//C++ header - Open Scene Graph - Copyright (C) 1998-2002 Robert Osfield //Distributed under the terms of the GNU Library General Public License (LGPL) //as published by the Free Software Foundation. //osgParticle - Copyright (C) 2002 Marco Jez #ifndef OSGPARTICLE_SECTORPLACER_ #define OSGPARTICLE_SECTORPLACER_ 1 #include #include #include #include #include #include #include namespace osgParticle { /** A sector-shaped particle placer. This placer sets the initial position of incoming particle by choosing a random position within a circular sector; this sector is defined by three parameters: a center point, which is inherited directly from osgParticle::CenteredPlacer, a range of values for radius, and a range of values for the central angle (sometimes called phi). */ class SectorPlacer: public CenteredPlacer { public: inline SectorPlacer(); inline SectorPlacer(const SectorPlacer ©, const osg::CopyOp ©op = osg::CopyOp::SHALLOW_COPY); /// Get the range of possible values for radius. inline const rangef &getRadiusRange() const; /// Set the range of possible values for radius. inline void setRadiusRange(const rangef &r); /// Set the range of possible values for radius. inline void setRadiusRange(float r1, float r2); /// Get the range of possible values for the central angle. inline const rangef &getPhiRange() const; /// Set the range of possible values for the central angle. inline void setPhiRange(const rangef &r); /// Set the range of possible values for the central angle. inline void setPhiRange(float r1, float r2); META_Object(osgParticle, SectorPlacer); /// Place a particle. Do not call it manually. inline void place(Particle *P) const; protected: virtual ~SectorPlacer() {} SectorPlacer &operator=(const SectorPlacer &) { return *this; } private: rangef rad_range_; rangef phi_range_; }; // INLINE FUNCTIONS inline SectorPlacer::SectorPlacer() : CenteredPlacer(), rad_range_(0, 1), phi_range_(0, osg::PI*2) { } inline SectorPlacer::SectorPlacer(const SectorPlacer ©, const osg::CopyOp ©op) : CenteredPlacer(copy, copyop), rad_range_(copy.rad_range_), phi_range_(copy.phi_range_) { } inline const rangef &SectorPlacer::getRadiusRange() const { return rad_range_; } inline const rangef &SectorPlacer::getPhiRange() const { return phi_range_; } inline void SectorPlacer::setRadiusRange(const rangef &r) { rad_range_ = r; } inline void SectorPlacer::setRadiusRange(float r1, float r2) { rad_range_.minimum = r1; rad_range_.maximum = r2; } inline void SectorPlacer::setPhiRange(const rangef &r) { phi_range_ = r; } inline void SectorPlacer::setPhiRange(float r1, float r2) { phi_range_.minimum = r1; phi_range_.maximum = r2; } inline void SectorPlacer::place(Particle *P) const { float rad = rad_range_.get_random(); float phi = phi_range_.get_random(); osg::Vec3 pos( getCenter().x() + rad * cosf(phi), getCenter().y() + rad * sinf(phi), getCenter().z()); P->setPosition(pos); } } #endif