(**************************************************************************) (* *) (* OCaml *) (* *) (* Thomas Gazagnaire (OCamlPro), Fabrice Le Fessant (INRIA Saclay) *) (* *) (* Copyright 2007 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. *) (* *) (**************************************************************************) open Asttypes open Typedtree open Parsetree open Ast_helper (* Some notes: * For Pexp_function, we cannot go back to the exact original version when there is a default argument, because the default argument is translated in the typer. The code, if printed, will not be parsable because new generated identifiers are not correct. * For Pexp_apply, it is unclear whether arguments are reordered, especially when there are optional arguments. * TODO: check Ttype_variant -> Ptype_variant (stub None) *) let option f = function None -> None | Some e -> Some (f e) let rec lident_of_path path = match path with Path.Pident id -> Longident.Lident (Ident.name id) | Path.Pdot (p, s, _) -> Longident.Ldot (lident_of_path p, s) | Path.Papply (p1, p2) -> Longident.Lapply (lident_of_path p1, lident_of_path p2) let rec untype_structure str = List.map untype_structure_item str.str_items and untype_structure_item item = let desc = match item.str_desc with Tstr_eval exp -> Pstr_eval (untype_expression exp) | Tstr_value (rec_flag, list) -> Pstr_value (rec_flag, List.map (fun (pat, exp) -> untype_pattern pat, untype_expression exp) list) | Tstr_primitive vd -> Pstr_primitive (untype_value_description vd) | Tstr_type list -> Pstr_type (List.map untype_type_declaration list) | Tstr_exception decl -> Pstr_exception (untype_constructor_declaration decl) | Tstr_exn_rebind (_id, name, _p, lid, attrs) -> Pstr_exn_rebind (name, lid, attrs) | Tstr_module mb -> Pstr_module (untype_module_binding mb) | Tstr_recmodule list -> Pstr_recmodule (List.map untype_module_binding list) | Tstr_modtype x -> Pstr_modtype (untype_module_type_binding x) | Tstr_open (_path, lid, attrs) -> Pstr_open (lid, attrs) | Tstr_class list -> Pstr_class (List.map (fun (ci, _, _) -> { pci_virt = ci.ci_virt; pci_params = ci.ci_params; pci_name = ci.ci_id_name; pci_expr = untype_class_expr ci.ci_expr; pci_loc = ci.ci_loc; pci_attributes = ci.ci_attributes; } ) list) | Tstr_class_type list -> Pstr_class_type (List.map (fun (_id, _name, ct) -> { pci_virt = ct.ci_virt; pci_params = ct.ci_params; pci_name = ct.ci_id_name; pci_expr = untype_class_type ct.ci_expr; pci_loc = ct.ci_loc; pci_attributes = ct.ci_attributes; } ) list) | Tstr_include (mexpr, _, attrs) -> Pstr_include (untype_module_expr mexpr, attrs) | Tstr_attribute x -> Pstr_attribute x in { pstr_desc = desc; pstr_loc = item.str_loc; } and untype_value_description v = { pval_name = v.val_name; pval_prim = v.val_prim; pval_type = untype_core_type v.val_desc; pval_loc = v.val_loc; pval_attributes = v.val_attributes; } and untype_module_binding mb = { pmb_name = mb.mb_name; pmb_expr = untype_module_expr mb.mb_expr; pmb_attributes = mb.mb_attributes; } and untype_module_type_binding mtb = { pmtb_name=mtb.mtb_name; pmtb_type=untype_module_type mtb.mtb_type; pmtb_attributes=mtb.mtb_attributes; } and untype_type_declaration decl = { ptype_name = decl.typ_name; ptype_params = decl.typ_params; ptype_cstrs = List.map (fun (ct1, ct2, loc) -> (untype_core_type