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java.lang.Object java.awt.geom.CubicCurve2D
The CubicCurve2D
class defines a cubic parametric curve
segment in (x, y) coordinate space.
This class is only the abstract superclass for all objects which store a 2D cubic curve segment. The actual storage representation of the coordinates is left to the subclass.
Nested Class Summary | |
static class |
CubicCurve2D.Double
A cubic parametric curve segment specified with double coordinates. |
static class |
CubicCurve2D.Float
A cubic parametric curve segment specified with float coordinates. |
Field Summary | |
private static int |
ABOVE
|
private static int |
BELOW
|
private static int |
HIGHEDGE
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private static int |
INSIDE
|
private static int |
LOWEDGE
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Constructor Summary | |
protected |
CubicCurve2D()
This is an abstract class that cannot be instantiated directly. |
Method Summary | |
Object |
clone()
Creates a new object of the same class as this object. |
boolean |
contains(double x,
double y)
Tests if a specified coordinate is inside the boundary of the shape. |
boolean |
contains(double x,
double y,
double w,
double h)
Tests if the interior of the shape entirely contains the specified set of rectangular coordinates. |
boolean |
contains(Point2D p)
Tests if a specified Point2D is inside the boundary of
the shape. |
boolean |
contains(Rectangle2D r)
Tests if the interior of the shape entirely contains the specified Rectangle2D . |
private static int |
evalCubic(double[] vals,
int num,
boolean include0,
boolean include1,
double[] inflect,
double c1,
double cp1,
double cp2,
double c2)
|
private static void |
fillEqn(double[] eqn,
double val,
double c1,
double cp1,
double cp2,
double c2)
|
private static double |
findZero(double t,
double target,
double[] eqn)
|
private static void |
fixRoots(double[] res,
double[] eqn)
|
Rectangle |
getBounds()
Returns the bounding box of the shape. |
abstract Point2D |
getCtrlP1()
Returns the first control point. |
abstract Point2D |
getCtrlP2()
Returns the second control point. |
abstract double |
getCtrlX1()
Returns the X coordinate of the first control point in double precision. |
abstract double |
getCtrlX2()
Returns the X coordinate of the second control point in double precision. |
abstract double |
getCtrlY1()
Returns the Y coordinate of the first control point in double precision. |
abstract double |
getCtrlY2()
Returns the Y coordinate of the second control point in double precision. |
double |
getFlatness()
Returns the flatness of this curve. |
static double |
getFlatness(double[] coords,
int offset)
Returns the flatness of the cubic curve specified by the controlpoints stored in the indicated array at the indicated index. |
static double |
getFlatness(double x1,
double y1,
double ctrlx1,
double ctrly1,
double ctrlx2,
double ctrly2,
double x2,
double y2)
Returns the flatness of the cubic curve specified by the indicated controlpoints. |
double |
getFlatnessSq()
Returns the square of the flatness of this curve. |
static double |
getFlatnessSq(double[] coords,
int offset)
Returns the square of the flatness of the cubic curve specified by the controlpoints stored in the indicated array at the indicated index. |
static double |
getFlatnessSq(double x1,
double y1,
double ctrlx1,
double ctrly1,
double ctrlx2,
double ctrly2,
double x2,
double y2)
Returns the square of the flatness of the cubic curve specified by the indicated controlpoints. |
abstract Point2D |
getP1()
Returns the start point. |
abstract Point2D |
getP2()
Returns the end point. |
PathIterator |
getPathIterator(AffineTransform at)
Returns an iteration object that defines the boundary of the shape. |
PathIterator |
getPathIterator(AffineTransform at,
double flatness)
Return an iteration object that defines the boundary of the flattened shape. |
private static int |
getTag(double coord,
double low,
double high)
|
abstract double |
getX1()
Returns the X coordinate of the start point in double precision. |
abstract double |
getX2()
Returns the X coordinate of the end point in double precision. |
abstract double |
getY1()
Returns the Y coordinate of the start point in double precision. |
