Java Code Examples for com.google.zxing.common.BitArray#appendBitArray()

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  boolean hasEncodingHint = hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET);
  if (hasEncodingHint) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && (hasEncodingHint || !DEFAULT_BYTE_MODE_ENCODING.equals(encoding))) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  Version version;
  if (hints != null && hints.containsKey(EncodeHintType.QR_VERSION)) {
    int versionNumber = Integer.parseInt(hints.get(EncodeHintType.QR_VERSION).toString());
    version = Version.getVersionForNumber(versionNumber);
    int bitsNeeded = calculateBitsNeeded(mode, headerBits, dataBits, version);
    if (!willFit(bitsNeeded, version, ecLevel)) {
      throw new WriterException("Data too big for requested version");
    }
  } else {
    version = recommendVersion(ecLevel, mode, headerBits, dataBits);
  }

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  boolean hasEncodingHint = hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET);
  if (hasEncodingHint) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && (hasEncodingHint || !DEFAULT_BYTE_MODE_ENCODING.equals(encoding))) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  Version version;
  if (hints != null && hints.containsKey(EncodeHintType.QR_VERSION)) {
    int versionNumber = Integer.parseInt(hints.get(EncodeHintType.QR_VERSION).toString());
    version = Version.getVersionForNumber(versionNumber);
    int bitsNeeded = calculateBitsNeeded(mode, headerBits, dataBits, version);
    if (!willFit(bitsNeeded, version, ecLevel)) {
      throw new WriterException("Data too big for requested version");
    }
  } else {
    version = recommendVersion(ecLevel, mode, headerBits, dataBits);
  }

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  boolean hasEncodingHint = hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET);
  if (hasEncodingHint) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && (hasEncodingHint || !DEFAULT_BYTE_MODE_ENCODING.equals(encoding))) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  Version version;
  if (hints != null && hints.containsKey(EncodeHintType.QR_VERSION)) {
    int versionNumber = Integer.parseInt(hints.get(EncodeHintType.QR_VERSION).toString());
    version = Version.getVersionForNumber(versionNumber);
    int bitsNeeded = calculateBitsNeeded(mode, headerBits, dataBits, version);
    if (!willFit(bitsNeeded, version, ecLevel)) {
      throw new WriterException("Data too big for requested version");
    }
  } else {
    version = recommendVersion(ecLevel, mode, headerBits, dataBits);
  }

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = hints == null ? null : (String) hints.get(EncodeHintType.CHARACTER_SET);
  if (encoding == null) {
    encoding = DEFAULT_BYTE_MODE_ENCODING;
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  // Hard part: need to know version to know how many bits length takes. But need to know how many
  // bits it takes to know version. First we take a guess at version by assuming version will be
  // the minimum, 1:

  int provisionalBitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(Version.getVersionForNumber(1))
      + dataBits.getSize();
  Version provisionalVersion = chooseVersion(provisionalBitsNeeded, ecLevel);

  // Use that guess to calculate the right version. I am still not sure this works in 100% of cases.

  int bitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(provisionalVersion)
      + dataBits.getSize();
  Version version = chooseVersion(bitsNeeded, ecLevel);

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  if (hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET)) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  // Hard part: need to know version to know how many bits length takes. But need to know how many
  // bits it takes to know version. First we take a guess at version by assuming version will be
  // the minimum, 1:

  int provisionalBitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(Version.getVersionForNumber(1))
      + dataBits.getSize();
  Version provisionalVersion = chooseVersion(provisionalBitsNeeded, ecLevel);

  // Use that guess to calculate the right version. I am still not sure this works in 100% of cases.

  int bitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(provisionalVersion)
      + dataBits.getSize();
  Version version = chooseVersion(bitsNeeded, ecLevel);

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  if (hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET)) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  // Hard part: need to know version to know how many bits length takes. But need to know how many
  // bits it takes to know version. First we take a guess at version by assuming version will be
  // the minimum, 1:

  int provisionalBitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(Version.getVersionForNumber(1))
      + dataBits.getSize();
  Version provisionalVersion = chooseVersion(provisionalBitsNeeded, ecLevel);

