3bd400130c
Drawable::drawImplementation(State&) const. Various updates to the rest of the OSG to accomodate this.
408 lines
11 KiB
Plaintext
408 lines
11 KiB
Plaintext
//C++ header - Open Scene Graph - Copyright (C) 1998-2002 Robert Osfield
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//Distributed under the terms of the GNU Library General Public License (LGPL)
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//as published by the Free Software Foundation.
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//osgParticle - Copyright (C) 2002 Marco Jez
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#ifndef OSGPARTICLE_PARTICLE_
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#define OSGPARTICLE_PARTICLE_ 1
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#include <osgParticle/Export>
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#include <osgParticle/Interpolator>
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#include <osgParticle/range>
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#include <osg/ref_ptr>
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#include <osg/Vec3>
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#include <osg/Vec4>
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#include <osg/Matrix>
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#include <osg/GL>
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namespace osgParticle
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{
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/** Implementation of a <B>particle</B>.
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Objects of this class are particles, they have some graphical properties
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and some physical properties. Particles are created by emitters and then placed
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into Particle Systems, where they live and get updated at each frame.
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Particles can either live forever (lifeTime < 0), or die after a specified
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time (lifeTime >= 0). For each property which is defined as a range of values, a
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"current" value will be evaluated at each frame by interpolating the <I>min</I>
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and <I>max</I> values so that <I>curr_value = min</I> when <I>t == 0</I>, and
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<I>curr_value = max</I> when <I>t == lifeTime</I>.
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You may customize the interpolator objects to achieve any kind of transition.
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If you want the particle to live forever, set its lifetime to any value <= 0;
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in that case, no interpolation is done to compute real-time properties, and only
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minimum values are used.
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*/
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class OSGPARTICLE_EXPORT Particle {
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public:
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enum Shape {
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POINT, // uses GL_POINTS as primitive
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QUAD, // uses GL_QUADS as primitive
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QUAD_TRIANGLESTRIP, // uses GL_TRIANGLE_STRIP as primitive, but each particle needs a glBegin/glEnd pair
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HEXAGON // may save some filling time, but uses more triangles
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};
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Particle();
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/// Get the shape of the particle.
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inline Shape getShape() const;
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/// Set the shape of the particle.
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inline void setShape(Shape s);
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/// Get whether the particle is still alive.
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inline bool isAlive() const;
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/// Get the life time of the particle (in seconds).
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inline double getLifeTime() const;
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/// Get the age of the particle (in seconds).
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inline double getAge() const;
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/// Get the minimum and maximum values for polygon size.
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inline const rangef &getSizeRange() const;
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/// Get the minimum and maximum values for alpha.
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inline const rangef &getAlphaRange() const;
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/// Get the minimum and maximum values for color.
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inline const rangev4 &getColorRange() const;
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/// Get the interpolator for computing the size of polygons.
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inline const Interpolator *getSizeInterpolator() const;
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/// Get the interpolator for computing alpha values.
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inline const Interpolator *getAlphaInterpolator() const;
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/// Get the interpolator for computing color values.
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inline const Interpolator *getColorInterpolator() const;
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/** Get the physical radius of the particle.
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For built-in operators to work correctly, lengths must be expressed in meters.
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*/
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inline float getRadius() const;
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/** Get the mass of the particle.
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For built-in operators to work correctly, remember that the mass is expressed in kg.
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*/
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inline float getMass() const;
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/// Get <CODE>1 / getMass()</CODE>.
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inline float getMassInv() const;
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/// Get the position vector.
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inline const osg::Vec3 &getPosition() const;
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/** Get the velocity vector.
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For built-in operators to work correctly, remember that velocity components are expressed
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in meters per second.
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*/
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inline const osg::Vec3 &getVelocity() const;
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/// Get the previous position (the position before last update).
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inline const osg::Vec3 &getPreviousPosition() const;
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/** Kill the particle on next update
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NOTE: after calling this function, the <CODE>isAlive()</CODE> method will still
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return true until the particle is updated again.
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*/
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inline void kill();
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/// Set the life time of the particle.
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inline void setLifeTime(double t);
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/// Set the minimum and maximum values for polygon size.
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inline void setSizeRange(const rangef &r);
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/// Set the minimum and maximum values for alpha.
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inline void setAlphaRange(const rangef &r);
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/// Set the minimum and maximum values for color.
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inline void setColorRange(const rangev4 &r);
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/// Set the interpolator for computing size values.
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inline void setSizeInterpolator(Interpolator *ri);
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/// Set the interpolator for computing alpha values.
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inline void setAlphaInterpolator(Interpolator *ai);
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/// Set the interpolator for computing color values.
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inline void setColorInterpolator(Interpolator *ci);
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/** Set the physical radius of the particle.
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For built-in operators to work correctly, lengths must be expressed in meters.
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*/
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inline void setRadius(float r);
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/** Set the mass of the particle.
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For built-in operators to work correctly, remember that the mass is expressed in kg.
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*/
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inline void setMass(float m);
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/// Set the position vector.
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inline void setPosition(const osg::Vec3 &p);
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/** Set the velocity vector.
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For built-in operators to work correctly, remember that velocity components are expressed
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in meters per second.
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*/
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inline void setVelocity(const osg::Vec3 &v);
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/// Add a vector to the velocity vector.
