public class TLcdLonLatFloatPolygon extends ALcd2DEditableFloatPolypoint implements ILcd2DEditablePolygon, ILcdRing
ILcd2DEditablePolygon
in
the geodetic space.
Calculations are based on a spherical approximation.
It uses an array of floats instead of a TLcd2DEditablePointList
of ILcd2DEditablePoint
objects. A single array of floats
stores the 2D coordinates. The points are stored as (x,y) pairs.
The boolean indicates whether the last 4 places in the array can be used
to store the bounds of the ILcd2DEditablePolygon
.
This class is thread-hostile, even for read-only access, since point instances are being reused from an internal pool.
CLOCKWISE, COUNTERCLOCKWISE, INVALID_ORIENTATION
INTERPOLATION_CIRCLE_BY_3POINTS, INTERPOLATION_CIRCLE_BY_CENTERPOINT, INTERPOLATION_CIRCULARARC_BY_3POINTS, INTERPOLATION_CIRCULARARC_BY_BULGE, INTERPOLATION_CIRCULARARC_BY_CENTERPOINT, INTERPOLATION_ELLIPTICAL, INTERPOLATION_GEODESIC, INTERPOLATION_LINEAR, INTERPOLATION_MIXED, INTERPOLATION_RHUMB
Constructor and Description |
---|
TLcdLonLatFloatPolygon() |
TLcdLonLatFloatPolygon(float[] aPoints,
boolean aHasBounds,
boolean aBoundsInitialized,
boolean aClone) |
TLcdLonLatFloatPolygon(TLcdLonLatFloatPolygon aLonLatFloatPolygon) |
Modifier and Type | Method and Description |
---|---|
protected void |
calculateBounds(ILcd2DEditableBounds aBoundsSFCT)
This method should compute the bounds of the polypoint.
|
Object |
clone()
Creates and returns a copy of this object, by delegating to
Object.clone() . |
void |
computePointSFCT(double aParam,
ILcd3DEditablePoint aPointSFCT)
Computes a point of the curve, defined by the given parameter.
|
boolean |
contains2D(double aLon,
double aLat)
The implementation of the method is based on a spherical approximation.
|
boolean |
contains2D(ILcdPoint aPoint)
The implementation of the method is based on a spherical approximation.
|
protected ILcd2DEditableBounds |
createBounds()
Creates an uninitialized
ILcd2DEditableBounds object of a type compatible with the
concrete implementation of this class. |
protected ILcd2DEditablePoint |
createPoint()
Creates an uninitialized
ILcd2DEditablePoint point of a type compatible with the
concrete implementation of this class (geodesic/cartesian). |
ILcdPoint |
getEndPoint()
Retrieves the end point of the curve.
|
double |
getEndTangent2D()
Returns the angle of the curve's tangent at the end point,
in degrees counterclockwise from the direction at 3 o'clock.
|
String |
getInterpolation()
Returns the interpolation method used by this curve.
|
double |
getLength2D(double aParam1,
double aParam2)
Returns the length between two points of the curve,
defined by the given parameters.
|
int |
getLineSegmentIntersectionCount(ILcdPoint aP1,
ILcdPoint aP2)
Returns the number of intersections between this curve and a line segment
defined by the two specified points.
|
int |
getOrientation()
Returns the orientation of this
ILcdPolygon :
ILcdPolygon.CLOCKWISE or ILcdPolygon.COUNTERCLOCKWISE . |
ILcdPoint |
getStartPoint()
Retrieves the start point of the curve.
|
double |
getStartTangent2D()
Returns the angle of the curve's tangent at the start point,
in degrees counterclockwise from the direction at 3 o'clock.
|
double |
getTangent2D(double aParam)
Returns the angle of the curve's tangent in the point defined
by the given parameter, in degrees counterclockwise from the
direction at 3 o'clock.
|
protected void |
invalidate() |
void |
setOrientation(int aOrientation)
Sets the orientation of this
ILcd2DEditablePolygon . |
calculateFocusPoint, equals, getBounds, getFocusPoint, getPoint, getPointCount, hashCode, insert2DPoint, move2D, move2DPoint, removePointAt, translate2D, translate2DPoint
contains3D, move2D
contains3D, fromDomainObject
finalize, getClass, notify, notifyAll, toString, wait, wait, wait
move2D, move2D, translate2D
append2DPoint, insert2DPoint, move2DPoint, removePointAt, translate2D, translate2DPoint
getPoint, getPointCount, getPointSFCT, getX, getY, getZ
contains3D, contains3D, getFocusPoint
getBounds
public TLcdLonLatFloatPolygon()
public TLcdLonLatFloatPolygon(float[] aPoints, boolean aHasBounds, boolean aBoundsInitialized, boolean aClone)
public TLcdLonLatFloatPolygon(TLcdLonLatFloatPolygon aLonLatFloatPolygon)
protected void invalidate()
invalidate
in class ALcd2DEditableFloatPolypoint
public void setOrientation(int aOrientation)
ILcd2DEditablePolygon
ILcd2DEditablePolygon
.setOrientation
in interface ILcd2DEditablePolygon
aOrientation
- ILcd2DEditablePolygon.CLOCKWISE
,
ILcd2DEditablePolygon.COUNTERCLOCKWISE
or ILcd2DEditablePolygon.INVALID_ORIENTATION
.public int getOrientation()
ILcdPolygon
ILcdPolygon
:
ILcdPolygon.CLOCKWISE
or ILcdPolygon.COUNTERCLOCKWISE
.getOrientation
in interface ILcdPolygon
ILcdPolygon
:
ILcdPolygon.CLOCKWISE
or ILcdPolygon.COUNTERCLOCKWISE
.
