public static class Line2D.Double extends Line2D implements Serializable
A line segment specified with double coordinates.
Line2D.Double, Line2D.Float public double x1
The X coordinate of the start point of the line segment.
public double y1
The Y coordinate of the start point of the line segment.
public double x2
The X coordinate of the end point of the line segment.
public double y2
The Y coordinate of the end point of the line segment.
public Double()
Constructs and initializes a Line with coordinates (0, 0) → (0, 0).
public Double(double x1,
double y1,
double x2,
double y2) Constructs and initializes a Line2D from the specified coordinates.
x1 - the X coordinate of the start pointy1 - the Y coordinate of the start pointx2 - the X coordinate of the end pointy2 - the Y coordinate of the end pointpublic Double(Point2D p1,
Point2D p2) Constructs and initializes a Line2D from the specified Point2D objects.
p1 - the start Point2D of this line segmentp2 - the end Point2D of this line segmentpublic double getX1()
Returns the X coordinate of the start point in double precision.
getX1 in class Line2D
Line2D object.public double getY1()
Returns the Y coordinate of the start point in double precision.
getY1 in class Line2D
Line2D object.public Point2D getP1()
Returns the start Point2D of this Line2D.
public double getX2()
Returns the X coordinate of the end point in double precision.
getX2 in class Line2D
Line2D object.public double getY2()
Returns the Y coordinate of the end point in double precision.
getY2 in class Line2D
Line2D object.public Point2D getP2()
Returns the end Point2D of this Line2D.
public void setLine(double x1,
double y1,
double x2,
double y2) Sets the location of the end points of this Line2D to the specified double coordinates.
setLine in class Line2D
x1 - the X coordinate of the start pointy1 - the Y coordinate of the start pointx2 - the X coordinate of the end pointy2 - the Y coordinate of the end pointpublic Rectangle2D getBounds2D()
Returns a high precision and more accurate bounding box of the Shape than the getBounds method. Note that there is no guarantee that the returned Rectangle2D is the smallest bounding box that encloses the Shape, only that the Shape lies entirely within the indicated Rectangle2D. The bounding box returned by this method is usually tighter than that returned by the getBounds method and never fails due to overflow problems since the return value can be an instance of the Rectangle2D that uses double precision values to store the dimensions.
Note that the definition of insideness can lead to situations where points on the defining outline of the shape may not be considered contained in the returned bounds object, but only in cases where those points are also not considered contained in the original shape.
If a point is inside the shape according to the contains(point) method, then it must be inside the returned Rectangle2D bounds object according to the contains(point) method of the bounds. Specifically:
shape.contains(p) requires bounds.contains(p)
If a point is not inside the shape, then it might still be contained in the bounds object:
bounds.contains(p) does not imply shape.contains(p)
getBounds2D in interface Shape
Rectangle2D that is a high-precision bounding box of the Shape.Shape.getBounds()
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