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[Faustine.git] / interpretor / process.ml

(**
        Module: Process 
        Description: Faust process classes
        @author WANG Haisheng   
        Created: 03/06/2013     Modified: 14/08/2013
*)

open Types;;
open Aux;;
open Basic;;
open Symbol;;
open Value;;
open Signal;;
open Beam;;

exception NotYetDone;;
exception Dimension_error of string;;
exception Process_error of string;;


(* PARSER *)

let exp_of_string s = (Parser.main Lexer.token (Lexing.from_string s));;


class dimension : int * int -> dimension_type = 
  fun (init : int * int) -> 
    object (self)
      val _input = fst init
      val _output = snd init

      method input = _input
      method output = _output

      method par : dimension_type -> dimension_type = 
        fun dim -> 
          new dimension 
            ((self#input + dim#input), (self#output + dim#output))
            
      method seq : dimension_type -> dimension_type = 
        fun dim -> 
          if self#output = dim#input then
            new dimension (self#input, dim#output)
          else raise (Dimension_error "seq dimension not matched.")
              
      method split : dimension_type -> dimension_type =
        fun dim ->
          if dim#input mod self#output = 0 then
            new dimension (self#input, dim#output)
          else raise (Dimension_error "split dimension not matched.")

      method merge : dimension_type -> dimension_type =
        fun dim ->
          if self#output mod dim#input = 0 then
            new dimension (self#input, dim#output)
          else raise (Dimension_error "merge dimension not matched.")

      method _rec : dimension_type -> dimension_type = 
        fun dim ->
          if self#output >= dim#input && self#input >= dim#output then
            new dimension (self#input - dim#output, self#output)
          else raise (Dimension_error "rec dimension not matched.")
    end;;

class virtual process = 
  fun (exp_init : faust_exp) ->
    object
      val _exp = exp_init
      val virtual _dim : dimension_type
      val virtual _delay : int
      method exp = _exp
      method dim = _dim
      method delay = _delay
      method virtual eval : beam_type -> beam_type
    end

class proc_const : faust_exp -> process_type = 
  fun (exp_init : faust_exp) ->
    let _const = 
      match exp_init with
      | Const b -> b
      | _ -> raise (Process_error "const process constructor.") in

    object (self)
      inherit process exp_init
      val _dim = new dimension (0,1)
      val _delay = 0
      method private const = _const
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          if input#get = [||] then
            new beam [| new signal 0 (fun t -> new value self#const)|]
          else
            raise (Process_error "proc_const accepts no input.")
      end;;


class proc_ident : faust_exp -> process_type = 
  fun (exp_init : faust_exp) ->
    let _symbol = 
          match exp_init with
          | Ident s -> s
          | _ -> raise (Process_error "ident process constructor.") in

    object (self)
      inherit process exp_init
      val _dim = new dimension (dimension_of_symbol _symbol)
      val _delay = delay_of_symbol _symbol      
      method private symb = _symbol

      method private beam_of_ident : int -> signal_type -> beam_type = 
        fun (n : int) ->
          fun (s : signal_type) ->
            if n = (self#dim)#input then 
              new beam [|s|]
            else raise (Process_error ("Ident " ^ string_of_symbol self#symb))

      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let n = Array.length input#get in
          match self#symb with
          | Pass -> self#beam_of_ident n input#get.(0)
          | Stop -> if n = 1 then new beam [||] 
                    else raise (Process_error "Ident !")
          | Add -> self#beam_of_ident n 
                ((input#get.(0))#add input#get.(1))
          | Sub -> self#beam_of_ident n 
                ((input#get.(0))#sub input#get.(1))
          | Mul -> self#beam_of_ident n 
                ((input#get.(0))#mul input#get.(1))
          | Div -> self#beam_of_ident n 
                ((input#get.(0))#div input#get.(1))
          | Mem -> self#beam_of_ident n 
                ((input#get.(0))#mem)
          | Delay -> self#beam_of_ident n 
                ((input#get.(0))#delay input#get.(1))
          | Floor -> self#beam_of_ident n 
                ((input#get.(0))#floor)
          | Int -> self#beam_of_ident n 
                ((input#get.(0))#int)
          | Sin -> self#beam_of_ident n 
                ((input#get.(0))#sin)
          | Cos -> self#beam_of_ident n 
                ((input#get.(0))#cos)
          | Atan -> self#beam_of_ident n 
                ((input#get.(0))#atan)
          | Atan2 -> self#beam_of_ident n 
                ((input#get.(0))#atan2 input#get.(1))
          | Sqrt -> self#beam_of_ident n 
                ((input#get.(0))#sqrt)
          | Rdtable -> self#beam_of_ident n 
                ((input#get.(1))#rdtable input#get.(0) input#get.(2))
          | Mod -> self#beam_of_ident n 
                ((input#get.(0))#_mod input#get.(1))
          | Vectorize -> self#beam_of_ident n 
                ((input#get.(0))#vectorize input#get.(1))
          | Vconcat -> self#beam_of_ident n 
                ((input#get.(0))#vconcat input#get.(1))
          | Vpick -> self#beam_of_ident n 
                ((input#get.(0))#vpick input#get.(1))
          | Serialize -> self#beam_of_ident n 
                (input#get.(0))#serialize
          | Larger -> self#beam_of_ident n 
                ((input#get.(0))#larger input#get.(1))
          | Smaller -> self#beam_of_ident n 
                ((input#get.(0))#smaller input#get.(1))
          | Max -> self#beam_of_ident n 
                ((input#get.(0))#max input#get.(1))
          | Min -> self#beam_of_ident n 
                ((input#get.(0))#min input#get.(1))
          | Prefix -> self#beam_of_ident n 
                ((input#get.(1))#prefix input#get.(0))
          | Select2 -> self#beam_of_ident n 
                ((input#get.(0))#select2 input#get.(1) input#get.(2))
          | Select3 -> self#beam_of_ident n 
                ((input#get.(0))#select3 input#get.(1) 
                   input#get.(2) input#get.(3))
      end;;