abstract double |
getY2()
Returns the Y coordinate of the end point in double precision. |
boolean |
intersects(double x,
double y,
double w,
double h)
Tests if the shape intersects the interior of a specified set of rectangular coordinates. |
boolean |
intersects(Rectangle2D r)
Tests if the shape intersects the interior of a specified Rectangle2D . |
private static boolean |
inwards(int pttag,
int opt1tag,
int opt2tag)
|
void |
setCurve(CubicCurve2D c)
Sets the location of the endpoints and controlpoints of this curve to the same as those in the specified CubicCurve2D . |
void |
setCurve(double[] coords,
int offset)
Sets the location of the endpoints and controlpoints of this curve to the double coordinates at the specified offset in the specified array. |
abstract void |
setCurve(double x1,
double y1,
double ctrlx1,
double ctrly1,
double ctrlx2,
double ctrly2,
double x2,
double y2)
Sets the location of the endpoints and controlpoints of this curve to the specified double coordinates. |
void |
setCurve(Point2D[] pts,
int offset)
Sets the location of the endpoints and controlpoints of this curve to the coordinates of the Point2D objects at the specified
offset in the specified array. |
void |
setCurve(Point2D p1,
Point2D cp1,
Point2D cp2,
Point2D p2)
Sets the location of the endpoints and controlpoints of this curve to the specified Point2D coordinates. |
static int |
solveCubic(double[] eqn)
Solves the cubic whose coefficients are in the eqn
array and places the non-complex roots back into the same array,
returning the number of roots. |
static int |
solveCubic(double[] eqn,
double[] res)
Solve the cubic whose coefficients are in the eqn
array and place the non-complex roots into the res
array, returning the number of roots.
|
private static double |
solveEqn(double[] eqn,
int order,
double t)
|
void |
subdivide(CubicCurve2D left,
CubicCurve2D right)
Subdivides this cubic curve and stores the resulting two subdivided curves into the left and right curve parameters. |
static void |
subdivide(CubicCurve2D src,
CubicCurve2D left,
CubicCurve2D right)
Subdivides the cubic curve specified by the src parameter
and stores the resulting two subdivided curves into the
left and right curve parameters.
|
static void |
subdivide(double[] src,
int srcoff,
double[] left,
int leftoff,
double[] right,
int rightoff)
Subdivides the cubic curve specified by the coordinates stored in the src array at indices srcoff
through (srcoff + 7) and stores the
resulting two subdivided curves into the two result arrays at the
corresponding indices.
|
Methods inherited from class java.lang.Object |
equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Methods inherited from interface java.awt.Shape |
getBounds2D |
Field Detail |
private static final int BELOW
private static final int LOWEDGE
private static final int INSIDE
private static final int HIGHEDGE
private static final int ABOVE
Constructor Detail |
protected CubicCurve2D()
CubicCurve2D.Float
,
CubicCurve2D.Double
Method Detail |
public abstract double getX1()
CubicCurve2D
.public abstract double getY1()
CubicCurve2D
.public abstract Point2D getP1()
Point2D
that is the start point of
the CubicCurve2D
.public abstract double getCtrlX1()
CubicCurve2D
.public abstract double getCtrlY1()
CubicCurve2D
.public abstract Point2D getCtrlP1()
Point2D
that is the first control point of
the CubicCurve2D
.public abstract double getCtrlX2()
CubicCurve2D
.public abstract double getCtrlY2()
CubicCurve2D
.public abstract Point2D getCtrlP2()
Point2D
that is the second control point of
the CubicCurve2D
.public abstract double getX2()
CubicCurve2D
.public abstract double getY2()
CubicCurve2D
.public abstract Point2D getP2()
Point2D
that is the end point of
the CubicCurve2D
.public abstract void setCurve(double x1, double y1, double ctrlx1, double ctrly1, double ctrlx2, double ctrly2, double x2, double y2)
public void setCurve(double[] coords, int offset)
coords
- a double array containing coordinatesoffset
- the index of coords
at which to begin
setting the endpoints and controlpoints of this curve
to the coordinates contained in coords
public void setCurve(Point2D p1, Point2D cp1, Point2D cp2, Point2D p2)
Point2D
coordinates.
