bool encode (tbnet::DataBuffer * output) { CREATE_HEADER; PUT_INT16_TO_BUFFER(output, version); PUT_INT32_TO_BUFFER(output, expire); PUT_DATAENTRY_TO_BUFFER(output, key); PUT_DATAVECTOR_TO_BUFFER(output, field_values); return true; }
bool encode(tbnet::DataBuffer *output) { if (values.size() > RESPONSE_VALUES_MAXSIZE) { log_warn("zrange values_size = %zu, larger than RESPONSE_VALUES_MAXSZIE", values.size()); return false; } PUT_INT32_TO_BUFFER(output, config_version); PUT_INT16_TO_BUFFER(output, version); PUT_INT32_TO_BUFFER(output, code); PUT_DATAVECTOR_TO_BUFFER(output, values); return true; }
bool encode(tbnet::DataBuffer * output) { CREATE_HEADER; PUT_INT32_TO_BUFFER(output, expire); int keys_values_map_size = (int)(keys_values_map.size()); PUT_INT32_TO_BUFFER(output, keys_values_map_size); map<data_entry*, vector<data_entry *>*>::iterator iter; for(iter = keys_values_map.begin(); iter != keys_values_map.end(); iter++) { data_entry* key = iter->first; vector<data_entry*>* values = iter->second; PUT_DATAENTRY_TO_BUFFER(output, *key); PUT_DATAVECTOR_TO_BUFFER(output, *values); } return true; }