Search in sources :

Example 6 with RenderedImage

use of java.awt.image.RenderedImage in project jdk8u_jdk by JetBrains.

the class RenderableImageProducer method run.

/**
     * The runnable method for this class. This will produce an image using
     * the current RenderableImage and RenderContext and send it to all the
     * ImageConsumer currently registered with this class.
     */
public void run() {
    // First get the rendered image
    RenderedImage rdrdImage;
    if (rc != null) {
        rdrdImage = rdblImage.createRendering(rc);
    } else {
        rdrdImage = rdblImage.createDefaultRendering();
    }
    // And its ColorModel
    ColorModel colorModel = rdrdImage.getColorModel();
    Raster raster = rdrdImage.getData();
    SampleModel sampleModel = raster.getSampleModel();
    DataBuffer dataBuffer = raster.getDataBuffer();
    if (colorModel == null) {
        colorModel = ColorModel.getRGBdefault();
    }
    int minX = raster.getMinX();
    int minY = raster.getMinY();
    int width = raster.getWidth();
    int height = raster.getHeight();
    Enumeration icList;
    ImageConsumer ic;
    // Set up the ImageConsumers
    icList = ics.elements();
    while (icList.hasMoreElements()) {
        ic = (ImageConsumer) icList.nextElement();
        ic.setDimensions(width, height);
        ic.setHints(ImageConsumer.TOPDOWNLEFTRIGHT | ImageConsumer.COMPLETESCANLINES | ImageConsumer.SINGLEPASS | ImageConsumer.SINGLEFRAME);
    }
    // Get RGB pixels from the raster scanline by scanline and
    // send to consumers.
    int[] pix = new int[width];
    int i, j;
    int numBands = sampleModel.getNumBands();
    int[] tmpPixel = new int[numBands];
    for (j = 0; j < height; j++) {
        for (i = 0; i < width; i++) {
            sampleModel.getPixel(i, j, tmpPixel, dataBuffer);
            pix[i] = colorModel.getDataElement(tmpPixel, 0);
        }
        // Now send the scanline to the Consumers
        icList = ics.elements();
        while (icList.hasMoreElements()) {
            ic = (ImageConsumer) icList.nextElement();
            ic.setPixels(0, j, width, 1, colorModel, pix, 0, width);
        }
    }
    // Now tell the consumers we're done.
    icList = ics.elements();
    while (icList.hasMoreElements()) {
        ic = (ImageConsumer) icList.nextElement();
        ic.imageComplete(ImageConsumer.STATICIMAGEDONE);
    }
}
Also used : SampleModel(java.awt.image.SampleModel) Enumeration(java.util.Enumeration) ColorModel(java.awt.image.ColorModel) DirectColorModel(java.awt.image.DirectColorModel) ImageConsumer(java.awt.image.ImageConsumer) Raster(java.awt.image.Raster) RenderedImage(java.awt.image.RenderedImage) DataBuffer(java.awt.image.DataBuffer)

Example 7 with RenderedImage

use of java.awt.image.RenderedImage in project jdk8u_jdk by JetBrains.

the class BMPImageWriter method write.

