/**
   * Reads a chunk and puts an Instrument property into the RepInfo object.
   *
   * @return <code>false</code> if the chunk is structurally invalid, otherwise <code>true</code>
   */
  public boolean readChunk(RepInfo info) throws IOException {
    AiffModule module = (AiffModule) _module;
    int baseNote = ModuleBase.readUnsignedByte(_dstream, module);
    int detune = ModuleBase.readSignedByte(_dstream, module);
    int lowNote = ModuleBase.readUnsignedByte(_dstream, module);
    int highNote = ModuleBase.readUnsignedByte(_dstream, module);
    int lowVelocity = ModuleBase.readUnsignedByte(_dstream, module);
    int highVelocity = ModuleBase.readUnsignedByte(_dstream, module);
    int gain = module.readSignedShort(_dstream);
    Loop sustainLoop = readLoop(module);
    Loop releaseLoop = readLoop(module);

    List propList = new ArrayList(9);
    propList.add(new Property("BaseNote", PropertyType.INTEGER, new Integer(baseNote)));
    propList.add(new Property("Detune", PropertyType.INTEGER, new Integer(detune)));
    propList.add(new Property("LowNote", PropertyType.INTEGER, new Integer(lowNote)));
    propList.add(new Property("HighNote", PropertyType.INTEGER, new Integer(highNote)));
    propList.add(new Property("LowVelocity", PropertyType.INTEGER, new Integer(lowVelocity)));
    propList.add(new Property("HighVelocity", PropertyType.INTEGER, new Integer(highVelocity)));
    propList.add(new Property("Gain", PropertyType.INTEGER, new Integer(gain)));
    propList.add(sustainLoop.loopProp("SustainLoop"));
    propList.add(releaseLoop.loopProp("ReleaseLoop"));
    module.addAiffProperty(
        new Property("Instrument", PropertyType.PROPERTY, PropertyArity.LIST, propList));
    return true;
  }
Esempio n. 2
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  /**
   * Reads an array of strings from the TIFF file.
   *
   * @param count Number of strings to read
   * @param value Offset from which to read
   */
  protected String[] readASCIIArray(long count, long value) throws IOException {
    _raf.seek(value);

    int nstrs = 0;
    List list = new LinkedList();
    byte[] buf = new byte[(int) count];
    _raf.read(buf);
    StringBuffer strbuf = new StringBuffer();
    for (int i = 0; i < count; i++) {
      int b = buf[i];
      if (b == 0) {
        list.add(strbuf.toString());
        strbuf.setLength(0);
      } else {
        strbuf.append((char) b);
      }
    }
    /* We can't use ArrayList.toArray because that returns an
    Object[], not a String[] ... sigh. */
    String[] strs = new String[nstrs];
    ListIterator iter = list.listIterator();
    for (int i = 0; i < nstrs; i++) {
      strs[i] = (String) iter.next();
    }
    return strs;
  }
Esempio n. 3
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  /**
   * Returns a Property representing a bitmask. If <code>rawOutput</code> is true, returns a LIST
   * property whose elements are STRING properties. The string values of these STRING properties are
   * the elements of <code>labels</code> whose indices correspond to 1 bits in the bitmask, counting
   * the low-order bit as bit 0. if <code>rawOutput</code> is false, returns a LONG property whose
   * numeric value is <code>value</code>.
   */
  protected Property addBitmaskProperty(
      String name, long value, String[] labels, boolean rawOutput) {
    Property prop = null;
    if (!rawOutput) {
      List list = new LinkedList();
      try {
        for (int i = 0; i < labels.length; i++) {
          if ((value & (1 << i)) != 0) {
            list.add(labels[i]);
          }
        }
      } catch (Exception e) {
        _errors.add(name + " value out of range: " + value);
      }
      prop = new Property(name, PropertyType.STRING, PropertyArity.LIST, list);
    }
    if (prop == null) {
      prop = new Property(name, PropertyType.LONG, new Long(value));
    }

