void OutputBinaryTree::addString(const std::string& v) { if(v.size() > 0xFFFF) stdext::throw_exception("too long string"); addU16(v.length()); write((const uint8*)v.c_str(), v.length()); }
void OutputMessage::addString(const std::string &str) { uint16_t len = str.length(); addU16(len); m_buffer.grow(m_buffer.size() + len); memcpy((char *)&m_buffer[m_pos], str.c_str(), len); m_pos += len; }
void OutputMessage::addString(const char* value) { size_t stringLength = strlen(value); if(stringLength > 65535) throw NetworkException("[OutputMessage::addString] string length > 65535"); checkWrite(stringLength + 2); addU16(stringLength); strcpy((char*)(m_buffer + m_writePos), value); m_writePos += stringLength; m_messageSize += stringLength; }
void OutputMessage::addString(const std::string& buffer) { int len = buffer.length(); if(len > MAX_STRING_LENGTH) g_lua.throwError(stdext::format("string length > %d", MAX_STRING_LENGTH)); checkWrite(len + 2); addU16(len); memcpy((char*)(m_buffer + m_writePos), buffer.c_str(), len); m_writePos += len; m_messageSize += len; }
void FileStream::addString(const std::string& v) { addU16(v.length()); write(v.c_str(), v.length()); }
void LLSDMessageBuilder::copyFromMessageData(const LLMsgData& data) { // copy the blocks // counting variables used to encode multiple block info S32 block_count = 0; char* block_name = NULL; // loop through msg blocks to loop through variables, totalling up size // data and filling the new (send) message LLMsgData::msg_blk_data_map_t::const_iterator iter = data.mMemberBlocks.begin(); LLMsgData::msg_blk_data_map_t::const_iterator end = data.mMemberBlocks.end(); for(; iter != end; ++iter) { const LLMsgBlkData* mbci = iter->second; if(!mbci) continue; // do we need to encode a block code? if (block_count == 0) { block_count = mbci->mBlockNumber; block_name = (char*)mbci->mName; } // counting down mutliple blocks block_count--; nextBlock(block_name); // now loop through the variables LLMsgBlkData::msg_var_data_map_t::const_iterator dit = mbci->mMemberVarData.begin(); LLMsgBlkData::msg_var_data_map_t::const_iterator dend = mbci->mMemberVarData.end(); for(; dit != dend; ++dit) { const LLMsgVarData& mvci = *dit; const char* varname = mvci.getName(); switch(mvci.getType()) { case MVT_FIXED: addBinaryData(varname, mvci.getData(), mvci.getSize()); break; case MVT_VARIABLE: { const char end = ((const char*)mvci.getData())[mvci.getSize()-1]; // Ensure null terminated if (mvci.getDataSize() == 1 && end == 0) { addString(varname, (const char*)mvci.getData()); } else { addBinaryData(varname, mvci.getData(), mvci.getSize()); } break; } case MVT_U8: addU8(varname, *(U8*)mvci.getData()); break; case MVT_U16: addU16(varname, *(U16*)mvci.getData()); break; case MVT_U32: addU32(varname, *(U32*)mvci.getData()); break; case MVT_U64: addU64(varname, *(U64*)mvci.getData()); break; case MVT_S8: addS8(varname, *(S8*)mvci.getData()); break; case MVT_S16: addS16(varname, *(S16*)mvci.getData()); break; case MVT_S32: addS32(varname, *(S32*)mvci.getData()); break; // S64 not supported in LLSD so we just truncate it case MVT_S64: addS32(varname, *(S64*)mvci.getData()); break; case MVT_F32: addF32(varname, *(F32*)mvci.getData()); break; case MVT_F64: addF64(varname, *(F64*)mvci.getData()); break; case MVT_LLVector3: addVector3(varname, *(LLVector3*)mvci.getData()); break; case MVT_LLVector3d: addVector3d(varname, *(LLVector3d*)mvci.getData()); break; case MVT_LLVector4: addVector4(varname, *(LLVector4*)mvci.getData()); break; case MVT_LLQuaternion: { LLVector3 v = *(LLVector3*)mvci.getData(); LLQuaternion q; q.unpackFromVector3(v); addQuat(varname, q); break; } case MVT_LLUUID: addUUID(varname, *(LLUUID*)mvci.getData()); break; case MVT_BOOL: addBOOL(varname, *(BOOL*)mvci.getData()); break; case MVT_IP_ADDR: addIPAddr(varname, *(U32*)mvci.getData()); break; case MVT_IP_PORT: addIPPort(varname, *(U16*)mvci.getData()); break; case MVT_U16Vec3: //treated as an array of 6 bytes addBinaryData(varname, mvci.getData(), 6); break; case MVT_U16Quat: //treated as an array of 8 bytes addBinaryData(varname, mvci.getData(), 8); break; case MVT_S16Array: addBinaryData(varname, mvci.getData(), mvci.getSize()); break; default: llwarns << "Unknown type in conversion of message to LLSD" << llendl; break; } } } }
void OutputBinaryTree::addPos(uint16 x, uint16 y, uint8 z) { addU16(x); addU16(y); addU8(z); }
//! Constructor //! \param data QOscarBA::QOscarBA(quint16 data) { addU16(data); }