(**************************************************************************) (* *) (* OCaml *) (* *) (* Maxence Guesdon, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 2001 Institut National de Recherche en Informatique et *) (* en Automatique. *) (* *) (* All rights reserved. This file is distributed under the terms of *) (* the GNU Lesser General Public License version 2.1, with the *) (* special exception on linking described in the file LICENSE. *) (* *) (**************************************************************************) (** Representation of element names. *) type t = string (** Add parenthesis to the given simple name if needed. *) val parens_if_infix : t -> t (** Return a simple name from a name.*) val simple : t -> t (** Return the name of the 'father' (like dirname for a file name).*) val father : t -> t (** Concatenates two names. *) val concat : t -> t -> t (** Normalize the given name by removing the beginning and ending spaces of the simple name and adding parenthesis if needed. *) val normalize_name : t -> t (** Returns the head of a name. *) val head : t -> t (** Returns the depth of the name, i.e. the number of levels to the root. Example : [Toto.Tutu.name] has depth 3. *) val depth : t -> int (** Returns true if the first name is a prefix of the second name. If the two names are equal, then it is false (strict prefix).*) val prefix : t -> t -> bool (** remove a [Library__] prefix and capitalize the resulting name *) val alias_unprefix: t -> t -> t (** Take two names n1 and n2 = n3.n4 and return n4 if n3=n1 or else n2. *) val get_relative : t -> t -> t (** [get_relative_opt n1 n2] is [n2] if [n1=""] and [get_relative n1 n2] otherwise *) val get_relative_opt : t -> t -> t (** Take two names n1=n3.n4 and n2 = n5.n6 and return n6 if n3=n5 or else n2. *) val get_relative_raw : t -> t -> t (** Take a list of module names to hide and a name, and return the name when the module name (or part of it) was removed, according to the list of module names to hide.*) val hide_given_modules : t list -> t -> t (** Indicate if a name if qualified or not. *) val qualified : t -> bool (** Get a name from an [Ident.t]. *) val from_ident : Ident.t -> t (** Get a name from a [Path.t]. *) val from_path : Path.t -> t (** Get a [Path.t] from a name.*) val to_path : t -> Path.t (** Get a name from a [Longident.t].*) val from_longident : Longident.t -> t module Map : Map.S with type key = t