < < std : : endl < < std : : flush ;
}
double t0 = 0.0 ;
if ( device - > benchmark | | device - > verbosity ( 2 ) ) t0 = getSeconds ( ) ;
return t0 ;
}
template < int N >
void BVHN < N > : : postBuild ( double t0 )
{
if ( t0 = = double ( inf ) )
return ;
double dt = 0.0 ;
if ( device - > benchmark | | device - > verbosity ( 2 ) )
dt = getSeconds ( ) - t0 ;
std : : unique_ptr < BVHNStatistics < N > > stat ;
/* print statistics */
if ( device - > verbosity ( 2 ) )
{
if ( ! stat ) stat . reset ( new BVHNStatistics < N > ( this ) ) ;
const size_t usedBytes = alloc . getUsedBytes ( ) ;
Lock < MutexSys > lock ( g_printMutex ) ;
std : : cout < < " finished BVH " < < N < < " < " < < primTy - > name ( ) < < " > : " < < 1000.0f * dt < < " ms, " < < 1E-6 * double ( numPrimitives ) / dt < < " Mprim/s, " < < 1E-9 * double ( usedBytes ) / dt < < " GB/s " < < std : : endl ;
if ( device - > verbosity ( 2 ) )
std : : cout < < stat - > str ( ) ;
if ( device - > verbosity ( 2 ) )
{
FastAllocator : : AllStatistics stat ( & alloc ) ;
for ( size_t i = 0 ; i < objects . size ( ) ; i + + )
if ( objects [ i ] )
stat = stat + FastAllocator : : AllStatistics ( & objects [ i ] - > alloc ) ;
stat . print ( numPrimitives ) ;
}
if ( device - > verbosity ( 3 ) )
{
alloc . print_blocks ( ) ;
for ( size_t i = 0 ; i < objects . size ( ) ; i + + )
if ( objects [ i ] )
objects [ i ] - > alloc . print_blocks ( ) ;
}
std : : cout < < std : : flush ;
}
/* benchmark mode */
if ( device - > benchmark )
{
if ( ! stat ) stat . reset ( new BVHNStatistics < N > ( this ) ) ;
Lock < MutexSys > lock ( g_printMutex ) ;
std : : cout < < " BENCHMARK_BUILD " < < dt < < " " < < double ( numPrimitives ) / dt < < " " < < stat - > sah ( ) < < " " < < stat - > bytesUsed ( ) < < " BVH " < < N < < " < " < < primTy - > name ( ) < < " > " < < std : : endl < < std : : flush ;
}
}
# if defined(__AVX__)
template class BVHN < 8 > ;
# endif
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# if !defined(__AVX__) || !defined(EMBREE_TARGET_SSE2) && !defined(EMBREE_TARGET_SSE42)
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template class BVHN < 4 > ;
# endif
}