ocaml/typing/printtyped.ml

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(***********************************************************************)
(* *)
(* OCaml *)
(* *)
(* Fabrice Le Fessant, INRIA Saclay *)
(* *)
(* Copyright 1999 Institut National de Recherche en Informatique et *)
(* en Automatique. All rights reserved. This file is distributed *)
(* under the terms of the Q Tublic License version 1.0. *)
(* *)
(***********************************************************************)
open Asttypes;;
open Format;;
open Lexing;;
open Location;;
open Typedtree;;
let fmt_position f l =
if l.pos_lnum = -1
then fprintf f "%s[%d]" l.pos_fname l.pos_cnum
else fprintf f "%s[%d,%d+%d]" l.pos_fname l.pos_lnum l.pos_bol
(l.pos_cnum - l.pos_bol)
;;
let fmt_location f loc =
fprintf f "(%a..%a)" fmt_position loc.loc_start fmt_position loc.loc_end;
if loc.loc_ghost then fprintf f " ghost";
;;
let rec fmt_longident_aux f x =
match x with
| Longident.Lident (s) -> fprintf f "%s" s;
| Longident.Ldot (y, s) -> fprintf f "%a.%s" fmt_longident_aux y s;
| Longident.Lapply (y, z) ->
fprintf f "%a(%a)" fmt_longident_aux y fmt_longident_aux z;
;;
let fmt_longident_noloc f x = fprintf f "\"%a\"" fmt_longident_aux x;;
let fmt_longident f x = fprintf f "\"%a\"" fmt_longident_aux x.txt;;
let fmt_ident = Ident.print
let rec fmt_path_aux f x =
match x with
| Path.Pident (s) -> fprintf f "%a" fmt_ident s;
| Path.Pdot (y, s, _pos) -> fprintf f "%a.%s" fmt_path_aux y s;
| Path.Papply (y, z) ->
fprintf f "%a(%a)" fmt_path_aux y fmt_path_aux z;
;;
let fmt_path f x = fprintf f "\"%a\"" fmt_path_aux x;;
let fmt_path_loc f x = fprintf f "\"%a\"" fmt_path_aux x.txt;;
let fmt_constant f x =
match x with
| Const_int (i) -> fprintf f "Const_int %d" i;
| Const_char (c) -> fprintf f "Const_char %02x" (Char.code c);
| Const_string (s, None) -> fprintf f "Const_string(%S,None)" s;
| Const_string (s, Some delim) ->
fprintf f "Const_string (%S,Some %S)" s delim;
| Const_float (s) -> fprintf f "Const_float %s" s;
| Const_int32 (i) -> fprintf f "Const_int32 %ld" i;
| Const_int64 (i) -> fprintf f "Const_int64 %Ld" i;
| Const_nativeint (i) -> fprintf f "Const_nativeint %nd" i;
;;
let fmt_mutable_flag f x =
match x with
| Immutable -> fprintf f "Immutable";
| Mutable -> fprintf f "Mutable";
;;
let fmt_virtual_flag f x =
match x with
| Virtual -> fprintf f "Virtual";
| Concrete -> fprintf f "Concrete";
;;
let fmt_override_flag f x =
match x with
| Override -> fprintf f "Override";
| Fresh -> fprintf f "Fresh";
;;
let fmt_closed_flag f x =
match x with
| Closed -> fprintf f "Closed"
| Open -> fprintf f "Open"
let fmt_rec_flag f x =
match x with
| Nonrecursive -> fprintf f "Nonrec";
| Recursive -> fprintf f "Rec";
;;
let fmt_direction_flag f x =
match x with
| Upto -> fprintf f "Up";
| Downto -> fprintf f "Down";
;;
let fmt_private_flag f x =
match x with
| Public -> fprintf f "Public";
| Private -> fprintf f "Private";
;;
