alvinalexander.com | career | drupal | java | mac | mysql | perl | scala | uml | unix  

Java example source code file (PixelToParallelogramConverter.java)

This example Java source code file (PixelToParallelogramConverter.java) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

affinetransform, awt, basicstroke, geometry, internalerror, java2d, line2d, parallelogrampipe, pixeldrawpipe, pixeltoparallelogramconverter, pixeltoshapeconverter, rectangle2d, shape, shapedrawpipe

The PixelToParallelogramConverter.java Java example source code

/*
 * Copyright (c) 2008, 2011, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package sun.java2d.pipe;

import java.awt.Shape;
import java.awt.BasicStroke;
import java.awt.geom.Line2D;
import java.awt.geom.Rectangle2D;
import java.awt.geom.AffineTransform;
import sun.java2d.SunGraphics2D;
import sun.awt.SunHints;

/**
 * This class converts calls to the basic pixel rendering methods
 * into calls to the methods on a ParallelogramPipe.
 * Most calls are transformed into calls to the fill(Shape) method
 * by the parent PixelToShapeConverter class, but some calls are
 * transformed into calls to fill/drawParallelogram().
 */
public class PixelToParallelogramConverter extends PixelToShapeConverter
    implements ShapeDrawPipe
{
    ParallelogramPipe outrenderer;
    double minPenSize;
    double normPosition;
    double normRoundingBias;
    boolean adjustfill;

    /**
     * @param shapepipe pipeline to forward shape calls to
     * @param pgrampipe pipeline to forward parallelogram calls to
     *                  (and drawLine calls if possible)
     * @param minPenSize minimum pen size for dropout control
     * @param normPosition sub-pixel location to normalize endpoints
     *                     for STROKE_NORMALIZE cases
     * @param adjustFill boolean to control whethere normalization
     *                   constants are also applied to fill operations
     *                   (normally true for non-AA, false for AA)
     */
    public PixelToParallelogramConverter(ShapeDrawPipe shapepipe,
                                         ParallelogramPipe pgrampipe,
                                         double minPenSize,
                                         double normPosition,
                                         boolean adjustfill)
    {
        super(shapepipe);
        outrenderer = pgrampipe;
        this.minPenSize = minPenSize;
        this.normPosition = normPosition;
        this.normRoundingBias = 0.5 - normPosition;
        this.adjustfill = adjustfill;
    }

    public void drawLine(SunGraphics2D sg2d,
                         int x1, int y1, int x2, int y2)
    {
        if (!drawGeneralLine(sg2d, x1, y1, x2, y2)) {
            super.drawLine(sg2d, x1, y1, x2, y2);
        }
    }

    public void drawRect(SunGraphics2D sg2d,
                         int x, int y, int w, int h)
    {
        if (w >= 0 && h >= 0) {
            if (sg2d.strokeState < SunGraphics2D.STROKE_CUSTOM) {
                BasicStroke bs = ((BasicStroke) sg2d.stroke);
                if (w > 0 && h > 0) {
                    if (bs.getLineJoin() == BasicStroke.JOIN_MITER &&
                        bs.getDashArray() == null)
                    {
                        double lw = bs.getLineWidth();
                        drawRectangle(sg2d, x, y, w, h, lw);
                        return;
                    }
                } else {
                    // Note: This calls the integer version which
                    // will verify that the local drawLine optimizations
                    // work and call super.drawLine(), if not.
                    drawLine(sg2d, x, y, x+w, y+h);
                    return;
                }
            }
            super.drawRect(sg2d, x, y, w, h);
        }
    }

    public void fillRect(SunGraphics2D sg2d,
                         int x, int y, int w, int h)
    {
        if (w > 0 && h > 0) {
            fillRectangle(sg2d, x, y, w, h);
        }
    }

