SSSpring Class Reference

#include <springsys.h>

Inheritance diagram for SSSpring:

Public Member Functions
	SSSpring ()
	SSSpring (SSConstraintPoint *b, Point3 l, float t=2.0f, float d=1.0f)
SSSpring &	operator= (const SSSpring &from)
SSSpring	Copy (const SSSpring from)
float	GetTension ()
void	SetTension (float t)
float	GetDampening ()
void	SetDampening (float d)
Point3	GetLength ()
void	SetLength (Point3 len)
SSConstraintPoint *	GetPointConstraint ()
void	SetPointConstraint (SSConstraintPoint b)
void	SetPointConstraint (int id, Point3 pos, Point3 vel)
bool	operator== (const SSSpring &b) const
bool	operator!= (const SSSpring &b) const
Public Member Functions inherited from BaseInterfaceServer
UtilExport BaseInterface *	GetInterface (Interface_ID id) override
virtual UtilExport int	NumInterfaces () const
virtual UtilExport BaseInterface *	GetInterfaceAt (int i) const
virtual UtilExport	~BaseInterfaceServer ()
Public Member Functions inherited from InterfaceServer
virtual UtilExport	~InterfaceServer ()
	Destructor.
virtual UtilExport BaseInterface *	GetInterface (Interface_ID id)
template<class InterfaceType >
InterfaceType *	GetTypedInterface ()

Additional Inherited Members
Static Public Member Functions inherited from MaxHeapOperators
static UtilExport void *	operator new (size_t size)
	Standard new operator used to allocate objects If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new (size_t size, const std::nothrow_t &e)
	Standard new operator used to allocate objects if there is insufficient memory, NULL will be returned.
static UtilExport void *	operator new (size_t size, const char *filename, int line)
	New operator used to allocate objects that takes the filename and line number where the new was called If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new (size_t size, int block_type, const char *filename, int line)
	New operator used to allocate objects that takes the type of memory, filename and line number where the new was called If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new (size_t size, const std::nothrow_t &e, const char *filename, int line)
	New operator used to allocate objects that takes the filename and line number where the new was called If there is insufficient memory, NULL will be returned.
static UtilExport void *	operator new (size_t size, unsigned long flags)
	New operator used to allocate objects that takes extra flags to specify special operations If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new (size_t size, const std::nothrow_t &e, unsigned long flags)
	New operator used to allocate objects that takes extra flags to specify special operations If there is insufficient memory, NULL will be returned.
static UtilExport void *	operator new[] (size_t size)
	New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new[] (size_t size, const std::nothrow_t &e)
	New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
static UtilExport void *	operator new[] (size_t size, const char *filename, int line)
	New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new[] (size_t size, int block_type, const char *filename, int line)
	New operator used to allocate arrays of objects.
static UtilExport void *	operator new[] (size_t size, const std::nothrow_t &e, const char *filename, int line)
	New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
static UtilExport void *	operator new[] (size_t size, unsigned long flags)
	New operator used to allocate arrays of objects If there is insufficient memory, an exception will be thrown.
static UtilExport void *	operator new[] (size_t size, const std::nothrow_t &e, unsigned long flags)
	New operator used to allocate arrays of objects If there is insufficient memory, NULL will be returned.
static UtilExport void	operator delete (void *ptr)
	Standard delete operator used to deallocate an object If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete (void *ptr, const std::nothrow_t &e)
	Standard delete operator used to deallocate an object If the pointer is invalid, nothing will happen.
static UtilExport void	operator delete (void *ptr, const char *filename, int line)
	Delete operator used to deallocate an object that takes the filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete (void *ptr, int block_type, const char *filename, int line)
	Delete operator used to deallocate an object that takes the type of memory, filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete (void *ptr, const std::nothrow_t &e, const char *filename, int line)
	Delete operator used to deallocate an object that takes the filename and line number where the delete was called If the pointer is invalid, nothing will happen.
static UtilExport void	operator delete (void *ptr, unsigned long flags)
	Delete operator used to deallocate an object that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete (void *ptr, const std::nothrow_t &e, unsigned long flags)
	Delete operator used to deallocate an object that takes extra flags to specify special operations If the pointer is invalid, nothing will happen.
static UtilExport void	operator delete[] (void *ptr)
	Standard delete operator used to deallocate an array of objects If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete[] (void *ptr, const std::nothrow_t &e)
	Standard delete operator used to deallocate an array of objects If the pointer is invalid, nothing will happen.
static UtilExport void	operator delete[] (void *ptr, const char *filename, int line)
	Delete operator used to deallocate an array of objects that takes the filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete[] (void *ptr, int block_type, const char *filename, int line)
	Delete operator used to deallocate an array of objects that takes the type of memory, filename and line number where the delete was called If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete[] (void *ptr, const std::nothrow_t &e, const char *filename, int line)
	Delete operator used to deallocate an array of objects that takes the filename and line number where the delete was called If the pointer is invalid, nothing will happen.
static UtilExport void	operator delete[] (void *ptr, unsigned long flags)
	Delete operator used to deallocate an array of objects that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
static UtilExport void	operator delete[] (void *ptr, const std::nothrow_t &e, unsigned long flags)
	Delete operator used to deallocate an array of objects that takes extra flags to specify special operations If the pointer is invalid, an exception will be thrown.
static UtilExport void *	operator new (size_t size, void *placement_ptr)
	Placement new operator.
static UtilExport void	operator delete (void *ptr, void *placement_ptr)
	Placement delete operator.
static UtilExport void *	aligned_malloc (size_t size, size_t alignment)
	Allocates memory on a specified alignment boundary.
static UtilExport void *	aligned_realloc (void *ptr, size_t size, size_t alignment)
	Reallocates memory on a specified alignment boundary.
static UtilExport void	aligned_free (void *ptr)
	Frees a block of memory that was allocated with aligned_malloc/aligned_realloc.
Protected Attributes inherited from BaseInterfaceServer
Tab< BaseInterface * >	interfaces

