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java.awt.geom
interface PathIterator

All Known Implementing Classes:
FlatteningPathIterator

public interface PathIterator

The 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 Bézier curves, which are lines and quadratic or cubic Bézier splines.

Multiple subpaths can be expressed by using a "MOVETO" segment to create a discontinuity in the geometry to move from the end of one subpath to the beginning of the next.

Each subpath can be closed manually by ending the last segment in the subpath on the same coordinate as the beginning "MOVETO" segment for that subpath or by using a "CLOSE" segment to append a line segment from the last point back to the first. Be aware that manually closing an outline as opposed to using a "CLOSE" segment to close the path might result in different line style decorations being used at the end points of the subpath. For example, the {@link java.awt.BasicStroke BasicStroke} object uses a line "JOIN" decoration to connect the first and last points if a "CLOSE" segment is encountered, whereas simply ending the path on the same coordinate as the beginning coordinate results in line "CAP" decorations being used at the ends.


Field Summary
static int SEG_CLOSE
          The segment type constant that specifies that the preceding subpath should be closed by appending a line segment back to the point corresponding to the most recent SEG_MOVETO.
static int SEG_CUBICTO
          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.
static int SEG_LINETO
          The segment type constant for a point that specifies the end point of a line to be drawn from the most recently specified point.
static int SEG_MOVETO
          The segment type constant for a point that specifies the starting location for a new subpath.
static int SEG_QUADTO
          The segment type constant for the pair of points that specify a quadratic parametric curve to be drawn from the most recently specified point.
static int WIND_EVEN_ODD
          The winding rule constant for specifying an even-odd rule for determining the interior of a path.
static int WIND_NON_ZERO
          The winding rule constant for specifying a non-zero rule for determining the interior of a path.
 
Method Summary
 int
currentSegment(double[] coords)

          Returns the coordinates and type of the current path segment in the iteration.
 int
currentSegment(float[] coords)

          Returns the coordinates and type of the current path segment in the iteration.
 int

          Returns the winding rule for determining the interior of the path.
 boolean

          Tests if the iteration is complete.
 void

          Moves the iterator to the next segment of the path forwards along the primary direction of traversal as long as there are more points in that direction.
 

Field Detail

SEG_CLOSE

public static final int SEG_CLOSE
The segment type constant that specifies that the preceding subpath should be closed by appending a line segment back to the point corresponding to the most recent SEG_MOVETO.

SEG_CUBICTO

public static final int SEG_CUBICTO
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 (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:
          P(t) = B(3,0)*CP + B(3,1)*P1 + B(3,2)*P2 + B(3,3)*P3
          0 <= t <= 1

        B(n,m) = mth coefficient of nth degree Bernstein polynomial
               = C(n,m) * t^(m) * (1 - t)^(n-m)
        C(n,m) = Combinations of n things, taken m at a time
               = n! / (m! * (n-m)!)
 
This form of curve is commonly known as a Bézier curve.

SEG_LINETO

public static final int SEG_LINETO
The segment type constant for a point that specifies the end point of a line to be drawn from the most recently specified point.

SEG_MOVETO

public static final int SEG_MOVETO
The segment type constant for a point that specifies the starting location for a new subpath.

SEG_QUADTO

public static final int SEG_QUADTO
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 (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:
          P(t) = B(2,0)*CP + B(2,1)*P1 + B(2,2)*P2
          0 <= t <= 1

        B(n,m) = mth coefficient of nth degree Bernstein polynomial
               = C(n,m) * t^(m) * (1 - t)^(n-m)
        C(n,m) = Combinations of n things, taken m at a time
               = n! / (m! * (n-m)!)
 

WIND_EVEN_ODD

public static final int WIND_EVEN_ODD
The winding rule constant for specifying an even-odd rule for determining the interior of a path. The even-odd rule specifies that a point lies inside the path if a ray drawn in any direction from that point to infinity is crossed by path segments an odd number of times.

WIND_NON_ZERO

public static final int WIND_NON_ZERO
The winding rule constant for specifying a non-zero rule for determining the interior of a path. The non-zero rule specifies that a point lies inside the path if a ray drawn in any direction from that point to infinity is crossed by path segments a different number of times in the counter-clockwise direction than the clockwise direction.
Method Detail

currentSegment

public int currentSegment(double[] coords)
Returns the coordinates and type of the current path segment in the iteration. The return value is the path-segment type: SEG_MOVETO, SEG_LINETO, SEG_QUADTO, SEG_CUBICTO, or SEG_CLOSE. A double array of length 6 must be passed in and can be used to store the coordinates of the point(s). Each point is stored as a pair of double x,y coordinates. SEG_MOVETO and SEG_LINETO types returns one point, SEG_QUADTO returns two points, SEG_CUBICTO returns 3 points and SEG_CLOSE does not return any points.

Parameters:
coords - an array that holds the data returned from this method
Returns:
the path-segment type of the current path segment.

currentSegment

public int currentSegment(float[] coords)
Returns the coordinates and type of the current path segment in the iteration. The return value is the path-segment type: SEG_MOVETO, SEG_LINETO, SEG_QUADTO, SEG_CUBICTO, or SEG_CLOSE. A float array of length 6 must be passed in and can be used to store the coordinates of the point(s). Each point is stored as a pair of float x,y coordinates. SEG_MOVETO and SEG_LINETO types returns one point, SEG_QUADTO returns two points, SEG_CUBICTO returns 3 points and SEG_CLOSE does not return any points.

Parameters:
coords - an array that holds the data returned from this method
Returns:
the path-segment type of the current path segment.

getWindingRule

public int getWindingRule()
Returns the winding rule for determining the interior of the path.

Returns:
the winding rule.

isDone

public boolean isDone()
Tests if the iteration is complete.

Returns:
true if all the segments have been read; false otherwise.

next

public void next()
Moves the iterator to the next segment of the path forwards along the primary direction of traversal as long as there are more points in that direction.



This documentation differs from the official API. Jadeite adds extra features to the API including: variable font sizes, constructions examples, placeholders for classes and methods, and auto-generated “See Also” links. Additionally it is missing some items found in standard Javadoc documentation, including: generics type information, “Deprecated” tags and comments, “See Also” links, along with other minor differences. Please send any questions or feedback to bam@cs.cmu.edu.
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