  // Use that guess to calculate the right version. I am still not sure this works in 100% of cases.

  int bitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(provisionalVersion)
      + dataBits.getSize();
  Version version = chooseVersion(bitsNeeded, ecLevel);

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = DEFAULT_BYTE_MODE_ENCODING;
  if (hints != null && hints.containsKey(EncodeHintType.CHARACTER_SET)) {
    encoding = hints.get(EncodeHintType.CHARACTER_SET).toString();
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  Version version;
  if (hints != null && hints.containsKey(EncodeHintType.QR_VERSION)) {
    int versionNumber = Integer.parseInt(hints.get(EncodeHintType.QR_VERSION).toString());
    version = Version.getVersionForNumber(versionNumber);
    int bitsNeeded = calculateBitsNeeded(mode, headerBits, dataBits, version);
    if (!willFit(bitsNeeded, version, ecLevel)) {
      throw new WriterException("Data too big for requested version");
    }
  } else {
    version = recommendVersion(ecLevel, mode, headerBits, dataBits);
  }

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content,
                            ErrorCorrectionLevel ecLevel,
                            Map<EncodeHintType,?> hints) throws WriterException {

  // Determine what character encoding has been specified by the caller, if any
  String encoding = hints == null ? null : (String) hints.get(EncodeHintType.CHARACTER_SET);
  if (encoding == null) {
    encoding = DEFAULT_BYTE_MODE_ENCODING;
  }

  // Pick an encoding mode appropriate for the content. Note that this will not attempt to use
  // multiple modes / segments even if that were more efficient. Twould be nice.
  Mode mode = chooseMode(content, encoding);

  // This will store the header information, like mode and
  // length, as well as "header" segments like an ECI segment.
  BitArray headerBits = new BitArray();

  // Append ECI segment if applicable
  if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
    CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
    if (eci != null) {
      appendECI(eci, headerBits);
    }
  }

  // (With ECI in place,) Write the mode marker
  appendModeInfo(mode, headerBits);

  // Collect data within the main segment, separately, to count its size if needed. Don't add it to
  // main payload yet.
  BitArray dataBits = new BitArray();
  appendBytes(content, mode, dataBits, encoding);

  // Hard part: need to know version to know how many bits length takes. But need to know how many
  // bits it takes to know version. First we take a guess at version by assuming version will be
  // the minimum, 1:

  int provisionalBitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(Version.getVersionForNumber(1))
      + dataBits.getSize();
  Version provisionalVersion = chooseVersion(provisionalBitsNeeded, ecLevel);

  // Use that guess to calculate the right version. I am still not sure this works in 100% of cases.

  int bitsNeeded = headerBits.getSize()
      + mode.getCharacterCountBits(provisionalVersion)
      + dataBits.getSize();
  Version version = chooseVersion(bitsNeeded, ecLevel);

  BitArray headerAndDataBits = new BitArray();
  headerAndDataBits.appendBitArray(headerBits);
  // Find "length" of main segment and write it
  int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
  appendLengthInfo(numLetters, version, mode, headerAndDataBits);
  // Put data together into the overall payload
  headerAndDataBits.appendBitArray(dataBits);

  Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
  int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

  // Terminate the bits properly.
  terminateBits(numDataBytes, headerAndDataBits);

  // Interleave data bits with error correction code.
  BitArray finalBits = interleaveWithECBytes(headerAndDataBits,
                                             version.getTotalCodewords(),
                                             numDataBytes,
                                             ecBlocks.getNumBlocks());

  QRCode qrCode = new QRCode();

  qrCode.setECLevel(ecLevel);
  qrCode.setMode(mode);
  qrCode.setVersion(version);

  //  Choose the mask pattern and set to "qrCode".
  int dimension = version.getDimensionForVersion();
  ByteMatrix matrix = new ByteMatrix(dimension, dimension);
  int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
  qrCode.setMaskPattern(maskPattern);

  // Build the matrix and set it to "qrCode".
  MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
  qrCode.setMatrix(matrix);

  return qrCode;
}
 

public static QRCode encode(String content, ErrorCorrectionLevel ecLevel, Map<EncodeHintType, ?> hints)
		throws WriterException {

