(***********************************************************************) (* *) (* OCamldoc *) (* *) (* 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 Q Public License version 1.0. *) (* *) (***********************************************************************) (* $Id$ *) (** Representation and manipulation of classes and class types.*) module Name = Odoc_name (** To keep the order of elements in a class *) type class_element = Class_attribute of Odoc_value.t_attribute | Class_method of Odoc_value.t_method | Class_comment of Odoc_types.text (** Used when we can reference t_class or t_class_type. *) type cct = Cl of t_class | Cltype of t_class_type * Types.type_expr list (** class type and type parameters *) and inherited_class = { ic_name : Name.t ; (** Complete name of the inherited class *) mutable ic_class : cct option ; (** The associated t_class or t_class_type *) ic_text : Odoc_types.text option ; (** The inheritance comment, if any *) } and class_apply = { capp_name : Name.t ; (** The complete name of the applied class *) mutable capp_class : t_class option; (** The associated t_class if we found it *) capp_params : Types.type_expr list; (** The type of expressions the class is applied to *) capp_params_code : string list ; (** The code of these expressions *) } and class_constr = { cco_name : Name.t ; (** The complete name of the applied class *) mutable cco_class : cct option; (** The associated class ot class type if we found it *) cco_type_parameters : Types.type_expr list; (** The type parameters of the class, if needed *) } and class_kind = Class_structure of inherited_class list * class_element list (** an explicit class structure, used in implementation and interface *) | Class_apply of class_apply (** application/alias of a class, used in implementation only *) | Class_constr of class_constr (** a class used to give the type of the defined class, instead of a structure, used in interface only. For example, it will be used with the name "M1.M2....tutu" when the class to is defined like this : class toto : int -> tutu *) | Class_constraint of class_kind * class_type_kind (** A class definition with a constraint. *) (** Representation of a class. *) and t_class = { cl_name : Name.t ; (** Name of the class *) mutable cl_info : Odoc_types.info option ; (** The optional associated user information *) cl_type : Types.class_type ; cl_type_parameters : Types.type_expr list ; (** Type parameters *) cl_virtual : bool ; (** true = virtual *) mutable cl_kind : class_kind ; mutable cl_parameters : Odoc_parameter.parameter list ; mutable cl_loc : Odoc_types.location ; } and class_type_alias = { cta_name : Name.t ; mutable cta_class : cct option ; (** we can have a t_class or a t_class_type *) cta_type_parameters : Types.type_expr list ; (** the type parameters *) } and class_type_kind = Class_signature of inherited_class list * class_element list | Class_type of class_type_alias (** a class type eventually applied to type args *) (** Representation of a class type. *) and t_class_type = { clt_name : Name.t ; mutable clt_info : Odoc_types.info option ; (** The optional associated user information *) clt_type : Types.class_type ; clt_type_parameters : Types.type_expr list ; (** type parameters *) clt_virtual : bool ; (** true = virtual *) mutable clt_kind : class_type_kind ; mutable clt_loc : Odoc_types.location ; } (** {2 Functions} *) (** Returns the text associated to the given parameter label in the given class, or None. *) let class_parameter_text_by_name cl label = match cl.cl_info with None -> None | Some i -> try let t = List.assoc label i.Odoc_types.i_params in Some t with Not_found -> None (** Returns the list of elements of a t_class. *) let rec class_elements ?(trans=true) cl = let rec iter_kind k = match k with Class_structure (_, elements) -> elements | Class_constraint (c_kind, ct_kind) -> iter_kind c_kind (* A VOIR : utiliser le c_kind ou le ct_kind ? Pour l'instant, comme le ct_kind n'est pas analyse, on cherche dans le c_kind class_type_elements ~trans: trans { clt_name = "" ; clt_info = None ; clt_type_parameters = [] ; clt_virtual = false ; clt_kind = ct_kind } *) | Class_apply capp -> ( match capp.capp_class with Some c when trans -> class_elements ~trans: trans c | _ -> [] ) | Class_constr cco -> ( match cco.cco_class with Some (Cl c) when trans -> class_elements ~trans: trans c | Some (Cltype (ct,_)) when trans -> class_type_elements ~trans: trans ct | _ -> [] ) in iter_kind cl.cl_kind (** Returns the list of elements of a t_class_type. *) and class_type_elements ?(trans=true) clt = match clt.clt_kind with Class_signature (_, elements) -> elements | Class_type { cta_class = Some (Cltype (ct, _)) } when trans -> class_type_elements ~trans ct | Class_type { cta_class = Some (Cl c) } when trans -> class_elements ~trans c | Class_type _ -> [] (** Returns the attributes of a t_class. *) let class_attributes ?(trans=true) cl = List.fold_left (fun acc -> fun ele -> match ele with Class_attribute a -> acc @ [ a ] | _ -> acc ) [] (class_elements ~trans cl) (** Returns the methods of a t_class. *) let class_methods ?(trans=true) cl = List.fold_left (fun acc -> fun ele -> match ele with Class_method m -> acc @ [ m ] | _ -> acc ) [] (class_elements ~trans cl) (** Returns the comments in a t_class. *) let class_comments ?(trans=true) cl = List.fold_left (fun acc -> fun ele -> match ele with Class_comment t -> acc @ [ t ] | _ -> acc ) [] (class_elements ~trans cl) (** Update the parameters text of a t_class, according to the cl_info field. *) let class_update_parameters_text cl = let f p = Odoc_parameter.update_parameter_text (class_parameter_text_by_name cl) p in List.iter f cl.cl_parameters (** Returns the attributes of a t_class_type. *) let class_type_attributes ?(trans=true) clt = List.fold_left (fun acc -> fun ele -> match ele with Class_attribute a -> acc @ [ a ] | _ -> acc ) [] (class_type_elements ~trans clt) (** Returns the methods of a t_class_type. *) let class_type_methods ?(trans=true) clt = List.fold_left (fun acc -> fun ele -> match ele with Class_method m -> acc @ [ m ] | _ -> acc ) [] (class_type_elements ~trans clt) (** Returns the comments in a t_class_type. *) let class_type_comments ?(trans=true) clt = List.fold_left (fun acc -> fun ele -> match ele with Class_comment m -> acc @ [ m ] | _ -> acc ) [] (class_type_elements ~trans clt) (** Returns the text associated to the given parameter label in the given class type, or None. *) let class_type_parameter_text_by_name clt label = match clt.clt_info with None -> None | Some i -> try let t = List.assoc label i.Odoc_types.i_params in Some t with Not_found -> None (* eof $Id$ *)