Class Line
- java.lang.Object
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- org.hipparchus.geometry.euclidean.twod.Line
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- All Implemented Interfaces:
Embedding<Euclidean2D,Euclidean1D>
,Hyperplane<Euclidean2D>
public class Line extends Object implements Hyperplane<Euclidean2D>, Embedding<Euclidean2D,Euclidean1D>
This class represents an oriented line in the 2D plane.An oriented line can be defined either by prolongating a line segment between two points past these points, or by one point and an angular direction (in trigonometric orientation).
Since it is oriented the two half planes at its two sides are unambiguously identified as a left half plane and a right half plane. This can be used to identify the interior and the exterior in a simple way by local properties only when part of a line is used to define part of a polygon boundary.
A line can also be used to completely define a reference frame in the plane. It is sufficient to select one specific point in the line (the orthogonal projection of the original reference frame on the line) and to use the unit vector in the line direction and the orthogonal vector oriented from left half plane to right half plane. We define two coordinates by the process, the abscissa along the line, and the offset across the line. All points of the plane are uniquely identified by these two coordinates. The line is the set of points at zero offset, the left half plane is the set of points with negative offsets and the right half plane is the set of points with positive offsets.
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Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description boolean
contains(Vector2D p)
Check if the line contains a point.Line
copySelf()
Copy the instance.double
distance(Vector2D p)
Compute the distance between the instance and a point.SubLine
emptyHyperplane()
Build a sub-hyperplane covering nothing.double
getAngle()
Get the angle of the line.double
getOffset(Line line)
Get the offset (oriented distance) of a parallel line.double
getOffset(Point<Euclidean2D> point)
Get the offset (oriented distance) of a point.double
getOffset(Vector<Euclidean2D,Vector2D> vector)
Get the offset (oriented distance) of a vector.double
getOriginOffset()
Get the offset of the origin.Vector2D
getPointAt(Vector1D abscissa, double offset)
Get one point from the plane.Line
getReverse()
Get the reverse of the instance.double
getTolerance()
Get the tolerance below which points are considered to belong to the hyperplane.static Transform<Euclidean2D,Euclidean1D>
getTransform(double cXX, double cYX, double cXY, double cYY, double cX1, double cY1)
Get aTransform
embedding an affine transform.Vector2D
intersection(Line other)
Get the intersection point of the instance and another line.boolean
isParallelTo(Line line)
Check the instance is parallel to another line.Point<Euclidean2D>
project(Point<Euclidean2D> point)
Project a point to the hyperplane.void
reset(Vector2D p, double alpha)
Reset the instance as if built from a line and an angle.void
reset(Vector2D p1, Vector2D p2)
Reset the instance as if built from two points.void
revertSelf()
Revert the instance.boolean
sameOrientationAs(Hyperplane<Euclidean2D> other)
Check if the instance has the same orientation as another hyperplane.void
setAngle(double angle)
Set the angle of the line.void
setOriginOffset(double offset)
Set the offset of the origin.Vector2D
toSpace(Point<Euclidean1D> point)
Transform a sub-space point into a space point.Vector2D
toSpace(Vector<Euclidean1D,Vector1D> vector)
Transform a sub-space point into a space point.Vector1D
toSubSpace(Point<Euclidean2D> point)
Transform a space point into a sub-space point.Vector1D
toSubSpace(Vector<Euclidean2D,Vector2D> vector)
Transform a space point into a sub-space point.void
translateToPoint(Vector2D p)
Translate the line to force it passing by a point.SubLine
wholeHyperplane()
Build a sub-hyperplane covering the whole hyperplane.PolygonsSet
wholeSpace()
Build a region covering the whole space.
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Constructor Detail
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Line
public Line(Vector2D p1, Vector2D p2, double tolerance)
Build a line from two points.The line is oriented from p1 to p2
- Parameters:
p1
- first pointp2
- second pointtolerance
- tolerance below which points are considered identical
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Line
public Line(Vector2D p, double angle, double tolerance)
Build a line from a point and an angle.- Parameters:
p
- point belonging to the lineangle
- angle of the line with respect to abscissa axistolerance
- tolerance below which points are considered identical
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Line
public Line(Line line)
Copy constructor.The created instance is completely independent from the original instance, it is a deep copy.
