Ejemplo n.º 1
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 protected void put(String key, short value) {
   put(key, new Short(value));
 }
Ejemplo n.º 2
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 protected void putInt(String key, IFD ifd, int tag) {
   put(key, ifd.getIFDIntValue(tag));
 }
Ejemplo n.º 3
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 protected void put(String key, float value) {
   put(key, new Float(value));
 }
Ejemplo n.º 4
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 protected void put(String key, long value) {
   put(key, new Long(value));
 }
Ejemplo n.º 5
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 protected void put(String key, double value) {
   put(key, new Double(value));
 }
Ejemplo n.º 6
0
 protected void put(String key, char value) {
   put(key, new Character(value));
 }
Ejemplo n.º 7
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 protected void put(String key, byte value) {
   put(key, new Byte(value));
 }
Ejemplo n.º 8
0
 protected void put(String key, boolean value) {
   put(key, new Boolean(value));
 }
Ejemplo n.º 9
0
  /**
   * Parses standard metadata.
   *
   * <p>NOTE: Absolutely <b>no</b> calls to the metadata store should be made in this method or
   * methods that override this method. Data <b>will</b> be overwritten if you do so.
   */
  protected void initStandardMetadata() throws FormatException, IOException {
    if (getMetadataOptions().getMetadataLevel() == MetadataLevel.MINIMUM) {
      return;
    }

    for (int i = 0; i < ifds.size(); i++) {
      put("PageName #" + i, ifds.get(i), IFD.PAGE_NAME);
    }

    IFD firstIFD = ifds.get(0);
    put("ImageWidth", firstIFD, IFD.IMAGE_WIDTH);
    put("ImageLength", firstIFD, IFD.IMAGE_LENGTH);
    put("BitsPerSample", firstIFD, IFD.BITS_PER_SAMPLE);

    // retrieve EXIF values, if available

    if (ifds.get(0).containsKey(IFD.EXIF)) {
      IFDList exifIFDs = tiffParser.getExifIFDs();
      if (exifIFDs.size() > 0) {
        IFD exif = exifIFDs.get(0);
        tiffParser.fillInIFD(exif);
        for (Integer key : exif.keySet()) {
          int k = key.intValue();
          addGlobalMeta(getExifTagName(k), exif.get(key));
        }
      }
    }

    TiffCompression comp = firstIFD.getCompression();
    put("Compression", comp.getCodecName());

    PhotoInterp photo = firstIFD.getPhotometricInterpretation();
    String photoInterp = photo.getName();
    String metaDataPhotoInterp = photo.getMetadataType();
    put("PhotometricInterpretation", photoInterp);
    put("MetaDataPhotometricInterpretation", metaDataPhotoInterp);

    putInt("CellWidth", firstIFD, IFD.CELL_WIDTH);
    putInt("CellLength", firstIFD, IFD.CELL_LENGTH);

    int or = firstIFD.getIFDIntValue(IFD.ORIENTATION);

    // adjust the width and height if necessary
    if (or == 8) {
      put("ImageWidth", firstIFD, IFD.IMAGE_LENGTH);
      put("ImageLength", firstIFD, IFD.IMAGE_WIDTH);
    }

    String orientation = null;
    // there is no case 0
    switch (or) {
      case 1:
        orientation = "1st row -> top; 1st column -> left";
        break;
      case 2:
        orientation = "1st row -> top; 1st column -> right";
        break;
      case 3:
        orientation = "1st row -> bottom; 1st column -> right";
        break;
      case 4:
        orientation = "1st row -> bottom; 1st column -> left";
        break;
      case 5:
        orientation = "1st row -> left; 1st column -> top";
        break;
      case 6:
        orientation = "1st row -> right; 1st column -> top";
        break;
      case 7:
        orientation = "1st row -> right; 1st column -> bottom";
        break;
      case 8:
        orientation = "1st row -> left; 1st column -> bottom";
        break;
    }
    put("Orientation", orientation);
    putInt("SamplesPerPixel", firstIFD, IFD.SAMPLES_PER_PIXEL);

