An image crosscut based on a curve in a plane. More...

#include <CurvedImage2D.h>

Inheritance diagram for casa::CurvedImage2D< T >:

Public Member Functions
	CurvedImage2D ()
	The default constructor.
	CurvedImage2D (const ImageInterface< T > &, const CLInterpolator2D< T > &, const PixelCurve1D &, uInt axis1, uInt axis2, Int curveAxis=-1)
	Take a curved slice from the given image.
	CurvedImage2D (const CurvedImage2D< T > &other)
	Copy constructor (reference semantics).
virtual	~CurvedImage2D ()
CurvedImage2D< T > &	operator= (const CurvedImage2D< T > &other)
	Assignment (reference semantics).
virtual ImageInterface< T > *	cloneII () const
	Make a copy of the object (reference semantics).
virtual String	imageType () const
	Get the image type (returns name of derived class).
virtual Bool	isMasked () const
	Is the CurvedImage2D masked? It is if its parent image is masked.
virtual Bool	hasPixelMask () const
	Does the image object have a pixelmask? It does if its parent has a pixelmask.
virtual const Lattice< Bool > &	pixelMask () const
	Get access to the pixelmask in use (thus to the pixelmask of the parent).
virtual Lattice< Bool > &	pixelMask ()
virtual const LatticeRegion *	getRegionPtr () const
	Get the region used (always returns 0).
virtual Bool	isPersistent () const
	A CurvedImage2D is not persistent.
virtual Bool	isPaged () const
	Is the CurvedImage2D paged to disk?
virtual Bool	isWritable () const
	An CurvedImage2D is not writable.
virtual IPosition	shape () const
	Returns the shape of the CurvedImage2D.
virtual uInt	advisedMaxPixels () const
	This function returns the recommended maximum number of pixels to include in the cursor of an iterator.
virtual void	resize (const TiledShape &newShape)
	Function which changes the shape of the CurvedImage2D.
virtual String	name (Bool stripPath=False) const
	Return the name of the parent ImageInterface object.
virtual Bool	ok () const
	Check class invariants.
virtual Bool	doGetSlice (Array< T > &buffer, const Slicer &section)
	Do the actual getting of an array of values.
virtual void	doPutSlice (const Array< T > &sourceBuffer, const IPosition &where, const IPosition &stride)
	Putting data is not possible.
virtual Bool	doGetMaskSlice (Array< Bool > &buffer, const Slicer &section)
	Get a section of the mask.
virtual LatticeIterInterface< T > *	makeIter (const LatticeNavigator &navigator, Bool useRef) const
	This function is used by the LatticeIterator class to generate an iterator of the correct type for this Lattice.
virtual IPosition	doNiceCursorShape (uInt maxPixels) const
	Get the best cursor shape.
virtual Bool	lock (FileLocker::LockType, uInt nattempts)
	Handle the (un)locking and syncing, etc.
virtual void	unlock ()
virtual Bool	hasLock (FileLocker::LockType) const
virtual void	resync ()
	Resynchronize the Lattice object with the lattice file.
virtual void	flush ()
	Flush the data (but do not unlock).
virtual void	tempClose ()
	Temporarily close the lattice.
virtual void	reopen ()
	Explicitly reopen the temporarily closed lattice.
Private Attributes
ImageInterface< T > *	itsImagePtr

CurvedLattice2D< T > *	itsCurLatPtr

Detailed Description

template<class T>
class casa::CurvedImage2D< T >

An image crosscut based on a curve in a plane.

Intended use:

Public interface

Review Status

Test programs:: tCurvedImage2D

Prerequisite

Synopsis

Class CurvedImage2D can be used to make a crosscut through an image with a dimensionality >= 2. The dimensionality of the resulting image is one less. The crosscut is based on a curve defined by a PixelCurve1D object. The curve can be any 1-dim function (e.g. straight line, spline) supported by the Functionals module. The curve must be in one of the main planes of the image as defined by the axes arguments in the constructor.
For example: in an RA-DEC-FREQ image a straight line can be defined in the RA-DEC plane (axis1=0, axis2=1) from blc {0,0) to trc (511,511). The crosscut will follow this line, so the result is a 2-dim image with axes 'line' and FREQ. So it contains the spectrum for all points on the line (points (0,0), (1,1) ... (511,511)).
In this example the line only contains exact grid points. In practice that usually won't be case, so interpolation has to be done. This is done by a class derived from CLInterpolator2D , so any interpolation scheme is possible. Currently only the nearest neighbour scheme is implemented ( CLIPNearest2D ).

