Examples of org.apache.batik.ext.awt.image.rendered.CachableRed

• org.apache.batik.ext.awt.image.rendered.CachableRed
  This provides a number of extra methods that enable a system to better analyse the dependencies between nodes in a render graph. @author Thomas DeWeese @version $Id: CachableRed.java,v 1.1 2003/04/11 07:56:53 tom Exp $

        rc.setAreaOfInterest(aoiR);
        rc.setTransform(scale);

        // System.out.println("scaleX / scaleY : " + scaleX + "/" + scaleY);

        CachableRed cr;
        cr = GraphicsUtil.wrap(getSource().createRendering(rc));

        BumpMap bumpMap = new BumpMap(cr, surfaceScale, scaleX, scaleY);

        cr = new DiffuseLightingRed(kd, light, bumpMap,

                    Filter filt;
                    try {
                        TIFFDecodeParam param = new TIFFDecodeParam();
                        SeekableStream ss =
                            SeekableStream.wrapInputStream(is, true);
                        CachableRed cr = new TIFFImage(ss, param, 0);
                        cr = new Any2sRGBRed(cr);
                        filt = new RedRable(cr);
                    } catch (IOException ioe) {
                        filt = ImageTagRegistry.getBrokenLinkImage
                            (this, errCode, errParam);

        if(ri == null){
            return null;
        }

        CachableRed cr = RenderedImageCachableRed.wrap(ri);

        Object val = cr.getProperty(FilterAsAlphaRable.PROPERTY_COLORSPACE);
        if (val == FilterAsAlphaRable.VALUE_COLORSPACE_ALPHA)
            return cr; // It listened to us...

        return new FilterAlphaRed(cr);
    }

                            param.setPerformGammaCorrection(false);
                        else {
                            param.setPerformGammaCorrection(true);
                            param.setDisplayExponent(2.2f); // sRGB gamma
                        }
                        CachableRed cr = new PNGRed(is, param);
                        cr = new Any2sRGBRed(cr);
                        filt = new RedRable(cr);
                    } catch (IOException ioe) {
                        filt = ImageTagRegistry.getBrokenLinkImage
                            (this, errCode, errParam);

        // org.apache.batik.test.gvt.ImageDisplay.printImage
        //     ("Padded Image", ri,
        //      new Rectangle(ri.getMinX()+22,ri.getMinY()+38,5,5));

        CachableRed cr = convertSourceCS(ri);

        Shape devShape = srcAt.createTransformedShape(aoi);
        Rectangle2D devRect = devShape.getBounds2D();
        r = devRect;
        r = new Rectangle2D.Double(Math.floor(r.getX()-kx),
                                   Math.floor(r.getY()-ky),
                                   Math.ceil (r.getX()+r.getWidth())-
                                   Math.floor(r.getX())+(kw-1),
                                   Math.ceil (r.getY()+r.getHeight())-
                                   Math.floor(r.getY())+(kh-1));

        if (!r.getBounds().equals(cr.getBounds())) {
            if (edgeMode == PadMode.WRAP)
                throw new IllegalArgumentException
                    ("edgeMode=\"wrap\" is not supported by ConvolveMatrix.");
            cr = new PadRed(cr, r.getBounds(), edgeMode, rh);
        }

        // org.apache.batik.test.gvt.ImageDisplay.printImage
        //     ("Padded Image", cr,
        //      new Rectangle(cr.getMinX()+23,cr.getMinY()+39,5,5));

        if (bias != 0.0)
            throw new IllegalArgumentException
                ("Only bias equal to zero is supported in ConvolveMatrix.");

        BufferedImageOp op = new ConvolveOp(kernel,
                                            ConvolveOp.EDGE_NO_OP,
                                            rh);

        ColorModel cm = cr.getColorModel();

        // OK this is a bit of a cheat. We Pull the DataBuffer out of
        // The read-only raster that getData gives us. And use it to
        // build a WritableRaster.  This avoids a copy of the data.
        Raster rr = cr.getData();
        WritableRaster wr = GraphicsUtil.makeRasterWritable(rr, 0, 0);

        // Here we update the translate to account for the phase shift
        // (if any) introduced by setting targetX, targetY in SVG.
        int phaseShiftX = target.x - kernel.getXOrigin();

        g2d.dispose();

