juno-compiler/src/JunoLex.m3


 Copyright (C) 1992, Digital Equipment Corporation                         
 All rights reserved.                                                      
 See the file COPYRIGHT for a full description.                            
                                                                           
 Last modified on Fri Mar 17 14:27:29 PST 1995 by heydon                   
      modified on Wed Feb 15 16:27:30 PST 1995 by gnelson                  
      modified on Fri Aug  7 21:54:04 PDT 1992 by myers                    

MODULE JunoLex;

IMPORT JunoValue;
IMPORT JunoToken;
IMPORT Atom, Rd, Lex, FloatMode, Text, Thread;

<* FATAL Thread.Alerted *>
The procedures in this module that raise Rd.Failure do so when they encounter a problem reading from their Stream argument.

REVEAL
  Private = MUTEX BRANDED "JunoLex.Private" OBJECT
    c: CHAR;				 (* next character *)
    rd: Rd.T;                            (* input stream *)
    token: JunoToken.T;			 (* most recent token *)
    buff: REF ARRAY OF CHAR;		 (* character buffer *)
    sz: CARDINAL;			 (* buffer size *)
  END;

  Stream = Public BRANDED "JunoLex.Stream" OBJECT OVERRIDES
    next := Next;
  END;
Conceptually, a Stream s contains a stream of characters that can be thought of as a text. This implementation maintains the following invariant:

         The character "s.c" concatenated with the characters remaining on
         "s.rd" yields the stream of tokens that have yet to be returned by a
         call to "s.next()".
Hence, s.c is a one-character look-ahead buffer. In the case where the previous token ended with the last character in s.rd, s.c is set to the special value ' ' (space).

CONST InitBuffSize = 40; Space = ' ';

PROCEDURE New(rd: Rd.T): Stream RAISES {Rd.Failure} =
  <* FATAL Rd.EndOfFile *>
  VAR result := NEW(Stream, c := Space, rd := rd, sz := InitBuffSize); BEGIN
    result.token := NEW(JunoToken.T);
    result.buff := NEW(REF ARRAY OF CHAR, result.sz);
    IF NOT Rd.EOF(result.rd) THEN result.c := Rd.GetChar(result.rd) END;
    RETURN result
  END New;

PROCEDURE Close(s: Stream): TEXT =
  BEGIN
    RETURN Text.FromChar(s.c)
  END Close;

PROCEDURE Next(s: Stream): JunoToken.T RAISES {Error, Rd.Failure} =
  BEGIN
    LOCK s DO
      TRY GetNextToken(s) EXCEPT
        Rd.EndOfFile => s.token.kind := JunoToken.Kind.EndMarker
      END;
      RETURN s.token
    END
  END Next;

PROCEDURE GetNextToken(s: Stream) RAISES {Error, Rd.EndOfFile, Rd.Failure} =
Assuming s is not a closed stream, read the next token from s after skipping any initial whitespace. Raises Error(ErrorKind.BadInitialChar) if the first character appearing after any whitespace and nested comments is an illegal starting character for a token; this exception may also be raised by procedures called by this procedure. Raises Rd.EndOfFile if no token was found on s after any initial whitespace.

  PROCEDURE GetReal() RAISES {Error, Rd.Failure} =
  (* Read a real number, and store its kind and value in "s.token". *)
    BEGIN
      s.token.kind := JunoToken.Kind.LitReal;
      s.token.num := FLOAT(ReadReal(s), JunoValue.Real)
    END GetReal;

  (* GetNextToken *)
  BEGIN
    (* skip whitespace *)
    WHILE s.c IN Lex.Blanks DO s.c := Rd.GetChar(s.rd) END;
    s.lastPos := Rd.Index(s.rd) - 1;

