X-Git-Url: https://svn.cri.ensmp.fr/git/Faustine.git/blobdiff_plain/d8214dc258396483f72533504515a4e1d1b3deef..91130bc31ab7163870b104407781db50a6f84980:/interpretor/signal.ml

diff --git a/interpretor/signal.ml b/interpretor/signal.ml
index 2dd9f73..66089e9 100644
--- a/interpretor/signal.ml
+++ b/interpretor/signal.ml
@@ -13,8 +13,45 @@ exception Signal_operation of string;;
 
 let delay_memory_length = 10000;;
 
-class signal : int -> (time -> value_type) -> signal_type = 
-  fun (freq_init : int) ->
+class rate : int -> int -> rate_type = 
+  fun (num_init : int) ->
+    fun (denom_init : int) ->
+      let rec pgcd : int -> int -> int = 
+	fun i1 -> fun i2 ->
+	  let r = i1 mod i2 in 
+	  if r = 0 then i2 else pgcd i2 r in
+      let num_positive = 
+	if num_init >= 0 then num_init 
+	else (-num_init) in
+      let denom_positive = 
+	if denom_init > 0 then denom_init 
+	else if denom_init < 0 then -denom_init
+	else raise (Signal_operation "sample rate denominater = 0.") in
+      let factor = pgcd num_positive denom_positive in
+      let num_corrected = num_init / factor in
+      let denom_corrected = denom_init / factor in
+      object (self)
+	val _num = num_corrected
+	val _denom = denom_corrected
+	method num = _num
+	method denom = _denom
+	method to_int = 
+	  self#num / self#denom
+	method to_float = 
+	  (float_of_int self#num) /. (float_of_int self#denom)
+	method to_string = 
+	  (string_of_int self#num) ^ "/" ^ (string_of_int self#denom)
+	method equal : rate_type -> bool = 
+	  fun (r : rate_type) -> (self#num = r#num) && (self#denom = r#denom)
+	method mul : int -> rate_type = 
+	  fun (i : int) -> new rate (self#num * i) self#denom
+	method div : int -> rate_type = 
+	  fun (i : int) -> new rate self#num (self#denom * i)
+      end
+	  
+
+class signal : rate_type -> (time -> value_type) -> signal_type = 
+  fun (freq_init : rate_type) ->
     fun (func_init : time -> value_type) ->
       object (self)
 	val mutable signal_func = func_init
@@ -22,13 +59,13 @@ class signal : int -> (time -> value_type) -> signal_type =
 	method frequency = freq_init
 	method at = signal_func
 
-	method private check_freq : signal_type list -> int = 
+	method private check_freq : signal_type list -> rate_type = 
 	  fun (sl : signal_type list) ->
-	    let check : int -> signal_type -> int = 
-	      fun (f : int) ->
+	    let check : rate_type -> signal_type -> rate_type = 
+	      fun (f : rate_type) ->
 		fun (s : signal_type) ->
-		  if f = s#frequency || s#frequency = 0 then f
-		  else if f = 0 then s#frequency
+		  if f#equal s#frequency || s#frequency#num = 0 then f
+		  else if f#num = 0 then s#frequency
 		  else raise (Signal_operation "frequency not matched.") in
 	    List.fold_left check self#frequency sl
 
@@ -76,20 +113,44 @@ class signal : int -> (time -> value_type) -> signal_type =
 
 	method neg = self#prim1 (fun t -> (self#at t)#neg)
 	method floor = self#prim1 (fun t -> (self#at t)#floor)
+	method ceil = self#prim1 (fun t -> (self#at t)#ceil)
+	method rint = self#prim1 (fun t -> (self#at t)#rint)
 	method sin = self#prim1 (fun t -> (self#at t)#sin)
+	method asin = self#prim1 (fun t -> (self#at t)#asin)
 	method cos = self#prim1 (fun t -> (self#at t)#cos)
+	method acos = self#prim1 (fun t -> (self#at t)#acos)
+	method tan = self#prim1 (fun t -> (self#at t)#tan)
 	method atan = self#prim1 (fun t -> (self#at t)#atan)
+	method exp = self#prim1 (fun t -> (self#at t)#exp)
 	method sqrt = self#prim1 (fun t -> (self#at t)#sqrt)
+	method ln = self#prim1 (fun t -> (self#at t)#ln)
+	method lg = self#prim1 (fun t -> (self#at t)#lg)
 	method int = self#prim1 (fun t -> (self#at t)#int)
+	method float = self#prim1 (fun t -> (self#at t)#float)
+	method abs = self#prim1 (fun t -> (self#at t)#abs)
 