- Parameters:
line
- line to copy
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Method Detail
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copySelf
public Line copySelf()
Copy the instance.The instance created is completely independant of the original one. A deep copy is used, none of the underlying objects are shared (except for immutable objects).
- Specified by:
copySelf
in interfaceHyperplane<Euclidean2D>
- Returns:
- a new hyperplane, copy of the instance
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reset
public void reset(Vector2D p1, Vector2D p2)
Reset the instance as if built from two points.The line is oriented from p1 to p2
- Parameters:
p1
- first pointp2
- second point
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reset
public void reset(Vector2D p, double alpha)
Reset the instance as if built from a line and an angle.- Parameters:
p
- point belonging to the linealpha
- angle of the line with respect to abscissa axis
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revertSelf
public void revertSelf()
Revert the instance.
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getReverse
public Line getReverse()
Get the reverse of the instance.Get a line with reversed orientation with respect to the instance.
As long as neither the instance nor its reverse are modified (i.e. as long as none of the
reset(Vector2D, Vector2D)
,reset(Vector2D, double)
,revertSelf()
,setAngle(double)
orsetOriginOffset(double)
methods are called), then the line and its reverse remain linked together so thatline.getReverse().getReverse() == line
. When one of the line is modified, the link is deleted as both instance becomes independent.- Returns:
- a new line, with orientation opposite to the instance orientation
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toSubSpace
public Vector1D toSubSpace(Vector<Euclidean2D,Vector2D> vector)
Transform a space point into a sub-space point.- Parameters:
vector
- n-dimension point of the space- Returns:
- (n-1)-dimension point of the sub-space corresponding to the specified space point
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toSpace
public Vector2D toSpace(Vector<Euclidean1D,Vector1D> vector)
Transform a sub-space point into a space point.- Parameters:
vector
- (n-1)-dimension point of the sub-space- Returns:
- n-dimension point of the space corresponding to the specified sub-space point
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toSubSpace
public Vector1D toSubSpace(Point<Euclidean2D> point)
Transform a space point into a sub-space point.- Specified by:
toSubSpace
in interfaceEmbedding<Euclidean2D,Euclidean1D>
- Parameters:
point
- n-dimension point of the space- Returns:
- (n-1)-dimension point of the sub-space corresponding to the specified space point
- See Also:
Embedding.toSpace(org.hipparchus.geometry.Point<T>)
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toSpace
public Vector2D toSpace(Point<Euclidean1D> point)
Transform a sub-space point into a space point.- Specified by:
toSpace
in interfaceEmbedding<Euclidean2D,Euclidean1D>
- Parameters:
point
- (n-1)-dimension point of the sub-space- Returns:
- n-dimension point of the space corresponding to the specified sub-space point
- See Also:
Embedding.toSubSpace(org.hipparchus.geometry.Point<S>)
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intersection
public Vector2D intersection(Line other)
Get the intersection point of the instance and another line.- Parameters:
other
- other line- Returns:
- intersection point of the instance and the other line or null if there are no intersection points
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project
public Point<Euclidean2D> project(Point<Euclidean2D> point)
Project a point to the hyperplane.- Specified by:
project
in interfaceHyperplane<Euclidean2D>
- Parameters:
point
- point to project- Returns:
- projected point
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getTolerance
public double getTolerance()
Get the tolerance below which points are considered to belong to the hyperplane.- Specified by:
getTolerance
in interfaceHyperplane<Euclidean2D>
- Returns:
- tolerance below which points are considered to belong to the hyperplane
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wholeHyperplane
public SubLine wholeHyperplane()
Build a sub-hyperplane covering the whole hyperplane.- Specified by:
wholeHyperplane
in interfaceHyperplane<Euclidean2D>
- Returns:
- a sub-hyperplane covering the whole hyperplane
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emptyHyperplane
public SubLine emptyHyperplane()
Build a sub-hyperplane covering nothing.- Specified by:
emptyHyperplane
in interfaceHyperplane<Euclidean2D>
- Returns:
- a sub-hyperplane covering nothing
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wholeSpace
public PolygonsSet wholeSpace()
Build a region covering the whole space.- Specified by:
wholeSpace
in interfaceHyperplane<Euclidean2D>
- Returns:
- a region containing the instance (really a
PolygonsSet
instance)
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getOffset
public double getOffset(Line line)
Get the offset (oriented distance) of a parallel line.This method should be called only for parallel lines otherwise the result is not meaningful.
