package xorm import ( "database/sql" //"fmt" "reflect" "strconv" "strings" ) const ( PQSQL = "pqsql" MSSQL = "mssql" SQLITE = "sqlite3" MYSQL = "mysql" MYMYSQL = "mymysql" ) type Engine struct { Mapper IMapper TagIdentifier string DriverName string DataSourceName string Tables map[reflect.Type]Table AutoIncrement string ShowSQL bool InsertMany bool QuoteIdentifier string Statement Statement } func Type(bean interface{}) reflect.Type { sliceValue := reflect.Indirect(reflect.ValueOf(bean)) return reflect.TypeOf(sliceValue.Interface()) } func StructName(v reflect.Type) string { for v.Kind() == reflect.Ptr { v = v.Elem() } return v.Name() } func (e *Engine) OpenDB() (*sql.DB, error) { return sql.Open(e.DriverName, e.DataSourceName) } func (engine *Engine) MakeSession() (session Session, err error) { db, err := engine.OpenDB() if err != nil { return Session{}, err } session = Session{Engine: engine, Db: db} session.Init() return } func (engine *Engine) Where(querystring string, args ...interface{}) *Engine { engine.Statement.Where(querystring, args...) return engine } func (engine *Engine) Id(id int64) *Engine { engine.Statement.Id(id) return engine } func (engine *Engine) In(column string, args ...interface{}) *Engine { engine.Statement.In(column, args...) return engine } func (engine *Engine) Table(tableName string) *Engine { engine.Statement.Table(tableName) return engine } func (engine *Engine) Limit(limit int, start ...int) *Engine { engine.Statement.Limit(limit, start...) return engine } func (engine *Engine) OrderBy(order string) *Engine { engine.Statement.OrderBy(order) return engine } //The join_operator should be one of INNER, LEFT OUTER, CROSS etc - this will be prepended to JOIN func (engine *Engine) Join(join_operator, tablename, condition string) *Engine { engine.Statement.Join(join_operator, tablename, condition) return engine } func (engine *Engine) GroupBy(keys string) *Engine { engine.Statement.GroupBy(keys) return engine } func (engine *Engine) Having(conditions string) *Engine { engine.Statement.Having(conditions) return engine } func (engine *Engine) AutoMapType(t reflect.Type) *Table { table, ok := engine.Tables[t] if !ok { table = engine.MapType(t) engine.Tables[t] = table } return &table } func (engine *Engine) AutoMap(bean interface{}) *Table { t := Type(bean) return engine.AutoMapType(t) } func (engine *Engine) MapType(t reflect.Type) Table { table := Table{Name: engine.Mapper.Obj2Table(t.Name()), Type: t} table.Columns = make(map[string]Column) var pkCol *Column = nil var pkstr = "" for i := 0; i < t.NumField(); i++ { tag := t.Field(i).Tag ormTagStr := tag.Get(engine.TagIdentifier) var col Column fieldType := t.Field(i).Type if ormTagStr != "" { col = Column{FieldName: t.Field(i).Name, Nullable: true} ormTagStr = strings.ToLower(ormTagStr) tags := strings.Split(ormTagStr, " ") // TODO: if len(tags) > 0 { if tags[0] == "-" { continue } for j, key := range tags { k := strings.ToLower(key) switch { case k == "pk": col.IsPrimaryKey = true col.Nullable = false pkCol = &col case k == "null": col.Nullable = (tags[j-1] != "not") case k == "autoincr": col.IsAutoIncrement = true case k == "default": col.Default = tags[j+1] case k == "text": col.SQLType = Text case strings.HasPrefix(k, "int"): col.SQLType = Int lens := k[len("int")+1 : len(k)-1] col.Length, _ = strconv.Atoi(lens) case strings.HasPrefix(k, "varchar"): col.SQLType = Varchar lens := k[len("decimal")+1 : len(k)-1] col.Length, _ = strconv.Atoi(lens) case strings.HasPrefix(k, "decimal"): col.SQLType = Decimal lens := k[len("decimal")+1 : len(k)-1] twolen := strings.Split(lens, ",") col.Length, _ = strconv.Atoi(twolen[0]) col.Length2, _ = strconv.Atoi(twolen[1]) case k == "date": col.SQLType = Date case k == "not": default: if k != col.Default { col.Name = k } } } if col.SQLType.Name == "" { col.SQLType = Type2SQLType(fieldType) } if col.Length == 0 { col.Length = col.SQLType.DefaultLength } if col.Length2 == 0 { col.Length2 = col.SQLType.DefaultLength2 } if col.Name == "" { col.Name = engine.Mapper.Obj2Table(t.Field(i).Name) } } } if col.Name == "" { sqlType := Type2SQLType(fieldType) col = Column{engine.Mapper.Obj2Table(t.Field(i).Name), t.Field(i).Name, sqlType, sqlType.DefaultLength, sqlType.DefaultLength2, true, "", false, false, false} } table.Columns[col.Name] = col if strings.ToLower(t.Field(i).Name) == "id" { pkstr = col.Name } } if pkCol == nil { if pkstr != "" { col := table.Columns[pkstr] col.IsPrimaryKey = true col.IsAutoIncrement = true col.Nullable = false col.Length = Int.DefaultLength table.PrimaryKey = col.Name } } else { table.PrimaryKey = pkCol.Name } return table } func (engine *Engine) Map(beans ...interface{}) (e error) { for _, bean := range beans { t := Type(bean) if _, ok := engine.Tables[t]; !ok { engine.Tables[t] = engine.MapType(t) } } return } func (engine *Engine) UnMap(beans ...interface{}) (e error) { for _, bean := range beans { t := Type(bean) if _, ok := engine.Tables[t]; ok { delete(engine.Tables, t) } } return } func (e *Engine) DropAll() error { session, err := e.MakeSession() session.Begin() defer session.Close() if err != nil { return err } for _, table := range e.Tables { e.Statement.RefTable = &table sql := e.Statement.genDropSQL() _, err = session.Exec(sql) if err != nil { session.Rollback() return err } } return session.Commit() } func (e *Engine) CreateTables(beans ...interface{}) error { session, err := e.MakeSession() session.Begin() session.Statement = e.Statement defer session.Close() defer e.Statement.Init() if err != nil { return err } for _, bean := range beans { err = session.CreateTable(bean) if err != nil { session.Rollback() return err } } return session.Commit() } func (e *Engine) CreateAll() error { session, err := e.MakeSession() session.Begin() defer session.Close() if err != nil { return err } for _, table := range e.Tables { e.Statement.RefTable = &table sql := e.Statement.genCreateSQL() _, err = session.Exec(sql) if err != nil { session.Rollback() break } } session.Commit() return err } func (engine *Engine) Exec(sql string, args ...interface{}) (sql.Result, error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return nil, err } return session.Exec(sql, args...) } func (engine *Engine) Query(sql string, paramStr ...interface{}) (resultsSlice []map[string][]byte, err error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return nil, err } return session.Query(sql, paramStr...) } func (engine *Engine) Insert(beans ...interface{}) (int64, error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return -1, err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Insert(beans...) } func (engine *Engine) Update(bean interface{}, condiBeans ...interface{}) (int64, error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return -1, err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Update(bean, condiBeans...) } func (engine *Engine) Delete(bean interface{}) (int64, error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return -1, err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Delete(bean) } func (engine *Engine) Get(bean interface{}) error { session, err := engine.MakeSession() defer session.Close() if err != nil { return err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Get(bean) } func (engine *Engine) Find(beans interface{}, condiBeans ...interface{}) error { session, err := engine.MakeSession() defer session.Close() if err != nil { return err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Find(beans, condiBeans...) } func (engine *Engine) Count(bean interface{}) (int64, error) { session, err := engine.MakeSession() defer session.Close() if err != nil { return 0, err } defer engine.Statement.Init() session.Statement = engine.Statement return session.Count(bean) }