package gorm import ( "fmt" "reflect" "regexp" "strconv" "strings" "time" ) var keyNameRegex = regexp.MustCompile("[^a-zA-Z0-9]+") // DefaultForeignKeyNamer contains the default foreign key name generator method type DefaultForeignKeyNamer struct { } type commonDialect struct { db SQLCommon DefaultForeignKeyNamer } func init() { RegisterDialect("common", &commonDialect{}) } func (commonDialect) GetName() string { return "common" } func (s *commonDialect) SetDB(db SQLCommon) { s.db = db } func (commonDialect) BindVar(i int) string { return "$$$" // ? } func (commonDialect) Quote(key string) string { return fmt.Sprintf(`"%s"`, key) } func (s *commonDialect) fieldCanAutoIncrement(field *StructField) bool { if value, ok := field.TagSettingsGet("AUTO_INCREMENT"); ok { return strings.ToLower(value) != "false" } return field.IsPrimaryKey } func (s *commonDialect) DataTypeOf(field *StructField) string { var dataValue, sqlType, size, additionalType = ParseFieldStructForDialect(field, s) if sqlType == "" { switch dataValue.Kind() { case reflect.Bool: sqlType = "BOOLEAN" case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uintptr: if s.fieldCanAutoIncrement(field) { sqlType = "INTEGER AUTO_INCREMENT" } else { sqlType = "INTEGER" } case reflect.Int64, reflect.Uint64: if s.fieldCanAutoIncrement(field) { sqlType = "BIGINT AUTO_INCREMENT" } else { sqlType = "BIGINT" } case reflect.Float32, reflect.Float64: sqlType = "FLOAT" case reflect.String: if size > 0 && size < 65532 { sqlType = fmt.Sprintf("VARCHAR(%d)", size) } else { sqlType = "VARCHAR(65532)" } case reflect.Struct: if _, ok := dataValue.Interface().(time.Time); ok { sqlType = "TIMESTAMP" } default: if _, ok := dataValue.Interface().([]byte); ok { if size > 0 && size < 65532 { sqlType = fmt.Sprintf("BINARY(%d)", size) } else { sqlType = "BINARY(65532)" } } } } if sqlType == "" { panic(fmt.Sprintf("invalid sql type %s (%s) for commonDialect", dataValue.Type().Name(), dataValue.Kind().String())) } if strings.TrimSpace(additionalType) == "" { return sqlType } return fmt.Sprintf("%v %v", sqlType, additionalType) } func (s commonDialect) HasIndex(tableName string, indexName string) bool { var count int currentDatabase, tableName := currentDatabaseAndTable(&s, tableName) s.db.QueryRow("SELECT count(*) FROM INFORMATION_SCHEMA.STATISTICS WHERE table_schema = ? AND table_name = ? AND index_name = ?", currentDatabase, tableName, indexName).Scan(&count) return count > 0 } func (s commonDialect) RemoveIndex(tableName string, indexName string) error { _, err := s.db.Exec(fmt.Sprintf("DROP INDEX %v", indexName)) return err } func (s commonDialect) HasForeignKey(tableName string, foreignKeyName string) bool { return false } func (s commonDialect) HasTable(tableName string) bool { var count int currentDatabase, tableName := currentDatabaseAndTable(&s, tableName) s.db.QueryRow("SELECT count(*) FROM INFORMATION_SCHEMA.TABLES WHERE table_schema = ? AND table_name = ?", currentDatabase, tableName).Scan(&count) return count > 0 } func (s commonDialect) HasColumn(tableName string, columnName string) bool { var count int currentDatabase, tableName := currentDatabaseAndTable(&s, tableName) s.db.QueryRow("SELECT count(*) FROM INFORMATION_SCHEMA.COLUMNS WHERE table_schema = ? AND table_name = ? AND column_name = ?", currentDatabase, tableName, columnName).Scan(&count) return count > 0 } func (s commonDialect) ModifyColumn(tableName string, columnName string, typ string) error { _, err := s.db.Exec(fmt.Sprintf("ALTER TABLE %v ALTER COLUMN %v TYPE %v", tableName, columnName, typ)) return err } func (s commonDialect) CurrentDatabase() (name string) { s.db.QueryRow("SELECT DATABASE()").Scan(&name) return } // LimitAndOffsetSQL return generated SQL with Limit and Offset func (s commonDialect) LimitAndOffsetSQL(limit, offset interface{}) (sql string, err error) { if limit != nil { if parsedLimit, err := s.parseInt(limit); err != nil { return "", err } else if parsedLimit >= 0 { sql += fmt.Sprintf(" LIMIT %d", parsedLimit) } } if offset != nil { if parsedOffset, err := s.parseInt(offset); err != nil { return "", err } else if parsedOffset >= 0 { sql += fmt.Sprintf(" OFFSET %d", parsedOffset) } } return } func (commonDialect) SelectFromDummyTable() string { return "" } func (commonDialect) LastInsertIDOutputInterstitial(tableName, columnName string, columns []string) string { return "" } func (commonDialect) LastInsertIDReturningSuffix(tableName, columnName string) string { return "" } func (commonDialect) DefaultValueStr() string { return "DEFAULT VALUES" } // BuildKeyName returns a valid key name (foreign key, index key) for the given table, field and reference func (DefaultForeignKeyNamer) BuildKeyName(kind, tableName string, fields ...string) string { keyName := fmt.Sprintf("%s_%s_%s", kind, tableName, strings.Join(fields, "_")) keyName = keyNameRegex.ReplaceAllString(keyName, "_") return keyName } // NormalizeIndexAndColumn returns argument's index name and column name without doing anything func (commonDialect) NormalizeIndexAndColumn(indexName, columnName string) (string, string) { return indexName, columnName } func (commonDialect) parseInt(value interface{}) (int64, error) { return strconv.ParseInt(fmt.Sprint(value), 0, 0) } // IsByteArrayOrSlice returns true of the reflected value is an array or slice func IsByteArrayOrSlice(value reflect.Value) bool { return (value.Kind() == reflect.Array || value.Kind() == reflect.Slice) && value.Type().Elem() == reflect.TypeOf(uint8(0)) }