--- /dev/null
+// =========================================================================
+// @author: Leonardo Florez-Valencia
+// @email: florez-l@javeriana.edu.co
+// =========================================================================
+#include <cmath>
+#include <limits>
+#include <map>
+
+#include <vnl/vnl_math.h>
+#include <ivq/ITK/FourierSeries.h>
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+ivq::ITK::FourierSeries< _TScalar, _VDim >::
+FourierSeries( unsigned int q )
+ : m_RealAxis( _VDim - 2 ),
+ m_ImagAxis( _VDim - 1 )
+{
+ this->resize( ( q << 1 ) + 1, TComplex( TScalar( 0 ), TScalar( 0 ) ) );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+ivq::ITK::FourierSeries< _TScalar, _VDim >::
+~FourierSeries( )
+{
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+const unsigned int& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetRealAxis( ) const
+{
+ return( this->m_RealAxis );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+const unsigned int& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetImagAxis( ) const
+{
+ return( this->m_ImagAxis );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetRealAxis( const unsigned int& a )
+{
+ this->m_RealAxis = a;
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetImagAxis( const unsigned int& a )
+{
+ this->m_ImagAxis = a;
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+_TScalar ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetArea( ) const
+{
+ TScalar a = TScalar( 0 );
+ int q = this->GetNumberOfHarmonics( );
+ typename Self::const_iterator i = this->begin( );
+ for( int l = -q; i != this->end( ); ++i, ++l )
+ a += TScalar( l ) * std::norm( *i );
+ return( TScalar( vnl_math::pi ) * a );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+_TScalar ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetCurvature( const TScalar& w ) const
+{
+ TComplex d1 = this->_Z( w, 1 );
+ TComplex d2 = this->_Z( w, 2 );
+ TScalar d = std::abs( d1 );
+ if( d > TScalar( 0 ) )
+ return( std::imag( std::conj( d1 ) * d2 ) / ( d * d * d ) );
+ else
+ return( TScalar( 0 ) );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetOrdering( bool cw )
+{
+ // Check if the area sign is different from the desired orientation
+ bool ap = ( TScalar( 0 ) < this->GetArea( ) );
+ if( ( !ap && cw ) || ( ap && !cw ) ) // XOR
+ this->InvertOrdering( );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+InvertOrdering( )
+{
+ int q = this->GetNumberOfHarmonics( );
+ for( int l = 1; l <= q; l++ )
+ {
+ TComplex z = ( *this )[ l ];
+ ( *this )[ l ] = ( *this )[ -l ];
+ ( *this )[ -l ] = z;
+
+ } // rof
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetOrderingToClockWise( )
+{
+ this->SetOrdering( false );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetOrderingToCounterClockWise( )
+{
+ this->SetOrdering( true );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+int ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetNumberOfHarmonics( ) const
+{
+ return( ( this->size( ) - 1 ) >> 1 );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetNumberOfHarmonics( const int& q )
+{
+ int diff_q = this->GetNumberOfHarmonics( ) - q;
+
+ while( diff_q != 0 )
+ {
+ if( diff_q > 0 )
+ {
+ this->pop_front( );
+ this->pop_back( );
+ diff_q--;
+ }
+ else
+ {
+ this->push_front( TComplex( TScalar( 0 ), TScalar( 0 ) ) );
+ this->push_back( TComplex( TScalar( 0 ), TScalar( 0 ) ) );
+ diff_q++;
+
+ } // fi
+
+ } // elihw
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TComplex& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator[]( const int& l )
+{
+ static TComplex _zero;
+ int idx = ( ( this->size( ) - 1 ) >> 1 ) + l;
+ if( idx < 0 || idx >= this->size( ) )
+ {
+ _zero = TComplex( TScalar( 0 ) );
+ return( _zero );
+ }
+ else
+ return( this->Superclass::operator[]( idx ) );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+const typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TComplex& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator[]( const int& l ) const
