/** * EQEmulator: Everquest Server Emulator * Copyright (C) 2001-2020 EQEmulator Development Team (https://github.com/EQEmu/Server) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY except by those people which sell it, which * are required to give you total support for your newly bought product; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR * A PARTICULAR PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * */ /** * This repository was automatically generated and is NOT to be modified directly. * Any repository modifications are meant to be made to * the repository extending the base. Any modifications to base repositories are to * be made by the generator only */ #ifndef EQEMU_BASE_PROXIMITIES_REPOSITORY_H #define EQEMU_BASE_PROXIMITIES_REPOSITORY_H #include "../../database.h" #include "../../string_util.h" class BaseProximitiesRepository { public: struct Proximities { int zoneid; int exploreid; float minx; float maxx; float miny; float maxy; float minz; float maxz; }; static std::string PrimaryKey() { return std::string("zoneid"); } static std::vector Columns() { return { "zoneid", "exploreid", "minx", "maxx", "miny", "maxy", "minz", "maxz", }; } static std::string ColumnsRaw() { return std::string(implode(", ", Columns())); } static std::string InsertColumnsRaw() { std::vector insert_columns; for (auto &column : Columns()) { if (column == PrimaryKey()) { continue; } insert_columns.push_back(column); } return std::string(implode(", ", insert_columns)); } static std::string TableName() { return std::string("proximities"); } static std::string BaseSelect() { return fmt::format( "SELECT {} FROM {}", ColumnsRaw(), TableName() ); } static std::string BaseInsert() { return fmt::format( "INSERT INTO {} ({}) ", TableName(), InsertColumnsRaw() ); } static Proximities NewEntity() { Proximities entry{}; entry.zoneid = 0; entry.exploreid = 0; entry.minx = 0.000000; entry.maxx = 0.000000; entry.miny = 0.000000; entry.maxy = 0.000000; entry.minz = 0.000000; entry.maxz = 0.000000; return entry; } static Proximities GetProximitiesEntry( const std::vector &proximitiess, int proximities_id ) { for (auto &proximities : proximitiess) { if (proximities.zoneid == proximities_id) { return proximities; } } return NewEntity(); } static Proximities FindOne( int proximities_id ) { auto results = content_db.QueryDatabase( fmt::format( "{} WHERE id = {} LIMIT 1", BaseSelect(), proximities_id ) ); auto row = results.begin(); if (results.RowCount() == 1) { Proximities entry{}; entry.zoneid = atoi(row[0]); entry.exploreid = atoi(row[1]); entry.minx = static_cast(atof(row[2])); entry.maxx = static_cast(atof(row[3])); entry.miny = static_cast(atof(row[4])); entry.maxy = static_cast(atof(row[5])); entry.minz = static_cast(atof(row[6])); entry.maxz = static_cast(atof(row[7])); return entry; } return NewEntity(); } static int DeleteOne( int proximities_id ) { auto results = content_db.QueryDatabase( fmt::format( "DELETE FROM {} WHERE {} = {}", TableName(), PrimaryKey(), proximities_id ) ); return (results.Success() ? results.RowsAffected() : 0); } static int UpdateOne( Proximities proximities_entry ) { std::vector update_values; auto columns = Columns(); update_values.push_back(columns[0] + " = " + std::to_string(proximities_entry.zoneid)); update_values.push_back(columns[1] + " = " + std::to_string(proximities_entry.exploreid)); update_values.push_back(columns[2] + " = " + std::to_string(proximities_entry.minx)); update_values.push_back(columns[3] + " = " + std::to_string(proximities_entry.maxx)); update_values.push_back(columns[4] + " = " + std::to_string(proximities_entry.miny)); update_values.push_back(columns[5] + " = " + std::to_string(proximities_entry.maxy)); update_values.push_back(columns[6] + " = " + std::to_string(proximities_entry.minz)); update_values.push_back(columns[7] + " = " + std::to_string(proximities_entry.maxz)); auto