public void write(IIOMetadata streamMetadata, IIOImage image, ImageWriteParam param) throws IOException {
    if (stream == null) {
        throw new IllegalStateException(I18N.getString("BMPImageWriter7"));
    }
    if (image == null) {
        throw new IllegalArgumentException(I18N.getString("BMPImageWriter8"));
    }
    clearAbortRequest();
    processImageStarted(0);
    if (param == null)
        param = getDefaultWriteParam();
    BMPImageWriteParam bmpParam = (BMPImageWriteParam) param;
    // Default is using 24 bits per pixel.
    int bitsPerPixel = 24;
    boolean isPalette = false;
    int paletteEntries = 0;
    IndexColorModel icm = null;
    RenderedImage input = null;
    Raster inputRaster = null;
    boolean writeRaster = image.hasRaster();
    Rectangle sourceRegion = param.getSourceRegion();
    SampleModel sampleModel = null;
    ColorModel colorModel = null;
    compImageSize = 0;
    if (writeRaster) {
        inputRaster = image.getRaster();
        sampleModel = inputRaster.getSampleModel();
        colorModel = ImageUtil.createColorModel(null, sampleModel);
        if (sourceRegion == null)
            sourceRegion = inputRaster.getBounds();
        else
            sourceRegion = sourceRegion.intersection(inputRaster.getBounds());
    } else {
        input = image.getRenderedImage();
        sampleModel = input.getSampleModel();
        colorModel = input.getColorModel();
        Rectangle rect = new Rectangle(input.getMinX(), input.getMinY(), input.getWidth(), input.getHeight());
        if (sourceRegion == null)
            sourceRegion = rect;
        else
            sourceRegion = sourceRegion.intersection(rect);
    }
    IIOMetadata imageMetadata = image.getMetadata();
    BMPMetadata bmpImageMetadata = null;
    if (imageMetadata != null && imageMetadata instanceof BMPMetadata) {
        bmpImageMetadata = (BMPMetadata) imageMetadata;
    } else {
        ImageTypeSpecifier imageType = new ImageTypeSpecifier(colorModel, sampleModel);
        bmpImageMetadata = (BMPMetadata) getDefaultImageMetadata(imageType, param);
    }
    if (sourceRegion.isEmpty())
        throw new RuntimeException(I18N.getString("BMPImageWrite0"));
    int scaleX = param.getSourceXSubsampling();
    int scaleY = param.getSourceYSubsampling();
    int xOffset = param.getSubsamplingXOffset();
    int yOffset = param.getSubsamplingYOffset();
    // cache the data type;
    int dataType = sampleModel.getDataType();
    sourceRegion.translate(xOffset, yOffset);
    sourceRegion.width -= xOffset;
    sourceRegion.height -= yOffset;
    int minX = sourceRegion.x / scaleX;
    int minY = sourceRegion.y / scaleY;
    w = (sourceRegion.width + scaleX - 1) / scaleX;
    h = (sourceRegion.height + scaleY - 1) / scaleY;
    xOffset = sourceRegion.x % scaleX;
    yOffset = sourceRegion.y % scaleY;
    Rectangle destinationRegion = new Rectangle(minX, minY, w, h);
    boolean noTransform = destinationRegion.equals(sourceRegion);
    // Raw data can only handle bytes, everything greater must be ASCII.
    int[] sourceBands = param.getSourceBands();
    boolean noSubband = true;
    int numBands = sampleModel.getNumBands();
    if (sourceBands != null) {
        sampleModel = sampleModel.createSubsetSampleModel(sourceBands);
        colorModel = null;
        noSubband = false;
        numBands = sampleModel.getNumBands();
    } else {
        sourceBands = new int[numBands];
        for (int i = 0; i < numBands; i++) sourceBands[i] = i;
    }
    int[] bandOffsets = null;
    boolean bgrOrder = true;
    if (sampleModel instanceof ComponentSampleModel) {
        bandOffsets = ((ComponentSampleModel) sampleModel).getBandOffsets();
        if (sampleModel instanceof BandedSampleModel) {
            // for images with BandedSampleModel we can not work
            //  with raster directly and must use writePixels()
            bgrOrder = false;
        } else {
            // In any other case we must use writePixels()
            for (int i = 0; i < bandOffsets.length; i++) {
                bgrOrder &= (bandOffsets[i] == (bandOffsets.length - i - 1));
            }
        }
    } else {
        if (sampleModel instanceof SinglePixelPackedSampleModel) {
            // BugId 4892214: we can not work with raster directly
