val iter : 'a t -> f:('a -> unit) -> unit
+ val bag_map : 'a t -> njobs:int -> f:('a -> 'b) -> ('a * 'b) t
+ (** Parallel map with arbitrarily-reordered elements. *)
+
val map : 'a t -> f:('a -> 'b) -> 'b t
val filter : 'a t -> f:('a -> bool) -> 'a t
type 'a t =
{mutable streams : ('a S.t) list}
+ type ('input, 'output) msg_from_vassal =
+ | Ready of int
+ | Result of (int * ('input * 'output))
+ | Exiting of int
+
+ type 'input msg_from_lord =
+ | Job of 'input option
+
let create f =
{streams = [S.from (fun _ -> f ())]}
(fun name (length, members) -> Queue.add (name, length, members) groups)
groups_tbl;
of_queue groups
+
+ module Ipc : sig
+ val send : out_channel -> 'a -> unit
+ val recv : in_channel -> 'a
+ end = struct
+ let send oc msg =
+ Marshal.to_channel oc msg [];
+ flush oc
+
+ let recv ic =
+ Marshal.from_channel ic
+ end
+
+ let lord t ~njobs ~vassals ~ic ~ocs =
+ eprintf "[debug] [lord] started\n%!";
+ let active_vassals = ref njobs in
+ let results = Queue.create () in
+ let rec dispatch () =
+ match Ipc.recv ic with
+ | ((Exiting i) : ('input, 'output) msg_from_vassal) ->
+ close_out ocs.(i);
+ decr active_vassals;
+ if !active_vassals = 0 then
+ ()
+ else
+ dispatch ()
+ | ((Ready i) : ('input, 'output) msg_from_vassal) ->
+ Ipc.send ocs.(i) (Job (next t));
+ dispatch ()
+ | ((Result (i, result)) : ('input, 'output) msg_from_vassal) ->
+ Queue.add result results;
+ Ipc.send ocs.(i) (Job (next t));
+ dispatch ()
+ in
+ let rec wait = function
+ | [] -> ()
+ | vassals ->
+ let pid, _process_status = Unix.wait () in
+ (* TODO: handle process_status *)
+ wait (List.filter vassals ~f:(fun p -> p <> pid))
+ in
+ dispatch ();
+ close_in ic;
+ wait vassals;
+ of_queue results
+
+ let vassal i ~f ~vassal_pipe_r ~lord_pipe_w =
+ eprintf "[debug] [vassal %d] started\n%!" i;
+ let ic = Unix.in_channel_of_descr vassal_pipe_r in
+ let oc = Unix.out_channel_of_descr lord_pipe_w in
+ let rec work msg =
+ Ipc.send oc msg;
+ match Ipc.recv ic with
+ | (Job (Some x) : 'input msg_from_lord) ->
+ work (Result (i, (x, f x)))
+ | (Job None : 'input msg_from_lord) ->
+ Ipc.send oc (Exiting i)
+ in
+ work (Ready i);
+ close_in ic;
+ close_out oc;
+ exit 0
+
+ let bag_map t ~njobs ~f =
+ let lord_pipe_r, lord_pipe_w = Unix.pipe () in
+ let vassal_pipes = Array.init njobs ~f:(fun _ -> Unix.pipe ()) in
+ let vassal_pipes_r = Array.map vassal_pipes ~f:(fun (r, _) -> r) in
+ let vassal_pipes_w = Array.map vassal_pipes ~f:(fun (_, w) -> w) in
+ let vassals = ref [] in
+ for i=0 to (njobs - 1) do
+ begin match Unix.fork () with
+ | 0 ->
+ Unix.close lord_pipe_r;
+ vassal i ~f ~lord_pipe_w ~vassal_pipe_r:vassal_pipes_r.(i)
+ | pid ->
+ vassals := pid :: !vassals
+ end
+ done;
+ Unix.close lord_pipe_w;
+ lord
+ t
+ ~njobs
+ ~vassals:!vassals
+ ~ic:(Unix.in_channel_of_descr lord_pipe_r)
+ ~ocs:(Array.map vassal_pipes_w ~f:Unix.out_channel_of_descr)
end
module In_channel : sig
; output : output
; ignore : string -> bool
; sample : int
+ ; njobs : int
}
let make_input_stream input ignore ~metrics =
);
close_out oc
-let main {input; output; ignore; sample = sample_len} =
- let t0_all = Sys.time () in
+let time () =
+ Unix.gettimeofday ()
+
+let main {input; output; ignore; sample = sample_len; njobs} =
+ let t0_all = time () in
let metrics = M.init () in
let output = make_output_fun output in
let input = make_input_stream input ignore ~metrics in
let files = input in
- let t0_group_by_size = Sys.time () in
+ let t0_group_by_size = time () in
+ eprintf "[debug] filtering-out files with unique size\n%!";
let files = File.filter_out_unique_sizes files ~metrics in
- let t1_group_by_size = Sys.time () in
+ let t1_group_by_size = time () in
let t0_group_by_sample = t1_group_by_size in
+ eprintf "[debug] filtering-out files with unique heads\n%!";
let files = File.filter_out_unique_heads files ~len:sample_len ~metrics in
- let t1_group_by_sample = Sys.time () in
+ let t1_group_by_sample = time () in
let t0_group_by_digest = t1_group_by_sample in
+ eprintf "[debug] hashing\n%!";
let groups =
- Stream.group_by files ~f:(fun {File.path; size} ->
- M.file_hashed metrics ~size;
- Digest.file path
- )
+ if njobs > 1 then
+ let digests =
+ Stream.bag_map files ~njobs ~f:(fun {File.path; _} -> Digest.file path)
+ in
+ Stream.map (Stream.group_by digests ~f:(fun (_, d) -> d)) ~f:(
+ fun (digest, n, file_digest_pairs) ->
+ let files =
+ List.map file_digest_pairs ~f:(fun (file, _) ->
+ M.file_hashed metrics ~size:file.File.size;
+ file
+ )
+ in
+ (digest, n, files)
+ )
+ else
+ Stream.group_by files ~f:(fun {File.path; size} ->
+ M.file_hashed metrics ~size;
+ Digest.file path
+ )
in
- let t1_group_by_digest = Sys.time () in
+ let t1_group_by_digest = time () in
+ eprintf "[debug] reporting\n%!";
Stream.iter groups ~f:(fun (d, n, files) ->
M.digest metrics;
if n > 1 then
output d n files
);
- let t1_all = Sys.time () in
+ let t1_all = time () in
M.report metrics
~time_all: (t1_all -. t0_all)
let input = ref Stdin in
let output = ref Stdout in
let ignore = ref (fun _ -> false) in
- let sample = ref 256 in
+ let sample = ref 512 in
+ let njobs = ref 8 in
let spec =
[ ( "-out"
, Arg.String (fun path ->
, Arg.Set_int sample
, (sprintf " Byte size of file samples to use. Default: %d" !sample)
)
+ ; ( "-j"
+ , Arg.Set_int njobs
+ , (sprintf " Number of parallel jobs. Default: %d" !njobs)
+ )
]
in
Arg.parse
; output = !output
; ignore = !ignore
; sample = !sample
+ ; njobs = !njobs
}
let () =