Module Ltlparser

module Ltlparser: sig .. end

type token = 
| LTL_TRUE
| LTL_FALSE
| LTL_LPAREN
| LTL_RPAREN
| LTL_OR
| LTL_IMPLIES
| LTL_LEFT_RIGHT_ARROW
| LTL_AND
| LTL_NOT
| LTL_GLOBALLY
| LTL_FATALLY
| LTL_UNTIL
| LTL_RELEASE
| LTL_NEXT
| LTL_EQ
| LTL_LT
| LTL_GT
| LTL_LE
| LTL_GE
| LTL_NEQ
| LTL_PLUS
| LTL_MINUS
| LTL_DIV
| LTL_STAR
| LTL_MODULO
| LTL_RIGHT_ARROW
| LTL_DOT
| LTL_LEFT_SQUARE
| LTL_RIGHT_SQUARE
| LTL_ADRESSE
| LTL_CALL
| LTL_RETURN
| LTL_CALL_OR_RETURN
| LTL_INT of string
| LTL_LABEL of string
| EOF
val observed_expressions : (string,
Logic_ptree.relation * Promelaast.expression * Promelaast.expression)
Hashtbl.t
val ident_count : int Pervasives.ref
val get_fresh_ident : unit -> string
val yytransl_const : int array
val yytransl_block : int array
val yylhs : string
val yylen : string
val yydefred : string
val yydgoto : string
val yysindex : string
val yyrindex : string
val yygindex : string
val yytablesize : int
val yytable : string
val yycheck : string
val yynames_const : string
val yynames_block : string
val yyact : (Parsing.parser_env -> Obj.t) array
val yytables : Parsing.parse_tables
val ltl : (Lexing.lexbuf -> token) ->
Lexing.lexbuf ->
Ltlast.formula *
(string,
Logic_ptree.relation * Promelaast.expression * Promelaast.expression)
Hashtbl.t