results = content_db.QueryDatabase( fmt::format( "UPDATE {} SET {} WHERE {} = {}", TableName(), implode(", ", update_values), PrimaryKey(), proximities_entry.zoneid ) ); return (results.Success() ? results.RowsAffected() : 0); } static Proximities InsertOne( Proximities proximities_entry ) { std::vector insert_values; insert_values.push_back(std::to_string(proximities_entry.zoneid)); insert_values.push_back(std::to_string(proximities_entry.exploreid)); insert_values.push_back(std::to_string(proximities_entry.minx)); insert_values.push_back(std::to_string(proximities_entry.maxx)); insert_values.push_back(std::to_string(proximities_entry.miny)); insert_values.push_back(std::to_string(proximities_entry.maxy)); insert_values.push_back(std::to_string(proximities_entry.minz)); insert_values.push_back(std::to_string(proximities_entry.maxz)); auto results = content_db.QueryDatabase( fmt::format( "{} VALUES ({})", BaseInsert(), implode(",", insert_values) ) ); if (results.Success()) { proximities_entry.zoneid = results.LastInsertedID(); return proximities_entry; } proximities_entry = NewEntity(); return proximities_entry; } static int InsertMany( std::vector proximities_entries ) { std::vector insert_chunks; for (auto &proximities_entry: proximities_entries) { std::vector insert_values; insert_values.push_back(std::to_string(proximities_entry.zoneid)); insert_values.push_back(std::to_string(proximities_entry.exploreid)); insert_values.push_back(std::to_string(proximities_entry.minx)); insert_values.push_back(std::to_string(proximities_entry.maxx)); insert_values.push_back(std::to_string(proximities_entry.miny)); insert_values.push_back(std::to_string(proximities_entry.maxy)); insert_values.push_back(std::to_string(proximities_entry.minz)); insert_values.push_back(std::to_string(proximities_entry.maxz)); insert_chunks.push_back("(" + implode(",", insert_values) + ")"); } std::vector insert_values; auto results = content_db.QueryDatabase( fmt::format( "{} VALUES {}", BaseInsert(), implode(",", insert_chunks) ) ); return (results.Success() ? results.RowsAffected() : 0); } static std::vector All() { std::vector all_entries; auto results = content_db.QueryDatabase( fmt::format( "{}", BaseSelect() ) ); all_entries.reserve(results.RowCount()); for (auto row = results.begin(); row != results.end(); ++row) { Proximities entry{}; entry.zoneid = atoi(row[0]); entry.exploreid = atoi(row[1]); entry.minx = static_cast(atof(row[2])); entry.maxx = static_cast(atof(row[3])); entry.miny = static_cast(atof(row[4])); entry.maxy = static_cast(atof(row[5])); entry.minz = static_cast(atof(row[6])); entry.maxz = static_cast(atof(row[7])); all_entries.push_back(entry); } return all_entries; } static std::vector GetWhere(std::string where_filter) { std::vector all_entries; auto results = content_db.QueryDatabase( fmt::format( "{} WHERE {}", BaseSelect(), where_filter ) ); all_entries.reserve(results.RowCount()); for (auto row = results.begin(); row != results.end(); ++row) { Proximities entry{}; entry.zoneid = atoi(row[0]); entry.exploreid = atoi(row[1]); entry.minx = static_cast(atof(row[2])); entry.maxx = static_cast(atof(row[3])); entry.miny = static_cast(atof(row[4])); entry.maxy = static_cast(atof(row[5])); entry.minz = static_cast(atof(row[6])); entry.maxz = static_cast(atof(row[7])); all_entries.push_back(entry); } return all_entries; } static int DeleteWhere(std::string where_filter) { auto results = content_db.QueryDatabase( fmt::format( "DELETE FROM {} WHERE {}", TableName(), where_filter ) ); return (results.Success() ? results.RowsAffected() : 0); } static int Truncate() { auto results = content_db.QueryDatabase( fmt::format( "TRUNCATE TABLE {}", TableName() ) ); return (results.Success() ? results.RowsAffected() : 0); } }; #endif //EQEMU_BASE_PROXIMITIES_REPOSITORY_H