	// Determine what character encoding has been specified by the caller,
	// if any
	String encoding = hints == null ? null : (String) hints.get(EncodeHintType.CHARACTER_SET);
	if (encoding == null) {
		encoding = DEFAULT_BYTE_MODE_ENCODING;
	}

	// Pick an encoding mode appropriate for the content. Note that this
	// will not attempt to use
	// multiple modes / segments even if that were more efficient. Twould be
	// nice.
	Mode mode = chooseMode(content, encoding);

	// This will store the header information, like mode and
	// length, as well as "header" segments like an ECI segment.
	BitArray headerBits = new BitArray();

	// Append ECI segment if applicable
	if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
		CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
		if (eci != null) {
			appendECI(eci, headerBits);
		}
	}

	// (With ECI in place,) Write the mode marker
	appendModeInfo(mode, headerBits);

	// Collect data within the main segment, separately, to count its size
	// if needed. Don't add it to
	// main payload yet.
	BitArray dataBits = new BitArray();
	appendBytes(content, mode, dataBits, encoding);

	// Hard part: need to know version to know how many bits length takes.
	// But need to know how many
	// bits it takes to know version. First we take a guess at version by
	// assuming version will be
	// the minimum, 1:

	int provisionalBitsNeeded = headerBits.getSize() + mode.getCharacterCountBits(Version.getVersionForNumber(1))
			+ dataBits.getSize();
	Version provisionalVersion = chooseVersion(provisionalBitsNeeded, ecLevel);

	// Use that guess to calculate the right version. I am still not sure
	// this works in 100% of cases.

	int bitsNeeded = headerBits.getSize() + mode.getCharacterCountBits(provisionalVersion) + dataBits.getSize();
	Version version = chooseVersion(bitsNeeded, ecLevel);

	BitArray headerAndDataBits = new BitArray();
	headerAndDataBits.appendBitArray(headerBits);
	// Find "length" of main segment and write it
	int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
	appendLengthInfo(numLetters, version, mode, headerAndDataBits);
	// Put data together into the overall payload
	headerAndDataBits.appendBitArray(dataBits);

	Version.ECBlocks ecBlocks = version.getECBlocksForLevel(ecLevel);
	int numDataBytes = version.getTotalCodewords() - ecBlocks.getTotalECCodewords();

	// Terminate the bits properly.
	terminateBits(numDataBytes, headerAndDataBits);

	// Interleave data bits with error correction code.
	BitArray finalBits = interleaveWithECBytes(headerAndDataBits, version.getTotalCodewords(), numDataBytes,
			ecBlocks.getNumBlocks());

	QRCode qrCode = new QRCode();

	qrCode.setECLevel(ecLevel);
	qrCode.setMode(mode);
	qrCode.setVersion(version);

	// Choose the mask pattern and set to "qrCode".
	int dimension = version.getDimensionForVersion();
	ByteMatrix matrix = new ByteMatrix(dimension, dimension);
	int maskPattern = chooseMaskPattern(finalBits, ecLevel, version, matrix);
	qrCode.setMaskPattern(maskPattern);

	// Build the matrix and set it to "qrCode".
	MatrixUtil.buildMatrix(finalBits, ecLevel, version, maskPattern, matrix);
	qrCode.setMatrix(matrix);

	return qrCode;
}
 

public static void encode(String content, ErrorCorrectionLevel ecLevel, Map<EncodeHintType, ?> hints, QRCode qrCode) throws WriterException {

        String encoding = hints == null ? null : (String) hints.get(EncodeHintType.CHARACTER_SET);
        if (encoding == null) {
            encoding = DEFAULT_BYTE_MODE_ENCODING;
        }

        // Step 1: Choose the mode (encoding).
        Mode mode = chooseMode(content, encoding);

        // Step 2: Append "bytes" into "dataBits" in appropriate encoding.
        BitArray dataBits = new BitArray();
        appendBytes(content, mode, dataBits, encoding);
        // Step 3: Initialize QR code that can contain "dataBits".
        int numInputBits = dataBits.getSize();
        initQRCode(numInputBits, ecLevel, mode, qrCode);

        // Step 4: Build another bit vector that contains header and data.
        BitArray headerAndDataBits = new BitArray();

