247 lines
7.6 KiB
C++
247 lines
7.6 KiB
C++
/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2003 Robert Osfield
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*
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* This library is open source and may be redistributed and/or modified under
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* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
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* (at your option) any later version. The full license is in LICENSE file
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* included with this distribution, and on the openscenegraph.org website.
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*
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* This library 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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* OpenSceneGraph Public License for more details.
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*/
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#ifndef OSG_VEC4F
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#define OSG_VEC4F 1
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#include <osg/Vec3f>
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namespace osg {
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/** General purpose float quad, uses include representation
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of colour coordinates.
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No support yet added for float * Vec4f - is it necessary?
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Need to define a non-member non-friend operator* etc.
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Vec4f * float is okay
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*/
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class Vec4f
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{
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public:
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typedef float value_type;
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value_type _v[4];
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// Methods are defined here so that they are implicitly inlined
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Vec4f() { _v[0]=0.0; _v[1]=0.0; _v[2]=0.0; _v[3]=0.0;}
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Vec4f(value_type x, value_type y, value_type z, value_type w)
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{
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_v[0]=x;
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_v[1]=y;
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_v[2]=z;
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_v[3]=w;
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}
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Vec4f(const Vec3f& v3,value_type w)
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{
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_v[0]=v3[0];
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_v[1]=v3[1];
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_v[2]=v3[2];
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_v[3]=w;
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}
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inline bool operator == (const Vec4f& v) const { return _v[0]==v._v[0] && _v[1]==v._v[1] && _v[2]==v._v[2] && _v[3]==v._v[3]; }
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inline bool operator != (const Vec4f& v) const { return _v[0]!=v._v[0] || _v[1]!=v._v[1] || _v[2]!=v._v[2] || _v[3]!=v._v[3]; }
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inline bool operator < (const Vec4f& v) const
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{
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if (_v[0]<v._v[0]) return true;
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else if (_v[0]>v._v[0]) return false;
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else if (_v[1]<v._v[1]) return true;
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else if (_v[1]>v._v[1]) return false;
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else if (_v[2]<v._v[2]) return true;
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else if (_v[2]>v._v[2]) return false;
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else return (_v[3]<v._v[3]);
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}
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inline value_type* ptr() { return _v; }
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inline const value_type* ptr() const { return _v; }
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inline void set( value_type x, value_type y, value_type z, value_type w)
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{
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_v[0]=x; _v[1]=y; _v[2]=z; _v[3]=w;
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}
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inline value_type& operator [] (unsigned int i) { return _v[i]; }
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inline value_type operator [] (unsigned int i) const { return _v[i]; }
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inline value_type& x() { return _v[0]; }
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inline value_type& y() { return _v[1]; }
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inline value_type& z() { return _v[2]; }
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inline value_type& w() { return _v[3]; }
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inline value_type x() const { return _v[0]; }
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inline value_type y() const { return _v[1]; }
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inline value_type z() const { return _v[2]; }
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inline value_type w() const { return _v[3]; }
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inline unsigned long asABGR() const
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{
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return (unsigned long)clampTo((_v[0]*255.0f),0.0f,255.0f)<<24 |
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(unsigned long)clampTo((_v[1]*255.0f),0.0f,255.0f)<<16 |
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(unsigned long)clampTo((_v[2]*255.0f),0.0f,255.0f)<<8 |
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(unsigned long)clampTo((_v[3]*255.0f),0.0f,255.0f);
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}
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inline unsigned long asRGBA() const
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{
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return (unsigned long)clampTo((_v[3]*255.0f),0.0f,255.0f)<<24 |
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(unsigned long)clampTo((_v[2]*255.0f),0.0f,255.0f)<<16 |
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(unsigned long)clampTo((_v[1]*255.0f),0.0f,255.0f)<<8 |
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(unsigned long)clampTo((_v[0]*255.0f),0.0f,255.0f);
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}
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inline bool valid() const { return !isNaN(); }
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inline bool isNaN() const { return osg::isNaN(_v[0]) || osg::isNaN(_v[1]) || osg::isNaN(_v[2]) || osg::isNaN(_v[3]); }
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/// dot product
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inline value_type operator * (const Vec4f& rhs) const
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{
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return _v[0]*rhs._v[0]+
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_v[1]*rhs._v[1]+
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_v[2]*rhs._v[2]+
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_v[3]*rhs._v[3] ;
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}
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/// multiply by scalar
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inline Vec4f operator * (value_type rhs) const
