func toType(val []string, midl *idl.Idl, typ *idl.Type, fmt rest.ListFmt) (interface{}, error) { if typ.IsBool() { return strconv.ParseBool(one(val)) } else if typ.IsInt() { if typ.Name == "int64" { // int64 is quoted return one(val), nil } else { return strconv.ParseInt(one(val), 10, 32) } } else if typ.IsString() || typ.IsChar() || typ.IsDatetime() || typ.IsBinary() || typ.IsDecimal() { // treat as string - these are all quoted return one(val), nil } else if typ.IsFloat() { return strconv.ParseFloat(one(val), 64) } else if typ.IsList() && typ.ValueType.IsPrimitive() { var sep string switch fmt { case rest.CSV: sep = "," case rest.SSV: sep = " " case rest.TSV: sep = "\t" case rest.PIPES: sep = "|" case rest.MULTI: default: return nil, errors.New("Format must be specified when lists are encoded.") } vals := make([]interface{}, 0) var arr []string if sep != "" { arr = strings.Split(one(val), sep) } else { if val == nil { arr = []string{} } else { arr = val } } for _, s := range arr { v, err := toType([]string{s}, midl, typ.ValueType, rest.NONE) if err != nil { return nil, err } vals = append(vals, v) } return vals, nil } else if typ.IsEnum(midl) { // treat as string - quoted return one(val), nil } // all other types are custom // in theory maybe maps could be handled? return nil, errors.New("Unexpected type: " + typ.String()) }
// getTypeKey return the correct JSON key for the specific type, ie type,ref,or enumRef func (gen *testGenerator) getTypeKey(t *idl.Type) string { var s string if t.IsEnum(gen.tplRootIdl) { s = "enumRef" } else if t.IsStruct(gen.tplRootIdl) { s = "ref" } else { s = "type" } return s }
// formatType returns the Type as a string in format suitable for C#. func (gen *csharpGenerator) formatType(t *idl.Type) string { var s string ms, ok := csharpTypes[t.Name] if !ok { ms = t.Name } if t.Name == "list" { s = fmt.Sprintf(ms, gen.formatType(t.ValueType)) } else if t.Name == "map" { s = fmt.Sprintf(ms, csharpTypes[t.KeyType.Name], gen.formatType(t.ValueType)) } else if t.IsPrimitive() && t.Name != "string" { s = ms + "?" } else if t.IsEnum(gen.tplRootIdl) { s = ms + "?" } else { s = ms } return s }
// formatType returns the Type as a string in format suitable for C#. func (gen *goGenerator) formatType(t *idl.Type) string { var s string ms, ok := goTypes[t.Name] if !ok { ms = t.Name } if t.IsList() { s = fmt.Sprintf(ms, gen.formatType(t.ValueType)) } else if t.IsMap() { s = fmt.Sprintf(ms, goTypes[t.KeyType.Name], gen.formatType(t.ValueType)) } else if t.IsBinary() { s = ms } else if t.IsPrimitive() { s = "*" + ms } else if t.IsEnum(gen.tplRootIdl) { s = "*" + ms } else if t.IsVoid() { s = "" } else { s = "*" + ms } return s }
func typeToItems(pidl *idl.Idl, t *idl.Type) *swagger2.ItemsDef { it := new(swagger2.ItemsDef) it.Ref = "" if t.IsPrimitive() { it.Format = t.String() if t.IsInt() || t.IsByte() { it.Type = "integer" it.Format = "int32" if t.Name == "int64" { if swagInt && restful { // Swagger style int64 it.Format = "int64" } else { // Babel style int64 it.Type = "string" // ??? Babel quotes large integers to avoid precision loss in JavaScript it.Format = "int64" // SWAGGER-CLARIFICATION: is format int64 legal with type string? } } } else if t.IsFloat() { it.Type = "number" it.Format = "float" if t.Name == "float64" { it.Format = "double" } } else if t.IsBool() { it.Type = "boolean" it.Format = "" } else if t.IsDatetime() { it.Type = "string" it.Format = "date-time" } else if t.IsDecimal() { it.Type = "string" it.Format = "" } else if t.IsString() || t.IsChar() { it.Type = "string" it.Format = "" } } else if t.IsBinary() { it.Type = "string" it.Format = "byte" } else if t.IsMap() { it.Type = "object" // hmmm....what to do if keytype is not string? // SWAGGER-CLARIFICATION: Does swagger require all key types to be strings? it.AdditionalProperties = typeToItems(pidl, t.ValueType) } else if t.IsList() { it.Type = "array" it.Format = "" it.Items = typeToItems(pidl, t.ValueType) } else if t.IsEnum(pidl) { // SWAGGER-BUG: Enums cannot be delared in a schema it.Type = "string" it.Format = "" it.Enum = make([]interface{}, 0) e := pidl.FindEnum(t.Name) if e != nil { for _, x := range e.Values { it.Enum = append(it.Enum, x.Name) } } } else { // user-defined, struct or enum it.Ref = "#/definitions/" + t.Name } return it }
func (gen *csharpGenerator) isTrivialProperty(t *idl.Type) bool { return t.IsPrimitive() || t.Name == "binary" || t.IsEnum(gen.tplRootIdl) }