X-Git-Url: https://svn.cri.ensmp.fr/git/Faustine.git/blobdiff_plain/912dbfbf1eb4809f28e4e3a8bdfe76c47e018259..84ed86493294699dc378a6df6f323e7cd9d26721:/interpreter/main.ml?ds=sidebyside diff --git a/interpreter/main.ml b/interpreter/main.ml index 54c7f1a..2f102f3 100644 --- a/interpreter/main.ml +++ b/interpreter/main.ml @@ -6,6 +6,7 @@ *) open Aux;; +open Beam;; open Process;; open Faustio;; @@ -33,8 +34,9 @@ let size_input = ref 0;; let inputs = ref [];; let time_max = ref 0xFFFF;; let dir_output = ref "";; -let format_output = ref "wav";; +let format_output = ref "csv";; let basename_output = ref "output";; +let output = ref "";; let option_usage = "usage: " ^ Sys.argv.(0) ^ " [-f dsp_src] [-i input] [-l length] [--odir dir] [--oformat wav/csv] [--obasename name]";; @@ -51,65 +53,87 @@ let speclist = [ ("--obasename", Arg.String (fun s -> basename_output := s), ": set output basename"); ];; +let file_of_path : string -> string = + fun (path : string) -> + let fragments = Str.split (Str.regexp "/") path in + let n = List.length fragments in + List.nth fragments (n - 1);; + +let stdinput = fun (x : unit) -> + let path = Unix.readlink "/proc/self/fd/0" in + if path <> "/dev/pts/4" then + ( incr size_input; + inputs := !inputs @ [path] ) + else ();; + +let stdoutput = fun (x : unit) -> + let path = Unix.readlink "/proc/self/fd/1" in + if path <> "/dev/pts/4" then output := path + else ();; + +let stdio = fun (x : unit) -> + stdinput (); + stdoutput ();; let main () = + (* - let () = print_endline (Scanf.Scanning.name_of_input (Scanf.Scanning.stdin)) in let () = print_endline (Unix.readlink "/proc/self/fd/0") in let () = print_endline (Unix.readlink "/proc/self/fd/1") in let () = print_endline (Unix.readlink "/proc/self/fd/2") in *) + let () = stdio () in let () = Arg.parse speclist option_unknown option_usage in let _ = Sys.signal Sys.sigalrm Sys.Signal_ignore in let _ = set_GC () in let io = new iomanager in - let () = io#set !dir_output !format_output !basename_output in + let () = io#set !output !dir_output !format_output !basename_output in - let () = print_string(" Faustine -> Reading input ...") in + let () = output_string stderr (" Faustine -> Reading input ...") in let tic0 = Unix.time () in - let input = io#read !inputs in + let input : beam = io#read !inputs in let toc0 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc0 -. tic0)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc0 -. tic0)) ^ "s.)\n") in - let () = print_string(" Faustine -> Preprocessing...") in + let () = output_string stderr (" Faustine -> Preprocessing...") in let tic1 = Unix.time () in let faust_core = Preprocess.preprocess !path_dsp in let toc1 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc1 -. tic1)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc1 -. tic1)) ^ "s.)\n") in - let () = print_string(" Faustine -> Constructing process...") in + let () = output_string stderr (" Faustine -> Constructing process...") in let tic2 = Unix.time () in let faust_exp = exp_of_string faust_core in let proc = (new proc_factory)#make faust_exp in let toc2 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc2 -. tic2)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc2 -. tic2)) ^ "s.)\n") in - let () = print_string(" Faustine -> Constructing signals...") in + let () = output_string stderr (" Faustine -> Constructing signals...") in let tic3 = Unix.time () in - let output = proc#eval input in + let output : beam = proc#eval input in let toc3 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc3 -. tic3)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc3 -. tic3)) ^ "s.)\n") in - let () = print_string(" Faustine -> Evaluating...") in + let () = output_string stderr (" Faustine -> Evaluating...") in let tic4 = Unix.time () in let data = output#output !time_max in let rates = output#frequency in let toc4 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc4 -. tic4)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc4 -. tic4)) ^ "s.)\n") in - let () = print_string(" Faustine -> Writing output...") in + let () = output_string stderr (" Faustine -> Writing output...") in let tic5 = Unix.time () in let output_paths = io#write rates data in let toc5 = Unix.time () in - let () = print_endline(" Done. (duration: " ^ (string_of_float (toc5 -. tic5)) ^ "s.)") in + let () = output_string stderr (" Done. (duration: " ^ (string_of_float (toc5 -. tic5)) ^ "s.)\n") in - let _ = Array.map print_endline + let _ = Array.map (output_string stderr) (Array.map decorate output_paths) in ();;