        // Step 4.5: Append ECI message if applicable
        if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
            CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
            if (eci != null) {
                appendECI(eci, headerAndDataBits);
            }
        }

        appendModeInfo(mode, headerAndDataBits);

        int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
        appendLengthInfo(numLetters, qrCode.getVersion(), mode, headerAndDataBits);
        headerAndDataBits.appendBitArray(dataBits);

        // Step 5: Terminate the bits properly.
        terminateBits(qrCode.getNumDataBytes(), headerAndDataBits);

        // Step 6: Interleave data bits with error correction code.
        BitArray finalBits = new BitArray();
        interleaveWithECBytes(headerAndDataBits, qrCode.getNumTotalBytes(), qrCode.getNumDataBytes(), qrCode.getNumRSBlocks(), finalBits);

        // Step 7: Choose the mask pattern and set to "qrCode".
        ByteMatrix matrix = new ByteMatrix(qrCode.getMatrixWidth(), qrCode.getMatrixWidth());
        qrCode.setMaskPattern(chooseMaskPattern(finalBits, ecLevel, qrCode.getVersion(), matrix));

        // Step 8. Build the matrix and set it to "qrCode".
        MatrixUtil.buildMatrix(finalBits, ecLevel, qrCode.getVersion(), qrCode.getMaskPattern(), matrix);
        qrCode.setMatrix(matrix);
        // Step 9. Make sure we have a valid QR Code.
        if (!qrCode.isValid()) {
            throw new WriterException("Invalid QR code: " + qrCode.toString());
        }
    }
 

public static void encode(String content, ErrorCorrectionLevel ecLevel, Map<EncodeHintType, ?> hints, QRCode qrCode) throws WriterException {

        String encoding = hints == null ? null : (String) hints.get(EncodeHintType.CHARACTER_SET);
        if (encoding == null) {
            encoding = DEFAULT_BYTE_MODE_ENCODING;
        }

        // Step 1: Choose the mode (encoding).
        Mode mode = chooseMode(content, encoding);

        // Step 2: Append "bytes" into "dataBits" in appropriate encoding.
        BitArray dataBits = new BitArray();
        appendBytes(content, mode, dataBits, encoding);
        // Step 3: Initialize QR code that can contain "dataBits".
        int numInputBits = dataBits.getSize();
        initQRCode(numInputBits, ecLevel, mode, qrCode);

        // Step 4: Build another bit vector that contains header and data.
        BitArray headerAndDataBits = new BitArray();

        // Step 4.5: Append ECI message if applicable
        if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.equals(encoding)) {
            CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
            if (eci != null) {
                appendECI(eci, headerAndDataBits);
            }
        }

        appendModeInfo(mode, headerAndDataBits);

        int numLetters = mode == Mode.BYTE ? dataBits.getSizeInBytes() : content.length();
        appendLengthInfo(numLetters, qrCode.getVersion(), mode, headerAndDataBits);
        headerAndDataBits.appendBitArray(dataBits);

        // Step 5: Terminate the bits properly.
        terminateBits(qrCode.getNumDataBytes(), headerAndDataBits);

        // Step 6: Interleave data bits with error correction code.
        BitArray finalBits = new BitArray();
        interleaveWithECBytes(headerAndDataBits, qrCode.getNumTotalBytes(), qrCode.getNumDataBytes(), qrCode.getNumRSBlocks(), finalBits);

        // Step 7: Choose the mask pattern and set to "qrCode".
        ByteMatrix matrix = new ByteMatrix(qrCode.getMatrixWidth(), qrCode.getMatrixWidth());
        qrCode.setMaskPattern(chooseMaskPattern(finalBits, ecLevel, qrCode.getVersion(), matrix));

        // Step 8. Build the matrix and set it to "qrCode".
        MatrixUtil.buildMatrix(finalBits, ecLevel, qrCode.getVersion(), qrCode.getMaskPattern(), matrix);
        qrCode.setMatrix(matrix);
        // Step 9. Make sure we have a valid QR Code.
        if (!qrCode.isValid()) {
            throw new WriterException("Invalid QR code: " + qrCode.toString());
        }
    }