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{
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return Vec4f(_v[0]*rhs, _v[1]*rhs, _v[2]*rhs, _v[3]*rhs);
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}
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/// unary multiply by scalar
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inline Vec4f& operator *= (value_type rhs)
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{
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_v[0]*=rhs;
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_v[1]*=rhs;
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_v[2]*=rhs;
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_v[3]*=rhs;
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return *this;
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}
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/// divide by scalar
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inline Vec4f operator / (value_type rhs) const
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{
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return Vec4f(_v[0]/rhs, _v[1]/rhs, _v[2]/rhs, _v[3]/rhs);
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}
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/// unary divide by scalar
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inline Vec4f& operator /= (value_type rhs)
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{
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_v[0]/=rhs;
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_v[1]/=rhs;
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_v[2]/=rhs;
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_v[3]/=rhs;
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return *this;
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}
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/// binary vector add
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inline Vec4f operator + (const Vec4f& rhs) const
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{
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return Vec4f(_v[0]+rhs._v[0], _v[1]+rhs._v[1],
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_v[2]+rhs._v[2], _v[3]+rhs._v[3]);
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}
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/** unary vector add. Slightly more efficient because no temporary
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intermediate object*/
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inline Vec4f& operator += (const Vec4f& rhs)
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{
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_v[0] += rhs._v[0];
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_v[1] += rhs._v[1];
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_v[2] += rhs._v[2];
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_v[3] += rhs._v[3];
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return *this;
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}
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/// binary vector subtract
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inline Vec4f operator - (const Vec4f& rhs) const
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{
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return Vec4f(_v[0]-rhs._v[0], _v[1]-rhs._v[1],
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_v[2]-rhs._v[2], _v[3]-rhs._v[3] );
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}
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/// unary vector subtract
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inline Vec4f& operator -= (const Vec4f& rhs)
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{
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_v[0]-=rhs._v[0];
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_v[1]-=rhs._v[1];
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_v[2]-=rhs._v[2];
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_v[3]-=rhs._v[3];
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return *this;
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}
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/// negation operator. Returns the negative of the Vec4f
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inline const Vec4f operator - () const
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{
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return Vec4f (-_v[0], -_v[1], -_v[2], -_v[3]);
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}
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/// Length of the vector = sqrt( vec . vec )
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inline value_type length() const
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{
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return sqrtf( _v[0]*_v[0] + _v[1]*_v[1] + _v[2]*_v[2] + _v[3]*_v[3]);
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}
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/// Length squared of the vector = vec . vec
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inline value_type length2() const
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{
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return _v[0]*_v[0] + _v[1]*_v[1] + _v[2]*_v[2] + _v[3]*_v[3];
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}
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/** normalize the vector so that it has length unity
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returns the previous length of the vector*/
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inline value_type normalize()
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{
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value_type norm = Vec4f::length();
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if (norm>0.0f)
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{
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value_type inv = 1.0f/norm;
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_v[0] *= inv;
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_v[1] *= inv;
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_v[2] *= inv;
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_v[3] *= inv;
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}
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return( norm );
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}
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friend inline std::ostream& operator << (std::ostream& output, const Vec4f& vec)
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{
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output << vec._v[0] << " "
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<< vec._v[1] << " "
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<< vec._v[2] << " "
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<< vec._v[3];
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return output; // to enable cascading
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}
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}; // end of class Vec4f
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/** Compute the dot product of a (Vec3,1.0) and a Vec4f.*/
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inline Vec4f::value_type operator * (const Vec3f& lhs,const Vec4f& rhs)
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{
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return lhs[0]*rhs[0]+lhs[1]*rhs[1]+lhs[2]*rhs[2]+rhs[3];
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}
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/** Compute the dot product of a Vec4f and a (Vec3,1.0).*/
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inline Vec4f::value_type operator * (const Vec4f& lhs,const Vec3f& rhs)
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{
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return lhs[0]*rhs[0]+lhs[1]*rhs[1]+lhs[2]*rhs[2]+lhs[3];
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}
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} // end of namespace osg
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#endif
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