ocaml/tools/ocamldep.ml

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(***********************************************************************)
(* *)
(* Objective Caml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1999 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. *)
(* *)
(***********************************************************************)
(* $Id$ *)
open Format
open Location
open Longident
open Parsetree
module StringSet = Set.Make(struct type t = string let compare = compare end)
(* Collect free module identifiers in the a.s.t. *)
let free_structure_names = ref StringSet.empty
let rec addmodule bv lid =
match lid with
Lident s ->
if not (StringSet.mem s bv)
then free_structure_names := StringSet.add s !free_structure_names
| Ldot(l, s) -> addmodule bv l
| Lapply(l1, l2) -> addmodule bv l1; addmodule bv l2
let add bv lid =
match lid with
Ldot(l, s) -> addmodule bv l
| _ -> ()
let rec add_type bv ty =
match ty.ptyp_desc with
Ptyp_any -> ()
| Ptyp_var v -> ()
| Ptyp_arrow(_, t1, t2) -> add_type bv t1; add_type bv t2
| Ptyp_tuple tl -> List.iter (add_type bv) tl
| Ptyp_constr(c, tl) -> add bv c; List.iter (add_type bv) tl
| Ptyp_object fl -> List.iter (add_field_type bv) fl
| Ptyp_class(c, tl, _) -> add bv c; List.iter (add_type bv) tl
| Ptyp_alias(t, s) -> add_type bv t
| Ptyp_variant(fl, _, _) ->
List.iter (fun (_,_,stl) -> List.iter (add_type bv) stl) fl
and add_field_type bv ft =
match ft.pfield_desc with
Pfield(name, ty) -> add_type bv ty
| Pfield_var -> ()
let add_opt add_fn bv = function
None -> ()
| Some x -> add_fn bv x
let add_type_declaration bv td =
List.iter
(fun (ty1, ty2, _) -> add_type bv ty1; add_type bv ty2)
td.ptype_cstrs;
add_opt add_type bv td.ptype_manifest;
match td.ptype_kind with
Ptype_abstract -> ()
| Ptype_variant cstrs ->
List.iter (fun (c, args) -> List.iter (add_type bv) args) cstrs
| Ptype_record lbls ->
List.iter (fun (l, mut, ty) -> add_type bv ty) lbls
let rec add_class_type bv cty =
match cty.pcty_desc with
Pcty_constr(l, tyl) ->
add bv l; List.iter (add_type bv) tyl
| Pcty_signature (ty, fieldl) ->
add_type bv ty;
List.iter (add_class_type_field bv) fieldl
| Pcty_fun(_, ty1, cty2) ->
add_type bv ty1; add_class_type bv cty2
and add_class_type_field bv = function
Pctf_inher cty -> add_class_type bv cty
| Pctf_val(_, _, oty, _) -> add_opt add_type bv oty
| Pctf_virt(_, _, ty, _) -> add_type bv ty
| Pctf_meth(_, _, ty, _) -> add_type bv ty
| Pctf_cstr(ty1, ty2, _) -> add_type bv ty1; add_type bv ty2
let add_class_description bv infos =
add_class_type bv infos.pci_expr
let add_class_type_declaration = add_class_description
let rec add_pattern bv pat =
match pat.ppat_desc with
Ppat_any -> ()
| Ppat_var _ -> ()
| Ppat_alias(p, _) -> add_pattern bv p
| Ppat_constant _ -> ()
| Ppat_tuple pl -> List.iter (add_pattern bv) pl
| Ppat_construct(c, op, _) -> add bv c; add_opt add_pattern bv op
| Ppat_record pl -> List.iter (fun (_, p) -> add_pattern bv p) pl
| Ppat_array pl -> List.iter (add_pattern bv) pl
| Ppat_or(p1, p2) -> add_pattern bv p1; add_pattern bv p2
| Ppat_constraint(p, ty) -> add_pattern bv p; add_type bv ty
| Ppat_variant(_, op) -> add_opt add_pattern bv op
| Ppat_type (li) -> add bv li
let rec add_expr bv exp =
match exp.pexp_desc with
Pexp_ident l -> add bv l
| Pexp_constant _ -> ()
| Pexp_let(_, pel, e) -> add_pat_expr_list bv pel; add_expr bv e
| Pexp_function (_, _, pel) -> add_pat_expr_list bv pel
| Pexp_apply(e, el) ->
add_expr bv e; List.iter (fun (_,e) -> add_expr bv e) el
| Pexp_match(e, pel) -> add_expr bv e; add_pat_expr_list bv pel
| Pexp_try(e, pel) -> add_expr bv e; add_pat_expr_list bv pel
| Pexp_tuple el -> List.iter (add_expr bv) el
| Pexp_construct(c, opte, _) -> add bv c; add_opt add_expr bv opte
| Pexp_variant(_, opte) -> add_opt add_expr bv opte