            // if image have different color order than RGB.
            // We should use writePixels() for such images.
            int[] bitOffsets = ((SinglePixelPackedSampleModel) sampleModel).getBitOffsets();
            for (int i = 0; i < bitOffsets.length - 1; i++) {
                bgrOrder &= bitOffsets[i] > bitOffsets[i + 1];
            }
        }
    }
    if (bandOffsets == null) {
        // we will use getPixels() to extract pixel data for writePixels()
        // Please note that getPixels() provides rgb bands order.
        bandOffsets = new int[numBands];
        for (int i = 0; i < numBands; i++) bandOffsets[i] = i;
    }
    noTransform &= bgrOrder;
    int[] sampleSize = sampleModel.getSampleSize();
    //XXX: check more
    // Number of bytes that a scanline for the image written out will have.
    int destScanlineBytes = w * numBands;
    switch(bmpParam.getCompressionMode()) {
        case ImageWriteParam.MODE_EXPLICIT:
            compressionType = BMPCompressionTypes.getType(bmpParam.getCompressionType());
            break;
        case ImageWriteParam.MODE_COPY_FROM_METADATA:
            compressionType = bmpImageMetadata.compression;
            break;
        case ImageWriteParam.MODE_DEFAULT:
            compressionType = getPreferredCompressionType(colorModel, sampleModel);
            break;
        default:
            // ImageWriteParam.MODE_DISABLED:
            compressionType = BI_RGB;
    }
    if (!canEncodeImage(compressionType, colorModel, sampleModel)) {
        throw new IOException("Image can not be encoded with compression type " + BMPCompressionTypes.getName(compressionType));
    }
    byte[] r = null, g = null, b = null, a = null;
    if (compressionType == BI_BITFIELDS) {
        bitsPerPixel = DataBuffer.getDataTypeSize(sampleModel.getDataType());
        if (bitsPerPixel != 16 && bitsPerPixel != 32) {
            // we should use 32bpp images in case of BI_BITFIELD
            // compression to avoid color conversion artefacts
            bitsPerPixel = 32;
            // Setting this flag to false ensures that generic
            // writePixels() will be used to store image data
            noTransform = false;
        }
        destScanlineBytes = w * bitsPerPixel + 7 >> 3;
        isPalette = true;
        paletteEntries = 3;
        r = new byte[paletteEntries];
        g = new byte[paletteEntries];
        b = new byte[paletteEntries];
        a = new byte[paletteEntries];
        int rmask = 0x00ff0000;
        int gmask = 0x0000ff00;
        int bmask = 0x000000ff;
        if (bitsPerPixel == 16) {
            /* NB: canEncodeImage() ensures we have image of
                 * either USHORT_565_RGB or USHORT_555_RGB type here.
                 * Technically, it should work for other direct color
                 * model types but it might be non compatible with win98
                 * and friends.
                 */
            if (colorModel instanceof DirectColorModel) {
                DirectColorModel dcm = (DirectColorModel) colorModel;
                rmask = dcm.getRedMask();
                gmask = dcm.getGreenMask();
                bmask = dcm.getBlueMask();
            } else {
                // an exception related to unsupported image format
                throw new IOException("Image can not be encoded with " + "compression type " + BMPCompressionTypes.getName(compressionType));
            }
        }
        writeMaskToPalette(rmask, 0, r, g, b, a);
        writeMaskToPalette(gmask, 1, r, g, b, a);
        writeMaskToPalette(bmask, 2, r, g, b, a);
        if (!noTransform) {
            // prepare info for writePixels procedure
            bitMasks = new int[3];
            bitMasks[0] = rmask;
            bitMasks[1] = gmask;
            bitMasks[2] = bmask;
            bitPos = new int[3];
            bitPos[0] = firstLowBit(rmask);
            bitPos[1] = firstLowBit(gmask);
            bitPos[2] = firstLowBit(bmask);
        }
        if (colorModel instanceof IndexColorModel) {
            icm = (IndexColorModel) colorModel;
        }
    } else {
        // handle BI_RGB compression
        if (colorModel instanceof IndexColorModel) {
            isPalette = true;
            icm = (IndexColorModel) colorModel;
            paletteEntries = icm.getMapSize();