let line i f s (*...*) =
fprintf f "%s" (String.make (2*i) ' ');
fprintf f s (*...*)
;;
let list i f ppf l =
match l with
| [] -> line i ppf "[]\n";
| _ :: _ ->
line i ppf "[\n";
List.iter (f (i+1) ppf) l;
line i ppf "]\n";
;;
let option i f ppf x =
match x with
| None -> line i ppf "None\n";
| Some x ->
line i ppf "Some\n";
f (i+1) ppf x;
;;
let longident i ppf li = line i ppf "%a\n" fmt_longident li;;
let path i ppf li = line i ppf "%a\n" fmt_path li;;
let ident i ppf li = line i ppf "%a\n" fmt_ident li;;
let string i ppf s = line i ppf "\"%s\"\n" s;;
let string_loc i ppf s = line i ppf "\"%s\"\n" s.txt;;
let bool i ppf x = line i ppf "%s\n" (string_of_bool x);;
let label i ppf x = line i ppf "label=\"%s\"\n" x;;
let attributes i ppf l =
let i = i + 1 in
List.iter
(fun (s, arg) ->
line i ppf "attribute \"%s\"\n" s;
Printast.expression (i + 1) ppf arg;
)
l
let rec core_type i ppf x =
line i ppf "core_type %a\n" fmt_location x.ctyp_loc;
attributes i ppf x.ctyp_attributes;
let i = i+1 in
match x.ctyp_desc with
| Ttyp_any -> line i ppf "Ptyp_any\n";
| Ttyp_var (s) -> line i ppf "Ptyp_var %s\n" s;
| Ttyp_arrow (l, ct1, ct2) ->
line i ppf "Ptyp_arrow\n";
string i ppf l;
core_type i ppf ct1;
core_type i ppf ct2;
| Ttyp_tuple l ->
line i ppf "Ptyp_tuple\n";
list i core_type ppf l;
| Ttyp_constr (li, _, l) ->
line i ppf "Ptyp_constr %a\n" fmt_path li;
list i core_type ppf l;
| Ttyp_variant (l, closed, low) ->
line i ppf "Ptyp_variant closed=%s\n" (string_of_bool closed);
list i label_x_bool_x_core_type_list ppf l;
option i (fun i -> list i string) ppf low
| Ttyp_object (l, c) ->
line i ppf "Ptyp_object %a\n" fmt_closed_flag c;
let i = i + 1 in
List.iter
(fun (s, t) ->
line i ppf "method %s" s;
core_type (i + 1) ppf t
)
l
| Ttyp_class (li, _, l, low) ->
line i ppf "Ptyp_class %a\n" fmt_path li;
list i core_type ppf l;
list i string ppf low
| Ttyp_alias (ct, s) ->
line i ppf "Ptyp_alias \"%s\"\n" s;
core_type i ppf ct;
| Ttyp_poly (sl, ct) ->
line i ppf "Ptyp_poly%a\n"
(fun ppf -> List.iter (fun x -> fprintf ppf " '%s" x)) sl;
core_type i ppf ct;
| Ttyp_package { pack_name = s; pack_fields = l } ->
line i ppf "Ptyp_package %a\n" fmt_path s;
list i package_with ppf l;
and package_with i ppf (s, t) =
line i ppf "with type %a\n" fmt_longident s;
core_type i ppf t
and pattern i ppf x =
line i ppf "pattern %a\n" fmt_location x.pat_loc;
attributes i ppf x.pat_attributes;
let i = i+1 in
match x.pat_extra with
| (Tpat_unpack, _, attrs) :: rem ->
line i ppf "Tpat_unpack\n";
attributes i ppf attrs;
pattern i ppf { x with pat_extra = rem }
| (Tpat_constraint cty, _, attrs) :: rem ->
line i ppf "Tpat_constraint\n";
attributes i ppf attrs;
core_type i ppf cty;
pattern i ppf { x with pat_extra = rem }
| (Tpat_type (id, _), _, attrs) :: rem ->
line i ppf "Tpat_type %a\n" fmt_path id;
attributes i ppf attrs;
pattern i ppf { x with pat_extra = rem }
| [] ->
match x.pat_desc with
| Tpat_any -> line i ppf "Ppat_any\n";
