package main import ( "bufio" "errors" "fmt" "io" "os" "reflect" "strconv" "strings" ) var DEBUG = false type sexp struct { items []interface{} quotelvl int } type callable interface { call(*environment, []interface{}) (interface{}, error) } func newSexp() *sexp { return &sexp{ items: make([]interface{}, 0, 8), quotelvl: 0, } } func (s sexp) String() string { parts := make([]string, len(s.items)) for i, _ := range s.items { parts[i] = fmt.Sprint(s.items[i]) } return "(" + strings.Join(parts, " ") + ")" } func (s *sexp) append(item interface{}) { s.items = append(s.items, item) } func (s sexp) len() int { return len(s.items) } type symbol string var universe = &environment{map[symbol]interface{}{ // predefined values "#t": true, "#f": false, "null": nil, // builtin functions symbol(add.name): add, symbol(sub.name): sub, symbol(mul.name): mul, symbol(div.name): div, symbol(gt.name): gt, symbol(gte.name): gte, symbol(lt.name): lt, symbol(lte.name): lte, symbol(cons.name): cons, symbol(car.name): car, symbol(cdr.name): cdr, symbol(length.name): length, symbol(lst.name): lst, symbol(islist.name): islist, symbol(not.name): not, symbol(isnull.name): isnull, symbol(issymbol.name): issymbol, // "=": builtin(equal), // "equal?": builtin(equal), // "eq?" // "append" // special forms symbol(begin.name): begin, symbol(define.name): define, symbol(_if.name): _if, symbol(mklambda.name): mklambda, symbol(quote.name): quote, symbol(set.name): set, }, nil} // parses the string lexeme into a value that can be eval'd func atom(t token) (interface{}, error) { switch t.t { case integerToken: val, err := strconv.ParseInt(t.lexeme, 10, 64) if err != nil { return nil, err } return val, nil case floatToken: val, err := strconv.ParseFloat(t.lexeme, 64) if err != nil { return nil, err } return val, nil case stringToken: return t.lexeme, nil case symbolToken: return symbol(t.lexeme), nil } return nil, fmt.Errorf("unable to atomize token: %v", t) } // reads in tokens on the channel until a matching close paren is found. func (s *sexp) readIn(c chan token) error { for t := range c { switch t.t { case closeParenToken: return nil case openParenToken: child := newSexp() if err := child.readIn(c); err != nil { return err } s.append(child) default: v, err := atom(t) if err != nil { return err } s.append(v) } } return errors.New("unexpected EOF in sexp.readIn") } // parses one value that can be evaled from the channel func parse(c chan token) (interface{}, error) { for t := range c { switch t.t { case closeParenToken: return nil, errors.New("unexpected EOF in read") case openParenToken: s := newSexp() if err := s.readIn(c); err != nil { return nil, err } return s, nil default: return atom(t) } } return nil, io.EOF } func eval(v interface{}, env *environment) (interface{}, error) { if v == nil { return &sexp{}, nil } switch t := v.(type) { case symbol: debugPrint("eval symbol") s, err := env.get(t) if err != nil { return nil, err } return eval(s, env) case *sexp: debugPrint("eval sexp") if t.len() == 0 { return nil, errors.New("illegal evaluation of empty sexp ()") } if t.quotelvl > 0 { return t, nil } // eval the first item v, err := eval(t.items[0], env) if err != nil { return nil, err } c, ok := v.(callable) if !ok { return nil, fmt.Errorf(`expected special form or builtin procedure, received %v`, reflect.TypeOf(v)) } if len(t.items) > 1 { return c.call(env, t.items[1:]) } return c.call(env, nil) default: debugPrint("default eval") return v, nil } panic("not reached") } func evalall(c chan token, out chan interface{}, e chan error, env *environment) { for { v, err := parse(c) switch err { case io.EOF: return case nil: if v, err := eval(v, env); err != nil { e <- err return } else { out <- v } default: e <- err } } } func defaultInterpreter(out chan interface{}, errors chan error) { for { select { case v := <-out: fmt.Println(v) case err := <-errors: fmt.Printf("error: %v", err) } } } func main() { if DEBUG { fmt.Println(universe) } if len(os.Args) > 1 { args() return } out, errors := make(chan interface{}), make(chan error) go defaultInterpreter(out, errors) r := bufio.NewReader(os.Stdin) for { fmt.Print("> ") line, prefix, err := r.ReadLine() if prefix { fmt.Println("(prefix)") } switch err { case nil: break case io.EOF: fmt.Print("\n") return default: fmt.Println("error: ", err) continue } c := make(chan token, 32) go lexs(string(line)+"\n", c) evalall(c, out, errors, universe) } }