            if (paletteEntries <= 2) {
                bitsPerPixel = 1;
                destScanlineBytes = w + 7 >> 3;
            } else if (paletteEntries <= 16) {
                bitsPerPixel = 4;
                destScanlineBytes = w + 1 >> 1;
            } else if (paletteEntries <= 256) {
                bitsPerPixel = 8;
            } else {
                // Cannot be written as a Palette image. So write out as
                // 24 bit image.
                bitsPerPixel = 24;
                isPalette = false;
                paletteEntries = 0;
                destScanlineBytes = w * 3;
            }
            if (isPalette == true) {
                r = new byte[paletteEntries];
                g = new byte[paletteEntries];
                b = new byte[paletteEntries];
                a = new byte[paletteEntries];
                icm.getAlphas(a);
                icm.getReds(r);
                icm.getGreens(g);
                icm.getBlues(b);
            }
        } else {
            // Grey scale images
            if (numBands == 1) {
                isPalette = true;
                paletteEntries = 256;
                bitsPerPixel = sampleSize[0];
                destScanlineBytes = (w * bitsPerPixel + 7 >> 3);
                r = new byte[256];
                g = new byte[256];
                b = new byte[256];
                a = new byte[256];
                for (int i = 0; i < 256; i++) {
                    r[i] = (byte) i;
                    g[i] = (byte) i;
                    b[i] = (byte) i;
                    a[i] = (byte) 255;
                }
            } else {
                if (sampleModel instanceof SinglePixelPackedSampleModel && noSubband) {
                    /* NB: the actual pixel size can be smaller than
                         * size of used DataBuffer element.
                         * For example: in case of TYPE_INT_RGB actual pixel
                         * size is 24 bits, but size of DataBuffere element
                         * is 32 bits
                         */
                    int[] sample_sizes = sampleModel.getSampleSize();
                    bitsPerPixel = 0;
                    for (int size : sample_sizes) {
                        bitsPerPixel += size;
                    }
                    bitsPerPixel = roundBpp(bitsPerPixel);
                    if (bitsPerPixel != DataBuffer.getDataTypeSize(sampleModel.getDataType())) {
                        noTransform = false;
                    }
                    destScanlineBytes = w * bitsPerPixel + 7 >> 3;
                }
            }
        }
    }
    // actual writing of image data
    int fileSize = 0;
    int offset = 0;
    int headerSize = 0;
    int imageSize = 0;
    int xPelsPerMeter = 0;
    int yPelsPerMeter = 0;
    int colorsUsed = 0;
    int colorsImportant = paletteEntries;
    // Calculate padding for each scanline
    int padding = destScanlineBytes % 4;
    if (padding != 0) {
        padding = 4 - padding;
    }
    // FileHeader is 14 bytes, BitmapHeader is 40 bytes,
    // add palette size and that is where the data will begin
    offset = 54 + paletteEntries * 4;
    imageSize = (destScanlineBytes + padding) * h;
    fileSize = imageSize + offset;
    headerSize = 40;
    long headPos = stream.getStreamPosition();
    writeFileHeader(fileSize, offset);
    /* According to MSDN description, the top-down image layout
         * is allowed only if compression type is BI_RGB or BI_BITFIELDS.
         * Images with any other compression type must be wrote in the
         * bottom-up layout.
         */
    if (compressionType == BI_RGB || compressionType == BI_BITFIELDS) {
        isTopDown = bmpParam.isTopDown();
    } else {
        isTopDown = false;
    }
    writeInfoHeader(headerSize, bitsPerPixel);
    // compression
    stream.writeInt(compressionType);
    // imageSize
    stream.writeInt(imageSize);
    // xPelsPerMeter
    stream.writeInt(xPelsPerMeter);
    // yPelsPerMeter
    stream.writeInt(yPelsPerMeter);
    // Colors Used
    stream.writeInt(colorsUsed);
    // Colors Important
    stream.writeInt(colorsImportant);
    // palette
    if (isPalette == true) {
        // write palette
        if (compressionType == BI_BITFIELDS) {
            // write masks for red, green and blue components.