+{
+ static const TComplex _zero( TScalar( 0 ) );
+ int idx = ( ( this->size( ) - 1 ) >> 1 ) + l;
+ if( idx < 0 || idx >= this->size( ) )
+ return( _zero );
+ else
+ return( this->Superclass::operator[]( idx ) );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TPoint ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator( )( const TScalar& w ) const
+{
+ TComplex z = this->_Z( w, 0 );
+ TPoint p;
+ p.Fill( TScalar( 0 ) );
+ p[ this->m_RealAxis ] = z.real( );
+ p[ this->m_ImagAxis ] = z.imag( );
+ return( p );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TVector ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator( )( const TScalar& w, const unsigned int& n ) const
+{
+ TComplex z = this->_Z( w, n );
+ TVector v( TScalar( 0 ) );
+ v[ this->m_RealAxis ] = z.real( );
+ v[ this->m_ImagAxis ] = z.imag( );
+ return( v );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+( const Self& o ) const
+{
+ int q1 = o.GetNumberOfHarmonics( );
+ int q2 = this->GetNumberOfHarmonics( );
+ int q = ( q2 < q1 )? q1: q2;
+
+ Self res;
+ res.SetNumberOfHarmonics( q );
+ for( int l = -q; l <= q; ++l )
+ res[ l ] = ( *this )[ l ] + o[ l ];
+
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+=( const Self& o )
+{
+ int q1 = o.GetNumberOfHarmonics( );
+ int q2 = this->GetNumberOfHarmonics( );
+ int q = ( q2 < q1 )? q1: q2;
+
+ this->SetNumberOfHarmonics( q );
+ for( int l = -q; l <= q; ++l )
+ ( *this )[ l ] += o[ l ];
+
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-( const Self& o ) const
+{
+ int q1 = o.GetNumberOfHarmonics( );
+ int q2 = this->GetNumberOfHarmonics( );
+ int q = ( q2 < q1 )? q1: q2;
+
+ Self res;
+ res.SetNumberOfHarmonics( q );
+ for( int l = -q; l <= q; ++l )
+ res[ l ] = ( *this )[ l ] - o[ l ];
+
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-=( const Self& o )
+{
+ int q1 = o.GetNumberOfHarmonics( );
+ int q2 = this->GetNumberOfHarmonics( );
+ int q = ( q2 < q1 )? q1: q2;
+
+ this->SetNumberOfHarmonics( q );
+ for( int l = -q; l <= q; ++l )
+ ( *this )[ l ] -= o[ l ];
+
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+( const TComplex& translation ) const
+{
+ Self res = *this;
+ res[ 0 ] += translation;
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+=( const TComplex& translation )
+{
+ ( *this )[ 0 ] += translation;
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-( const TComplex& translation ) const
+{
+ Self res = *this;
+ res[ 0 ] -= translation;
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-=( const TComplex& translation )
+{
+ ( *this )[ 0 ] -= translation;
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+( const TVector& translation ) const
+{
+ return(
+ ( *this ) +
+ TComplex( translation[ this->m_RealAxis ], translation[ this->m_ImagAxis ] )
+ );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator+=( const TVector& translation )
+{
+ ( *this ) +=
+ TComplex( translation[ this->m_RealAxis ], translation[ this->m_ImagAxis ] );
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-( const TVector& translation ) const
+{
+ return(
+ ( *this ) -
+ TComplex( translation[ this->m_RealAxis ], translation[ this->m_ImagAxis ] )
+ );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator-=( const TVector& translation )
+{
+ ( *this ) -=
+ TComplex( translation[ this->m_RealAxis ], translation[ this->m_ImagAxis ] );
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TPoint ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetCenter( ) const
+{
+ TComplex z = ( *this )[ 0 ];
+ TPoint p;
+ p.Fill( TScalar( 0 ) );
+ p[ this->m_RealAxis ] = z.real( );
+ p[ this->m_ImagAxis ] = z.imag( );
+ return( p );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator*( const TComplex& scale_or_rotation ) const
+{
+ Self res;
+ res.clear( );
+ for( typename Self::const_iterator i = this->begin( ); i != this->end( ); ++i )
+ res.push_back( *i * scale_or_rotation );
