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package sun.java2d.pipe;

import sun.java2d.SunGraphics2D;

This interface defines the set of calls that pipeline objects can use to pass on responsibility for drawing arbitrary parallelogram shapes. Six floating point numbers are provided and the parallelogram is defined as the quadrilateral with the following vertices:
    origin: (x, y)
         => (x+dx1, y+dy1)
         => (x+dx1+dx2, y+dy1+dy2)
         => (x+dx2, y+dy2)
         => origin
/** * This interface defines the set of calls that pipeline objects * can use to pass on responsibility for drawing arbitrary * parallelogram shapes. * Six floating point numbers are provided and the parallelogram * is defined as the quadrilateral with the following vertices: * <pre> * origin: (x, y) * => (x+dx1, y+dy1) * => (x+dx1+dx2, y+dy1+dy2) * => (x+dx2, y+dy2) * => origin * </pre> */
public interface ParallelogramPipe { public void fillParallelogram(SunGraphics2D sg, double x, double y, double dx1, double dy1, double dx2, double dy2);
Draw a Parallelogram with the indicated line widths assuming a standard BasicStroke with MITER joins. lw1 specifies the width of the stroke along the dx1,dy1 vector and lw2 specifies the width of the stroke along the dx2,dy2 vector. This is equivalent to outsetting the indicated parallelogram by lw/2 pixels, then insetting the same parallelogram by lw/2 pixels and filling the difference between the outer and inner parallelograms.
/** * Draw a Parallelogram with the indicated line widths * assuming a standard BasicStroke with MITER joins. * lw1 specifies the width of the stroke along the dx1,dy1 * vector and lw2 specifies the width of the stroke along * the dx2,dy2 vector. * This is equivalent to outsetting the indicated * parallelogram by lw/2 pixels, then insetting the * same parallelogram by lw/2 pixels and filling the * difference between the outer and inner parallelograms. */
public void drawParallelogram(SunGraphics2D sg, double x, double y, double dx1, double dy1, double dx2, double dy2, double lw1, double lw2); }