            for (int i = 0; i < 3; i++) {
                int mask = (a[i] & 0xFF) + ((r[i] & 0xFF) * 0x100) + ((g[i] & 0xFF) * 0x10000) + ((b[i] & 0xFF) * 0x1000000);
                stream.writeInt(mask);
            }
        } else {
            for (int i = 0; i < paletteEntries; i++) {
                stream.writeByte(b[i]);
                stream.writeByte(g[i]);
                stream.writeByte(r[i]);
                stream.writeByte(a[i]);
            }
        }
    }
    // Writing of actual image data
    int scanlineBytes = w * numBands;
    // Buffer for up to 8 rows of pixels
    int[] pixels = new int[scanlineBytes * scaleX];
    // Also create a buffer to hold one line of the data
    // to be written to the file, so we can use array writes.
    bpixels = new byte[destScanlineBytes];
    int l;
    if (compressionType == BI_JPEG || compressionType == BI_PNG) {
        // prepare embedded buffer
        embedded_stream = new ByteArrayOutputStream();
        writeEmbedded(image, bmpParam);
        // update the file/image Size
        embedded_stream.flush();
        imageSize = embedded_stream.size();
        long endPos = stream.getStreamPosition();
        fileSize = (int) (offset + imageSize);
        stream.seek(headPos);
        writeSize(fileSize, 2);
        stream.seek(headPos);
        writeSize(imageSize, 34);
        stream.seek(endPos);
        stream.write(embedded_stream.toByteArray());
        embedded_stream = null;
        if (abortRequested()) {
            processWriteAborted();
        } else {
            processImageComplete();
            stream.flushBefore(stream.getStreamPosition());
        }
        return;
    }
    int maxBandOffset = bandOffsets[0];
    for (int i = 1; i < bandOffsets.length; i++) if (bandOffsets[i] > maxBandOffset)
        maxBandOffset = bandOffsets[i];
    int[] pixel = new int[maxBandOffset + 1];
    int destScanlineLength = destScanlineBytes;
    if (noTransform && noSubband) {
        destScanlineLength = destScanlineBytes / (DataBuffer.getDataTypeSize(dataType) >> 3);
    }
    for (int i = 0; i < h; i++) {
        if (abortRequested()) {
            break;
        }
        int row = minY + i;
        if (!isTopDown)
            row = minY + h - i - 1;
        // Get the pixels
        Raster src = inputRaster;
        Rectangle srcRect = new Rectangle(minX * scaleX + xOffset, row * scaleY + yOffset, (w - 1) * scaleX + 1, 1);
        if (!writeRaster)
            src = input.getData(srcRect);
        if (noTransform && noSubband) {
            SampleModel sm = src.getSampleModel();
            int pos = 0;
            int startX = srcRect.x - src.getSampleModelTranslateX();
            int startY = srcRect.y - src.getSampleModelTranslateY();
            if (sm instanceof ComponentSampleModel) {
                ComponentSampleModel csm = (ComponentSampleModel) sm;
                pos = csm.getOffset(startX, startY, 0);
                for (int nb = 1; nb < csm.getNumBands(); nb++) {
                    if (pos > csm.getOffset(startX, startY, nb)) {
                        pos = csm.getOffset(startX, startY, nb);
                    }
                }
            } else if (sm instanceof MultiPixelPackedSampleModel) {
                MultiPixelPackedSampleModel mppsm = (MultiPixelPackedSampleModel) sm;
                pos = mppsm.getOffset(startX, startY);
            } else if (sm instanceof SinglePixelPackedSampleModel) {
                SinglePixelPackedSampleModel sppsm = (SinglePixelPackedSampleModel) sm;
                pos = sppsm.getOffset(startX, startY);
            }
            if (compressionType == BI_RGB || compressionType == BI_BITFIELDS) {
                switch(dataType) {
                    case DataBuffer.TYPE_BYTE:
                        byte[] bdata = ((DataBufferByte) src.getDataBuffer()).getData();
                        stream.write(bdata, pos, destScanlineLength);
                        break;
                    case DataBuffer.TYPE_SHORT:
                        short[] sdata = ((DataBufferShort) src.getDataBuffer()).getData();
                        stream.writeShorts(sdata, pos, destScanlineLength);
                        break;
                    case DataBuffer.TYPE_USHORT:
