public void serialize(LittleEndianOutput out) {
_range.serialize(out);
_guid.serialize(out);
out.writeInt(0x00000002); // TODO const
out.writeInt(_linkOpts);
if ((_linkOpts & HLINK_LABEL) != 0) {
out.writeInt(_label.length());
StringUtil.putUnicodeLE(_label, out);
}
if ((_linkOpts & HLINK_TARGET_FRAME) != 0) {
out.writeInt(_targetFrame.length());
StringUtil.putUnicodeLE(_targetFrame, out);
}
if ((_linkOpts & HLINK_URL) != 0 && (_linkOpts & HLINK_UNC_PATH) != 0) {
out.writeInt(_address.length());
StringUtil.putUnicodeLE(_address, out);
}
if ((_linkOpts & HLINK_URL) != 0 && (_linkOpts & HLINK_UNC_PATH) == 0) {
_moniker.serialize(out);
if (URL_MONIKER.equals(_moniker)) {
if (_uninterpretedTail == null) {
out.writeInt(_address.length() * 2);
StringUtil.putUnicodeLE(_address, out);
} else {
out.writeInt(_address.length() * 2 + TAIL_SIZE);
StringUtil.putUnicodeLE(_address, out);
writeTail(_uninterpretedTail, out);
}
} else if (FILE_MONIKER.equals(_moniker)) {
out.writeShort(_fileOpts);
out.writeInt(_shortFilename.length());
StringUtil.putCompressedUnicode(_shortFilename, out);
writeTail(_uninterpretedTail, out);
if (_address == null) {
out.writeInt(0);
} else {
int addrLen = _address.length() * 2;
out.writeInt(addrLen + 6);
out.writeInt(addrLen);
out.writeShort(0x0003); // TODO const
StringUtil.putUnicodeLE(_address, out);
}
}
}
if ((_linkOpts & HLINK_PLACE) != 0) {
out.writeInt(_textMark.length());
StringUtil.putUnicodeLE(_textMark, out);
}
}
public void write(LittleEndianOutput out) {
out.writeByte(sid + getPtgClass());
out.writeByte(_options);
out.writeShort(_data);
int[] jt = _jumpTable;
if (jt != null) {
for (int i = 0; i < jt.length; i++) {
out.writeShort(jt[i]);
}
out.writeShort(_chooseFuncOffset);
}
}
@Override
protected void serialize(LittleEndianOutput out) {
out.writeShort(_sxaxis);
out.writeShort(_cSub);
out.writeShort(_grbitSub);
out.writeShort(_cItm);
if (_name != null) {
StringUtil.writeUnicodeString(out, _name);
} else {
out.writeShort(STRING_NOT_PRESENT_LEN);
}
}
public void serialize(LittleEndianOutput out) {
out.writeShort(field_1_number_of_sheets);
if (isExternalReferences()) {
StringUtil.writeUnicodeString(out, field_2_encoded_url);
for (int i = 0; i < field_3_sheet_names.length; i++) {
StringUtil.writeUnicodeString(out, field_3_sheet_names[i]);
}
} else {
int field2val = _isAddInFunctions ? TAG_ADD_IN_FUNCTIONS : TAG_INTERNAL_REFERENCES;
out.writeShort(field2val);
}
}
public int writeTokenValueBytes(LittleEndianOutput out) {
out.writeByte(token_1_columns - 1);
out.writeShort(token_2_rows - 1);
ConstantValueParser.encode(out, token_3_arrayValues);
return 3 + ConstantValueParser.getEncodedSize(token_3_arrayValues);
}
public void serialize(LittleEndianOutput out) {
int nItems = _list.size();
out.writeShort(nItems);
for (int k = 0; k < nItems; k++) {
CellRangeAddress region = _list.get(k);
region.serialize(out);
}
}
public void serialize(LittleEndianOutput out) {
int nItems = _list.size();
out.writeShort(nItems);
for (int i = 0; i < nItems; i++) {
getRef(i).serialize(out);
}
}
@Override
protected void serializeValue(LittleEndianOutput out) {
if (specialCachedValue == null) {
out.writeDouble(field_4_value);
} else {
specialCachedValue.serialize(out);
}
out.writeShort(getOptions());
