// Copyright (c) 2017-2022, Mudita Sp. z.o.o. All rights reserved. // For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md #include "ContactsNameTable.hpp" #include "Common/Types.hpp" #include ContactsNameTable::ContactsNameTable(Database *db) : Table(db) {} ContactsNameTable::~ContactsNameTable() {} bool ContactsNameTable::create() { return true; } bool ContactsNameTable::add(ContactsNameTableRow entry) { return db->execute("insert or ignore into contact_name (contact_id, name_primary, name_alternative) " "VALUES (" u32_c str_c str_ ");", entry.contactID, entry.namePrimary.c_str(), entry.nameAlternative.c_str()); } bool ContactsNameTable::removeById(uint32_t id) { return db->execute("DELETE FROM contact_name where _id=" u32_ ";", id); } bool ContactsNameTable::update(ContactsNameTableRow entry) { return db->execute("UPDATE contact_name SET contact_id=" u32_c "name_primary=" str_c "name_alternative=" str_ "WHERE _id=" u32_ ";", entry.contactID, entry.namePrimary.c_str(), entry.nameAlternative.c_str(), entry.ID); } ContactsNameTableRow ContactsNameTable::getById(uint32_t id) { auto retQuery = db->query("SELECT * FROM contact_name WHERE _id=" u32_ ";", id); if ((retQuery == nullptr) || (retQuery->getRowCount() == 0)) { return ContactsNameTableRow(); } return ContactsNameTableRow{ {(*retQuery)[0].getUInt32()}, // ID (*retQuery)[1].getUInt32(), // contactID (*retQuery)[2].getString(), // namePrimary (*retQuery)[3].getString(), // nameAlternative }; } std::vector ContactsNameTable::getLimitOffset(uint32_t offset, uint32_t limit) { auto retQuery = db->query( "SELECT * from contact_name ORDER BY name_alternative ASC LIMIT " u32_ " OFFSET " u32_ ";", limit, offset); if ((retQuery == nullptr) || (retQuery->getRowCount() == 0)) { return std::vector(); } std::vector ret; do { ret.push_back(ContactsNameTableRow{ {(*retQuery)[0].getUInt32()}, // ID (*retQuery)[1].getUInt32(), // contactID (*retQuery)[2].getString(), // namePrimary (*retQuery)[3].getString(), // nameAlternative }); } while (retQuery->nextRow()); return ret; } std::vector ContactsNameTable::getLimitOffsetByField(uint32_t offset, uint32_t limit, ContactNameTableFields field, const char *str) { std::string fieldName; switch (field) { case ContactNameTableFields::NamePrimary: fieldName = "name_primary"; break; case ContactNameTableFields::NameAlternative: fieldName = "name_alternative"; break; default: return std::vector(); } auto retQuery = db->query("SELECT * from contact_name WHERE %q=" str_ " ORDER BY name_alternative LIMIT " u32_ " OFFSET " u32_ ";", fieldName.c_str(), str, limit, offset); if ((retQuery == nullptr) || (retQuery->getRowCount() == 0)) { return std::vector(); } std::vector ret; do { ret.push_back(ContactsNameTableRow{ {(*retQuery)[0].getUInt32()}, // ID (*retQuery)[1].getUInt32(), // contactID (*retQuery)[2].getString(), // namePrimary (*retQuery)[3].getString(), // nameAlternative }); } while (retQuery->nextRow()); return ret; } uint32_t ContactsNameTable::count() { auto queryRet = db->query("SELECT COUNT(*) FROM contact_name;"); if (!queryRet || queryRet->getRowCount() == 0) { return 0; } return uint32_t{(*queryRet)[0].getUInt32()}; } uint32_t ContactsNameTable::countByFieldId(const char *field, uint32_t id) { auto queryRet = db->query("SELECT COUNT(*) FROM contact_name WHERE %q=" u32_ ";", field, id); if ((queryRet == nullptr) || (queryRet->getRowCount() == 0)) { return 0; } return uint32_t{(*queryRet)[0].getUInt32()}; } std::vector ContactsNameTable::GetByName(const char *primaryName, const char *alternativeName) { auto retQuery = db->query("SELECT * from contact_name WHERE name_primary=" str_ " AND name_alternative=" str_ " ORDER BY " "name_alternative LIMIT 1;", primaryName, alternativeName); if ((retQuery == nullptr) || (retQuery->getRowCount() == 0)) { return std::vector(); } std::vector ret; do { ret.push_back(ContactsNameTableRow{ {(*retQuery)[0].getUInt32()}, // ID (*retQuery)[1].getUInt32(), // contactID (*retQuery)[2].getString(), // namePrimary (*retQuery)[3].getString(), // nameAlternative }); } while (retQuery->nextRow()); return ret; } std::size_t ContactsNameTable::GetCountByName(const std::string &name) { if (name.empty()) { return count(); } const auto names = utils::split(name, " "); const auto namePart1 = names[0]; const auto namePart2 = names.size() > 1 ? names[1] : ""; std::unique_ptr queryRet; if (!namePart1.empty() && !namePart2.empty()) { queryRet = db->query( "SELECT COUNT(*) FROM contact_name WHERE (name_primary like '%q%%' AND name_alternative like '%q%%') OR " "(name_primary like '%q%%' AND name_alternative like '%q%%');", namePart1.c_str(), namePart2.c_str(), namePart2.c_str(), namePart1.c_str()); } else { queryRet = db->query( "SELECT COUNT(*) FROM contact_name WHERE name_primary like '%q%%' OR name_alternative like '%q%%';", namePart1.c_str(), namePart1.c_str()); } if ((queryRet == nullptr) || (queryRet->getRowCount() == 0)) { return 0; } return uint32_t{(*queryRet)[0].getUInt32()}; }