private int readPeerCount(DataInputStream data) throws IOException {
    // get the peer list offset
    int offset = data.readInt();
    if (offset == 0) throw new IOException("File not ready for first read");

    if (lastOffset != offset) {
      peers = null;
      lastOffset = offset;
    }
    int peerCount = data.readInt();

    // skip to the start of the data
    if (data.skip(offset - 8) != (offset - 8))
      // skip starts from the current position & offset is defined from
      // start of file
      throw new IOException("unable to skip to the required position in the file");

    int timestamp = data.readInt();

    // drop the cached peer list if the file has changed
    if (timestamp != lastTimestamp) peers = null;

    lastTimestamp = timestamp;

    // compare to current time
    long dateInSeconds = new Date().getTime() / 1000;
    if (dateInSeconds > (timestamp + maxAge)) throw new IOException("Batman peer file is stale");

    return peerCount;
  }
 private void readTrack(DataInputStream dataInputStream, Track track)
     throws InvalidMidiDataException, IOException {
   // search for a "MTrk" chunk
   while (true) {
     int nMagic = dataInputStream.readInt();
     if (nMagic == MidiConstants.TRACK_MAGIC) {
       break;
     }
     int nChunkLength = dataInputStream.readInt();
     if (nChunkLength % 2 != 0) {
       nChunkLength++;
     }
     dataInputStream.skip(nChunkLength);
   }
   int nTrackChunkLength = dataInputStream.readInt();
   long lTicks = 0;
   long[] alRemainingBytes = new long[1];
   alRemainingBytes[0] = nTrackChunkLength;
   int[] anRunningStatusByte = new int[1];
   // indicates no running status in effect
   anRunningStatusByte[0] = -1;
   while (alRemainingBytes[0] > 0) {
     long lDeltaTicks = readVariableLengthQuantity(dataInputStream, alRemainingBytes);
     // TDebug.out("delta ticks: " + lDeltaTicks);
     lTicks += lDeltaTicks;
     MidiEvent event = readEvent(dataInputStream, alRemainingBytes, anRunningStatusByte, lTicks);
     track.add(event);
   }
 }
Exemplo n.º 3
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  public static String computeHash(InputStream stream, long length) throws IOException {
    int chunkSizeForFile = (int) Math.min(HASH_CHUNK_SIZE, length);

    // buffer that will contain the head and the tail chunk, chunks will overlap if length is
    // smaller than two chunks
    byte[] chunkBytes = new byte[(int) Math.min(2 * HASH_CHUNK_SIZE, length)];

    DataInputStream in = new DataInputStream(stream);

    // first chunk
    in.readFully(chunkBytes, 0, chunkSizeForFile);

    long position = chunkSizeForFile;
    long tailChunkPosition = length - chunkSizeForFile;

    // seek to position of the tail chunk, or not at all if length is smaller than two chunks
    while (position < tailChunkPosition && (position += in.skip(tailChunkPosition - position)) >= 0)
      ;

    // second chunk, or the rest of the data if length is smaller than two chunks
    in.readFully(chunkBytes, chunkSizeForFile, chunkBytes.length - chunkSizeForFile);

    long head = computeHashForChunk(ByteBuffer.wrap(chunkBytes, 0, chunkSizeForFile));
    long tail =
        computeHashForChunk(
            ByteBuffer.wrap(chunkBytes, chunkBytes.length - chunkSizeForFile, chunkSizeForFile));

    return String.format("%016x", length + head + tail);
  }
Exemplo n.º 4
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 /**
  * Get Word meaning by its offset and its meaning size.
  *
  * @param offset offset that is get in .idx file.
  * @param size size that is get in .idx file
  * @return meaning of word data
  */
 public String getWordData(long offset, long size) {
   if (!((new java.io.File(strFileName)).exists())) {
     return "File: " + strFileName + " does not exist";
   }
   String strMeaning = "not found";
   DataInputStream dt = null;
   try {
     dt = new DataInputStream(new BufferedInputStream(new FileInputStream(strFileName)));
     dt.skip(offset);
     byte[] bt = new byte[(int) size];
     dt.read(bt, 0, (int) size);
     strMeaning = new String(bt, "UTF8");
   } catch (Exception ex) {
     Log.e(TAG, "Read file name '" + strFileName + "'", ex);
   } finally {
     if (dt != null) {
       try {
         dt.close();
       } catch (Exception ex) {
         Log.w(TAG, "Closing DataInputStream", ex);
       }
     }
   }
   return strMeaning;
 }
Exemplo n.º 5
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 public void skip(DataInputStream dis) throws IOException {
   defreezeSuperColumn(dis);
   /* read the number of columns stored */
   dis.readInt();
   /* read the size of all columns to skip */
   int size = dis.readInt();
   dis.skip(size);
 }
Exemplo n.º 6
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  Reader(String idxFileName, String idxFileNameLabels) {
    try {
      fileName = idxFileName;
      dis = new DataInputStream(new FileInputStream(new File(idxFileName)));
      disLabels = new DataInputStream(new FileInputStream(idxFileNameLabels));
      dis.skip(4);
      disLabels.skip(8);
      setSize = dis.readInt();
      dimSize1 = dis.readInt();
      dimSize2 = dis.readInt();
      test = new int[setSize][dimSize1 * dimSize2];
      label = new byte[setSize];

    } catch (IOException e) {
      System.err.println("Error on initializing \"Reader\"");
      e.printStackTrace();
    }
  }
 static void skipOver(DataInputStream in, long p) throws IOException {
   int errs = 3;
   while (p > 0) {
     long sp = in.skip(p);
     if (sp > 0) p -= sp;
     else if (sp == 0) {
       if (errs <= 0) throw new IOException("Skip returned zero too many times.");
       errs--;
     } else throw new IOException("Skip returned negative.");
   }
 }
Exemplo n.º 8
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  /*
   * Deserialize a particular column since the name is in the form of
   * superColumn:column.
   */
  public IColumn deserialize(DataInputStream dis, String name, IFilter filter) throws IOException {
    if (dis.available() == 0) return null;

