401 lines
10 KiB
C++
401 lines
10 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2015-2017 Mario Luzeiro <mrluzeiro@ua.pt>
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* Copyright (C) 1992-2017 KiCad Developers, see AUTHORS.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program 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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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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/**
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* @file cbbox.cpp
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* @brief Bounding Box class implementation
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*/
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#include "3d_fastmath.h"
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#include "cbbox.h"
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#include <cstdio>
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#include <wx/debug.h> // For the wxASSERT
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CBBOX::CBBOX()
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{
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Reset();
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}
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CBBOX::CBBOX( const SFVEC3F &aPbInit )
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{
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m_min = aPbInit;
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m_max = aPbInit;
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}
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CBBOX::CBBOX( const SFVEC3F &aPbMin, const SFVEC3F &aPbMax )
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{
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Set( aPbMin, aPbMax );
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}
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CBBOX::~CBBOX()
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{
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}
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void CBBOX::Set( const SFVEC3F &aPoint )
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{
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m_min = aPoint;
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m_max = aPoint;
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}
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void CBBOX::Set( const SFVEC3F &aPbMin, const SFVEC3F &aPbMax )
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{
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m_min.x = fminf( aPbMin.x, aPbMax.x );
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m_min.y = fminf( aPbMin.y, aPbMax.y );
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m_min.z = fminf( aPbMin.z, aPbMax.z );
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m_max.x = fmaxf( aPbMin.x, aPbMax.x );
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m_max.y = fmaxf( aPbMin.y, aPbMax.y );
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m_max.z = fmaxf( aPbMin.z, aPbMax.z );
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}
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void CBBOX::Set( const CBBOX &aBBox )
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{
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wxASSERT( aBBox.IsInitialized() );
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Set( aBBox.Min(), aBBox.Max() );
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}
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bool CBBOX::IsInitialized() const
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{
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return !( ( FLT_MAX == m_min.x) ||
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( FLT_MAX == m_min.y) ||
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( FLT_MAX == m_min.z) ||
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(-FLT_MAX == m_max.x) ||
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(-FLT_MAX == m_max.y) ||
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(-FLT_MAX == m_max.z) );
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}
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void CBBOX::Reset()
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{
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m_min = SFVEC3F( FLT_MAX, FLT_MAX, FLT_MAX );
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m_max = SFVEC3F(-FLT_MAX,-FLT_MAX,-FLT_MAX );
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}
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void CBBOX::Union( const SFVEC3F &aPoint )
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{
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// get the minimun value between the added point and the existent bounding box
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m_min.x = fminf( m_min.x, aPoint.x );
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m_min.y = fminf( m_min.y, aPoint.y );
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m_min.z = fminf( m_min.z, aPoint.z );
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// get the maximun value between the added point and the existent bounding box
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m_max.x = fmaxf( m_max.x, aPoint.x );
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m_max.y = fmaxf( m_max.y, aPoint.y );
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m_max.z = fmaxf( m_max.z, aPoint.z );
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}
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void CBBOX::Union( const CBBOX &aBBox )
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{
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wxASSERT( aBBox.IsInitialized() );
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// get the minimun value between the added bounding box and the existent bounding box
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m_min.x = fmin( m_min.x, aBBox.m_min.x );
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m_min.y = fmin( m_min.y, aBBox.m_min.y );
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m_min.z = fmin( m_min.z, aBBox.m_min.z );
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// get the maximun value between the added bounding box and the existent bounding box
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m_max.x = fmax( m_max.x, aBBox.m_max.x );
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m_max.y = fmax( m_max.y, aBBox.m_max.y );
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m_max.z = fmax( m_max.z, aBBox.m_max.z );
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}
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SFVEC3F CBBOX::GetCenter() const
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{
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return (m_max + m_min) * 0.5f;
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}
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float CBBOX::GetCenter( unsigned int aAxis ) const
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{
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wxASSERT( aAxis < 3 );
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return (m_max[aAxis] + m_min[aAxis]) * 0.5f;
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}