The offset is 0 if both lines are the same, it is positive if the line is on the right side of the instance and negative if it is on the left side, according to its natural orientation.
- Parameters:
line
- line to check- Returns:
- offset of the line
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getOffset
public double getOffset(Vector<Euclidean2D,Vector2D> vector)
Get the offset (oriented distance) of a vector.- Parameters:
vector
- vector to check- Returns:
- offset of the vector
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getOffset
public double getOffset(Point<Euclidean2D> point)
Get the offset (oriented distance) of a point.The offset is 0 if the point is on the underlying hyperplane, it is positive if the point is on one particular side of the hyperplane, and it is negative if the point is on the other side, according to the hyperplane natural orientation.
- Specified by:
getOffset
in interfaceHyperplane<Euclidean2D>
- Parameters:
point
- point to check- Returns:
- offset of the point
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sameOrientationAs
public boolean sameOrientationAs(Hyperplane<Euclidean2D> other)
Check if the instance has the same orientation as another hyperplane.This method is expected to be called on parallel hyperplanes. The method should not re-check for parallelism, only for orientation, typically by testing something like the sign of the dot-products of normals.
- Specified by:
sameOrientationAs
in interfaceHyperplane<Euclidean2D>
- Parameters:
other
- other hyperplane to check against the instance- Returns:
- true if the instance and the other hyperplane have the same orientation
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getPointAt
public Vector2D getPointAt(Vector1D abscissa, double offset)
Get one point from the plane.- Parameters:
abscissa
- desired abscissa for the pointoffset
- desired offset for the point- Returns:
- one point in the plane, with given abscissa and offset relative to the line
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contains
public boolean contains(Vector2D p)
Check if the line contains a point.- Parameters:
p
- point to check- Returns:
- true if p belongs to the line
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distance
public double distance(Vector2D p)
Compute the distance between the instance and a point.This is a shortcut for invoking FastMath.abs(getOffset(p)), and provides consistency with what is in the org.hipparchus.geometry.euclidean.threed.Line class.
- Parameters:
p
- to check- Returns:
- distance between the instance and the point
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isParallelTo
public boolean isParallelTo(Line line)
Check the instance is parallel to another line.- Parameters:
line
- other line to check- Returns:
- true if the instance is parallel to the other line (they can have either the same or opposite orientations)
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translateToPoint
public void translateToPoint(Vector2D p)
Translate the line to force it passing by a point.- Parameters:
p
- point by which the line should pass
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getAngle
public double getAngle()
Get the angle of the line.- Returns:
- the angle of the line with respect to the abscissa axis
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setAngle
public void setAngle(double angle)
Set the angle of the line.- Parameters:
angle
- new angle of the line with respect to the abscissa axis
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getOriginOffset
public double getOriginOffset()
Get the offset of the origin.- Returns:
- the offset of the origin
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setOriginOffset
public void setOriginOffset(double offset)
Set the offset of the origin.- Parameters:
offset
- offset of the origin
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getTransform
public static Transform<Euclidean2D,Euclidean1D> getTransform(double cXX, double cYX, double cXY, double cYY, double cX1, double cY1) throws MathIllegalArgumentException
Get aTransform
embedding an affine transform.- Parameters:
cXX
- transform factor between input abscissa and output abscissacYX
- transform factor between input abscissa and output ordinatecXY
- transform factor between input ordinate and output abscissacYY
- transform factor between input ordinate and output ordinatecX1
- transform addendum for output abscissacY1
- transform addendum for output ordinate- Returns:
- a new transform that can be applied to either
Vector2D
,Line
orSubHyperplane
instances - Throws:
MathIllegalArgumentException
- if the transform is non invertible
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