(* camlp4r *) (***********************************************************************) (* *) (* Camlp4 *) (* *) (* Daniel de Rauglaudre, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 2002 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* This file has been generated by program: do not edit! *) (** Extensible grammars. This module implements the Camlp4 extensible grammars system. Grammars entries can be extended using the [EXTEND] statement, added by loading the Camlp4 [pa_extend.cmo] file. *) type g;; (** The type for grammars, holding entries. *) val gcreate : Token.t Token.glexer -> g;; (** Create a new grammar, without keywords, using the lexer given as parameter. *) val tokens : g -> string -> (string * int) list;; (** Given a grammar and a token pattern constructor, returns the list of the corresponding values currently used in all entries of this grammar. The integer is the number of times this pattern value is used. Examples: - If the associated lexer uses ("", xxx) to represent a keyword (what is represented by then simple string xxx in an [EXTEND] statement rule), the call [Grammar.token g ""] returns the keywords list. - The call [Grammar.token g "IDENT"] returns the list of all usages of the pattern "IDENT" in the [EXTEND] statements. *) val glexer : g -> Token.t Token.glexer;; (** Return the lexer used by the grammar *) module Entry : sig type 'a e;; val create : g -> string -> 'a e;; val parse : 'a e -> char Stream.t -> 'a;; val parse_token : 'a e -> Token.t Stream.t -> 'a;; val name : 'a e -> string;; val of_parser : g -> string -> (Token.t Stream.t -> 'a) -> 'a e;; val print : 'a e -> unit;; val find : 'a e -> string -> Obj.t e;; external obj : 'a e -> Token.t Gramext.g_entry = "%identity";; end ;; (** Module to handle entries. - [Entry.e] is the type for entries returning values of type ['a]. - [Entry.create g n] creates a new entry named [n] in the grammar [g]. - [Entry.parse e] returns the stream parser of the entry [e]. - [Entry.parse_token e] returns the token parser of the entry [e]. - [Entry.name e] returns the name of the entry [e]. - [Entry.of_parser g n p] makes an entry from a token stream parser. - [Entry.print e] displays the entry [e] using [Format]. - [Entry.find e s] finds the entry named [s] in [e]'s rules. - [Entry.obj e] converts an entry into a [Gramext.g_entry] allowing - to see what it holds ([Gramext] is visible, but not documented). *) val of_entry : 'a Entry.e -> g;; (** Return the grammar associated with an entry. *) (** {6 Clearing grammars and entries} *) module Unsafe : sig val gram_reinit : g -> Token.t Token.glexer -> unit;; val clear_entry : 'a Entry.e -> unit;; val reinit_gram : g -> Token.lexer -> unit;; end ;; (** Module for clearing grammars and entries. To be manipulated with care, because: 1) reinitializing a grammar destroys all tokens and there may have problems with the associated lexer if it has a notion of keywords; 2) clearing an entry does not destroy the tokens used only by itself. - [Unsafe.reinit_gram g lex] removes the tokens of the grammar - and sets [lex] as a new lexer for [g]. Warning: the lexer - itself is not reinitialized. - [Unsafe.clear_entry e] removes all rules of the entry [e]. *) (** {6 Functorial interface} *) (** Alternative for grammars use. Grammars are no more Ocaml values: there is no type for them. Modules generated preserve the rule "an entry cannot call an entry of another grammar" by normal OCaml typing. *) module type GLexerType = sig type te;; val lexer : te Token.glexer;; end;; (** The input signature for the functor [Grammar.GMake]: [te] is the type of the tokens. *) module type S = sig type te;; type parsable;; val parsable : char Stream.t -> parsable;; val tokens : string -> (string * int) list;; val glexer : te Token.glexer;; module Entry : sig type 'a e;; val create : string -> 'a e;; val parse : 'a e -> parsable -> 'a;; val parse_token : 'a e -> te Stream.t -> 'a;; val name : 'a e -> string;; val of_parser : string -> (te Stream.t -> 'a) -> 'a e;; val print : 'a e -> unit;; external obj : 'a e -> te Gramext.g_entry = "%identity";; end ;; module Unsafe : sig val gram_reinit : te Token.glexer -> unit;; val clear_entry : 'a Entry.e -> unit;; val reinit_gram : Token.lexer -> unit;; end ;; val extend : 'a Entry.e -> Gramext.position option -> (string option * Gramext.g_assoc option * (te Gramext.g_symbol list * Gramext.g_action) list) list -> unit;; val delete_rule : 'a Entry.e -> te Gramext.g_symbol list -> unit;; end ;; (** Signature type of the functor [Grammar.GMake]. The types and functions are almost the same than in generic interface, but: - Grammars are not values. Functions holding a grammar as parameter do not have this parameter yet. - The type [parsable] is used in function [parse] instead of the char stream, avoiding the possible loss of tokens. - The type of tokens (expressions and patterns) can be any type (instead of (string * string)); the module parameter must specify a way to show them as (string * string) *) module GMake (L : GLexerType) : S with type te = L.te;; (** {6 Miscellaneous} *) val error_verbose : bool ref;; (** Flag for displaying more information in case of parsing error; default = [False] *) val warning_verbose : bool ref;; (** Flag for displaying warnings while extension; default = [True] *) val strict_parsing : bool ref;; (** Flag to apply strict parsing, without trying to recover errors; default = [False] *) val strict_parsing_warning : bool ref;; (** Flag for displaying a warning when entering recovery mode; default = [False] *) val print_entry : Format.formatter -> 'te Gramext.g_entry -> unit;; (** General printer for all kinds of entries (obj entries) *) val iter_entry : ('te Gramext.g_entry -> unit) -> 'te Gramext.g_entry -> unit;; (** [Grammar.iter_entry f e] applies [f] to the entry [e] and transitively all entries called by [e]. The order in which the entries are passed to [f] is the order they appear in each entry. Each entry is passed only once. *) val fold_entry : ('te Gramext.g_entry -> 'a -> 'a) -> 'te Gramext.g_entry -> 'a -> 'a;; (** [Grammar.fold_entry f e init] computes [(f eN .. (f e2 (f e1 init)))], where [e1 .. eN] are [e] and transitively all entries called by [e]. The order in which the entries are passed to [f] is the order they appear in each entry. Each entry is passed only once. *) (**/**) (*** deprecated since version 3.05; use rather the functor GMake *) module type LexerType = sig val lexer : Token.lexer;; end;; module Make (L : LexerType) : S with type te = Token.t;; (*** deprecated since version 3.05; use rather the function gcreate *) val create : Token.lexer -> g;; (*** For system use *) val loc_of_token_interval : int -> int -> Token.flocation;; val extend : ('te Gramext.g_entry * Gramext.position option * (string option * Gramext.g_assoc option * ('te Gramext.g_symbol list * Gramext.g_action) list) list) list -> unit;; val delete_rule : 'a Entry.e -> Token.t Gramext.g_symbol list -> unit;; val parse_top_symb : 'te Gramext.g_entry -> 'te Gramext.g_symbol -> 'te Stream.t -> Obj.t;; val symb_failed_txt : 'te Gramext.g_entry -> 'te Gramext.g_symbol -> 'te Gramext.g_symbol -> string;;