    TRY
      CASE s.c OF
      | '0'..'9' =>                      (* numeric literal *)
          GetReal()
      | '.' =>				 (* "." operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Dot; RAISE Rd.EndOfFile
          END;
          IF '0' <= s.c AND s.c <= '9' THEN
            Rd.UnGetChar(s.rd); GetReal()
          ELSE
            s.token.kind := JunoToken.Kind.Dot
          END
      | '\"' =>                          (* text literal *)
          s.token.kind := JunoToken.Kind.LitText;
          s.token.val := ReadText(s);
          s.c := Rd.GetChar(s.rd)
      | 'a'..'z', 'A'..'Z', '_' =>       (* identifier or keyword *)
          s.token.kind := ReadId(s, s.token.val)
      | ';' =>				 (* ";" operator *)
          s.token.kind := JunoToken.Kind.Semi;
          s.c := Rd.GetChar(s.rd)
      | ',' =>				 (* "," operator *)
          s.token.kind := JunoToken.Kind.Comma;
          s.c := Rd.GetChar(s.rd)
      | ')' =>				 (* ")" operator *)
          s.token.kind := JunoToken.Kind.RPren;
          s.c := Rd.GetChar(s.rd)
      | '[' =>				 (* "[" operator *)
          s.token.kind := JunoToken.Kind.LBracket;
          s.c := Rd.GetChar(s.rd)
      | ']' =>				 (* "]" operator *)
          s.token.kind := JunoToken.Kind.RBracket;
          s.c := Rd.GetChar(s.rd)
      | '{' =>				 (* "{" operator *)
          s.token.kind := JunoToken.Kind.LBrace;
          s.c := Rd.GetChar(s.rd)
      | '}' =>				 (* "}" operator *)
          s.token.kind := JunoToken.Kind.RBrace;
          s.c := Rd.GetChar(s.rd)
      | '|' =>				 (* "|" operator *)
          s.token.kind := JunoToken.Kind.Else;
          s.c := Rd.GetChar(s.rd)
      | '~' =>				 (* "~" operator *)
          s.token.kind := JunoToken.Kind.Near;
          s.c := Rd.GetChar(s.rd)
      | '=' =>				 (* "=" operator *)
          s.token.kind := JunoToken.Kind.Equals;
          s.c := Rd.GetChar(s.rd)
      | '#' =>				 (* "#" operator *)
          s.token.kind := JunoToken.Kind.Differs;
          s.c := Rd.GetChar(s.rd)
      | '+' =>				 (* "+" operator *)
          s.token.kind := JunoToken.Kind.Plus;
          s.c := Rd.GetChar(s.rd)
      | '*' =>				 (* "*" operator *)
          s.token.kind := JunoToken.Kind.Times;
          s.c := Rd.GetChar(s.rd)
      | '&' =>				 (* "&" operator *)
          s.token.kind := JunoToken.Kind.Concat;
          s.c := Rd.GetChar(s.rd)
      | '/' =>				 (* "/" operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Divide; RAISE Rd.EndOfFile
          END;
          IF s.c = '*' THEN
            s.token.kind := JunoToken.Kind.Comment;
            s.token.val := ReadComment(s, private := TRUE);
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.Divide
          END
      | '(' =>				 (* "(" operator or comment-start *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.LPren; RAISE Rd.EndOfFile
          END;
          IF s.c = '*' THEN
            s.token.kind := JunoToken.Kind.Comment;
            s.token.val := ReadComment(s, private := FALSE);
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.LPren
          END
      | ':' =>				 (* ":" or ":=" operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Colon; RAISE Rd.EndOfFile
          END;
          IF s.c = '=' THEN
            s.token.kind := JunoToken.Kind.Assign;
            s.c := Rd.GetChar(s.rd)
          ELSIF s.c = ':' THEN
            s.token.kind := JunoToken.Kind.SuchThat;
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.Colon;
          END
      | '-' =>				 (* "-" or "->" operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Minus; RAISE Rd.EndOfFile
          END;
          IF s.c = '>' THEN
            s.token.kind := JunoToken.Kind.Guard;
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.Minus;
          END
      | '<' =>				 (* "<" or "<=" operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Less; RAISE Rd.EndOfFile
          END;
          IF s.c = '=' THEN
            s.token.kind := JunoToken.Kind.AtMost;
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.Less;
          END
      | '>' =>				 (* ">" or ">=" operator *)
          TRY s.c := Rd.GetChar(s.rd) EXCEPT
            Rd.EndOfFile =>
              s.token.kind := JunoToken.Kind.Greater; RAISE Rd.EndOfFile
          END;
          IF s.c = '=' THEN
            s.token.kind := JunoToken.Kind.AtLeast;
            s.c := Rd.GetChar(s.rd)
          ELSE
            s.token.kind := JunoToken.Kind.Greater;
          END
      ELSE
	  Rd.UnGetChar(s.rd);
	  RaiseError(ErrorKind.BadInitialChar, "")
      END
    EXCEPT
      Rd.EndOfFile => s.c := Space (* EOF encountered after a legal token *)
    END
  END GetNextToken;