    return prop;
  }
Esempio n. 4
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  /**
   * Returns an Property representing an integer value. If <code>rawOutput</code> is true, returns
   * an INTEGER property, and <code>labels</code> and <code>index</code> are unused. Otherwise,
   * returns a STRING property, with the string being the element of <code>labels</code> whose index
   * is <code>value</code>.
   */
  protected Property addIntegerProperty(
      String name, int value, String[] labels, boolean rawOutput) {
    Property prop = null;
    if (!rawOutput) {
      try {
        prop = new Property(name, PropertyType.STRING, labels[value]);
      } catch (Exception e) {
        _errors.add(name + " value out of range: " + value);
      }
    }
    if (prop == null) {
      prop = new Property(name, PropertyType.INTEGER, new Integer(value));
    }

    return prop;
  }
Esempio n. 5
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  /**
   * Returns an ARRAY Property representing an integer array. If <code>rawOutput</code> is true, the
   * elements of the property array are INTEGER properties, and <code>labels</code> is unused.
   * Otherwise, the elements of the array are STRING properties, with the elements of <code>value
   * </code> used as indices into <code>labels</code>.
   */
  protected Property addIntegerArrayProperty(
      String name, int[] value, String[] labels, boolean rawOutput) {
    Property prop = null;
    if (!rawOutput) {
      String[] s = new String[value.length];
      for (int i = 0; i < value.length; i++) {
        try {
          s[i] = labels[value[i]];
        } catch (Exception e) {
          _errors.add(name + " value out of range: " + value[i]);
        }
      }
      prop = new Property(name, PropertyType.STRING, PropertyArity.ARRAY, s);
    }
    if (prop == null) {
      prop = new Property(name, PropertyType.INTEGER, PropertyArity.ARRAY, value);
    }

    return prop;
  }
Esempio n. 6
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  /** Initializes the state of the module for parsing. */
  protected void initParse() {
    super.initParse();
    _propList = new LinkedList();
    _notes = new LinkedList();
    _labels = new LinkedList();
    _labeledText = new LinkedList();
    _samples = new LinkedList();
    firstSampleOffsetMarked = false;
    numSamples = 0;

    _metadata = new Property("WAVEMetadata", PropertyType.PROPERTY, PropertyArity.LIST, _propList);
    _aesMetadata = new AESAudioMetadata();
    _aesMetadata.setByteOrder(AESAudioMetadata.LITTLE_ENDIAN);
    _aesMetadata.setAnalogDigitalFlag("FILE_DIGITAL");
    _aesMetadata.setFormat("WAVE");
    _aesMetadata.setUse("OTHER", "JHOVE_validation");
    _aesMetadata.setDirection("NONE");

    _propList.add(new Property("AESAudioMetadata", PropertyType.AESAUDIOMETADATA, _aesMetadata));

    // Most chunk types are allowed to occur only once,
    // and a few must occur exactly once.
    // Clear flags for whether they have been seen.
    formatChunkSeen = false;
    dataChunkSeen = false;
    instrumentChunkSeen = false;
    cartChunkSeen = false;
    mpegChunkSeen = false;
    broadcastExtChunkSeen = false;
    peakChunkSeen = false;
    linkChunkSeen = false;
    cueChunkSeen = false;