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const SFVEC3F CBBOX::GetExtent() const
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{
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return m_max - m_min;
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}
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unsigned int CBBOX::MaxDimension() const
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{
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unsigned int result = 0;
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SFVEC3F extent = GetExtent();
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if( extent.y > extent.x )
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result = 1;
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if( extent.z > extent.y )
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result = 2;
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return result;
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}
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float CBBOX::GetMaxDimension() const
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{
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unsigned int max_dimensions_idx = 0;
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SFVEC3F extent = GetExtent();
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if( extent.y > extent.x )
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max_dimensions_idx = 1;
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if( extent.z > extent.y )
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max_dimensions_idx = 2;
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return extent[max_dimensions_idx];
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}
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float CBBOX::SurfaceArea() const
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{
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SFVEC3F extent = GetExtent();
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return 2.0f * ( extent.x * extent.z +
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extent.x * extent.y +
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extent.y * extent.z );
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}
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void CBBOX::Scale( float aScale )
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{
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wxASSERT( IsInitialized() );
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SFVEC3F scaleV = SFVEC3F( aScale, aScale, aScale );
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SFVEC3F centerV = GetCenter();
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m_min = (m_min - centerV) * scaleV + centerV;
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m_max = (m_max - centerV) * scaleV + centerV;
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}
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void CBBOX::ScaleNextUp()
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{
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m_min.x = NextFloatDown( m_min.x );
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m_min.y = NextFloatDown( m_min.y );
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m_min.z = NextFloatDown( m_min.z );
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m_max.x = NextFloatUp( m_max.x );
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m_max.y = NextFloatUp( m_max.y );
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m_max.z = NextFloatUp( m_max.z );
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}
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void CBBOX::ScaleNextDown()
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{
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m_min.x = NextFloatUp( m_min.x );
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m_min.y = NextFloatUp( m_min.y );
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m_min.z = NextFloatUp( m_min.z );
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m_max.x = NextFloatDown( m_max.x );
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m_max.y = NextFloatDown( m_max.y );
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m_max.z = NextFloatDown( m_max.z );
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}
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bool CBBOX::Intersects( const CBBOX &aBBox ) const
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{
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wxASSERT( IsInitialized() );
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wxASSERT( aBBox.IsInitialized() );
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bool x = ( m_max.x >= aBBox.m_min.x ) && ( m_min.x <= aBBox.m_max.x );
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bool y = ( m_max.y >= aBBox.m_min.y ) && ( m_min.y <= aBBox.m_max.y );
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bool z = ( m_max.z >= aBBox.m_min.z ) && ( m_min.z <= aBBox.m_max.z );
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return ( x && y && z );
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}
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bool CBBOX::Inside( const SFVEC3F &aPoint ) const
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{
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wxASSERT( IsInitialized() );
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return (( aPoint.x >= m_min.x ) && ( aPoint.x <= m_max.x ) &&
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( aPoint.y >= m_min.y ) && ( aPoint.y <= m_max.y ) &&
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( aPoint.z >= m_min.z ) && ( aPoint.z <= m_max.z ));
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}
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float CBBOX::Volume() const
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{
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wxASSERT( IsInitialized() );
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SFVEC3F extent = GetExtent();
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return extent.x * extent.y * extent.z;
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}
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SFVEC3F CBBOX::Offset( const SFVEC3F &p ) const
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{
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return (p - m_min) / (m_max - m_min);
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}
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// Intersection code based on the book:
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// "Physical Based Ray Tracing" (by Matt Pharr and Greg Humphrey)
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// https://github.com/mmp/pbrt-v2/blob/master/src/core/geometry.cpp#L68
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// /////////////////////////////////////////////////////////////////////////
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#if 0
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bool CBBOX::Intersect( const RAY &aRay, float *aOutHitt0, float *aOutHitt1 ) const
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{
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float t0 = 0.0f;
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float t1 = FLT_MAX;
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for( unsigned int i = 0; i < 3; ++i )
