710 lines
26 KiB
C++
710 lines
26 KiB
C++
/*
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Copyright (C) 2001-2006, William Joseph.
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All Rights Reserved.
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This file is part of GtkRadiant.
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GtkRadiant 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 2 of the License, or
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(at your option) any later version.
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GtkRadiant 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 GtkRadiant; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#if !defined( INCLUDED_MATH_VECTOR_H )
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#define INCLUDED_MATH_VECTOR_H
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/// \file
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/// \brief Vector data types and related operations.
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#include "generic/vector.h"
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#include "globaldefs.h"
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#if GDEF_COMPILER_MSVC
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inline int lrint( double flt ){
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int i;
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_asm
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{
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fld flt
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fistp i
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};
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return i;
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}
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inline __int64 llrint( double f ){
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return static_cast<__int64>( f + 0.5 );
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}
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#elif GDEF_OS_BSD
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/*inline long lrint( double f ){
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return static_cast<long>( f + 0.5 );
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}*/
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/*inline long long llrint( double f ){
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return static_cast<long long>( f + 0.5 );
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}*/
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#elif GDEF_COMPILER_GNU
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// lrint is part of ISO C99
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#define _ISOC9X_SOURCE 1
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#define _ISOC99_SOURCE 1
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#define __USE_ISOC9X 1
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#define __USE_ISOC99 1
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#else
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#error "unsupported platform"
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#endif
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#include <cmath>
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#include <float.h>
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#include <algorithm>
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//#include "debugging/debugging.h"
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/// \brief Returns true if \p self is equal to other \p other within \p epsilon.
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template<typename Element, typename OtherElement>
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inline bool float_equal_epsilon( const Element& self, const OtherElement& other, const Element& epsilon ){
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return fabs( other - self ) < epsilon;
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}
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/// \brief Returns the value midway between \p self and \p other.
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template<typename Element>
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inline Element float_mid( const Element& self, const Element& other ){
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return Element( ( self + other ) * 0.5 );
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}
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/// \brief Returns \p f rounded to the nearest integer. Note that this is not the same behaviour as casting from float to int.
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template<typename Element>
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inline int float_to_integer( const Element& f ){
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return lrint( f );
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}
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/// \brief Returns \p f rounded to the nearest multiple of \p snap.
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template<typename Element, typename OtherElement>
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inline Element float_snapped( const Element& f, const OtherElement& snap ){
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//return Element(float_to_integer(f / snap) * snap);
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if ( snap == 0 ) {
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return f;
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}
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return Element( llrint( f / snap ) * snap ); // llrint has more significant bits
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}
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/// \brief Returns true if \p f has no decimal fraction part.
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template<typename Element>
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inline bool float_is_integer( const Element& f ){
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return f == Element( float_to_integer( f ) );
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}
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/// \brief Returns \p self modulated by the range [0, \p modulus)
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/// \p self must be in the range [\p -modulus, \p modulus)
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template<typename Element, typename ModulusElement>
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inline Element float_mod_range( const Element& self, const ModulusElement& modulus ){
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return Element( ( self < 0.0 ) ? self + modulus : self );
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}
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/// \brief Returns \p self modulated by the range [0, \p modulus)
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template<typename Element, typename ModulusElement>
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inline Element float_mod( const Element& self, const ModulusElement& modulus ){