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator*=( const TComplex& scale_or_rotation )
+{
+ for( typename Self::iterator i = this->begin( ); i != this->end( ); ++i )
+ *i *= scale_or_rotation;
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator/( const TScalar& scale ) const
+{
+ Self res;
+ res.clear( );
+ for( typename Self::const_iterator i = this->begin( ); i != this->end( ); ++i )
+ res.push_back( *i / scale );
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator/=( const TScalar& scale )
+{
+ for( typename Self::iterator i = this->begin( ); i != this->end( ); ++i )
+ *i /= scale;
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator&( const TScalar& phase ) const
+{
+ Self res;
+ res.clear( );
+ int q = this->GetNumberOfHarmonics( );
+ typename Self::const_iterator i = this->begin( );
+ for( int l = -q; i != this->end( ); ++i, ++l )
+ res.push_back( *i * std::polar( TScalar( 1 ), TScalar( l ) * phase ) );
+ return( res );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Self& ivq::ITK::FourierSeries< _TScalar, _VDim >::
+operator&=( const TScalar& phase )
+{
+ int q = this->GetNumberOfHarmonics( );
+ typename Self::iterator i = this->begin( );
+ for( int l = -q; i != this->end( ); ++i, ++l )
+ *i *= std::polar( TScalar( 1 ), TScalar( l ) * phase );
+ return( *this );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+_TScalar ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetPhase( const TScalar& w ) const
+{
+ // Some constant values
+ static const TScalar _0 = TScalar( 0 );
+ static const TScalar _1 = TScalar( 1 );
+ static const TScalar _2 = TScalar( 2 );
+ static const TScalar _2pi = _2 * TScalar( vnl_math::pi );
+ static const TScalar _epsilon = TScalar( 1e-14 );
+ static const TScalar _tolerance = TScalar( 1e-10 );
+ static const unsigned int _samples = 100;
+ static const unsigned int _maxIterations = 1000;
+ static const TScalar _angleOff = _2pi / TScalar( _samples );
+
+ // Some other values
+ int q = int( this->GetNumberOfHarmonics( ) );
+ if( q == 0 )
+ return( _0 );
+
+ // Get a centered copy
+ Self contour = *this;
+ contour[ 0 ] = TComplex( _0, _0 );
+
+ // Compute maximum coefficient norm
+ TScalar max_norm = _0;
+ for( int l = 1; l <= q; ++l )
+ {
+ TScalar np = std::abs( contour[ l ] );
+ TScalar nn = std::abs( contour[ -l ] );
+ TScalar n = ( np < nn )? nn: np;
+ if( max_norm < n )
+ max_norm = n;
+
+ } // rof
+
+ // Rotate to desired phase
+ contour *= std::polar( _1, -w );
+
+ // Try to normalize contour: if not, malformed contour!
+ if( max_norm > _0 )
+ {
+ contour /= max_norm;
+
+ // 1. Approximate initial guess by a simple dichotomy
+ std::vector< std::pair< TScalar, TScalar > > function;
+ TScalar minA = std::numeric_limits< TScalar >::max( );
+ unsigned int minIdx = -1;
+
+ // 1.1. Roughly sample phases
+ for( unsigned int s = 0; s < _samples; ++s )
+ {
+ TScalar w = TScalar( s ) * _angleOff;
+ TScalar a = std::arg( contour._Z( w, 0 ) );
+ function.push_back( std::pair< TScalar, TScalar >( w, a ) );
+ if( a < minA )
+ {
+ minA = a;
+ minIdx = s;
+
+ } // fi
+
+ } // rof
+
+ // 1.2. Get zero cuts by zero crossing analysis and keep the farthest
+ // point in the real axis (ie. the last data in "cuts")
+ TScalar prevA = _1;
+ std::map< TScalar, unsigned int > cuts;
+ for( unsigned int s = 0; s < _samples; ++s )
+ {
+ unsigned int i = ( s + minIdx ) % _samples;
+ if( function[ i ].second * prevA < _0 )
+ cuts[ std::real( contour._Z( function[ i ].first, 0 ) ) ] = i;
+ prevA = function[ i ].second;
+
+ } // rof
+
+ // 1.3. Get initial guess
+ TScalar w0 = _0;
+ if( cuts.size( ) > 0 )
+ {
+ unsigned int i = cuts.rbegin( )->second;
+ if( i == 0 )
+ i = function.size( );
+ w0 = function[ i - 1 ].first;
+
+ } // fi
+
+ // 2. Refine by Newthon-Raphson
+ bool stop = false;
+ unsigned int i = 0;
+ while( i < _maxIterations && !stop )
+ {
+ TComplex c = contour._Z( w0, 0 );
+ TScalar d = std::imag( c * std::conj( contour._Z( w0, 1 ) ) );
+
+ // Emergency stop!!!