    public void draw(SunGraphics2D sg2d, Shape s) {
        if (sg2d.strokeState < SunGraphics2D.STROKE_CUSTOM) {
            BasicStroke bs = ((BasicStroke) sg2d.stroke);
            if (s instanceof Rectangle2D) {
                if (bs.getLineJoin() == BasicStroke.JOIN_MITER &&
                    bs.getDashArray() == null)
                {
                    Rectangle2D r2d = (Rectangle2D) s;
                    double w = r2d.getWidth();
                    double h = r2d.getHeight();
                    double x = r2d.getX();
                    double y = r2d.getY();
                    if (w >= 0 && h >= 0) {
                        double lw = bs.getLineWidth();
                        drawRectangle(sg2d, x, y, w, h, lw);
                    }
                    return;
                }
            } else if (s instanceof Line2D) {
                Line2D l2d = (Line2D) s;
                if (drawGeneralLine(sg2d,
                                    l2d.getX1(), l2d.getY1(),
                                    l2d.getX2(), l2d.getY2()))
                {
                    return;
                }
            }
        }

        outpipe.draw(sg2d, s);
    }

    public void fill(SunGraphics2D sg2d, Shape s) {
        if (s instanceof Rectangle2D) {
            Rectangle2D r2d = (Rectangle2D) s;
            double w = r2d.getWidth();
            double h = r2d.getHeight();
            if (w > 0 && h > 0) {
                double x = r2d.getX();
                double y = r2d.getY();
                fillRectangle(sg2d, x, y, w, h);
            }
            return;
        }

        outpipe.fill(sg2d, s);
    }

    static double len(double x, double y) {
        return ((x == 0) ? Math.abs(y)
                : ((y == 0) ? Math.abs(x)
                   : Math.sqrt(x * x + y * y)));
    }

    double normalize(double v) {
        return Math.floor(v + normRoundingBias) + normPosition;
    }

    public boolean drawGeneralLine(SunGraphics2D sg2d,
                                   double ux1, double uy1,
                                   double ux2, double uy2)
    {
        if (sg2d.strokeState == SunGraphics2D.STROKE_CUSTOM ||
            sg2d.strokeState == SunGraphics2D.STROKE_THINDASHED)
        {
            return false;
        }
        BasicStroke bs = (BasicStroke) sg2d.stroke;
        int cap = bs.getEndCap();
        if (cap == BasicStroke.CAP_ROUND || bs.getDashArray() != null) {
            // TODO: we could construct the GeneralPath directly
            // for CAP_ROUND and save a lot of processing in that case...
            // And again, we would need to deal with dropout control...
            return false;
        }
        double lw = bs.getLineWidth();
        // Save the original dx, dy in case we need it to transform
        // the linewidth as a perpendicular vector below
        double dx = ux2 - ux1;
        double dy = uy2 - uy1;
        double x1, y1, x2, y2;
        switch (sg2d.transformState) {
        case SunGraphics2D.TRANSFORM_GENERIC:
        case SunGraphics2D.TRANSFORM_TRANSLATESCALE:
            {
                double coords[] = {ux1, uy1, ux2, uy2};
                sg2d.transform.transform(coords, 0, coords, 0, 2);
                x1 = coords[0];
                y1 = coords[1];
                x2 = coords[2];
                y2 = coords[3];
            }
            break;
        case SunGraphics2D.TRANSFORM_ANY_TRANSLATE:
        case SunGraphics2D.TRANSFORM_INT_TRANSLATE:
            {
                double tx = sg2d.transform.getTranslateX();
                double ty = sg2d.transform.getTranslateY();
                x1 = ux1 + tx;
                y1 = uy1 + ty;
                x2 = ux2 + tx;
                y2 = uy2 + ty;
            }
            break;
        case SunGraphics2D.TRANSFORM_ISIDENT:
            x1 = ux1;
            y1 = uy1;
            x2 = ux2;
            y2 = uy2;
            break;
        default:
            throw new InternalError("unknown TRANSFORM state...");
        }
        if (sg2d.strokeHint != SunHints.INTVAL_STROKE_PURE) {
            if (sg2d.strokeState == SunGraphics2D.STROKE_THIN &&
                outrenderer instanceof PixelDrawPipe)
            {
                // PixelDrawPipes will add sg2d.transXY so we need to factor
                // that out...
                int ix1 = (int) Math.floor(x1 - sg2d.transX);
                int iy1 = (int) Math.floor(y1 - sg2d.transY);
                int ix2 = (int) Math.floor(x2 - sg2d.transX);
                int iy2 = (int) Math.floor(y2 - sg2d.transY);
                ((PixelDrawPipe)outrenderer).drawLine(sg2d, ix1, iy1, ix2, iy2);
                return true;
            }
            x1 = normalize(x1);
            y1 = normalize(y1);
            x2 = normalize(x2);
            y2 = normalize(y2);
        }
        if (sg2d.transformState >= SunGraphics2D.TRANSFORM_TRANSLATESCALE) {
            // Transform the linewidth...
            // calculate the scaling factor for a unit vector
            // perpendicular to the original user space line.
            double len = len(dx, dy);
            if (len == 0) {
                dx = len = 1;
                // dy = 0; already
            }
            // delta transform the transposed (90 degree rotated) unit vector
            double unitvector[] = {dy/len, -dx/len};
            sg2d.transform.deltaTransform(unitvector, 0, unitvector, 0, 1);
            lw *= len(unitvector[0], unitvector[1]);
        }
        lw = Math.max(lw, minPenSize);
        dx = x2 - x1;
        dy = y2 - y1;
        double len = len(dx, dy);
        double udx, udy;
        if (len == 0) {
            if (cap == BasicStroke.CAP_BUTT) {
                return true;
            }
            udx = lw;
            udy = 0;
        } else {
            udx = lw * dx / len;
            udy = lw * dy / len;
        }
        double px = x1 + udy / 2.0;
        double py = y1 - udx / 2.0;
        if (cap == BasicStroke.CAP_SQUARE) {
            px -= udx / 2.0;
            py -= udy / 2.0;
            dx += udx;
            dy += udy;
        }
        outrenderer.fillParallelogram(sg2d, ux1, uy1, ux2, uy2,
                                      px, py, -udy, udx, dx, dy);
        return true;
    }