p1
- the first specified Point2D
used to set the
start point of this curvecp1
- the second specified Point2D
used to set the
first control point of this curvecp2
- the third specified Point2D
used to set the
second control point of this curvep2
- the fourth specified Point2D
used to set the
end point of this curvepublic void setCurve(Point2D[] pts, int offset)
Point2D
objects at the specified
offset in the specified array.
pts
- an array of Point2D
objectsoffset
- the index of pts
at which to begin setting
the endpoints and controlpoints of this curve to the
points contained in pts
public void setCurve(CubicCurve2D c)
CubicCurve2D
.
c
- the specified CubicCurve2D
public static double getFlatnessSq(double x1, double y1, double ctrlx1, double ctrly1, double ctrlx2, double ctrly2, double x2, double y2)
CubicCurve2D
represented by the specified coordinates.public static double getFlatness(double x1, double y1, double ctrlx1, double ctrly1, double ctrlx2, double ctrly2, double x2, double y2)
CubicCurve2D
represented by the specified coordinates.public static double getFlatnessSq(double[] coords, int offset)
coords
- an array containing coordinatesoffset
- the index of coords
at which to begin
setting the endpoints and controlpoints of this curve
to the coordinates contained in coords
CubicCurve2D
specified by the coordinates in coords
at
the specified offset.public static double getFlatness(double[] coords, int offset)
coords
- an array containing coordinatesoffset
- the index of coords
at which to begin
setting the endpoints and controlpoints of this curve
to the coordinates contained in coords
CubicCurve2D
specified by the coordinates in coords
at
the specified offset.public double getFlatnessSq()
public double getFlatness()
public void subdivide(CubicCurve2D left, CubicCurve2D right)
left
- the cubic curve object for storing for the left or
first half of the subdivided curveright
- the cubic curve object for storing for the right or
second half of the subdivided curvepublic static void subdivide(CubicCurve2D src, CubicCurve2D left, CubicCurve2D right)
src
parameter
and stores the resulting two subdivided curves into the
left
and right
curve parameters.
Either or both of the left
and right
objects
may be the same as the src
object or null
.
src
- the cubic curve to be subdividedleft
- the cubic curve object for storing the left or
first half of the subdivided curveright
- the cubic curve object for storing the right or
second half of the subdivided curvepublic static void subdivide(double[] src, int srcoff, double[] left, int leftoff, double[] right, int rightoff)
src
array at indices srcoff
through (srcoff
+ 7) and stores the
resulting two subdivided curves into the two result arrays at the
corresponding indices.
Either or both of the left
and right
arrays may be null
or a reference to the same array
as the src
array.
Note that the last point in the first subdivided curve is the
same as the first point in the second subdivided curve. Thus,
it is possible to pass the same array for left
and right
and to use offsets, such as rightoff
equals (leftoff
+ 6), in order
to avoid allocating extra storage for this common point.
src
- the array holding the coordinates for the source curvesrcoff
- the offset into the array of the beginning of the
the 6 source coordinatesleft
- the array for storing the coordinates for the first
half of the subdivided curveleftoff
- the offset into the array of the beginning of the
the 6 left coordinatesright
- the array for storing the coordinates for the second
half of the subdivided curverightoff
- the offset into the array of the beginning of the
the 6 right coordinatespublic static int solveCubic(double[] eqn)
eqn
array and places the non-complex roots back into the same array,
returning the number of roots. The solved cubic is represented
by the equation:
eqn = {c, b, a, d} dx^3 + ax^2 + bx + c = 0A return value of -1 is used to distinguish a constant equation that might be always 0 or never 0 from an equation that has no zeroes.
eqn
- an array containing coefficients for a cubic
public static int solveCubic(double[] eqn, double[] res)
eqn
array and place the non-complex roots into the res
array, returning the number of roots.
