mirror of
https://github.com/id-Software/DOOM-3-BFG.git
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277964f074
- Implemented soft shadows using PCF hardware shadow mapping The implementation uses sampler2DArrayShadow and PCF which usually requires Direct3D 10.1 however it is in the OpenGL 3.2 core so it should be widely supported. All 3 light types are supported which means parallel lights (sun) use scene independent cascaded shadow mapping. The implementation is very fast with single taps (400 fps average per scene on a GTX 660 ti OC) however I defaulted it to 16 taps so the shadows look really good which should you give stable 100 fps on todays hardware. The shadow filtering algorithm is based on Carmack's research which was released in the original Doom 3 GPL release draw_exp.cpp. - Changed interaction shaders to use Half-Lambert lighting like in HL2 to make the game less dark - Fixed some of the renderer debugging/development tools like r_showTris
335 lines
8.6 KiB
C++
335 lines
8.6 KiB
C++
/*
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===========================================================================
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Doom 3 BFG Edition GPL Source Code
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Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company.
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This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").
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Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Doom 3 BFG Edition Source Code. If not, see <http://www.gnu.org/licenses/>.
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In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below.
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If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
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===========================================================================
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*/
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#pragma hdrstop
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#include "precompiled.h"
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#undef min // windef.h macros
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#undef max
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#include "BoundsTrack.h"
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/*
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We want to do one SIMD compare on 8 short components and know that the bounds
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overlap if all 8 tests pass
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*/
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// shortBounds_t is used to track the reference bounds of all entities in a
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// cache-friendly and easy to compare way.
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//
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// To allow all elements to be compared with a single comparison sense, the maxs
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// are stored as negated values.
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//
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// We may need to add a global scale factor to this if there are intersections
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// completely outside +/-32k
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struct shortBounds_t
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{
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shortBounds_t()
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{
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SetToEmpty();
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}
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shortBounds_t( const idBounds& b )
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{
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SetFromReferenceBounds( b );
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}
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short b[2][4]; // fourth element is just for padding
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idBounds ToFloatBounds() const
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{
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idBounds f;
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for( int i = 0 ; i < 3 ; i++ )
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{
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f[0][i] = b[0][i];
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f[1][i] = -b[1][i];
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}
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return f;
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}
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bool IntersectsShortBounds( shortBounds_t& comp ) const
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{
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shortBounds_t test;
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comp.MakeComparisonBounds( test );
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return IntersectsComparisonBounds( test );
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}
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bool IntersectsComparisonBounds( shortBounds_t& test ) const
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{
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// this can be a single ALTIVEC vcmpgtshR instruction
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return test.b[0][0] > b[0][0]
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&& test.b[0][1] > b[0][1]
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&& test.b[0][2] > b[0][2]
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&& test.b[0][3] > b[0][3]
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&& test.b[1][0] > b[1][0]
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&& test.b[1][1] > b[1][1]
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&& test.b[1][2] > b[1][2]
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&& test.b[1][3] > b[1][3];
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}
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void MakeComparisonBounds( shortBounds_t& comp ) const
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{
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comp.b[0][0] = -b[1][0];
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comp.b[1][0] = -b[0][0];
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comp.b[0][1] = -b[1][1];
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comp.b[1][1] = -b[0][1];
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comp.b[0][2] = -b[1][2];
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comp.b[1][2] = -b[0][2];
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comp.b[0][3] = 0x7fff;
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comp.b[1][3] = 0x7fff;
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}
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void SetFromReferenceBounds( const idBounds& set )
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{
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// the maxs are stored negated
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for( int i = 0 ; i < 3 ; i++ )
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{
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// RB: replaced std::min, max
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int minv = floor( set[0][i] );
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b[0][i] = Max( -32768, minv );
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int maxv = -ceil( set[1][i] );
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b[1][i] = Min( 32767, maxv );
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// RB end
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}
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b[0][3] = b[1][3] = 0;
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}
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void SetToEmpty()
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{
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// this will always fail the comparison
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for( int i = 0 ; i < 2 ; i++ )
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{
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for( int j = 0 ; j < 4 ; j++ )
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{
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b[i][j] = 0x7fff;
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}
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}
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}
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};
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// pure function
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int FindBoundsIntersectionsTEST(
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const shortBounds_t testBounds,
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const shortBounds_t* const boundsList,
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const int numBounds,
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int* const returnedList )
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{
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int hits = 0;
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idBounds testF = testBounds.ToFloatBounds();
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for( int i = 0 ; i < numBounds ; i++ )
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{
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idBounds listF = boundsList[i].ToFloatBounds();
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if( testF.IntersectsBounds( listF ) )
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{
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returnedList[hits++] = i;
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}
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}
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return hits;
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}
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// pure function
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int FindBoundsIntersectionsSimSIMD(
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const shortBounds_t testBounds,
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const shortBounds_t* const boundsList,
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const int numBounds,
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int* const returnedList )
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{
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shortBounds_t compareBounds;
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testBounds.MakeComparisonBounds( compareBounds );
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int hits = 0;