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return float_mod_range( Element( fmod( static_cast<double>( self ), static_cast<double>( modulus ) ) ), modulus );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_added( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return BasicVector2<Element>(
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Element( self.x() + other.x() ),
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Element( self.y() + other.y() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator+( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return vector2_added( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_add( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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self.x() += Element( other.x() );
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self.y() += Element( other.y() );
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}
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template<typename Element, typename OtherElement>
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inline void operator+=( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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vector2_add( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_subtracted( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return BasicVector2<Element>(
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Element( self.x() - other.x() ),
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Element( self.y() - other.y() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator-( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return vector2_subtracted( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_subtract( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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self.x() -= Element( other.x() );
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self.y() -= lement( other.y() );
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}
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template<typename Element, typename OtherElement>
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inline void operator-=( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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vector2_subtract( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_scaled( const BasicVector2<Element>& self, OtherElement other ){
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return BasicVector2<Element>(
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Element( self.x() * other ),
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Element( self.y() * other )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator*( const BasicVector2<Element>& self, OtherElement other ){
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return vector2_scaled( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_scale( BasicVector2<Element>& self, OtherElement other ){
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self.x() *= Element( other );
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self.y() *= Element( other );
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}
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template<typename Element, typename OtherElement>
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inline void operator*=( BasicVector2<Element>& self, OtherElement other ){
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vector2_scale( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_scaled( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return BasicVector2<Element>(
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Element( self.x() * other.x() ),
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Element( self.y() * other.y() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator*( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return vector2_scaled( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_scale( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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self.x() *= Element( other.x() );
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self.y() *= Element( other.y() );
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}
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template<typename Element, typename OtherElement>
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inline void operator*=( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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vector2_scale( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_divided( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return BasicVector2<Element>(
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Element( self.x() / other.x() ),
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Element( self.y() / other.y() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator/( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return vector2_divided( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_divide( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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self.x() /= Element( other.x() );
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self.y() /= Element( other.y() );
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}
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template<typename Element, typename OtherElement>
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inline void operator/=( BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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vector2_divide( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> vector2_divided( const BasicVector2<Element>& self, OtherElement other ){
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return BasicVector2<Element>(
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Element( self.x() / other ),
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Element( self.y() / other )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector2<Element> operator/( const BasicVector2<Element>& self, OtherElement other ){
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return vector2_divided( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector2_divide( BasicVector2<Element>& self, OtherElement other ){
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self.x() /= Element( other );
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self.y() /= Element( other );
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}
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template<typename Element, typename OtherElement>
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inline void operator/=( BasicVector2<Element>& self, OtherElement other ){
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vector2_divide( self, other );
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}
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template<typename Element, typename OtherElement>
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inline double vector2_dot( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return self.x() * other.x() + self.y() * other.y();
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}
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template<typename Element>
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inline double vector2_length_squared( const BasicVector2<Element>& self ){