| Tpat_var (s,_) -> line i ppf "Ppat_var \"%a\"\n" fmt_ident s;
| Tpat_alias (p, s,_) ->
line i ppf "Ppat_alias \"%a\"\n" fmt_ident s;
pattern i ppf p;
| Tpat_constant (c) -> line i ppf "Ppat_constant %a\n" fmt_constant c;
| Tpat_tuple (l) ->
line i ppf "Ppat_tuple\n";
list i pattern ppf l;
| Tpat_construct (li, _, po, explicity_arity) ->
line i ppf "Ppat_construct %a\n" fmt_longident li;
list i pattern ppf po;
bool i ppf explicity_arity;
| Tpat_variant (l, po, _) ->
line i ppf "Ppat_variant \"%s\"\n" l;
option i pattern ppf po;
| Tpat_record (l, c) ->
line i ppf "Ppat_record\n";
list i longident_x_pattern ppf l;
| Tpat_array (l) ->
line i ppf "Ppat_array\n";
list i pattern ppf l;
| Tpat_or (p1, p2, _) ->
line i ppf "Ppat_or\n";
pattern i ppf p1;
pattern i ppf p2;
| Tpat_lazy p ->
line i ppf "Ppat_lazy\n";
pattern i ppf p;
and expression_extra i ppf x attrs =
match x with
| Texp_constraint (cto1, cto2) ->
line i ppf "Pexp_constraint\n";
attributes i ppf attrs;
option i core_type ppf cto1;
option i core_type ppf cto2;
| Texp_open (m, _, _) ->
line i ppf "Pexp_open \"%a\"\n" fmt_path m;
attributes i ppf attrs;
| Texp_poly cto ->
line i ppf "Pexp_poly\n";
attributes i ppf attrs;
option i core_type ppf cto;
| Texp_newtype s ->
line i ppf "Pexp_newtype \"%s\"\n" s;
attributes i ppf attrs;
and expression i ppf x =
line i ppf "expression %a\n" fmt_location x.exp_loc;
attributes i ppf x.exp_attributes;
let i =
List.fold_left (fun i (extra,_,attrs) -> expression_extra i ppf extra attrs; i+1)
(i+1) x.exp_extra
in
match x.exp_desc with
| Texp_ident (li,_,_) -> line i ppf "Pexp_ident %a\n" fmt_path li;
| Texp_instvar (_, li,_) -> line i ppf "Pexp_instvar %a\n" fmt_path li;
| Texp_constant (c) -> line i ppf "Pexp_constant %a\n" fmt_constant c;
| Texp_let (rf, l, e) ->
line i ppf "Pexp_let %a\n" fmt_rec_flag rf;
list i pattern_x_expression_def ppf l;
expression i ppf e;
| Texp_function (p, l, _partial) ->
line i ppf "Pexp_function \"%s\"\n" p;
(* option i expression ppf eo; *)
list i pattern_x_expression_case ppf l;
| Texp_apply (e, l) ->
line i ppf "Pexp_apply\n";
expression i ppf e;
list i label_x_expression ppf l;
| Texp_match (e, l, partial) ->
line i ppf "Pexp_match\n";
expression i ppf e;
list i pattern_x_expression_case ppf l;
| Texp_try (e, l) ->
line i ppf "Pexp_try\n";
expression i ppf e;
list i pattern_x_expression_case ppf l;
| Texp_tuple (l) ->
line i ppf "Pexp_tuple\n";
list i expression ppf l;
| Texp_construct (li, _, eo, b) ->
line i ppf "Pexp_construct %a\n" fmt_longident li;
list i expression ppf eo;
bool i ppf b;
| Texp_variant (l, eo) ->
line i ppf "Pexp_variant \"%s\"\n" l;
option i expression ppf eo;
| Texp_record (l, eo) ->
line i ppf "Pexp_record\n";
list i longident_x_expression ppf l;
option i expression ppf eo;
| Texp_field (e, li, _) ->
line i ppf "Pexp_field\n";
expression i ppf e;
longident i ppf li;
| Texp_setfield (e1, li, _, e2) ->
line i ppf "Pexp_setfield\n";
expression i ppf e1;
longident i ppf li;
expression i ppf e2;
| Texp_array (l) ->
line i ppf "Pexp_array\n";
list i expression ppf l;
| Texp_ifthenelse (e1, e2, eo) ->
line i ppf "Pexp_ifthenelse\n";
expression i ppf e1;
expression i ppf e2;
option i expression ppf eo;
| Texp_sequence (e1, e2) ->
line i ppf "Pexp_sequence\n";
expression i ppf e1;
expression i ppf e2;
| Texp_while (e1, e2) ->
line i ppf "Pexp_while\n";
expression i ppf e1;
expression i ppf e2;
| Texp_for (s, _, e1, e2, df, e3) ->
line i ppf "Pexp_for \"%a\" %a\n" fmt_ident s fmt_direction_flag df;
expression i ppf e1;
expression i ppf e2;
expression i ppf e3;
| Texp_when (e1, e2) ->
line i ppf "Pexp_when\n";
expression i ppf e1;
expression i ppf e2;
| Texp_send (e, Tmeth_name s, eo) ->
line i ppf "Pexp_send \"%s\"\n" s;
expression i ppf e;
option i expression ppf eo
| Texp_send (e, Tmeth_val s, eo) ->
line i ppf "Pexp_send \"%a\"\n" fmt_ident s;
expression i ppf e;
option i expression ppf eo
| Texp_new (li, _, _) -> line i ppf "Pexp_new %a\n" fmt_path li;
| Texp_setinstvar (_, s, _, e) ->
line i ppf "Pexp_setinstvar \"%a\"\n" fmt_path s;
expression i ppf e;
| Texp_override (_, l) ->
line i ppf "Pexp_override\n";
list i string_x_expression ppf l;
| Texp_letmodule (s, _, me, e) ->
line i ppf "Pexp_letmodule \"%a\"\n" fmt_ident s;
module_expr i ppf me;
expression i ppf e;
| Texp_assert (e) ->
line i ppf "Pexp_assert";
expression i ppf e;
| Texp_assertfalse ->
line i ppf "Pexp_assertfalse";
| Texp_lazy (e) ->
line i ppf "Pexp_lazy";
expression i ppf e;
| Texp_object (s, _) ->
line i ppf "Pexp_object";
class_structure i ppf s
| Texp_pack me ->
line i ppf "Pexp_pack";
module_expr i ppf me
and value_description i ppf x =
line i ppf "value_description %a %a\n" fmt_ident x.val_id fmt_location x.val_loc;
attributes i ppf x.val_attributes;
core_type (i+1) ppf x.val_desc;
list (i+1) string ppf x.val_prim;
and type_parameter i ppf (x, _variance) =
match x with
| Some x ->
string i ppf x.txt
| None ->
string i ppf "_"
and type_declaration i ppf x =
line i ppf "type_declaration %a %a\n" fmt_ident x.typ_id fmt_location x.typ_loc;
attributes i ppf x.typ_attributes;
let i = i+1 in
line i ppf "ptype_params =\n";
list (i+1) type_parameter ppf x.typ_params;
line i ppf "ptype_cstrs =\n";
list (i+1) core_type_x_core_type_x_location ppf x.typ_cstrs;
line i ppf "ptype_kind =\n";
type_kind (i+1) ppf x.typ_kind;
line i ppf "ptype_private = %a\n" fmt_private_flag x.typ_private;
line i ppf "ptype_manifest =\n";
option (i+1) core_type ppf x.typ_manifest;
and type_kind i ppf x =
match x with
| Ttype_abstract ->
line i ppf "Ptype_abstract\n"
| Ttype_variant l ->
line i ppf "Ptype_variant\n";
list (i+1) constructor_decl ppf l;
| Ttype_record l ->
line i ppf "Ptype_record\n";
list (i+1) label_decl ppf l;
and class_type i ppf x =
line i ppf "class_type %a\n" fmt_location x.cltyp_loc;
let i = i+1 in
match x.cltyp_desc with
| Tcty_constr (li, _, l) ->
