math.geom2d.spline
Class QuadBezierCurve2D

Package class diagram package QuadBezierCurve2D
java.lang.Object
  extended by math.geom2d.curve.AbstractContinuousCurve2D
      extended by math.geom2d.curve.AbstractSmoothCurve2D
          extended by math.geom2d.spline.QuadBezierCurve2D
All Implemented Interfaces:
Serializable, Cloneable, ContinuousCurve2D, Curve2D, SmoothCurve2D, ContinuousOrientedCurve2D, OrientedCurve2D, Shape2D
Direct Known Subclasses:
QuadBezier2D

public class QuadBezierCurve2D
extends AbstractSmoothCurve2D
implements SmoothCurve2D, ContinuousOrientedCurve2D, Cloneable

A quadratic bezier curve, defined by 3 points. From javaGeom 0.8.0, this shape does not extends. java.awt.geom.QuadCurve2D.Double anymore

Author:
Legland
See Also:
Serialized Form

Field Summary
protected  double ctrlx
           
protected  double ctrly
           
protected  double x1
           
protected  double x2
           
protected  double y1
           
protected  double y2
           
 
Fields inherited from interface math.geom2d.Shape2D
ACCURACY
 
Constructor Summary
QuadBezierCurve2D()
           
QuadBezierCurve2D(double[][] coefs)
          Build a new Bezier curve from its array of coefficients.
QuadBezierCurve2D(double x1, double y1, double xctrl, double yctrl, double x2, double y2)
          Build a new quadratic Bezier curve by specifying position of extreme points and position of control point.
QuadBezierCurve2D(Point2D[] pts)
           
QuadBezierCurve2D(Point2D p1, Point2D ctrl, Point2D p2)
          Build a new quadratic Bezier curve by specifying position of extreme points and position of control point.
 
Method Summary
 GeneralPath appendPath(GeneralPath path)
          Append the path of the curve to the given path.
 CurveSet2D<? extends QuadBezierCurve2D> clip(Box2D box)
          Clip the circle arc by a box.
 QuadBezierCurve2D clone()
          Overrides Object declaration to ensure Curve2D implementation are cloned as Curve2D.
 boolean contains(double x, double y)
          Checks if the shape contains the planar point defined by (x,y).
 boolean contains(Point2D p)
          Checks if the shape contains the given point.
static QuadBezierCurve2D create(Point2D p1, Point2D p2, Point2D p3)
          Static factory for creating a new Quadratic Bezier curve from 3 points.
 boolean equals(Object obj)
           
 Box2D getBoundingBox()
          Returns the bounding box of the shape.
 Point2D getControl()
           
 Point2D getCtrl()
           
 double getCurvature(double t)
          returns the curvature of the Curve.
 double getDistance(double x, double y)
          Compute approximated distance, computed on a polyline.
 double getDistance(Point2D p)
          get 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.
 Point2D getFirstPoint()
          Get the first point of the curve.
 GeneralPath getGeneralPath()
           
 Collection<Point2D> getIntersections(LinearShape2D line)
          Use approximation, by replacing Bezier curve with a polyline.
 Point2D getLastPoint()
          Get the last point of the curve.
 Point2D getP1()
           
 Point2D getP2()
           
 double[][] getParametric()
          Returns the matrix of parametric representation of the line.
 Point2D getPoint(double t)
          Gets the point from a parametric representation of the curve.
 double getPosition(Point2D point)
          Compute position by approximating cubic spline with a polyline.
 QuadBezierCurve2D getReverseCurve()
          Returns the bezier curve given by control points taken in reverse order.
 double getSignedDistance(double x, double y)
          The same as getSignedDistance(Point2D), but by passing 2 double as arguments.
 double getSignedDistance(Point2D point)
          Get the signed distance of the curve to the given point: this distance is positive if the point lies outside the shape, and is negative if the point lies inside the shape.
 QuadBezierCurve2D getSubCurve(double t0, double t1)
          Computes portion of BezierCurve.
 double getT0()
          Returns 0, as Bezier curve is parametrized between 0 and 1.
 double getT1()
          Returns 1, as Bezier curve is parametrized between 0 and 1.
 Vector2D getTangent(double t)
           
 double getWindingAngle(Point2D point)
          Use winding angle of approximated polyline
 boolean isBounded()
          return true, a cubic Bezier Curve is always bounded.
 boolean isClosed()
          The cubic curve is never closed.
 boolean isEmpty()
          Returns true if the shape does not contain any point.
 boolean isInside(Point2D pt)
          return true if the point is 'inside' the domain bounded by the curve.
 double project(Point2D point)
          Compute position by approximating cubic spline with a polyline.
 QuadBezierCurve2D transform(AffineTransform2D trans)
          Returns the Bezier Curve transformed by the given AffineTransform2D.
 