+ if( !( std::fabs( d ) < _epsilon ) )
+ {
+ TScalar w1 = w0 + ( std::arg( c ) * ( std::norm( c ) / d ) );
+ if( ( std::fabs( w1 - w0 ) / std::fabs( w1 ) ) < _tolerance )
+ stop = true;
+ else
+ w0 = w1;
+ i++;
+ }
+ else
+ stop = true;
+
+ } // elihw
+ return( w0 );
+ }
+ else
+ return( _0 );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+Sample( std::vector< TPoint >& p, const unsigned long& s ) const
+{
+ static const TScalar _2pi = TScalar( 2 ) * TScalar( vnl_math::pi );
+ TScalar off = _2pi / TScalar( s - 1 );
+ for( unsigned int w = 0; w < s; ++w )
+ p.push_back( ( *this )( TScalar( w ) * off ) );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+GetEllipse( int l, TScalar& a, TScalar& b, TScalar& t, TScalar& p ) const
+{
+ a = b = t = p = TScalar( 0 );
+ if( l == 0 || l > this->GetNumberOfHarmonics( ) )
+ return;
+
+ TComplex zp = ( *this )[ l ];
+ TComplex zn = ( *this )[ -l ];
+ TScalar np = std::abs( zp );
+ TScalar nn = std::abs( zn );
+
+ // Radii
+ a = np + nn;
+ b = np - nn;
+
+ // Rotation and phase
+ if( np > TScalar( 0 ) && nn > TScalar( 0 ) )
+ {
+ zp /= np;
+ zn /= nn;
+ t = std::real( std::log( zp * zn ) / TComplex( TScalar( 0 ), TScalar( 2 ) ) );
+ p = std::real( std::log( zp / zn ) / TComplex( TScalar( 0 ), TScalar( 2 * l ) ) );
+ }
+ else
+ {
+ t = TScalar( 0 );
+ p = ( np > TScalar( 0 ) )? std::arg( zp ): std::arg( zn );
+
+ } // fi
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+SetEllipse( int l, TScalar& a, TScalar& b, TScalar& t, TScalar& p )
+{
+ TScalar nzp = ( a + b ) / TScalar( 2 );
+ TScalar nzn = ( a - b ) / TScalar( 2 );
+ TComplex et = std::polar( TScalar( 1 ), t );
+ TComplex ep = std::polar( TScalar( 1 ), TScalar( l ) * p );
+ ( *this )[ l ] = et * ep * nzp;
+ ( *this )[ -l ] = et * std::conj( ep ) * nzn;
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+typename ivq::ITK::FourierSeries< _TScalar, _VDim >::
+TComplex ivq::ITK::FourierSeries< _TScalar, _VDim >::
+_Z( const TScalar& w, const unsigned int& n ) const
+{
+ static const TScalar _0 = TScalar( 0 );
+ static const TScalar _1 = TScalar( 1 );
+ TScalar _n = TScalar( n );
+
+ TComplex z( _0, _0 );
+ int q = this->GetNumberOfHarmonics( );
+ for( int l = -q; l <= q; ++l )
+ {
+ TComplex v = ( *this )[ l ] * std::polar( _1, w * TScalar( l ) );
+ if( n > 0 )
+ v *= std::pow( TComplex( _0, TScalar( l ) ), _n );
+ z += v;
+
+ } // rof
+ return( z );
+}
+
+// -------------------------------------------------------------------------
+template< class _TScalar, unsigned int _VDim >
+void ivq::ITK::FourierSeries< _TScalar, _VDim >::
+_DFT( const std::vector< TComplex >& p, unsigned int q )
+{
+ static const TScalar _2pi = TScalar( 2 ) * TScalar( vnl_math::pi );
+
+ this->SetNumberOfHarmonics( q );
+ *this *= TScalar( 0 );
+ if( p.size( ) == 0 )
+ return;
+
+ std::vector< TComplex > dft;
+ for( long m = 0; m < p.size( ); ++m )
+ {
+ TComplex z( TScalar( 0 ), TScalar( 0 ) );
+ for( long k = 0; k < p.size( ); ++k )
+ z +=
+ p[ k ] *
+ std::polar( TScalar( 1 ), -( _2pi * TScalar( m * k ) ) / TScalar( p.size( ) ) );
+ z /= TScalar( p.size( ) );
+ dft.push_back( z );
+
+ } // rof
+
+ ( *this )[ 0 ] = dft[ 0 ];
+ for( int l = 1; l <= q; ++l )
+ {
+ ( *this )[ l ] = dft[ l ];
+ ( *this )[ -l ] = dft[ p.size( ) - l ];
+