 	method add = self#prim2 (fun t -> (self#at t)#add)
 	method sub = self#prim2 (fun t -> (self#at t)#sub)
 	method mul = self#prim2 (fun t -> (self#at t)#mul)
 	method div = self#prim2 (fun t -> (self#at t)#div)
+	method power = self#prim2 (fun t -> (self#at t)#power)
+	method _and = self#prim2 (fun t -> (self#at t)#_and)
+	method _or = self#prim2 (fun t -> (self#at t)#_or)
+	method _xor = self#prim2 (fun t -> (self#at t)#_xor)
 	method atan2 = self#prim2 (fun t -> (self#at t)#atan2)
 	method _mod = self#prim2 (fun t -> (self#at t)#_mod)
-	method larger = self#prim2 (fun t -> (self#at t)#larger)
-	method smaller = self#prim2 (fun t -> (self#at t)#smaller)
+	method fmod = self#prim2 (fun t -> (self#at t)#fmod)
+	method remainder = self#prim2 (fun t -> (self#at t)#remainder)
+	method gt = self#prim2 (fun t -> (self#at t)#gt)
+	method lt = self#prim2 (fun t -> (self#at t)#lt)
+	method geq = self#prim2 (fun t -> (self#at t)#geq)
+	method leq = self#prim2 (fun t -> (self#at t)#leq)
+	method eq = self#prim2 (fun t -> (self#at t)#eq)
+	method neq = self#prim2 (fun t -> (self#at t)#neq)
+	method max = self#prim2 (fun t -> (self#at t)#max)
+	method min = self#prim2 (fun t -> (self#at t)#min)
+	method shl = self#prim2 (fun t -> (self#at t)#shl)
+	method shr = self#prim2 (fun t -> (self#at t)#shr)
 
 	method delay : signal_type -> signal_type =
 	  fun (s : signal_type) ->
@@ -116,6 +177,25 @@ class signal : int -> (time -> value_type) -> signal_type =
 		self#at ((s_index#at t)#to_int) in
 	      new signal freq func
 
+	method rwtable : signal_type -> signal_type -> 
+	  signal_type -> signal_type -> signal_type = 
+	    fun init -> fun wstream -> fun windex -> fun rindex ->
+	      let freq = self#check_freq [init; wstream; windex; rindex] in
+	      let () = init#add_memory ((self#at 0)#to_int) in
+	      let () = wstream#add_memory ((self#at 0)#to_int) in
+	      let func : time -> value_type = fun (ti : time) -> 
+		let rec table : time -> index -> value_type = 
+		  fun t -> fun i -> 
+		    if t > 0 then
+		      (if i = (windex#at t)#to_int then (wstream#at t)
+		      else table (t - 1) i)
+		    else if t = 0 then
+		      (if i = (windex#at 0)#to_int then (wstream#at 0)
+		      else init#at i)
+		    else raise (Signal_operation "signal time should be > 0") in
+		table ti ((rindex#at ti)#to_int) in
+	      new signal freq func
+
 	method select2 : signal_type -> signal_type -> signal_type =
 	  fun s_first -> 
 	    fun s_second ->
@@ -156,7 +236,7 @@ class signal : int -> (time -> value_type) -> signal_type =
 	    if size <= 0 then      
 	      raise (Signal_operation "Vectorize: size <= 0.")
 	    else 
-	      let freq = self#frequency / size in
+	      let freq = self#frequency#div size in
 	      let func : time -> value_type = 
 		fun t ->
 		  let vec = fun i -> (self#at (size * t + i))#get in
@@ -169,7 +249,7 @@ class signal : int -> (time -> value_type) -> signal_type =
 	    match (self#at 0)#get with
 	    | Vec vec -> vec#size
 	    | _ -> raise (Signal_operation "Serialize: scalar input.") in
-	  let freq = self#frequency * size in
+	  let freq = self#frequency#mul size in
 	  let func : time -> value_type = 
 	    fun t -> 
 	      match (self#at (t/size))#get with