    String[] names = RowMutation.getColumnAndColumnFamily(name);
    if (names.length == 1) {
      IColumn superColumn = defreezeSuperColumn(dis);
      if (name.equals(superColumn.name())) {
        if (!superColumn.isMarkedForDelete()) {
          /* read the number of columns stored */
          int size = dis.readInt();
          /* read the size of all columns */
          dis.readInt();
          IColumn column = null;
          for (int i = 0; i < size; ++i) {
            column = Column.serializer().deserialize(dis, filter);
            if (column != null) {
              superColumn.addColumn(column.name(), column);
              column = null;
              if (filter.isDone()) {
                break;
              }
            }
          }
        }
        return superColumn;
      } else {
        /* read the number of columns stored */
        dis.readInt();
        /* read the size of all columns to skip */
        int size = dis.readInt();
        dis.skip(size);
        return null;
      }
    }

    SuperColumn superColumn = defreezeSuperColumn(dis);
    if (!superColumn.isMarkedForDelete()) {
      int size = dis.readInt();
      /* skip the size of the columns */
      dis.readInt();
      if (size > 0) {
        for (int i = 0; i < size; ++i) {
          IColumn subColumn = Column.serializer().deserialize(dis, names[1], filter);
          if (subColumn != null) {
            superColumn.addColumn(subColumn.name(), subColumn);
            break;
          }
        }
      }
    }
    return superColumn;
  }
Exemplo n.º 9
0
 /**
  * 读取数据流
  *
  * @param dis
  * @param header
  * @param fileTable
  * @return
  * @throws Exception
  */
 public static byte[] readFileFromPak(DataInputStream dis, LPKHeader header, LPKTable fileTable)
     throws Exception {
   dis.skip(fileTable.getOffSet() - outputOffset(header));
   int fileLength = (int) fileTable.getFileSize();
   byte[] fileBuff = new byte[fileLength];
   int readLength = dis.read(fileBuff, 0, fileLength);
   if (readLength < fileLength) {
     return null;
   } else {
     makeBuffer(fileBuff, readLength);
     return fileBuff;
   }
 }
Exemplo n.º 10
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 /**
  * Skip exactly <code>n</code> bytes. Throws if less bytes are skipped.
  *
  * @param n bytes to skip
  * @throws java.io.IOException if an I/O error occurs, or less that <code>n</code> bytes were
  *     skipped.
  */
 private void skip(long n) throws IOException {
   long skiplen = n;
   while (skiplen > 0) {
     long skipped = in.skip(skiplen);
     if (skipped <= 0) {
       break;
     }
     skiplen -= skipped;
   }
   if (skiplen != 0) {
     String msg = "Unable to skip remaining bytes.";
     throw new IOException(msg);
   }
 }
  private static int convertNBytesToInt(byte[] buffer, int offset, int nBytes) throws IOException {
    int value = 0;
    int shift = 0;
    ByteArrayInputStream byte_in = new ByteArrayInputStream(buffer);
    DataInputStream data_in = new DataInputStream(byte_in);

    /* skip the offset */
    data_in.skip(offset);

    for (int i = 0; i < nBytes; i++) {
      value += data_in.readUnsignedByte() << shift;
      shift += 8;
    }
    return value;
  }
Exemplo n.º 12
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  public IColumn deserialize(DataInputStream dis, IFilter filter) throws IOException {
    if (dis.available() == 0) return null;

    IColumn superColumn = defreezeSuperColumn(dis);
    superColumn = filter.filter(superColumn, dis);
    if (superColumn != null) {
      if (!superColumn.isMarkedForDelete()) fillSuperColumn(superColumn, dis);
      return superColumn;
    } else {
      /* read the number of columns stored */
      dis.readInt();
      /* read the size of all columns to skip */
      int size = dis.readInt();
      dis.skip(size);
      return null;
    }
  }
Exemplo n.º 13
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 Object readRGB48(InputStream in) throws IOException {
   if (fi.compression > FileInfo.COMPRESSION_NONE) return readCompressedRGB48(in);
   int channels = fi.samplesPerPixel;
   short[][] stack = new short[channels][nPixels];
   DataInputStream dis = new DataInputStream(in);
   int pixel = 0;
   int min = 65535, max = 0;
   if (fi.stripLengths == null) {
     fi.stripLengths = new int[fi.stripOffsets.length];
     fi.stripLengths[0] = width * height * bytesPerPixel;
   }
   for (int i = 0; i < fi.stripOffsets.length; i++) {
     if (i > 0) {
       long skip =
           (fi.stripOffsets[i] & 0xffffffffL)
               - (fi.stripOffsets[i - 1] & 0xffffffffL)
               - fi.stripLengths[i - 1];
       if (skip > 0L) dis.skip(skip);
     }
     int len = fi.stripLengths[i];
     int bytesToGo = (nPixels - pixel) * channels * 2;
     if (len > bytesToGo) len = bytesToGo;
     byte[] buffer = new byte[len];
     dis.readFully(buffer);
     int value;
     int channel = 0;
     boolean intel = fi.intelByteOrder;
     for (int base = 0; base < len; base += 2) {
       if (intel) value = ((buffer[base + 1] & 0xff) << 8) | (buffer[base] & 0xff);
       else value = ((buffer[base] & 0xff) << 8) | (buffer[base + 1] & 0xff);
       if (value < min) min = value;
       if (value > max) max = value;
       stack[channel][pixel] = (short) (value);
       channel++;
       if (channel == channels) {
         channel = 0;
         pixel++;
       }
     }
     showProgress(i + 1, fi.stripOffsets.length);
   }
   this.min = min;
   this.max = max;
   return stack;
 }
Exemplo n.º 14
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  @Override
  public void onActivityResult(int requestCode, int resultCode, Intent data) {
    int index = -1;
    if (data != null) {
      index = data.getIntExtra("index", -1);
    }
    switch (resultCode) {
      case LoadDisk.ID_RESULT_LOADDISK:
        loadDisk(LoadDisk.selectedDisk, true);
        if (!showHint("hint_switch_keyboards", R.string.hint_switch_keyboards, 5)) {
          showHint("hint_space_to_start", R.string.hint_space_to_start, 10);
        }
        break;