    // Initialize profile flags
    flagPCMWaveFormat = false;
    flagWaveFormatEx = false;
    flagWaveFormatExtensible = false;
    flagBroadcastWave = false;
  }
Esempio n. 7
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  /**
   * Returns an Property representing an integer value. If <code>rawOutput</code> is true, returns
   * an INTEGER property, and <code>labels</code> and <code>index</code> are unused. Otherwise,
   * returns a STRING property, with the string being the element of <code>labels</code> whose index
   * is the index of <code>value</code> in <code>index</code>.
   */
  protected Property addIntegerProperty(
      String name, int value, String[] labels, int[] index, boolean rawOutput) {
    Property prop = null;
    if (!rawOutput) {
      int n = -1;
      for (int i = 0; i < index.length; i++) {
        if (value == index[i]) {
          n = i;
          break;
        }
      }
      if (n > -1) {
        prop = new Property(name, PropertyType.STRING, labels[n]);
      } else {
        _errors.add(name + " value out of range: " + value);
      }
    }
    if (prop == null) {
      prop = new Property(name, PropertyType.INTEGER, new Integer(value));
    }

    return prop;
  }
Esempio n. 8
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 /**
  * General function for adding a property with a 32-bit value, with two arrays of Strings to
  * interpret 0 and 1 values as a bitmask.
  *
  * @param val The bitmask
  * @param name The name for the Property
  * @param oneValueNames Array of names to use for '1' values
  * @param zeroValueNames Array of names to use for '0' values
  */
 public Property buildBitmaskProperty(
     int val, String name, String[] oneValueNames, String[] zeroValueNames) {
   if (_je != null && _je.getShowRawFlag()) {
     return new Property(name, PropertyType.INTEGER, new Integer(val));
   } else {
     List slist = new LinkedList();
     try {
       for (int i = 0; i < oneValueNames.length; i++) {
         String s = null;
         if ((val & (1 << i)) != 0) {
           s = oneValueNames[i];
         } else {
           s = zeroValueNames[i];
         }
         if (s != null && s.length() > 0) {
           slist.add(s);
         }
       }
     } catch (Exception e) {
       return null;
     }
     return new Property(name, PropertyType.STRING, PropertyArity.LIST, slist);
   }
 }
Esempio n. 9
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  /**
   * Reads a chunk and puts a BroadcastAudioExtension Property into the RepInfo object.
   *
   * @return <code>false</code> if the chunk is structurally invalid, otherwise <code>true</code>
   */
  public boolean readChunk(RepInfo info) throws IOException {
    WaveModule module = (WaveModule) _module;
    byte[] buf256 = new byte[256];
    ModuleBase.readByteBuf(_dstream, buf256, module);
    String description = byteBufString(buf256);
    byte[] buf32 = new byte[32];
    ModuleBase.readByteBuf(_dstream, buf32, module);
    String originator = byteBufString(buf32);
    ModuleBase.readByteBuf(_dstream, buf32, module);
    String originatorRef = byteBufString(buf32);
    byte[] buf10 = new byte[10];
    ModuleBase.readByteBuf(_dstream, buf10, module);
    String originationDate = byteBufString(buf10);
    byte[] buf8 = new byte[8];
    ModuleBase.readByteBuf(_dstream, buf8, module);
    String originationTime = byteBufString(buf8);
    // TimeReference is stored as a 64-bit little-endian
    // number -- I think
    long timeReference = module.readSignedLong(_dstream);
    int version = module.readUnsignedShort(_dstream);
    module.setBroadcastVersion(version);
    byte[] smtpe_umid = new byte[64];
    ModuleBase.readByteBuf(_dstream, smtpe_umid, module);
    module.skipBytes(_dstream, 190, module);
    String codingHistory = "";
    if (bytesLeft > 602) {
      byte[] bufCodingHistory = new byte[(int) bytesLeft - 602];
      ModuleBase.readByteBuf(_dstream, bufCodingHistory, module);
      codingHistory = byteBufString(bufCodingHistory);
    }

