package gorm import ( "bytes" "database/sql" "database/sql/driver" "errors" "fmt" "reflect" "regexp" "strings" "time" ) // Scope contain current operation's information when you perform any operation on the database type Scope struct { Search *search Value interface{} SQL string SQLVars []interface{} db *DB instanceID string primaryKeyField *Field skipLeft bool fields *[]*Field selectAttrs *[]string } // IndirectValue return scope's reflect value's indirect value func (scope *Scope) IndirectValue() reflect.Value { return indirect(reflect.ValueOf(scope.Value)) } // New create a new Scope without search information func (scope *Scope) New(value interface{}) *Scope { return &Scope{db: scope.NewDB(), Search: &search{}, Value: value} } //////////////////////////////////////////////////////////////////////////////// // Scope DB //////////////////////////////////////////////////////////////////////////////// // DB return scope's DB connection func (scope *Scope) DB() *DB { return scope.db } // NewDB create a new DB without search information func (scope *Scope) NewDB() *DB { if scope.db != nil { db := scope.db.clone() db.search = nil db.Value = nil return db } return nil } // SQLDB return *sql.DB func (scope *Scope) SQLDB() SQLCommon { return scope.db.db } // Dialect get dialect func (scope *Scope) Dialect() Dialect { return scope.db.dialect } // Quote used to quote string to escape them for database func (scope *Scope) Quote(str string) string { if strings.Contains(str, ".") { newStrs := []string{} for _, str := range strings.Split(str, ".") { newStrs = append(newStrs, scope.Dialect().Quote(str)) } return strings.Join(newStrs, ".") } return scope.Dialect().Quote(str) } // Err add error to Scope func (scope *Scope) Err(err error) error { if err != nil { scope.db.AddError(err) } return err } // HasError check if there are any error func (scope *Scope) HasError() bool { return scope.db.Error != nil } // Log print log message func (scope *Scope) Log(v ...interface{}) { scope.db.log(v...) } // SkipLeft skip remaining callbacks func (scope *Scope) SkipLeft() { scope.skipLeft = true } // Fields get value's fields func (scope *Scope) Fields() []*Field { if scope.fields == nil { var ( fields []*Field indirectScopeValue = scope.IndirectValue() isStruct = indirectScopeValue.Kind() == reflect.Struct ) for _, structField := range scope.GetModelStruct().StructFields { if isStruct { fieldValue := indirectScopeValue for _, name := range structField.Names { if fieldValue.Kind() == reflect.Ptr && fieldValue.IsNil() { fieldValue.Set(reflect.New(fieldValue.Type().Elem())) } fieldValue = reflect.Indirect(fieldValue).FieldByName(name) } fields = append(fields, &Field{StructField: structField, Field: fieldValue, IsBlank: isBlank(fieldValue)}) } else { fields = append(fields, &Field{StructField: structField, IsBlank: true}) } } scope.fields = &fields } return *scope.fields } // FieldByName find `gorm.Field` with field name or db name func (scope *Scope) FieldByName(name string) (field *Field, ok bool) { var ( dbName = ToColumnName(name) mostMatchedField *Field ) for _, field := range scope.Fields() { if field.Name == name || field.DBName == name { return field, true } if field.DBName == dbName { mostMatchedField = field } } return mostMatchedField, mostMatchedField != nil } // PrimaryFields return scope's primary fields func (scope *Scope) PrimaryFields() (fields []*Field) { for _, field := range scope.Fields() { if field.IsPrimaryKey { fields = append(fields, field) } } return fields } // PrimaryField return scope's main primary field, if defined more that one primary fields, will return the one having column name `id` or the first one func (scope *Scope) PrimaryField() *Field { if primaryFields := scope.GetModelStruct().PrimaryFields; len(primaryFields) > 0 { if len(primaryFields) > 1 { if field, ok := scope.FieldByName("id"); ok { return field } } return scope.PrimaryFields()[0] } return nil } // PrimaryKey get main primary field's db name func (scope *Scope) PrimaryKey() string { if field := scope.PrimaryField(); field != nil { return field.DBName } return "" } // PrimaryKeyZero check main primary field's value is blank or not func (scope *Scope) PrimaryKeyZero() bool { field := scope.PrimaryField() return field == nil || field.IsBlank } // PrimaryKeyValue get the primary key's value func (scope *Scope) PrimaryKeyValue() interface{} { if field := scope.PrimaryField(); field != nil && field.Field.IsValid() { return field.Field.Interface() } return 0 } // HasColumn to check if has column func (scope *Scope) HasColumn(column string) bool { for _, field := range scope.GetStructFields() { if field.IsNormal && (field.Name == column || field.DBName == column) { return true } } return false } // SetColumn to set the column's value, column could be field or field's name/dbname func (scope *Scope) SetColumn(column interface{}, value interface{}) error { var updateAttrs = map[string]interface{}{} if attrs, ok := scope.InstanceGet("gorm:update_attrs"); ok { updateAttrs = attrs.