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return vector2_dot( self, self );
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}
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template<typename Element>
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inline double vector2_length( const BasicVector2<Element>& self ){
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return sqrt( vector2_length_squared( self ) );
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}
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template<typename Element, typename OtherElement>
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inline double vector2_cross( const BasicVector2<Element>& self, const BasicVector2<OtherElement>& other ){
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return self.x() * other.y() - self.y() * other.x();
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}
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const Vector3 g_vector3_identity( 0, 0, 0 );
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const Vector3 g_vector3_max = Vector3( FLT_MAX, FLT_MAX, FLT_MAX );
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const Vector3 g_vector3_axis_x( 1, 0, 0 );
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const Vector3 g_vector3_axis_y( 0, 1, 0 );
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const Vector3 g_vector3_axis_z( 0, 0, 1 );
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const Vector3 g_vector3_axes[3] = { g_vector3_axis_x, g_vector3_axis_y, g_vector3_axis_z };
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template<typename Element, typename OtherElement>
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inline void vector3_swap( BasicVector3<Element>& self, BasicVector3<OtherElement>& other ){
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std::swap( self.x(), other.x() );
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std::swap( self.y(), other.y() );
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std::swap( self.z(), other.z() );
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}
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template<typename Element, typename OtherElement>
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inline bool vector3_equal( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return self.x() == other.x() && self.y() == other.y() && self.z() == other.z();
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}
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template<typename Element, typename OtherElement>
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inline bool operator==( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return vector3_equal( self, other );
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}
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template<typename Element, typename OtherElement>
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inline bool operator!=( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return !vector3_equal( self, other );
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}
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template<typename Element, typename OtherElement, typename Epsilon>
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inline bool vector3_equal_epsilon( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other, Epsilon epsilon ){
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return float_equal_epsilon( self.x(), other.x(), epsilon )
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&& float_equal_epsilon( self.y(), other.y(), epsilon )
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&& float_equal_epsilon( self.z(), other.z(), epsilon );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_added( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return BasicVector3<Element>(
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Element( self.x() + other.x() ),
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Element( self.y() + other.y() ),
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Element( self.z() + other.z() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator+( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return vector3_added( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_add( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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self.x() += static_cast<Element>( other.x() );
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self.y() += static_cast<Element>( other.y() );
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self.z() += static_cast<Element>( other.z() );
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}
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template<typename Element, typename OtherElement>
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inline void operator+=( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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vector3_add( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_subtracted( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return BasicVector3<Element>(
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Element( self.x() - other.x() ),
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Element( self.y() - other.y() ),
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Element( self.z() - other.z() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator-( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return vector3_subtracted( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_subtract( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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self.x() -= static_cast<Element>( other.x() );
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self.y() -= static_cast<Element>( other.y() );
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self.z() -= static_cast<Element>( other.z() );
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}
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template<typename Element, typename OtherElement>
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inline void operator-=( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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vector3_subtract( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_scaled( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return BasicVector3<Element>(
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Element( self.x() * other.x() ),
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Element( self.y() * other.y() ),
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Element( self.z() * other.z() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator*( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return vector3_scaled( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_scale( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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self.x() *= static_cast<Element>( other.x() );
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self.y() *= static_cast<Element>( other.y() );
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self.z() *= static_cast<Element>( other.z() );
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}
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template<typename Element, typename OtherElement>