The cubic solved is represented by the equation:
eqn = {c, b, a, d}
dx^3 + ax^2 + bx + c = 0
A return value of -1 is used to distinguish a constant equation,
which may be always 0 or never 0, from an equation which has no
zeroes.
eqn
- the specified array of coefficients to use to solve
the cubic equationres
- the array that contains the non-complex roots
resulting from the solution of the cubic equation
private static void fixRoots(double[] res, double[] eqn)
private static double solveEqn(double[] eqn, int order, double t)
private static double findZero(double t, double target, double[] eqn)
public boolean contains(double x, double y)
contains
in interface Shape
x
- the specified x coordinatey
- the specified y coordinate
true
if the coordinate is inside the boundary of
the shape; false
otherwise.public boolean contains(Point2D p)
Point2D
is inside the boundary of
the shape.
contains
in interface Shape
p
- the specified Point2D
to be tested
true
if the p
is inside the boundary
of the shape; false
otherwise.private static void fillEqn(double[] eqn, double val, double c1, double cp1, double cp2, double c2)
private static int evalCubic(double[] vals, int num, boolean include0, boolean include1, double[] inflect, double c1, double cp1, double cp2, double c2)
private static int getTag(double coord, double low, double high)
private static boolean inwards(int pttag, int opt1tag, int opt2tag)
public boolean intersects(double x, double y, double w, double h)
intersects
in interface Shape
w
- the width of the specified rectangular areah
- the height of the specified rectangular areax
- the x coordinate of the specified rectangular areay
- the y coordinate of the specified rectangular area
true
if the shape intersects the
interior of the specified rectangular area;
false
otherwise.Area
public boolean intersects(Rectangle2D r)
Rectangle2D
.
intersects
in interface Shape
r
- the specified Rectangle2D
to be tested
true
if the shape intersects the interior of
the specified Rectangle2D
;
false
otherwise.Shape.intersects(double, double, double, double)
public boolean contains(double x, double y, double w, double h)
contains
in interface Shape
w
- the width of the specified rectangular shapeh
- the height of the specified rectangular shapex
- the x coordinate of the specified rectangular areay
- the y coordinate of the specified rectangular area
true
if the shape entirely contains
the specified set of rectangular coordinates;
false
otherwise.Area
,
Shape.intersects(double, double, double, double)
public boolean contains(Rectangle2D r)
Rectangle2D
.
contains
in interface Shape
r
- the specified Rectangle2D
to be tested
true
if the shape entirely contains
the specified Rectangle2D
;
false
otherwise.Shape.contains(double, double, double, double)
public Rectangle getBounds()
getBounds
in interface Shape
Rectangle
that is the bounding box of the shape.Shape.getBounds2D()
public PathIterator getPathIterator(AffineTransform at)
CubicCurve2D
class does not
guarantee that modifications to the geometry of this
CubicCurve2D
object do not affect any iterations of
that geometry that are already in process.
getPathIterator
in interface Shape
at
- an optional AffineTransform
to be applied to the
coordinates as they are returned in the iteration, or null
if untransformed coordinates are desired
PathIterator
object that returns the
geometry of the outline of this CubicCurve2D
, one
segment at a time.public PathIterator getPathIterator(AffineTransform at, double flatness)
CubicCurve2D
class does not
guarantee that modifications to the geometry of this
CubicCurve2D
object do not affect any iterations of
that geometry that are already in process.
getPathIterator
in interface Shape
at
- an optional AffineTransform
to be applied to the
coordinates as they are returned in the iteration, or null
if untransformed coordinates are desiredflatness
- the maximum amount that the control points
for a given curve can vary from colinear before a subdivided
curve is replaced by a straight line connecting the endpoints
PathIterator
object that returns the
geometry of the outline of this CubicCurve2D
, one segment at a time.public Object clone()
clone
in class Object
OutOfMemoryError
- if there is not enough memory.Cloneable
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SUMMARY: NESTED | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD |