package gorm import ( "errors" "fmt" "go/ast" "reflect" "regexp" "strconv" "time" ) type Model struct { data interface{} driver string _cache_fields map[string][]Field } type Field struct { Name string Value interface{} SqlType string DbName string AutoCreateTime bool AutoUpdateTime bool IsPrimaryKey bool IsBlank bool beforeAssociation bool afterAssociation bool foreignKey string } func (m *Model) primaryKeyZero() bool { return m.primaryKeyValue() <= 0 } func (m *Model) primaryKeyValue() int64 { if m.data == nil { return -1 } data := reflect.Indirect(reflect.ValueOf(m.data)) switch data.Kind() { case reflect.Array, reflect.Chan, reflect.Map, reflect.Ptr, reflect.Slice: return 0 default: value := data.FieldByName(m.primaryKey()) if value.IsValid() { switch value.Kind() { case reflect.Int, reflect.Int64, reflect.Int32: return value.Int() default: return 0 } } else { return 0 } } } func (m *Model) primaryKey() string { return "Id" } func (m *Model) primaryKeyDb() string { return toSnake(m.primaryKey()) } func (m *Model) fields(operation string) (fields []Field) { if len(m._cache_fields[operation]) > 0 { return m._cache_fields[operation] } indirect_value := reflect.Indirect(reflect.ValueOf(m.data)) if !indirect_value.IsValid() { return } typ := indirect_value.Type() for i := 0; i < typ.NumField(); i++ { p := typ.Field(i) if !p.Anonymous && ast.IsExported(p.Name) { var field Field field.Name = p.Name field.DbName = toSnake(p.Name) field.IsPrimaryKey = m.primaryKeyDb() == field.DbName field.AutoCreateTime = "created_at" == field.DbName field.AutoUpdateTime = "updated_at" == field.DbName value := indirect_value.FieldByName(p.Name) time_value, is_time := value.Interface().(time.Time) switch value.Kind() { case reflect.Int, reflect.Int64, reflect.Int32: field.IsBlank = value.Int() == 0 case reflect.String: field.IsBlank = value.String() == "" case reflect.Slice: if value.Len() == 0 { field.IsBlank = true } case reflect.Struct: if is_time { field.IsBlank = time_value.IsZero() } else { m := &Model{data: value.Interface(), driver: m.driver} fields := m.columnsHasValue("other") if len(fields) == 0 { field.IsBlank = true } } } if is_time { switch operation { case "create": if (field.AutoCreateTime || field.AutoUpdateTime) && time_value.IsZero() { value.Set(reflect.ValueOf(time.Now())) } case "update": if field.AutoCreateTime && time_value.IsZero() { value.Set(reflect.ValueOf(time.Now())) } if field.AutoUpdateTime { value.Set(reflect.ValueOf(time.Now())) } } } field.Value = value.Interface() if field.IsPrimaryKey { field.SqlType = getPrimaryKeySqlType(m.driver, field.Value, 0) } else { field_value := reflect.ValueOf(field.Value) if field_value.Kind() == reflect.Ptr { if field_value.CanAddr() { field_value = field_value.Elem() } } switch field_value.Kind() { case reflect.Slice: foreign_key := typ.Name() + "Id" if reflect.New(field_value.Type().Elem()).Elem().FieldByName(foreign_key).IsValid() { field.foreignKey = foreign_key } field.afterAssociation = true case reflect.Struct: if is_time { field.SqlType = getSqlType(m.driver, field.Value, 0) } else { if indirect_value.FieldByName(p.Name + "Id").IsValid() { field.foreignKey = p.Name + "Id" field.beforeAssociation = true } else { foreign_key := typ.Name() + "Id" if reflect.New(field_value.Type()).Elem().FieldByName(foreign_key).IsValid() { field.foreignKey = foreign_key } field.afterAssociation = true } } case reflect.Ptr: debug("Errors when handle ptr sub structs") default: field.SqlType = getSqlType(m.driver, field.Value, 0) } } fields = append(fields, field) } } if len(m._cache_fields) == 0 { m._cache_fields = make(map[string][]Field) } m._cache_fields[operation] = fields return } func (m *Model) columnsHasValue(operation string) (fields []Field) { for _, field := range m.fields(operation) { if !field.IsBlank { fields = append(fields, field) } } return } func (m *Model) updatedColumnsAndValues(values map[string]interface{}) (map[string]interface{}, bool) { if m.data == nil { return values, true } data := reflect.Indirect(reflect.ValueOf(m.data)) results := map[string]interface{}{} for key, value := range values { field := data.FieldByName(snakeToUpperCamel(key)) if field.IsValid() { if field.Interface() != value { switch field.Kind() { case reflect.Int, reflect.Int32, reflect.Int64: if field.Int() != reflect.ValueOf(value).Int() { results[key] = value } field.SetInt(reflect.ValueOf(value).Int()) default: results[key] = value field.Set(reflect.ValueOf(value)) } } } } if values["updated_at"] != nil && len(results) > 0 { setFieldValue(data.FieldByName("UpdatedAt"), time.Now()) } result := len(results) > 0 return map[string]interface{}{}, result } func (m *Model) columnsAndValues(operation string) map[string]interface{} { if m.data == nil { return map[string]interface{}{} } results := map[string]interface{}{} for _, field := range m.fields(operation) { if !field.IsPrimaryKey && (len(field.SqlType) > 0) { results[field.DbName] = field.Value } } return results } func (m *Model) hasColumn(name string) bool { if m.data == nil { return false } data := reflect.Indirect(reflect.ValueOf(m.data)) if data.Kind() == reflect.Slice { return reflect.New(data.Type().Elem()).Elem().FieldByName(name).IsValid() } else { return data.FieldByName(name).IsValid() } } func (m *Model) ColumnAndValue(name string) (has_column bool, is_slice bool, value interface{}) { if m.data == nil { return } data := reflect.Indirect(reflect.ValueOf(m.data)) if data.Kind() == reflect.Slice { has_column = reflect.New(data.Type().Elem()).Elem().FieldByName(name).IsValid() is_slice = true } else { if has_column = data.FieldByName(name).IsValid(); has_column { value = data.FieldByName(name).Interface() } } return } func (m *Model) typeName() string { typ := reflect.Indirect(reflect.ValueOf(m.data)).Type() if typ.Kind() == reflect.Slice { typ = typ.Elem() } return typ.Name() } func (m *Model) tableName() (str string, err error) { if m.data == nil { err = errors.New("Model haven't been set") return } str = toSnake(m.typeName()) pluralMap := map[string]string{"ch": "ches", "ss": "sses", "sh": "shes", "day": "days", "y": "ies", "x": "xes", "s?": "s"} for key, value := range pluralMap { reg := regexp.MustCompile(key + "$") if reg.MatchString(str) { return reg.ReplaceAllString(str, value), err } } return } func (m *Model) callMethod(method string) error { if m.data == nil { return nil } fm := reflect.ValueOf(m.data).MethodByName(method) if fm.IsValid() { v := fm.Call([]reflect.Value{}) if len(v) > 0 { if verr, ok := v[0].Interface().(error); ok { return verr } } } return nil } func (m *Model) returningStr() (str string) { if m.driver == "postgres" { str = fmt.Sprintf("RETURNING \"%v\"", m.primaryKeyDb()) } return } func (m *Model) missingColumns() (results []string) { return } func (m *Model) setValueByColumn(name string, value interface{}, out interface{}) { data := reflect.Indirect(reflect.ValueOf(out)) setFieldValue(data.FieldByName(snakeToUpperCamel(name)), value) } func (m *Model) beforeAssociations() (fields []Field) { for _, field := range m.fields("null") { if field.beforeAssociation && !field.IsBlank { fields = append(fields, field) } } return } func (m *Model) afterAssociations() (fields []Field) { for _, field := range m.fields("null") { if field.afterAssociation && !field.IsBlank { fields = append(fields, field) } } return } func setFieldValue(field reflect.Value, value interface{}) bool { if field.IsValid() && field.CanAddr() { switch field.Kind() { case reflect.Int, reflect.Int32, reflect.Int64: if str, ok := value.(string); ok { value, _ = strconv.Atoi(str) } field.SetInt(reflect.ValueOf(value).Int()) default: field.Set(reflect.ValueOf(value)) } return true } else { return false } }