
JSR209 (Final Approval Ballot)  
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java.lang.Object java.awt.geom.RectangularShape java.awt.geom.Arc2D
Arc2D
is the abstract superclass for all objects that
store a 2D arc defined by a bounding rectangle,
start angle, angular extent (length of the arc), and a closure type
(OPEN
, CHORD
, or PIE
).
The bounding rectangle defines the outer boundary of the full ellipse of which this arc is a partial section. The angles are specified relative to the nonsquare extents of the bounding rectangle such that 45 degrees always falls on the line from the center of the ellipse to the upper right corner of the bounding rectangle. As a result, if the bounding rectangle is noticeably longer along one axis than the other, the angles to the start and end of the arc segment will be skewed farther along the longer axis of the bounds.
The actual storage representation of the coordinates is left to the subclass.
Nested Class Summary  
static class 
Arc2D.Float
This class defines an arc specified in float precision. 
Field Summary  
static int 
CHORD
The closure type for an arc closed by drawing a straight line segment from the start of the arc segment to the end of the arc segment. 
static int 
OPEN
The closure type for an open arc with no path segments connecting the two ends of the arc segment. 
static int 
PIE
The closure type for an arc closed by drawing straight line segments from the start of the arc segment to the center of the full ellipse and from that point to the end of the arc segment. 
Constructor Summary  
protected 
Arc2D(int type)
This is an abstract class that cannot be instantiated directly. 
Method Summary  
boolean 
contains(double x,
double y)
Determines whether or not the specified point is inside the boundary of the arc. 
boolean 
contains(double x,
double y,
double w,
double h)
Determine whether or not the interior of the arc entirely contains the specified rectangle. 
boolean 
contains(Rectangle2D r)
Determine whether or not the interior of the arc entirely contains the specified rectangle. 
boolean 
containsAngle(double angle)
Determines whether or not the specified angle is within the angular extents of the arc. 
abstract double 
getAngleExtent()
Returns the angular extent of the arc. 
abstract double 
getAngleStart()
Returns the starting angle of the arc. 
int 
getArcType()
Returns the arc closure type of the arc: OPEN ,
CHORD , or PIE . 
Rectangle2D 
getBounds2D()
Returns the highprecision bounding box of the arc. 
Point2D 
getEndPoint()
Returns the ending point of the arc. 
PathIterator 
getPathIterator(AffineTransform at)
Returns an iteration object that defines the boundary of the arc. 
Point2D 
getStartPoint()
Returns the starting point of the arc. 
boolean 
intersects(double x,
double y,
double w,
double h)
Determines whether or not the interior of the arc intersects the interior of the specified rectangle. 
protected abstract Rectangle2D 
makeBounds(double x,
double y,
double w,
double h)
Constructs a Rectangle2D of the appropriate precision
to hold the parameters calculated to be the bounding box
of this arc. 
abstract void 
setAngleExtent(double angExt)
Sets the angular extent of this arc to the specified double value. 
void 
setAngles(double x1,
double y1,
double x2,
double y2)
Sets the starting angle and angular extent of this arc using two sets of coordinates. 
void 
setAngles(Point2D p1,
Point2D p2)
Sets the starting angle and angular extent of this arc using two points. 
abstract void 
setAngleStart(double angSt)
Sets the starting angle of this arc to the specified double value. 
void 
setAngleStart(Point2D p)
Sets the starting angle of this arc to the angle that the specified point defines relative to the center of this arc. 
void 
setArc(Arc2D a)
Sets this arc to be the same as the specified arc. 
abstract void 
setArc(double x,
double y,
double w,
double h,
double angSt,
double angExt,
int closure)
Sets the location, size, angular extents, and closure type of this arc to the specified double values. 
void 
setArc(Point2D loc,
Dimension2D size,
double angSt,
double angExt,
int closure)
Sets the location, size, angular extents, and closure type of this arc to the specified values. 
void 
setArc(Rectangle2D rect,
double angSt,
double angExt,
int closure)
Sets the location, size, angular extents, and closure type of this arc to the specified values. 