(map[string]interface{}) defer scope.InstanceSet("gorm:update_attrs", updateAttrs) } if field, ok := column.(*Field); ok { updateAttrs[field.DBName] = value return field.Set(value) } else if name, ok := column.(string); ok { var ( dbName = ToDBName(name) mostMatchedField *Field ) for _, field := range scope.Fields() { if field.DBName == value { updateAttrs[field.DBName] = value return field.Set(value) } if !field.IsIgnored && ((field.DBName == dbName) || (field.Name == name && mostMatchedField == nil)) { mostMatchedField = field } } if mostMatchedField != nil { updateAttrs[mostMatchedField.DBName] = value return mostMatchedField.Set(value) } } return errors.New("could not convert column to field") } // CallMethod call scope value's method, if it is a slice, will call its element's method one by one func (scope *Scope) CallMethod(methodName string) { if scope.Value == nil { return } if indirectScopeValue := scope.IndirectValue(); indirectScopeValue.Kind() == reflect.Slice { for i := 0; i < indirectScopeValue.Len(); i++ { scope.callMethod(methodName, indirectScopeValue.Index(i)) } } else { scope.callMethod(methodName, indirectScopeValue) } } // AddToVars add value as sql's vars, used to prevent SQL injection func (scope *Scope) AddToVars(value interface{}) string { _, skipBindVar := scope.InstanceGet("skip_bindvar") if expr, ok := value.(*SqlExpr); ok { exp := expr.expr for _, arg := range expr.args { if skipBindVar { scope.AddToVars(arg) } else { exp = strings.Replace(exp, "?", scope.AddToVars(arg), 1) } } return exp } scope.SQLVars = append(scope.SQLVars, value) if skipBindVar { return "?" } return scope.Dialect().BindVar(len(scope.SQLVars)) } // SelectAttrs return selected attributes func (scope *Scope) SelectAttrs() []string { if scope.selectAttrs == nil { attrs := []string{} for _, value := range scope.Search.selects { if str, ok := value.(string); ok { attrs = append(attrs, str) } else if strs, ok := value.([]string); ok { attrs = append(attrs, strs...) } else if strs, ok := value.([]interface{}); ok { for _, str := range strs { attrs = append(attrs, fmt.Sprintf("%v", str)) } } } scope.selectAttrs = &attrs } return *scope.selectAttrs } // OmitAttrs return omitted attributes func (scope *Scope) OmitAttrs() []string { return scope.Search.omits } type tabler interface { TableName() string } type dbTabler interface { TableName(*DB) string } // TableName return table name func (scope *Scope) TableName() string { if scope.Search != nil && len(scope.Search.tableName) > 0 { return scope.Search.tableName } if tabler, ok := scope.Value.(tabler); ok { return tabler.TableName() } if tabler, ok := scope.Value.(dbTabler); ok { return tabler.TableName(scope.db) } return scope.GetModelStruct().TableName(scope.db.Model(scope.Value)) } // QuotedTableName return quoted table name func (scope *Scope) QuotedTableName() (name string) { if scope.Search != nil && len(scope.Search.tableName) > 0 { if strings.Contains(scope.Search.tableName, " ") { return scope.Search.tableName } return scope.Quote(scope.Search.tableName) } return scope.Quote(scope.TableName()) } // CombinedConditionSql return combined condition sql func (scope *Scope) CombinedConditionSql() string { joinSQL := scope.joinsSQL() whereSQL := scope.whereSQL() if scope.Search.raw { whereSQL = strings.TrimSuffix(strings.TrimPrefix(whereSQL, "WHERE ("), ")") } return joinSQL + whereSQL + scope.groupSQL() + scope.havingSQL() + scope.orderSQL() + scope.limitAndOffsetSQL() } // Raw set raw sql func (scope *Scope) Raw(sql string) *Scope { scope.SQL = strings.Replace(sql, "$$$", "?", -1) return scope } // Exec perform generated SQL func (scope *Scope) Exec() *Scope { defer scope.trace(NowFunc()) if !scope.HasError() { if result, err := scope.SQLDB().Exec(scope.SQL, scope.SQLVars...); scope.Err(err) == nil { if count, err := result.RowsAffected(); scope.Err(err) == nil { scope.db.RowsAffected = count } } } return scope } // Set set value by name func (scope *Scope) Set(name string, value interface{}) *Scope { scope.db.InstantSet(name, value) return scope } // Get get setting by name func (scope *Scope) Get(name string) (interface{}, bool) { return scope.db.Get(name) } // InstanceID get InstanceID for scope func (scope *Scope) InstanceID() string { if scope.instanceID == "" { scope.instanceID = fmt.Sprintf("%v%v", &scope, &scope.db) } return scope.instanceID } // InstanceSet set instance setting for current operation, but not for operations in callbacks, like saving associations callback func (scope *Scope) InstanceSet(name string, value interface{}) *Scope { return scope.Set(name+scope.InstanceID(), value) } // InstanceGet get instance setting from current operation func (scope *Scope) InstanceGet(name string) (interface{}, bool) { return scope.Get(name + scope.InstanceID()) } // Begin start a transaction func (scope *Scope) Begin() *Scope { if db, ok := scope.SQLDB().