        RenderedImage ri;
        ri = getSource().createRendering(new RenderContext(usr2dev, rect, rh));

        CachableRed cr, clipCr;
        cr = RenderedImageCachableRed.wrap(ri);
        clipCr = new BufferedImageCachableRed(bi, devR.x, devR.y);
        CachableRed ret = new MultiplyAlphaRed(cr, clipCr);

          // Pad back out to the proper size...
        ret = new PadRed(ret, devAOIR, PadMode.ZERO_PAD, rh);

        return ret;

        if ((renderedArea.width <= 0) || (renderedArea.height <= 0)) {
            // If there is no intersection, return null
            return null;
        }

        CachableRed cr;
        cr = new FloodRed(renderedArea, getFloodPaint());
        // We use a pad because while FloodRed will advertise it's
        // bounds based on renderedArea it will actually provide the
        // flood data anywhere.
        cr = new PadRed(cr, renderedArea, PadMode.ZERO_PAD, null);

            Filter filt = (Filter)i.next();

            // Get our sources image...
            RenderedImage ri = filt.createRendering(rc);
            if (ri != null) {
                CachableRed cr;
                cr = convertSourceCS(ri);
                srcs.add(cr);
            } else {

                // Blank image...
                switch (rule.getRule()) {
                case CompositeRule.RULE_IN:
                    // For Mode IN One blank image kills all output
                    // (including any "future" images to be drawn).
                    return null;

                case CompositeRule.RULE_OUT:
                    // For mode OUT blank image clears output
                    // up to this point, so ignore inputs to this point.
                    srcs.clear();
                    break;

                case CompositeRule.RULE_ARITHMETIC:
                    srcs.add(new FloodRed(devRect));
                    break;

                default:
                    // All other cases we simple pretend the image didn't
                    // exist (fully transparent image has no affect).
                    break;
                }
            }
        }

        if (srcs.size() == 0)
            return null;

        // System.out.println("Done General: " + rule);
        CachableRed cr = new CompositeRed(srcs, rule);
        return cr;
    }

        AffineTransform at = rc.getTransform();

        // For high quality output we should really apply a Gaussian
        // Blur when we are scaling the image down significantly this
        // helps to prevent aliasing in the result image.
        CachableRed cr = getSource();

        if (aoiR.intersects(cr.getBounds()) == false)
            return null;
        aoiR = aoiR.intersection(cr.getBounds());

        // Get the device bounds, we will crop the affine to those
        // bounds.
        Rectangle devAOI = at.createTransformedShape(aoiR).getBounds();

        RenderedImage ri;
        ri = getSource().createRendering(new RenderContext(srcAt, r, rh));
        if (ri == null)
            return null;

        CachableRed cr;
        cr = new RenderedImageCachableRed(ri);

        Shape devShape = srcAt.createTransformedShape(aoi.getBounds2D());
        r = devShape.getBounds2D();
        r = new Rectangle2D.Double(r.getX()-radX,
                                   r.getY()-radY,
                                   r.getWidth() +2*radX,
                                   r.getHeight()+2*radY);
        cr = new PadRed(cr, r.getBounds(), PadMode.ZERO_PAD, rh);

        // System.out.println("Src: " + cr.getBounds(rc));

        ColorModel cm = ri.getColorModel();

        // OK this is a bit of a cheat. We Pull the DataBuffer out of
        // The read-only raster that getData gives us. And use it to
        // build a WritableRaster.  This avoids a copy of the data.
        Raster rr = cr.getData();
        Point  pt = new Point(0,0);
        WritableRaster wr = Raster.createWritableRaster(rr.getSampleModel(),
                                                        rr.getDataBuffer(),
                                                        pt);

        BufferedImage srcBI;
        srcBI = new BufferedImage(cm, wr, cm.isAlphaPremultiplied(), null);

        BufferedImage destBI;
        if(op != null){
            destBI = op.filter(srcBI, null);
        }
        else{
            destBI = srcBI;
        }

        final int rrMinX = cr.getMinX();
        final int rrMinY = cr.getMinY();

        cr = new BufferedImageCachableRed(destBI, rrMinX, rrMinY);

        if (!resAt.isIdentity())
            cr = new AffineRed(cr, resAt, rh);