(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) (* Module [Genlex]: a generic lexical analyzer *) (* This module implements a simple ``standard'' lexical analyzer, presented as a function from character streams to token streams. It implements roughly the lexical conventions of Caml, but is parameterized by the set of keywords of your language. *) type token = Kwd of string | Ident of string | Int of int | Float of float | String of string | Char of char (* The type of tokens. The lexical classes are: [Int] and [Float] for integer and floating-point numbers; [String] for string literals, enclosed in double quotes; [Char] for character literals, enclosed in single quotes; [Ident] for identifiers (either sequences of letters, digits, underscores and quotes, or sequences of ``operator characters'' such as [+], [*], etc); and [Kwd] for keywords (either identifiers or single ``special characters'' such as [(], [}], etc). *) val make_lexer: string list -> (char Stream.t -> token Stream.t) (* Construct the lexer function. The first argument is the list of keywords. An identifier [s] is returned as [Kwd s] if [s] belongs to this list, and as [Ident s] otherwise. A special character [s] is returned as [Kwd s] if [s] belongs to this list, and cause a lexical error (exception [Parse_error]) otherwise. Blanks and newlines are skipped. Comments delimited by [(*] and [*)] are skipped as well, and can be nested. *) (* Example: a lexer suitable for a desk calculator is obtained by [ let lexer = make_lexer ["+";"-";"*";"/";"let";"="; "("; ")"] ] The associated parser would be a function from [token stream] to, for instance, [int], and would have rules such as: [ let parse_expr = function [< 'Int n >] -> n | [< 'Kwd "("; n = parse_expr; 'Kwd ")" >] -> n | [< n1 = parse_expr; n2 = parse_remainder n1 >] -> n2 and parse_remainder n1 = function [< 'Kwd "+"; n2 = parse_expr >] -> n1+n2 | ... ] *)