      case LoadDisk.ID_RESULT_SAVE:
        SavedGameInfo info;
        if (index == -1) {
          info = new SavedGameInfo();
        } else {
          info = SavedGameInfo.savedGames.remove(index);
        }
        SavedGameInfo.savedGames.add(0, info);
        info.save(this);
        break;

      case LoadDisk.ID_RESULT_RESTORE:
        info = SavedGameInfo.savedGames.get(index);
        loadDisk(info.diskInfo, false);
        byte[] buffer = new byte[65 * 1024];
        try {
          FileInputStream fileIn = openFileInput(info.filename);
          DataInputStream din = new DataInputStream(fileIn);
          din.skip(info.offsetToMachineData);
          int cbMachine = din.readInt();
          int cb = fileIn.read(buffer);
          bbcDeserialize(buffer);
          din.close();
          Toast.makeText(this, "Restored", Toast.LENGTH_SHORT).show();
        } catch (IOException ex) {
          Log.d(TAG, "Error restoring state: " + ex);
        }
        SavedGameInfo.current = info;
        break;
    }
  }
 public static long convert8BytesToLong(byte[] buffer, int offset) throws IOException {
   ByteArrayInputStream byte_in = new ByteArrayInputStream(buffer);
   DataInputStream data_in = new DataInputStream(byte_in);
   /* skip the offset */
   data_in.skip(offset);
   //
   long value;
   value = data_in.readUnsignedByte();
   value += (long) data_in.readUnsignedByte() << 8;
   value += (long) data_in.readUnsignedByte() << 16;
   value += (long) data_in.readUnsignedByte() << 24;
   value += (long) data_in.readUnsignedByte() << 32;
   value += (long) data_in.readUnsignedByte() << 40;
   value += (long) data_in.readUnsignedByte() << 48;
   value += (long) data_in.readUnsignedByte() << 56;
   return value;
   // return convertNBytesToLong(buffer, offset, 8);
 }
Exemplo n.º 16
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 Object readCompressedRGB48(InputStream in) throws IOException {
   if (fi.compression == FileInfo.LZW_WITH_DIFFERENCING)
     throw new IOException("ImageJ cannot open 48-bit LZW compressed TIFFs with predictor");
   int channels = 3;
   short[][] stack = new short[channels][nPixels];
   DataInputStream dis = new DataInputStream(in);
   int pixel = 0;
   int min = 65535, max = 0;
   for (int i = 0; i < fi.stripOffsets.length; i++) {
     if (i > 0) {
       long skip =
           (fi.stripOffsets[i] & 0xffffffffL)
               - (fi.stripOffsets[i - 1] & 0xffffffffL)
               - fi.stripLengths[i - 1];
       if (skip > 0L) dis.skip(skip);
     }
     int len = fi.stripLengths[i];
     byte[] buffer = new byte[len];
     dis.readFully(buffer);
     buffer = uncompress(buffer);
     len = buffer.length;
     if (len % 2 != 0) len--;
     int value;
     int channel = 0;
     boolean intel = fi.intelByteOrder;
     for (int base = 0; base < len && pixel < nPixels; base += 2) {
       if (intel) value = ((buffer[base + 1] & 0xff) << 8) | (buffer[base] & 0xff);
       else value = ((buffer[base] & 0xff) << 8) | (buffer[base + 1] & 0xff);
       if (value < min) min = value;
       if (value > max) max = value;
       stack[channel][pixel] = (short) (value);
       channel++;
       if (channel == channels) {
         channel = 0;
         pixel++;
       }
     }
     showProgress(i + 1, fi.stripOffsets.length);
   }
   this.min = min;
   this.max = max;
   return stack;
 }
Exemplo n.º 17
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  /**
   * Read the class's attributes. Since none of the attributes are required, just read the length of
   * each attribute and skip that many bytes.
   *
   * @param in The stream from which to read.
   * @exception IOException If an error occurs while reading.
   */
  public void readAttributes(DataInputStream in) throws IOException {
    int numAttributes = in.readUnsignedShort();

    attrs = new Attribute[numAttributes];

    for (int i = 0; i < numAttributes; i++) {
      int nameIndex = in.readUnsignedShort();
      int length = in.readInt();
      String name = (String) constants[nameIndex].value();
      Attribute a = createAttribute(in, name, nameIndex, length);
      if (a != null) {
        attrs[i] = a;
      } else {
        long n = in.skip(length);
        if (n != length) {
          throw new EOFException();
        }
      }
    }
  }
  /**
   * Read the file at the path specified at the time of instantiation and return a list of peer
   * records
   *
   * @return a list of peer records or null if the list is stale
   * @throws IOException if any IO operation on the file fails
   */
  @Override
  public ArrayList<PeerRecord> getPeerList() throws IOException {

    DataInputStream data = new DataInputStream(new FileInputStream(PEER_FILE_LOCATION));
    try {
      int peerCount = readPeerCount(data);

      if (peers != null) return peers;