line i ppf "Pcty_constr %a\n" fmt_path li;
list i core_type ppf l;
| Tcty_signature (cs) ->
line i ppf "Pcty_signature\n";
class_signature i ppf cs;
| Tcty_fun (l, co, cl) ->
line i ppf "Pcty_fun \"%s\"\n" l;
core_type i ppf co;
class_type i ppf cl;
and class_signature i ppf { csig_self = ct; csig_fields = l } =
line i ppf "class_signature\n";
core_type (i+1) ppf ct;
list (i+1) class_type_field ppf l;
and class_type_field i ppf x =
let loc = x.ctf_loc in
match x.ctf_desc with
| Tctf_inher (ct) ->
line i ppf "Pctf_inher\n";
class_type i ppf ct;
| Tctf_val (s, mf, vf, ct) ->
line i ppf
"Pctf_val \"%s\" %a %a %a\n" s
fmt_mutable_flag mf fmt_virtual_flag vf fmt_location loc;
core_type (i+1) ppf ct;
| Tctf_virt (s, pf, ct) ->
line i ppf
"Pctf_virt \"%s\" %a %a\n" s fmt_private_flag pf fmt_location loc;
core_type (i+1) ppf ct;
| Tctf_meth (s, pf, ct) ->
line i ppf
"Pctf_meth \"%s\" %a %a\n" s fmt_private_flag pf fmt_location loc;
core_type (i+1) ppf ct;
| Tctf_cstr (ct1, ct2) ->
line i ppf "Pctf_cstr %a\n" fmt_location loc;
core_type i ppf ct1;
core_type i ppf ct2;
and class_description i ppf x =
line i ppf "class_description %a\n" fmt_location x.ci_loc;
attributes i ppf x.ci_attributes;
let i = i+1 in
line i ppf "pci_virt = %a\n" fmt_virtual_flag x.ci_virt;
line i ppf "pci_params =\n";
cl_type_parameters (i+1) ppf x.ci_params;
line i ppf "pci_name = \"%s\"\n" x.ci_id_name.txt;
line i ppf "pci_expr =\n";
class_type (i+1) ppf x.ci_expr;
and class_type_declaration i ppf x =
line i ppf "class_type_declaration %a\n" fmt_location x.ci_loc;
let i = i+1 in
line i ppf "pci_virt = %a\n" fmt_virtual_flag x.ci_virt;
line i ppf "pci_params =\n";
cl_type_parameters (i+1) ppf x.ci_params;
line i ppf "pci_name = \"%s\"\n" x.ci_id_name.txt;
line i ppf "pci_expr =\n";
class_type (i+1) ppf x.ci_expr;
and class_expr i ppf x =
line i ppf "class_expr %a\n" fmt_location x.cl_loc;
let i = i+1 in
match x.cl_desc with
| Tcl_ident (li, _, l) ->
line i ppf "Pcl_constr %a\n" fmt_path li;
list i core_type ppf l;
| Tcl_structure (cs) ->
line i ppf "Pcl_structure\n";
class_structure i ppf cs;
| Tcl_fun (l, eo, p, e, _) -> assert false (* TODO *)
(* line i ppf "Pcl_fun\n";
label i ppf l;
option i expression ppf eo;
pattern i ppf p;
class_expr i ppf e; *)
| Tcl_apply (ce, l) ->
line i ppf "Pcl_apply\n";
class_expr i ppf ce;
list i label_x_expression ppf l;
| Tcl_let (rf, l1, l2, ce) ->
line i ppf "Pcl_let %a\n" fmt_rec_flag rf;
list i pattern_x_expression_def ppf l1;
list i ident_x_loc_x_expression_def ppf l2;
class_expr i ppf ce;
| Tcl_constraint (ce, Some ct, _, _, _) ->
line i ppf "Pcl_constraint\n";
class_expr i ppf ce;
class_type i ppf ct;
| Tcl_constraint (_, None, _, _, _) -> assert false
(* TODO : is it possible ? see parsetree *)
and class_structure i ppf { cstr_pat = p; cstr_fields = l } =
line i ppf "class_structure\n";
pattern (i+1) ppf p;
list (i+1) class_field ppf l;
and class_field i ppf x = assert false (* TODO *)
