RectangularShape is the base class for a number of
* {@link Shape} objects whose geometry is defined by a rectangular frame.
* This class does not directly specify any specific geometry by
* itself, but merely provides manipulation methods inherited by
* a whole category of Shape objects.
* The manipulation methods provided by this class can be used to
* query and modify the rectangular frame, which provides a reference
* for the subclasses to define their geometry.
*
* @version 1.18, 12/19/03
* @author Jim Graham
*/
public abstract class RectangularShape implements Shape, Cloneable {
/**
* This is an abstract class that cannot be instantiated directly.
*
* @see Arc2D
* @see Ellipse2D
* @see Rectangle2D
* @see RoundRectangle2D
*/
protected RectangularShape() {
}
/**
* Returns the X coordinate of the upper left corner of
* the framing rectangle in double precision.
* @return the x coordinate of the upper left corner of
* the framing rectangle.
*/
public abstract double getX();
/**
* Returns the Y coordinate of the upper left corner of
* the framing rectangle in double precision.
* @return the y coordinate of the upper left corner of
* the framing rectangle.
*/
public abstract double getY();
/**
* Returns the width of the framing rectangle in
* double precision.
* @return the width of the framing rectangle.
*/
public abstract double getWidth();
/**
* Returns the height of the framing rectangle
* in double precision.
* @return the height of the framing rectangle.
*/
public abstract double getHeight();
/**
* Returns the smallest X coordinate of the framing
* rectangle of the Shape in double
* precision.
* @return the smallest x coordinate of the framing
* rectangle of the Shape.
*/
public double getMinX() {
return getX();
}
/**
* Returns the smallest Y coordinate of the framing
* rectangle of the Shape in double
* precision.
* @return the smallest y coordinate of the framing
* rectangle of the Shape.
*/
public double getMinY() {
return getY();
}
/**
* Returns the largest X coordinate of the framing
* rectangle of the Shape in double
* precision.
* @return the largest x coordinate of the framing
* rectangle of the Shape.
*/
public double getMaxX() {
return getX() + getWidth();
}
/**
* Returns the largest Y coordinate of the framing
* rectangle of the Shape in double
* precision.
* @return the largest y coordinate of the framing
* rectangle of the Shape.
*/
public double getMaxY() {
return getY() + getHeight();
}
/**
* Returns the X coordinate of the center of the framing
* rectangle of the Shape in double
* precision.
* @return the x coordinate of the framing rectangle
* of the Shape object's center.
*/
public double getCenterX() {
return getX() + getWidth() / 2.0;
}
/**
* Returns the Y coordinate of the center of the framing
* rectangle of the Shape in double
* precision.
* @return the y coordinate of the framing rectangle
* of the Shape object's center.
*/
public double getCenterY() {
return getY() + getHeight() / 2.0;
}
/**
* Returns the framing {@link Rectangle2D}
* that defines the overall shape of this object.
* @return a Rectangle2D, specified in
* double coordinates.
* @see #setFrame(double, double, double, double)
* @see #setFrame(Point2D, Dimension2D)
* @see #setFrame(Rectangle2D)
*/
public Rectangle2D getFrame() {
return new Rectangle2D.Double(getX(), getY(), getWidth(), getHeight());
}
/**
* Determines whether the RectangularShape is empty.
* When the RectangularShape is empty, it encloses no
* area.
* @return true if the RectangularShape is empty;
* false otherwise.
*/
public abstract boolean isEmpty();
/**
* Sets the location and size of the framing rectangle of this
* Shape to the specified rectangular values.
* The framing rectangle is used by the subclasses of
* RectangularShape to define their geometry.
* @param x, y the coordinates of the upper-left corner of the
* specified rectangular shape
* @param w the width of the specified rectangular shape
* @param h the height of the specified rectangular shape
* @see #getFrame
*/
public abstract void setFrame(double x, double y, double w, double h);
/**
* Sets the location and size of the framing rectangle of this
* Shape to the specified {@link Point2D} and
* {@link Dimension2D}, respectively. The framing rectangle is used
* by the subclasses of RectangularShape to define
* their geometry.
* @param loc the specified Point2D
* @param size the specified Dimension2D
* @see #getFrame
*/
public void setFrame(Point2D loc, Dimension2D size) {
setFrame(loc.getX(), loc.getY(), size.getWidth(), size.getHeight());
}
/**
* Sets the framing rectangle of this Shape to
* be the specified Rectangle2D. The framing rectangle is
* used by the subclasses of RectangularShape to define
* their geometry.
* @param r the specified Rectangle2D
* @see #getFrame
*/
public void setFrame(Rectangle2D r) {
setFrame(r.getX(), r.getY(), r.getWidth(), r.getHeight());
}
/**
* Sets the diagonal of the framing rectangle of this Shape
* based on the two specified coordinates. The framing rectangle is
* used by the subclasses of RectangularShape to define
* their geometry.
