Example usage for java.awt AlphaComposite DstIn

List of usage examples for java.awt AlphaComposite DstIn

Introduction

In this page you can find the example usage for java.awt AlphaComposite DstIn.

Prototype

AlphaComposite DstIn

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Document

AlphaComposite object that implements the opaque DST_IN rule with an alpha of 1.0f.

Usage

From source file:org.apache.pdfbox.pdmodel.graphics.xobject.PDPixelMap.java

/**
 * Returns a {@link java.awt.image.BufferedImage} of the COSStream
 * set in the constructor or null if the COSStream could not be encoded.
 *
 * @return {@inheritDoc}/* w w  w  .ja va2 s. c  o m*/
 *
 * @throws IOException {@inheritDoc}
 */
public BufferedImage getRGBImage() throws IOException {
    if (image != null) {
        return image;
    }

    try {
        int width = getWidth();
        int height = getHeight();
        int bpc = getBitsPerComponent();

        byte[] array = getPDStream().getByteArray();
        if (array.length == 0) {
            LOG.error("Something went wrong ... the pixelmap doesn't contain any data.");
            return null;
        }
        // Get the ColorModel right
        PDColorSpace colorspace = getColorSpace();
        if (colorspace == null) {
            LOG.error("getColorSpace() returned NULL.  Predictor = " + getPredictor());
            return null;
        }

        ColorModel cm = null;
        if (colorspace instanceof PDIndexed) {
            PDIndexed csIndexed = (PDIndexed) colorspace;
            // the base color space uses 8 bit per component, as the indexed color values
            // of an indexed color space are always in a range from 0 to 255
            ColorModel baseColorModel = csIndexed.getBaseColorSpace().createColorModel(8);
            // number of possible color values in the target color space
            int numberOfColorValues = 1 << bpc;
            // number of indexed color values
            int highValue = csIndexed.getHighValue();
            // choose the correct size, sometimes there are more indexed values than needed
            // and sometimes there are fewer indexed value than possible
            int size = Math.min(numberOfColorValues - 1, highValue);
            byte[] index = csIndexed.getLookupData();
            boolean hasAlpha = baseColorModel.hasAlpha();
            COSBase maskArray = getMask();
            if (baseColorModel.getTransferType() != DataBuffer.TYPE_BYTE) {
                throw new IOException("Not implemented");
            }
            // the IndexColorModel uses RGB-based color values
            // which leads to 3 color components and a optional alpha channel
            int numberOfComponents = 3 + (hasAlpha ? 1 : 0);
            int buffersize = (size + 1) * numberOfComponents;
            byte[] colorValues = new byte[buffersize];
            byte[] inData = new byte[baseColorModel.getNumComponents()];
            int bufferIndex = 0;
            for (int i = 0; i <= size; i++) {
                System.arraycopy(index, i * inData.length, inData, 0, inData.length);
                // convert the indexed color values to RGB 
                colorValues[bufferIndex] = (byte) baseColorModel.getRed(inData);
                colorValues[bufferIndex + 1] = (byte) baseColorModel.getGreen(inData);
                colorValues[bufferIndex + 2] = (byte) baseColorModel.getBlue(inData);
                if (hasAlpha) {
                    colorValues[bufferIndex + 3] = (byte) baseColorModel.getAlpha(inData);
                }
                bufferIndex += numberOfComponents;
            }
            if (maskArray != null && maskArray instanceof COSArray) {
                cm = new IndexColorModel(bpc, size + 1, colorValues, 0, hasAlpha,
                        ((COSArray) maskArray).getInt(0));
            } else {
                cm = new IndexColorModel(bpc, size + 1, colorValues, 0, hasAlpha);
            }
        } else if (colorspace instanceof PDSeparation) {
            PDSeparation csSeparation = (PDSeparation) colorspace;
            int numberOfComponents = csSeparation.getAlternateColorSpace().getNumberOfComponents();
            PDFunction tintTransformFunc = csSeparation.getTintTransform();
            COSArray decode = getDecode();
            // we have to invert the tint-values,
            // if the Decode array exists and consists of (1,0)
            boolean invert = decode != null && decode.getInt(0) == 1;
            // TODO add interpolation for other decode values then 1,0
            int maxValue = (int) Math.pow(2, bpc) - 1;
            // destination array
            byte[] mappedData = new byte[width * height * numberOfComponents];
            int rowLength = width * numberOfComponents;
            float[] input = new float[1];
            for (int i = 0; i < height; i++) {
                int rowOffset = i * rowLength;
                for (int j = 0; j < width; j++) {
                    // scale tint values to a range of 0...1
                    int value = (array[i * width + j] + 256) % 256;
                    if (invert) {
                        input[0] = 1 - (value / maxValue);
                    } else {
                        input[0] = value / maxValue;
                    }
                    float[] mappedColor = tintTransformFunc.eval(input);
                    int columnOffset = j * numberOfComponents;
                    for (int k = 0; k < numberOfComponents; k++) {
                        // redo scaling for every single color value 
                        float mappedValue = mappedColor[k];
                        mappedData[rowOffset + columnOffset + k] = (byte) (mappedValue * maxValue);
                    }
                }
            }
            array = mappedData;
            cm = colorspace.createColorModel(bpc);
        } else if (bpc == 1) {
            byte[] map = null;
            if (colorspace instanceof PDDeviceGray) {
                COSArray decode = getDecode();
                // we have to invert the b/w-values,
                // if the Decode array exists and consists of (1,0)
                if (decode != null && decode.getInt(0) == 1) {
                    map = new byte[] { (byte) 0xff };
                } else {
                    map = new byte[] { (byte) 0x00, (byte) 0xff };
                }
            } else if (colorspace instanceof PDICCBased) {
                if (((PDICCBased) colorspace).getNumberOfComponents() == 1) {
                    map = new byte[] { (byte) 0xff };
                } else {
                    map = new byte[] { (byte) 0x00, (byte) 0xff };
                }
            } else {
                map = new byte[] { (byte) 0x00, (byte) 0xff };
            }
            cm = new IndexColorModel(bpc, map.length, map, map, map, Transparency.OPAQUE);
        } else {
            if (colorspace instanceof PDICCBased) {
                if (((PDICCBased) colorspace).getNumberOfComponents() == 1) {
                    byte[] map = new byte[] { (byte) 0xff };
                    cm = new IndexColorModel(bpc, 1, map, map, map, Transparency.OPAQUE);
                } else {
                    cm = colorspace.createColorModel(bpc);
                }
            } else {
                cm = colorspace.createColorModel(bpc);
            }
        }

