casacore
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Abstract base class to steer lattice iterators. More...
#include <LatticeNavigator.h>
Public Member Functions | |
LatticeNavigator () | |
Default constructor. More... | |
LatticeNavigator (const LatticeNavigator &) | |
Copy constructor. More... | |
LatticeNavigator & | operator= (const LatticeNavigator &) |
Assignment. More... | |
virtual | ~LatticeNavigator () |
A virtual destructor. More... | |
virtual Bool | operator++ (int)=0 |
Increment operator - increment the cursor to the next position. More... | |
Bool | operator++ () |
virtual Bool | operator-- (int)=0 |
Decrement operator - decrement the cursor to the previous position. More... | |
Bool | operator-- () |
virtual void | reset ()=0 |
Function to reset the cursor to the beginning of the Lattice and reset the number of steps taken to zero. More... | |
virtual Bool | atStart () const =0 |
Function which returns "True" if the cursor is at the beginning of the Lattice, otherwise, returns "False". More... | |
virtual Bool | atEnd () const =0 |
Function which returns "True" if an attempt has been made to increment the cursor beyond the end of the Lattice. More... | |
virtual uInt | nsteps () const =0 |
Function to return the number of steps (increments or decrements) taken since construction (or since last reset). More... | |
virtual IPosition | position () const =0 |
Functions which return the current position of the beginning of the cursor. More... | |
virtual IPosition | relativePosition () const |
virtual IPosition | endPosition () const =0 |
Functions which return the current position of the end of the cursor. More... | |
virtual IPosition | relativeEndPosition () const |
virtual IPosition | latticeShape () const =0 |
Functions which return the shape of the Lattice being iterated through. More... | |
virtual IPosition | subLatticeShape () const |
virtual IPosition | cursorShape () const =0 |
Function which returns the current shape of the cursor which is iterating through the Lattice. More... | |
virtual IPosition | cursorAxes () const =0 |
Function which returns the axes of the cursor. More... | |
virtual Bool | hangOver () const =0 |
Function which returns "True" if the increment/decrement operators have moved the cursor position such that part of the cursor is hanging over the edge of the Lattice. More... | |
virtual IPosition | hangOverBlc () const |
Functions which return the "bottom left corner" and the "top right corner" of the cursor that does not hangover. More... | |
virtual IPosition | hangOverTrc () const |
virtual void | subSection (const IPosition &blc, const IPosition &trc) |
Function to specify a "section" of the Lattice to Navigate over. More... | |
virtual void | subSection (const IPosition &blc, const IPosition &trc, const IPosition &inc) |
virtual IPosition | blc () const |
Return the bottom left hand corner (blc), top right corner (trc) or step size (increment) used by the current sub-Lattice. More... | |
virtual IPosition | trc () const |
virtual IPosition | increment () const |
virtual const IPosition & | axisPath () const =0 |
Return the axis path. More... | |
virtual uInt | calcCacheSize (const IPosition &cubeShape, const IPosition &tileShape, uInt maxCacheSize, uInt bucketSize) const =0 |
Calculate the cache size (in tiles) for this type of access to a lattice in the given row of the tiled hypercube. More... | |
virtual LatticeNavigator * | clone () const =0 |
Function which returns a pointer to dynamic memory of an exact copy of this LatticeNavigator. More... | |
virtual Bool | ok () const |
Function which checks the internals of the class for consistency. More... | |
Abstract base class to steer lattice iterators.
Internal
Lattice iteration can proceed with a number of different strategies - all of which answer the question: where do I go from here? You could travel through by making calculations on the lattice subscripts, viewing ascending planes in an image cube, for example, or you could travel through by making calculations on the data, viewing small subimage planes in order of descending brightness over the whole cube. Concrete classes derived from this base class implement different navigation strategies - but they are all "navigators".
This abstract base class defines the interface for objects which generate positions for LatticeIterators. This position is not just a single point in the Lattice but a region or "cursor" that is moved through the Lattice. The LatticeIterator classes actually retrieve the data in the cursor from the Lattice. The class decribed here (and those derived from it) are responsible for moving the cursor to the next position and determining its shape.
