bool KeyValues::ReadAsBinary(CUtlBuffer &buffer) { if (buffer.IsText()) return false; if (!buffer.IsValid()) return false; RemoveEverything(); Init(); char token[KEYVALUES_TOKEN_SIZE]; KeyValues *dat = this; types_t type = (types_t)buffer.GetUnsignedChar(); while (true) { if (type == TYPE_NUMTYPES) break; dat->m_iDataType = type; buffer.GetString(token, KEYVALUES_TOKEN_SIZE - 1); token[KEYVALUES_TOKEN_SIZE - 1] = 0; dat->SetName(token); switch (type) { case TYPE_NONE: { dat->m_pSub = new KeyValues(""); dat->m_pSub->ReadAsBinary(buffer); break; } case TYPE_STRING: { buffer.GetString(token, KEYVALUES_TOKEN_SIZE - 1); token[KEYVALUES_TOKEN_SIZE - 1] = 0; int len = Q_strlen(token); dat->m_sValue = new char[len + 1]; Q_memcpy(dat->m_sValue, token, len + 1); break; } case TYPE_WSTRING: { Assert(!"TYPE_WSTRING"); break; } case TYPE_INT: { dat->m_iValue = buffer.GetInt(); break; } case TYPE_UINT64: { dat->m_sValue = new char[sizeof(uint64)]; *((double *)dat->m_sValue) = buffer.GetDouble(); } case TYPE_FLOAT: { dat->m_flValue = buffer.GetFloat(); break; } case TYPE_COLOR: { dat->m_Color[0] = buffer.GetUnsignedChar(); dat->m_Color[1] = buffer.GetUnsignedChar(); dat->m_Color[2] = buffer.GetUnsignedChar(); dat->m_Color[3] = buffer.GetUnsignedChar(); break; } case TYPE_PTR: { dat->m_pValue = (void *)buffer.GetUnsignedInt(); } default: { break; } } if (!buffer.IsValid()) return false; type = (types_t)buffer.GetUnsignedChar(); if (type == TYPE_NUMTYPES) break; dat->m_pPeer = new KeyValues(""); dat = dat->m_pPeer; } return buffer.IsValid(); }