This method should not return INVALID_ORIENTATION
, which is only to be used for resetting the orientation
so that it can be recalculated.protected void calculateBounds(ILcd2DEditableBounds aBoundsSFCT)
ALcd2DEditableFloatPolypoint
ILcd2DEditableBounds
should be stored in aBoundsSFCT
.calculateBounds
in class ALcd2DEditableFloatPolypoint
aBoundsSFCT
- assumes the location and the width and height of the bounds of the polypoint.public boolean contains2D(ILcdPoint aPoint)
ILcdPoint
aPoint
to be inside if:
aPoint
interacts with the polygon bounds
aPoint
has an odd number of polygon edge intersections
within a distance of 180 degrees in northern direction (azimuth zero degrees)
contains2D
in interface ILcdShape
contains2D
in class ALcdShape
aPoint
- the point to test.ILcdShape.contains2D(double, double)
public boolean contains2D(double aLon, double aLat)
ILcdPoint
aPoint
to be inside if:
aPoint
interacts with the polygon bounds
aPoint
has an odd number of polygon edge intersections
within a distance of 180 degrees in northern direction (azimuth zero degrees)
contains2D
in interface ILcdShape
contains2D
in class ALcd2DEditableFloatPolypoint
aLon
- the x coordinate of the point.aLat
- the y coordinate of the point.protected ILcd2DEditablePoint createPoint()
ALcd2DEditableFloatPolypoint
ILcd2DEditablePoint
point of a type compatible with the
concrete implementation of this class (geodesic/cartesian). The created point will be
updated and returned by the ALcd2DEditableFloatPolypoint.getPoint(int)
and ALcd2DEditableFloatPolypoint.getFocusPoint()
methods.createPoint
in class ALcd2DEditableFloatPolypoint
protected ILcd2DEditableBounds createBounds()
ALcd2DEditableFloatPolypoint
ILcd2DEditableBounds
object of a type compatible with the
concrete implementation of this class. This bounds object will be updated and returned by the
ALcd2DEditableFloatPolypoint.getBounds()
method.createBounds
in class ALcd2DEditableFloatPolypoint
public Object clone()
ALcdShape
Object.clone()
. Extensions should delegate to this implementation
with super.clone()
, in order to create an object instance of
the right type, with all fields copied. They then should explicitly
clone any non-primitive fields for which a deeper clone is required.clone
in interface ILcdCloneable
clone
in class ALcd2DEditableFloatPolypoint
Object.clone()
public void computePointSFCT(double aParam, ILcd3DEditablePoint aPointSFCT)
ILcdCurve
ILcdCurve.getStartPoint()
.ILcdCurve.getEndPoint()
.computePointSFCT
in interface ILcdCurve
aParam
- a value of the closed interval [0,1]aPointSFCT
- the point to store the computed curve point inpublic ILcdPoint getEndPoint()
ILcdCurve
This is equivalent to computePointSFCT(1)
.
getEndPoint
in interface ILcdCurve
public double getEndTangent2D()
ILcdCurve
The tangent orientation is from the end point, away from the curve before it.
This is the same as getTangent2D(1)
.
getEndTangent2D
in interface ILcdCurve
public String getInterpolation()
ILcdCurve
A set of predefined constants are defined in this interface,
which are used by the default ILcdCurve
implementations
provided by LuciadLightspeed.
Custom implementations can define their own constants, and use them to interpret the interpolation of the curve.
getInterpolation
in interface ILcdCurve
public double getLength2D(double aParam1, double aParam2)
ILcdCurve
aParam1 == aParam2
, the length is 0.aParam1 == 0 and aParam2 == 1
, the length is the whole length of the curve.aParam1 > aParam2
, the length is (aParam1 to 1
) + (0 to aParam2
).getLength2D
in interface ILcdCurve
aParam1
- a value of the closed interval [0,1]aParam2
- a value of the closed interval [0,1]public int getLineSegmentIntersectionCount(ILcdPoint aP1, ILcdPoint aP2)
ILcdCurve
This information can be used to perform containment calculations, if this curve is closed or if this curve is part of a composite closed curve. By determining the number of intersections between this curve and a line segment starting from a given point in a fixed direction, one can determine whether a point is located within the closed curve by using the even-odd rule.
getLineSegmentIntersectionCount
in interface ILcdCurve
aP1
- the first point of the line segmentaP2
- the second point of the line segmentpublic ILcdPoint getStartPoint()
ILcdCurve
This is equivalent to computePointSFCT(0)
.
getStartPoint
in interface ILcdCurve
public double getStartTangent2D()
ILcdCurve
The tangent orientation is from the start point towards the rest of the shape.
This is the same as getTangent2D(0)
.
getStartTangent2D
in interface ILcdCurve
public double getTangent2D(double aParam)
ILcdCurve
The tangent orientation is from the point at parameter aParam
towards the rest of the shape.
ILcdCurve.getStartTangent2D()
.ILcdCurve.getEndTangent2D()
.getTangent2D
in interface ILcdCurve
aParam
- a value of the closed interval [0,1]