void 
setArcByCenter(double x,
double y,
double radius,
double angSt,
double angExt,
int closure)
Sets the position, bounds, angular extents, and closure type of this arc to the specified values. 
void 
setArcByTangent(Point2D p1,
Point2D p2,
Point2D p3,
double radius)
Sets the position, bounds, and angular extents of this arc to the specified value. 
void 
setArcType(int type)
Sets the closure type of this arc to the specified value: OPEN , CHORD , or PIE . 
void 
setFrame(double x,
double y,
double w,
double h)
Sets the location and size of the outer bounds of this arc to the specified values. 
Methods inherited from class java.awt.geom.RectangularShape 
clone, contains, getBounds, getCenterX, getCenterY, getFrame, getHeight, getMaxX, getMaxY, getMinX, getMinY, getPathIterator, getWidth, getX, getY, intersects, isEmpty, setFrame, setFrame, setFrameFromCenter, setFrameFromCenter, setFrameFromDiagonal, setFrameFromDiagonal 
Methods inherited from class java.lang.Object 
equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait 
Field Detail 
public static final int OPEN
public static final int CHORD
public static final int PIE
Constructor Detail 
protected Arc2D(int type)
type
 The closure type of this arc:
OPEN
, CHORD
, or PIE
.Arc2D.Float
,
java.awt.geom.Arc2D.Double
Method Detail 
public abstract double getAngleStart()
setAngleStart(double)
public abstract double getAngleExtent()
setAngleExtent(double)
public int getArcType()
OPEN
,
CHORD
, or PIE
.
setArcType(int)
public Point2D getStartPoint()
Point2D
object representing the
x,y coordinates of the starting point of the arc.public Point2D getEndPoint()
Point2D
object representing the
x,y coordinates of the ending point of the arc.public abstract void setArc(double x, double y, double w, double h, double angSt, double angExt, int closure)
w
 The overall width of the full ellipse of which
this arc is a partial section.h
 The overall height of the full ellipse of which
this arc is a partial section.angSt
 The starting angle of the arc in degrees.angExt
 The angular extent of the arc in degrees.closure
 The closure type for the arc:
OPEN
, CHORD
, or PIE
.public void setArc(Point2D loc, Dimension2D size, double angSt, double angExt, int closure)
loc
 The Point2D
representing the coordinates of
the upper left corner of the arc.size
 The Dimension2D
representing the width
and height of the full ellipse of which this arc is
a partial section.angSt
 The starting angle of the arc in degrees.
(Specified in double precision.)angExt
 The angular extent of the arc in degrees.
(Specified in double precision.)closure
 The closure type for the arc:
OPEN
, CHORD
, or PIE
.public void setArc(Rectangle2D rect, double angSt, double angExt, int closure)
rect
 The bounding rectangle that defines the
outer boundary of the full ellipse of which this arc is a
partial section.angSt
 The starting angle of the arc in degrees.
(Specified in double precision.)angExt
 The angular extent of the arc in degrees.
(Specified in double precision.)closure
 The closure type for the arc:
OPEN
, CHORD
, or PIE
.public void setArc(Arc2D a)
a
 The Arc2D
to use to set the arc's values.public void setArcByCenter(double x, double y, double radius, double angSt, double angExt, int closure)
radius
 The radius of the arc. (Specified in double precision.)angSt
 The starting angle of the arc in degrees.
(Specified in double precision.)angExt
 The angular extent of the arc in degrees.
(Specified in double precision.)closure
 The closure type for the arc:
OPEN
, CHORD
, or PIE
.public void setArcByTangent(Point2D p1, Point2D p2, Point2D p3, double radius)
p1
 The first point that defines the arc. The starting
angle of the arc is tangent to the line specified by points (p1, p2).p2
 The second point that defines the arc. The starting
angle of the arc is tangent to the line specified by points (p1, p2).
The ending angle of the arc is tangent to the line specified by
points (p2, p3).p3
 The third point that defines the arc. The ending angle
of the arc is tangent to the line specified by points (p2, p3).radius
 The radius of the arc. (Specified in double precision.)public abstract void setAngleStart(double angSt)
angSt
 The starting angle of the arc in degrees.getAngleStart()
public abstract void setAngleExtent(double angExt)
angExt
 The angular extent of the arc in degrees.getAngleExtent()
public void setAngleStart(Point2D p)
p
 The Point2D
that defines the starting angle.getAngleStart()
public void setAngles(double x1, double y1, double x2, double y2)
public void setAngles(Point2D p1, Point2D p2)
p1
 The Point2D
that defines the arc's
starting point.p2
 The Point2D
that defines the arc's
ending point.public void setArcType(int type)
OPEN
, CHORD
, or PIE
.
type
 The integer constant that represents the closure
type of this arc: OPEN
, CHORD
, or
PIE
.
java.lang.IllegalArgumentException
 if type
is not
0, 1, or 2.+getArcType()
public void setFrame(double x, double y, double w, double h)
setFrame
in class RectangularShape
w
 The width of the arc's bounding box. (Specified in
double precision.)h
 The height of the arc's bounding box. (Specified in
double precision.)RectangularShape.getFrame()
public Rectangle2D getBounds2D()
Arc2D
that is
in between the starting and ending angles and contains the pie
wedge, if this Arc2D
has a PIE
closure type.
This method differs from the
getBounds
in that the
getBounds
method only returns the bounds of the
enclosing ellipse of this Arc2D
without considering
the starting and ending angles of this Arc2D
.
Rectangle2D
that represents the arc's
bounding box.Shape.getBounds()
protected abstract Rectangle2D makeBounds(double x, double y, double w, double h)
Rectangle2D
of the appropriate precision
to hold the parameters calculated to be the bounding box
of this arc.
w
 The width of the bounding box. (Specified in
double precision.)h
 The height of the bounding box. (Specified in
double precision.)
Rectangle2D
that is the bounding box
of this arc.public boolean containsAngle(double angle)
angle
 The angle to test. (Specified in double precision.)
true
if the arc contains the angle,
false
if the arc doesn't contain the angle.public boolean contains(double x, double y)
x
 the specified x coordinatey
 the specified y coordinate
true
if the point lies within the bound of
the arc, false
if the point lies outside of the
arc's bounds.public boolean intersects(double x, double y, double w, double h)
w
 The width of the rectangle. (Specified in double precision.)h
 The height of the rectangle. (Specified in double precision.)x
 the x coordinate of the specified rectangular areay
 the y coordinate of the specified rectangular area
true
if the arc intersects the rectangle,
false
if the arc doesn't intersect the rectangle.Area
public boolean contains(double x, double y, double w, double h)
w
 The width of the rectangle. (Specified in double precision.)h
 The height of the rectangle. (Specified in double precision.)x
 the x coordinate of the specified rectangular areay
 the y coordinate of the specified rectangular area
true
if the arc contains the rectangle,
false
if the arc doesn't contain the rectangle.Area
,
Shape.intersects(double, double, double, double)
public boolean contains(Rectangle2D r)
contains
in interface Shape
contains
in class RectangularShape
r
 The Rectangle2D
to test.
true
if the arc contains the rectangle,
false
if the arc doesn't contain the rectangle.public PathIterator getPathIterator(AffineTransform at)
Arc2D
guarantees that
modifications to the geometry of the arc
do not affect any iterations of that geometry that
are already in process.
at
 an optional AffineTransform
to be applied
to the coordinates as they are returned in the iteration, or null
if the untransformed coordinates are desired.
PathIterator
that defines the arc's boundary.

JSR209 (Final Approval Ballot)  
PREV CLASS NEXT CLASS  FRAMES NO FRAMES  
SUMMARY: NESTED  FIELD  CONSTR  METHOD  DETAIL: FIELD  CONSTR  METHOD 