    put("Software", firstIFD, IFD.SOFTWARE);
    put("Instrument Make", firstIFD, IFD.MAKE);
    put("Instrument Model", firstIFD, IFD.MODEL);
    put("Document Name", firstIFD, IFD.DOCUMENT_NAME);
    put("DateTime", firstIFD, IFD.DATE_TIME);
    put("Artist", firstIFD, IFD.ARTIST);

    put("HostComputer", firstIFD, IFD.HOST_COMPUTER);
    put("Copyright", firstIFD, IFD.COPYRIGHT);

    put("NewSubfileType", firstIFD, IFD.NEW_SUBFILE_TYPE);

    int thresh = firstIFD.getIFDIntValue(IFD.THRESHHOLDING);
    String threshholding = null;
    switch (thresh) {
      case 1:
        threshholding = "No dithering or halftoning";
        break;
      case 2:
        threshholding = "Ordered dithering or halftoning";
        break;
      case 3:
        threshholding = "Randomized error diffusion";
        break;
    }
    put("Threshholding", threshholding);

    int fill = firstIFD.getIFDIntValue(IFD.FILL_ORDER);
    String fillOrder = null;
    switch (fill) {
      case 1:
        fillOrder =
            "Pixels with lower column values are stored " + "in the higher order bits of a byte";
        break;
      case 2:
        fillOrder =
            "Pixels with lower column values are stored " + "in the lower order bits of a byte";
        break;
    }
    put("FillOrder", fillOrder);

    putInt("Make", firstIFD, IFD.MAKE);
    putInt("Model", firstIFD, IFD.MODEL);
    putInt("MinSampleValue", firstIFD, IFD.MIN_SAMPLE_VALUE);
    putInt("MaxSampleValue", firstIFD, IFD.MAX_SAMPLE_VALUE);
    putInt("XResolution", firstIFD, IFD.X_RESOLUTION);
    putInt("YResolution", firstIFD, IFD.Y_RESOLUTION);

    int planar = firstIFD.getIFDIntValue(IFD.PLANAR_CONFIGURATION);
    String planarConfig = null;
    switch (planar) {
      case 1:
        planarConfig = "Chunky";
        break;
      case 2:
        planarConfig = "Planar";
        break;
    }
    put("PlanarConfiguration", planarConfig);

    putInt("XPosition", firstIFD, IFD.X_POSITION);
    putInt("YPosition", firstIFD, IFD.Y_POSITION);
    putInt("FreeOffsets", firstIFD, IFD.FREE_OFFSETS);
    putInt("FreeByteCounts", firstIFD, IFD.FREE_BYTE_COUNTS);
    putInt("GrayResponseUnit", firstIFD, IFD.GRAY_RESPONSE_UNIT);
    putInt("GrayResponseCurve", firstIFD, IFD.GRAY_RESPONSE_CURVE);
    putInt("T4Options", firstIFD, IFD.T4_OPTIONS);
    putInt("T6Options", firstIFD, IFD.T6_OPTIONS);

    int res = firstIFD.getIFDIntValue(IFD.RESOLUTION_UNIT);
    String resUnit = null;
    switch (res) {
      case 1:
        resUnit = "None";
        break;
      case 2:
        resUnit = "Inch";
        break;
      case 3:
        resUnit = "Centimeter";
        break;
    }
    put("ResolutionUnit", resUnit);

    putInt("PageNumber", firstIFD, IFD.PAGE_NUMBER);
    putInt("TransferFunction", firstIFD, IFD.TRANSFER_FUNCTION);

    int predict = firstIFD.getIFDIntValue(IFD.PREDICTOR);
    String predictor = null;
    switch (predict) {
      case 1:
        predictor = "No prediction scheme";
        break;
      case 2:
        predictor = "Horizontal differencing";
        break;
    }
    put("Predictor", predictor);

    putInt("WhitePoint", firstIFD, IFD.WHITE_POINT);
    putInt("PrimaryChromacities", firstIFD, IFD.PRIMARY_CHROMATICITIES);

