package dartgen import ( "errors" "fmt" "os" "path" "strings" "github.com/zeromicro/go-zero/tools/goctl/api/spec" "github.com/zeromicro/go-zero/tools/goctl/api/util" ) const ( formTagKey = "form" pathTagKey = "path" headerTagKey = "header" ) func normalizeHandlerName(handlerName string) string { handler := strings.Replace(handlerName, "Handler", "", 1) handler = lowCamelCase(handler) return handler } func lowCamelCase(s string) string { if len(s) < 1 { return "" } s = util.ToCamelCase(util.ToSnakeCase(s)) return util.ToLower(s[:1]) + s[1:] } func getBaseName(str string) string { return path.Base(str) } func getPropertyFromMember(member spec.Member) string { name, err := member.GetPropertyName() if err != nil { panic(fmt.Sprintf("cannot get property name of %q", member.Name)) } return name } func isDirectType(s string) bool { return isAtomicType(s) || isListType(s) && isAtomicType(getCoreType(s)) } func isAtomicType(s string) bool { switch s { case "String", "int", "double", "bool": return true default: return false } } func isNumberType(s string) bool { switch s { case "int", "double": return true default: return false } } func isListType(s string) bool { return strings.HasPrefix(s, "List<") } func isClassListType(s string) bool { return strings.HasPrefix(s, "List<") && !isAtomicType(getCoreType(s)) } func isMapType(s string) bool { return strings.HasPrefix(s, "Map<") } // Only interface types are nullable func isNullableType(s string) bool { return strings.HasSuffix(s, "?") } func appendNullCoalescing(member spec.Member) string { if isNullableType(member.Type.Name()) { return "m['" + getPropertyFromMember(member) + "'] == null ? null : " } return "" } // To be compatible with omitempty tags in Golang // Only set default value for non-nullable types func appendDefaultEmptyValue(s string) string { if isNullableType(s) { return "" } if isAtomicType(s) { switch s { case "String": return `?? ""` case "int": return "?? 0" case "double": return "?? 0.0" case "bool": return "?? false" default: panic(errors.New("unknown atomic type")) } } if isListType(s) { return "?? []" } if isMapType(s) { return "?? {}" } return "" } func getCoreType(s string) string { if isAtomicType(s) { return s } if isListType(s) { s = strings.Replace(s, "List<", "", -1) return strings.Replace(s, ">", "", -1) } return s } func fileExists(path string) bool { _, err := os.Stat(path) return !os.IsNotExist(err) } func buildSpecType(tp spec.Type, name string) spec.Type { switch v := tp.(type) { case spec.PrimitiveType: return spec.PrimitiveType{RawName: name} case spec.MapType: return spec.MapType{RawName: name, Key: v.Key, Value: v.Value} case spec.ArrayType: return spec.ArrayType{RawName: name, Value: v.Value} case spec.InterfaceType: return spec.InterfaceType{RawName: name} case spec.PointerType: return spec.PointerType{RawName: name, Type: v.Type} } return tp } func specTypeToDart(tp spec.Type) (string, error) { switch v := tp.(type) { case spec.DefineStruct: return tp.Name(), nil case spec.PrimitiveType: r, ok := primitiveType(tp.Name()) if !ok { return "", errors.New("unsupported primitive type " + tp.Name()) } return r, nil case spec.MapType: valueType, err := specTypeToDart(v.Value) if err != nil { return "", err } return fmt.Sprintf("Map", valueType), nil case spec.ArrayType: if tp.Name() == "[]byte" { return "List", nil } valueType, err := specTypeToDart(v.Value) if err != nil { return "", err } s := getBaseType(valueType) if len(s) != 0 { return s, nil } return fmt.Sprintf("List<%s>", valueType), nil case spec.InterfaceType: return "Object?", nil case spec.PointerType: valueType, err := specTypeToDart(v.Type) if err != nil { return "", err } return fmt.Sprintf("%s?", valueType), nil } return "", errors.New("unsupported primitive type " + tp.Name()) } func getBaseType(valueType string) string { switch valueType { case "int": return "List" case "double": return "List" case "boolean": return "List" case "String": return "List" default: return "" } } func primitiveType(tp string) (string, bool) { switch tp { case "string": return "String", true case "int", "int8", "int16", "int32", "int64", "uint", "uint8", "uint16", "uint32", "uint64", "rune": return "int", true case "float32", "float64": return "double", true case "bool": return "bool", true } return "", false } func hasUrlPathParams(route spec.Route) bool { ds, ok := route.RequestType.(spec.DefineStruct) if !ok { return false } return len(route.RequestTypeName()) > 0 && len(ds.GetTagMembers(pathTagKey)) > 0 } func extractPositionalParamsFromPath(route spec.Route) string { ds, ok := route.RequestType.(spec.DefineStruct) if !ok { return "" } var params []string for _, member := range ds.GetTagMembers(pathTagKey) { dartType := member.Type.Name() params = append(params, fmt.Sprintf("%s %s", dartType, getPropertyFromMember(member))) } return strings.Join(params, ", ") } func makeDartRequestUrlPath(route spec.Route) string { path := route.Path if route.RequestType == nil { return `"` + path + `"` } ds, ok := route.RequestType.(spec.DefineStruct) if !ok { return path } for _, member := range ds.GetTagMembers(pathTagKey) { paramName := member.Tags()[0].Name path = strings.ReplaceAll(path, ":"+paramName, "${"+getPropertyFromMember(member)+"}") } return `"` + path + `"` }