+ } // rof
+
+ // Reset contour
+ /* TODO:
+ this->SetNumberOfHarmonics( q );
+
+ // Compute number of calculations K: cut harmonics to q
+ long N = long( p.size( ) );
+ if( N == 0 )
+ return;
+ long K = ( long( q ) << 1 ) + 1;
+ if( K < N - 1 )
+ K = N - 1;
+
+ // Compute harmonics
+ for( long l = -K; l <= K; ++l )
+ {
+ TScalar k = ( ( TScalar( l ) + TScalar( ( l < 0 )? N: 0 ) ) * _2pi ) / TScalar( N );
+ ( *this )[ l ] = TComplex( TScalar( 0 ), TScalar( 0 ) );
+ for( long n = 0; n < N; ++n )
+ ( *this )[ l ] += p[ n ] * std::polar( TScalar( 1 ), k * TScalar( -n ) );
+ ( *this )[ l ] /= TScalar( N );
+
+ } // rof
+ */
+}
+
+// -------------------------------------------------------------------------
+template class ivq::ITK::FourierSeries< float, 2 >;
+template class ivq::ITK::FourierSeries< float, 3 >;
+template class ivq::ITK::FourierSeries< double, 2 >;
+template class ivq::ITK::FourierSeries< double, 3 >;
+
+// eof - $RCSfile$
--- /dev/null
+// =========================================================================
+// @author: Leonardo Florez-Valencia
+// @email: florez-l@javeriana.edu.co
+// =========================================================================
+#ifndef __ivq__ITK__FourierSeries__h__
+#define __ivq__ITK__FourierSeries__h__
+
+#include <complex>
+#include <deque>
+#include <vector>
+#include <utility>
+
+#include <itkMatrix.h>
+#include <itkPoint.h>
+#include <itkVector.h>
+
+namespace ivq
+{
+ namespace ITK
+ {
+ /**
+ * Planar series defined by its harmonic ellipses.
+ *
+ * The tuple [z(l),z(-l)], l != 0 defines an ellipse. The z(0)
+ * harmonic defines the series's center.
+ *
+ */
+ template< class _TScalar, unsigned int _VDim >
+ class FourierSeries
+ : public std::deque< std::complex< _TScalar > >
+ {
+ public:
+ typedef FourierSeries Self;
+ typedef _TScalar TScalar;
+ itkStaticConstMacro( Dimension, unsigned int, _VDim );
+
+ typedef itk::Matrix< _TScalar, _VDim, _VDim > TMatrix;
+ typedef itk::Point< _TScalar, _VDim > TPoint;
+ typedef typename TPoint::VectorType TVector;
+ typedef std::complex< _TScalar > TComplex;
+ typedef std::deque< TComplex > Superclass;
+
+ public:
+ FourierSeries( unsigned int q = 1 );
+ template< class _TScalar2, unsigned int _VDim2 >
+ FourierSeries( const FourierSeries< _TScalar2, _VDim2 >& o );
+ template< class _TIt >
+ FourierSeries( const _TIt& b, const _TIt& e, unsigned int q );
+ virtual ~FourierSeries( );
+
+ template< class _TScalar2, unsigned int _VDim2 >
+ Self& operator=( const FourierSeries< _TScalar2, _VDim2 >& o );
+
+ bool operator==( const Self& o ) const { return( false ); }
+ bool operator!=( const Self& o ) const { return( true ); }
+
+ const unsigned int& GetRealAxis( ) const;
+ const unsigned int& GetImagAxis( ) const;
+ void SetRealAxis( const unsigned int& a );
+ void SetImagAxis( const unsigned int& a );
+
+ /**
+ * $A=\pi\sum_{l=-q}^{q}l|z_{l}|^{2}$
+ */
+ TScalar GetArea( ) const;
+
+ /**
+ * $\kappa(\omega)=\frac{|c'(\omega)\times c''(\omega)|}{|c'(\omega)|^{3}}$
+ */
+ TScalar GetCurvature( const TScalar& w ) const;
+
+ /**
+ * Sets the order of the ellipse. This order is defined as the
+ * counterclock/clock wiseness of the series. Calculations are
+ * done by computing the series's area (\see Area) and comparing
+ * its sign.