                        short[] usdata = ((DataBufferUShort) src.getDataBuffer()).getData();
                        stream.writeShorts(usdata, pos, destScanlineLength);
                        break;
                    case DataBuffer.TYPE_INT:
                        int[] idata = ((DataBufferInt) src.getDataBuffer()).getData();
                        stream.writeInts(idata, pos, destScanlineLength);
                        break;
                }
                for (int k = 0; k < padding; k++) {
                    stream.writeByte(0);
                }
            } else if (compressionType == BI_RLE4) {
                if (bpixels == null || bpixels.length < scanlineBytes)
                    bpixels = new byte[scanlineBytes];
                src.getPixels(srcRect.x, srcRect.y, srcRect.width, srcRect.height, pixels);
                for (int h = 0; h < scanlineBytes; h++) {
                    bpixels[h] = (byte) pixels[h];
                }
                encodeRLE4(bpixels, scanlineBytes);
            } else if (compressionType == BI_RLE8) {
                //System.arraycopy(bdata, pos, bpixels, 0, scanlineBytes);
                if (bpixels == null || bpixels.length < scanlineBytes)
                    bpixels = new byte[scanlineBytes];
                src.getPixels(srcRect.x, srcRect.y, srcRect.width, srcRect.height, pixels);
                for (int h = 0; h < scanlineBytes; h++) {
                    bpixels[h] = (byte) pixels[h];
                }
                encodeRLE8(bpixels, scanlineBytes);
            }
        } else {
            src.getPixels(srcRect.x, srcRect.y, srcRect.width, srcRect.height, pixels);
            if (scaleX != 1 || maxBandOffset != numBands - 1) {
                for (int j = 0, k = 0, n = 0; j < w; j++, k += scaleX * numBands, n += numBands) {
                    System.arraycopy(pixels, k, pixel, 0, pixel.length);
                    for (int m = 0; m < numBands; m++) {
                        // pixel data is provided here in RGB order
                        pixels[n + m] = pixel[sourceBands[m]];
                    }
                }
            }
            writePixels(0, scanlineBytes, bitsPerPixel, pixels, padding, numBands, icm);
        }
        processImageProgress(100.0f * (((float) i) / ((float) h)));
    }
    if (compressionType == BI_RLE4 || compressionType == BI_RLE8) {
        // Write the RLE EOF marker and
        stream.writeByte(0);
        stream.writeByte(1);
        incCompImageSize(2);
        // update the file/image Size
        imageSize = compImageSize;
        fileSize = compImageSize + offset;
        long endPos = stream.getStreamPosition();
        stream.seek(headPos);
        writeSize(fileSize, 2);
        stream.seek(headPos);
        writeSize(imageSize, 34);
        stream.seek(endPos);
    }
    if (abortRequested()) {
        processWriteAborted();
    } else {
        processImageComplete();
        stream.flushBefore(stream.getStreamPosition());
    }
}
Also used : Rectangle(java.awt.Rectangle) MultiPixelPackedSampleModel(java.awt.image.MultiPixelPackedSampleModel) ComponentSampleModel(java.awt.image.ComponentSampleModel) DataBufferInt(java.awt.image.DataBufferInt) DataBufferByte(java.awt.image.DataBufferByte) ImageTypeSpecifier(javax.imageio.ImageTypeSpecifier) DataBufferShort(java.awt.image.DataBufferShort) IndexColorModel(java.awt.image.IndexColorModel) DirectColorModel(java.awt.image.DirectColorModel) ColorModel(java.awt.image.ColorModel) BandedSampleModel(java.awt.image.BandedSampleModel) DirectColorModel(java.awt.image.DirectColorModel) DataBufferUShort(java.awt.image.DataBufferUShort) IndexColorModel(java.awt.image.IndexColorModel) Raster(java.awt.image.Raster) SinglePixelPackedSampleModel(java.awt.image.SinglePixelPackedSampleModel) BMPImageWriteParam(javax.imageio.plugins.bmp.BMPImageWriteParam) IOException(java.io.IOException) ByteArrayOutputStream(java.io.ByteArrayOutputStream) IIOMetadata(javax.imageio.metadata.IIOMetadata) ComponentSampleModel(java.awt.image.ComponentSampleModel) SampleModel(java.awt.image.SampleModel) BandedSampleModel(java.awt.image.BandedSampleModel) MultiPixelPackedSampleModel(java.awt.image.MultiPixelPackedSampleModel) SinglePixelPackedSampleModel(java.awt.image.SinglePixelPackedSampleModel) RenderedImage(java.awt.image.RenderedImage)