PROCEDURE FlushBuf(
    prefix: TEXT;
    READONLY buf: ARRAY OF CHAR;
    VAR (*INOUT*) pos: CARDINAL)
  : TEXT =
Return Text.FromChars(SUBARRAY(buf, 0, pos)) appended to prefix, and set pos to 0.
  VAR txt := Text.FromChars(SUBARRAY(buf, 0, pos)); res: TEXT; BEGIN
    IF prefix = NIL
      THEN res := txt
      ELSE res := prefix & txt
    END;
    pos := 0;
    RETURN res
  END FlushBuf;

CONST BufSize = 100;
TYPE Buffer = ARRAY [0..BufSize-1] OF CHAR;

PROCEDURE ReadText(s: Stream): TEXT RAISES {Error, Rd.Failure} =
Assuming s.c is the opening double-quote of a text string, return the text string on s, processing all escape Modula-3 character escape sequences.

Raises Error(ErrorKind.UnclosedText) if end-of-file occurs before the terminating double-quote; RAISES Error(ErrorKind.BadEscapeChar) if an illegal escape suffix follows the escape character \ in the literal.

Note: Since a text may be followed by end-of-file, and since we must return a valid result in that case, this procedure does *not* maintain the invariant that s.c contains the next unprocessed character; that character will be the first character on s.rd.

  VAR buf: Buffer; pos: CARDINAL := 0; res := "";

  <* INLINE *>
  PROCEDURE AppendChar(c: CHAR) =
    BEGIN
      IF pos = BufSize THEN res := FlushBuf(res, buf, pos) END;
      buf[pos] := c; INC(pos)
    END AppendChar;

  PROCEDURE ReadOctEscape(VAR (*INOUT*) pos: CARDINAL): CHAR
    RAISES {Rd.EndOfFile, Rd.Failure} =
  (* Requires "s.c" is one of the characters '0'..'7'. *)
    CONST OctDigits = SET OF CHAR{'0'..'7'}; Zero = ORD('0');
    VAR val := ORD(s.c) - Zero; BEGIN
      buf[pos] := s.c; INC(pos);
      FOR i := 1 TO 2 DO
        s.c := Rd.GetChar(s.rd);
        IF NOT s.c IN OctDigits THEN
          Rd.UnGetChar(s.rd); RAISE Rd.EndOfFile
        END;
        buf[pos] := s.c; INC(pos);
        val := (val * 8) + (ORD(s.c) - Zero)
      END;
      IF val > ORD(LAST(CHAR)) THEN RAISE Rd.EndOfFile END;
      RETURN VAL(val, CHAR)
    END ReadOctEscape;

  PROCEDURE ReadEscape(): CHAR RAISES {Error, Rd.Failure} =
    VAR escPos: CARDINAL; escChar: CHAR; BEGIN
      (* guarantee that buffer will not be flushed in this procedure *)
      IF pos + 4 >= BufSize THEN res := FlushBuf(res, buf, pos) END;
      escPos := pos;
      buf[escPos] := s.c; INC(escPos);	 (* save '\\' *)
      TRY
      	s.c := Rd.GetChar(s.rd);
      	CASE s.c OF
      	| 'n'  => escChar := '\n'
      	| 't'  => escChar := '\t'
      	| 'r'  => escChar := '\r'
      	| 'f'  => escChar := '\f'
      	| '\\' => escChar := '\\'
      	| '\"' => escChar := '\"'
      	| '0'..'7' => escChar := ReadOctEscape(escPos)
      	ELSE Rd.UnGetChar(s.rd); RAISE Rd.EndOfFile
      	END
      EXCEPT
        Rd.EndOfFile =>
          res := FlushBuf(res, buf, escPos);
          RaiseError(ErrorKind.BadEscapeChar, "\"" & res)
      END;
      RETURN escChar
    END ReadEscape;

