OpenSceneGraph/include/osgParticle/ParticleSystem

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/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2003 Robert Osfield
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* OpenSceneGraph Public License for more details.
*/
//osgParticle - Copyright (C) 2002 Marco Jez
#ifndef OSGPARTICLE_PARTICLESYSTEM_
#define OSGPARTICLE_PARTICLESYSTEM_ 1
#include <osgParticle/Export>
#include <osgParticle/Particle>
#include <vector>
#include <stack>
#include <algorithm>
#include <string>
#include <osg/Object>
#include <osg/Drawable>
#include <osg/CopyOp>
#include <osg/State>
#include <osg/Vec3>
#include <osg/BoundingBox>
namespace osgParticle
{
/** The heart of this class library; its purpose is to hold a set of particles and manage particle creation, update, rendering and destruction.
You can add this drawable to any <CODE>Geode</CODE> as you usually do with other
<CODE>Drawable</CODE> classes. Each instance of <CODE>ParticleSystem</CODE> is a separate set of
particles; it provides the interface for creating particles and iterating
through them (see the <CODE>Emitter</CODE> and <CODE>Program</CODE> classes).
*/
class OSGPARTICLE_EXPORT ParticleSystem: public osg::Drawable {
public:
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enum Alignment {
BILLBOARD,
FIXED
};
ParticleSystem();
ParticleSystem(const ParticleSystem &copy, const osg::CopyOp &copyop = osg::CopyOp::SHALLOW_COPY);
META_Object(osgParticle, ParticleSystem);
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/// Get the alignment type of particles.
inline Alignment getParticleAlignment() const;
/// Set the alignment type of particles.
inline void setParticleAlignment(Alignment a);
/// Get the X-axis alignment vector.
inline const osg::Vec3 &getAlignVectorX() const;
/// Set the X-axis alignment vector.
inline void setAlignVectorX(const osg::Vec3 &v);
/// Get the Y-axis alignment vector.
inline const osg::Vec3 &getAlignVectorY() const;
/// Set the Y-axis alignment vector.
inline void setAlignVectorY(const osg::Vec3 &v);
/// Set the alignment vectors.
inline void setAlignVectors(const osg::Vec3 &X, const osg::Vec3 &Y);
/// Get the default bounding box
inline const osg::BoundingBox &getDefaultBoundingBox() const;
/** Set the default bounding box.
The default bounding box is used when a real bounding box cannot be computed, for example
because no particles has been updated yet.
*/
inline void setDefaultBoundingBox(const osg::BoundingBox &bbox);
/// Get the double pass rendering flag.
inline bool getDoublePassRendering() const;
/** Set the double pass rendering flag.
Double pass rendering avoids overdraw problems between particle systems
and other opaque objects. If you can render all the particle systems <U>after</U>
the opaque objects, then double pass is not necessary and can be turned off (best choice).
If you set the default attributes with <CODE>setDefaultAttributes</CODE>, then the particle
system will fall into a transparent bin.
*/
inline void setDoublePassRendering(bool v);
/// Return true if the particle system is frozen.
inline bool isFrozen() const;
/** Set or reset the <I>frozen</I> state.
When the particle system is frozen, emitters and programs won't do anything on it.
*/
inline void setFrozen(bool v);
/// Get the number of allocated particles (alive + dead).
inline int numParticles() const;
/// Get the number of dead particles.
inline int numDeadParticles() const;
/// Get a pointer to the i-th particle.
inline Particle *getParticle(int i);
/// Get a const pointer to the i-th particle.
inline const Particle *getParticle(int i) const;
/// Create a new particle from the specified template (or the default one if <CODE>ptemplate</CODE> is null).
inline virtual Particle *createParticle(const Particle *ptemplate);
/// Destroy the i-th particle.
inline virtual void destroyParticle(int i);
/// Get the last frame number.
inline int getLastFrameNumber() const;
/// Get a reference to the default particle template.
inline const Particle &getDefaultParticleTemplate() const;
/// Set the default particle template (particle is copied).
inline void setDefaultParticleTemplate(const Particle &p);
/// Get whether the particle system can freeze when culled
inline bool getFreezeOnCull() const;
/// Set whether the particle system can freeze when culled (default is true)
inline void setFreezeOnCull(bool v);
/** A useful method to set the most common <CODE>StateAttribute</CODE>'s in one call.
If <CODE>texturefile</CODE> is empty, then texturing is turned off.
*/
void setDefaultAttributes(const std::string &texturefile = "", bool emissive_particles = true, bool lighting = false, int texture_unit = 0);
/// (<B>EXPERIMENTAL</B>) Get the level of detail.
inline int getLevelOfDetail() const;
/** (<B>EXPERIMENTAL</B>) Set the level of detail. The total number of particles is divided by the detail value to
get the actual number of particles to be drawn. This value must be greater than zero.