out.writeInt(
field_6_zero); // may as well write original data back so as to minimise differences from
// original
field_8_parsed_expr.serialize(out);
}
/**
* Writes The formula encoding is includes:
*
* <ul>
* <li>ushort tokenDataLen
* <li>tokenData
* <li>arrayConstantData (if present)
* </ul>
*/
public void serialize(LittleEndianOutput out) {
out.writeShort(_encodedTokenLen);
out.write(_byteEncoding);
}
public void serialize(LittleEndianOutput out) {
out.writeShort(getColWidth());
}
public void serialize(LittleEndianOutput out) {
out.writeShort(_character);
out.writeShort(_fontIndex);
}
public void serialize(LittleEndianOutput out) {
out.writeShort(getBackup());
}
public void serialize(LittleEndianOutput out) {
out.writeInt(_d1);
out.writeShort(_d2);
out.writeShort(_d3);
out.writeLong(_d4);
}
public void serialize(LittleEndianOutput out) {
out.write(_variableData);
out.writeShort(0xFFFF);
}
protected final void writeCoordinates(LittleEndianOutput out) {
out.writeShort(field_1_first_row);
out.writeShort(field_2_last_row);
out.writeShort(field_3_first_column);
out.writeShort(field_4_last_column);
}
public void serialize(LittleEndianOutput out) {
int formulaSize =
field_2_refPtg == null ? field_2_unknownFormulaData.length : field_2_refPtg.getSize();
int idOffset = getStreamIDOffset(formulaSize);
int dataSize = getDataSize(idOffset);
out.writeShort(sid);
out.writeShort(dataSize);
out.writeShort(idOffset);
out.writeShort(formulaSize);
out.writeInt(field_1_unknown_int);
int pos = 12;
if (field_2_refPtg == null) {
out.write(field_2_unknownFormulaData);
} else {
field_2_refPtg.write(out);
}
pos += formulaSize;
int stringLen;
if (field_4_ole_classname == null) {
// don't write 0x03, stringLen, flag, text
stringLen = 0;
} else {
out.writeByte(0x03);
pos += 1;
stringLen = field_4_ole_classname.length();
out.writeShort(stringLen);
pos += 2;
if (stringLen > 0) {
out.writeByte(field_3_unicode_flag ? 0x01 : 0x00);
pos += 1;
if (field_3_unicode_flag) {
StringUtil.putUnicodeLE(field_4_ole_classname, out);
pos += stringLen * 2;
} else {
StringUtil.putCompressedUnicode(field_4_ole_classname, out);
pos += stringLen;
}
}
}
// pad to next 2-byte boundary (requires 0 or 1 bytes)
switch (idOffset - (pos - 6)) { // 6 for 3 shorts: sid, dataSize, idOffset
case 1:
out.writeByte(field_4_unknownByte == null ? 0x00 : field_4_unknownByte.intValue());
pos++;
case 0:
break;
default:
throw new IllegalStateException("Bad padding calculation (" + idOffset + ", " + pos + ")");
}
if (field_5_stream_id != null) {
out.writeInt(field_5_stream_id.intValue());
pos += 4;
}
out.write(field_6_unknown);
}
public void serialize(LittleEndianOutput out) {
out.writeShort(_extBookIndex);
out.writeShort(_firstSheetIndex);
out.writeShort(_lastSheetIndex);
}
public void serialize(LittleEndianOutput out) {
out.writeShort(0);
}
public void serialize(LittleEndianOutput out) {
out.writeShort(sid);
out.writeShort(reserved.length);
out.write(reserved);
}
public void write(LittleEndianOutput out) {
out.writeByte(sid + getPtgClass());
out.writeInt(field_1_reserved);
out.writeShort(field_2_subex_len);
}
public void write(LittleEndianOutput out) {
out.writeByte(sid + getPtgClass());
out.writeShort(field_1_index_extern_sheet);
out.writeInt(unused1);
}