  (* ReadText *)
  BEGIN
    TRY
      TRY
      	LOOP
          s.c := Rd.GetChar(s.rd);
      	  CASE s.c OF
      	  | '\\' => AppendChar(ReadEscape())
      	  | '\"' => EXIT
      	  ELSE      AppendChar(s.c)
      	  END;
      	END
      FINALLY
        res := FlushBuf(res, buf, pos)
      END
    EXCEPT
      Rd.EndOfFile => RaiseError(ErrorKind.UnclosedText, "\"" & res)
    END;
    RETURN res
  END ReadText;

PROCEDURE PrefixChars(rd: Rd.T; start: CARDINAL): TEXT RAISES {Rd.Failure} =
  <* FATAL Rd.EndOfFile *>
  VAR curr := Rd.Index(rd); buf := NEW(REF ARRAY OF CHAR, curr - start); BEGIN
    Rd.Seek(rd, start);
    FOR i := 0 TO curr - start - 1 DO buf[i] := Rd.GetChar(rd) END;
    RETURN Text.FromChars(buf^)
  END PrefixChars;

PROCEDURE ReadReal(s: Stream): REAL RAISES {Error, Rd.Failure} =
This procedure assumes that s.rd is positioned one character *past* the first character of the real number.
  VAR res: REAL; start: CARDINAL; BEGIN
    start := Rd.Index(s.rd) - 1;
    Rd.Seek(s.rd, start);
    TRY
      res := Lex.Real(s.rd);
      s.c := Rd.GetChar(s.rd)
    EXCEPT
      Lex.Error, FloatMode.Trap =>
        RaiseError(ErrorKind.BadReal, PrefixChars(s.rd, start))
    | Rd.EndOfFile => s.c := Space
    END;
    RETURN res
  END ReadReal;

PROCEDURE ReadId(s: Stream; VAR (*OUT*) id: REFANY): JunoToken.Kind
    RAISES {Rd.Failure} =
Parse the identifier appearing on s. If it is a true identifier, return JunoToken.Kind.Id, and set id to the Atom.T corresponding to the parsed identifier. Otherwise, it must be a keyword or a reserved identifier; in that case, return the proper JunoToken.Kind and leave id unchanged.
  VAR sz: CARDINAL := 0;

  PROCEDURE DoubleSBuf() =
  (* Double the size of "s.buff". *)
    VAR newSz := s.sz * 2; buff := NEW(REF ARRAY OF CHAR, newSz); BEGIN
      SUBARRAY(buff^, 0, sz) := SUBARRAY(s.buff^, 0, sz);
      s.buff := buff; s.sz := newSz;
    END DoubleSBuf;

  PROCEDURE ReadIdToBuf() RAISES {Rd.Failure} =
  (* Read identifier off "s" into "s.buff". *)
    CONST IdChars = SET OF CHAR{'a'..'z', 'A'..'Z', '0'..'9', '_'}; BEGIN
      TRY
    	WHILE s.c IN IdChars DO
    	  IF sz = s.sz THEN DoubleSBuf() END;
    	  s.buff[sz] := s.c; INC(sz);
    	  s.c := Rd.GetChar(s.rd)
    	END
      EXCEPT
    	Rd.EndOfFile => s.c := Space
      END
    END ReadIdToBuf;

  PROCEDURE MatchTail(tail: TEXT): BOOLEAN =
  (* Return "TRUE" iff the characters in "s.buff[1..sz-1]" match the text
     "Text.Sub(tail, 1)". *)
    CONST Start = 1; BEGIN
      IF sz # Text.Length(tail) THEN RETURN FALSE END;
      WITH buf = s.buff DO
      	FOR i := Start TO sz - 1 DO
	  IF buf[i] # Text.GetChar(tail, i) THEN RETURN FALSE END
      	END
      END;
      RETURN TRUE
    END MatchTail;