Methods inherited from class math.geom2d.curve.AbstractSmoothCurve2D
getLeftTangent, getRightTangent, getSingularPoints, getSmoothPieces, isSingular
 
Methods inherited from class math.geom2d.curve.AbstractContinuousCurve2D
draw, getAsAWTShape, getAsPolyline, getContinuousCurves, wrapCurve
 
Methods inherited from class java.lang.Object
finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 
Methods inherited from interface math.geom2d.curve.ContinuousCurve2D
getAsPolyline, getLeftTangent, getRightTangent, getSmoothPieces
 
Methods inherited from interface math.geom2d.curve.Curve2D
draw, getAsAWTShape, getContinuousCurves, getSingularPoints, isSingular
 

Field Detail

x1

protected double x1

y1

protected double y1

ctrlx

protected double ctrlx

ctrly

protected double ctrly

x2

protected double x2

y2

protected double y2
Constructor Detail

QuadBezierCurve2D

public QuadBezierCurve2D()

QuadBezierCurve2D

public QuadBezierCurve2D(double[][] coefs)
Build a new Bezier curve from its array of coefficients. The array must have size 2*3.

Parameters:
coefs - the coefficients of the QuadBezierCurve2D.

QuadBezierCurve2D

public QuadBezierCurve2D(Point2D p1,
                         Point2D ctrl,
                         Point2D p2)
Build a new quadratic Bezier curve by specifying position of extreme points and position of control point. The resulting curve is totally contained in the convex polygon formed by the 3 control points.

Parameters:
p1 - first point
ctrl - control point
p2 - last point

QuadBezierCurve2D

public QuadBezierCurve2D(Point2D[] pts)

QuadBezierCurve2D

public QuadBezierCurve2D(double x1,
                         double y1,
                         double xctrl,
                         double yctrl,
                         double x2,
                         double y2)
Build a new quadratic Bezier curve by specifying position of extreme points and position of control point. The resulting curve is totally contained in the convex polygon formed by the 3 control points.

Method Detail

create

public static QuadBezierCurve2D create(Point2D p1,
                                       Point2D p2,
                                       Point2D p3)
Static factory for creating a new Quadratic Bezier curve from 3 points.

Since:
0.8.1

getControl

public Point2D getControl()

getP1

public Point2D getP1()

getP2

public Point2D getP2()

getCtrl

public Point2D getCtrl()

getParametric

public double[][] getParametric()
Returns the matrix of parametric representation of the line. Result is a 2x3 array with coefficients:

[ cx0 cx1 cx2]

[ cy0 cy1 cy2]

Coefficients are from the parametric equation : x(t) = cx0 + cx1*t + cx2*t^2 y(t) = cy0 + cy1*t + cy2*t^2


getWindingAngle

public double getWindingAngle(Point2D point)
Use winding angle of approximated polyline

Specified by:
getWindingAngle in interface OrientedCurve2D
Parameters:
point - a point of the plane
Returns:
a signed angle
See Also:
OrientedCurve2D.getWindingAngle(java.awt.geom.Point2D)

isInside

public boolean isInside(Point2D pt)
return true if the point is 'inside' the domain bounded by the curve. Uses a polyline approximation.

Specified by:
isInside in interface OrientedCurve2D
Parameters:
pt - a point in the plane
Returns:
true if the point is on the left side of the curve.

getSignedDistance

public double getSignedDistance(Point2D point)
Description copied from interface: OrientedCurve2D
Get the signed distance of the curve to the given point: this distance is positive if the point lies outside the shape, and is negative if the point lies inside the shape. In this case, absolute value of distance is equals to the distance to the border of the shape.

Specified by:
getSignedDistance in interface OrientedCurve2D
Parameters:
point - a point of the plane
Returns:
the signed distance to the curve

getSignedDistance

public double getSignedDistance(double x,
                                double y)
Description copied from interface: OrientedCurve2D
The same as getSignedDistance(Point2D), but by passing 2 double as arguments.

Specified by:
getSignedDistance in interface OrientedCurve2D
Parameters:
x - x-coord of a point
y - y-coord of a point
Returns:
the signed distance of the point (x,y) to the curve
See Also:
OrientedCurve2D.getSignedDistance(java.awt.geom.Point2D)

getTangent

public Vector2D getTangent(double t)
Specified by:
getTangent in interface SmoothCurve2D

getCurvature

public double getCurvature(double t)
returns the curvature of the Curve.

Specified by:
getCurvature in interface SmoothCurve2D

isClosed

public boolean isClosed()
The cubic curve is never closed.

Specified by:
isClosed in interface ContinuousCurve2D

getT0

public double getT0()
Returns 0, as Bezier curve is parametrized between 0 and 1.

Specified by:
getT0 in interface Curve2D

getT1

public double getT1()
Returns 1, as Bezier curve is parametrized between 0 and 1.

Specified by:
getT1 in interface Curve2D

getIntersections

public Collection<Point2D> getIntersections(LinearShape2D line)
Use approximation, by replacing Bezier curve with a polyline.

Specified by:
getIntersections in interface Curve2D
See Also:
Curve2D.getIntersections(math.geom2d.line.LinearShape2D)

getPoint

public Point2D getPoint(double t)
Description copied from interface: Curve2D
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 Curve2D
See Also:
Curve2D.getPoint(double)

getFirstPoint

public Point2D getFirstPoint()
Get the first point of the curve.