(sqlDb); ok { if tx, err := db.Begin(); scope.Err(err) == nil { scope.db.db = interface{}(tx).(SQLCommon) scope.InstanceSet("gorm:started_transaction", true) } } return scope } // CommitOrRollback commit current transaction if no error happened, otherwise will rollback it func (scope *Scope) CommitOrRollback() *Scope { if _, ok := scope.InstanceGet("gorm:started_transaction"); ok { if db, ok := scope.db.db.(sqlTx); ok { if scope.HasError() { db.Rollback() } else { scope.Err(db.Commit()) } scope.db.db = scope.db.parent.db } } return scope } //////////////////////////////////////////////////////////////////////////////// // Private Methods For *gorm.Scope //////////////////////////////////////////////////////////////////////////////// func (scope *Scope) callMethod(methodName string, reflectValue reflect.Value) { // Only get address from non-pointer if reflectValue.CanAddr() && reflectValue.Kind() != reflect.Ptr { reflectValue = reflectValue.Addr() } if methodValue := reflectValue.MethodByName(methodName); methodValue.IsValid() { switch method := methodValue.Interface().(type) { case func(): method() case func(*Scope): method(scope) case func(*DB): newDB := scope.NewDB() method(newDB) scope.Err(newDB.Error) case func() error: scope.Err(method()) case func(*Scope) error: scope.Err(method(scope)) case func(*DB) error: newDB := scope.NewDB() scope.Err(method(newDB)) scope.Err(newDB.Error) default: scope.Err(fmt.Errorf("unsupported function %v", methodName)) } } } var ( columnRegexp = regexp.MustCompile("^[a-zA-Z\\d]+(\\.[a-zA-Z\\d]+)*$") // only match string like `name`, `users.name` isNumberRegexp = regexp.MustCompile("^\\s*\\d+\\s*$") // match if string is number comparisonRegexp = regexp.MustCompile("(?i) (=|<>|(>|<)(=?)|LIKE|IS|IN) ") countingQueryRegexp = regexp.MustCompile("(?i)^count(.+)$") ) func (scope *Scope) quoteIfPossible(str string) string { if columnRegexp.MatchString(str) { return scope.Quote(str) } return str } func (scope *Scope) scan(rows *sql.Rows, columns []string, fields []*Field) { var ( ignored interface{} values = make([]interface{}, len(columns)) selectFields []*Field selectedColumnsMap = map[string]int{} resetFields = map[int]*Field{} ) for index, column := range columns { values[index] = &ignored selectFields = fields offset := 0 if idx, ok := selectedColumnsMap[column]; ok { offset = idx + 1 selectFields = selectFields[offset:] } for fieldIndex, field := range selectFields { if field.DBName == column { if field.Field.Kind() == reflect.Ptr { values[index] = field.Field.Addr().Interface() } else { reflectValue := reflect.New(reflect.PtrTo(field.Struct.Type)) reflectValue.Elem().Set(field.Field.Addr()) values[index] = reflectValue.Interface() resetFields[index] = field } selectedColumnsMap[column] = offset + fieldIndex if field.IsNormal { break } } } } scope.Err(rows.Scan(values...)) for index, field := range resetFields { if v := reflect.ValueOf(values[index]).Elem().Elem(); v.IsValid() { field.Field.Set(v) } } } func (scope *Scope) primaryCondition(value interface{}) string { return fmt.Sprintf("(%v.%v = %v)", scope.QuotedTableName(), scope.Quote(scope.PrimaryKey()), value) } func (scope *Scope) buildCondition(clause map[string]interface{}, include bool) (str string) { var ( quotedTableName = scope.QuotedTableName() quotedPrimaryKey = scope.Quote(scope.PrimaryKey()) equalSQL = "=" inSQL = "IN" ) // If building not conditions if !include { equalSQL = "<>" inSQL = "NOT IN" } switch value := clause["query"].(type) { case sql.NullInt64: return fmt.Sprintf("(%v.%v %s %v)", quotedTableName, quotedPrimaryKey, equalSQL, value.Int64) case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64: return fmt.Sprintf("(%v.%v %s %v)", quotedTableName, quotedPrimaryKey, equalSQL, value) case []int, []int8, []int16, []int32, []int64, []uint, []uint8, []uint16, []uint32, []uint64, []string, []interface{}: if !include && reflect.ValueOf(value).Len() == 0 { return } str = fmt.Sprintf("(%v.%v %s (?))", quotedTableName, quotedPrimaryKey, inSQL) clause["args"] = []interface{}{value} case string: if isNumberRegexp.MatchString(value) { return fmt.Sprintf("(%v.