* @param x1, y1 the first specified coordinates
* @param x2, y2 the second specified coordinates
*/
public void setFrameFromDiagonal(double x1, double y1,
double x2, double y2) {
if (x2 < x1) {
double t = x1;
x1 = x2;
x2 = t;
}
if (y2 < y1) {
double t = y1;
y1 = y2;
y2 = t;
}
setFrame(x1, y1, x2 - x1, y2 - y1);
}
/**
* Sets the diagonal of the framing rectangle of this Shape
* based on two specified Point2D objects. The framing
* rectangle is used by the subclasses of RectangularShape
* to define their geometry.
* @param p1, p2 the two specified Point2D objects
*/
public void setFrameFromDiagonal(Point2D p1, Point2D p2) {
setFrameFromDiagonal(p1.getX(), p1.getY(), p2.getX(), p2.getY());
}
/**
* Sets the framing rectangle of this Shape
* based on the specified center point coordinates and corner point
* coordinates. The framing rectangle is used by the subclasses of
* RectangularShape to define their geometry.
* @param centerX, centerY the center point coordinates
* @param cornerX, cornerY the corner point coordinates
*/
public void setFrameFromCenter(double centerX, double centerY,
double cornerX, double cornerY) {
double halfW = Math.abs(cornerX - centerX);
double halfH = Math.abs(cornerY - centerY);
setFrame(centerX - halfW, centerY - halfH, halfW * 2.0, halfH * 2.0);
}
/**
* Sets the framing rectangle of this Shape based on a
* specified center Point2D and corner
* Point2D. The framing rectangle is used by the subclasses
* of RectangularShape to define their geometry.
* @param center the specified center Point2D
* @param corner the specified corner Point2D
*/
public void setFrameFromCenter(Point2D center, Point2D corner) {
setFrameFromCenter(center.getX(), center.getY(),
corner.getX(), corner.getY());
}
/**
* Tests if a specified Point2D is inside the boundary
* of the Shape.
* @param p the specified Point2D
* @return true if the Point2D is inside the
* Shape object's boundary;
* false otherwise.
*/
public boolean contains(Point2D p) {
return contains(p.getX(), p.getY());
}
/**
* Tests if the interior of theShape intersects the
* interior of a specified Rectangle2D.
* @param r the specified Rectangle2D
* @return true if the Shape and the
* specified Rectangle2D intersect each other;
* false otherwise.
*/
public boolean intersects(Rectangle2D r) {
return intersects(r.getX(), r.getY(), r.getWidth(), r.getHeight());
}
/**
* Tests if the interior of the Shape entirely contains the
* specified Rectangle2D.
* @param r the specified Rectangle2D
* @return true if the Shape entirely contains
* the specified Rectangle2D;
* false otherwise.
*/
public boolean contains(Rectangle2D r) {
return contains(r.getX(), r.getY(), r.getWidth(), r.getHeight());
}
/**
* Returns the bounding box of the Shape.
* @return a {@link Rectangle} object that bounds the
* Shape.
*/
public Rectangle getBounds() {
double width = getWidth();
double height = getHeight();
if (width < 0 || height < 0) {
return new Rectangle();
}
double x = getX();
double y = getY();
double x1 = Math.floor(x);
double y1 = Math.floor(y);
double x2 = Math.ceil(x + width);
double y2 = Math.ceil(y + height);
return new Rectangle((int) x1, (int) y1,
(int) (x2 - x1), (int) (y2 - y1));
}
/**
* Returns an iterator object that iterates along the
* Shape object's boundary and provides access to a
* flattened view of the outline of the Shape
* object's geometry.
* * Only SEG_MOVETO, SEG_LINETO, and SEG_CLOSE point types will * be returned by the iterator. *
* The amount of subdivision of the curved segments is controlled
* by the flatness parameter, which specifies the
* maximum distance that any point on the unflattened transformed
* curve can deviate from the returned flattened path segments.
* An optional {@link AffineTransform} can
* be specified so that the coordinates returned in the iteration are
* transformed accordingly.
* @param at an optional AffineTransform to be applied to the
* coordinates as they are returned in the iteration,
* or null if untransformed coordinates are desired.
* @param flatness the maximum distance that the line segments used to
* approximate the curved segments are allowed to deviate
* from any point on the original curve
* @return a PathIterator object that provides access to
* the Shape object's flattened geometry.
*/
public PathIterator getPathIterator(AffineTransform at, double flatness) {
return new FlatteningPathIterator(getPathIterator(at), flatness);
}
/**
* Creates a new object of the same class and with the same
* contents as this object.
* @return a clone of this instance.
* @exception OutOfMemoryError if there is not enough memory.
* @see java.lang.Cloneable
* @since 1.2
*/
public Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException e) {
// this shouldn't happen, since we are Cloneable
throw new InternalError();
}
}
}