DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor > Class Template Reference

#include <DGtal/geometry/curves/estimation/SegmentComputerEstimators.h>

Inheritance diagram for DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >:

Public Types
typedef DSSComputer	SegmentComputer
typedef DSSComputer::ConstIterator	ConstIterator
typedef double	Quantity

Public Member Functions
	BOOST_CONCEPT_ASSERT ((concepts::CUnaryFunctor< Functor, SegmentComputer, Quantity >))
	CurvatureFromDSSBaseEstimator ()
	CurvatureFromDSSBaseEstimator (const CurvatureFromDSSBaseEstimator &other)
CurvatureFromDSSBaseEstimator &	operator= (const CurvatureFromDSSBaseEstimator &other)
	~CurvatureFromDSSBaseEstimator ()
bool	isValid () const
void	init (const double h, const ConstIterator &itb, const ConstIterator &ite)
Quantity	eval (const ConstIterator &)
template<typename OutputIterator >
OutputIterator	eval (const ConstIterator &itb, const ConstIterator &ite, OutputIterator result)
void	attach (const SegmentComputer &aSC)

Data Fields
double	myH
ConstIterator	myBegin
ConstIterator	myEnd
const SegmentComputer *	mySCPtr
Functor	myFunctor

Detailed Description

template<typename DSSComputer, typename Functor = detail::CurvatureFromDSSLength>
class DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >

Description of class 'CurvatureFromDSSBaseEstimator'

Aim: computes a curvature quantity from the length and/or the width of a DSS.

Template Parameters

DSSComputer

a model of segment computer devoted to the DSS recognition.

The computation is delegated to a functor.

Template Parameters

Functor

a model of unary functor taking a DSS as input and returning a double

This class is a model of CSegmentComputerEstimator

Definition at line 1300 of file SegmentComputerEstimators.h.

Member Typedef Documentation

ConstIterator

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

typedef DSSComputer::ConstIterator DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::ConstIterator

Definition at line 1307 of file SegmentComputerEstimators.h.

Quantity

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

typedef double DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::Quantity

Definition at line 1308 of file SegmentComputerEstimators.h.

SegmentComputer

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

typedef DSSComputer DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::SegmentComputer

Definition at line 1306 of file SegmentComputerEstimators.h.

Constructor & Destructor Documentation

CurvatureFromDSSBaseEstimator() [1/2]

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::CurvatureFromDSSBaseEstimator ( )

inline

Default constructor. NB: not valid.

Definition at line 1342 of file SegmentComputerEstimators.h.

      : myH( 0.0 ), myBegin(), myEnd(), mySCPtr(0), myFunctor()
      {
      }

CurvatureFromDSSBaseEstimator() [2/2]

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::CurvatureFromDSSBaseEstimator ( const CurvatureFromDSSBaseEstimator< DSSComputer, Functor > &  other )

inline

Copy constructor.

Parameters

other

the object to copy.

Definition at line 1350 of file SegmentComputerEstimators.h.

      : myH( other.myH ), myBegin( other.myBegin ), myEnd( other.myEnd ), 
        mySCPtr( other.mySCPtr ), myFunctor( other.myFunctor )
      {
      }

~CurvatureFromDSSBaseEstimator()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::~CurvatureFromDSSBaseEstimator ( )

inline

Destructor

Definition at line 1374 of file SegmentComputerEstimators.h.

{}

Member Function Documentation

attach()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

void DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::attach ( const SegmentComputer &  aSC )

inline

Attach the estimator to aSC

Parameters

aSC	an instance of segment computer.

Definition at line 1512 of file SegmentComputerEstimators.h.

      {
        mySCPtr = &aSC; 
        ASSERT( mySCPtr ); 
      };

References DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::mySCPtr.

BOOST_CONCEPT_ASSERT()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::BOOST_CONCEPT_ASSERT

(

(concepts::CUnaryFunctor< Functor, SegmentComputer, Quantity >)

)

eval() [1/2]

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

Quantity DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval ( const ConstIterator &  )

inline

Unique estimation

Returns

the estimated quantity

Definition at line 1406 of file SegmentComputerEstimators.h.

      {
        ASSERT( isValid() ); 
 
        //types
        typedef typename DSSComputer::Integer Integer; 
        typedef typename DSSComputer::Vector Vector; 
 
        //curvature value
        Quantity k = 0;  
 
        //begin and end iterators
        //(back point on the first point)
        //(front point on the last point)
        ConstIterator back = mySCPtr->begin();  
        ConstIterator front = mySCPtr->end();
        bool isConnectedAtBack = isNotEmpty(myBegin, back)
          &&((*boost::prior(back)-*back).norm(Vector::L_1) <= NumberTraits<Integer>::ONE);  
        bool isConnectedAtFront = isNotEmpty(front, myEnd)
          &&((*boost::prior(front)-*front).norm(Vector::L_1) <= NumberTraits<Integer>::ONE);  
  