Example

The following example uses a 3-dim image. It makes a crosscut using a line from the blc to the trc in the XY plane. The number of points on the line is the maximum of the number of points in X and Y.

    // Open an image.
    PagedImage<Float> image("name.img");
    // Make a straight line from (0,0) to the trc.
    IPosition shp = lat.shape();
    Int xtop = shp(0);
    Int ytop = shp(1);
    Int nr = xtop;
    if (nr > ytop) nr = ytop;
    PixelCurve1D pc(0, 0, xtop-1, ytop-1, nr);
    // Create the crosscut image.
    // The new axis (the curve axis) is the first axis in the result.
    CurvedImage2D<Float> clat(image, CLIPNearest2D<Float>(), pc, 0, 1, 0);

Note that in the general case the line (or any curve) won't be from the blc to the trc. In fact, it is possible to give any starting and end point and any number of points on the curve.

Motivation

Users like to view arbitrary image crosscuts.

Definition at line 112 of file CurvedImage2D.h.

Constructor & Destructor Documentation

template<class T>

casa::CurvedImage2D< T >::CurvedImage2D ( )

The default constructor.

template<class T>

casa::CurvedImage2D< T >::CurvedImage2D	(	const ImageInterface< T > &	,
		const CLInterpolator2D< T > &	,
		const PixelCurve1D &	,
		uInt	axis1,
		uInt	axis2,
		Int	curveAxis = `-1`
	)

Take a curved slice from the given image.

The PixelCurve1D object defines the curve in one of the planes of the image. The arguments axis1 and axis2 define the plane the curve is in. The CLInterpolator2D object defines the interpolation scheme for pixels that are not on grid points. An example is CLIPNearest2D which takes the nearest neighbour. The dimensionality of the CurvedImage2D is one less than the dimensionality of the given image. Two axes (axis1 and axis2) are replaced by the new axis representing the curve. The argument curveAxis defines the axis number of the new axis. It defaults to the last axis. An exception is thrown if the dimensionality of the input image is < 2 or if the given axes numbers are too high. Note that the output CoordinateSystem of the CurvedImage is just a dummy LinearCoordinate at this point. The values are all arbitrary.

template<class T>

casa::CurvedImage2D< T >::CurvedImage2D ( const CurvedImage2D< T > & other )

Copy constructor (reference semantics).

template<class T>

virtual casa::CurvedImage2D< T >::~CurvedImage2D ( ) [virtual]

Member Function Documentation

template<class T>

virtual uInt casa::CurvedImage2D< T >::advisedMaxPixels ( ) const [virtual]

This function returns the recommended maximum number of pixels to include in the cursor of an iterator.

Reimplemented from casa::Lattice< T >.

template<class T>

virtual ImageInterface<T>* casa::CurvedImage2D< T >::cloneII ( ) const [virtual]

Make a copy of the object (reference semantics).

Implements casa::ImageInterface< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::doGetMaskSlice	(	Array< Bool > &	buffer,
		const Slicer &	section
	)		`[virtual]`

Get a section of the mask.

Reimplemented from casa::MaskedLattice< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::doGetSlice	(	Array< T > &	buffer,
		const Slicer &	section
	)		`[virtual]`

Do the actual getting of an array of values.

Implements casa::Lattice< T >.

template<class T>

virtual IPosition casa::CurvedImage2D< T >::doNiceCursorShape ( uInt maxPixels ) const [virtual]

Get the best cursor shape.

Reimplemented from casa::LatticeBase.

template<class T>

virtual void casa::CurvedImage2D< T >::doPutSlice	(	const Array< T > &	sourceBuffer,
		const IPosition &	where,
		const IPosition &	stride
	)		`[virtual]`

Putting data is not possible.

Implements casa::Lattice< T >.

template<class T>

virtual void casa::CurvedImage2D< T >::flush ( ) [virtual]

Flush the data (but do not unlock).

By default the function does not do anything at all.

Reimplemented from casa::LatticeBase.

template<class T>

virtual const LatticeRegion* casa::CurvedImage2D< T >::getRegionPtr ( ) const [virtual]

Get the region used (always returns 0).

Implements casa::MaskedLattice< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::hasLock ( FileLocker::LockType ) const [virtual]

Reimplemented from casa::LatticeBase.

template<class T>

virtual Bool casa::CurvedImage2D< T >::hasPixelMask ( ) const [virtual]

Does the image object have a pixelmask? It does if its parent has a pixelmask.

Reimplemented from casa::MaskedLattice< T >.

template<class T>

virtual String casa::CurvedImage2D< T >::imageType ( ) const [virtual]

Get the image type (returns name of derived class).