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inline void addVelocity(const osg::Vec3 &dv);
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/// Transform position and velocity vectors by a matrix.
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inline void transformPositionVelocity(const osg::Matrix &xform);
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/** Update the particle (don't call this method manually).
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This method is called automatically by <CODE>ParticleSystem::update()</CODE>; it
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updates the graphical properties of the particle for the current time,
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checks whether the particle is still alive, and then updates its position
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by computing <I>P = P + V * dt</I> (where <I>P</I> is the position and <I>V</I> is the velocity).
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*/
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bool update(double dt);
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/// Perform some pre-rendering tasks. Called automatically by particle systems.
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inline void beginRender() const;
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/// Render the particle. Called automatically by particle systems.
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void render(const osg::Vec3 &xpos, const osg::Vec3 &px, const osg::Vec3 &py, float scale = 1.0f) const;
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/// Perform some post-rendering tasks. Called automatically by particle systems.
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inline void endRender() const;
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/// Get the current (interpolated) polygon size. Valid only after the first call to update().
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inline float getCurrentSize() const;
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private:
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Shape shape_;
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rangef sr_;
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rangef ar_;
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rangev4 cr_;
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osg::ref_ptr<Interpolator> si_;
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osg::ref_ptr<Interpolator> ai_;
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osg::ref_ptr<Interpolator> ci_;
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bool alive_;
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bool mustdie_;
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double lifetime_;
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float radius_;
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float mass_;
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float massinv_;
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osg::Vec3 prev_pos_;
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osg::Vec3 position_;
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osg::Vec3 velocity_;
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double t0_;
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float current_size_;
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float current_alpha_;
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osg::Vec4 current_color_;
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};
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// INLINE FUNCTIONS
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inline Particle::Shape Particle::getShape() const
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{
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return shape_;
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}
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inline void Particle::setShape(Shape s)
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{
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shape_ = s;
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}
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inline bool Particle::isAlive() const
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{
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return alive_;
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}
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inline double Particle::getLifeTime() const
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{
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return lifetime_;
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}
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inline double Particle::getAge() const
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{
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return t0_;
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}
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inline float Particle::getRadius() const
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{
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return radius_;
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}
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inline void Particle::setRadius(float r)
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{
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radius_ = r;
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}
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inline const rangef &Particle::getSizeRange() const
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{
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return sr_;
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}
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inline const rangef &Particle::getAlphaRange() const
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{
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return ar_;
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}
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inline const rangev4 &Particle::getColorRange() const
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{
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return cr_;
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}
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inline const Interpolator *Particle::getSizeInterpolator() const
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{
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return si_.get();
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}
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inline const Interpolator *Particle::getAlphaInterpolator() const
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{
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return ai_.get();
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}
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inline const Interpolator *Particle::getColorInterpolator() const
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{
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return ci_.get();
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}
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inline const osg::Vec3 &Particle::getPosition() const
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{
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return position_;
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}
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inline const osg::Vec3 &Particle::getVelocity() const
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{
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return velocity_;
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}
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inline const osg::Vec3 &Particle::getPreviousPosition() const
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{
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return prev_pos_;
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}
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inline void Particle::kill()
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{
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mustdie_ = true;
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}
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inline void Particle::setLifeTime(double t)
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{
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lifetime_ = t;
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}
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inline void Particle::setSizeRange(const rangef &r)
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{
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sr_ = r;
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}
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inline void Particle::setAlphaRange(const rangef &r)
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{
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ar_ = r;
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}
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inline void Particle::setColorRange(const rangev4 &r)
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{
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cr_ = r;
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}
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inline void Particle::setSizeInterpolator(Interpolator *ri)
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{
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si_ = ri;
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}
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inline void Particle::setAlphaInterpolator(Interpolator *ai)
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{
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ai_ = ai;
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}
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inline void Particle::setColorInterpolator(Interpolator *ci)
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{
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ci_ = ci;
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}
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inline void Particle::setPosition(const osg::Vec3 &p)
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{
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position_ = p;
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}
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inline void Particle::setVelocity(const osg::Vec3 &v)
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{
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velocity_ = v;
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}
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inline void Particle::addVelocity(const osg::Vec3 &v)
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{
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velocity_ += v;
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}
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inline void Particle::transformPositionVelocity(const osg::Matrix &xform)
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{
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// this should be optimized!
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osg::Vec3 p1 = position_ + velocity_;
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position_ = xform.preMult(position_);
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p1 = xform.preMult(p1);
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velocity_ = p1 - position_;
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}
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inline float Particle::getMass() const
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{
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return mass_;
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}
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inline float Particle::getMassInv() const
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{
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return massinv_;
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}
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inline void Particle::setMass(float m)
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{
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mass_ = m;
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massinv_ = 1 / m;
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}
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inline void Particle::beginRender() const
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{
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switch (shape_)
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{
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case POINT:
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glBegin(GL_POINTS);
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break;
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case QUAD:
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glBegin(GL_QUADS);
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break;
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default: ;
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}
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}
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inline void Particle::endRender() const
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{
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switch (shape_)
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{
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case POINT:
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case QUAD:
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glEnd();
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break;
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default: ;
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}
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}
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inline float Particle::getCurrentSize() const
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{
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return current_size_;
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}
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}
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#endif
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