OpenSceneGraph/include/osg/ValueObject

424 lines
15 KiB
Plaintext
Raw Normal View History

/* -*-c++-*- OpenSceneGraph - Copyright (C) 2011 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.
*/
#ifndef OSG_VALUEOBJECT
#define OSG_VALUEOBJECT 1
#include <osg/Object>
#include <osg/UserDataContainer>
#include <osg/BoundingBox>
#include <osg/BoundingSphere>
#include <typeinfo>
namespace osg {
// forward declare core OSG math classes
class Vec2b;
class Vec3b;
class Vec4b;
class Vec2ub;
class Vec3ub;
class Vec4ub;
class Vec2s;
class Vec3s;
class Vec4s;
class Vec2us;
class Vec3us;
class Vec4us;
class Vec2i;
class Vec3i;
class Vec4i;
class Vec2ui;
class Vec3ui;
class Vec4ui;
class Vec2f;
class Vec3f;
class Vec4f;
class Vec2d;
class Vec3d;
class Vec4d;
class Quat;
class Plane;
class Matrixf;
class Matrixd;
class ValueObject : public Object
{
public:
ValueObject() : Object(true) {}
ValueObject(const std::string& name) : Object(true) { setName(name); }
ValueObject(const ValueObject& rhs, const osg::CopyOp copyop=osg::CopyOp::SHALLOW_COPY): Object(rhs,copyop) {}
META_Object(osg, ValueObject)
/** Convert 'this' into a ValueObject pointer if Object is a ValueObject, otherwise return 0.
* Equivalent to dynamic_cast<ValueObject*>(this).*/
virtual ValueObject* asValueObject() { return this; }
/** Convert 'this' into a ValueObject pointer if Object is a ValueObject, otherwise return 0.
* Equivalent to dynamic_cast<ValueObject*>(this).*/
virtual const ValueObject* asValueObject() const { return this; }
class GetValueVisitor
{
public:
virtual ~GetValueVisitor() {}
virtual void apply(bool /*in_value*/) {}
virtual void apply(char /*in_value*/) {}
virtual void apply(unsigned char /*in_value*/) {}
virtual void apply(short /*in_value*/) {}
virtual void apply(unsigned short /*in_value*/) {}
virtual void apply(int /*in_value*/) {}
virtual void apply(unsigned int /*in_value*/) {}
virtual void apply(float /*in_value*/) {}
virtual void apply(double /*in_value*/) {}
virtual void apply(const std::string& /*in_value*/) {}
virtual void apply(const osg::Vec2b& /*in_value*/) {}
virtual void apply(const osg::Vec3b& /*in_value*/) {}
virtual void apply(const osg::Vec4b& /*in_value*/) {}
virtual void apply(const osg::Vec2ub& /*in_value*/) {}
virtual void apply(const osg::Vec3ub& /*in_value*/) {}
virtual void apply(const osg::Vec4ub& /*in_value*/) {}
virtual void apply(const osg::Vec2s& /*in_value*/) {}
virtual void apply(const osg::Vec3s& /*in_value*/) {}
virtual void apply(const osg::Vec4s& /*in_value*/) {}
virtual void apply(const osg::Vec2us& /*in_value*/) {}
virtual void apply(const osg::Vec3us& /*in_value*/) {}
virtual void apply(const osg::Vec4us& /*in_value*/) {}
virtual void apply(const osg::Vec2i& /*in_value*/) {}
virtual void apply(const osg::Vec3i& /*in_value*/) {}
virtual void apply(const osg::Vec4i& /*in_value*/) {}
virtual void apply(const osg::Vec2ui& /*in_value*/) {}
virtual void apply(const osg::Vec3ui& /*in_value*/) {}
virtual void apply(const osg::Vec4ui& /*in_value*/) {}
virtual void apply(const osg::Vec2f& /*in_value*/) {}
virtual void apply(const osg::Vec3f& /*in_value*/) {}
virtual void apply(const osg::Vec4f& /*in_value*/) {}
virtual void apply(const osg::Vec2d& /*in_value*/) {}
virtual void apply(const osg::Vec3d& /*in_value*/) {}
virtual void apply(const osg::Vec4d& /*in_value*/) {}
virtual void apply(const osg::Quat& /*in_value*/) {}
virtual void apply(const osg::Plane& /*in_value*/) {}
virtual void apply(const osg::Matrixf& /*in_value*/) {}
virtual void apply(const osg::Matrixd& /*in_value*/) {}
virtual void apply(const osg::BoundingBoxf& /*in_value*/) {}
virtual void apply(const osg::BoundingBoxd& /*in_value*/) {}
virtual void apply(const osg::BoundingSpheref& /*in_value*/) {}
virtual void apply(const osg::BoundingSphered& /*in_value*/) {}
};
template<typename T>
class GetScalarValue : public ValueObject::GetValueVisitor
{
public:
GetScalarValue() : set(false), value(0) {}
bool set;
T value;
virtual void apply(bool in_value) { value = in_value ? 0 : 1; set = true; }
virtual void apply(char in_value) { value = in_value; set = true; }
virtual void apply(unsigned char in_value) { value = in_value; set = true; }
virtual void apply(short in_value) { value = in_value; set = true; }
