1d79f6fd2669c44146c92bf4c13f7b0e1c2471ac
[Faustine.git] / interpretor / process.ml
1 (**
2 Module: Process
3 Description: Faust process classes
4 @author WANG Haisheng
5 Created: 03/06/2013 Modified: 14/08/2013
6 *)
7
8 open Types;;
9 open Aux;;
10 open Basic;;
11 open Symbol;;
12 open Value;;
13 open Signal;;
14 open Beam;;
15
16 exception NotYetDone;;
17 exception Dimension_error of string;;
18 exception Process_error of string;;
19
20
21 (* PARSER *)
22
23 let exp_of_string s = (Parser.main Lexer.token (Lexing.from_string s));;
24
25
26 class dimension : int * int -> dimension_type =
27 fun (init : int * int) ->
28 object (self)
29 val _input = fst init
30 val _output = snd init
31
32 method input = _input
33 method output = _output
34
35 method par : dimension_type -> dimension_type =
36 fun dim ->
37 new dimension
38 ((self#input + dim#input), (self#output + dim#output))
39
40 method seq : dimension_type -> dimension_type =
41 fun dim ->
42 if self#output = dim#input then
43 new dimension (self#input, dim#output)
44 else raise (Dimension_error "seq dimension not matched.")
45
46 method split : dimension_type -> dimension_type =
47 fun dim ->
48 if dim#input mod self#output = 0 then
49 new dimension (self#input, dim#output)
50 else raise (Dimension_error "split dimension not matched.")
51
52 method merge : dimension_type -> dimension_type =
53 fun dim ->
54 if self#output mod dim#input = 0 then
55 new dimension (self#input, dim#output)
56 else raise (Dimension_error "merge dimension not matched.")
57
58 method _rec : dimension_type -> dimension_type =
59 fun dim ->
60 if self#output >= dim#input && self#input >= dim#output then
61 new dimension (self#input - dim#output, self#output)
62 else raise (Dimension_error "rec dimension not matched.")
63 end;;
64
65 class virtual process =
66 fun (exp_init : faust_exp) ->
67 object
68 val _exp = exp_init
69 val virtual _dim : dimension_type
70 val virtual _delay : int
71 method exp = _exp
72 method dim = _dim
73 method delay = _delay
74 method virtual eval : beam_type -> beam_type
75 end
76
77 class proc_const : faust_exp -> process_type =
78 fun (exp_init : faust_exp) ->
79 let _const =
80 match exp_init with
81 | Const b -> b
82 | _ -> raise (Process_error "const process constructor.") in
83
84 object (self)
85 inherit process exp_init
86 val _dim = new dimension (0,1)
87 val _delay = 0
88 method private const = _const
89 method eval : beam_type -> beam_type =
90 fun (input : beam_type) ->
91 if input#get = [||] then
92 new beam [| new signal (new rate 0 1)
93 (fun t -> new value self#const)|]
94 else
95 raise (Process_error "proc_const accepts no input.")
96 end;;
97
98
99 class proc_ident : faust_exp -> process_type =
100 fun (exp_init : faust_exp) ->
101 let _symbol =
102 match exp_init with
103 | Ident s -> s
104 | _ -> raise (Process_error "ident process constructor.") in
105
106 object (self)
107 inherit process exp_init
108 val _dim = new dimension (dimension_of_symbol _symbol)
109 val _delay = delay_of_symbol _symbol
110 method private symb = _symbol
111
112 method private beam_of_ident : int -> signal_type -> beam_type =
113 fun (n : int) ->
114 fun (s : signal_type) ->
115 if n = (self#dim)#input then
116 new beam [|s|]
117 else raise (Process_error ("Ident " ^ string_of_symbol self#symb))
118
119 method eval : beam_type -> beam_type =
120 fun (input : beam_type) ->
121 let n = Array.length input#get in
122 match self#symb with
123 | Pass -> self#beam_of_ident n input#get.(0)
124 | Stop -> if n = 1 then new beam [||]
125 else raise (Process_error "Ident !")