%v %s %v)", quotedTableName, quotedPrimaryKey, equalSQL, scope.AddToVars(value)) } if value != "" { if !include { if comparisonRegexp.MatchString(value) { str = fmt.Sprintf("NOT (%v)", value) } else { str = fmt.Sprintf("(%v.%v NOT IN (?))", quotedTableName, scope.Quote(value)) } } else { str = fmt.Sprintf("(%v)", value) } } case map[string]interface{}: var sqls []string for key, value := range value { if value != nil { sqls = append(sqls, fmt.Sprintf("(%v.%v %s %v)", quotedTableName, scope.Quote(key), equalSQL, scope.AddToVars(value))) } else { if !include { sqls = append(sqls, fmt.Sprintf("(%v.%v IS NOT NULL)", quotedTableName, scope.Quote(key))) } else { sqls = append(sqls, fmt.Sprintf("(%v.%v IS NULL)", quotedTableName, scope.Quote(key))) } } } return strings.Join(sqls, " AND ") case interface{}: var sqls []string newScope := scope.New(value) if len(newScope.Fields()) == 0 { scope.Err(fmt.Errorf("invalid query condition: %v", value)) return } scopeQuotedTableName := newScope.QuotedTableName() for _, field := range newScope.Fields() { if !field.IsIgnored && !field.IsBlank && field.Relationship == nil { sqls = append(sqls, fmt.Sprintf("(%v.%v %s %v)", scopeQuotedTableName, scope.Quote(field.DBName), equalSQL, scope.AddToVars(field.Field.Interface()))) } } return strings.Join(sqls, " AND ") default: scope.Err(fmt.Errorf("invalid query condition: %v", value)) return } replacements := []string{} args := clause["args"].([]interface{}) for _, arg := range args { var err error switch reflect.ValueOf(arg).Kind() { case reflect.Slice: // For where("id in (?)", []int64{1,2}) if scanner, ok := interface{}(arg).(driver.Valuer); ok { arg, err = scanner.Value() replacements = append(replacements, scope.AddToVars(arg)) } else if b, ok := arg.([]byte); ok { replacements = append(replacements, scope.AddToVars(b)) } else if as, ok := arg.([][]interface{}); ok { var tempMarks []string for _, a := range as { var arrayMarks []string for _, v := range a { arrayMarks = append(arrayMarks, scope.AddToVars(v)) } if len(arrayMarks) > 0 { tempMarks = append(tempMarks, fmt.Sprintf("(%v)", strings.Join(arrayMarks, ","))) } } if len(tempMarks) > 0 { replacements = append(replacements, strings.Join(tempMarks, ",")) } } else if values := reflect.ValueOf(arg); values.Len() > 0 { var tempMarks []string for i := 0; i < values.Len(); i++ { tempMarks = append(tempMarks, scope.AddToVars(values.Index(i).Interface())) } replacements = append(replacements, strings.Join(tempMarks, ",")) } else { replacements = append(replacements, scope.AddToVars(Expr("NULL"))) } default: if valuer, ok := interface{}(arg).(driver.Valuer); ok { arg, err = valuer.Value() } replacements = append(replacements, scope.AddToVars(arg)) } if err != nil { scope.Err(err) } } buff := bytes.NewBuffer([]byte{}) i := 0 for _, s := range str { if s == '?' && len(replacements) > i { buff.WriteString(replacements[i]) i++ } else { buff.WriteRune(s) } } str = buff.String() return } func (scope *Scope) buildSelectQuery(clause map[string]interface{}) (str string) { switch value := clause["query"].(type) { case string: str = value case []string: str = strings.Join(value, ", ") } args := clause["args"].([]interface{}) replacements := []string{} for _, arg := range args { switch reflect.ValueOf(arg).Kind() { case reflect.Slice: values := reflect.ValueOf(arg) var tempMarks []string for i := 0; i < values.Len(); i++ { tempMarks = append(tempMarks, scope.AddToVars(values.Index(i).Interface())) } replacements = append(replacements, strings.Join(tempMarks, ",")) default: if valuer, ok := interface{}(arg).(driver.Valuer); ok { arg, _ = valuer.Value() } replacements = append(replacements, scope.AddToVars(arg)) } } buff := bytes.NewBuffer([]byte{}) i := 0 for pos, char := range str { if str[pos] == '?' { buff.WriteString(replacements[i]) i++ } else { buff.WriteRune(char) } } str = buff.String() return } func (scope *Scope) whereSQL() (sql string) { var ( quotedTableName = scope.QuotedTableName() deletedAtField, hasDeletedAtField = scope.FieldByName("DeletedAt") primaryConditions, andConditions, orConditions []string ) if !scope.Search.Unscoped && hasDeletedAtField { sql := fmt.Sprintf("%v.%v IS NULL", quotedTableName, scope.Quote(deletedAtField.DBName)) primaryConditions = append(primaryConditions, sql) } if !scope.PrimaryKeyZero() { for _, field := range scope.PrimaryFields() { sql := fmt.Sprintf("%v.