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inline void operator*=( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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vector3_scale( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_scaled( const BasicVector3<Element>& self, const OtherElement& scale ){
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return BasicVector3<Element>(
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Element( self.x() * scale ),
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Element( self.y() * scale ),
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Element( self.z() * scale )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator*( const BasicVector3<Element>& self, const OtherElement& scale ){
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return vector3_scaled( self, scale );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_scale( BasicVector3<Element>& self, const OtherElement& scale ){
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self.x() *= static_cast<Element>( scale );
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self.y() *= static_cast<Element>( scale );
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self.z() *= static_cast<Element>( scale );
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}
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template<typename Element, typename OtherElement>
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inline void operator*=( BasicVector3<Element>& self, const OtherElement& scale ){
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vector3_scale( self, scale );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_divided( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return BasicVector3<Element>(
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Element( self.x() / other.x() ),
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Element( self.y() / other.y() ),
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Element( self.z() / other.z() )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator/( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return vector3_divided( self, other );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_divide( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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self.x() /= static_cast<Element>( other.x() );
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self.y() /= static_cast<Element>( other.y() );
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self.z() /= static_cast<Element>( other.z() );
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}
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template<typename Element, typename OtherElement>
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inline void operator/=( BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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vector3_divide( self, other );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_divided( const BasicVector3<Element>& self, const OtherElement& divisor ){
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return BasicVector3<Element>(
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Element( self.x() / divisor ),
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Element( self.y() / divisor ),
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Element( self.z() / divisor )
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);
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> operator/( const BasicVector3<Element>& self, const OtherElement& divisor ){
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return vector3_divided( self, divisor );
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}
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template<typename Element, typename OtherElement>
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inline void vector3_divide( BasicVector3<Element>& self, const OtherElement& divisor ){
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self.x() /= static_cast<Element>( divisor );
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self.y() /= static_cast<Element>( divisor );
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self.z() /= static_cast<Element>( divisor );
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}
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template<typename Element, typename OtherElement>
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inline void operator/=( BasicVector3<Element>& self, const OtherElement& divisor ){
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vector3_divide( self, divisor );
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}
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template<typename Element, typename OtherElement>
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inline double vector3_dot( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return self.x() * other.x() + self.y() * other.y() + self.z() * other.z();
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}
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template<typename Element>
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inline BasicVector3<Element> vector3_mid( const BasicVector3<Element>& begin, const BasicVector3<Element>& end ){
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return vector3_scaled( vector3_added( begin, end ), 0.5 );
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}
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template<typename Element, typename OtherElement>
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inline BasicVector3<Element> vector3_cross( const BasicVector3<Element>& self, const BasicVector3<OtherElement>& other ){
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return BasicVector3<Element>(
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Element( self.y() * other.z() - self.z() * other.y() ),
|
|
Element( self.z() * other.x() - self.x() * other.z() ),
|
|
Element( self.x() * other.y() - self.y() * other.x() )
|
|
);
|
|
}
|
|
|
|
template<typename Element>
|
|
inline BasicVector3<Element> vector3_negated( const BasicVector3<Element>& self ){
|
|
return BasicVector3<Element>( -self.x(), -self.y(), -self.z() );
|
|
}
|
|
template<typename Element>
|
|
inline BasicVector3<Element> operator-( const BasicVector3<Element>& self ){
|
|
return vector3_negated( self );
|
|
}
|
|
|
|
template<typename Element>
|
|
inline void vector3_negate( BasicVector3<Element>& self ){
|
|
self = vector3_negated( self );
|
|
}
|
|
|
|
template<typename Element>
|
|
inline double vector3_length_squared( const BasicVector3<Element>& self ){
|
|
return vector3_dot( self, self );
|
|
}
|
|
|
|
template<typename Element>
|
|
inline double vector3_length( const BasicVector3<Element>& self ){
|
|
return sqrt( vector3_length_squared( self ) );
|
|
}
|
|
|
|
template<typename Element>
|
|
inline Element float_divided( Element f, Element other ){
|
|
//ASSERT_MESSAGE(other != 0, "float_divided: invalid divisor");
|
|
return f / other;
|
|
}
|
|
|
|
template<typename Element>
|
|
inline BasicVector3<Element> vector3_normalised( const BasicVector3<Element>& self ){
|
|
return vector3_scaled( self, float_divided( 1.0, vector3_length( self ) ) );
|
|
}
|
|
|
|
template<typename Element>
|
|
inline void vector3_normalise( BasicVector3<Element>& self ){