Example 8 with RenderedImage

use of java.awt.image.RenderedImage in project jdk8u_jdk by JetBrains.

the class ProxyGraphics2D method drawRenderableImage.

public void drawRenderableImage(RenderableImage img, AffineTransform xform) {
    if (img == null) {
        return;
    }
    AffineTransform pipeTransform = getTransform();
    AffineTransform concatTransform = new AffineTransform(xform);
    concatTransform.concatenate(pipeTransform);
    AffineTransform reverseTransform;
    RenderContext rc = new RenderContext(concatTransform);
    try {
        reverseTransform = pipeTransform.createInverse();
    } catch (NoninvertibleTransformException nte) {
        rc = new RenderContext(pipeTransform);
        reverseTransform = new AffineTransform();
    }
    RenderedImage rendering = img.createRendering(rc);
    drawRenderedImage(rendering, reverseTransform);
}
Also used : NoninvertibleTransformException(java.awt.geom.NoninvertibleTransformException) RenderContext(java.awt.image.renderable.RenderContext) FontRenderContext(java.awt.font.FontRenderContext) AffineTransform(java.awt.geom.AffineTransform) RenderedImage(java.awt.image.RenderedImage)

Example 9 with RenderedImage

use of java.awt.image.RenderedImage in project AozoraEpub3 by hmdev.

the class ImageUtils method readImage.

/** ストリームから画像を読み込み */
public static BufferedImage readImage(String ext, InputStream is) throws IOException {
    BufferedImage image;
    if (ext.equals("jpg") || ext.equals("jpeg")) {
        try {
            ImageDecoder dec = ImageCodec.createImageDecoder("jpeg", is, null);
            RenderedImage ri = dec.decodeAsRenderedImage();
            image = new BufferedImage(ri.getWidth(), ri.getHeight(), BufferedImage.TYPE_INT_RGB);
            image.createGraphics().drawRenderedImage(ri, NO_TRANSFORM);
        } catch (Exception e) {
            image = ImageIO.read(is);
        }
    } else {
        image = ImageIO.read(is);
    }
    is.close();
    return image;
}
Also used : ImageDecoder(com.sun.media.jai.codec.ImageDecoder) RenderedImage(java.awt.image.RenderedImage) BufferedImage(java.awt.image.BufferedImage) IOException(java.io.IOException)

Example 10 with RenderedImage

use of java.awt.image.RenderedImage in project jersey by jersey.

the class RenderedImageTypeTest method testPostPng.

@Test
public void testPostPng() throws Exception {
    final InputStream stream = getClass().getResourceAsStream("Jersey_yellow.png");
    Response response = target().request().post(Entity.entity(stream, "image/png"));
    assertThat(Long.valueOf(response.getHeaderString("Content-Length")), greaterThan(0L));
    final RenderedImage image = response.readEntity(RenderedImage.class);
    assertThat(image, notNullValue());
    response = target().request().post(Entity.entity(image, "image/png"));
    assertThat(response.readEntity(RenderedImage.class), notNullValue());
    assertThat(Long.valueOf(response.getHeaderString("Content-Length")), greaterThan(0L));
}
Also used : Response(javax.ws.rs.core.Response) InputStream(java.io.InputStream) RenderedImage(java.awt.image.RenderedImage) Test(org.junit.Test) JerseyTest(org.glassfish.jersey.test.JerseyTest)

Aggregations

RenderedImage (java.awt.image.RenderedImage)15 Rectangle (java.awt.Rectangle)7 SampleModel (java.awt.image.SampleModel)5 ColorModel (java.awt.image.ColorModel)4 IndexColorModel (java.awt.image.IndexColorModel)4 IOException (java.io.IOException)4 FontRenderContext (java.awt.font.FontRenderContext)3 AffineTransform (java.awt.geom.AffineTransform)3 BufferedImage (java.awt.image.BufferedImage)3 DataBufferByte (java.awt.image.DataBufferByte)3 Raster (java.awt.image.Raster)3 ImageTypeSpecifier (javax.imageio.ImageTypeSpecifier)3 IIOMetadata (javax.imageio.metadata.IIOMetadata)3 NoninvertibleTransformException (java.awt.geom.NoninvertibleTransformException)2 ComponentSampleModel (java.awt.image.ComponentSampleModel)2 DirectColorModel (java.awt.image.DirectColorModel)2 RenderContext (java.awt.image.renderable.RenderContext)2 File (java.io.File)2 InputStream (java.io.InputStream)2 Response (javax.ws.rs.core.Response)2