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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id$ *)
open Printf
open Coqdep_lexer
open Unix
let stderr = Pervasives.stderr
let stdout = Pervasives.stdout
let option_c = ref false
let option_D = ref false
let option_w = ref false
let option_i = ref false
let option_sort = ref false
let option_noglob = ref false
let option_slash = ref false
let suffixe = ref ".vo"
let suffixe_spec = ref ".vi"
type dir = string option
(* filename for printing *)
let (//) s1 s2 =
if !option_slash then s1^"/"^s2 else Filename.concat s1 s2
let (/) = Filename.concat
let file_concat l =
if l=[] then "<empty>" else
List.fold_left (//) (List.hd l) (List.tl l)
let make_ml_module_name filename =
(* Computes a ML Module name from its physical name *)
let fn = try Filename.chop_extension filename with _ -> filename in
let bn = Filename.basename fn in
String.capitalize bn
(* Files specified on the command line *)
let mlAccu = ref ([] : (string * string * dir) list)
and mliAccu = ref ([] : (string * string * dir) list)
and vAccu = ref ([] : (string * string) list)
(* Queue operations *)
let addQueue q v = q := v :: !q
let safe_hash_add clq q (k,v) =
try
let v2 = Hashtbl.find q k in
if v<>v2 then
let rec add_clash = function
(k1,l1)::cltl when k=k1 -> (k1,v::l1)::cltl
| cl::cltl -> cl::add_clash cltl
| [] -> [(k,[v;v2])] in
clq := add_clash !clq
with Not_found -> Hashtbl.add q k v
(* Files found in the loadpaths *)
let mlKnown = (Hashtbl.create 19 : (string, dir) Hashtbl.t)
let mliKnown = (Hashtbl.create 19 : (string, dir) Hashtbl.t)
let vKnown = (Hashtbl.create 19 : (string list, string) Hashtbl.t)
let coqlibKnown = (Hashtbl.create 19 : (string list, unit) Hashtbl.t)
let clash_v = ref ([]: (string list * string list) list)
let warning_module_notfound f s =
eprintf "*** Warning : in file %s, library " f;
eprintf "%s.v is required and has not been found in loadpath !\n"
(String.concat "." s);
flush stderr
let warning_notfound f s =
eprintf "*** Warning : in file %s, the file " f;
eprintf "%s.v is required and has not been found !\n" s;
flush stderr
let warning_clash file dir =
match List.assoc dir !clash_v with
(f1::f2::fl) ->
let f = Filename.basename f1 in
let d1 = Filename.dirname f1 in
let d2 = Filename.dirname f2 in
let dl = List.map Filename.dirname (List.rev fl) in
eprintf
"*** Warning : in file %s, \n required library %s is ambiguous!\n (found %s.v in "
file (String.concat "." dir) f;
List.iter (fun s -> eprintf "%s, " s) dl;
eprintf "%s and %s)\n" d2 d1
| _ -> assert false
let safe_assoc verbose file k =
if verbose && List.mem_assoc k !clash_v then warning_clash file k;
Hashtbl.find vKnown k
let absolute_dir dir =
let current = Sys.getcwd () in
Sys.chdir dir;
let dir' = Sys.getcwd () in
Sys.chdir current;
dir'
let absolute_file_name basename odir =
let dir = match odir with Some dir -> dir | None -> "." in
absolute_dir dir // basename
let file_name = function
| (s,None) -> file_concat s
| (s,Some ".") -> file_concat s
| (s,Some d) -> d // file_concat s
let traite_fichier_ML md ext =
try
let chan = open_in (md ^ ext) in
let buf = Lexing.from_channel chan in
let deja_vu = ref [md] in
let a_faire = ref "" in
let a_faire_opt = ref "" in
begin try
while true do
let (Use_module str) = caml_action buf in
if List.mem str !deja_vu then
()
else begin
addQueue deja_vu str;
begin try
let mlidir = Hashtbl.find mliKnown str in
let filename = file_name ([str],mlidir) in
a_faire := !a_faire ^ " " ^ filename ^ ".cmi";
with Not_found ->
try
let mldir = Hashtbl.find mlKnown str in
let filename = file_name ([str],mldir) in
a_faire := !a_faire ^ " " ^ filename ^ ".cmo";
with Not_found -> ()
end;
begin try
let mldir = Hashtbl.find mlKnown str in
let filename = file_name ([str],mldir) in
a_faire_opt := !a_faire_opt ^ " " ^ filename ^ ".cmx"
with Not_found ->
try
let mlidir = Hashtbl.find mliKnown str in
let filename = file_name ([str],mlidir) in
a_faire_opt := !a_faire_opt ^ " " ^ filename ^ ".cmi"
with Not_found -> ()
end
end
done
with Fin_fichier -> ()
end;
close_in chan;
(!a_faire, !a_faire_opt)
with Sys_error _ -> ("","")
let cut_prefix p s =
let lp = String.length p in
let ls = String.length s in
if ls >= lp && String.sub s 0 lp = p then String.sub s lp (ls - lp) else s
let canonize f =
let f' = absolute_dir (Filename.dirname f) // Filename.basename f in
match List.filter (fun (_,full) -> f' = full) !vAccu with
| (f,_) :: _ -> f
| _ -> f
let sort () =
let seen = Hashtbl.create 97 in
let rec loop file =
let file = canonize file in
if not (Hashtbl.mem seen file) then begin
Hashtbl.add seen file ();
let cin = open_in (file ^ ".v") in
let lb = Lexing.from_channel cin in
try
while true do
match coq_action lb with
| Require (_, sl) ->
List.iter
(fun s ->
try loop (Hashtbl.find vKnown s)
with Not_found -> ())
sl
| RequireString (_, s) -> loop s
| _ -> ()
done
with Fin_fichier ->
close_in cin;
printf "%s%s " file !suffixe
end
in
List.iter (fun (name,_) -> loop name) !vAccu
let traite_fichier_Coq verbose f =
try
let chan = open_in f in
let buf = Lexing.from_channel chan in
let deja_vu_v = ref ([]: string list list)
and deja_vu_ml = ref ([] : string list) in
try
while true do
let tok = coq_action buf in
match tok with
| Require (spec,strl) ->
List.iter (fun str ->
if not (List.mem str !deja_vu_v) then begin
addQueue deja_vu_v str;
try
let file_str = safe_assoc verbose f str in
printf " %s%s" (canonize file_str)
(if spec then !suffixe_spec else !suffixe)
with Not_found ->
if verbose && not (Hashtbl.mem coqlibKnown str) then
warning_module_notfound f str
end) strl
| RequireString (spec,s) ->
let str = Filename.basename s in
if not (List.mem [str] !deja_vu_v) then begin
addQueue deja_vu_v [str];
try
let file_str = Hashtbl.find vKnown [str] in
printf " %s%s" (canonize file_str)
(if spec then !suffixe_spec else !suffixe)
with Not_found ->
if not (Hashtbl.mem coqlibKnown [str]) then
warning_notfound f s
end
| Declare sl ->
List.iter
(fun str ->
let s = make_ml_module_name str in
if not (List.mem s !deja_vu_ml) then begin
addQueue deja_vu_ml s;
try
let mldir = Hashtbl.find mlKnown s in
let filename = file_name ([String.uncapitalize s],mldir) in
if Coq_config.has_natdynlink then
printf " %s.cmo %s.cmxs" filename filename
else
printf " %s.cmo" filename
with Not_found ->
(** The .cmxs we want to load dynamically may come
from a .cmxa, that has no corresponding .ml file.
Idem with bytecode .cma. What dependency should
we produce then ? For the moment, we suppose the
.cmxs and .cma are at the same location. *)
let mldir = Some (Filename.dirname f) in
let filename = file_name ([String.uncapitalize s],mldir) in
if Coq_config.has_natdynlink then
printf " %s.cma %s.cmxs" filename filename
else
printf " %s.cma" filename
end)
sl
| Load str ->
let str = Filename.basename str in
if not (List.mem [str] !deja_vu_v) then begin
addQueue deja_vu_v [str];
try
let file_str = Hashtbl.find vKnown [str] in
printf " %s.v" (canonize file_str)
with Not_found -> ()
end
done
with Fin_fichier -> ();
close_in chan
with Sys_error _ -> ()
let (dep_tab : (string,string list) Hashtbl.t) = Hashtbl.create 151
let mL_dep_list b f =
try
Hashtbl.find dep_tab f
with Not_found ->
let deja_vu = ref ([] : string list) in
try
let chan = open_in f in
let buf = Lexing.from_channel chan in
try
while true do
let (Use_module str) = caml_action buf in
if str = b then begin
eprintf "*** Warning : in file %s the" f;
eprintf " notation %s. is useless !\n" b;
flush stderr
end else
if not (List.mem str !deja_vu) then addQueue deja_vu str
done; []
with Fin_fichier -> begin