  PROCEDURE Keyword(): JunoToken.Kind =
  (* If the characters "SUBARRAY(s.buff^, 0, sz)" are a keyword, then return
     the corresponding token kind. Otherwise, return "JunoToken.Kind.Id". *)
    BEGIN
      CASE s.buff[0] OF
      | 'A' =>
    	IF MatchTail("AND") THEN RETURN JunoToken.Kind.And
    	ELSIF MatchTail("ABS") THEN RETURN JunoToken.Kind.Abs
    	ELSIF MatchTail("ATAN") THEN RETURN JunoToken.Kind.Atan
    	ELSIF MatchTail("ABORT") THEN RETURN JunoToken.Kind.Abort
    	END
      | 'C' =>
    	IF MatchTail("CAR") THEN RETURN JunoToken.Kind.Car
    	ELSIF MatchTail("CDR") THEN RETURN JunoToken.Kind.Cdr
    	ELSIF MatchTail("CONG") THEN RETURN JunoToken.Kind.Cong
    	ELSIF MatchTail("CONST") THEN RETURN JunoToken.Kind.Const
    	ELSIF MatchTail("COS") THEN RETURN JunoToken.Kind.Cos
    	ELSIF MatchTail("CEILING") THEN RETURN JunoToken.Kind.Ceiling
    	END
      | 'D' =>
    	IF MatchTail("DO") THEN RETURN JunoToken.Kind.Do
    	ELSIF MatchTail("DIV") THEN RETURN JunoToken.Kind.Div
    	END
      | 'E' =>
    	IF sz = 1 THEN RETURN JunoToken.Kind.Exists
    	ELSIF MatchTail("END") THEN RETURN JunoToken.Kind.End
    	ELSIF MatchTail("EXP") THEN RETURN JunoToken.Kind.Exp
    	END
      | 'F' =>
    	IF MatchTail("FI") THEN RETURN JunoToken.Kind.Fi
    	ELSIF MatchTail("FALSE") THEN RETURN JunoToken.Kind.False
    	ELSIF MatchTail("FLOOR") THEN RETURN JunoToken.Kind.Floor
    	ELSIF MatchTail("FUNC") THEN RETURN JunoToken.Kind.Func
    	END
      | 'H' =>
    	IF MatchTail("HOR") THEN RETURN JunoToken.Kind.Hor END
      | 'I' =>
    	IF MatchTail("IF") THEN RETURN JunoToken.Kind.If
    	ELSIF MatchTail("IN") THEN RETURN JunoToken.Kind.In
    	ELSIF MatchTail("IS") THEN RETURN JunoToken.Kind.Is
    	ELSIF MatchTail("INT") THEN RETURN JunoToken.Kind.Int
    	ELSIF MatchTail("IMPORT") THEN RETURN JunoToken.Kind.Import
    	END
      | 'L' =>
    	IF sz = 2 AND s.buff[1] = 'N' THEN RETURN JunoToken.Kind.Ln END
      | 'M' =>
    	IF MatchTail("MAX") THEN RETURN JunoToken.Kind.Max
    	ELSIF MatchTail("MIN") THEN RETURN JunoToken.Kind.Min
    	ELSIF MatchTail("MOD") THEN RETURN JunoToken.Kind.Mod
    	ELSIF MatchTail("MODULE") THEN RETURN JunoToken.Kind.Module
    	END
      | 'N' =>
        IF sz = 3 THEN
    	  IF MatchTail("NOT") THEN RETURN JunoToken.Kind.Not
    	  ELSIF MatchTail("NIL") THEN RETURN JunoToken.Kind.Nil
    	  END
        END
      | 'O' =>
    	IF sz = 2 THEN
    	  IF s.buff[1] = 'D' THEN RETURN JunoToken.Kind.Od
    	  ELSIF s.buff[1] = 'R' THEN RETURN JunoToken.Kind.Or END
    	END
      | 'P' =>
    	IF MatchTail("PARA") THEN RETURN JunoToken.Kind.Para
    	ELSIF MatchTail("PAIR") THEN RETURN JunoToken.Kind.Pair
    	ELSIF MatchTail("PRED") THEN RETURN JunoToken.Kind.Pred
    	ELSIF MatchTail("PRIVATE") THEN RETURN JunoToken.Kind.Private
    	ELSIF MatchTail("PROC") THEN RETURN JunoToken.Kind.Proc
    	END
      | 'R' =>
    	IF MatchTail("REAL") THEN RETURN JunoToken.Kind.Real
    	ELSIF MatchTail("REL") THEN RETURN JunoToken.Kind.Rel
    	ELSIF MatchTail("ROUND") THEN RETURN JunoToken.Kind.Round
    	END
      | 'S' =>
    	IF MatchTail("SKIP") THEN RETURN JunoToken.Kind.Skip
    	ELSIF MatchTail("SAVE") THEN RETURN JunoToken.Kind.Save
    	ELSIF MatchTail("SIN") THEN RETURN JunoToken.Kind.Sin
    	END
      | 'T' =>
        IF sz = 4 THEN
    	  IF MatchTail("TEXT") THEN RETURN JunoToken.Kind.Text
    	  ELSIF MatchTail("TRUE") THEN RETURN JunoToken.Kind.True
    	  END
        END
      | 'U' =>
        IF sz = 2 AND MatchTail("UI") THEN RETURN JunoToken.Kind.UI END
      | 'V' =>
        IF sz = 3 THEN
    	  IF MatchTail("VER") THEN RETURN JunoToken.Kind.Ver
    	  ELSIF MatchTail("VAR") THEN RETURN JunoToken.Kind.Var
    	  END
        END
      ELSE (* SKIP *)
      END;
      RETURN JunoToken.Kind.Id
    END Keyword;