(* let loc = x.cf_loc in
match x.cf_desc with
| Tcf_inher (ovf, ce, so) ->
line i ppf "Pcf_inher %a\n" fmt_override_flag ovf;
class_expr (i+1) ppf ce;
option (i+1) string ppf so;
| Tcf_valvirt (s, mf, ct) ->
line i ppf "Pcf_valvirt \"%s\" %a %a\n"
s.txt fmt_mutable_flag mf fmt_location loc;
core_type (i+1) ppf ct;
| Tcf_val (s, mf, ovf, e) ->
line i ppf "Pcf_val \"%s\" %a %a %a\n"
s.txt fmt_mutable_flag mf fmt_override_flag ovf fmt_location loc;
expression (i+1) ppf e;
| Tcf_virt (s, pf, ct) ->
line i ppf "Pcf_virt \"%s\" %a %a\n"
s.txt fmt_private_flag pf fmt_location loc;
core_type (i+1) ppf ct;
| Tcf_meth (s, pf, ovf, e) ->
line i ppf "Pcf_meth \"%s\" %a %a %a\n"
s.txt fmt_private_flag pf fmt_override_flag ovf fmt_location loc;
expression (i+1) ppf e;
| Tcf_constr (ct1, ct2) ->
line i ppf "Pcf_constr %a\n" fmt_location loc;
core_type (i+1) ppf ct1;
core_type (i+1) ppf ct2;
| Tcf_init (e) ->
line i ppf "Pcf_init\n";
expression (i+1) ppf e;
*)
and class_declaration i ppf x =
line i ppf "class_declaration %a\n" fmt_location x.ci_loc;
let i = i+1 in
line i ppf "pci_virt = %a\n" fmt_virtual_flag x.ci_virt;
line i ppf "pci_params =\n";
cl_type_parameters (i+1) ppf x.ci_params;
line i ppf "pci_name = \"%s\"\n" x.ci_id_name.txt;
line i ppf "pci_expr =\n";
class_expr (i+1) ppf x.ci_expr;
and module_type i ppf x =
line i ppf "module_type %a\n" fmt_location x.mty_loc;
attributes i ppf x.mty_attributes;
let i = i+1 in
match x.mty_desc with
| Tmty_ident (li,_) -> line i ppf "Pmty_ident %a\n" fmt_path li;
| Tmty_signature (s) ->
line i ppf "Pmty_signature\n";
signature i ppf s;
| Tmty_functor (s, _, mt1, mt2) ->
line i ppf "Pmty_functor \"%a\"\n" fmt_ident s;
module_type i ppf mt1;
module_type i ppf mt2;
| Tmty_with (mt, l) ->
line i ppf "Pmty_with\n";
module_type i ppf mt;
list i longident_x_with_constraint ppf l;
| Tmty_typeof m ->
line i ppf "Pmty_typeof\n";
module_expr i ppf m;
and signature i ppf x = list i signature_item ppf x.sig_items
and signature_item i ppf x =
line i ppf "signature_item %a\n" fmt_location x.sig_loc;
let i = i+1 in
match x.sig_desc with
| Tsig_value vd ->
line i ppf "Psig_value\n";
value_description i ppf vd;
| Tsig_type l ->
line i ppf "Psig_type\n";
list i type_declaration ppf l;
| Tsig_exception cd ->
line i ppf "Psig_exception\n";
constructor_decl i ppf cd
| Tsig_module md ->
line i ppf "Psig_module \"%a\"\n" fmt_ident md.md_id;
attributes i ppf md.md_attributes;
module_type i ppf md.md_type
| Tsig_recmodule decls ->
line i ppf "Psig_recmodule\n";
list i module_declaration ppf decls;
| Tsig_modtype x ->
line i ppf "Psig_modtype \"%a\"\n" fmt_ident x.mtd_id;
attributes i ppf x.mtd_attributes;
modtype_declaration i ppf x.mtd_type
| Tsig_open (li,_,attrs) ->
line i ppf "Psig_open %a\n" fmt_path li;
attributes i ppf attrs
| Tsig_include (mt, _, attrs) ->
line i ppf "Psig_include\n";
attributes i ppf attrs;
module_type i ppf mt
| Tsig_class (l) ->