+ *
+ * \param cw counter-clock
+ */
+ void SetOrdering( bool cw );
+ void InvertOrdering( );
+ void SetOrderingToClockWise( );
+ void SetOrderingToCounterClockWise( );
+
+ /**
+ * Series manipulators.
+ */
+ int GetNumberOfHarmonics( ) const;
+ void SetNumberOfHarmonics( const int& q );
+ TComplex& operator[]( const int& l );
+ const TComplex& operator[]( const int& l ) const;
+
+ /**
+ * $c(\omega)=\sum_{l=-q}^{q}z_{l}e^{jl\omega}$
+ *
+ * where $0\le\omega<2\pi$ is the angular curvilinear parameter, q is
+ * the number of harmonics defining the series, $z_{l}\in\mathbb{C}$
+ * is the l-th harmonic and $j$ is the imaginary unity.
+ */
+ TPoint operator( )( const TScalar& w ) const;
+
+ /**
+ * $\frac{d^{(n)}c(\omega)}{d\omega^{(n)}}=\sum_{l=-q}^{q}z_{l}e^{jl\omega}(jl)^{n}$
+ *
+ * where $n$ is the derivative number, $0\le\omega<2\pi$ is the
+ * angular curvilinear parameter, q is the number of harmonics
+ * defining the series, $z_{l}\in\mathbb{C}$ is the l-th harmonic
+ * and $j$ is the imaginary unity.
+ */
+ TVector operator( )( const TScalar& w, const unsigned int& n ) const;
+
+ /**
+ * Coefficient-wise addition operators
+ */
+ Self operator+( const Self& o ) const;
+ Self& operator+=( const Self& o );
+ Self operator-( const Self& o ) const;
+ Self& operator-=( const Self& o );
+
+ /**
+ * Translation
+ */
+ Self operator+( const TComplex& translation ) const;
+ Self& operator+=( const TComplex& translation );
+ Self operator-( const TComplex& translation ) const;
+ Self& operator-=( const TComplex& translation );
+ Self operator+( const TVector& translation ) const;
+ Self& operator+=( const TVector& translation );
+ Self operator-( const TVector& translation ) const;
+ Self& operator-=( const TVector& translation );
+ TPoint GetCenter( ) const;
+
+ /**
+ * Scale and/or rotate
+ */
+ Self operator*( const TComplex& scale_or_rotation ) const;
+ Self& operator*=( const TComplex& scale_or_rotation );
+ Self operator/( const TScalar& scale ) const;
+ Self& operator/=( const TScalar& scale );
+
+ /**
+ * Phase
+ */
+ Self operator&( const TScalar& phase ) const;
+ Self& operator&=( const TScalar& phase );
+ TScalar GetPhase( const TScalar& w = TScalar( 0 ) ) const;
+
+ /**
+ * Sampling method
+ */
+ void Sample( std::vector< TPoint >& p, const unsigned long& s ) const;
+
+ /**
+ * Ellipse methods
+ */
+ void GetEllipse( int l, TScalar& a, TScalar& b, TScalar& t, TScalar& p ) const;
+ void SetEllipse( int l, TScalar& a, TScalar& b, TScalar& t, TScalar& p );
+
+ template< class _TOtherScalar >
+ void SetEllipses( const std::vector< _TOtherScalar >& ellipses );
+
+ protected:
+ // Main method to compute all of series's values.
+ TComplex _Z( const TScalar& w, const unsigned int& n ) const;
+
+ // Fourier transform
+ void _DFT( const std::vector< TComplex >& p, unsigned int q );
+
+ protected:
+ unsigned int m_RealAxis;
+ unsigned int m_ImagAxis;
+
+ public:
+ friend std::ostream& operator<<( std::ostream& out, const Self& fs )
+ {
+ int q = fs.GetNumberOfHarmonics( );
+ int l = -q;
+ out << "{" << l << ":" << fs[ l ] << "}";
+ for( ++l; l <= q; l++ )
+ out << ", {" << l << ":" << fs[ l ] << "}";
+ return( out );
+ }
+ };
+
+ } // ecapseman
+
+} // ecapseman
+
+#include <ivq/ITK/FourierSeries.hxx>
+#endif // __ivq__ITK__FourierSeries__h__
+
+// eof - $RCSfile$
git://git.creatis.insa-lyon.fr / cpPlugins.git / commitdiff