  (* ReadId *)
  BEGIN
    ReadIdToBuf();
    IF 'A' <= s.buff[0] AND s.buff[0] <= 'Z' THEN
      VAR res := Keyword(); BEGIN
        IF res # JunoToken.Kind.Id THEN RETURN res END
      END
    END;
    id := Atom.FromText(Text.FromChars(SUBARRAY(s.buff^, 0, sz)));
    RETURN JunoToken.Kind.Id
  END ReadId;

PROCEDURE ReadComment(s: Stream; private: BOOLEAN): TEXT
    RAISES {Error, Rd.Failure} =
Assuming s.c contains the '*' character at the start of the comment, return the TEXT of the full comment including the start- and end-of-comment markers and any nested comments. Raises Error(ErrorKind.UnclosedComment) if the file ends before the final end-of-comment characters. If private = FALSE, then the end-of-comment characters are Modula-3 style, otherwise, they are C style.

Note: Since a comment may be followed by end-of-file, and since we must return a valid result in that case, this procedure does *not* maintain the invariant that s.c contains the next unprocessed character; that character will be the first character on s.rd.

  VAR buf: Buffer; i: CARDINAL; res := "";

  <* INLINE *>
  PROCEDURE AppendChar(c: CHAR) =
    BEGIN
      IF i = BufSize THEN res := FlushBuf(res, buf, i) END;
      buf[i] := c; INC(i)
    END AppendChar;

  (* ReadComment *)
  VAR first, last: CHAR; BEGIN
    <* ASSERT s.c = '*' *>
    res := "";
    IF private
      THEN buf[0] := '/'; last := '/'
      ELSE buf[0] := '('; last := ')'
    END;
    buf[1] := '*'; i := 2;
    TRY
      TRY
      	s.c := Rd.GetChar(s.rd);
      	LOOP
      	  first := s.c;
          CASE first OF
      	    '(', '/' =>
      	      s.c := Rd.GetChar(s.rd);
      	      IF s.c = '*' THEN
            	res := FlushBuf(res, buf, i);
      	    	res := res & ReadComment(s, private := (first = '/'));
                s.c := Rd.GetChar(s.rd)
      	      ELSE
            	AppendChar(first)
      	      END
      	  | '*' =>
              AppendChar(first);
      	      s.c := Rd.GetChar(s.rd);
      	      IF s.c = last THEN
                AppendChar(last);
      	    	EXIT
      	      END
      	  ELSE
              AppendChar(first);
              s.c := Rd.GetChar(s.rd)
      	  END
      	END
      FINALLY
        res := FlushBuf(res, buf, i)
      END
    EXCEPT
      Rd.EndOfFile => RaiseError(ErrorKind.UnclosedComment, res)
    END;
    RETURN res
  END ReadComment;

PROCEDURE RaiseError(kind: ErrorKind; t: TEXT) RAISES {Error} =
  BEGIN
    RAISE Error(NEW(ErrorRec, kind := kind, initialChars := t))
  END RaiseError;

PROCEDURE ErrorText(e: ErrorKind): TEXT =
  BEGIN
    CASE e OF
    | ErrorKind.BadInitialChar  => RETURN "Illegal initial character"
    | ErrorKind.BadEscapeChar   => RETURN "Illegal \\ escape"
    | ErrorKind.BadReal         => RETURN "Illegal number"
    | ErrorKind.UnclosedComment => RETURN "Unclosed comment"
    | ErrorKind.UnclosedText    => RETURN "Unclosed text literal"
    END
  END ErrorText;

BEGIN END JunoLex.

interface JunoValue is in:


interface FloatMode is in: