public abstract class Rectangle2D extends RectangularShape
Rectangle2D
class describes a rectangle
defined by a location (x,y)
and dimension
(w x h)
.
This class is only the abstract superclass for all objects that store a 2D rectangle. The actual storage representation of the coordinates is left to the subclass.
Modifier and Type | Class and Description |
---|---|
static class |
Rectangle2D.Double
The
Double class defines a rectangle specified in
double coordinates. |
static class |
Rectangle2D.Float
The
Float class defines a rectangle specified in float
coordinates. |
Modifier and Type | Field and Description |
---|---|
static int |
OUT_BOTTOM
The bitmask that indicates that a point lies below
this
Rectangle2D . |
static int |
OUT_LEFT
The bitmask that indicates that a point lies to the left of
this
Rectangle2D . |
static int |
OUT_RIGHT
The bitmask that indicates that a point lies to the right of
this
Rectangle2D . |
static int |
OUT_TOP
The bitmask that indicates that a point lies above
this
Rectangle2D . |
Modifier | Constructor and Description |
---|---|
protected |
Rectangle2D()
This is an abstract class that cannot be instantiated directly.
|
Modifier and Type | Method and Description |
---|---|
void |
add(double newx,
double newy)
Adds a point, specified by the double precision arguments
newx and newy , to this
Rectangle2D . |
void |
add(Point2D pt)
Adds the
Point2D object pt to this
Rectangle2D . |
void |
add(Rectangle2D r)
Adds a
Rectangle2D object to this
Rectangle2D . |
boolean |
contains(double x,
double y)
Tests if the specified coordinates are inside the boundary of the
Shape , as described by the
definition of insideness. |
boolean |
contains(double x,
double y,
double w,
double h)
Tests if the interior of the
Shape entirely contains
the specified rectangular area. |
abstract Rectangle2D |
createIntersection(Rectangle2D r)
Returns a new
Rectangle2D object representing the
intersection of this Rectangle2D with the specified
Rectangle2D . |
abstract Rectangle2D |
createUnion(Rectangle2D r)
Returns a new
Rectangle2D object representing the
union of this Rectangle2D with the specified
Rectangle2D . |
boolean |
equals(Object obj)
Determines whether or not the specified
Object is
equal to this Rectangle2D . |
Rectangle2D |
getBounds2D()
Returns a high precision and more accurate bounding box of
the
Shape than the getBounds method. |
PathIterator |
getPathIterator(AffineTransform at)
Returns an iteration object that defines the boundary of this
Rectangle2D . |
PathIterator |
getPathIterator(AffineTransform at,
double flatness)
Returns an iteration object that defines the boundary of the
flattened
Rectangle2D . |
int |
hashCode()
Returns the hashcode for this
Rectangle2D . |
static void |
intersect(Rectangle2D src1,
Rectangle2D src2,
Rectangle2D dest)
Intersects the pair of specified source
Rectangle2D
objects and puts the result into the specified destination
Rectangle2D object. |
boolean |
intersects(double x,
double y,
double w,
double h)
Tests if the interior of the
Shape intersects the
interior of a specified rectangular area. |
boolean |
intersectsLine(double x1,
double y1,
double x2,
double y2)
Tests if the specified line segment intersects the interior of this
Rectangle2D . |
boolean |
intersectsLine(Line2D l)
Tests if the specified line segment intersects the interior of this
Rectangle2D . |
abstract int |
outcode(double x,
double y)
Determines where the specified coordinates lie with respect
to this
Rectangle2D . |
int |
outcode(Point2D p)
Determines where the specified
Point2D lies with
respect to this Rectangle2D . |
void |
setFrame(double x,
double y,
double w,
double h)
Sets the location and size of the outer bounds of this
Rectangle2D to the specified rectangular values. |
abstract void |
setRect(double x,
double y,
double w,
double h)
Sets the location and size of this
Rectangle2D
to the specified double values. |
void |
setRect(Rectangle2D r)
Sets this
Rectangle2D to be the same as the specified
Rectangle2D . |
static void |
union(Rectangle2D src1,
Rectangle2D src2,
Rectangle2D dest)
Unions the pair of source
Rectangle2D objects
and puts the result into the specified destination
Rectangle2D object. |
clone, contains, contains, getBounds, getCenterX, getCenterY, getFrame, getHeight, getMaxX, getMaxY, getMinX, getMinY, getWidth, getX, getY, intersects, isEmpty, setFrame, setFrame, setFrameFromCenter, setFrameFromCenter, setFrameFromDiagonal, setFrameFromDiagonal
public static final int OUT_LEFT
Rectangle2D
.public static final int OUT_TOP
Rectangle2D
.public static final int OUT_RIGHT
Rectangle2D
.public static final int OUT_BOTTOM
Rectangle2D
.protected Rectangle2D()
Rectangle2D.Float
,
Rectangle2D.Double
,
Rectangle
public abstract void setRect(double x, double y, double w, double h)
Rectangle2D
to the specified double
values.x
- the X coordinate of the upper-left corner
of this Rectangle2D
y
- the Y coordinate of the upper-left corner
of this Rectangle2D
w
- the width of this Rectangle2D
h
- the height of this Rectangle2D
public void setRect(Rectangle2D r)
Rectangle2D
to be the same as the specified
Rectangle2D
.r
- the specified Rectangle2D
public boolean intersectsLine(double x1, double y1, double x2, double y2)
Rectangle2D
.x1
- the X coordinate of the start point of the specified
line segmenty1
- the Y coordinate of the start point of the specified
line segmentx2
- the X coordinate of the end point of the specified
line segmenty2
- the Y coordinate of the end point of the specified
line segmenttrue
if the specified line segment intersects
the interior of this Rectangle2D
; false
otherwise.public boolean intersectsLine(Line2D l)
Rectangle2D
.l
- the specified Line2D
to test for intersection
with the interior of this Rectangle2D
true
if the specified Line2D
intersects the interior of this Rectangle2D
;
false
otherwise.public abstract int outcode(double x, double y)
Rectangle2D
.
This method computes a binary OR of the appropriate mask values
indicating, for each side of this Rectangle2D
,
whether or not the specified coordinates are on the same side
of the edge as the rest of this Rectangle2D
.x
- the specified X coordinatey
- the specified Y coordinateOUT_LEFT
,
OUT_TOP
,
OUT_RIGHT
,
OUT_BOTTOM
public int outcode(Point2D p)
Point2D
lies with
respect to this Rectangle2D
.
This method computes a binary OR of the appropriate mask values
indicating, for each side of this Rectangle2D
,
whether or not the specified Point2D
is on the same
side of the edge as the rest of this Rectangle2D
.p
- the specified Point2D
OUT_LEFT
,
OUT_TOP
,
OUT_RIGHT
,
OUT_BOTTOM
public void setFrame(double x, double y, double w, double h)
Rectangle2D
to the specified rectangular values.setFrame
in class RectangularShape
x
- the X coordinate of the upper-left corner
of this Rectangle2D
y
- the Y coordinate of the upper-left corner
of this Rectangle2D
w
- the width of this Rectangle2D
h
- the height of this Rectangle2D
RectangularShape.getFrame()
public Rectangle2D getBounds2D()
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)
Rectangle2D
that is a
high-precision bounding box of the Shape
.Shape.getBounds()
public boolean contains(double x, double y)
Shape
, as described by the
definition of insideness.x
- the specified X coordinate to be testedy
- the specified Y coordinate to be testedtrue
if the specified coordinates are inside
the Shape
boundary; false
otherwise.public boolean intersects(double x, double y, double w, double h)
Shape
intersects the
interior of a specified rectangular area.
The rectangular area is considered to intersect the Shape
if any point is contained in both the interior of the
Shape
and the specified rectangular area.
The Shape.intersects()
method allows a Shape
implementation to conservatively return true
when:
Shape
intersect, but
Shapes
this method might
return true
even though the rectangular area does not
intersect the Shape
.
The Area
class performs
more accurate computations of geometric intersection than most
Shape
objects and therefore can be used if a more precise
answer is required.x
- the X coordinate of the upper-left corner
of the specified rectangular areay
- the Y coordinate of the upper-left corner
of the specified rectangular areaw
- the width of the specified rectangular areah
- the height of the specified rectangular areatrue
if the interior of the Shape
and
the interior of the rectangular area intersect, or are
both highly likely to intersect and intersection calculations
would be too expensive to perform; false
otherwise.Area
public boolean contains(double x, double y, double w, double h)
Shape
entirely contains
the specified rectangular area. All coordinates that lie inside
the rectangular area must lie within the Shape
for the
entire rectangular area to be considered contained within the
Shape
.
The Shape.contains()
method allows a Shape
implementation to conservatively return false
when:
intersect
method returns true
and
Shape
entirely contains the rectangular area are
prohibitively expensive.
Shapes
this method might
return false
even though the Shape
contains
the rectangular area.
The Area
class performs
more accurate geometric computations than most
Shape
objects and therefore can be used if a more precise
answer is required.x
- the X coordinate of the upper-left corner
of the specified rectangular areay
- the Y coordinate of the upper-left corner
of the specified rectangular areaw
- the width of the specified rectangular areah
- the height of the specified rectangular areatrue
if the interior of the Shape
entirely contains the specified rectangular area;
false
otherwise or, if the Shape
contains the rectangular area and the
intersects
method returns true
and the containment calculations would be too expensive to
perform.Area
,
Shape.intersects(double, double, double, double)
public abstract Rectangle2D createIntersection(Rectangle2D r)
Rectangle2D
object representing the
intersection of this Rectangle2D
with the specified
Rectangle2D
.r
- the Rectangle2D
to be intersected with
this Rectangle2D
Rectangle2D
contained in both
the specified Rectangle2D
and in this
Rectangle2D
.public static void intersect(Rectangle2D src1, Rectangle2D src2, Rectangle2D dest)
Rectangle2D
objects and puts the result into the specified destination
Rectangle2D
object. One of the source rectangles
can also be the destination to avoid creating a third Rectangle2D
object, but in this case the original points of this source
rectangle will be overwritten by this method.src1
- the first of a pair of Rectangle2D
objects to be intersected with each othersrc2
- the second of a pair of Rectangle2D
objects to be intersected with each otherdest
- the Rectangle2D
that holds the
results of the intersection of src1
and
src2
public abstract Rectangle2D createUnion(Rectangle2D r)
Rectangle2D
object representing the
union of this Rectangle2D
with the specified
Rectangle2D
.r
- the Rectangle2D
to be combined with
this Rectangle2D
Rectangle2D
containing both
the specified Rectangle2D
and this
Rectangle2D
.public static void union(Rectangle2D src1, Rectangle2D src2, Rectangle2D dest)
Rectangle2D
objects
and puts the result into the specified destination
Rectangle2D
object. One of the source rectangles
can also be the destination to avoid creating a third Rectangle2D
object, but in this case the original points of this source
rectangle will be overwritten by this method.src1
- the first of a pair of Rectangle2D
objects to be combined with each othersrc2
- the second of a pair of Rectangle2D
objects to be combined with each otherdest
- the Rectangle2D
that holds the
results of the union of src1
and
src2
public void add(double newx, double newy)
newx
and newy
, to this
Rectangle2D
. The resulting Rectangle2D
is the smallest Rectangle2D
that
contains both the original Rectangle2D
and the
specified point.
After adding a point, a call to contains
with the
added point as an argument does not necessarily return
true
. The contains
method does not
return true
for points on the right or bottom
edges of a rectangle. Therefore, if the added point falls on
the left or bottom edge of the enlarged rectangle,
contains
returns false
for that point.
newx
- the X coordinate of the new pointnewy
- the Y coordinate of the new pointpublic void add(Point2D pt)
Point2D
object pt
to this
Rectangle2D
.
The resulting Rectangle2D
is the smallest
Rectangle2D
that contains both the original
Rectangle2D
and the specified Point2D
.
After adding a point, a call to contains
with the
added point as an argument does not necessarily return
true
. The contains
method does not return true
for points on the right
or bottom edges of a rectangle. Therefore, if the added point falls
on the left or bottom edge of the enlarged rectangle,
contains
returns false
for that point.
pt
- the new Point2D
to add to this
Rectangle2D
.public void add(Rectangle2D r)
Rectangle2D
object to this
Rectangle2D
. The resulting Rectangle2D
is the union of the two Rectangle2D
objects.r
- the Rectangle2D
to add to this
Rectangle2D
.public PathIterator getPathIterator(AffineTransform at)
Rectangle2D
.
The iterator for this class is multi-threaded safe, which means
that this Rectangle2D
class guarantees that
modifications to the geometry of this Rectangle2D
object 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 untransformed coordinates are desiredPathIterator
object that returns the
geometry of the outline of this
Rectangle2D
, one segment at a time.public PathIterator getPathIterator(AffineTransform at, double flatness)
Rectangle2D
. Since rectangles are already
flat, the flatness
parameter is ignored.
The iterator for this class is multi-threaded safe, which means
that this Rectangle2D
class guarantees that
modifications to the geometry of this Rectangle2D
object do not affect any iterations of that geometry that
are already in process.getPathIterator
in interface Shape
getPathIterator
in class RectangularShape
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 distance that the line segments used to
approximate the curved segments are allowed to deviate from any
point on the original curve. Since rectangles are already flat,
the flatness
parameter is ignored.PathIterator
object that returns the
geometry of the outline of this
Rectangle2D
, one segment at a time.public int hashCode()
Rectangle2D
.hashCode
in class Object
Rectangle2D
.Object.equals(java.lang.Object)
,
System.identityHashCode(java.lang.Object)
public boolean equals(Object obj)
Object
is
equal to this Rectangle2D
. The specified
Object
is equal to this Rectangle2D
if it is an instance of Rectangle2D
and if its
location and size are the same as this Rectangle2D
.equals
in class Object
obj
- an Object
to be compared with this
Rectangle2D
.true
if obj
is an instance
of Rectangle2D
and has
the same values; false
otherwise.Object.hashCode()
,
HashMap
Submit a bug or feature
For further API reference and developer documentation, see Java SE Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
Copyright © 1993, 2019, Oracle and/or its affiliates. All rights reserved. Use is subject to license terms. Also see the documentation redistribution policy.