module StringSet = Set.Make (String)
type file = {
- ddeps: string list;
- rdeps: StringSet.t option
+ ddeps: string list; (* direct dependences *)
+ rdeps: StringSet.t option (* recursive dependences *)
}
let graph = Hashtbl.create 503
-let rec purge dname bdeps = match bdeps with
- | [] -> bdeps
- | hd :: tl -> if hd = dname then bdeps else purge dname tl
+let debug = ref 0
+
+let rec purge dname vdeps = match vdeps with
+ | [] -> vdeps
+ | hd :: tl -> if hd = dname then tl else hd :: purge dname tl
let add fname =
if Hashtbl.mem graph fname then () else
Hashtbl.replace graph fname {file with ddeps = dname :: file.ddeps}
let init fname dname =
+ if !debug land 1 > 0 then Printf.eprintf "init: %s: %s.\n" fname dname;
add fname; add dname; add_ddep fname dname
-let rec compute bdeps fname file = match file.rdeps with
+(* vdeps: visited dependences for loop detection *)
+let rec compute_from_file vdeps fname file = match file.rdeps with
| Some rdeps -> rdeps
- | None ->
- let bdeps = fname :: bdeps in
- let rdeps = List.fold_left (iter fname bdeps) StringSet.empty file.ddeps in
- Hashtbl.replace graph fname {file with rdeps = Some rdeps};
+ | None ->
+ if !debug land 2 > 0 then Printf.eprintf " compute file: %s\n" fname;
+ let vdeps = fname :: vdeps in
+ List.iter (redundant vdeps fname file.ddeps) file.ddeps;
+ let rdeps = compute_from_ddeps vdeps file.ddeps in
+ Hashtbl.replace graph fname {file with rdeps = Some rdeps};
rdeps
-and iter fname bdeps rdeps dname =
- if StringSet.mem dname rdeps then begin
- Printf.printf "%s: redundant %s\n" fname dname;
- rdeps
- end else if List.mem dname bdeps then begin
- let loop = purge dname (List.rev bdeps) in
+and compute_from_dname vdeps rdeps dname =
+ if List.mem dname vdeps then begin
+ let loop = purge dname (List.rev vdeps) in
Printf.printf "circular: %s\n" (String.concat " " loop);
StringSet.add dname rdeps
end else
let file = Hashtbl.find graph dname in
- StringSet.add dname (StringSet.union (compute bdeps dname file) rdeps)
+ StringSet.add dname (StringSet.union (compute_from_file vdeps dname file) rdeps)
+
+and compute_from_ddeps vdeps ddeps =
+ List.fold_left (compute_from_dname vdeps) StringSet.empty ddeps
+
+and redundant vdeps fname ddeps dname =
+ let rdeps = compute_from_ddeps vdeps (purge dname ddeps) in
+ if StringSet.mem dname rdeps then
+ Printf.printf "%s: redundant %s\n" fname dname
let check () =
- let iter fname file = ignore (compute [] fname file) in
+ let iter fname file = ignore (compute_from_file [] fname file) in
Hashtbl.iter iter graph
+let get_unions () =
+ let map1 ddeps dname = StringSet.add dname ddeps in
+ let map2 fname file (fnames, ddeps) =
+ StringSet.add fname fnames, List.fold_left map1 ddeps file.ddeps
+ in
+ Hashtbl.fold map2 graph (StringSet.empty, StringSet.empty)
+
+let get_leafs () =
+ let map fname file fnames =
+ if file.ddeps = [] then StringSet.add fname fnames else fnames
+ in
+ Hashtbl.fold map graph StringSet.empty
+
+let top () =
+ let iter fname = Printf.printf "top: %s\n" fname in
+ let fnames, ddeps = get_unions () in
+ StringSet.iter iter (StringSet.diff fnames ddeps)
+
+let leaf () =
+ let iter fname = Printf.printf "leaf: %s\n" fname in
+ let fnames = get_leafs () in
+ StringSet.iter iter fnames
+
let rec read ich =
- let _ = Scanf.fscanf ich "%s@:include \"%s@\". " init in
+ let line = input_line ich in
+ begin try Scanf.sscanf line "%s@:include \"%s@\"." init
+ with Scanf.Scan_failure _ ->
+ begin try Scanf.sscanf line "./%s@:include \"%s@\"." init
+ with Scanf.Scan_failure _ ->
+ begin try Scanf.sscanf line "%s@:(*%s@*)" (fun _ _ -> ())
+ with Scanf.Scan_failure _ ->
+ Printf.eprintf "unknown line: %s.\n" line
+ end
+ end
+ end;
read ich
let _ =
- try read stdin with End_of_file -> check ()
+ let show_check = ref false in
+ let show_top = ref false in
+ let show_leaf = ref false in
+ let process_file name = () in
+ let show () =
+ if !show_check then check ();
+ if !show_top then top ();
+ if !show_leaf then leaf ()
+ in
+ let help = "" in
+ let help_c = " Print the redundant and looping arcs of the dependences graph" in
+ let help_d = "<flags> Set these debug options" in
+ let help_l = " Print the leaf nodes of the dependences graph" in
+ let help_t = " Print the top nodes of the dependences graph" in
+ Arg.parse [
+ "-c", Arg.Set show_check, help_c;
+ "-d", Arg.Int (fun x -> debug := x), help_d;
+ "-l", Arg.Set show_leaf, help_l;
+ "-t", Arg.Set show_top, help_t;
+ ] process_file help;
+ try read stdin with End_of_file -> show ()