    // Whew -- we've read the whole thing.  Now make that into a
    // list of Properties.
    List plist = new ArrayList(20);
    if (description.length() > 0) {
      plist.add(new Property("Description", PropertyType.STRING, description));
    }
    if (originator.length() > 0) {
      plist.add(new Property("Originator", PropertyType.STRING, originator));
    }
    if (originationDate.length() > 0) {
      plist.add(new Property("OriginationDate", PropertyType.STRING, originationDate));
    }
    if (originationTime.length() > 0) {
      plist.add(new Property("OriginationTime", PropertyType.STRING, originationTime));
    }
    plist.add(new Property("TimeReference", PropertyType.LONG, new Long(timeReference)));
    plist.add(new Property("Version", PropertyType.INTEGER, new Integer(version)));
    plist.add(new Property("UMID", PropertyType.BYTE, PropertyArity.ARRAY, smtpe_umid));
    if (codingHistory.length() > 0) {
      plist.add(new Property("CodingHistory", PropertyType.STRING, codingHistory));
    }

    module.addWaveProperty(
        new Property("BroadcastAudioExtension", PropertyType.PROPERTY, PropertyArity.LIST, plist));

    // set time reference in AES metadata set @author David Ackerman
    AESAudioMetadata aes = module.getAESMetadata();
    aes.setStartTime(timeReference);

    return true;
  }
Esempio n. 10
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 /** Adds a Note string */
 public void addNote(Property p) {
   _notes.add(p);
 }
Esempio n. 11
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 /** Adds the ListInfo property, which is a List of String Properties. */
 public void addListInfo(List l) {
   _propList.add(new Property("ListInfo", PropertyType.PROPERTY, PropertyArity.LIST, l));
 }
Esempio n. 12
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 /** Adds a Sample property */
 public void addSample(Property p) {
   _samples.add(p);
 }
Esempio n. 13
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 /** Adds a LabeledText property */
 public void addLabeledText(Property p) {
   _labeledText.add(p);
 }
Esempio n. 14
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 /** Adds a Label property */
 public void addLabel(Property p) {
   _labels.add(p);
 }
Esempio n. 15
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 /** Adds a Property to the WAVE metadata. */
 public void addWaveProperty(Property prop) {
   _propList.add(prop);
 }
Esempio n. 16
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  /**
   * Parses the content of a purported WAVE digital object and stores the results in RepInfo.
   *
   * @param stream An InputStream, positioned at its beginning, which is generated from the object
   *     to be parsed
   * @param info A fresh RepInfo object which will be modified to reflect the results of the parsing
   * @param parseIndex Must be 0 in first call to <code>parse</code>. If <code>parse</code> returns
   *     a nonzero value, it must be called again with <code>parseIndex</code> equal to that return
   *     value.
   */
  public int parse(InputStream stream, RepInfo info, int parseIndex) throws IOException {
    initParse();
    info.setFormat(_format[0]);
    info.setMimeType(_mimeType[0]);
    info.setModule(this);

    _aesMetadata.setPrimaryIdentifier(info.getUri());
    if (info.getURLFlag()) {
      _aesMetadata.setOtherPrimaryIdentifierType("URI");
    } else {
      _aesMetadata.setPrimaryIdentifierType(AESAudioMetadata.FILE_NAME);
    }

    /* We may have already done the checksums while converting a
    temporary file. */
    _ckSummer = null;
    if (_je != null && _je.getChecksumFlag() && info.getChecksum().size() == 0) {
      _ckSummer = new Checksummer();
      _cstream = new ChecksumInputStream(stream, _ckSummer);
      _dstream = getBufferedDataStream(_cstream, _je != null ? _je.getBufferSize() : 0);
    } else {
      _dstream = getBufferedDataStream(stream, _je != null ? _je.getBufferSize() : 0);
    }

    try {
      // Check the start of the file for the right opening bytes
      for (int i = 0; i < 4; i++) {
        int ch = readUnsignedByte(_dstream, this);
        if (ch != sigByte[i]) {
          info.setMessage(new ErrorMessage("Document does not start with RIFF chunk", 0));
          info.setWellFormed(false);
          return 0;
        }
      }
      /* If we got this far, take note that the signature is OK. */
      info.setSigMatch(_name);

