casacore
Public Member Functions | Private Member Functions | Private Attributes | List of all members
casacore::PixelCurve1D Class Reference

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#include <PixelCurve1D.h>

Public Member Functions

 PixelCurve1D (double x1=0, double y1=0, double x2=1, double y2=1, uInt npoints=0)
 Define a straight line from (x1,y1) to (x2,y2). More...
 
 PixelCurve1D (const Function1D< float, float > &, float x1, float x2, uInt npoints=0)
 Define a curve with an arbitrary function from x1 to x2. More...
 
 PixelCurve1D (const Vector< Int > &x, const Vector< Int > &y, uInt npoints=0)
 Define a curve from a polyline with the given points. More...
 
 PixelCurve1D (const Vector< float > &x, const Vector< float > &y, uInt npoints=0)
 
 PixelCurve1D (const Vector< double > &x, const Vector< double > &y, uInt npoints=0)
 
 PixelCurve1D (const PixelCurve1D &that)
 
 ~PixelCurve1D ()
 
PixelCurve1Doperator= (const PixelCurve1D &that)
 
uInt npoints () const
 
void getPixelCoord (Vector< float > &x, Vector< float > &y, uInt start, uInt end, uInt incr=1) const
 Get the pixel coordinates in the original lattice for point start till end with given step. More...
 

Private Member Functions

void init (const Vector< double > &x, const Vector< double > &y, uInt npoints)
 Initialize the object. More...
 

Private Attributes

uInt itsNpoints
 
Vector< double > itsX
 
Vector< double > itsY
 

Detailed Description

Arbitrary 1-dim curve in a lattice plane.

Intended use:

Public interface

Review Status

Test programs:
tPixelCurve1D

Prerequisite

Synopsis

PixelCurve1D represents a 1-dim curve in a lattice plane to be used by CurvedLattice2D. The curve can be any function supported in the Functionals module.
A special constructor exists to define a straight line.
Another special constructor exists for a polyline.

The domain for which the curve is valid is given by the interval [x1,x2]. The granularity of the domain is given by the number of points. The number of points also define the length of the new axis in the CurvedLattice2D object.

Example

// Use function y=cos(2*pi*x) on the interval [0,2] with 5 points.
Sinusoid1D<float> fn;
PixelCurve1D pcurve2(fn, 0., 2., 5);
AlwaysAssertExit (pcurve2.npoints() == 5);
pcurve2.getPixelCoord (x, y, 0, 4);
cout << x << y << endl;
#define AlwaysAssertExit(expr)
Definition: Assert.h:159
PixelCurve1D(double x1=0, double y1=0, double x2=1, double y2=1, uInt npoints=0)
Define a straight line from (x1,y1) to (x2,y2).

The result of x is [0, 0.5, 1, 1.5, 2]. The result of y is [1, -1, 1, -1, 1]

Motivation

The viewer must be able to show a crosscut through an image using an arbitrary curve.

To Do

Definition at line 96 of file PixelCurve1D.h.

Constructor & Destructor Documentation

◆ PixelCurve1D() [1/6]

casacore::PixelCurve1D::PixelCurve1D ( double  x1 = 0,
double  y1 = 0,
double  x2 = 1,
double  y2 = 1,
uInt  npoints = 0 
)
explicit

Define a straight line from (x1,y1) to (x2,y2).

The default number of points is the length of the line.

◆ PixelCurve1D() [2/6]

casacore::PixelCurve1D::PixelCurve1D ( const Function1D< float, float > &  ,
float  x1,
float  x2,
uInt  npoints = 0 
)

Define a curve with an arbitrary function from x1 to x2.

The default number of points is the length of the curve. The length of the curve is determined numerically by integration of sqrt(1+sqr(df/dx)).

◆ PixelCurve1D() [3/6]

casacore::PixelCurve1D::PixelCurve1D ( const Vector< Int > &  x,
const Vector< Int > &  y,
uInt  npoints = 0 
)

Define a curve from a polyline with the given points.

Both vectors have to be equally long and at least 2 long. The argument npoints defines the number of points (with regular steps) in which the curve is divided. The default is the length of the polyline.

◆ PixelCurve1D() [4/6]

casacore::PixelCurve1D::PixelCurve1D ( const Vector< float > &  x,
const Vector< float > &  y,
uInt  npoints = 0 
)

◆ PixelCurve1D() [5/6]

casacore::PixelCurve1D::PixelCurve1D ( const Vector< double > &  x,
const Vector< double > &  y,
uInt  npoints = 0 
)

◆ PixelCurve1D() [6/6]

casacore::PixelCurve1D::PixelCurve1D ( const PixelCurve1D that)

◆ ~PixelCurve1D()

casacore::PixelCurve1D::~PixelCurve1D ( )

Member Function Documentation

◆ getPixelCoord()

void casacore::PixelCurve1D::getPixelCoord ( Vector< float > &  x,
Vector< float > &  y,
uInt  start,
uInt  end,
uInt  incr = 1 
) const

Get the pixel coordinates in the original lattice for point start till end with given step.

◆ init()

void casacore::PixelCurve1D::init ( const Vector< double > &  x,
const Vector< double > &  y,
uInt  npoints 
)
private

Initialize the object.

◆ npoints()

uInt casacore::PixelCurve1D::npoints ( ) const
inline

Definition at line 129 of file PixelCurve1D.h.

References itsNpoints.

◆ operator=()

PixelCurve1D& casacore::PixelCurve1D::operator= ( const PixelCurve1D that)

Member Data Documentation

◆ itsNpoints

uInt casacore::PixelCurve1D::itsNpoints
private

Definition at line 141 of file PixelCurve1D.h.

Referenced by npoints().

◆ itsX

Vector<double> casacore::PixelCurve1D::itsX
private

Definition at line 142 of file PixelCurve1D.h.

◆ itsY

Vector<double> casacore::PixelCurve1D::itsY
private

Definition at line 143 of file PixelCurve1D.h.


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