      ArrayList<PeerRecord> newPeers = new ArrayList<PeerRecord>();
      for (int i = 0; i < peerCount; i++) {
        int addressType = data.read();
        byte addr[];
        switch (addressType) {
          case 4:
            addr = new byte[4];
            break;
          case 6:
            addr = new byte[16];
            break;
          default:
            throw new IOException("Invalid address type " + addressType);
        }
        data.read(addr);
        data.skip(32 - addr.length);

        int linkScore = data.read();

        newPeers.add(new PeerRecord(InetAddress.getByAddress(addr), linkScore));
      }
      // only overwrite the peer field when were done, to avoid race
      // conditions.
      peers = newPeers;
      return newPeers;
    } finally {
      data.close();
    }
  }
Exemplo n.º 19
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  @Override
  public void decode(byte[] header, ByteBuffer input) throws IOException {
    assert header != null && header.length == 1 : "input header is invalid";
    boolean valid = (header[0] & 0x80) != 0;
    this.setResponseCode(ResponseCode.valueOf((byte) (header[0] & 0x7F)));

    DataInputStream in = new DataInputStream(new ByteBufferInputStream(input));

    // read in first segment of fixed format sense data
    in.readByte();
    int key = in.readUnsignedByte() & 0x0F; // TODO: FILEMARK, EOM, and ILI are unsupported
    byte[] info = new byte[4];
    in.read(info);
    int length = in.readUnsignedByte() - 10; // length of next segment, minus required read-in
    length = length < 0 ? 0 : length;

    // read in the next segment of the fixed format sense data
    byte[] cmdi = new byte[4];
    in.read(cmdi);
    int code = in.readUnsignedByte();
    int qualifier = in.readUnsignedByte();
    in.readByte();
    this.senseKeySpecificBuffer = new byte[3];
    in.read(this.senseKeySpecificBuffer);
    // the rest of the additional sense bytes are ignored
    // (vendor specific bytes not supported)
    in.skip(length);

    KCQ kcq = KCQ.valueOf(key, code, qualifier); // throws IOException on invalid values

    // Set appropriate fields

    this.setKcq(kcq);
    this.setInformation(valid ? info : null);
    this.setCommandSpecificInformation(cmdi);

    // sense key specific buffer already set, will be decoded when exception is constructed.
  }
Exemplo n.º 20
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  /**
   * Loads images from the resource and replace palette chunks.
   *
   * @param name the name of the resource containing the image data in the PNG format
   * @param color the color
   * @return the created image
   */
  private Image[] getColorizedImages(String name, int skip, int color) {
    InputStream inputStream = getClass().getResourceAsStream(name);
    DataInputStream dataStream = new DataInputStream(inputStream);

    Image[] images = null;

    try {
      dataStream.skip(skip);
      int imagesCount = dataStream.readByte();
      images = new Image[imagesCount];

      for (int i = 0; i < imagesCount; i++) {
        int imageLength = dataStream.readShort();
        byte[] buffer = new byte[imageLength];
        dataStream.read(buffer, 0, imageLength);

        if (!compareBytes(buffer, 0, PNG_SIGNATURE)) {
          return null;
        }

        int paletteOffset = getChunk(buffer, 8, "PLTE");
        if (paletteOffset >= 0) {
          colorizePalette(buffer, paletteOffset, color);
          images[i] = Image.createImage(buffer, 0, imageLength);
        }
      }
    } catch (Exception e) {
    } finally {
      try {
        inputStream.close();
      } catch (IOException e) {
      }
      ;
    }

    return images;
  }
 @Override
 public long skip(long n) throws IOException {
   return in.skip(n);
 }
Exemplo n.º 22
0
  public MidiFileFormat getMidiFileFormat(InputStream inputStream)
      throws InvalidMidiDataException, IOException {
    DataInputStream dataInputStream = new DataInputStream(inputStream);
    int nHeaderMagic = dataInputStream.readInt();
    if (nHeaderMagic != MidiConstants.HEADER_MAGIC) {
      throw new InvalidMidiDataException("not a MIDI file: wrong header magic");
    }
    int nHeaderLength = dataInputStream.readInt();
    if (nHeaderLength < 6) {
      throw new InvalidMidiDataException("corrupt MIDI file: wrong header length");
    }
    int nType = dataInputStream.readShort();
    if (nType < 0 || nType > 2) {
      throw new InvalidMidiDataException("corrupt MIDI file: illegal type");
    }
    if (nType == 2) {
      throw new InvalidMidiDataException("this implementation doesn't support type 2 MIDI files");
    }
    int nNumTracks = dataInputStream.readShort();
    if (nNumTracks <= 0) {
      throw new InvalidMidiDataException("corrupt MIDI file: number of tracks must be positive");
    }
    if (nType == 0 && nNumTracks != 1) {
      throw new InvalidMidiDataException(
          "corrupt MIDI file:  type 0 files must contain exactely one track");
    }
    int nDivision = dataInputStream.readUnsignedShort();
    float fDivisionType = -1.0F;
    int nResolution = -1;
    if ((nDivision & 0x8000) != 0) // frame division
    {
      int nFrameType = -((nDivision >>> 8) & 0xFF);
      switch (nFrameType) {
        case 24:
          fDivisionType = Sequence.SMPTE_24;
          break;

        case 25:
          fDivisionType = Sequence.SMPTE_25;
          break;

        case 29:
          fDivisionType = Sequence.SMPTE_30DROP;
          break;

        case 30:
          fDivisionType = Sequence.SMPTE_30;
          break;