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{
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// Update interval for _i_th bounding box slab
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float tNear = (m_min[i] - aRay.m_Origin[i]) * aRay.m_InvDir[i];
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float tFar = (m_max[i] - aRay.m_Origin[i]) * aRay.m_InvDir[i];
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// Update parametric interval from slab intersection
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if( tNear > tFar )
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{
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// Swap
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float ftemp = tNear;
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tNear = tFar;
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tFar = ftemp;
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}
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t0 = tNear > t0 ? tNear : t0;
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t1 = tFar < t1 ? tFar : t1;
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if( t0 > t1 )
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return false;
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}
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if( aOutHitt0 )
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*aOutHitt0 = t0;
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if( aOutHitt1 )
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*aOutHitt1 = t1;
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return true;
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}
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#else
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// https://github.com/mmp/pbrt-v2/blob/master/src/accelerators/bvh.cpp#L126
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bool CBBOX::Intersect( const RAY &aRay,
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float *aOutHitt0,
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float *aOutHitt1 ) const
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{
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wxASSERT( aOutHitt0 );
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wxASSERT( aOutHitt1 );
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const SFVEC3F bounds[2] = {m_min, m_max};
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// Check for ray intersection against x and y slabs
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float tmin = (bounds[ aRay.m_dirIsNeg[0]].x - aRay.m_Origin.x) * aRay.m_InvDir.x;
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float tmax = (bounds[1 - aRay.m_dirIsNeg[0]].x - aRay.m_Origin.x) * aRay.m_InvDir.x;
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const float tymin = (bounds[ aRay.m_dirIsNeg[1]].y - aRay.m_Origin.y) * aRay.m_InvDir.y;
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const float tymax = (bounds[1 - aRay.m_dirIsNeg[1]].y - aRay.m_Origin.y) * aRay.m_InvDir.y;
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if( (tmin > tymax) || (tymin > tmax) )
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return false;
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tmin = (tymin > tmin)? tymin : tmin;
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tmax = (tymax < tmax)? tymax : tmax;
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// Check for ray intersection against z slab
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const float tzmin = (bounds[ aRay.m_dirIsNeg[2]].z - aRay.m_Origin.z) * aRay.m_InvDir.z;
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const float tzmax = (bounds[1 - aRay.m_dirIsNeg[2]].z - aRay.m_Origin.z) * aRay.m_InvDir.z;
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if( (tmin > tzmax) || (tzmin > tmax) )
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return false;
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tmin = (tzmin > tmin)? tzmin : tmin;
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tmin = ( tmin < 0.0f)? 0.0f : tmin;
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tmax = (tzmax < tmax)? tzmax : tmax;
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*aOutHitt0 = tmin;
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*aOutHitt1 = tmax;
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return true;
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}
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#endif
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void CBBOX::ApplyTransformation( glm::mat4 aTransformMatrix )
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{
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wxASSERT( IsInitialized() );
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const SFVEC3F v1 = SFVEC3F( aTransformMatrix *
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glm::vec4( m_min.x, m_min.y, m_min.z, 1.0f ) );
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const SFVEC3F v2 = SFVEC3F( aTransformMatrix *
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glm::vec4( m_max.x, m_max.y, m_max.z, 1.0f ) );
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Reset();
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Union( v1 );
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Union( v2 );
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}
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void CBBOX::ApplyTransformationAA( glm::mat4 aTransformMatrix )
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{
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wxASSERT( IsInitialized() );
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// apply the transformation matrix for each of vertices of the bounding box
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// and make a union with all vertices
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CBBOX tmpBBox = CBBOX(
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SFVEC3F( aTransformMatrix *
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glm::vec4( m_min.x, m_min.y, m_min.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_max.x, m_min.y, m_min.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_min.x, m_max.y, m_min.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_min.x, m_min.y, m_max.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_min.x, m_max.y, m_max.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_max.x, m_max.y, m_min.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_max.x, m_min.y, m_max.z, 1.0f ) ) );
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tmpBBox.Union( SFVEC3F( aTransformMatrix *
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glm::vec4( m_max.x, m_max.y, m_max.z, 1.0f ) ) );
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m_min = tmpBBox.m_min;
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m_max = tmpBBox.m_max;
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}
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void CBBOX::debug() const
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{
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printf( "min(%f, %f, %f) - max(%f, %f, %f)\n", m_min.x, m_min.y, m_min.z,
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m_max.x, m_max.y, m_max.z );
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}
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