%v = %v", quotedTableName, scope.Quote(field.DBName), scope.AddToVars(field.Field.Interface())) primaryConditions = append(primaryConditions, sql) } } for _, clause := range scope.Search.whereConditions { if sql := scope.buildCondition(clause, true); sql != "" { andConditions = append(andConditions, sql) } } for _, clause := range scope.Search.orConditions { if sql := scope.buildCondition(clause, true); sql != "" { orConditions = append(orConditions, sql) } } for _, clause := range scope.Search.notConditions { if sql := scope.buildCondition(clause, false); sql != "" { andConditions = append(andConditions, sql) } } orSQL := strings.Join(orConditions, " OR ") combinedSQL := strings.Join(andConditions, " AND ") if len(combinedSQL) > 0 { if len(orSQL) > 0 { combinedSQL = combinedSQL + " OR " + orSQL } } else { combinedSQL = orSQL } if len(primaryConditions) > 0 { sql = "WHERE " + strings.Join(primaryConditions, " AND ") if len(combinedSQL) > 0 { sql = sql + " AND (" + combinedSQL + ")" } } else if len(combinedSQL) > 0 { sql = "WHERE " + combinedSQL } return } func (scope *Scope) selectSQL() string { if len(scope.Search.selects) == 0 { if len(scope.Search.joinConditions) > 0 { return fmt.Sprintf("%v.*", scope.QuotedTableName()) } return "*" } return scope.buildSelectQuery(scope.Search.selects) } func (scope *Scope) orderSQL() string { if len(scope.Search.orders) == 0 || scope.Search.ignoreOrderQuery { return "" } var orders []string for _, order := range scope.Search.orders { if str, ok := order.(string); ok { orders = append(orders, scope.quoteIfPossible(str)) } else if expr, ok := order.(*SqlExpr); ok { exp := expr.expr for _, arg := range expr.args { exp = strings.Replace(exp, "?", scope.AddToVars(arg), 1) } orders = append(orders, exp) } } return " ORDER BY " + strings.Join(orders, ",") } func (scope *Scope) limitAndOffsetSQL() string { sql, err := scope.Dialect().LimitAndOffsetSQL(scope.Search.limit, scope.Search.offset) scope.Err(err) return sql } func (scope *Scope) groupSQL() string { if len(scope.Search.group) == 0 { return "" } return " GROUP BY " + scope.Search.group } func (scope *Scope) havingSQL() string { if len(scope.Search.havingConditions) == 0 { return "" } var andConditions []string for _, clause := range scope.Search.havingConditions { if sql := scope.buildCondition(clause, true); sql != "" { andConditions = append(andConditions, sql) } } combinedSQL := strings.Join(andConditions, " AND ") if len(combinedSQL) == 0 { return "" } return " HAVING " + combinedSQL } func (scope *Scope) joinsSQL() string { var joinConditions []string for _, clause := range scope.Search.joinConditions { if sql := scope.buildCondition(clause, true); sql != "" { joinConditions = append(joinConditions, strings.TrimSuffix(strings.TrimPrefix(sql, "("), ")")) } } return strings.Join(joinConditions, " ") + " " } func (scope *Scope) prepareQuerySQL() { if scope.Search.raw { scope.Raw(scope.CombinedConditionSql()) } else { scope.Raw(fmt.Sprintf("SELECT %v FROM %v %v", scope.selectSQL(), scope.QuotedTableName(), scope.CombinedConditionSql())) } return } func (scope *Scope) inlineCondition(values ...interface{}) *Scope { if len(values) > 0 { scope.Search.Where(values[0], values[1:]...) } return scope } func (scope *Scope) callCallbacks(funcs []*func(s *Scope)) *Scope { defer func() { if err := recover(); err != nil { if db, ok := scope.db.db.(sqlTx); ok { db.Rollback() } panic(err) } }() for _, f := range funcs { (*f)(scope) if scope.skipLeft { break } } return scope } func convertInterfaceToMap(values interface{}, withIgnoredField bool, db *DB) map[string]interface{} { var attrs = map[string]interface{}{} switch value := values.(type) { case map[string]interface{}: return value case []interface{}: for _, v := range value { for key, value := range convertInterfaceToMap(v, withIgnoredField, db) { attrs[key] = value } } case interface{}: reflectValue := reflect.ValueOf(values) switch reflectValue.Kind() { case reflect.Map: for _, key := range reflectValue.MapKeys() { attrs[ToColumnName(key.Interface().(string))] = reflectValue.MapIndex(key).Interface() } default: for _, field := range (&Scope{Value: values, db: db}).Fields() { if !field.IsBlank && (withIgnoredField || !field.IsIgnored) { attrs[field.DBName] = field.Field.Interface() } } } } return attrs } func (scope *Scope) updatedAttrsWithValues(value interface{}) (results map[string]interface{}, hasUpdate bool) { if scope.IndirectValue().Kind() != reflect.Struct { return convertInterfaceToMap(value, false, scope.db), true } results = map[string]interface{}{} for key, value := range convertInterfaceToMap(value, true, scope.db) { if field, ok := scope.FieldByName(key); ok { if scope.changeableField(field) { if _, ok := value.