virtual void apply(unsigned short in_value) { value = in_value; set = true; }
virtual void apply(int in_value) { value = in_value; set = true; }
virtual void apply(unsigned int in_value) { value = in_value; set = true; }
virtual void apply(float in_value) { value = in_value; set = true; }
virtual void apply(double in_value) { value = in_value; set = true; }
};
class SetValueVisitor
{
public:
virtual ~SetValueVisitor() {}
virtual void apply(bool& /*in_value*/) {}
virtual void apply(char& /*in_value*/) {}
virtual void apply(unsigned char& /*in_value*/) {}
virtual void apply(short& /*in_value*/) {}
virtual void apply(unsigned short& /*in_value*/) {}
virtual void apply(int& /*in_value*/) {}
virtual void apply(unsigned int& /*in_value*/) {}
virtual void apply(float& /*in_value*/) {}
virtual void apply(double& /*in_value*/) {}
virtual void apply(std::string& /*in_value*/) {}
virtual void apply(osg::Vec2b& /*in_value*/) {}
virtual void apply(osg::Vec3b& /*in_value*/) {}
virtual void apply(osg::Vec4b& /*in_value*/) {}
virtual void apply(osg::Vec2ub& /*in_value*/) {}
virtual void apply(osg::Vec3ub& /*in_value*/) {}
virtual void apply(osg::Vec4ub& /*in_value*/) {}
virtual void apply(osg::Vec2s& /*in_value*/) {}
virtual void apply(osg::Vec3s& /*in_value*/) {}
virtual void apply(osg::Vec4s& /*in_value*/) {}
virtual void apply(osg::Vec2us& /*in_value*/) {}
virtual void apply(osg::Vec3us& /*in_value*/) {}
virtual void apply(osg::Vec4us& /*in_value*/) {}
virtual void apply(osg::Vec2i& /*in_value*/) {}
virtual void apply(osg::Vec3i& /*in_value*/) {}
virtual void apply(osg::Vec4i& /*in_value*/) {}
virtual void apply(osg::Vec2ui& /*in_value*/) {}
virtual void apply(osg::Vec3ui& /*in_value*/) {}
virtual void apply(osg::Vec4ui& /*in_value*/) {}
virtual void apply(osg::Vec2f& /*in_value*/) {}
virtual void apply(osg::Vec3f& /*in_value*/) {}
virtual void apply(osg::Vec4f& /*in_value*/) {}
virtual void apply(osg::Vec2d& /*in_value*/) {}
virtual void apply(osg::Vec3d& /*in_value*/) {}
virtual void apply(osg::Vec4d& /*in_value*/) {}
virtual void apply(osg::Quat& /*in_value*/) {}
virtual void apply(osg::Plane& /*in_value*/) {}
virtual void apply(osg::Matrixf& /*in_value*/) {}
virtual void apply(osg::Matrixd& /*in_value*/) {}
virtual void apply(osg::BoundingBoxf& /*in_value*/) {}
virtual void apply(osg::BoundingBoxd& /*in_value*/) {}
virtual void apply(osg::BoundingSpheref& /*in_value*/) {}
virtual void apply(osg::BoundingSphered& /*in_value*/) {}
};
template<typename T>
class SetScalarValue : public ValueObject::GetValueVisitor
{
public:
SetScalarValue(T in_value) : set(false), value(in_value) {}
bool set;
T value;
virtual void apply(bool& in_value) { in_value=(value!=0); set = true;}
virtual void apply(char& in_value) { in_value=value; set = true;}
virtual void apply(unsigned char& in_value) { in_value=value; set = true;}
virtual void apply(short& in_value) { in_value=value; set = true;}
virtual void apply(unsigned short& in_value) { in_value=value; set = true;}
virtual void apply(int& in_value) { in_value=value; set = true;}
virtual void apply(unsigned int& in_value) { in_value=value; set = true;}
virtual void apply(float& in_value) { in_value=value; set = true;}
virtual void apply(double& in_value) { in_value=value; set = true;}
};
virtual bool get(GetValueVisitor& /*gvv*/) const { return false; }
virtual bool set(SetValueVisitor& /*gvv*/) { return false; }
template<typename T>
bool getScalarValue(T& value) { GetScalarValue<T> gsv; if (get(gsv) && gsv.set) { value = gsv.value; return true; } else return false; }
//
template<typename T>
bool setScalarValue(T value) { SetScalarValue<T> ssv(value); return set(ssv) && ssv.set; }
protected:
virtual ~ValueObject() {}
};
template< typename T >
struct ValueObjectClassNameTrait
{
static const char* className() { return "TemplateValueObject"; }
};
template< typename T >
class TemplateValueObject : public ValueObject
{
public:
TemplateValueObject():
ValueObject(),
_value() {}
TemplateValueObject(const T& value) :
ValueObject(),
_value(value) {}
TemplateValueObject(const std::string& name, const T& value) :
ValueObject(name),
_value(value) {}
TemplateValueObject(const TemplateValueObject& rhs, const osg::CopyOp copyop=osg::CopyOp::SHALLOW_COPY) :
