Refactoring of file beam.ml.

[Faustine.git] / interpretor / interpreter.ml

diff --git a/interpretor/interpreter.ml b/interpretor/interpreter.ml
index 4f0e1ba..226fadf 100644 (file)
--- a/interpretor/interpreter.ml
+++ b/interpretor/interpreter.ml
@@ -26,7 +26,7 @@ type interpreter_macro =
 
 (** val interpreter_macro_to_value : returns the value associated with the macro.*)
 let interpreter_macro_to_value m = match m with
-                               | Number_samples_int -> 0xFF
+                               | Number_samples_int -> 0xFFFFF
                                | Max_Eval_Time_int -> 0xFFFFFFFF;;
 
 
@@ -55,7 +55,6 @@ let computing = fun f -> fun width -> fun length ->
                                      <- (Array.map convert_back_R (f (!index)));
                        incr index;
                done;
-               let () = print_string ("Done.") in
                !container_float_array_array_array
 
        with x ->
@@ -67,9 +66,9 @@ let computing = fun f -> fun width -> fun length ->
                        |Beam_Matching_Error s -> "Beam_Matching_Error: " ^ s
                        |Evaluation_Error s -> "Evaluation_Error: " ^ s
                        |NotYetDone -> "NotYetDone"
-                       |_ -> "Done."
+                       |_ -> "Compute finished."
                in
-               let () = print_string error_message in
+               let () = print_endline error_message in
                Array.sub (!container_float_array_array_array) 0 !index;;
 
 
@@ -112,8 +111,7 @@ let arrange = fun float_array_array_array -> fun width ->
 input: a list of signal functions
 output: channel number list, data list.*)
 let compute fun_list = 
-       let () = print_string("    Faustine -> Signals computing... ") in
-       let tic = Sys.time () in
+       let () = print_endline("Computing output signals...") in
        
        (* arrange input information *)
        let length = interpreter_macro_to_value Number_samples_int in
@@ -128,8 +126,6 @@ let compute fun_list =
        let channel_array = channels output_float_array_array_array width in
        let channel_list = Array.to_list channel_array in
        let output_float_array_list = arrange output_float_array_array_array width in
-       let toc = Sys.time () in
-       let () = print_endline(" (duration: " ^ (string_of_float (toc -. tic)) ^ "s)") in
        (channel_list, output_float_array_list);;
 
 
@@ -218,18 +214,6 @@ let interpret_ident = fun s -> fun input_beam ->
        |Sin -> if n = 1 then [signal_sin (List.nth input_beam 0)]
                        else raise (Evaluation_Error "Ident sin")
 
-       |Cos -> if n = 1 then [signal_cos (List.nth input_beam 0)]
-                       else raise (Evaluation_Error "Ident cos")
-
-       |Atan -> if n = 1 then [signal_atan (List.nth input_beam 0)]
-                       else raise (Evaluation_Error "Ident atan")
-
-       |Atantwo -> if n = 2 then [signal_atantwo (List.nth input_beam 0) (List.nth input_beam 1)]
-                       else raise (Evaluation_Error "Ident atantwo")
-
-       |Sqrt -> if n = 1 then [signal_sqrt (List.nth input_beam 0)]
-                       else raise (Evaluation_Error "Ident sqrt")
-
        |Rdtable -> if n = 3 then [signal_rdtable (List.nth input_beam 0) 
                                        (List.nth input_beam 1) (List.nth input_beam 2)] 
                        else raise (Evaluation_Error "Ident rdtable")
@@ -494,8 +478,7 @@ let extract_rate = fun beam ->
 input: faust expression, sample rate list * input data list
 output: channel list * sample rate list * output data list.*)
 let interpreter exp_faust input = 
-       let () = print_string("    Faustine -> Interpretation...") in
-       let tic = Sys.time () in
+       let () = print_endline("Interpretation...") in
 
        (* make input beam *)
        let input_beam = make_beam input in
@@ -505,8 +488,6 @@ let interpreter exp_faust input =
 
        (* interprete output beam *)
        let output_beam = eval exp_faust dimension_tree input_beam in
-       let toc = Sys.time () in
-       let () = print_endline(" Done.    (duration: " ^ (string_of_float (toc -. tic)) ^ "s)") in
 
        (* get rate list from output beam *)
        let rate_list = extract_rate output_beam in