Test commit into the README file.

[Faustine.git] / backup / main.ml

(**
        Module: Interpreter     
        Description: Input wave -> interpretation -> output wave
        @author WANG Haisheng   
        Created: 15/05/2013     Modified: 04/06/2013
*)

open Faustexp;;
open Interpreter;;

(* EXCEPTIONS *)

(** Exception raised when no string expression of faust process is typed in console.*)
exception Missing_Expression;;



(* MACRO *)

(** Macro constants of input/output route.*)
type io_macro = 
  | Input_Route_string
  | Output_Route_string
  | Dsp_Route_string;;

(** val io_macro_to_string : io_macro -> string.*)
let io_macro_to_string m = match m with
  | Input_Route_string -> "input_sounds/"
  | Output_Route_string -> "output_sounds/"
  | Dsp_Route_string -> "dsp_files/";;


(** val set_GC : unit -> unit *)
let set_GC () = 
        let _ = Gc.set { (Gc.get()) with Gc.minor_heap_size = 0xFFFFFF } in
        let _ = Gc.set { (Gc.get()) with Gc.major_heap_increment = 0xFFFFFF } in
        let _ = Gc.set { (Gc.get()) with Gc.space_overhead = 100 } in
        let _ = Gc.set { (Gc.get()) with Gc.max_overhead = 0xFFFFF } in
        let _ = Gc.set { (Gc.get()) with Gc.stack_limit = 0xFFFFF } in
        let _ = Gc.set { (Gc.get()) with Gc.allocation_policy = 0 } in
        () ;;

(* INPUT && OUTPUT*)

(** val read_input_wave : string array -> int list * float array list
    [read_input_wave argv] gets information from command line, 
    returns sample rate list and data (in form of float array) list. 
*)
let read_input_wave = fun argv ->
        let n_input = (Array.length argv) - 3 in
        if n_input < 0 then 
                raise Missing_Expression
        else if n_input = 0 then 
                ([], [])
        else
                (* open wave file *)
                let file_string_array = Array.sub argv 3 n_input in
                let make_chemin s = io_macro_to_string Input_Route_string ^ s in
                let file_chemin_string_array = Array.map make_chemin file_string_array in
                let file_array = Array.map Sndfile.openfile file_chemin_string_array in
                let file_list = Array.to_list file_array in

                (* prepare data container *)
                let frames_array = Array.map Int64.to_int (Array.map Sndfile.frames file_array) in
                let create_data_array num = Array.create num 1. in
                let data_float_array_array = Array.map create_data_array frames_array in
                let data_float_array_list = Array.to_list data_float_array_array in
                
                (* read sample rates and data *)
                let rate_list = List.map Sndfile.samplerate file_list in
                let _ = List.map2 Sndfile.read file_list data_float_array_list in
                let _ = List.map Sndfile.close file_list in
                (rate_list, data_float_array_list);;


(** val write_output_wave : int list -> int list -> float_array_list -> unit.
    [write_output_wave channel_numbers sample_rates data]
*)
let write_output_wave = fun channel_int_list -> fun rate_int_list -> fun data_float_array_list ->
        let () = print_endline("Making output wave files...") in
        
        (* make output wave file names : output0, output1, ... *)
        let n_output = List.length data_float_array_list in
        let n_array = Array.init n_output (fun n -> n) in
        let make_file_name i = "output" ^ (string_of_int i) ^ ".wav" in

        (* make output wave file routes *)
        let make_chemin s = io_macro_to_string Output_Route_string ^ s in
        let file_name_string_array = Array.map make_file_name n_array in
        let file_chemin_string_array = Array.map make_chemin file_name_string_array in
        let file_chemin_string_list = Array.to_list file_chemin_string_array in

        (* open files for writing with respects to channel numbers and sample rates *)
        let file_format = Sndfile.format Sndfile.MAJOR_WAV Sndfile.MINOR_PCM_16 in
        let openwr = fun file_chemin_string -> fun channel -> fun rate -> 
          Sndfile.openfile ~info:(Sndfile.RDWR, file_format, channel, rate) file_chemin_string in
        let openwr_fun_list = fun fl -> fun cl -> fun rl -> fun i -> 
          openwr (List.nth fl i) (List.nth cl i) (List.nth rl i) in
        let output_file_list = List.map 
            (openwr_fun_list file_chemin_string_list channel_int_list rate_int_list) 
            (Array.to_list (Array.init n_output (fun n -> n))) in

        (* write data into files *)
        let _ = List.map2 Sndfile.write output_file_list data_float_array_list in
        let _ = List.map Sndfile.close output_file_list in
        print_endline("Success.");;


let write_output_txt = fun channel_int_list -> fun data_float_array_list ->
        let () = print_endline("Making output txt files...") in

        (* make output txt file names : output0, output1, ... *)
        let n_output = List.length data_float_array_list in
        let n_array = Array.init n_output (fun n -> n) in
        let make_file_name i = "output" ^ (string_of_int i) ^ ".csv" in

        (* make output wave file routes *)
        let make_chemin s = io_macro_to_string Output_Route_string ^ s in
        let file_name_string_array = Array.map make_file_name n_array in
        let file_chemin_string_array = Array.map make_chemin file_name_string_array in
        let file_chemin_string_list = Array.to_list file_chemin_string_array in

        (* open output channels *)
        let file_list = List.map open_out file_chemin_string_list in
        let array_to_string = fun data_float_array -> fun channel_int ->
          let data_length = Array.length data_float_array in
          let rec to_string_rec = 
            fun data -> fun channel -> fun n -> fun i -> fun column ->
              if i < n then 
                (
                let element = string_of_float (data.(i)) in
                if column < (channel - 1) then 
                  element ^ "," ^ (to_string_rec data channel n (i + 1) (column + 1))
                else if column = (channel - 1) then
                  element ^ "\n" ^ (to_string_rec data channel n (i + 1) 0)
                else raise (Invalid_argument "write_output_txt.")
                    )
              else "" in
          to_string_rec data_float_array channel_int data_length 0 0 in

        let data_string_list = List.map2 array_to_string data_float_array_list channel_int_list in
        let _ = List.map2 output_string file_list data_string_list in
        let _ = List.map close_out file_list in
        print_endline("Success");;


(* MAIN *)

(** val main : unit -> unit
main function reads console input strings (Sys.argv) with
input: string of faust process, input waves in default directory 'input_sounds/'
output: output waves in default directory 'output_sounds/'.*)

let main () = 

        (* ignore system alarm clock *)
        let _ = Sys.signal Sys.sigalrm Sys.Signal_ignore in

        (* set garbage collector *)
        let _ = set_GC () in

        (* read input wave files *)
        let (input_rate_list, input_float_array_list) = read_input_wave Sys.argv in
        
        (* select output type *)
        let output_type = Sys.argv.(1) in

        try
                (* preprocess *)
                let dsp_file_route_string = (io_macro_to_string Dsp_Route_string) ^ Sys.argv.(2) in
                let exp_string = Preprocess.preprocess(dsp_file_route_string) in

                (* parsing *)
                let exp_faust = exp_of_string exp_string in

                (* interpretation *)
                let (output_channel_list, output_rate_list, output_float_array_list) = 
                  interpreter exp_faust (input_rate_list, input_float_array_list) in

                (* make output wave files *)
                if output_type = "-wav" then
                  write_output_wave output_channel_list output_rate_list output_float_array_list
                else if output_type = "-txt" then
                  write_output_txt output_channel_list output_float_array_list
                else raise (Invalid_argument ("Unkown option: " ^ output_type))

        with NotYetDone ->
                print_endline("Operation not yet programed..");;

main();;