There may eventually be a large collection of tools for traversing Lattices. At this writing (December 1999) there are three concrete classes derived from LatticeNavigator: LatticeStepper, TiledLineStepper, and TileStepper.
The LatticeStepper
class moves through a Lattice in fixed steps defined by the user specified cursor, incrementing to the next portion of the Lattice with each step, and wrapping around axes as needed. Other position generators might follow the brightest pixel, traverse a number of predefined subregions, or change size automatically when near the edges.
The TiledLineStepper
class moves a Vector cursor through a Lattice, until all the lines in the set of tiles along the specified axis have been exhausted. It then moves to the next set of tiles. This is a memory-efficient way to move a Vector cursor through a Lattice.
The most important member functions of this class are those which move the cursor to the next position. These are the operator++
and operator--
member functions, (in postfix and prefix forms).
The cursor shape need not be constant as it moves through the Lattice, but may change depending on its current position. For the LatticeStepper and TiledLineStepper classes, however, the cursor shape is constant as it steps through the Lattice.
It is not possible to randomly move the cursor to an arbitrary place in the Lattice, although the cursor can be moved to the starting position at any time using the reset
member function.
The position of the cursor can be queried at any time using the position
member function. This gives the position of the bottom left hand corner of the cursor. The position of the top right hand corner of the cursor is obtained using the endPosition
member function, and the current cursor shape is obtained using the cursorShape
member function. Note that the endPosition does not take an overhang into account.
It is possible that for some positions of the cursor, part of it will "hang over" the edge of the Lattice. When this occurs the hangOver
member function will return True. This will occur with a LatticeStepper if the Lattice shape is not a multiple of the cursor shape. Hangover cannot occur with the TiledLineStepper as the length of the Vector cursor is defined by the Lattice Shape.
It may be possible (depending on the concrete LatticeNavigator actually used) to specify that only a region of the Lattice (defined by a top right hand corner, bottom left hand corner, and step increment) be traversed by the LatticeNavigator. This is done using the subSection
member function. At any time the region can be redefined by calling the subSection
function again. This replaces the previously defined region with the new one.
Using the subSection function always sets the cursor position to the origin of the currently defined sub-lattice. This is a backdoor way to move the cursor to random locations in the Lattice.
It is an error to define a sub-lattice that is bigger than the current Lattice. If using a LatticeStepper it may also be necessary to resize the cursor (using the setCursorShape
member function) prior to calling the subSection function as the cursor cannot be bigger than the sub-Lattice on any axis.
The arguments (trc
, blc
and inc
) to the subSection
function are always relative to the main Lattice. This is also true of the position
and endPosition
functions. To get the position of the cursor relative to the currently defined sub-Lattice use the relativePosition
and relativeEndPosition
member functions.
Many of the LatticeIterator member functions are directly forwarded to virtual functions of this class, and classes derived from it. For instance, LatticeIterator<T>::operator++() calls LatticeIterInterface->operator++() which calls LatticeNavigator->operator++() which might resolve to LatticeStepper->operator++(). Other functions like this are documented in the LatticeIterator class.
See the examples in the LatticeStepper class, the TiledLineStepper class, and the TileStepper class.
Iterator classes are quite common in C++. What's novel about the design which includes this class is the separation of iterator mechanisms from traversal strategy. The iterator provides a lot of functionality: it provides a cursor, damage notification and tracking, and reading and writing to the underlying data structure. Traversal strategies can and should be isolated from these things. Because every LatticeIterator uses a Navigator, it gets the benefits of a derived concrete navigator without getting involved in its mechanism.
Definition at line 182 of file LatticeNavigator.h.
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Default constructor.
Definition at line 185 of file LatticeNavigator.h.
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Copy constructor.
Definition at line 189 of file LatticeNavigator.h.
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virtual |
A virtual destructor.
A virtual is needed to ensure that derived classes accessed through pointers to a LatticeNavigator will scope their destructor to the derived class destructor.
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pure virtual |
Function which returns "True" if an attempt has been made to increment the cursor beyond the end of the Lattice.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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pure virtual |
Function which returns "True" if the cursor is at the beginning of the Lattice, otherwise, returns "False".
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Return the axis path.
See LatticeStepper for a description and examples.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Return the bottom left hand corner (blc), top right corner (trc) or step size (increment) used by the current sub-Lattice.
In the default implementation of this class sub-sectioning is not supported and these functions will always return blc=0, trc=latticeShape-1, increment=1, ie. the entire Lattice.
Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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pure virtual |
Calculate the cache size (in tiles) for this type of access to a lattice in the given row of the tiled hypercube.
A zero bucket size indicates that the data are not tiled, but in memory. Then a cache size of 0 is returned.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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pure virtual |
Function which returns a pointer to dynamic memory of an exact copy of this LatticeNavigator.
It is the responsibility of the caller to release this memory.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function which returns the axes of the cursor.
These are the axes which should not be removed by the iterator functions vectorCursor()
, etc..
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function which returns the current shape of the cursor which is iterating through the Lattice.
The returned IPosition will have the same number of axes as the underlying Lattice.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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pure virtual |
Functions which return the current position of the end of the cursor.
The endPosition
function is relative to the origin in the main Lattice and the relativeEndPosition
function is relative to the origin and increment used in the sub-Lattice (defined using the subSection
function). The returned IPosition will have the same number of axes as the underlying Lattice.
Caution: It returns the end position in the lattice and does not take overhang into account;
The default implementation of the relativeEndPosition
function returns (endPosition() - blc()) / increment()
.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function which returns "True" if the increment/decrement operators have moved the cursor position such that part of the cursor is hanging over the edge of the Lattice.
This function may always return a value of "False" for some iteration methods that do not move the cursor past the Lattice boundaries.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Functions which return the "bottom left corner" and the "top right corner" of the cursor that does not hangover.
Use these functions to extract the valid part of the cursor when the hangover member function is true. If there is no hangover then hangOverBLC returns an IPosition of zero and hangOverTRC() returns the cursorShape - 1;
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Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Functions which return the shape of the Lattice being iterated through.
latticeShape
always returns the shape of the main Lattice while subLatticeShape
returns the shape of any sub-Lattice defined using the subSection
function. In the default implementation of this class it is not possible to use the subsection
function (it throws an exception) so the default implementation of the subLatticeShape
function calls the latticeShape
function. The returned IPosition will always have the same number of axes as the underlying Lattice.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function to return the number of steps (increments or decrements) taken since construction (or since last reset).
This is a running count of all cursor movement since doing N increments followed by N decrements does not necessarily put the cursor back at the origin of the Lattice.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function which checks the internals of the class for consistency.
Returns True if everything is fine otherwise returns False. The default implementation always returns True.
Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Increment operator - increment the cursor to the next position.
The implementation of the prefix operator calls the postfix one.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Definition at line 354 of file LatticeNavigator.h.
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Decrement operator - decrement the cursor to the previous position.
The implementation of the prefix operator calls the postfix one.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Definition at line 358 of file LatticeNavigator.h.
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Assignment.
Definition at line 193 of file LatticeNavigator.h.
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Functions which return the current position of the beginning of the cursor.
The position
function is relative to the origin in the main Lattice and the relativePosition
function is relative to the origin and increment used in the sub-Lattice (defined using the subSection
function). The returned IPosition will have the same number of axes as the underlying Lattice.
The default implementation of the relativePosition
function returns (position() - blc()) / increment()
.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Reimplemented in casacore::LatticeStepper.
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Reimplemented in casacore::LatticeStepper.
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Function to reset the cursor to the beginning of the Lattice and reset the number of steps taken to zero.
Implemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Function to specify a "section" of the Lattice to Navigate over.
A section is defined in terms of the Bottom Left Corner (blc), Top Right Corner (trc), and step size (inc), on ALL of its axes, including degenerate axes. The step size defaults to one if not specified. In the default implementation of this class subsectioning is not supported and using the subsection
function will throw an exception (AipsError).
Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.
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Reimplemented in casacore::LatticeStepper, casacore::TiledLineStepper, and casacore::TileStepper.