    public void fillRectangle(SunGraphics2D sg2d,
                              double rx, double ry,
                              double rw, double rh)
    {
        double px, py;
        double dx1, dy1, dx2, dy2;
        AffineTransform txform = sg2d.transform;
        dx1 = txform.getScaleX();
        dy1 = txform.getShearY();
        dx2 = txform.getShearX();
        dy2 = txform.getScaleY();
        px = rx * dx1 + ry * dx2 + txform.getTranslateX();
        py = rx * dy1 + ry * dy2 + txform.getTranslateY();
        dx1 *= rw;
        dy1 *= rw;
        dx2 *= rh;
        dy2 *= rh;
        if (adjustfill &&
            sg2d.strokeState < SunGraphics2D.STROKE_CUSTOM &&
            sg2d.strokeHint != SunHints.INTVAL_STROKE_PURE)
        {
            double newx = normalize(px);
            double newy = normalize(py);
            dx1 = normalize(px + dx1) - newx;
            dy1 = normalize(py + dy1) - newy;
            dx2 = normalize(px + dx2) - newx;
            dy2 = normalize(py + dy2) - newy;
            px = newx;
            py = newy;
        }
        outrenderer.fillParallelogram(sg2d, rx, ry, rx+rw, ry+rh,
                                      px, py, dx1, dy1, dx2, dy2);
    }