*/
inline void setLevelOfDetail(int v);
/// Update the particles. Don't call this directly, use a <CODE>ParticleSystemUpdater</CODE> instead.
virtual void update(double dt);
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virtual void drawImplementation(osg::State &state) const;
protected:
virtual ~ParticleSystem();
ParticleSystem &operator=(const ParticleSystem &) { return *this; }
inline virtual bool computeBound() const;
inline void update_bounds(const osg::Vec3 &p, float r);
void single_pass_render(osg::State &state, const osg::Matrix &modelview) const;
private:
typedef std::vector<Particle> Particle_vector;
typedef std::stack<Particle*> Death_stack;
Particle_vector particles_;
Death_stack deadparts_;
osg::BoundingBox def_bbox_;
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Alignment alignment_;
osg::Vec3 align_X_axis_;
osg::Vec3 align_Y_axis_;
bool doublepass_;
bool frozen_;
osg::Vec3 bmin_;
osg::Vec3 bmax_;
bool reset_bounds_flag_;
bool bounds_computed_;
Particle def_ptemp_;
mutable int last_frame_;
bool freeze_on_cull_;
int detail_;
mutable int draw_count_;
};
// INLINE FUNCTIONS
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inline ParticleSystem::Alignment ParticleSystem::getParticleAlignment() const
{
return alignment_;
}
inline void ParticleSystem::setParticleAlignment(Alignment a)
{
alignment_ = a;
}
inline const osg::Vec3 &ParticleSystem::getAlignVectorX() const
{
return align_X_axis_;
}
inline void ParticleSystem::setAlignVectorX(const osg::Vec3 &v)
{
align_X_axis_ = v;
}
inline const osg::Vec3 &ParticleSystem::getAlignVectorY() const
{
return align_Y_axis_;
}
inline void ParticleSystem::setAlignVectorY(const osg::Vec3 &v)
{
align_Y_axis_ = v;
}
inline void ParticleSystem::setAlignVectors(const osg::Vec3 &X, const osg::Vec3 &Y)
{
align_X_axis_ = X;
align_Y_axis_ = Y;
}
inline bool ParticleSystem::isFrozen() const
{
return frozen_;
}
inline void ParticleSystem::setFrozen(bool v)
{
frozen_ = v;
}
inline const osg::BoundingBox &ParticleSystem::getDefaultBoundingBox() const
{
return def_bbox_;
}
inline void ParticleSystem::setDefaultBoundingBox(const osg::BoundingBox &bbox)
{
def_bbox_ = bbox;
}
inline bool ParticleSystem::getDoublePassRendering() const
{
return doublepass_;
}
inline void ParticleSystem::setDoublePassRendering(bool v)
{
doublepass_ = v;
}
inline int ParticleSystem::numParticles() const
{
return static_cast<int>(particles_.size());
}
inline int ParticleSystem::numDeadParticles() const
{
return static_cast<int>(deadparts_.size());
}
inline Particle *ParticleSystem::getParticle(int i)
{
return &particles_[i];
}
inline const Particle *ParticleSystem::getParticle(int i) const
{
return &particles_[i];
}
inline void ParticleSystem::destroyParticle(int i)
{
particles_[i].kill();
}
inline int ParticleSystem::getLastFrameNumber() const
{
return last_frame_;
}
inline bool ParticleSystem::computeBound() const
{
if (!bounds_computed_) {
_bbox = def_bbox_;
} else {
_bbox._min = bmin_;
_bbox._max = bmax_;
}
_bbox_computed = true;
return true;
}
inline void ParticleSystem::update_bounds(const osg::Vec3 &p, float r)
{
if (reset_bounds_flag_) {
reset_bounds_flag_ = false;
bmin_ = p;
bmax_ = p;
} else {
if (p.x() - r < bmin_.x()) bmin_.x() = p.x() - r;
if (p.y() - r < bmin_.y()) bmin_.y() = p.y() - r;
if (p.z() - r < bmin_.z()) bmin_.z() = p.z() - r;
if (p.x() + r > bmax_.x()) bmax_.x() = p.x() + r;
if (p.y() + r > bmax_.y()) bmax_.y() = p.y() + r;
if (p.z() + r > bmax_.z()) bmax_.z() = p.z() + r;
if (!bounds_computed_)
bounds_computed_ = true;
}
}
inline const Particle &ParticleSystem::getDefaultParticleTemplate() const
{
return def_ptemp_;
}
inline void ParticleSystem::setDefaultParticleTemplate(const Particle &p)
{
def_ptemp_ = p;
}
inline bool ParticleSystem::getFreezeOnCull() const
{
return freeze_on_cull_;
}
inline void ParticleSystem::setFreezeOnCull(bool v)
{
freeze_on_cull_ = v;
}
inline int ParticleSystem::getLevelOfDetail() const
{
return detail_;
}
inline void ParticleSystem::setLevelOfDetail(int v)
{
if (v < 1) v = 1;
detail_ = v;
}
// I'm not sure this function should be inlined...
inline Particle *ParticleSystem::createParticle(const Particle *ptemplate)
{
// is there any dead particle?
if (!deadparts_.empty()) {
// retrieve a pointer to the last dead particle
Particle *P = deadparts_.top();
// create a new (alive) particle in the same place
*P = Particle(ptemplate? *ptemplate: def_ptemp_);
// remove the pointer from the death stack
deadparts_.pop();
return P;
} else {
// add a new particle to the vector
particles_.push_back(Particle(ptemplate? *ptemplate: def_ptemp_));
return &particles_.back();
}
}
}
#endif