        Integer mu = mySCPtr->mu();
        Integer omega = mySCPtr->omega();
        if (isConnectedAtBack)
        {
          --back;
          //parameters
                if (isConnectedAtFront)
          {
            if ((mySCPtr->remainder(*back)<=mu-1)&&
                (mySCPtr->remainder(*front)<=mu-1) )
            {
              //convex
              k = myFunctor(*mySCPtr) / myH;
            }
            else if ( (mySCPtr->remainder(*back)>=mu+omega)&&
                      (mySCPtr->remainder(*front)>=mu+omega) )
            {
              //concave
              k = -myFunctor(*mySCPtr) / myH;
            } //else inflection
              }
          else
          {
            if ( (mySCPtr->remainder(*back)<=mu-1) )
            {
              //convex
              k = myFunctor(*mySCPtr) / myH; 
            }
            else if ( (mySCPtr->remainder(*back)>=mu+omega) )
            {
              //concave
              k = -myFunctor(*mySCPtr) / myH; 
            } //else inflection
                }
              }
        else if (isConnectedAtFront)
        {
          if ( (mySCPtr->remainder(*front)<=mu-1) )
          {
            //convex
            k = myFunctor(*mySCPtr) / myH; 
          }
          else if ( (mySCPtr->remainder(*front)>=mu+omega) )
          {
            //concave
            k = -myFunctor(*mySCPtr) / myH; 
          } //else inflection
              } //else cannot be extended: k is set to 0
 
              return k;
      }

References DGtal::detail::isNotEmpty(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::isValid(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myBegin, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myEnd, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myFunctor, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myH, and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::mySCPtr.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval().

eval() [2/2]

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

template<typename OutputIterator >

OutputIterator DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval ( const ConstIterator &  itb, const ConstIterator &  ite, OutputIterator  result  )

inline

Estimation for a subrange [itb , ite )

Parameters

itb	subrange begin iterator
ite	subrange end iterator
result	output iterator on the estimated quantity

Returns

the estimated quantity from itb till ite (excluded)

Definition at line 1489 of file SegmentComputerEstimators.h.

      {
              ASSERT( isValid() ); 
 
        // do-while loop to deal with the case of a whole circular range
        if (isNotEmpty(itb, ite))
        {
                ConstIterator it = itb; 
                do
                {
            *result++ = eval( it ); 
            ++it; 
                } while (it != ite);
              }
 
        return result; 
      }

References DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), DGtal::detail::isNotEmpty(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::isValid().

init()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

void DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::init ( const double  h, const ConstIterator &  itb, const ConstIterator &  ite  )

inline

Initialisation.

Parameters

h	grid size
itb	begin iterator
ite	end iterator

Definition at line 1394 of file SegmentComputerEstimators.h.

      {
        myH = h; 
        myBegin = itb;
        myEnd = ite;
        ASSERT( myH > 0 );  
      }

References DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myBegin, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myEnd, and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myH.

isValid()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

bool DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::isValid ( ) const

inline

Checks the validity/consistency of the object.

Returns

'true' if the object is valid, 'false' otherwise.

Definition at line 1380 of file SegmentComputerEstimators.h.

      {
              return (myH > 0)&&(mySCPtr != 0); 
      };

References DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myH, and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::mySCPtr.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval().

operator=()

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

CurvatureFromDSSBaseEstimator& DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator= ( const CurvatureFromDSSBaseEstimator< DSSComputer, Functor > &  other )

inline

Assignement.

Parameters

other

the object to copy.

Definition at line 1359 of file SegmentComputerEstimators.h.

      {
        if (this != &other)
        {
          myH = other.myH; 
          myBegin = other.myBegin; 
          myEnd = other.myEnd; 
          mySCPtr = other.mySCPtr; 
          myFunctor = other.myFunctor; 
        }
              return *this; 
      }

References DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myBegin, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myEnd, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myFunctor, DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myH, and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::mySCPtr.

Field Documentation

myBegin

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

ConstIterator DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myBegin

Begin iterator

Definition at line 1321 of file SegmentComputerEstimators.h.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::init(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator=().

myEnd

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

ConstIterator DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myEnd

End iterator

Definition at line 1325 of file SegmentComputerEstimators.h.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::init(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator=().

myFunctor

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

Functor DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myFunctor

Functor used for the estimation

Definition at line 1333 of file SegmentComputerEstimators.h.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator=().

myH

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

double DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::myH

Grid step

Definition at line 1317 of file SegmentComputerEstimators.h.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::init(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::isValid(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator=().

mySCPtr

template<typename DSSComputer , typename Functor = detail::CurvatureFromDSSLength>

const SegmentComputer* DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::mySCPtr

Aliasing pointer on a constant segment computer

Definition at line 1329 of file SegmentComputerEstimators.h.

Referenced by DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::attach(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::eval(), DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::isValid(), and DGtal::detail::CurvatureFromDSSBaseEstimator< DSSComputer, Functor >::operator=().

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The documentation for this class was generated from the following file:

• SegmentComputerEstimators.h