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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libjava/] [classpath/] [java/] [awt/] [Shape.java] - Blame information for rev 771

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1 771 jeremybenn
/* Shape.java -- the classic Object-Oriented shape interface
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   Copyright (C) 1999, 2002, 2005, 2006,  Free Software Foundation, Inc.
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This file is part of GNU Classpath.
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GNU Classpath is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GNU Classpath is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GNU Classpath; see the file COPYING.  If not, write to the
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Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
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02110-1301 USA.
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Linking this library statically or dynamically with other modules is
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making a combined work based on this library.  Thus, the terms and
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conditions of the GNU General Public License cover the whole
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combination.
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As a special exception, the copyright holders of this library give you
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permission to link this library with independent modules to produce an
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executable, regardless of the license terms of these independent
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modules, and to copy and distribute the resulting executable under
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terms of your choice, provided that you also meet, for each linked
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independent module, the terms and conditions of the license of that
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module.  An independent module is a module which is not derived from
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or based on this library.  If you modify this library, you may extend
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this exception to your version of the library, but you are not
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obligated to do so.  If you do not wish to do so, delete this
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exception statement from your version. */
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package java.awt;
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import java.awt.geom.AffineTransform;
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import java.awt.geom.PathIterator;
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import java.awt.geom.Point2D;
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import java.awt.geom.Rectangle2D;
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/**
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 * This interface represents an abstract shape. The shape is described by
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 * a {@link PathIterator}, and has callbacks for determining bounding box,
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 * where points and rectangles lie in relation to the shape, and tracing
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 * the trajectory.
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 *
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 * <p>A point is inside if it is completely inside, or on the boundary and
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 * adjacent points in the increasing x or y direction are completely inside.
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 * Unclosed shapes are considered as implicitly closed when performing
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 * <code>contains</code> or <code>intersects</code>.
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 *
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 * @author Aaron M. Renn (arenn@urbanophile.com)
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 * @see PathIterator
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 * @see AffineTransform
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 * @see java.awt.geom.FlatteningPathIterator
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 * @see java.awt.geom.GeneralPath
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 * @since 1.0
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 * @status updated to 1.4
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 */
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public interface Shape
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{
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  /**
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   * Returns a <code>Rectange</code> that bounds the shape. There is no
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   * guarantee that this is the minimum bounding box, particularly if
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   * the shape overflows the finite integer range of a bound. Generally,
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   * <code>getBounds2D</code> returns a tighter bound.
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   *
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   * @return the shape's bounding box
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   * @see #getBounds2D()
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   */
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  Rectangle getBounds();
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  /**
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   * Returns a high precision bounding box of the shape. There is no guarantee
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   * that this is the minimum bounding box, but at least it never overflows.
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   *
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   * @return the shape's bounding box
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   * @see #getBounds()
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   * @since 1.2
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   */
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  Rectangle2D getBounds2D();
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  /**
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   * Test if the coordinates lie in the shape.
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   *
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   * @param x the x coordinate
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   * @param y the y coordinate
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   * @return true if (x,y) lies inside the shape
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   * @since 1.2
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   */
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  boolean contains(double x, double y);
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  /**
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   * Test if the point lie in the shape.
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   *
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   * @param p the high-precision point
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   * @return true if p lies inside the shape
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   * @throws NullPointerException if p is null
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   * @since 1.2
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   */
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  boolean contains(Point2D p);
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  /**
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   * Test if a high-precision rectangle intersects the shape. This is true
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   * if any point in the rectangle is in the shape, with the caveat that the
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   * operation may include high probability estimates when the actual
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   * calculation is prohibitively expensive. The {@link java.awt.geom.Area}
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   * class can be used for more precise answers.
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   *
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   * @param x the x coordinate of the rectangle
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   * @param y the y coordinate of the rectangle
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   * @param w the width of the rectangle, undefined results if negative
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   * @param h the height of the rectangle, undefined results if negative
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   * @return true if the rectangle intersects this shape
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   * @see java.awt.geom.Area
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   * @since 1.2
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   */
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  boolean intersects(double x, double y, double w, double h);
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  /**
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   * Test if a high-precision rectangle intersects the shape. This is true
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   * if any point in the rectangle is in the shape, with the caveat that the
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   * operation may include high probability estimates when the actual
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   * calculation is prohibitively expensive. The {@link java.awt.geom.Area}
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   * class can be used for more precise answers.
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   *
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   * @param r the rectangle
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   * @return true if the rectangle intersects this shape
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   * @throws NullPointerException if r is null
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   * @see #intersects(double, double, double, double)
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   * @since 1.2
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   */
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  boolean intersects(Rectangle2D r);
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  /**
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   * Test if a high-precision rectangle lies completely in the shape. This is
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   * true if all points in the rectangle are in the shape, with the caveat
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   * that the operation may include high probability estimates when the actual
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   * calculation is prohibitively expensive. The {@link java.awt.geom.Area}
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   * class can be used for more precise answers.
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   *
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   * @param x the x coordinate of the rectangle
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   * @param y the y coordinate of the rectangle
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   * @param w the width of the rectangle, undefined results if negative
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   * @param h the height of the rectangle, undefined results if negative
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   * @return true if the rectangle is contained in this shape
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   * @see java.awt.geom.Area
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   * @since 1.2
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   */
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  boolean contains(double x, double y, double w, double h);
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  /**
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   * Test if a high-precision rectangle lies completely in the shape. This is
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   * true if all points in the rectangle are in the shape, with the caveat
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   * that the operation may include high probability estimates when the actual
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   * calculation is prohibitively expensive. The {@link java.awt.geom.Area}
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   * class can be used for more precise answers.
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   *
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   * @param r the rectangle
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   * @return true if the rectangle is contained in this shape
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   * @throws NullPointerException if r is null
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   * @see #contains(double, double, double, double)
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   * @since 1.2
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   */
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  boolean contains(Rectangle2D r);
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  /**
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   * Return an iterator along the shape boundary. If the optional transform
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   * is provided, the iterator is transformed accordingly. Each call returns
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   * a new object, independent from others in use. It is recommended, but
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   * not required, that the Shape isolate iterations from future changes to
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   * the boundary, and document this fact.
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   *
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   * @param transform an optional transform to apply to the
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   *                  iterator (<code>null</code> permitted).
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   * @return a new iterator over the boundary
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   * @since 1.2
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   */
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  PathIterator getPathIterator(AffineTransform transform);
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  /**
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   * Return an iterator along the flattened version of the shape boundary.
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   * Only SEG_MOVETO, SEG_LINETO, and SEG_CLOSE points are returned in the
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   * iterator. The flatness parameter controls how far points are allowed to
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   * differ from the real curve; although a limit on accuracy may cause this
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   * parameter to be enlarged if needed.
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   *
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   * <p>If the optional transform is provided, the iterator is transformed
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   * accordingly. Each call returns a new object, independent from others in
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   * use. It is recommended, but not required, that the Shape isolate
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   * iterations from future changes to the boundary, and document this fact.
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   *
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   * @param transform an optional transform to apply to the
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   *                  iterator (<code>null</code> permitted).
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   * @param flatness the maximum distance for deviation from the real boundary
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   * @return a new iterator over the boundary
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   * @since 1.2
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   */
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  PathIterator getPathIterator(AffineTransform transform, double flatness);
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}

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