(*SqlExpr); ok { hasUpdate = true results[field.DBName] = value } else { err := field.Set(value) if field.IsNormal && !field.IsIgnored { hasUpdate = true if err == ErrUnaddressable { results[field.DBName] = value } else { results[field.DBName] = field.Field.Interface() } } } } } else { results[key] = value } } return } func (scope *Scope) row() *sql.Row { defer scope.trace(NowFunc()) result := &RowQueryResult{} scope.InstanceSet("row_query_result", result) scope.callCallbacks(scope.db.parent.callbacks.rowQueries) return result.Row } func (scope *Scope) rows() (*sql.Rows, error) { defer scope.trace(NowFunc()) result := &RowsQueryResult{} scope.InstanceSet("row_query_result", result) scope.callCallbacks(scope.db.parent.callbacks.rowQueries) return result.Rows, result.Error } func (scope *Scope) initialize() *Scope { for _, clause := range scope.Search.whereConditions { scope.updatedAttrsWithValues(clause["query"]) } scope.updatedAttrsWithValues(scope.Search.initAttrs) scope.updatedAttrsWithValues(scope.Search.assignAttrs) return scope } func (scope *Scope) isQueryForColumn(query interface{}, column string) bool { queryStr := strings.ToLower(fmt.Sprint(query)) if queryStr == column { return true } if strings.HasSuffix(queryStr, "as "+column) { return true } if strings.HasSuffix(queryStr, "as "+scope.Quote(column)) { return true } return false } func (scope *Scope) pluck(column string, value interface{}) *Scope { dest := reflect.Indirect(reflect.ValueOf(value)) if dest.Kind() != reflect.Slice { scope.Err(fmt.Errorf("results should be a slice, not %s", dest.Kind())) return scope } if dest.Len() > 0 { dest.Set(reflect.Zero(dest.Type())) } if query, ok := scope.Search.selects["query"]; !ok || !scope.isQueryForColumn(query, column) { scope.Search.Select(column) } rows, err := scope.rows() if scope.Err(err) == nil { defer rows.Close() for rows.Next() { elem := reflect.New(dest.Type().Elem()).Interface() scope.Err(rows.Scan(elem)) dest.Set(reflect.Append(dest, reflect.ValueOf(elem).Elem())) } if err := rows.Err(); err != nil { scope.Err(err) } } return scope } func (scope *Scope) count(value interface{}) *Scope { if query, ok := scope.Search.selects["query"]; !ok || !countingQueryRegexp.MatchString(fmt.Sprint(query)) { if len(scope.Search.group) != 0 { if len(scope.Search.havingConditions) != 0 { scope.prepareQuerySQL() scope.Search = &search{} scope.Search.Select("count(*)") scope.Search.Table(fmt.Sprintf("( %s ) AS count_table", scope.SQL)) } else { scope.Search.Select("count(*) FROM ( SELECT count(*) as name ") scope.Search.group += " ) AS count_table" } } else { scope.Search.Select("count(*)") } } scope.Search.ignoreOrderQuery = true scope.Err(scope.row().Scan(value)) return scope } func (scope *Scope) typeName() string { typ := scope.IndirectValue().Type() for typ.Kind() == reflect.Slice || typ.Kind() == reflect.Ptr { typ = typ.Elem() } return typ.Name() } // trace print sql log func (scope *Scope) trace(t time.Time) { if len(scope.SQL) > 0 { scope.db.slog(scope.SQL, t, scope.SQLVars...) } } func (scope *Scope) changeableField(field *Field) bool { if selectAttrs := scope.SelectAttrs(); len(selectAttrs) > 0 { for _, attr := range selectAttrs { if field.Name == attr || field.DBName == attr { return true } } return false } for _, attr := range scope.OmitAttrs() { if field.Name == attr || field.DBName == attr { return false } } return true } func (scope *Scope) related(value interface{}, foreignKeys ...string) *Scope { toScope := scope.db.NewScope(value) tx := scope.db.Set("gorm:association:source", scope.Value) for _, foreignKey := range append(foreignKeys, toScope.typeName()+"Id", scope.typeName()+"Id") { fromField, _ := scope.FieldByName(foreignKey) toField, _ := toScope.FieldByName(foreignKey) if fromField != nil { if relationship := fromField.Relationship; relationship != nil { if relationship.Kind == "many_to_many" { joinTableHandler := relationship.JoinTableHandler scope.Err(joinTableHandler.JoinWith(joinTableHandler, tx, scope.Value).Find(value).Error) } else if relationship.Kind == "belongs_to" { for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(foreignKey); ok { tx = tx.Where(fmt.Sprintf("%v = ?", scope.Quote(relationship.AssociationForeignDBNames[idx])), field.Field.Interface()) } } scope.Err(tx.Find(value).Error) } else if relationship.Kind == "has_many" || relationship.Kind == "has_one" { for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.AssociationForeignDBNames[idx]); ok { tx = tx.Where(fmt.Sprintf("%v = ?", scope.Quote(foreignKey)), field.Field.Interface()) } } if relationship.PolymorphicType != "" { tx = tx.Where(fmt.Sprintf("%v = ?", scope.Quote(relationship.PolymorphicDBName)), relationship.PolymorphicValue) } scope.Err(tx.Find(value).Error) } } else { sql := fmt.Sprintf("%v = ?", scope.Quote(toScope.PrimaryKey())) scope.Err(tx.Where(sql, fromField.Field.Interface()).Find(value).Error) } return scope } else if toField != nil { sql := fmt.Sprintf("%v = ?", scope.Quote(toField.DBName)) scope.Err(tx.Where(sql, scope.PrimaryKeyValue()).Find(value).Error) return scope } } scope.Err(fmt.Errorf("invalid association %v", foreignKeys)) return scope } // getTableOptions return the table options string or an empty string if the table options does not exist func (scope *Scope) getTableOptions() string { tableOptions, ok := scope.Get("gorm:table_options") if !ok { return "" } return " " + tableOptions.(string) } func (scope *Scope) createJoinTable(field *StructField) { if relationship := field.Relationship; relationship != nil && relationship.JoinTableHandler != nil { joinTableHandler := relationship.JoinTableHandler joinTable := joinTableHandler.Table(scope.db) if !scope.Dialect().HasTable(joinTable) { toScope := &Scope{Value: reflect.New(field.Struct.Type).Interface()} var sqlTypes, primaryKeys []string for idx, fieldName := range relationship.ForeignFieldNames { if field, ok := scope.FieldByName(fieldName); ok { foreignKeyStruct := field.clone() foreignKeyStruct.IsPrimaryKey = false foreignKeyStruct.TagSettingsSet("IS_JOINTABLE_FOREIGNKEY", "true") foreignKeyStruct.TagSettingsDelete("AUTO_INCREMENT") sqlTypes = append(sqlTypes, scope.Quote(relationship.ForeignDBNames[idx])+" "+scope.Dialect().DataTypeOf(foreignKeyStruct)) primaryKeys = append(primaryKeys, scope.Quote(relationship.ForeignDBNames[idx])) } } for idx, fieldName := range relationship.AssociationForeignFieldNames { if field, ok := toScope.FieldByName(fieldName); ok { foreignKeyStruct := field.clone() foreignKeyStruct.IsPrimaryKey = false foreignKeyStruct.TagSettingsSet("IS_JOINTABLE_FOREIGNKEY", "true") foreignKeyStruct.TagSettingsDelete("AUTO_INCREMENT") sqlTypes = append(sqlTypes, scope.Quote(relationship.AssociationForeignDBNames[idx])+" "+scope.Dialect().DataTypeOf(foreignKeyStruct)) primaryKeys = append(primaryKeys, scope.Quote(relationship.AssociationForeignDBNames[idx])) } } scope.Err(scope.NewDB().Exec(fmt.Sprintf("CREATE TABLE %v (%v, PRIMARY KEY (%v))%s", scope.Quote(joinTable), strings.Join(sqlTypes, ","), strings.Join(primaryKeys, ","), scope.getTableOptions())).Error) } scope.NewDB().Table(joinTable).AutoMigrate(joinTableHandler) } } func (scope *Scope) createTable() *Scope { var tags []string var primaryKeys []string var primaryKeyInColumnType = false for _, field := range scope.GetModelStruct().StructFields { if field.IsNormal { sqlTag := scope.Dialect().DataTypeOf(field) // Check if the primary key constraint was specified as // part of the column type. If so, we can only support // one column as the primary key. if strings.Contains(strings.ToLower(sqlTag), "primary key") { primaryKeyInColumnType = true } tags = append(tags, scope.Quote(field.DBName)+" "+sqlTag) } if field.IsPrimaryKey { primaryKeys = append(primaryKeys, scope.Quote(field.DBName)) } scope.createJoinTable(field) } var primaryKeyStr string if len(primaryKeys) > 0 && !primaryKeyInColumnType { primaryKeyStr = fmt.Sprintf(", PRIMARY KEY (%v)", strings.Join(primaryKeys, ",")) } scope.Raw(fmt.Sprintf("CREATE TABLE %v (%v %v)%s", scope.QuotedTableName(), strings.Join(tags, ","), primaryKeyStr, scope.getTableOptions())).Exec() scope.autoIndex() return scope } func (scope *Scope) dropTable() *Scope { scope.Raw(fmt.Sprintf("DROP TABLE %v", scope.QuotedTableName())).Exec() return scope } func (scope *Scope) modifyColumn(column string, typ string) { scope.db.AddError(scope.Dialect().ModifyColumn(scope.QuotedTableName(), scope.Quote(column), typ)) } func (scope *Scope) dropColumn(column string) { scope.Raw(fmt.Sprintf("ALTER TABLE %v DROP COLUMN %v", scope.QuotedTableName(), scope.Quote(column))).Exec() } func (scope *Scope) addIndex(unique bool, indexName string, column ...string) { if scope.Dialect().HasIndex(scope.TableName(), indexName) { return } var columns []string for _, name := range column { columns = append(columns, scope.quoteIfPossible(name)) } sqlCreate := "CREATE INDEX" if unique { sqlCreate = "CREATE UNIQUE INDEX" } scope.Raw(fmt.Sprintf("%s %v ON %v(%v) %v", sqlCreate, indexName, scope.QuotedTableName(), strings.Join(columns, ", "), scope.whereSQL())).Exec() } func (scope *Scope) addForeignKey(field string, dest string, onDelete string, onUpdate string) { // Compatible with old generated key keyName := scope.Dialect().BuildKeyName(scope.TableName(), field, dest, "foreign") if scope.Dialect().HasForeignKey(scope.TableName(), keyName) { return } var query = `ALTER TABLE %s ADD CONSTRAINT %s FOREIGN KEY (%s) REFERENCES %s ON DELETE %s ON UPDATE %s;` scope.Raw(fmt.Sprintf(query, scope.QuotedTableName(), scope.quoteIfPossible(keyName), scope.quoteIfPossible(field), dest, onDelete, onUpdate)).Exec() } func (scope *Scope) removeForeignKey(field string, dest string) { keyName := scope.Dialect().BuildKeyName(scope.TableName(), field, dest, "foreign") if !scope.Dialect().HasForeignKey(scope.TableName(), keyName) { return } var mysql mysql var query string if scope.Dialect().GetName() == mysql.GetName() { query = `ALTER TABLE %s DROP FOREIGN KEY %s;` } else { query = `ALTER TABLE %s DROP CONSTRAINT %s;` } scope.Raw(fmt.Sprintf(query, scope.QuotedTableName(), scope.quoteIfPossible(keyName))).Exec() } func (scope *Scope) removeIndex(indexName string) { scope.Dialect().RemoveIndex(scope.TableName(), indexName) } func (scope *Scope) autoMigrate() *Scope { tableName := scope.TableName() quotedTableName := scope.QuotedTableName() if !scope.Dialect().HasTable(tableName) { scope.createTable() } else { for _, field := range scope.GetModelStruct().StructFields { if !scope.Dialect().HasColumn(tableName, field.DBName) { if field.IsNormal { sqlTag := scope.Dialect().DataTypeOf(field) scope.Raw(fmt.Sprintf("ALTER TABLE %v ADD %v %v;", quotedTableName, scope.Quote(field.DBName), sqlTag)).Exec() } } scope.createJoinTable(field) } scope.autoIndex() } return scope } func (scope *Scope) autoIndex() *Scope { var indexes = map[string][]string{} var uniqueIndexes = map[string][]string{} for _, field := range scope.GetStructFields() { if name, ok := field.TagSettingsGet("INDEX"); ok { names := strings.Split(name, ",") for _, name := range names { if name == "INDEX" || name == "" { name = scope.Dialect().BuildKeyName("idx", scope.TableName(), field.DBName) } name, column := scope.Dialect().NormalizeIndexAndColumn(name, field.DBName) indexes[name] = append(indexes[name], column) } } if name, ok := field.TagSettingsGet("UNIQUE_INDEX"); ok { names := strings.Split(name, ",") for _, name := range names { if name == "UNIQUE_INDEX" || name == "" { name = scope.Dialect().BuildKeyName("uix", scope.TableName(), field.DBName) } name, column := scope.Dialect().NormalizeIndexAndColumn(name, field.DBName) uniqueIndexes[name] = append(uniqueIndexes[name], column) } } } for name, columns := range indexes { if db := scope.NewDB().Table(scope.TableName()).Model(scope.Value).AddIndex(name, columns...); db.Error != nil { scope.db.AddError(db.Error) } } for name, columns := range uniqueIndexes { if db := scope.NewDB().Table(scope.TableName()).Model(scope.Value).AddUniqueIndex(name, columns...); db.Error != nil { scope.db.AddError(db.Error) } } return scope } func (scope *Scope) getColumnAsArray(columns []string, values ...interface{}) (results [][]interface{}) { resultMap := make(map[string][]interface{}) for _, value := range values { indirectValue := indirect(reflect.ValueOf(value)) switch indirectValue.Kind() { case reflect.Slice: for i := 0; i < indirectValue.Len(); i++ { var result []interface{} var object = indirect(indirectValue.Index(i)) var hasValue = false for _, column := range columns { field := object.FieldByName(column) if hasValue || !isBlank(field) { hasValue = true } result = append(result, field.Interface()) } if hasValue { h := fmt.Sprint(result...) if _, exist := resultMap[h]; !exist { resultMap[h] = result } } } case reflect.Struct: var result []interface{} var hasValue = false for _, column := range columns { field := indirectValue.FieldByName(column) if hasValue || !isBlank(field) { hasValue = true } result = append(result, field.Interface()) } if hasValue { h := fmt.Sprint(result...) if _, exist := resultMap[h]; !exist { resultMap[h] = result } } } } for _, v := range resultMap { results = append(results, v) } return } func (scope *Scope) getColumnAsScope(column string) *Scope { indirectScopeValue := scope.IndirectValue() switch indirectScopeValue.Kind() { case reflect.Slice: if fieldStruct, ok := scope.GetModelStruct().ModelType.FieldByName(column); ok { fieldType := fieldStruct.Type if fieldType.Kind() == reflect.Slice || fieldType.Kind() == reflect.Ptr { fieldType = fieldType.Elem() } resultsMap := map[interface{}]bool{} results := reflect.New(reflect.SliceOf(reflect.PtrTo(fieldType))).Elem() for i := 0; i < indirectScopeValue.Len(); i++ { result := indirect(indirect(indirectScopeValue.Index(i)).FieldByName(column)) if result.Kind() == reflect.Slice { for j := 0; j < result.Len(); j++ { if elem := result.Index(j); elem.CanAddr() && resultsMap[elem.Addr()] != true { resultsMap[elem.Addr()] = true results = reflect.Append(results, elem.Addr()) } } } else if result.CanAddr() && resultsMap[result.Addr()] != true { resultsMap[result.Addr()] = true results = reflect.Append(results, result.Addr()) } } return scope.New(results.Interface()) } case reflect.Struct: if field := indirectScopeValue.FieldByName(column); field.CanAddr() { return scope.New(field.Addr().Interface()) } } return nil } func (scope *Scope) hasConditions() bool { return !scope.PrimaryKeyZero() || len(scope.Search.whereConditions) > 0 || len(scope.Search.orConditions) > 0 || len(scope.Search.notConditions) > 0 }