        default:
          throw new InvalidMidiDataException("corrupt MIDI file: illegal frame division type");
      }
      nResolution = nDivision & 0xff;
    } else // BPM division
    {
      fDivisionType = Sequence.PPQ;
      nResolution = nDivision & 0x7fff;
    }
    // skip additional bytes in the header
    dataInputStream.skip(nHeaderLength - 6);
    MidiFileFormat midiFileFormat =
        new TMidiFileFormat(
            nType,
            fDivisionType,
            nResolution,
            MidiFileFormat.UNKNOWN_LENGTH,
            MidiFileFormat.UNKNOWN_LENGTH,
            nNumTracks);
    return midiFileFormat;
  }
Exemplo n.º 23
0
  public static Globcover[] makeArray(File f) throws IOException {
    DataInputStream dataStream =
        new DataInputStream(new BufferedInputStream(new FileInputStream(f)));
    // read 8 byte header
    dataStream.skip(8);
    while (true) {
      int len = dataStream.readInt();
      char[] nameArr = new char[4];
      nameArr[0] = (char) dataStream.readByte();
      nameArr[1] = (char) dataStream.readByte();
      nameArr[2] = (char) dataStream.readByte();
      nameArr[3] = (char) dataStream.readByte();
      String name = new String(nameArr);

      if (name.equals("PLTE")) {
        Globcover[] pallette = new Globcover[256];
        for (int i = 0; i < 256; i++) {
          int r = dataStream.readByte();
          int g = dataStream.readByte();
          int b = dataStream.readByte();
          if (r < 0) r += 256;
          if (g < 0) g += 256;
          if (b < 0) b += 256;

          if (r == 170 && g == 240 && b == 240) {
            pallette[i] = Globcover.IrrigatedCrops;
          } else if (r == 255 && g == 255 && b == 100) {
            pallette[i] = Globcover.RainfedCrops;
          } else if (r == 220 && g == 240 && b == 100) {
            pallette[i] = Globcover.CroplandWithVegetation;
          } else if (r == 205 && g == 205 && b == 102) {
            pallette[i] = Globcover.VegetationWithCropland;
          } else if (r == 0 && g == 100 && b == 0) {
            pallette[i] = Globcover.BroadleafEvergreen;
          } else if (r == 0 && g == 160 && b == 0) {
            pallette[i] = Globcover.ClosedBroadleafDeciduous;
          } else if (r == 170 && g == 200 && b == 0) {
            pallette[i] = Globcover.OpenBroadleafDeciduous;
          } else if (r == 0 && g == 60 && b == 0) {
            pallette[i] = Globcover.ClosedNeedleleafEvergreen;
          } else if (r == 40 && g == 100 && b == 0) {
            pallette[i] = Globcover.OpenNeedleleaf;
          } else if (r == 120 && g == 130 && b == 0) {
            pallette[i] = Globcover.MixedBroadNeedleleaf;
          } else if (r == 140 && g == 160 && b == 0) {
            pallette[i] = Globcover.ForestShrublandWithGrass;
          } else if (r == 190 && g == 150 && b == 0) {
            pallette[i] = Globcover.GrassWithForestShrubland;
          } else if (r == 150 && g == 100 && b == 0) {
            pallette[i] = Globcover.Shrubland;
          } else if (r == 255 && g == 180 && b == 50) {
            pallette[i] = Globcover.Grassland;
          } else if (r == 255 && g == 235 && b == 175) {
            pallette[i] = Globcover.SparseVegetation;
          } else if (r == 0 && g == 120 && b == 90) {
            pallette[i] = Globcover.FreshFloodedForest;
          } else if (r == 0 && g == 150 && b == 120) {
            pallette[i] = Globcover.SalineFloodedForest;
          } else if (r == 0 && g == 220 && b == 130) {
            pallette[i] = Globcover.FloodedGrassland;
          } else if (r == 195 && g == 20 && b == 0) {
            pallette[i] = Globcover.Urban;
          } else if (r == 255 && g == 245 && b == 215) {
            pallette[i] = Globcover.Bare;
          } else if (r == 0 && g == 70 && b == 200) {
            pallette[i] = Globcover.Water;
          } else if (r == 255 && g == 255 && b == 255) {
            pallette[i] = Globcover.Snow;
          } else {
            pallette[i] = Globcover.NoData;
          }
        }
        dataStream.close();
        return pallette;
      } else {
        dataStream.skip(len + 4);
      }
    }
  }
Exemplo n.º 24
0
 @Override
 public long skip(long n) throws IOException {
   return dataInput.skip(n);
 }
Exemplo n.º 25
0
  /**
   * <code>loadImage</code> is a manual image loader which is entirely independent of AWT. OUT:
   * RGB888 or RGBA8888 Image object
   *
   * @param in InputStream of an uncompressed 24b RGB or 32b RGBA TGA
   * @param flip Flip the image vertically
   * @return <code>Image</code> object that contains the image, either as a RGB888 or RGBA8888
   * @throws java.io.IOException
   */
  public static Image load(InputStream in, boolean flip) throws IOException {
    boolean flipH = false;

    // open a stream to the file
    DataInputStream dis = new DataInputStream(new BufferedInputStream(in));

    // ---------- Start Reading the TGA header ---------- //
    // length of the image id (1 byte)
    int idLength = dis.readUnsignedByte();

    // Type of color map (if any) included with the image
    // 0 - no color map data is included
    // 1 - a color map is included
    int colorMapType = dis.readUnsignedByte();

    // Type of image being read:
    int imageType = dis.readUnsignedByte();

    // Read Color Map Specification (5 bytes)
    // Index of first color map entry (if we want to use it, uncomment and remove extra read.)
    //        short cMapStart = flipEndian(dis.readShort());
    dis.readShort();
    // number of entries in the color map
    short cMapLength = flipEndian(dis.readShort());
    // number of bits per color map entry
    int cMapDepth = dis.readUnsignedByte();

