(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Operations on module types *) open Asttypes open Path open Types let rec scrape env mty = match mty with Tmty_ident p -> begin try scrape env (Env.find_modtype_expansion p env) with Not_found -> mty end | _ -> mty let freshen mty = Subst.modtype Subst.identity mty let rec strengthen env mty p = match scrape env mty with Tmty_signature sg -> Tmty_signature(strengthen_sig env sg p) | Tmty_functor(param, arg, res) -> Tmty_functor(param, arg, strengthen env res (Papply(p, Pident param))) | mty -> mty and strengthen_sig env sg p = match sg with [] -> [] | (Tsig_value(id, desc) as sigelt) :: rem -> sigelt :: strengthen_sig env rem p | Tsig_type(id, decl, rs) :: rem -> let newdecl = match decl.type_manifest with Some ty when decl.type_private = Public -> decl | _ -> { decl with type_private = Public; type_manifest = Some(Btype.newgenty(Tconstr(Pdot(p, Ident.name id, nopos), decl.type_params, ref Mnil))) } in Tsig_type(id, newdecl, rs) :: strengthen_sig env rem p | (Tsig_exception(id, d) as sigelt) :: rem -> sigelt :: strengthen_sig env rem p | Tsig_module(id, mty, rs) :: rem -> Tsig_module(id, strengthen env mty (Pdot(p, Ident.name id, nopos)), rs) :: strengthen_sig (Env.add_module id mty env) rem p (* Need to add the module in case it defines manifest module types *) | Tsig_modtype(id, decl) :: rem -> let newdecl = match decl with Tmodtype_abstract -> Tmodtype_manifest(Tmty_ident(Pdot(p, Ident.name id, nopos))) | Tmodtype_manifest _ -> decl in Tsig_modtype(id, newdecl) :: strengthen_sig (Env.add_modtype id decl env) rem p (* Need to add the module type in case it is manifest *) | (Tsig_class(id, decl, rs) as sigelt) :: rem -> sigelt :: strengthen_sig env rem p | (Tsig_cltype(id, decl, rs) as sigelt) :: rem -> sigelt :: strengthen_sig env rem p (* In nondep_supertype, env is only used for the type it assigns to id. Hence there is no need to keep env up-to-date by adding the bindings traversed. *) type variance = Co | Contra | Strict let nondep_supertype env mid mty = let rec nondep_mty va mty = match mty with Tmty_ident p -> if Path.isfree mid p then nondep_mty va (Env.find_modtype_expansion p env) else mty | Tmty_signature sg -> Tmty_signature(nondep_sig va sg) | Tmty_functor(param, arg, res) -> let var_inv = match va with Co -> Contra | Contra -> Co | Strict -> Strict in Tmty_functor(param, nondep_mty var_inv arg, nondep_mty va res) and nondep_sig va = function [] -> [] | item :: rem -> let rem' = nondep_sig va rem in match item with Tsig_value(id, d) -> Tsig_value(id, {val_type = Ctype.nondep_type env mid d.val_type; val_kind = d.val_kind}) :: rem' | Tsig_type(id, d, rs) -> Tsig_type(id, Ctype.nondep_type_decl env mid id (va = Co) d, rs) :: rem' | Tsig_exception(id, d) -> Tsig_exception(id, List.map (Ctype.nondep_type env mid) d) :: rem' | Tsig_module(id, mty, rs) -> Tsig_module(id, nondep_mty va mty, rs) :: rem' | Tsig_modtype(id, d) -> begin try Tsig_modtype(id, nondep_modtype_decl d) :: rem' with Not_found -> match va with Co -> Tsig_modtype(id, Tmodtype_abstract) :: rem' | _ -> raise Not_found end | Tsig_class(id, d, rs) -> Tsig_class(id, Ctype.nondep_class_declaration env mid d, rs) :: rem' | Tsig_cltype(id, d, rs) -> Tsig_cltype(id, Ctype.nondep_cltype_declaration env mid d, rs) :: rem' and nondep_modtype_decl = function Tmodtype_abstract -> Tmodtype_abstract | Tmodtype_manifest mty -> Tmodtype_manifest(nondep_mty Strict mty) in nondep_mty Co mty let enrich_typedecl env p decl = match decl.type_manifest with Some ty -> decl | None -> try let orig_decl = Env.find_type p env in if orig_decl.type_arity <> decl.type_arity then decl else {decl with type_manifest = Some(Btype.newgenty(Tconstr(p, decl.type_params, ref Mnil)))} with Not_found -> decl let rec enrich_modtype env p mty = match mty with Tmty_signature sg -> Tmty_signature(List.map (enrich_item env p) sg) | _ -> mty and enrich_item env p = function Tsig_type(id, decl, rs) -> Tsig_type(id, enrich_typedecl env (Pdot(p, Ident.name id, nopos)) decl, rs) | Tsig_module(id, mty, rs) -> Tsig_module(id, enrich_modtype env (Pdot(p, Ident.name id, nopos)) mty, rs) | item -> item let rec type_paths env p mty = match scrape env mty with Tmty_ident p -> [] | Tmty_signature sg -> type_paths_sig env p 0 sg | Tmty_functor(param, arg, res) -> [] and type_paths_sig env p pos sg = match sg with [] -> [] | Tsig_value(id, decl) :: rem -> let pos' = match decl.val_kind with Val_prim _ -> pos | _ -> pos + 1 in type_paths_sig env p pos' rem | Tsig_type(id, decl, _) :: rem -> Pdot(p, Ident.name id, nopos) :: type_paths_sig env p pos rem | Tsig_module(id, mty, _) :: rem -> type_paths env (Pdot(p, Ident.name id, pos)) mty @ type_paths_sig (Env.add_module id mty env) p (pos+1) rem | Tsig_modtype(id, decl) :: rem -> type_paths_sig (Env.add_modtype id decl env) p pos rem | (Tsig_exception _ | Tsig_class _) :: rem -> type_paths_sig env p (pos+1) rem | (Tsig_cltype _) :: rem -> type_paths_sig env p pos rem let rec no_code_needed env mty = match scrape env mty with Tmty_ident p -> false | Tmty_signature sg -> no_code_needed_sig env sg | Tmty_functor(_, _, _) -> false and no_code_needed_sig env sg = match sg with [] -> true | Tsig_value(id, decl) :: rem -> begin match decl.val_kind with | Val_prim _ -> no_code_needed_sig env rem | _ -> false end | Tsig_module(id, mty, _) :: rem -> no_code_needed env mty && no_code_needed_sig (Env.add_module id mty env) rem | (Tsig_type _ | Tsig_modtype _ | Tsig_cltype _) :: rem -> no_code_needed_sig env rem | (Tsig_exception _ | Tsig_class _) :: rem -> false