    putInt("HalftoneHints", firstIFD, IFD.HALFTONE_HINTS);
    putInt("TileWidth", firstIFD, IFD.TILE_WIDTH);
    putInt("TileLength", firstIFD, IFD.TILE_LENGTH);
    putInt("TileOffsets", firstIFD, IFD.TILE_OFFSETS);
    putInt("TileByteCounts", firstIFD, IFD.TILE_BYTE_COUNTS);

    int ink = firstIFD.getIFDIntValue(IFD.INK_SET);
    String inkSet = null;
    switch (ink) {
      case 1:
        inkSet = "CMYK";
        break;
      case 2:
        inkSet = "Other";
        break;
    }
    put("InkSet", inkSet);

    putInt("InkNames", firstIFD, IFD.INK_NAMES);
    putInt("NumberOfInks", firstIFD, IFD.NUMBER_OF_INKS);
    putInt("DotRange", firstIFD, IFD.DOT_RANGE);
    put("TargetPrinter", firstIFD, IFD.TARGET_PRINTER);
    putInt("ExtraSamples", firstIFD, IFD.EXTRA_SAMPLES);

    int fmt = firstIFD.getIFDIntValue(IFD.SAMPLE_FORMAT);
    String sampleFormat = null;
    switch (fmt) {
      case 1:
        sampleFormat = "unsigned integer";
        break;
      case 2:
        sampleFormat = "two's complement signed integer";
        break;
      case 3:
        sampleFormat = "IEEE floating point";
        break;
      case 4:
        sampleFormat = "undefined";
        break;
    }
    put("SampleFormat", sampleFormat);

    putInt("SMinSampleValue", firstIFD, IFD.S_MIN_SAMPLE_VALUE);
    putInt("SMaxSampleValue", firstIFD, IFD.S_MAX_SAMPLE_VALUE);
    putInt("TransferRange", firstIFD, IFD.TRANSFER_RANGE);

    int jpeg = firstIFD.getIFDIntValue(IFD.JPEG_PROC);
    String jpegProc = null;
    switch (jpeg) {
      case 1:
        jpegProc = "baseline sequential process";
        break;
      case 14:
        jpegProc = "lossless process with Huffman coding";
        break;
    }
    put("JPEGProc", jpegProc);

    putInt("JPEGInterchangeFormat", firstIFD, IFD.JPEG_INTERCHANGE_FORMAT);
    putInt("JPEGRestartInterval", firstIFD, IFD.JPEG_RESTART_INTERVAL);

    putInt("JPEGLosslessPredictors", firstIFD, IFD.JPEG_LOSSLESS_PREDICTORS);
    putInt("JPEGPointTransforms", firstIFD, IFD.JPEG_POINT_TRANSFORMS);
    putInt("JPEGQTables", firstIFD, IFD.JPEG_Q_TABLES);
    putInt("JPEGDCTables", firstIFD, IFD.JPEG_DC_TABLES);
    putInt("JPEGACTables", firstIFD, IFD.JPEG_AC_TABLES);
    putInt("YCbCrCoefficients", firstIFD, IFD.Y_CB_CR_COEFFICIENTS);

    int ycbcr = firstIFD.getIFDIntValue(IFD.Y_CB_CR_SUB_SAMPLING);
    String subSampling = null;
    switch (ycbcr) {
      case 1:
        subSampling = "chroma image dimensions = luma image dimensions";
        break;
      case 2:
        subSampling = "chroma image dimensions are " + "half the luma image dimensions";
        break;
      case 4:
        subSampling = "chroma image dimensions are " + "1/4 the luma image dimensions";
        break;
    }
    put("YCbCrSubSampling", subSampling);

    putInt("YCbCrPositioning", firstIFD, IFD.Y_CB_CR_POSITIONING);
    putInt("ReferenceBlackWhite", firstIFD, IFD.REFERENCE_BLACK_WHITE);

    // bits per sample and number of channels
    int[] q = firstIFD.getBitsPerSample();
    int bps = q[0];
    int numC = q.length;

    // numC isn't set properly if we have an indexed color image, so we need
    // to reset it here

    if (photo == PhotoInterp.RGB_PALETTE || photo == PhotoInterp.CFA_ARRAY) {
      numC = 3;
    }

    put("BitsPerSample", bps);
    put("NumberOfChannels", numC);
  }