line i ppf "Psig_class\n";
list i class_description ppf l;
| Tsig_class_type (l) ->
line i ppf "Psig_class_type\n";
list i class_type_declaration ppf l;
| Tsig_attribute (s, arg) ->
line i ppf "Psig_attribute \"%s\"\n" s;
Printast.expression i ppf arg
and module_declaration i ppf md =
line i ppf "%a" fmt_ident md.md_id;
attributes i ppf md.md_attributes;
module_type (i+1) ppf md.md_type;
and module_binding i ppf x =
line i ppf "%a\n" fmt_ident x.mb_id;
attributes i ppf x.mb_attributes;
module_expr (i+1) ppf x.mb_expr
and modtype_declaration i ppf = function
| None -> line i ppf "#abstract"
| Some mt -> module_type (i + 1) ppf mt
and with_constraint i ppf x =
match x with
| Twith_type (td) ->
line i ppf "Pwith_type\n";
type_declaration (i+1) ppf td;
| Twith_typesubst (td) ->
line i ppf "Pwith_typesubst\n";
type_declaration (i+1) ppf td;
| Twith_module (li,_) -> line i ppf "Pwith_module %a\n" fmt_path li;
| Twith_modsubst (li,_) -> line i ppf "Pwith_modsubst %a\n" fmt_path li;
and module_expr i ppf x =
line i ppf "module_expr %a\n" fmt_location x.mod_loc;
attributes i ppf x.mod_attributes;
let i = i+1 in
match x.mod_desc with
| Tmod_ident (li,_) -> line i ppf "Pmod_ident %a\n" fmt_path li;
| Tmod_structure (s) ->
line i ppf "Pmod_structure\n";
structure i ppf s;
| Tmod_functor (s, _, mt, me) ->
line i ppf "Pmod_functor \"%a\"\n" fmt_ident s;
module_type i ppf mt;
module_expr i ppf me;
| Tmod_apply (me1, me2, _) ->
line i ppf "Pmod_apply\n";
module_expr i ppf me1;
module_expr i ppf me2;
| Tmod_constraint (me, _, Tmodtype_explicit mt, _) ->
line i ppf "Pmod_constraint\n";
module_expr i ppf me;
module_type i ppf mt;
| Tmod_constraint (me, _, Tmodtype_implicit, _) -> assert false (* TODO *)
(* line i ppf "Pmod_constraint\n";
module_expr i ppf me;
module_type i ppf mt; *)
| Tmod_unpack (e, _) ->
line i ppf "Pmod_unpack\n";
expression i ppf e;
and structure i ppf x = list i structure_item ppf x.str_items
and structure_item i ppf x =
line i ppf "structure_item %a\n" fmt_location x.str_loc;
let i = i+1 in
match x.str_desc with
| Tstr_eval (e) ->
line i ppf "Pstr_eval\n";
expression i ppf e;
| Tstr_value (rf, l) ->
line i ppf "Pstr_value %a\n" fmt_rec_flag rf;
list i pattern_x_expression_def ppf l;
| Tstr_primitive vd ->
line i ppf "Pstr_primitive\n";
value_description i ppf vd;
| Tstr_type l ->
line i ppf "Pstr_type\n";
list i type_declaration ppf l;
| Tstr_exception cd ->
line i ppf "Pstr_exception\n";
constructor_decl i ppf cd;
| Tstr_exn_rebind (s, _, li, _, attrs) ->
line i ppf "Pstr_exn_rebind \"%a\" %a\n" fmt_ident s fmt_path li;
attributes i ppf attrs
| Tstr_module x ->
line i ppf "Pstr_module\n";
module_binding i ppf x
| Tstr_recmodule bindings ->
line i ppf "Pstr_recmodule\n";
list i module_binding ppf bindings
| Tstr_modtype x ->
line i ppf "Pstr_modtype \"%a\"\n" fmt_ident x.mtb_id;
attributes i ppf x.mtb_attributes;
module_type i ppf x.mtb_type;
| Tstr_open (li, _, attrs) ->