    public void drawRectangle(SunGraphics2D sg2d,
                              double rx, double ry,
                              double rw, double rh,
                              double lw)
    {
        double px, py;
        double dx1, dy1, dx2, dy2;
        double lw1, lw2;
        AffineTransform txform = sg2d.transform;
        dx1 = txform.getScaleX();
        dy1 = txform.getShearY();
        dx2 = txform.getShearX();
        dy2 = txform.getScaleY();
        px = rx * dx1 + ry * dx2 + txform.getTranslateX();
        py = rx * dy1 + ry * dy2 + txform.getTranslateY();
        // lw along dx1,dy1 scale by transformed length of dx2,dy2 vectors
        // and vice versa
        lw1 = len(dx1, dy1) * lw;
        lw2 = len(dx2, dy2) * lw;
        dx1 *= rw;
        dy1 *= rw;
        dx2 *= rh;
        dy2 *= rh;
        if (sg2d.strokeState < SunGraphics2D.STROKE_CUSTOM &&
            sg2d.strokeHint != SunHints.INTVAL_STROKE_PURE)
        {
            double newx = normalize(px);
            double newy = normalize(py);
            dx1 = normalize(px + dx1) - newx;
            dy1 = normalize(py + dy1) - newy;
            dx2 = normalize(px + dx2) - newx;
            dy2 = normalize(py + dy2) - newy;
            px = newx;
            py = newy;
        }
        lw1 = Math.max(lw1, minPenSize);
        lw2 = Math.max(lw2, minPenSize);
        double len1 = len(dx1, dy1);
        double len2 = len(dx2, dy2);
        if (lw1 >= len1 || lw2 >= len2) {
            // The line widths are large enough to consume the
            // entire hole in the middle of the parallelogram
            // so we can just fill the outer parallelogram.
            fillOuterParallelogram(sg2d,
                                   rx, ry, rx+rw, ry+rh,
                                   px, py, dx1, dy1, dx2, dy2,
                                   len1, len2, lw1, lw2);
        } else {
            outrenderer.drawParallelogram(sg2d,
                                          rx, ry, rx+rw, ry+rh,
                                          px, py, dx1, dy1, dx2, dy2,
                                          lw1 / len1, lw2 / len2);
        }
    }

    /**
     * This utility function handles the case where a drawRectangle
     * operation discovered that the interior hole in the rectangle
     * or parallelogram has been completely filled in by the stroke
     * width.  It calculates the outer parallelogram of the stroke
     * and issues a single fillParallelogram request to fill it.
     */
    public void fillOuterParallelogram(SunGraphics2D sg2d,
                                       double ux1, double uy1,
                                       double ux2, double uy2,
                                       double px, double py,
                                       double dx1, double dy1,
                                       double dx2, double dy2,
                                       double len1, double len2,
                                       double lw1, double lw2)
    {
        double udx1 = dx1 / len1;
        double udy1 = dy1 / len1;
        double udx2 = dx2 / len2;
        double udy2 = dy2 / len2;
        if (len1 == 0) {
            // len1 is 0, replace udxy1 with perpendicular of udxy2
            if (len2 == 0) {
                // both are 0, use a unit Y vector for udxy2
                udx2 = 0;
                udy2 = 1;
            }
            udx1 = udy2;
            udy1 = -udx2;
        } else if (len2 == 0) {
            // len2 is 0, replace udxy2 with perpendicular of udxy1
            udx2 = udy1;
            udy2 = -udx1;
        }
        udx1 *= lw1;
        udy1 *= lw1;
        udx2 *= lw2;
        udy2 *= lw2;
        px -= (udx1 + udx2) / 2;
        py -= (udy1 + udy2) / 2;
        dx1 += udx1;
        dy1 += udy1;
        dx2 += udx2;
        dy2 += udy2;

        outrenderer.fillParallelogram(sg2d, ux1, uy1, ux2, uy2,
                                      px, py, dx1, dy1, dx2, dy2);
    }
}

Other Java examples (source code examples)

Here is a short list of links related to this Java PixelToParallelogramConverter.java source code file:

... this post is sponsored by my books ...

#1 New Release!

FP Best Seller

 

new blog posts

 

Copyright 1998-2024 Alvin Alexander, alvinalexander.com
All Rights Reserved.

A percentage of advertising revenue from
pages under the /java/jwarehouse URI on this website is
paid back to open source projects.