ct1, untype_core_type ct2, loc) ) decl.typ_cstrs; ptype_kind = (match decl.typ_kind with Ttype_abstract -> Ptype_abstract | Ttype_variant list -> Ptype_variant (List.map untype_constructor_declaration list) | Ttype_record list -> Ptype_record (List.map (fun ld -> {pld_name=ld.ld_name; pld_mutable=ld.ld_mutable; pld_type=untype_core_type ld.ld_type; pld_loc=ld.ld_loc; pld_attributes=ld.ld_attributes} ) list) ); ptype_private = decl.typ_private; ptype_manifest = option untype_core_type decl.typ_manifest; ptype_attributes = decl.typ_attributes; ptype_loc = decl.typ_loc; } and untype_constructor_declaration cd = { pcd_name = cd.cd_name; pcd_args = List.map untype_core_type cd.cd_args; pcd_res = option untype_core_type cd.cd_res; pcd_loc = cd.cd_loc; pcd_attributes = cd.cd_attributes; } and untype_pattern pat = let desc = match pat with { pat_extra=[Tpat_unpack, _, _attrs]; pat_desc = Tpat_var (_,name); _ } -> Ppat_unpack name | { pat_extra=[Tpat_type (_path, lid), _, _attrs]; _ } -> Ppat_type lid | { pat_extra= (Tpat_constraint ct, _, _attrs) :: rem; _ } -> Ppat_constraint (untype_pattern { pat with pat_extra=rem }, untype_core_type ct) | _ -> match pat.pat_desc with Tpat_any -> Ppat_any | Tpat_var (id, name) -> begin match (Ident.name id).[0] with 'A'..'Z' -> Ppat_unpack name | _ -> Ppat_var name end | Tpat_alias (pat, _id, name) -> Ppat_alias (untype_pattern pat, name) | Tpat_constant cst -> Ppat_constant cst | Tpat_tuple list -> Ppat_tuple (List.map untype_pattern list) | Tpat_construct (lid, _, args, explicit_arity) -> Ppat_construct (lid, (match args with [] -> None | args -> Some (Pat.tuple ~loc:pat.pat_loc (List.map untype_pattern args) ) ), explicit_arity) | Tpat_variant (label, pato, _) -> Ppat_variant (label, option untype_pattern pato) | Tpat_record (list, closed) -> Ppat_record (List.map (fun (lid, _, pat) -> lid, untype_pattern pat) list, closed) | Tpat_array list -> Ppat_array (List.map untype_pattern list) | Tpat_or (p1, p2, _) -> Ppat_or (untype_pattern p1, untype_pattern p2) | Tpat_lazy p -> Ppat_lazy (untype_pattern p) in Pat.mk ~loc:pat.pat_loc ~attrs:pat.pat_attributes desc (* todo: fix attributes on extras *) and untype_extra (extra, loc, attrs) sexp = let desc = match extra with Texp_constraint (cty1, cty2) -> Pexp_constraint (sexp, option untype_core_type cty1, option untype_core_type cty2) | Texp_open (_path, lid, _) -> Pexp_open (lid, sexp) | Texp_poly cto -> Pexp_poly (sexp, option untype_core_type cto) | Texp_newtype s -> Pexp_newtype (s, sexp) in Exp.mk ~loc ~attrs desc and untype_expression exp = let desc = match exp.exp_desc with Texp_ident (_path, lid, _) -> Pexp_ident (lid) | Texp_constant cst -> Pexp_constant cst | Texp_let (rec_flag, list, exp) -> Pexp_let (rec_flag, List.map (fun (pat, exp) -> untype_pattern pat, untype_expression exp) list, untype_expression exp) | Texp_function (label, cases, _) -> Pexp_function (label, None, List.map (fun (pat, exp) -> (untype_pattern pat, untype_expression exp)) cases) | Texp_apply (exp, list) -> Pexp_apply (untype_expression exp, List.fold_right (fun (label, expo, _) list -> match expo with None -> list | Some exp -> (label, untype_expression exp) :: list ) list []) | Texp_match (exp, list, _) -> Pexp_match (untype_expression exp, List.map (fun (pat, exp) -> untype_pattern pat, untype_expression exp) list) | Texp_try (exp, list) -> Pexp_try (untype_expression exp, List.map (fun (pat, exp) -> untype_pattern pat, untype_expression exp) list) | Texp_tuple list -> Pexp_tuple (List.map untype_expression list) | Texp_construct (lid, _, args, explicit_arity) -> Pexp_construct (lid, (match args with [] -> None | [ arg ] -> Some (untype_expression arg) | args -> Some (Exp.tuple ~loc:exp.exp_loc (List.map untype_expression args)) ), explicit_arity) | Texp_variant (label, expo) -> Pexp_variant (label, option untype_expression expo) | Texp_record (list, expo) -> Pexp_record (List.map (fun (lid, _, exp) -> lid, untype_expression exp ) list, option untype_expression expo) | Texp_field (exp, lid, _label) -> Pexp_field (untype_expression exp, lid) | Texp_setfield (exp1, lid, _label, exp2) -> Pexp_setfield (untype_expression exp1, lid, untype_expression exp2) | Texp_array list -> Pexp_array (List.map untype_expression list) | Texp_ifthenelse (exp1, exp2, expo) -> Pexp_ifthenelse (untype_expression exp1, untype_expression exp2, option untype_expression expo) | Texp_sequence (exp1, exp2) -> Pexp_sequence (untype_expression exp1, untype_expression exp2) | Texp_while (exp1, exp2) -> Pexp_while (untype_expression exp1, untype_expression exp2) | Texp_for (_id, name, exp1, exp2, dir, exp3) -> Pexp_for (name, untype_expression exp1, untype_expression exp2, dir, untype_expression exp3) | Texp_when (exp1, exp2) -> Pexp_when (untype_expression exp1, untype_expression exp2) | Texp_send (exp, meth, _) -> Pexp_send (untype_expression exp, match meth with Tmeth_name name -> name | Tmeth_val id -> Ident.name id) | Texp_new (_path, lid, _) -> Pexp_new (lid) | Texp_instvar (_, path, name) -> Pexp_ident ({name with txt = lident_of_path path}) | Texp_setinstvar (_, _path, lid, exp) -> Pexp_setinstvar (lid, untype_expression exp) | Texp_override (_, list) -> Pexp_override (List.map (fun (_path, lid, exp) -> lid, untype_expression exp ) list) | Texp_letmodule (_id, name, mexpr, exp) -> Pexp_letmodule (name, untype_module_expr mexpr, untype_expression exp) | Texp_assert exp -> Pexp_assert (untype_expression exp) | Texp_assertfalse -> Pexp_assertfalse | Texp_lazy exp -> Pexp_lazy (untype_expression exp) | Texp_object (cl, _) -> Pexp_object (untype_class_structure cl) | Texp_pack (mexpr) -> Pexp_pack (untype_module_expr mexpr) in List.fold_right untype_extra exp.exp_extra (Exp.mk ~loc:exp.exp_loc ~attrs:exp.exp_attributes desc) and untype_package_type pack = (pack.pack_txt, List.map (fun (s, ct) -> (s, untype_core_type ct)) pack.pack_fields) and untype_signature sg = List.map untype_signature_item sg.sig_items and untype_signature_item item = let desc = match item.sig_desc with Tsig_value v -> Psig_value (untype_value_description v) | Tsig_type list -> Psig_type (List.map untype_type_declaration list) | Tsig_exception decl -> Psig_exception (untype_constructor_declaration decl) | Tsig_module md -> Psig_module {pmd_name = md.md_name; pmd_type = untype_module_type md.md_type; pmd_attributes = md.md_attributes} | Tsig_recmodule list -> Psig_recmodule (List.map (fun md -> {pmd_name = md.md_name; pmd_type = untype_module_type md.md_type; pmd_attributes = md.md_attributes}) list) | Tsig_modtype mtd -> Psig_modtype {pmtd_name=mtd.mtd_name; pmtd_type=option untype_module_type mtd.mtd_type; pmtd_attributes=mtd.mtd_attributes} | Tsig_open (_path, lid, attrs) -> Psig_open (lid, attrs) | Tsig_include (mty, _lid, attrs) -> Psig_include (untype_module_type mty, attrs) | Tsig_class list -> Psig_class (List.map untype_class_description list) | Tsig_class_type list -> Psig_class_type (List.map untype_class_type_declaration list) | Tsig_attribute x -> Psig_attribute x in { psig_desc = desc; psig_loc = item.sig_loc; } and untype_class_description cd = { pci_virt = cd.ci_virt; pci_params = cd.ci_params; pci_name = cd.ci_id_name; pci_expr = untype_class_type cd.ci_expr; pci_loc = cd.ci_loc; pci_attributes = cd.ci_attributes; } and untype_class_type_declaration cd = { pci_virt = cd.ci_virt; pci_params = cd.ci_params; pci_name = cd.ci_id_name; pci_expr = untype_class_type cd.ci_expr; pci_loc = cd.ci_loc; pci_attributes = cd.ci_attributes; } and untype_module_type mty = let desc = match mty.mty_desc with Tmty_ident (_path, lid) -> Pmty_ident (lid) | Tmty_signature sg -> Pmty_signature (untype_signature sg) | Tmty_functor (_id, name, mtype1, mtype2) -> Pmty_functor (name, untype_module_type mtype1, untype_module_type mtype2) | Tmty_with (mtype, list) -> Pmty_with (untype_module_type mtype, List.map (fun (_path, lid, withc) -> lid, untype_with_constraint lid withc ) list) | Tmty_typeof mexpr -> Pmty_typeof (untype_module_expr mexpr) in Mty.mk ~loc:mty.mty_loc desc and untype_with_constraint lid cstr = match cstr with Twith_type decl -> Pwith_type (untype_type_declaration decl) | Twith_module (_path, lid) -> Pwith_module (lid) | Twith_typesubst decl -> Pwith_typesubst (untype_type_declaration decl) | Twith_modsubst (_path, lid) -> Pwith_modsubst (lid) and untype_module_expr mexpr = match mexpr.mod_desc with Tmod_constraint (m, _, Tmodtype_implicit, _ ) -> untype_module_expr m | _ -> let desc = match mexpr.mod_desc with Tmod_ident (_p, lid) -> Pmod_ident (lid) | Tmod_structure st -> Pmod_structure (untype_structure st) | Tmod_functor (_id, name, mtype, mexpr) -> Pmod_functor (name, untype_module_type mtype, untype_module_expr mexpr) | Tmod_apply (mexp1, mexp2, _) -> Pmod_apply (untype_module_expr mexp1, untype_module_expr mexp2) | Tmod_constraint (mexpr, _, Tmodtype_explicit mtype, _) -> Pmod_constraint (untype_module_expr mexpr, untype_module_type mtype) | Tmod_constraint (_mexpr, _, Tmodtype_implicit, _) -> assert false | Tmod_unpack (exp, _pack) -> Pmod_unpack (untype_expression exp) (* TODO , untype_package_type pack) *) in Mod.mk ~loc:mexpr.mod_loc desc and untype_class_expr cexpr = let desc = match cexpr.cl_desc with | Tcl_constraint ( { cl_desc = Tcl_ident (_path, lid, tyl); _ }, None, _, _, _ ) -> Pcl_constr (lid, List.map untype_core_type tyl) | Tcl_structure clstr -> Pcl_structure (untype_class_structure clstr) | Tcl_fun (label, pat, _pv, cl, _partial) -> Pcl_fun (label, None, untype_pattern pat, untype_class_expr cl) | Tcl_apply (cl, args) -> Pcl_apply (untype_class_expr cl, List.fold_right (fun (label, expo, _) list -> match expo with None -> list | Some exp -> (label, untype_expression exp) :: list ) args []) | Tcl_let (rec_flat, bindings, _ivars, cl) -> Pcl_let (rec_flat, List.map (fun (pat, exp) -> (untype_pattern pat, untype_expression exp)) bindings, untype_class_expr cl) | Tcl_constraint (cl, Some clty, _vals, _meths, _concrs) -> Pcl_constraint (untype_class_expr cl, untype_class_type clty) | Tcl_ident _ -> assert false | Tcl_constraint (_, None, _, _, _) -> assert false in { pcl_desc = desc; pcl_loc = cexpr.cl_loc; } and untype_class_type ct = let desc = match ct.cltyp_desc with Tcty_signature csg -> Pcty_signature (untype_class_signature csg) | Tcty_constr (_path, lid, list) -> Pcty_constr (lid, List.map untype_core_type list) | Tcty_fun (label, ct, cl) -> Pcty_fun (label, untype_core_type ct, untype_class_type cl) in { pcty_desc = desc; pcty_loc = ct.cltyp_loc } and untype_class_signature cs = { pcsig_self = untype_core_type cs.csig_self; pcsig_fields = List.map untype_class_type_field cs.csig_fields; pcsig_loc = cs.csig_loc; } and untype_class_type_field ctf = let desc = match ctf.ctf_desc with Tctf_inher ct -> Pctf_inher (untype_class_type ct) | Tctf_val (s, mut, virt, ct) -> Pctf_val (s, mut, virt, untype_core_type ct) | Tctf_virt (s, priv, ct) -> Pctf_virt (s, priv, untype_core_type ct) | Tctf_meth (s, priv, ct) -> Pctf_meth (s, priv, untype_core_type ct) | Tctf_cstr (ct1, ct2) -> Pctf_cstr (untype_core_type ct1, untype_core_type ct2) in { pctf_desc = desc; pctf_loc = ctf.ctf_loc; pctf_attributes = ctf.ctf_attributes; } and untype_core_type ct = let desc = match ct.ctyp_desc with Ttyp_any -> Ptyp_any | Ttyp_var s -> Ptyp_var s | Ttyp_arrow (label, ct1, ct2) -> Ptyp_arrow (label, untype_core_type ct1, untype_core_type ct2) | Ttyp_tuple list -> Ptyp_tuple (List.map untype_core_type list) | Ttyp_constr (_path, lid, list) -> Ptyp_constr (lid, List.map untype_core_type list) | Ttyp_object (list, o) -> Ptyp_object (List.map (fun (s, t) -> (s, untype_core_type t)) list, o) | Ttyp_class (_path, lid, list, labels) -> Ptyp_class (lid, List.map untype_core_type list, labels) | Ttyp_alias (ct, s) -> Ptyp_alias (untype_core_type ct, s) | Ttyp_variant (list, bool, labels) -> Ptyp_variant (List.map untype_row_field list, bool, labels) | Ttyp_poly (list, ct) -> Ptyp_poly (list, untype_core_type ct) | Ttyp_package pack -> Ptyp_package (untype_package_type pack) in Typ.mk ~loc:ct.ctyp_loc desc and untype_class_structure cs = { pcstr_pat = untype_pattern cs.cstr_pat; pcstr_fields = List.map untype_class_field cs.cstr_fields; } and untype_row_field rf = match rf with Ttag (label, bool, list) -> Rtag (label, bool, List.map untype_core_type list) | Tinherit ct -> Rinherit (untype_core_type ct) and untype_class_field cf = let desc = match cf.cf_desc with Tcf_inher (ovf, cl, super, _vals, _meths) -> Pcf_inher (ovf, untype_class_expr cl, super) | Tcf_constr (cty, cty') -> Pcf_constr (untype_core_type cty, untype_core_type cty') | Tcf_val (_lab, name, mut, _, Tcfk_virtual cty, _override) -> Pcf_valvirt (name, mut, untype_core_type cty) | Tcf_val (_lab, name, mut, _, Tcfk_concrete exp, override) -> Pcf_val (name, mut, (if override then Override else Fresh), untype_expression exp) | Tcf_meth (_lab, name, priv, Tcfk_virtual cty, _override) -> Pcf_virt (name, priv, untype_core_type cty) | Tcf_meth (_lab, name, priv, Tcfk_concrete exp, override) -> Pcf_meth (name, priv, (if override then Override else Fresh), untype_expression exp) (* | Tcf_let (rec_flag, bindings, _) -> Pcf_let (rec_flag, List.map (fun (pat, exp) -> untype_pattern pat, untype_expression exp) bindings) *) | Tcf_init exp -> Pcf_init (untype_expression exp) in { pcf_desc = desc; pcf_loc = cf.cf_loc; pcf_attributes = cf.cf_attributes }