| Pexp_record(lblel, opte) ->
List.iter (fun (lbl, e) -> add_expr bv e) lblel;
add_opt add_expr bv opte
| Pexp_field(e, fld) -> add_expr bv e; add bv fld
| Pexp_setfield(e1, fld, e2) -> add_expr bv e1; add bv fld; add_expr bv e2
| Pexp_array el -> List.iter (add_expr bv) el
| Pexp_ifthenelse(e1, e2, opte3) ->
add_expr bv e1; add_expr bv e2; add_opt add_expr bv opte3
| Pexp_sequence(e1, e2) -> add_expr bv e1; add_expr bv e2
| Pexp_while(e1, e2) -> add_expr bv e1; add_expr bv e2
| Pexp_for(_, e1, e2, _, e3) ->
add_expr bv e1; add_expr bv e2; add_expr bv e3
| Pexp_constraint(e1, oty2, oty3) ->
add_expr bv e1;
add_opt add_type bv oty2;
add_opt add_type bv oty3
| Pexp_when(e1, e2) -> add_expr bv e1; add_expr bv e2
| Pexp_send(e, m) -> add_expr bv e
| Pexp_new l -> add bv l
| Pexp_setinstvar(v, e) -> add_expr bv e
| Pexp_override sel -> List.iter (fun (s, e) -> add_expr bv e) sel
| Pexp_letmodule(id, m, e) ->
add_module bv m; add_expr (StringSet.add id bv) e
and add_pat_expr_list bv pel =
List.iter (fun (p, e) -> add_pattern bv p; add_expr bv e) pel
and add_modtype bv mty =
match mty.pmty_desc with
Pmty_ident l -> add bv l
| Pmty_signature s -> add_signature bv s
| Pmty_functor(id, mty1, mty2) ->
add_modtype bv mty1; add_modtype (StringSet.add id bv) mty2
| Pmty_with(mty, cstrl) ->
add_modtype bv mty;
List.iter
(function (_, Pwith_type td) -> add_type_declaration bv td
| (_, Pwith_module lid) -> addmodule bv lid)
cstrl
and add_signature bv = function
[] -> ()
| item :: rem -> add_signature (add_sig_item bv item) rem
and add_sig_item bv item =
match item.psig_desc with
Psig_value(id, vd) ->
add_type bv vd.pval_type; bv
| Psig_type dcls ->
List.iter (fun (id, td) -> add_type_declaration bv td) dcls; bv
| Psig_exception(id, args) ->
List.iter (add_type bv) args; bv
| Psig_module(id, mty) ->
add_modtype bv mty; StringSet.add id bv
| Psig_modtype(id, mtyd) ->
begin match mtyd with
Pmodtype_abstract -> ()
| Pmodtype_manifest mty -> add_modtype bv mty
end;
bv
| Psig_open lid ->
addmodule bv lid; bv
| Psig_include mty ->
add_modtype bv mty; bv
| Psig_class cdl ->
List.iter (add_class_description bv) cdl; bv
| Psig_class_type cdtl ->
List.iter (add_class_type_declaration bv) cdtl; bv
and add_module bv modl =
match modl.pmod_desc with
Pmod_ident l -> addmodule bv l
| Pmod_structure s -> add_structure bv s
| Pmod_functor(id, mty, modl) ->
add_modtype bv mty;
add_module (StringSet.add id bv) modl
| Pmod_apply(mod1, mod2) ->
add_module bv mod1; add_module bv mod2
| Pmod_constraint(modl, mty) ->
add_module bv modl; add_modtype bv mty
and add_structure bv = function
[] -> ()
| item :: rem -> add_structure (add_struct_item bv item) rem
and add_struct_item bv item =
match item.pstr_desc with
Pstr_eval e ->
add_expr bv e; bv
| Pstr_value(id, pel) ->
add_pat_expr_list bv pel; bv
| Pstr_primitive(id, vd) ->
add_type bv vd.pval_type; bv
| Pstr_type dcls ->
List.iter (fun (id, td) -> add_type_declaration bv td) dcls; bv
| Pstr_exception(id, args) ->
List.iter (add_type bv) args; bv
| Pstr_exn_rebind(id, l) ->
add bv l; bv
| Pstr_module(id, modl) ->
add_module bv modl; StringSet.add id bv
| Pstr_modtype(id, mty) ->
add_modtype bv mty; bv
| Pstr_open l ->
addmodule bv l; bv
| Pstr_class cdl ->
List.iter (add_class_declaration bv) cdl; bv
| Pstr_class_type cdtl ->
List.iter (add_class_type_declaration bv) cdtl; bv
and add_class_expr bv ce =
match ce.pcl_desc with
Pcl_constr(l, tyl) ->
add bv l; List.iter (add_type bv) tyl
| Pcl_structure(pat, fieldl) ->
add_pattern bv pat; List.iter (add_class_field bv) fieldl
| Pcl_fun(_, _, pat, ce) ->
add_pattern bv pat; add_class_expr bv ce
| Pcl_apply(ce, exprl) ->
add_class_expr bv ce; List.iter (fun (_,e) -> add_expr bv e) exprl
| Pcl_let(_, pel, ce) ->
add_pat_expr_list bv pel; add_class_expr bv ce
| Pcl_constraint(ce, ct) ->
add_class_expr bv ce; add_class_type bv ct
and add_class_field bv = function
Pcf_inher(ce, _) -> add_class_expr bv ce
| Pcf_val(_, _, e, _) -> add_expr bv e
| Pcf_virt(_, _, ty, _) -> add_type bv ty
| Pcf_meth(_, _, e, _) -> add_expr bv e
| Pcf_cstr(ty1, ty2, _) -> add_type bv ty1; add_type bv ty2
| Pcf_let(_, pel, _) -> add_pat_expr_list bv pel
| Pcf_init e -> add_expr bv e
and add_class_declaration bv decl =
add_class_expr bv decl.pci_expr
(* Print the dependencies *)
let load_path = ref [""]
let native_only = ref false
let find_dependency modname (byt_deps, opt_deps) =
let name = String.uncapitalize modname in
try
let filename = Misc.find_in_path !load_path (name ^ ".mli") in
let basename = Filename.chop_suffix filename ".mli" in
((basename ^ ".cmi") :: byt_deps,
(if Sys.file_exists (basename ^ ".ml")
then basename ^ ".cmx"
else basename ^ ".cmi") :: opt_deps)
with Not_found ->
try
let filename = Misc.find_in_path !load_path (name ^ ".ml") in
let basename = Filename.chop_suffix filename ".ml" in
((basename ^ (if !native_only then ".cmx" else ".cmo")) :: byt_deps,
(basename ^ ".cmx") :: opt_deps)
with Not_found ->
(byt_deps, opt_deps)
let (depends_on, escaped_eol) =
match Sys.os_type with
| "Unix" | "Win32" -> (": ", "\\\n ")
| "MacOS" -> ("\196 ", "\182\n ")
| _ -> assert false
let print_dependencies target_file deps =
match deps with
[] -> ()
| _ ->
print_string target_file; print_string depends_on;
let rec print_items pos = function
[] -> print_string "\n"
| dep :: rem ->
if pos + String.length dep <= 77 then begin
print_string dep; print_string " ";
print_items (pos + String.length dep + 1) rem
end else begin
print_string escaped_eol; print_string dep; print_string " ";
print_items (String.length dep + 5) rem
end in
print_items (String.length target_file + 2) deps
(* Process one file *)
let error_occurred = ref false
let file_dependencies source_file =
Location.input_name := source_file;
if Sys.file_exists source_file then begin
try
free_structure_names := StringSet.empty;
let ic = open_in source_file in
try
let lb = Lexing.from_channel ic in
if Filename.check_suffix source_file ".ml" then begin
add_structure StringSet.empty (Parse.implementation lb);
let basename = Filename.chop_suffix source_file ".ml" in
let init_deps =
if Sys.file_exists (basename ^ ".mli")
then let cmi_name = basename ^ ".cmi" in ([cmi_name], [cmi_name])
else ([], []) in
let (byt_deps, opt_deps) =
StringSet.fold find_dependency !free_structure_names init_deps in
print_dependencies (basename ^ ".cmo") byt_deps;
print_dependencies (basename ^ ".cmx") opt_deps
end else
if Filename.check_suffix source_file ".mli" then begin
add_signature StringSet.empty (Parse.interface lb);
let basename = Filename.chop_suffix source_file ".mli" in
let (byt_deps, opt_deps) =
StringSet.fold find_dependency !free_structure_names ([], []) in
print_dependencies (basename ^ ".cmi") byt_deps
end else
();
close_in ic
with x ->
close_in ic; raise x
with x ->
let report_err = function
| Lexer.Error(err, start, stop) ->
fprintf Format.err_formatter "@[%a%a@]@."
Location.print {loc_start = start; loc_end = stop; loc_ghost = false}
Lexer.report_error err
| Syntaxerr.Error err ->
fprintf Format.err_formatter "@[%a@]@."
Syntaxerr.report_error err
| Sys_error msg ->
fprintf Format.err_formatter "@[I/O error:@ %s@]@." msg
| x -> raise x in
error_occurred := true;
report_err x
end
(* Entry point *)
let usage = "Usage: ocamldep [-I <dir>] [-native] <files>"
let _ =
Clflags.classic := false;
Arg.parse [
"-I", Arg.String(fun dir -> load_path := !load_path @ [dir]),
"<dir> Add <dir> to the list of include directories";
"-native", Arg.Set native_only,
" Generate dependencies for a pure native-code project (no .cmo files)"
] file_dependencies usage;
exit (if !error_occurred then 2 else 0)