math.geom3d.line
Class LineSegment3D

Package class diagram package LineSegment3D
java.lang.Object
  extended by math.geom3d.line.LineSegment3D
All Implemented Interfaces:
Serializable, ContinuousCurve3D, Curve3D, Shape3D

public class LineSegment3D
extends Object
implements ContinuousCurve3D

Author:
dlegland
See Also:
Serialized Form

Nested Class Summary
 
Nested classes/interfaces inherited from interface math.geom3d.Shape3D
Shape3D.EmptySet3D
 
Field Summary
protected  double x1
           
protected  double x2
           
protected  double y1
           
protected  double y2
           
protected  double z1
           
protected  double z2
           
 
Fields inherited from interface math.geom3d.Shape3D
ACCURACY, EMPTY_SET
 
Constructor Summary
LineSegment3D(Point3D p1, Point3D p2)
           
 
Method Summary
 Shape3D clip(Box3D box)
           
 boolean contains(Point3D point)
           
 Box3D getBoundingBox()
           
 Collection<LineSegment3D> getContinuousCurves()
          Returns the collection of continuous curves which constitute this curve.
 double getDistance(LineSegment3D segment)
          Returns distance of this segment from 'segment'.
 double getDistance(Point3D point)
          Gets the distance of the shape to the given point, or the distance of point to the frontier of the shape in the case of a plain shape.
 Point3D getFirstPoint()
          Get the first point of the curve.
 Point3D getLastPoint()
          Get the last point of the curve.
 Point3D getPoint(double t)
          Gets the point from a parametric representation of the curve.
 Point3D getPoint(double t, Point3D point)
          Same as getPoint(t), but gives the point as a parameter.
 double getPosition(Point3D point)
          If point does not project on the line segment, return Double.NaN.
 Curve3D getReverseCurve()
          Returns the curve with same trace on the plane with parametrization in reverse order.
 Collection<Point3D> getSingularPoints()
          Returns the2 end points.
 LineSegment3D getSubCurve(double t0, double t1)
          Returns a portion of the original curve, delimited by two positions on the curve.
 StraightLine3D getSupportingLine()
           
 double getT0()
          Return 0, by definition of LineSegment.
 double getT1()
          Return 1, by definition of LineSegment.
 boolean isBounded()
          Returns true, as a LineSegment3D is always bounded.
 boolean isEmpty()
          Returns false, as a LineSegment3D is never empty.
 double project(Point3D point)
          Returns the position of the closest orthogonal projection of the point on the curve, or of the closest singular point.
 Point3D projectPoint(Point3D point)
           
 Curve3D transform(AffineTransform3D trans)
          Transforms the curve by an affine transform.
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 

Field Detail

x1

protected double x1

y1

protected double y1

z1

protected double z1

x2

protected double x2

y2

protected double y2

z2

protected double z2
Constructor Detail

LineSegment3D

public LineSegment3D(Point3D p1,
                     Point3D p2)
Method Detail

getSupportingLine

public StraightLine3D getSupportingLine()

projectPoint

public Point3D projectPoint(Point3D point)

getContinuousCurves

public Collection<LineSegment3D> getContinuousCurves()
Description copied from interface: Curve3D
Returns the collection of continuous curves which constitute this curve.

Specified by:
getContinuousCurves in interface Curve3D
Returns:
a collection of continuous curves.

getFirstPoint

public Point3D getFirstPoint()
Description copied from interface: Curve3D
Get the first point of the curve. It must returns the same result as getPoint(getT0()).

Specified by:
getFirstPoint in interface Curve3D
Returns:
the first point of the curve

getLastPoint

public Point3D getLastPoint()
Description copied from interface: Curve3D
Get the last point of the curve. It must returns the same result as getPoint(getT1()).

Specified by:
getLastPoint in interface Curve3D
Returns:
the last point of the curve.

getPoint

public Point3D getPoint(double t)
Description copied from interface: Curve3D
Gets the point from a parametric representation of the curve. If the parameter lies outside the definition range, the parameter corresponding to the closest bound is used instead. This method can be used to draw an approximated outline of a curve, by selecting multiple values for t and drawing lines between them.

Specified by:
getPoint in interface Curve3D

getPoint

public Point3D getPoint(double t,
                        Point3D point)
Description copied from interface: Curve3D
Same as getPoint(t), but gives the point as a parameter. This avoids repetitive memory allocations.

Specified by:
getPoint in interface Curve3D

getPosition

public double getPosition(Point3D point)
If point does not project on the line segment, return Double.NaN.

Specified by:
getPosition in interface Curve3D
Parameters:
point - a point belonging to the curve
Returns:
the position of the point on the curve
See Also:
Curve3D.getPosition(math.geom3d.Point3D)

getReverseCurve

public Curve3D getReverseCurve()
Description copied from interface: Curve3D
Returns the curve with same trace on the plane with parametrization in reverse order.

Specified by:
getReverseCurve in interface Curve3D

getSingularPoints

public Collection<Point3D> getSingularPoints()
Returns the2 end points.

Specified by:
getSingularPoints in interface Curve3D
Returns:
a collection of Point3D.
See Also:
Curve3D.getSingularPoints()

getSubCurve

public LineSegment3D getSubCurve(double t0,
                                 double t1)
Description copied from interface: Curve3D
Returns a portion of the original curve, delimited by two positions on the curve.

Specified by:
getSubCurve in interface Curve3D
Parameters:
t0 - position of the start of the sub-curve
t1 - position of the end of the sub-curve
Returns:
the portion of original curve comprised between t0 and t1.

getT0

public double getT0()
Return 0, by definition of LineSegment.

Specified by:
getT0 in interface Curve3D
See Also:
Curve3D.getT0()

getT1

public double getT1()
Return 1, by definition of LineSegment.

Specified by:
getT1 in interface Curve3D
See Also:
Curve3D.getT1()

project

public double project(Point3D point)
Description copied from interface: Curve3D
Returns the position of the closest orthogonal projection of the point on the curve, or of the closest singular point. This function should always returns a valid value.

Specified by:
project in interface Curve3D
Parameters:
point - a point to project
Returns:
the position of the closest orthogonal projection

transform

public Curve3D transform(AffineTransform3D trans)
Description copied from interface: Curve3D
Transforms the curve by an affine transform. The result is an instance of Curve3D.

Specified by:
transform in interface Curve3D
Specified by:
transform in interface Shape3D

clip

public Shape3D clip(Box3D box)
Specified by:
clip in interface Shape3D

contains

public boolean contains(Point3D point)
Specified by:
contains in interface Shape3D

getBoundingBox

public Box3D getBoundingBox()
Specified by:
getBoundingBox in interface Shape3D

getDistance

public double getDistance(Point3D point)
Description copied from interface: Shape3D
Gets the distance of the shape to the given point, or the distance of point to the frontier of the shape in the case of a plain shape.

Specified by:
getDistance in interface Shape3D

getDistance

public double getDistance(LineSegment3D segment)
Returns distance of this segment from 'segment'.

Based on: http://softsurfer.com/Archive/algorithm_0106/

dist3D_Segment_to_Segment()

Parameters:
segment -
Returns:

isBounded

public boolean isBounded()
Returns true, as a LineSegment3D is always bounded.

Specified by:
isBounded in interface Shape3D
See Also:
Shape3D.isBounded()

isEmpty

public boolean isEmpty()
Returns false, as a LineSegment3D is never empty.

Specified by:
isEmpty in interface Shape3D
See Also:
Shape3D.isEmpty()


Copyright © 2015 AMIS research group, Faculty of Mathematics and Physics, Charles University in Prague, Czech Republic. All Rights Reserved.