|
|
self = vector3_normalised( self );
|
|
}
|
|
|
|
|
|
template<typename Element>
|
|
inline BasicVector3<Element> vector3_snapped( const BasicVector3<Element>& self ){
|
|
return BasicVector3<Element>(
|
|
Element( float_to_integer( self.x() ) ),
|
|
Element( float_to_integer( self.y() ) ),
|
|
Element( float_to_integer( self.z() ) )
|
|
);
|
|
}
|
|
template<typename Element>
|
|
inline void vector3_snap( BasicVector3<Element>& self ){
|
|
self = vector3_snapped( self );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector3<Element> vector3_snapped( const BasicVector3<Element>& self, const OtherElement& snap ){
|
|
return BasicVector3<Element>(
|
|
Element( float_snapped( self.x(), snap ) ),
|
|
Element( float_snapped( self.y(), snap ) ),
|
|
Element( float_snapped( self.z(), snap ) )
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector3_snap( BasicVector3<Element>& self, const OtherElement& snap ){
|
|
self = vector3_snapped( self, snap );
|
|
}
|
|
|
|
inline Vector3 vector3_for_spherical( double theta, double phi ){
|
|
return Vector3(
|
|
static_cast<float>( cos( theta ) * cos( phi ) ),
|
|
static_cast<float>( sin( theta ) * cos( phi ) ),
|
|
static_cast<float>( sin( phi ) )
|
|
);
|
|
}
|
|
|
|
|
|
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline bool vector4_equal( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return self.x() == other.x() && self.y() == other.y() && self.z() == other.z() && self.w() == other.w();
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline bool operator==( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return vector4_equal( self, other );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline bool operator!=( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return !vector4_equal( self, other );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline bool vector4_equal_epsilon( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other, Element epsilon ){
|
|
return float_equal_epsilon( self.x(), other.x(), epsilon )
|
|
&& float_equal_epsilon( self.y(), other.y(), epsilon )
|
|
&& float_equal_epsilon( self.z(), other.z(), epsilon )
|
|
&& float_equal_epsilon( self.w(), other.w(), epsilon );
|
|
}
|
|
template<typename Element>
|
|
inline BasicVector4<Element> vector4_mid( const BasicVector4<Element>& begin, const BasicVector4<Element>& end ){
|
|
return vector4_scaled( vector4_added( begin, end ), 0.5 );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> vector4_added( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return BasicVector4<Element>(
|
|
float(self.x() + other.x() ),
|
|
float(self.y() + other.y() ),
|
|
float(self.z() + other.z() ),
|
|
float(self.w() + other.w() )
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> operator+( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return vector4_added( self, other );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector4_add( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
self.x() += static_cast<float>( other.x() );
|
|
self.y() += static_cast<float>( other.y() );
|
|
self.z() += static_cast<float>( other.z() );
|
|
self.w() += static_cast<float>( other.w() );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void operator+=( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
vector4_add( self, other );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> vector4_subtracted( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return BasicVector4<Element>(
|
|
float(self.x() - other.x() ),
|
|
float(self.y() - other.y() ),
|
|
float(self.z() - other.z() ),
|
|
float(self.w() - other.w() )
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> operator-( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return vector4_subtracted( self, other );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector4_subtract( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
self.x() -= static_cast<float>( other.x() );
|
|
self.y() -= static_cast<float>( other.y() );
|
|
self.z() -= static_cast<float>( other.z() );
|
|
self.w() -= static_cast<float>( other.w() );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void operator-=( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
vector4_subtract( self, other );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> vector4_scaled( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return BasicVector4<Element>(
|
|
float(self.x() * other.x() ),
|
|
float(self.y() * other.y() ),
|
|
float(self.z() * other.z() ),
|
|
float(self.w() * other.w() )
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> operator*( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return vector4_scaled( self, other );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector4_scale( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
self.x() *= static_cast<float>( other.x() );
|
|
self.y() *= static_cast<float>( other.y() );
|
|
self.z() *= static_cast<float>( other.z() );
|
|
self.w() *= static_cast<float>( other.w() );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void operator*=( BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
vector4_scale( self, other );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> vector4_scaled( const BasicVector4<Element>& self, OtherElement scale ){
|
|
return BasicVector4<Element>(
|
|
float(self.x() * scale),
|
|
float(self.y() * scale),
|
|
float(self.z() * scale),
|
|
float(self.w() * scale)
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> operator*( const BasicVector4<Element>& self, OtherElement scale ){
|
|
return vector4_scaled( self, scale );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector4_scale( BasicVector4<Element>& self, OtherElement scale ){
|
|
self.x() *= static_cast<float>( scale );
|
|
self.y() *= static_cast<float>( scale );
|
|
self.z() *= static_cast<float>( scale );
|
|
self.w() *= static_cast<float>( scale );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void operator*=( BasicVector4<Element>& self, OtherElement scale ){
|
|
vector4_scale( self, scale );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> vector4_divided( const BasicVector4<Element>& self, OtherElement divisor ){
|
|
return BasicVector4<Element>(
|
|
float(self.x() / divisor),
|
|
float(self.y() / divisor),
|
|
float(self.z() / divisor),
|
|
float(self.w() / divisor)
|
|
);
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline BasicVector4<Element> operator/( const BasicVector4<Element>& self, OtherElement divisor ){
|
|
return vector4_divided( self, divisor );
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void vector4_divide( BasicVector4<Element>& self, OtherElement divisor ){
|
|
self.x() /= divisor;
|
|
self.y() /= divisor;
|
|
self.z() /= divisor;
|
|
self.w() /= divisor;
|
|
}
|
|
template<typename Element, typename OtherElement>
|
|
inline void operator/=( BasicVector4<Element>& self, OtherElement divisor ){
|
|
vector4_divide( self, divisor );
|
|
}
|
|
|
|
template<typename Element, typename OtherElement>
|
|
inline double vector4_dot( const BasicVector4<Element>& self, const BasicVector4<OtherElement>& other ){
|
|
return self.x() * other.x() + self.y() * other.y() + self.z() * other.z() + self.w() * other.w();
|
|
}
|
|
|
|
template<typename Element>
|
|
inline BasicVector3<Element> vector4_projected( const BasicVector4<Element>& self ){
|
|
return vector3_scaled( vector4_to_vector3( self ), 1.0 / self[3] );
|
|
}
|
|
|
|
#endif
|