close_in chan;
let rl = List.rev !deja_vu in
Hashtbl.add dep_tab f rl;
rl
end
with Sys_error _ -> []
let affiche_Declare f dcl =
printf "\n*** In file %s: \n" f;
printf "Declare ML Module";
List.iter (fun str -> printf " \"%s\"" str) dcl;
printf ".\n";
flush stdout
let warning_Declare f dcl =
eprintf "*** Warning : in file %s, the ML modules" f;
eprintf " declaration should be\n";
eprintf "*** Declare ML Module";
List.iter (fun str -> eprintf " \"%s\"" str) dcl;
eprintf ".\n";
flush stderr
let traite_Declare f =
let decl_list = ref ([] : string list) in
let rec treat = function
| s :: ll ->
let s' = make_ml_module_name s in
if (Hashtbl.mem mlKnown s') & not (List.mem s' !decl_list) then begin
let mldir = Hashtbl.find mlKnown s in
let fullname = file_name ([(String.uncapitalize s')],mldir) in
let depl = mL_dep_list s (fullname ^ ".ml") in
treat depl;
decl_list := s :: !decl_list
end;
treat ll
| [] -> ()
in
try
let chan = open_in f in
let buf = Lexing.from_channel chan in
begin try
while true do
let tok = coq_action buf in
(match tok with
| Declare sl ->
decl_list := [];
treat sl;
decl_list := List.rev !decl_list;
if !option_D then
affiche_Declare f !decl_list
else if !decl_list <> sl then
warning_Declare f !decl_list
| _ -> ())
done
with Fin_fichier -> () end;
close_in chan
with Sys_error _ -> ()
let file_mem (f,_,d) =
let rec loop = function
| (f1,_,d1) :: l -> (f1 = f && d1 = d) || (loop l)
| _ -> false
in
loop
let mL_dependencies () =
List.iter
(fun ((name,ext,dirname) as pairname) ->
let fullname = file_name ([name],dirname) in
let (dep,dep_opt) = traite_fichier_ML fullname ext in
printf "%s.cmo: %s%s" fullname fullname ext;
if file_mem pairname !mliAccu then printf " %s.cmi" fullname;
printf "%s\n" dep;
printf "%s.cmx: %s%s" fullname fullname ext;
if file_mem pairname !mliAccu then printf " %s.cmi" fullname;
printf "%s\n" dep_opt;
flush stdout)
(List.rev !mlAccu);
List.iter
(fun ((name,ext,dirname)) ->
let fullname = file_name ([name],dirname) in
let (dep,_) = traite_fichier_ML fullname ext in
printf "%s.cmi: %s%s" fullname fullname ext;
printf "%s\n" dep;
flush stdout)
(List.rev !mliAccu)
let coq_dependencies () =
List.iter
(fun (name,_) ->
let glob = if !option_noglob then "" else " "^name^".glob" in
printf "%s%s%s: %s.v" name !suffixe glob name;
traite_fichier_Coq true (name ^ ".v");
printf "\n";
if !option_i then begin
printf "%s%s%s: %s.v" name !suffixe_spec glob name;
traite_fichier_Coq false (name ^ ".v");
printf "\n";
end;
flush stdout)
(List.rev !vAccu)
let declare_dependencies () =
List.iter
(fun (name,_) ->
traite_Declare (name^".v");
flush stdout)
(List.rev !vAccu)
let rec warning_mult suf l =
let tab = Hashtbl.create 151 in
Hashtbl.iter
(fun f d ->
begin try
let d' = Hashtbl.find tab f in
if (Filename.dirname (file_name ([f],d)))
<> (Filename.dirname (file_name ([f],d'))) then begin
eprintf "*** Warning : the file %s is defined twice!\n" (f ^ suf);
flush stderr
end
with Not_found -> () end;
Hashtbl.add tab f d)
l
let usage () =
eprintf
"[ usage: coqdep [-w] [-I dir] [-R dir coqdir] [-coqlib dir] [-c] [-i] [-D] <filename>+ ]\n";
flush stderr;
exit 1
let add_coqlib_known phys_dir log_dir f =
if Filename.check_suffix f ".vo" then
let basename = Filename.chop_suffix f ".vo" in
let name = log_dir@[basename] in
Hashtbl.add coqlibKnown [basename] ();
Hashtbl.add coqlibKnown name ()
let add_known phys_dir log_dir f =
if (Filename.check_suffix f ".ml" || Filename.check_suffix f ".mli" || Filename.check_suffix f ".ml4") then
let basename = make_ml_module_name f in
Hashtbl.add mlKnown basename (Some phys_dir)
else if Filename.check_suffix f ".v" then
let basename = Filename.chop_suffix f ".v" in
let name = log_dir@[basename] in
let file = phys_dir//basename in
let paths = [name;[basename]] in
List.iter
