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src/java.desktop/share/classes/java/awt/geom/PathIterator.java
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*** 26,36 ****
package java.awt.geom;
import java.lang.annotation.Native;
/**
! * The <code>PathIterator</code> interface provides the mechanism
* for objects that implement the {@link java.awt.Shape Shape}
* interface to return the geometry of their boundary by allowing
* a caller to retrieve the path of that boundary a segment at a
* time. This interface allows these objects to retrieve the path of
* their boundary a segment at a time by using 1st through 3rd order
--- 26,36 ----
package java.awt.geom;
import java.lang.annotation.Native;
/**
! * The {@code PathIterator} interface provides the mechanism
* for objects that implement the {@link java.awt.Shape Shape}
* interface to return the geometry of their boundary by allowing
* a caller to retrieve the path of that boundary a segment at a
* time. This interface allows these objects to retrieve the path of
* their boundary a segment at a time by using 1st through 3rd order
*** 96,106 ****
/**
* The segment type constant for the pair of points that specify
* a quadratic parametric curve to be drawn from the most recently
* specified point.
* The curve is interpolated by solving the parametric control
! * equation in the range <code>(t=[0..1])</code> using
* the most recently specified (current) point (CP),
* the first control point (P1),
* and the final interpolated control point (P2).
* The parametric control equation for this curve is:
* <pre>
--- 96,106 ----
/**
* The segment type constant for the pair of points that specify
* a quadratic parametric curve to be drawn from the most recently
* specified point.
* The curve is interpolated by solving the parametric control
! * equation in the range {@code (t=[0..1])} using
* the most recently specified (current) point (CP),
* the first control point (P1),
* and the final interpolated control point (P2).
* The parametric control equation for this curve is:
* <pre>
*** 118,128 ****
/**
* The segment type constant for the set of 3 points that specify
* a cubic parametric curve to be drawn from the most recently
* specified point.
* The curve is interpolated by solving the parametric control
! * equation in the range <code>(t=[0..1])</code> using
* the most recently specified (current) point (CP),
* the first control point (P1),
* the second control point (P2),
* and the final interpolated control point (P3).
* The parametric control equation for this curve is:
--- 118,128 ----
/**
* The segment type constant for the set of 3 points that specify
* a cubic parametric curve to be drawn from the most recently
* specified point.
* The curve is interpolated by solving the parametric control
! * equation in the range {@code (t=[0..1])} using
* the most recently specified (current) point (CP),
* the first control point (P1),
* the second control point (P2),
* and the final interpolated control point (P3).
* The parametric control equation for this curve is:
*** 155,166 ****
*/
public int getWindingRule();
/**
* Tests if the iteration is complete.
! * @return <code>true</code> if all the segments have
! * been read; <code>false</code> otherwise.
*/
public boolean isDone();
/**
* Moves the iterator to the next segment of the path forwards
--- 155,166 ----
*/
public int getWindingRule();
/**
* Tests if the iteration is complete.
! * @return {@code true} if all the segments have
! * been read; {@code false} otherwise.
*/
public boolean isDone();
/**
* Moves the iterator to the next segment of the path forwards
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