class virtual process_binary =
  fun (exp_init : faust_exp) ->
    let (exp_left, exp_right) = 
      match exp_init with
      | Par (e1, e2) -> (e1, e2)
      | Seq (e1, e2) -> (e1, e2)
      | Split (e1, e2) -> (e1, e2)
      | Merge (e1, e2) -> (e1, e2)
      | Rec (e1, e2) -> (e1, e2)
      | _ -> raise (Process_error "binary process constructor.") in
    let proc_left = (new proc_factory)#make exp_left in
    let proc_right = (new proc_factory)#make exp_right in
    
    object
      inherit process exp_init
      method private proc_left = proc_left
      method private proc_right = proc_right

      val _dim = 
        match exp_init with
        | Par (e1, e2) -> (proc_left#dim)#par proc_right#dim
        | Seq (e1, e2) -> (proc_left#dim)#seq proc_right#dim
        | Split (e1, e2) -> (proc_left#dim)#split proc_right#dim
        | Merge (e1, e2) -> (proc_left#dim)#merge proc_right#dim
        | Rec (e1, e2) -> (proc_left#dim)#_rec proc_right#dim
        | _ -> raise (Process_error "binary process constructor.")

      val _delay = 
        match exp_init with
        | Par (e1, e2) -> max proc_left#delay proc_right#delay
        | Seq (e1, e2) -> proc_left#delay + proc_right#delay
        | Split (e1, e2) -> proc_left#delay + proc_right#delay
        | Merge (e1, e2) -> proc_left#delay + proc_right#delay
        | Rec (e1, e2) -> 1 + proc_left#delay + proc_right#delay
        | _ -> raise (Process_error "binary process constructor.")
    end

and proc_par : faust_exp -> process_type = 
  fun (exp_init : faust_exp) ->
    object (self)
      inherit process_binary exp_init
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let (sub_input1, sub_input2) = input#cut self#proc_left#dim#input in
          let sub_output1 = self#proc_left#eval sub_input1 in
          let sub_output2 = self#proc_right#eval sub_input2 in
          sub_output1#append sub_output2
      end

and proc_split : faust_exp -> process_type =
  fun (exp_init : faust_exp) ->
    object (self)
      inherit process_binary exp_init
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let mid_output = self#proc_left#eval input in
          let mid_input = mid_output#matching self#proc_right#dim#input in
          self#proc_right#eval mid_input
      end

and proc_merge : faust_exp -> process_type =
  fun (exp_init : faust_exp) -> 
    object (self)
      inherit process_binary exp_init
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let mid_output = self#proc_left#eval input in
          let mid_input = mid_output#matching self#proc_right#dim#input in
          self#proc_right#eval mid_input
      end

and proc_seq : faust_exp -> process_type =
  fun (exp_init : faust_exp) -> 
    object (self)
      inherit process_binary exp_init
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let mid_output = self#proc_left#eval input in
          self#proc_right#eval mid_output
      end

and proc_rec : faust_exp -> process_type =
  fun (exp_init : faust_exp) -> 
    object (self)
      inherit process_binary exp_init             
      method eval : beam_type -> beam_type = 
        fun (input : beam_type) ->
          let memory = Hashtbl.create self#delay in
          let rates = ref (Array.make self#dim#output 0) in

          let split : (time -> value_type array) -> (time -> value_type) array = 
            fun beam_at ->
              let get_signal = 
                fun beam_func -> fun i -> fun t -> 
                (beam_func t).(i) in
              Array.init self#dim#output (get_signal beam_at) in

          let feedback : (time -> value_type array) -> beam = 
            fun beam_at ->
              let signals_at = split beam_at in
              let delay_by_one = fun s -> fun t -> s (t - 1) in
              let delay_signal_funcs = Array.map delay_by_one 
                  (Array.sub signals_at 0 self#proc_right#dim#input) in
              new beam (array_map2 (new signal) 
                          (Array.sub !rates 0 self#proc_right#dim#input) 
                          delay_signal_funcs) in

          let rec beam_at : time -> value_type array = 
            fun (t : time) ->         
              if t < 0 then 
                Array.make self#dim#output (new value Zero)
              else if Hashtbl.mem memory t then
                Hashtbl.find memory t             
              else
                let beam_fb_in = feedback beam_at in
                let beam_fb_out = self#proc_right#eval beam_fb_in in
                let beam_in = beam_fb_out#append input in
                let beam_out = self#proc_left#eval beam_in in
                let values = beam_out#at t in
                let () = (rates := beam_out#frequency) in
                let () = Hashtbl.add memory t values in
                let () = if t - self#delay >= 0 then 
                  Hashtbl.remove memory (t - self#delay) else () in
                values in         
          new beam (array_map2 (new signal) !rates (split beam_at))           
    end

and proc_factory = 
  object
      method make : faust_exp -> process_type = 
        fun (exp : faust_exp) ->
          match exp with
          | Const b -> new proc_const exp
          | Ident s -> new proc_ident exp
          | Par (e1, e2) -> new proc_par exp
          | Seq (e1, e2) -> new proc_seq exp
          | Split (e1, e2) -> new proc_split exp
          | Merge (e1, e2) -> new proc_merge exp
          | Rec (e1, e2) -> new proc_rec exp
  end;;