package parser import ( "bufio" "errors" "io" "regexp" "strings" "golang.org/x/exp/slices" ) var ( structRegex = regexp.MustCompile(`pub struct (.+) \{`) fieldRegex = regexp.MustCompile(`(?U) {1,1}([^ ]+): (.+),`) enumRegex = regexp.MustCompile(`pub enum (.+) \{`) memberRegex = regexp.MustCompile(` ([^ #]+),\n`) ) type Item struct { Struct *Struct Enum *Enum } type Struct struct { Name string Fields []Field } type Field struct { OrigName string Name string Type string } type Enum struct { Name string Members []Member } type Member string type StructParser struct { r *bufio.Reader Skip []string TransformName func(string) string TransformType func(string) string } func NewStruct(r io.Reader) *StructParser { return &StructParser{ r: bufio.NewReader(r), TransformName: TransformNameGo, TransformType: TransformTypeGo, } } func (s *StructParser) Parse() ([]Item, error) { var out []Item for { line, err := s.r.ReadString('\n') if errors.Is(err, io.EOF) { break } else if err != nil { return nil, err } if structRegex.MatchString(line) { structName := structRegex.FindStringSubmatch(line)[1] if slices.Contains(s.Skip, structName) { continue } structName = s.TransformName(structName) // If the line ends with "}", this is a struct with no fields if strings.HasSuffix(line, "}\n") { out = append(out, Item{ Struct: &Struct{ Name: structRegex.FindStringSubmatch(line)[1], }, }) continue } fields, err := s.parseStructFields() if err != nil { return nil, err } out = append(out, Item{ Struct: &Struct{ Name: structName, Fields: fields, }, }) } else if enumRegex.MatchString(line) { enumName := enumRegex.FindStringSubmatch(line)[1] if slices.Contains(s.Skip, enumName) { continue } enumName = s.TransformName(enumName) members, err := s.parseEnumMemebers() if err != nil { return nil, err } out = append(out, Item{ Enum: &Enum{ Name: enumName, Members: members, }, }) } } return out, nil } func (s *StructParser) parseStructFields() ([]Field, error) { var out []Field for { line, err := s.r.ReadString('\n') if errors.Is(err, io.EOF) { if strings.HasPrefix(line, "}") { return out, nil } else { return nil, io.ErrUnexpectedEOF } } else if err != nil { return nil, err } if strings.HasPrefix(line, "}") { return out, nil } else if strings.HasPrefix(line, "//") { continue } else if !fieldRegex.MatchString(line) { continue } sm := fieldRegex.FindStringSubmatch(line) if sm[1] == "Example" { continue } out = append(out, Field{ OrigName: sm[1], Name: s.TransformName(sm[1]), Type: s.TransformType(sm[2]), }) } } func (s *StructParser) parseEnumMemebers() ([]Member, error) { var out []Member for { line, err := s.r.ReadString('\n') if errors.Is(err, io.EOF) { if strings.HasPrefix(line, "}") { return out, nil } else { return nil, io.ErrUnexpectedEOF } } else if err != nil { return nil, err } if strings.HasPrefix(line, "}") { return out, nil } else if strings.HasPrefix(line, "//") { continue } else if !memberRegex.MatchString(line) { continue } sm := memberRegex.FindStringSubmatch(line) out = append(out, Member(sm[1])) } } // TransformTypeGo transforms Rust types to Go // // Example: TransformTypeGo("Option>") // returns "Optional[[]int64]" func TransformTypeGo(t string) string { prefix := "" suffix := "" for strings.HasPrefix(t, "Option<") { t = strings.TrimPrefix(strings.TrimSuffix(t, ">"), "Option<") prefix += "Optional[" suffix += "]" } for strings.HasPrefix(t, "Vec<") { t = strings.TrimPrefix(strings.TrimSuffix(t, ">"), "Vec<") prefix += "[]" } for strings.HasPrefix(t, "Sensitive<") { t = strings.TrimPrefix(strings.TrimSuffix(t, ">"), "Sensitive<") } if strings.HasSuffix(t, "Id") { t = "int" } switch t { case "String", "Url", "DbUrl", "Ltree": t = "string" case "usize": t = "uint" case "i64": t = "int64" case "i32": t = "int32" case "i16": t = "int16" case "i8": t = "int8" case "chrono::NaiveDateTime": return "LemmyTime" case "Value": return "any" } return prefix + t + suffix } // TransformNameGo transforms conventional Rust naming to // conventional Go naming. // // Example: TransformNameGo("post_id") // returns "PostID" func TransformNameGo(s string) string { out := "" s = strings.ReplaceAll(s, "Crud", "CRUD") splitName := strings.Split(s, "_") for _, segment := range splitName { switch segment { case "id": out += "ID" case "url": out += "URL" case "nsfw": out += "NSFW" case "jwt": out += "JWT" case "crud": out += "CRUD" default: if len(segment) == 0 { continue } out += strings.ToUpper(segment[:1]) + segment[1:] } } return out } func (s *StructParser) Reset(r io.Reader) { s.r.Reset(r) }