fun len ->
new beam (Array.sub self#get start len)
+ method cut : int -> beam_type * beam_type =
+ fun (cut_width : int)->
+ ((self#sub 0 cut_width),(self#sub cut_width (self#width - cut_width)))
+
method append : beam_type -> beam_type =
fun (b : beam_type) ->
new beam (Array.append self#get b#get)
let signal_at = fun (t : time) -> fun (s : signal_type) -> s#at t in
Array.map (signal_at t) self#get
- method output : int -> value_type array array =
+ method output : int -> float array array array =
fun (length_max : int) ->
let transpose : 'a array array -> 'a array array =
fun matrix ->
let get_element = fun i -> fun array -> array.(i) in
let get_column = fun m -> fun i -> Array.map (get_element i) m in
Array.init self#width (get_column matrix) in
- let value_init = new value Error in
+ let value2float = fun (v : value_type) -> v#to_float_array in
+ let init = [|0.|] in
let container = Array.make length_max
- (Array.make self#width value_init) in
+ (Array.make self#width init) in
let index = ref 0 in
try
while !index < length_max do
- container.(!index) <- self#at !index;
+ container.(!index) <- Array.map value2float (self#at !index);
incr index;
done;
transpose container
- with x ->
+ with x ->
let error_message =
match x with
| Convert_Error s -> "Convert_Error: " ^ s
| Basic_operation s -> "Basic_operation: " ^ s
| Signal_operation s -> "Signal_operation: " ^ s
| Beam_matching s -> "Beam_Matching_Error: " ^ s
- | _ -> "Compute finished."
+ | Invalid_argument s -> "Compute finished."
in
let () = print_string error_message in
transpose (Array.sub container 0 !index)
+
+ method frequency : int array =
+ let each_rate : signal -> int =
+ fun (s : signal) ->
+ let rate = s#frequency in
+ if rate > 0 then rate
+ else if rate = 0 then 44100
+ else raise (Beam_matching "frequency error.") in
+ Array.map each_rate self#get
+
end