Specified by:
getFirstPoint in interface Curve2D
Overrides:
getFirstPoint in class AbstractContinuousCurve2D
Returns:
the first point of the curve

getLastPoint

public Point2D getLastPoint()
Get the last point of the curve.

Specified by:
getLastPoint in interface Curve2D
Overrides:
getLastPoint in class AbstractContinuousCurve2D
Returns:
the last point of the curve.

getPosition

public double getPosition(Point2D point)
Compute position by approximating cubic spline with a polyline.

Specified by:
getPosition in interface Curve2D
Parameters:
point - a point belonging to the curve
Returns:
the position of the point on the curve

project

public double project(Point2D point)
Compute position by approximating cubic spline with a polyline.

Specified by:
project in interface Curve2D
Parameters:
point - a point to project
Returns:
the position of the closest orthogonal projection

getReverseCurve

public QuadBezierCurve2D getReverseCurve()
Returns the bezier curve given by control points taken in reverse order.

Specified by:
getReverseCurve in interface ContinuousCurve2D
Specified by:
getReverseCurve in interface Curve2D
Specified by:
getReverseCurve in interface SmoothCurve2D
Specified by:
getReverseCurve in interface ContinuousOrientedCurve2D
Specified by:
getReverseCurve in interface OrientedCurve2D

getSubCurve

public QuadBezierCurve2D getSubCurve(double t0,
                                     double t1)
Computes portion of BezierCurve. If t1
Specified by:
getSubCurve in interface ContinuousCurve2D
Specified by:
getSubCurve in interface Curve2D
Specified by:
getSubCurve in interface SmoothCurve2D
Specified by:
getSubCurve in interface ContinuousOrientedCurve2D
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.

contains

public boolean contains(double x,
                        double y)
Description copied from interface: Shape2D
Checks if the shape contains the planar point defined by (x,y).

Specified by:
contains in interface Shape2D

contains

public boolean contains(Point2D p)
Description copied from interface: Shape2D
Checks if the shape contains the given point.

Specified by:
contains in interface Shape2D

getDistance

public double getDistance(Point2D p)
Description copied from interface: Shape2D
get 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 Shape2D
See Also:
Shape2D.getDistance(java.awt.geom.Point2D)

getDistance

public double getDistance(double x,
                          double y)
Compute approximated distance, computed on a polyline.

Specified by:
getDistance in interface Shape2D
See Also:
Shape2D.getDistance(double, double)

isBounded

public boolean isBounded()
return true, a cubic Bezier Curve is always bounded.

Specified by:
isBounded in interface Shape2D

isEmpty

public boolean isEmpty()
Description copied from interface: Shape2D
Returns true if the shape does not contain any point. This is the case for example for PointSet2D without any point.

Specified by:
isEmpty in interface Shape2D
Returns:
true if the shape does not contain any point.

clip

public CurveSet2D<? extends QuadBezierCurve2D> clip(Box2D box)
Clip the circle arc by a box. The result is an instance of ContinuousOrientedCurveSet2D, which contains only instances of EllipseArc2D. If the ellipse arc is not clipped, the result is an instance of ContinuousOrientedCurveSet2D which contains 0 curves.

Specified by:
clip in interface ContinuousCurve2D
Specified by:
clip in interface Curve2D
Specified by:
clip in interface SmoothCurve2D
Specified by:
clip in interface ContinuousOrientedCurve2D
Specified by:
clip in interface OrientedCurve2D
Specified by:
clip in interface Shape2D
Parameters:
box - the clipping box
Returns:
the clipped shape

getBoundingBox

public Box2D getBoundingBox()
Description copied from interface: Shape2D
Returns the bounding box of the shape.

Specified by:
getBoundingBox in interface Shape2D
Returns:
the bounding box of the shape.

transform

public QuadBezierCurve2D transform(AffineTransform2D trans)
Returns the Bezier Curve transformed by the given AffineTransform2D. This is simply done by transforming control points of the curve.

Specified by:
transform in interface ContinuousCurve2D
Specified by:
transform in interface Curve2D
Specified by:
transform in interface SmoothCurve2D
Specified by:
transform in interface ContinuousOrientedCurve2D
Specified by:
transform in interface OrientedCurve2D
Specified by:
transform in interface Shape2D
Parameters:
trans - an affine transform
Returns:
the transformed shape

appendPath

public GeneralPath appendPath(GeneralPath path)
Description copied from interface: ContinuousCurve2D
Append the path of the curve to the given path.

Specified by:
appendPath in interface ContinuousCurve2D
Parameters:
path - a path to modify
Returns:
the modified path

getGeneralPath

public GeneralPath getGeneralPath()

equals

public boolean equals(Object obj)
Overrides:
equals in class Object

clone

public QuadBezierCurve2D clone()
Description copied from interface: Curve2D
Overrides Object declaration to ensure Curve2D implementation are cloned as Curve2D.

Specified by:
clone in interface Curve2D
Specified by:
clone in class AbstractSmoothCurve2D
Returns:
the cloned curve


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