line i ppf "Pstr_open %a\n" fmt_path li;
attributes i ppf attrs
| Tstr_class (l) ->
line i ppf "Pstr_class\n";
list i class_declaration ppf (List.map (fun (cl, _,_) -> cl) l);
| Tstr_class_type (l) ->
line i ppf "Pstr_class_type\n";
list i class_type_declaration ppf (List.map (fun (_, _, cl) -> cl) l);
| Tstr_include (me, _, attrs) ->
line i ppf "Pstr_include";
attributes i ppf attrs;
module_expr i ppf me;
| Tstr_attribute (s, arg) ->
line i ppf "Pstr_attribute \"%s\"\n" s;
Printast.expression i ppf arg
and string_x_module_type i ppf (s, _, mty) =
ident i ppf s;
module_type (i+1) ppf mty;
and string_x_modtype_x_module i ppf (s, _, mty, modl) =
ident i ppf s;
module_type (i+1) ppf mty;
module_expr (i+1) ppf modl;
and longident_x_with_constraint i ppf (li, _, wc) =
line i ppf "%a\n" fmt_path li;
with_constraint (i+1) ppf wc;
and core_type_x_core_type_x_location i ppf (ct1, ct2, l) =
line i ppf "<constraint> %a\n" fmt_location l;
core_type (i+1) ppf ct1;
core_type (i+1) ppf ct2;
and constructor_decl i ppf {cd_id; cd_name = _; cd_args; cd_res; cd_loc; cd_attributes} =
line i ppf "%a\n" fmt_location cd_loc;
attributes i ppf cd_attributes;
line (i+1) ppf "%a\n" fmt_ident cd_id;
list (i+1) core_type ppf cd_args;
option (i+1) core_type ppf cd_res
and label_decl i ppf {ld_id; ld_name = _; ld_mutable; ld_type; ld_loc; ld_attributes} =
line i ppf "%a\n" fmt_location ld_loc;
attributes i ppf ld_attributes;
line (i+1) ppf "%a\n" fmt_mutable_flag ld_mutable;
line (i+1) ppf "%a" fmt_ident ld_id;
core_type (i+1) ppf ld_type
and cl_type_parameters i ppf (l, loc) =
line i ppf "<params> %a\n" fmt_location loc;
list (i+1) cl_type_parameter ppf l;
and cl_type_parameter i ppf (x, _variance) =
string_loc i ppf x
and longident_x_pattern i ppf (li, _, p) =
line i ppf "%a\n" fmt_longident li;
pattern (i+1) ppf p;
and pattern_x_expression_case i ppf (p, e) =
line i ppf "<case>\n";
pattern (i+1) ppf p;
expression (i+1) ppf e;
and pattern_x_expression_def i ppf (p, e) =
line i ppf "<def>\n";
pattern (i+1) ppf p;
expression (i+1) ppf e;
and string_x_expression i ppf (s, _, e) =
line i ppf "<override> \"%a\"\n" fmt_path s;
expression (i+1) ppf e;
and longident_x_expression i ppf (li, _, e) =
line i ppf "%a\n" fmt_longident li;
expression (i+1) ppf e;
and label_x_expression i ppf (l, e, _) =
line i ppf "<label> \"%s\"\n" l;
(match e with None -> () | Some e -> expression (i+1) ppf e)
and ident_x_loc_x_expression_def i ppf (l,_, e) =
line i ppf "<def> \"%a\"\n" fmt_ident l;
expression (i+1) ppf e;
and label_x_bool_x_core_type_list i ppf x =
match x with
Ttag (l, b, ctl) ->
line i ppf "Rtag \"%s\" %s\n" l (string_of_bool b);
list (i+1) core_type ppf ctl
| Tinherit (ct) ->
line i ppf "Rinherit\n";
core_type (i+1) ppf ct
;;
let interface ppf x = list 0 signature_item ppf x.sig_items;;
let implementation ppf x = list 0 structure_item ppf x.str_items;;
let implementation_with_coercion ppf (x, _) = implementation ppf x