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for( int i = 0 ; i < numBounds ; i++ )
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{
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const shortBounds_t& listBounds = boundsList[i];
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bool compare[8];
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int count = 0;
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for( int j = 0 ; j < 8 ; j++ )
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{
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if( ( ( short* )&compareBounds )[j] >= ( ( short* )&listBounds )[j] )
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{
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compare[j] = true;
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count++;
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}
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else
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{
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compare[j] = false;
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}
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}
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if( count == 8 )
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{
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returnedList[hits++] = i;
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}
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}
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return hits;
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}
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idBoundsTrack::idBoundsTrack()
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{
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boundsList = ( shortBounds_t* )Mem_Alloc( MAX_BOUNDS_TRACK_INDEXES * sizeof( *boundsList ), TAG_RENDER );
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ClearAll();
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}
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idBoundsTrack::~idBoundsTrack()
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{
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Mem_Free( boundsList );
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}
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void idBoundsTrack::ClearAll()
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{
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maxIndex = 0;
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for( int i = 0 ; i < MAX_BOUNDS_TRACK_INDEXES ; i++ )
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{
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ClearIndex( i );
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}
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}
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void idBoundsTrack::SetIndex( const int index, const idBounds& bounds )
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{
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assert( ( unsigned )index < MAX_BOUNDS_TRACK_INDEXES );
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// RB: replaced std::max
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maxIndex = Max( maxIndex, index + 1 );
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// RB end
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boundsList[index].SetFromReferenceBounds( bounds );
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}
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void idBoundsTrack::ClearIndex( const int index )
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{
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assert( ( unsigned )index < MAX_BOUNDS_TRACK_INDEXES );
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boundsList[index].SetToEmpty();
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}
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int idBoundsTrack::FindIntersections( const idBounds& testBounds, int intersectedIndexes[ MAX_BOUNDS_TRACK_INDEXES ] ) const
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{
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const shortBounds_t shortTestBounds( testBounds );
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return FindBoundsIntersectionsTEST( shortTestBounds, boundsList, maxIndex, intersectedIndexes );
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}
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void idBoundsTrack::Test()
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{
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ClearAll();
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idRandom r;
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for( int i = 0 ; i < 1800 ; i++ )
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{
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idBounds b;
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for( int j = 0 ; j < 3 ; j++ )
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{
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b[0][j] = r.RandomInt( 20000 ) - 10000;
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b[1][j] = b[0][j] + r.RandomInt( 1000 );
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}
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SetIndex( i, b );
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}
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const idBounds testBounds( idVec3( -1000, 2000, -3000 ), idVec3( 1500, 4500, -500 ) );
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SetIndex( 1800, testBounds );
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SetIndex( 0, testBounds );
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const shortBounds_t shortTestBounds( testBounds );
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int intersectedIndexes1[ MAX_BOUNDS_TRACK_INDEXES ];
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const int numHits1 = FindBoundsIntersectionsTEST( shortTestBounds, boundsList, maxIndex, intersectedIndexes1 );
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int intersectedIndexes2[ MAX_BOUNDS_TRACK_INDEXES ];
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const int numHits2 = FindBoundsIntersectionsSimSIMD( shortTestBounds, boundsList, maxIndex, intersectedIndexes2 );
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idLib::Printf( "%i intersections\n", numHits1 );
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if( numHits1 != numHits2 )
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{
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idLib::Printf( "different results\n" );
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}
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else
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{
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for( int i = 0 ; i < numHits1 ; i++ )
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{
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if( intersectedIndexes1[i] != intersectedIndexes2[i] )
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{
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idLib::Printf( "different results\n" );
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break;
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}
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}
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}
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// run again for debugging failure
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FindBoundsIntersectionsTEST( shortTestBounds, boundsList, maxIndex, intersectedIndexes1 );
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FindBoundsIntersectionsSimSIMD( shortTestBounds, boundsList, maxIndex, intersectedIndexes2 );
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// timing
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const int64 start = Sys_Microseconds();
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for( int i = 0 ; i < 40 ; i++ )
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{
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FindBoundsIntersectionsSimSIMD( shortTestBounds, boundsList, maxIndex, intersectedIndexes2 );
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}
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const int64 stop = Sys_Microseconds();
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idLib::Printf( "%lli microseconds for 40 itterations\n", stop - start );
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}
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class interactionPair_t
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{
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int entityIndex;
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int lightIndex;
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};
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/*
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keep a sorted list of static interactions and interactions already generated this frame?
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determine if the light needs more exact culling because it is rotated or a spot light
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for each entity on the bounds intersection list
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if entity is not directly visible, determine if it can cast a shadow into the view
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if the light center is in-frustum
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and the entity bounds is out-of-frustum, it can't contribue
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else the light center is off-frustum
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if any of the view frustum planes can be moved out to the light center and the entity bounds is still outside it, it can't contribute
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if a static interaction exists
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continue
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possibly perform more exact refernce bounds to rotated or spot light
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create an interaction pair and add it to the list
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all models will have an interaction with light -1 for ambient surface
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sort the interaction list by model
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do
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if the model is dynamic, create it
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add the ambient surface and skip interaction -1
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for all interactions
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check for static interaction
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check for current-frame interaction
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else create shadow for this light
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*/
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