        LOG.debug("ColorModel: " + cm.toString());
        WritableRaster raster = cm.createCompatibleWritableRaster(width, height);
        DataBufferByte buffer = (DataBufferByte) raster.getDataBuffer();
        byte[] bufferData = buffer.getData();

        System.arraycopy(array, 0, bufferData, 0,
                (array.length < bufferData.length ? array.length : bufferData.length));
        image = new BufferedImage(cm, raster, false, null);

        // If there is a 'soft mask' image then we use that as a transparency mask.
        PDXObjectImage smask = getSMaskImage();
        if (smask != null) {
            BufferedImage smaskBI = smask.getRGBImage();

            COSArray decodeArray = smask.getDecode();

            CompositeImage compositeImage = new CompositeImage(image, smaskBI);
            BufferedImage rgbImage = compositeImage.createMaskedImage(decodeArray);

            return rgbImage;
        } else if (getImageMask()) {
            BufferedImage stencilMask = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
            Graphics2D graphics = (Graphics2D) stencilMask.getGraphics();
            if (getStencilColor() != null) {
                graphics.setColor(getStencilColor().getJavaColor());
            } else {
                // this might happen when using ExractImages, see PDFBOX-1145
                LOG.debug("no stencil color for PixelMap found, using Color.BLACK instead.");
                graphics.setColor(Color.BLACK);
            }

            graphics.fillRect(0, 0, width, height);
            // assume default values ([0,1]) for the DecodeArray
            // TODO DecodeArray == [1,0]
            graphics.setComposite(AlphaComposite.DstIn);
            graphics.drawImage(image, null, 0, 0);
            return stencilMask;
        } else {
            // if there is no mask, use the unaltered image.
            return image;
        }
    } catch (Exception exception) {
        LOG.error(exception, exception);
        //A NULL return is caught in pagedrawer.Invoke.process() so don't re-throw.
        //Returning the NULL falls through to Phillip Koch's TODO section.
        return null;
    }
}