      // Get the length of the Form chunk.  This includes all
      // the subsequent chunks in the file, but excludes the
      // header ("FORM" and the length itself).
      bytesRemaining = readUnsignedInt(_dstream);

      // Read the file type.
      String typ = read4Chars(_dstream);
      bytesRemaining -= 4;
      if (!"WAVE".equals(typ)) {
        info.setMessage(new ErrorMessage("File type in RIFF header is not WAVE", _nByte));
        info.setWellFormed(false);
        return 0;
      }

      while (bytesRemaining > 0) {
        if (!readChunk(info)) {
          break;
        }
      }
    } catch (EOFException e) {
      info.setWellFormed(false);
      info.setMessage(new ErrorMessage("Unexpected end of file", _nByte));
      return 0;
    }

    // Set duration from number of samples and rate.
    if (numSamples > 0) {
      // _aesMetadata.setDuration((double) numSamples / sampleRate);
      _aesMetadata.setDuration(numSamples);
    }

    // Add note and label properties, if there's anything
    // to report.
    if (!_labels.isEmpty()) {
      _propList.add(new Property("Labels", PropertyType.PROPERTY, PropertyArity.LIST, _labels));
    }
    if (!_labeledText.isEmpty()) {
      _propList.add(
          new Property("LabeledText", PropertyType.PROPERTY, PropertyArity.LIST, _labeledText));
    }
    if (!_notes.isEmpty()) {
      _propList.add(new Property("Notes", PropertyType.PROPERTY, PropertyArity.LIST, _notes));
    }
    if (!_samples.isEmpty()) {
      _propList.add(new Property("Samples", PropertyType.PROPERTY, PropertyArity.LIST, _samples));
    }
    if (_exifInfo != null) {
      _propList.add(_exifInfo.buildProperty());
    }
    if (!formatChunkSeen) {
      info.setMessage(new ErrorMessage("No Format Chunk"));
      info.setWellFormed(false);
      return 0;
    }

    /* This file looks OK. */
    if (_ckSummer != null) {
      /* We may not have actually hit the end of file. If we're calculating
       * checksums on the fly, we have to read and discard whatever is
       * left, so it will get checksummed. */
      for (; ; ) {
        try {
          int n = skipBytes(_dstream, 2048, this);
          if (n == 0) {
            break;
          }
        } catch (Exception e) {
          break;
        }
      }
      info.setSize(_cstream.getNBytes());
      info.setChecksum(new Checksum(_ckSummer.getCRC32(), ChecksumType.CRC32));
      String value = _ckSummer.getMD5();
      if (value != null) {
        info.setChecksum(new Checksum(value, ChecksumType.MD5));
      }
      if ((value = _ckSummer.getSHA1()) != null) {
        info.setChecksum(new Checksum(value, ChecksumType.SHA1));
      }
    }

    info.setProperty(_metadata);

    // Indicate satisfied profiles.
    if (flagPCMWaveFormat) {
      info.setProfile("PCMWAVEFORMAT");
    }
    if (flagWaveFormatEx) {
      info.setProfile("WAVEFORMATEX");
    }
    if (flagWaveFormatExtensible) {
      info.setProfile("WAVEFORMATEXTENSIBLE");
    }
    if (flagBroadcastWave) {
      // Need to do some additional checks.
      if (!broadcastExtChunkSeen) {
        flagBroadcastWave = false;
      }
      if (compressionCode == FormatChunk.WAVE_FORMAT_MPEG) {
        if (!broadcastExtChunkSeen || !factChunkSeen) {
          flagBroadcastWave = false;
        }
      }
      if (flagBroadcastWave) {
        String prof = null;
        switch (broadcastVersion) {
          case 0:
            prof = "Broadcast Wave Version 0";
            break;

          case 1:
            prof = "Broadcast Wave Version 1";
            break;

            // Other versions are unknown at this time
        }
        if (prof != null) {
          info.setProfile(prof);
        }
      }
    }
    return 0;
  }