(fun n -> safe_hash_add clash_v vKnown (n,file)) paths
(* Visits all the directories under [dir], including [dir],
or just [dir] if [recur=false] *)
let rec add_directory recur add_file phys_dir log_dir =
let dirh = opendir phys_dir in
try
while true do
let f = readdir dirh in
(* we avoid . .. and all hidden files and subdirs (e.g. .svn, _darcs) *)
if f.[0] <> '.' && f.[0] <> '_' then
let phys_f = phys_dir//f in
match try (stat phys_f).st_kind with _ -> S_BLK with
| S_DIR when recur -> add_directory recur add_file phys_f (log_dir@[f])
| S_REG -> add_file phys_dir log_dir f
| _ -> ()
done
with End_of_file -> closedir dirh
let add_dir add_file phys_dir log_dir =
try add_directory false add_file phys_dir log_dir with Unix_error _ -> ()
let add_rec_dir add_file phys_dir log_dir =
handle_unix_error (add_directory true add_file phys_dir) log_dir
let rec treat_file old_dirname old_name =
let name = Filename.basename old_name
and new_dirname = Filename.dirname old_name in
let dirname =
match (old_dirname,new_dirname) with
| (d, ".") -> d
| (None,d) -> Some d
| (Some d1,d2) -> Some (d1//d2)
in
let complete_name = file_name ([name],dirname) in
match try (stat complete_name).st_kind with _ -> S_BLK with
| S_DIR ->
(if name.[0] <> '.' then
let dir=opendir complete_name in
let newdirname =
match dirname with
| None -> name
| Some d -> d//name
in
try
while true do treat_file (Some newdirname) (readdir dir) done
with End_of_file -> closedir dir)
| S_REG ->
if Filename.check_suffix name ".ml" then
let basename = Filename.chop_suffix name ".ml" in
addQueue mlAccu (basename,".ml",dirname)
else if Filename.check_suffix name ".ml4" then
let basename = Filename.chop_suffix name ".ml4" in
addQueue mlAccu (basename,".ml4",dirname)
else if Filename.check_suffix name ".mli" then
let basename = Filename.chop_suffix name ".mli" in
addQueue mliAccu (basename,".mli",dirname)
else if Filename.check_suffix name ".v" then
let basename = Filename.chop_suffix name ".v" in
let name = file_name ([basename],dirname) in
addQueue vAccu (name, absolute_file_name basename dirname)
| _ -> ()
let rec parse = function
| "-c" :: ll -> option_c := true; parse ll
| "-D" :: ll -> option_D := true; parse ll
| "-w" :: ll -> option_w := true; parse ll
| "-i" :: ll -> option_i := true; parse ll
| "-boot" :: ll -> Flags.boot := true; parse ll
| "-sort" :: ll -> option_sort := true; parse ll
| "-noglob" :: ll | "-no-glob" :: ll -> option_noglob := true; parse ll
| "-I" :: r :: ll -> add_dir add_known r []; parse ll
| "-I" :: [] -> usage ()
| "-R" :: r :: ln :: ll -> add_rec_dir add_known r [ln]; parse ll
| "-R" :: ([] | [_]) -> usage ()
| "-coqlib" :: (r :: ll) -> Flags.coqlib_spec := true; Flags.coqlib := r; parse ll
| "-coqlib" :: [] -> usage ()
| "-suffix" :: (s :: ll) -> suffixe := s ; suffixe_spec := s; parse ll
| "-suffix" :: [] -> usage ()
| "-slash" :: ll -> option_slash := true; parse ll
| f :: ll -> treat_file None f; parse ll
| [] -> ()
let coqdep () =
if Array.length Sys.argv < 2 then usage ();
parse (List.tl (Array.to_list Sys.argv));
if !Flags.boot then begin
add_rec_dir add_known "theories" ["Coq"];
add_rec_dir add_known "contrib" ["Coq"]
end else begin
let coqlib = Envars.coqlib () in
add_rec_dir add_coqlib_known (coqlib//"theories") ["Coq"];
add_rec_dir add_coqlib_known (coqlib//"contrib") ["Coq"];
add_dir add_coqlib_known (coqlib//"user-contrib") []
end;
List.iter (fun (f,_,d) -> Hashtbl.add mliKnown f d) !mliAccu;
List.iter (fun (f,_,d) -> Hashtbl.add mlKnown f d) !mlAccu;
warning_mult ".mli" mliKnown;
warning_mult ".ml" mlKnown;
if !option_sort then begin sort (); exit 0 end;
if !option_c && not !option_D then mL_dependencies ();
if not !option_D then coq_dependencies ();
if !option_w || !option_D then declare_dependencies ()
let _ = Printexc.catch coqdep ()
|