ValueObject(rhs,copyop),
_value(rhs._value) {}
virtual Object* cloneType() const { return new TemplateValueObject(); }
virtual Object* clone(const CopyOp& copyop) const { return new TemplateValueObject(*this, copyop); }
virtual bool isSameKindAs(const Object* obj) const { return dynamic_cast<const TemplateValueObject*>(obj)!=NULL; }
virtual const char* libraryName() const { return "osg"; }
virtual const char* className() const { return ValueObjectClassNameTrait<T>::className(); }
void setValue(const T& value) { _value = value; }
const T& getValue() const { return _value; }
virtual bool get(GetValueVisitor& gvv) const { gvv.apply(_value); return true; }
virtual bool set(SetValueVisitor& svv) { svv.apply(_value); return true; }
protected:
virtual ~TemplateValueObject() {}
static const char* s_TemplateValueObject_className;
T _value;
};
#define META_ValueObject(TYPE,NAME) \
template<> struct ValueObjectClassNameTrait<TYPE> { static const char* className() { return #NAME; } }; \
typedef TemplateValueObject<TYPE> NAME;
META_ValueObject(std::string, StringValueObject)
META_ValueObject(bool, BoolValueObject)
META_ValueObject(char, CharValueObject)
META_ValueObject(unsigned char, UCharValueObject)
META_ValueObject(short, ShortValueObject)
META_ValueObject(unsigned short, UShortValueObject)
META_ValueObject(int, IntValueObject)
META_ValueObject(unsigned int, UIntValueObject)
META_ValueObject(float, FloatValueObject)
META_ValueObject(double, DoubleValueObject)
META_ValueObject(Vec2f, Vec2fValueObject)
META_ValueObject(Vec3f, Vec3fValueObject)
META_ValueObject(Vec4f, Vec4fValueObject)
META_ValueObject(Vec2d, Vec2dValueObject)
META_ValueObject(Vec3d, Vec3dValueObject)
META_ValueObject(Vec4d, Vec4dValueObject)
META_ValueObject(Quat, QuatValueObject)
META_ValueObject(Plane, PlaneValueObject)
META_ValueObject(Matrixf, MatrixfValueObject)
META_ValueObject(Matrixd, MatrixdValueObject)
META_ValueObject(BoundingBoxf, BoundingBoxfValueObject)
META_ValueObject(BoundingBoxd, BoundingBoxdValueObject)
META_ValueObject(BoundingSpheref, BoundingSpherefValueObject)
META_ValueObject(BoundingSphered, BoundingSpheredValueObject)
/** provide implementation of osg::Object::getUserValue(..) template*/
template<typename T>
bool osg::Object::getUserValue(const std::string& name, T& value) const
{
typedef TemplateValueObject<T> UserValueObject;
const osg::UserDataContainer* udc = asUserDataContainer();
if (!udc) udc = _userDataContainer;
if (!udc) return false;
const Object* obj = udc->getUserObject(name);
if (obj && typeid(*obj)==typeid(UserValueObject))
{
const UserValueObject* uvo = static_cast<const UserValueObject*>(obj);
value = uvo->getValue();
return true;
}
else
{
return false;
}
}
/** provide implementation of osg::Object::setUserValue(..) template.*/
template<typename T>
void osg::Object::setUserValue(const std::string& name, const T& value)
{
typedef TemplateValueObject<T> UserValueObject;
osg::UserDataContainer* udc = asUserDataContainer();
if (!udc)
{
getOrCreateUserDataContainer();
udc = _userDataContainer;
}
unsigned int i = udc->getUserObjectIndex(name);
if (i<udc->getNumUserObjects())
{
Object* obj = udc->getUserObject(i);
if (typeid(*obj)==typeid(UserValueObject))
{
UserValueObject* uvo = static_cast<UserValueObject*>(obj);
uvo->setValue(value);
}
else
{
udc->setUserObject(i, new UserValueObject(name, value));
}
}
else
{
udc->addUserObject(new UserValueObject(name,value));
}
}
template<class P, class T>
T* getOrCreateUserObjectOfType(P* parent)
{
T* object=0;
const char* name = typeid(T).name();
osg::UserDataContainer* udc = parent->getOrCreateUserDataContainer();
unsigned int index = udc->getUserObjectIndex(name);
if (index<udc->getNumUserObjects())
{
osg::Object* userObject = udc->getUserObject(index);
if (typeid(*userObject)==typeid(T))
{
object = static_cast<T*>(userObject);
// OSG_NOTICE<<"Reusing "<<name<<std::endl;
}
else
{
// OSG_NOTICE<<"Replacing "<<name<<", original object "<<userObject->className()<<std::endl;
object = new T;
object->setName(name);
udc->setUserObject(index, object);
}
}
else
{
object = new T;
object->setName(name);
udc->addUserObject(object);
// OSG_NOTICE<<"Creating new "<<name<<std::endl;
}
return object;
}
}
#endif