Detailed Description

See also

Class BaseInterfaceServer, Class SSConstraintPoint, Class SpringSys

Stores the parameters for binding an object to any force with a controllable spring. This class represents the particle cache to store the state of particle data as it is used in the spring system.

Constructor & Destructor Documentation

SSSpring() [1/2]

SSSpring ( )

inline

Remarks

Constructor.

Default Implementation:

{

bone = NULL;

length = Point3(0.0f, 0.0f, 0.0f);

tension = 1.0f;

dampening = 0.5f;

}

        {
            bone = NULL;
            length = Point3(0.0f, 0.0f, 0.0f);
            tension = 1.0f;
            dampening = 0.5f;
        }

SSSpring() [2/2]

SSSpring ( SSConstraintPoint *  b, Point3  l, float  t = 2.0f, float  d = 1.0f  )

inline

Remarks

Constructor.

This allows you to initialize the spring.

Parameters:

SSConstraintPoint *b

The constraint point to set.

Point3 l

The spring length to set.

float t=2.0f

The tension to set.

float d=1.0f

The dampening to set.

Default Implementation:

{

bone = *b;

length = l;

tension = t;

dampening = d;

}

        {
            bone = *b;
            length = l;
            tension = t;
            dampening = d;
        }

Member Function Documentation

operator=()

SSSpring & operator= ( const SSSpring &  from )

inline

Remarks

Assignment operator.

        {
            tension = from.tension;
            dampening = from.dampening;
            length = from.length;
            bone = from.bone;
 
            return *this;
        }

Copy()

SSSpring Copy ( const SSSpring  from )

inline

Remarks

This method allows you to copy the data from the specified spring object.

Parameters:

const SSSpring from

The spring to copy from.

        {
            tension = from.tension;
            dampening = from.dampening;
            length = from.length;
            bone = from.bone;
 
            return *this;
        }

GetTension()

float GetTension ( )

inline

Remarks

This method returns the tension value.

{return tension;}

SetTension()

void SetTension ( float  t )

inline

Remarks

This method allows you to set the tension value.

Parameters:

float t

The tension to set.

{tension = t;}

GetDampening()

float GetDampening ( )

inline

Remarks

This method returns the dampening value.

{return dampening;}

SetDampening()

void SetDampening ( float  d )

inline

Remarks

This method allows you to set the dampening value.

Parameters:

float d

The dampening value to set.

{dampening = d;}

GetLength()

Point3 GetLength ( )

inline

Remarks

This method returns the length of the spring.

{return length;}

SetLength()

void SetLength ( Point3  len )

inline

Remarks

This method allows you to set the spring length.

Parameters:

Point3 len

The spring length to set.

{length = len;}

GetPointConstraint()

SSConstraintPoint * GetPointConstraint ( )

inline

Remarks

This method returns the point constraint data.

{ return &bone;}

SetPointConstraint() [1/2]

void SetPointConstraint ( SSConstraintPoint  b )

inline

Remarks

This method allows you to set the point constraint data.

Parameters:

SSConstraintPoint b

The constraint point to set.

{ bone = b; }

SetPointConstraint() [2/2]

void SetPointConstraint ( int  id, Point3  pos, Point3  vel  )

inline

Remarks

This method allos you to set the point constraint data.

Parameters:

int id

The index.

Point3 pos

The position data.

Point3 vel

The velocity data.

        {
            bone.SetIndex(id);
            bone.SetPos(pos);
            bone.SetVel(vel);
        }

operator==()

bool operator== ( const SSSpring &  b ) const

inline

Remarks

Compares this class instance to another one

        {
            return tension == b.tension && dampening == b.dampening && length == b.length && bone == b.bone;
        }

operator!=()

bool operator!= ( const SSSpring &  b ) const

inline

        {
            return !( *this == b );
        }