Implements casa::ImageInterface< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::isMasked ( ) const [virtual]

Is the CurvedImage2D masked? It is if its parent image is masked.

Reimplemented from casa::MaskedLattice< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::isPaged ( ) const [virtual]

Is the CurvedImage2D paged to disk?

Reimplemented from casa::LatticeBase.

template<class T>

virtual Bool casa::CurvedImage2D< T >::isPersistent ( ) const [virtual]

A CurvedImage2D is not persistent.

Reimplemented from casa::LatticeBase.

template<class T>

virtual Bool casa::CurvedImage2D< T >::isWritable ( ) const [virtual]

An CurvedImage2D is not writable.

Reimplemented from casa::LatticeBase.

template<class T>

virtual Bool casa::CurvedImage2D< T >::lock	(	FileLocker::LockType	,
		uInt	nattempts
	)		`[virtual]`

Handle the (un)locking and syncing, etc.

Reimplemented from casa::LatticeBase.

template<class T>

virtual LatticeIterInterface<T>* casa::CurvedImage2D< T >::makeIter	(	const LatticeNavigator &	navigator,
		Bool	useRef
	)		const `[virtual]`

This function is used by the LatticeIterator class to generate an iterator of the correct type for this Lattice.

Not recommended for general use.

Reimplemented from casa::Lattice< T >.

template<class T>

virtual String casa::CurvedImage2D< T >::name ( Bool stripPath = False ) const [virtual]

Return the name of the parent ImageInterface object.

Implements casa::ImageInterface< T >.

template<class T>

virtual Bool casa::CurvedImage2D< T >::ok ( ) const [virtual]

Check class invariants.

Implements casa::ImageInterface< T >.

template<class T>

CurvedImage2D<T>& casa::CurvedImage2D< T >::operator= ( const CurvedImage2D< T > & other )

Assignment (reference semantics).

template<class T>

virtual const Lattice<Bool>& casa::CurvedImage2D< T >::pixelMask ( ) const [virtual]

Get access to the pixelmask in use (thus to the pixelmask of the parent).

An exception is thrown if the parent does not have a pixelmask.

Reimplemented from casa::MaskedLattice< T >.

template<class T>

virtual Lattice<Bool>& casa::CurvedImage2D< T >::pixelMask ( ) [virtual]

Reimplemented from casa::MaskedLattice< T >.

template<class T>

virtual void casa::CurvedImage2D< T >::reopen ( ) [virtual]

Explicitly reopen the temporarily closed lattice.

By default the function does not do anything at all.

Reimplemented from casa::LatticeBase.

template<class T>

virtual void casa::CurvedImage2D< T >::resize ( const TiledShape & newShape ) [virtual]

Function which changes the shape of the CurvedImage2D.

Throws an exception as resizing an CurvedImage2D is not possible.

Implements casa::ImageInterface< T >.

template<class T>

virtual void casa::CurvedImage2D< T >::resync ( ) [virtual]

Resynchronize the Lattice object with the lattice file.

This function is only useful if no read-locking is used, ie. if the table lock option is UserNoReadLocking or AutoNoReadLocking. In that cases the table system does not acquire a read-lock, thus does not synchronize itself automatically.
By default the function does not do anything at all.

Reimplemented from casa::LatticeBase.

template<class T>

virtual IPosition casa::CurvedImage2D< T >::shape ( ) const [virtual]

Returns the shape of the CurvedImage2D.

Implements casa::LatticeBase.

template<class T>

virtual void casa::CurvedImage2D< T >::tempClose ( ) [virtual]

Temporarily close the lattice.

It will be reopened automatically on the next access.
By default the function does not do anything at all.

Reimplemented from casa::LatticeBase.

template<class T>

virtual void casa::CurvedImage2D< T >::unlock ( ) [virtual]

Reimplemented from casa::LatticeBase.

Member Data Documentation

template<class T>

CurvedLattice2D<T>* casa::CurvedImage2D< T >::itsCurLatPtr [private]

Definition at line 233 of file CurvedImage2D.h.

template<class T>

ImageInterface<T>* casa::CurvedImage2D< T >::itsImagePtr [private]

Definition at line 232 of file CurvedImage2D.h.

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

casacore/images/Images/CurvedImage2D.h

Public Member Functions

Private Attributes

Detailed Description

template<class T> class casa::CurvedImage2D< T >

Intended use:

Review Status

Prerequisite

Synopsis

Example

Motivation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation

template<class T>
class casa::CurvedImage2D< T >