    // Read Image Specification (10 bytes)
    // horizontal coordinate of lower left corner of image. (if we want to use it, uncomment and
    // remove extra read.)
    //        int xOffset = flipEndian(dis.readShort());
    dis.readShort();
    // vertical coordinate of lower left corner of image. (if we want to use it, uncomment and
    // remove extra read.)
    //        int yOffset = flipEndian(dis.readShort());
    dis.readShort();
    // width of image - in pixels
    int width = flipEndian(dis.readShort());
    // height of image - in pixels
    int height = flipEndian(dis.readShort());
    // bits per pixel in image.
    int pixelDepth = dis.readUnsignedByte();
    int imageDescriptor = dis.readUnsignedByte();
    if ((imageDescriptor & 32) != 0) // bit 5 : if 1, flip top/bottom ordering
    {
      flip = !flip;
    }
    if ((imageDescriptor & 16) != 0) // bit 4 : if 1, flip left/right ordering
    {
      flipH = !flipH;
    }

    // ---------- Done Reading the TGA header ---------- //

    // Skip image ID
    if (idLength > 0) {
      dis.skip(idLength);
    }

    ColorMapEntry[] cMapEntries = null;
    if (colorMapType != 0) {
      // read the color map.
      int bytesInColorMap = (cMapDepth * cMapLength) >> 3;
      int bitsPerColor = Math.min(cMapDepth / 3, 8);

      byte[] cMapData = new byte[bytesInColorMap];
      dis.read(cMapData);

      // Only go to the trouble of constructing the color map
      // table if this is declared a color mapped image.
      if (imageType == TYPE_COLORMAPPED || imageType == TYPE_COLORMAPPED_RLE) {
        cMapEntries = new ColorMapEntry[cMapLength];
        int alphaSize = cMapDepth - (3 * bitsPerColor);
        float scalar = 255f / (FastMath.pow(2, bitsPerColor) - 1);
        float alphaScalar = 255f / (FastMath.pow(2, alphaSize) - 1);
        for (int i = 0; i < cMapLength; i++) {
          ColorMapEntry entry = new ColorMapEntry();
          int offset = cMapDepth * i;
          entry.red = (byte) (int) (getBitsAsByte(cMapData, offset, bitsPerColor) * scalar);
          entry.green =
              (byte) (int) (getBitsAsByte(cMapData, offset + bitsPerColor, bitsPerColor) * scalar);
          entry.blue =
              (byte)
                  (int)
                      (getBitsAsByte(cMapData, offset + (2 * bitsPerColor), bitsPerColor) * scalar);
          if (alphaSize <= 0) {
            entry.alpha = (byte) 255;
          } else {
            entry.alpha =
                (byte)
                    (int)
                        (getBitsAsByte(cMapData, offset + (3 * bitsPerColor), alphaSize)
                            * alphaScalar);
          }

          cMapEntries[i] = entry;
        }
      }
    }

    // Allocate image data array
    Format format;
    byte[] rawData = null;
    int dl;
    if (pixelDepth == 32) {
      rawData = new byte[width * height * 4];
      dl = 4;
    } else {
      rawData = new byte[width * height * 3];
      dl = 3;
    }
    int rawDataIndex = 0;

    if (imageType == TYPE_TRUECOLOR) {
      byte red = 0;
      byte green = 0;
      byte blue = 0;
      byte alpha = 0;

      // Faster than doing a 16-or-24-or-32 check on each individual pixel,
      // just make a seperate loop for each.
      if (pixelDepth == 16) {
        byte[] data = new byte[2];
        float scalar = 255f / 31f;
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }
          for (int j = 0; j < width; j++) {
            data[1] = dis.readByte();
            data[0] = dis.readByte();
            rawData[rawDataIndex++] = (byte) (int) (getBitsAsByte(data, 1, 5) * scalar);
            rawData[rawDataIndex++] = (byte) (int) (getBitsAsByte(data, 6, 5) * scalar);
            rawData[rawDataIndex++] = (byte) (int) (getBitsAsByte(data, 11, 5) * scalar);
            if (dl == 4) {
              // create an alpha channel
              alpha = getBitsAsByte(data, 0, 1);
              if (alpha == 1) {
                alpha = (byte) 255;
              }
              rawData[rawDataIndex++] = alpha;
            }
          }
        }

        format = dl == 4 ? Format.RGBA8 : Format.RGB8;
      } else if (pixelDepth == 24) {
        for (int y = 0; y < height; y++) {
          if (!flip) {
            rawDataIndex = (height - 1 - y) * width * dl;
          } else {
            rawDataIndex = y * width * dl;
          }

          dis.readFully(rawData, rawDataIndex, width * dl);
          //                    for (int x = 0; x < width; x++) {
          // read scanline
          //                        blue = dis.readByte();
          //                        green = dis.readByte();
          //                        red = dis.readByte();
          //                        rawData[rawDataIndex++] = red;
          //                        rawData[rawDataIndex++] = green;
          //                        rawData[rawDataIndex++] = blue;
          //                    }
        }
        format = Format.BGR8;
      } else if (pixelDepth == 32) {
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }

          for (int j = 0; j < width; j++) {
            blue = dis.readByte();
            green = dis.readByte();
            red = dis.readByte();
            alpha = dis.readByte();
            rawData[rawDataIndex++] = red;
            rawData[rawDataIndex++] = green;
            rawData[rawDataIndex++] = blue;
            rawData[rawDataIndex++] = alpha;
          }
        }
        format = Format.RGBA8;
      } else {
        throw new IOException("Unsupported TGA true color depth: " + pixelDepth);
      }
    } else if (imageType == TYPE_TRUECOLOR_RLE) {
      byte red = 0;
      byte green = 0;
      byte blue = 0;
      byte alpha = 0;
      // Faster than doing a 16-or-24-or-32 check on each individual pixel,
      // just make a seperate loop for each.
      if (pixelDepth == 32) {
        for (int i = 0; i <= (height - 1); ++i) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }

          for (int j = 0; j < width; ++j) {
            // Get the number of pixels the next chunk covers (either packed or unpacked)
            int count = dis.readByte();
            if ((count & 0x80) != 0) {
              // Its an RLE packed block - use the following 1 pixel for the next <count> pixels
              count &= 0x07f;
              j += count;
              blue = dis.readByte();
              green = dis.readByte();
              red = dis.readByte();
              alpha = dis.readByte();
              while (count-- >= 0) {
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
                rawData[rawDataIndex++] = alpha;
              }
            } else {
              // Its not RLE packed, but the next <count> pixels are raw.
              j += count;
              while (count-- >= 0) {
                blue = dis.readByte();
                green = dis.readByte();
                red = dis.readByte();
                alpha = dis.readByte();
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
                rawData[rawDataIndex++] = alpha;
              }
            }
          }
        }
        format = Format.RGBA8;
      } else if (pixelDepth == 24) {
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }
          for (int j = 0; j < width; ++j) {
            // Get the number of pixels the next chunk covers (either packed or unpacked)
            int count = dis.readByte();
            if ((count & 0x80) != 0) {
              // Its an RLE packed block - use the following 1 pixel for the next <count> pixels
              count &= 0x07f;
              j += count;
              blue = dis.readByte();
              green = dis.readByte();
              red = dis.readByte();
              while (count-- >= 0) {
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
              }
            } else {
              // Its not RLE packed, but the next <count> pixels are raw.
              j += count;
              while (count-- >= 0) {
                blue = dis.readByte();
                green = dis.readByte();
                red = dis.readByte();
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
              }
            }
          }
        }
        format = Format.RGB8;
      } else if (pixelDepth == 16) {
        byte[] data = new byte[2];
        float scalar = 255f / 31f;
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }
          for (int j = 0; j < width; j++) {
            // Get the number of pixels the next chunk covers (either packed or unpacked)
            int count = dis.readByte();
            if ((count & 0x80) != 0) {
              // Its an RLE packed block - use the following 1 pixel for the next <count> pixels
              count &= 0x07f;
              j += count;
              data[1] = dis.readByte();
              data[0] = dis.readByte();
              blue = (byte) (int) (getBitsAsByte(data, 1, 5) * scalar);
              green = (byte) (int) (getBitsAsByte(data, 6, 5) * scalar);
              red = (byte) (int) (getBitsAsByte(data, 11, 5) * scalar);
              while (count-- >= 0) {
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
              }
            } else {
              // Its not RLE packed, but the next <count> pixels are raw.
              j += count;
              while (count-- >= 0) {
                data[1] = dis.readByte();
                data[0] = dis.readByte();
                blue = (byte) (int) (getBitsAsByte(data, 1, 5) * scalar);
                green = (byte) (int) (getBitsAsByte(data, 6, 5) * scalar);
                red = (byte) (int) (getBitsAsByte(data, 11, 5) * scalar);
                rawData[rawDataIndex++] = red;
                rawData[rawDataIndex++] = green;
                rawData[rawDataIndex++] = blue;
              }
            }
          }
        }
        format = Format.RGB8;
      } else {
        throw new IOException("Unsupported TGA true color depth: " + pixelDepth);
      }

    } else if (imageType == TYPE_COLORMAPPED) {
      int bytesPerIndex = pixelDepth / 8;

      if (bytesPerIndex == 1) {
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }
          for (int j = 0; j < width; j++) {
            int index = dis.readUnsignedByte();
            if (index >= cMapEntries.length || index < 0) {
              throw new IOException("TGA: Invalid color map entry referenced: " + index);
            }

            ColorMapEntry entry = cMapEntries[index];
            rawData[rawDataIndex++] = entry.blue;
            rawData[rawDataIndex++] = entry.green;
            rawData[rawDataIndex++] = entry.red;
            if (dl == 4) {
              rawData[rawDataIndex++] = entry.alpha;
            }
          }
        }
      } else if (bytesPerIndex == 2) {
        for (int i = 0; i <= (height - 1); i++) {
          if (!flip) {
            rawDataIndex = (height - 1 - i) * width * dl;
          }
          for (int j = 0; j < width; j++) {
            int index = flipEndian(dis.readShort());
            if (index >= cMapEntries.length || index < 0) {
              throw new IOException("TGA: Invalid color map entry referenced: " + index);
            }

            ColorMapEntry entry = cMapEntries[index];
            rawData[rawDataIndex++] = entry.blue;
            rawData[rawDataIndex++] = entry.green;
            rawData[rawDataIndex++] = entry.red;
            if (dl == 4) {
              rawData[rawDataIndex++] = entry.alpha;
            }
          }
        }
      } else {
        throw new IOException("TGA: unknown colormap indexing size used: " + bytesPerIndex);
      }

      format = dl == 4 ? Format.RGBA8 : Format.RGB8;
    } else {
      throw new IOException("Monochrome and RLE colormapped images are not supported");
    }

