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); }
protected int getDataSize() { int formulaSize = field_2_refPtg == null ? field_2_unknownFormulaData.length : field_2_refPtg.getSize(); int idOffset = getStreamIDOffset(formulaSize); return getDataSize(idOffset); }