    in.close();
    // Get a pointer to the image memory
    ByteBuffer scratch = BufferUtils.createByteBuffer(rawData.length);
    scratch.clear();
    scratch.put(rawData);
    scratch.rewind();
    // Create the Image object
    Image textureImage = new Image();
    textureImage.setFormat(format);
    textureImage.setWidth(width);
    textureImage.setHeight(height);
    textureImage.setData(scratch);
    return textureImage;
  }
Exemplo n.º 26
0
  public ByteClass(String name, byte[] classData) {
    this.name = name;
    methods = new Vector<String[]>();
    properties = new Vector<String[]>();
    constructors = new Vector<String[]>();
    floatConstants = new Vector<Float>();
    longConstants = new Vector<Long>();
    methodIndices = new Vector<ReferenceIndex>();
    stringIndices = new Vector<ClassConstant<Integer>>();
    try {
      data = classData;
      stream = new DataInputStream(new ByteArrayInputStream(data));
      isValidClass = stream.readInt() == 0xCAFEBABE;
      if (isValidClass) {
        minorVersion = stream.readUnsignedShort();
        majorVersion = stream.readUnsignedShort();
        cpSize = stream.readUnsignedShort();
        cpSize--;
        constants = new ClassConstant<?>[cpSize];
        constantTypes = new int[cpSize];
        long offset = 10;
        for (int q = 0; q < cpSize; q++) {
          byte tag = stream.readByte();
          offset++;
          constantTypes[q] = tag;
          switch (tag) {
            case 1: // String
              int len = stream.readUnsignedShort();
              String strVal = "";
              for (int i = 0; i < len; i++) strVal += (char) stream.readByte();
              constants[q] = new ClassConstant<String>(tag, offset, strVal);
              offset += 2 + len;
              break;
            case 3: // Int
              constants[q] = new ClassConstant<Integer>(tag, offset, stream.readInt());
              offset += 4;
              break;
            case 4: // Float
              float cFloat = stream.readFloat();
              constants[q] = new ClassConstant<Float>(tag, offset, cFloat);
              floatConstants.add(cFloat);
              offset += 4;
              break;
            case 5: // Long
              long cLong = stream.readLong();
              constants[q] = new ClassConstant<Long>(tag, offset, cLong);
              longConstants.add(cLong);
              offset += 8;
              q++;
              break;
            case 6: // Double
              constants[q] = new ClassConstant<Double>(tag, offset, stream.readDouble());
              offset += 8;
              q++;
              break;
            case 7: // Class reference
              constants[q] = new ClassConstant<Integer>(tag, offset, stream.readUnsignedShort());
              offset += 2;
              break;
            case 8: // String reference
              ClassConstant<Integer> strRef =
                  new ClassConstant<Integer>(tag, offset, stream.readUnsignedShort());
              constants[q] = strRef;
              stringIndices.add(strRef);
              offset += 2;
              break;
            case 9: // Field reference
              constants[q] =
                  new ClassConstant<ReferenceIndex>(
                      tag,
                      offset,
                      new ReferenceIndex(stream.readUnsignedShort(), stream.readUnsignedShort()));
              offset += 4;
              break;
            case 10: // Method reference
              constants[q] =
                  new ClassConstant<ReferenceIndex>(
                      tag,
                      offset,
                      new ReferenceIndex(stream.readUnsignedShort(), stream.readUnsignedShort()));

              offset += 4;
              break;
            case 11: // Interface method reference
              constants[q] =
                  new ClassConstant<ReferenceIndex>(
                      tag,
                      offset,
                      new ReferenceIndex(stream.readUnsignedShort(), stream.readUnsignedShort()));
              offset += 4;
              break;
            case 12: // Name and type descriptor
              constants[q] =
                  new ClassConstant<ReferenceIndex>(
                      tag,
                      offset,
                      new ReferenceIndex(stream.readUnsignedShort(), stream.readUnsignedShort()));
              offset += 4;
              break;
          }
        }

        // Access Flags
        accessFlags = stream.readUnsignedShort();

        // This class
        stream.skip(2);

        // Super class
        stream.skip(2);

        // Interfaces
        int iCount = stream.readUnsignedShort();
        stream.skip(iCount * 2);

        // Fields
        int fCount = stream.readUnsignedShort();
        for (int i = 0; i < fCount; i++) {
          stream.skip(6);
          int attributeInfoCount = stream.readUnsignedShort();
          for (int q = 0; q < attributeInfoCount; q++) {
            stream.skip(2);
            int attributeCount = stream.readInt();
            for (int z = 0; z < attributeCount; z++) stream.skip(1);
          }
        }

        // Methods
        int mCount = stream.readUnsignedShort();
        for (int i = 0; i < mCount; i++) {
          stream.skip(2);
          methodIndices.add(
              new ReferenceIndex(stream.readUnsignedShort(), stream.readUnsignedShort()));
          int attributeInfoCount = stream.readUnsignedShort();
          for (int q = 0; q < attributeInfoCount; q++) {
            stream.skip(2);
            int attributeCount = stream.readInt();
            for (int z = 0; z < attributeCount; z++) stream.skip(1);
          }
        }

        // Attributes

        stream.close();
      }
    } catch (Exception e) {
      e.printStackTrace();
      System.exit(0);
    }
  }
 private static void skip(DataInputStream is, long bytes) throws IOException {
   while (bytes > 0) bytes -= is.skip(bytes);
   if (bytes != 0) throw new IOException("error in skipping bytes: " + bytes); // $NON-NLS-1$
 }
 /**
  * skips samples from the stream. if end of file is reached, it returns the amount that is
  * actually skipped.
  *
  * @param skipAmount amount of samples to skip
  * @return actual skipped sample count.
  * @throws IOException if there is a problem while skipping.
  */
 public int skipSamples(int skipAmount) throws IOException {
   long actualSkipped = dis.skip(skipAmount * format.getBytePerSample());
   return (int) actualSkipped / format.getBytePerSample();
 }
Exemplo n.º 29
0
 @Override
 protected long maybeSkip(long count) throws IOException {
   return inputStream.skip(count);
 }