126 | Add -> self#beam_of_ident n
127 ((input#get.(0))#add input#get.(1))
128 | Sub -> self#beam_of_ident n
129 ((input#get.(0))#sub input#get.(1))
130 | Mul -> self#beam_of_ident n
131 ((input#get.(0))#mul input#get.(1))
132 | Div -> self#beam_of_ident n
133 ((input#get.(0))#div input#get.(1))
134 | Power -> self#beam_of_ident n
135 ((input#get.(0))#power input#get.(1))
136 | And -> self#beam_of_ident n
137 ((input#get.(0))#_and input#get.(1))
138 | Or -> self#beam_of_ident n
139 ((input#get.(0))#_or input#get.(1))
140 | Xor -> self#beam_of_ident n
141 ((input#get.(0))#_xor input#get.(1))
142 | Mem -> self#beam_of_ident n
143 ((input#get.(0))#mem)
144 | Delay -> self#beam_of_ident n
145 ((input#get.(0))#delay input#get.(1))
146 | Floor -> self#beam_of_ident n
147 ((input#get.(0))#floor)
148 | Ceil -> self#beam_of_ident n
149 ((input#get.(0))#ceil)
150 | Rint -> self#beam_of_ident n
151 ((input#get.(0))#rint)
152 | Int -> self#beam_of_ident n
153 ((input#get.(0))#int)
154 | Float -> self#beam_of_ident n
155 ((input#get.(0))#float)
156 | Sin -> self#beam_of_ident n
157 ((input#get.(0))#sin)
158 | Asin -> self#beam_of_ident n
159 ((input#get.(0))#asin)
160 | Cos -> self#beam_of_ident n
161 ((input#get.(0))#cos)
162 | Acos -> self#beam_of_ident n
163 ((input#get.(0))#acos)
164 | Tan -> self#beam_of_ident n
165 ((input#get.(0))#tan)
166 | Atan -> self#beam_of_ident n
167 ((input#get.(0))#atan)
168 | Atan2 -> self#beam_of_ident n
169 ((input#get.(0))#atan2 input#get.(1))
170 | Exp -> self#beam_of_ident n
171 ((input#get.(0))#exp)
172 | Sqrt -> self#beam_of_ident n
173 ((input#get.(0))#sqrt)
174 | Ln -> self#beam_of_ident n
175 ((input#get.(0))#ln)
176 | Lg -> self#beam_of_ident n
177 ((input#get.(0))#lg)
178 | Abs -> self#beam_of_ident n
179 ((input#get.(0))#abs)
180 | Mod -> self#beam_of_ident n
181 ((input#get.(0))#_mod input#get.(1))
182 | Fmod -> self#beam_of_ident n
183 ((input#get.(0))#fmod input#get.(1))
184 | Remainder -> self#beam_of_ident n
185 ((input#get.(0))#remainder input#get.(1))
186 | Vectorize -> self#beam_of_ident n
187 ((input#get.(0))#vectorize input#get.(1))
188 | Vconcat -> self#beam_of_ident n
189 ((input#get.(0))#vconcat input#get.(1))
190 | Vpick -> self#beam_of_ident n
191 ((input#get.(0))#vpick input#get.(1))
192 | Serialize -> self#beam_of_ident n
193 (input#get.(0))#serialize
194 | Gt -> self#beam_of_ident n
195 ((input#get.(0))#gt input#get.(1))
196 | Lt -> self#beam_of_ident n
197 ((input#get.(0))#lt input#get.(1))
198 | Geq -> self#beam_of_ident n
199 ((input#get.(0))#geq input#get.(1))
200 | Leq -> self#beam_of_ident n
201 ((input#get.(0))#leq input#get.(1))
202 | Eq -> self#beam_of_ident n
203 ((input#get.(0))#eq input#get.(1))
204 | Neq -> self#beam_of_ident n
205 ((input#get.(0))#neq input#get.(1))
206 | Max -> self#beam_of_ident n
207 ((input#get.(0))#max input#get.(1))
208 | Min -> self#beam_of_ident n
209 ((input#get.(0))#min input#get.(1))
210 | Prefix -> self#beam_of_ident n
211 ((input#get.(1))#prefix input#get.(0))
212 | Select2 -> self#beam_of_ident n
213 ((input#get.(0))#select2 input#get.(1) input#get.(2))
214 | Select3 -> self#beam_of_ident n
215 ((input#get.(0))#select3 input#get.(1)
216 input#get.(2) input#get.(3))
217 | Rdtable -> self#beam_of_ident n
218 ((input#get.(1))#rdtable input#get.(0) input#get.(2))
219 | Rwtable -> self#beam_of_ident n
220 ((input#get.(0))#rwtable input#get.(1)
221 input#get.(2) input#get.(3) input#get.(4))
222 end;;
223
224 class virtual process_binary =
225 fun (exp_init : faust_exp) ->
226 let (exp_left, exp_right) =
227 match exp_init with
228 | Par (e1, e2) -> (e1, e2)
229 | Seq (e1, e2) -> (e1, e2)
230 | Split (e1, e2) -> (e1, e2)
231 | Merge (e1, e2) -> (e1, e2)
232 | Rec (e1, e2) -> (e1, e2)
233 | _ -> raise (Process_error "binary process constructor.") in
234 let proc_left = (new proc_factory)#make exp_left in
235 let proc_right = (new proc_factory)#make exp_right in
236
237 object
238 inherit process exp_init
239 method private proc_left = proc_left
240 method private proc_right = proc_right
241
242 val _dim =
243 match exp_init with
244 | Par (e1, e2) -> (proc_left#dim)#par proc_right#dim
245 | Seq (e1, e2) -> (proc_left#dim)#seq proc_right#dim
246 | Split (e1, e2) -> (proc_left#dim)#split proc_right#dim
247 | Merge (e1, e2) -> (proc_left#dim)#merge proc_right#dim
248 | Rec (e1, e2) -> (proc_left#dim)#_rec proc_right#dim
249 | _ -> raise (Process_error "binary process constructor.")
250
251 val _delay =
252 match exp_init with
253 | Par (e1, e2) -> max proc_left#delay proc_right#delay
254 | Seq (e1, e2) -> proc_left#delay + proc_right#delay
255 | Split (e1, e2) -> proc_left#delay + proc_right#delay
256 | Merge (e1, e2) -> proc_left#delay + proc_right#delay
257 | Rec (e1, e2) -> 1 + proc_left#delay + proc_right#delay
258 | _ -> raise (Process_error "binary process constructor.")
259 end
260
261 and proc_par : faust_exp -> process_type =
262 fun (exp_init : faust_exp) ->
263 object (self)
264 inherit process_binary exp_init
265 method eval : beam_type -> beam_type =
266 fun (input : beam_type) ->
267 let (sub_input1, sub_input2) = input#cut self#proc_left#dim#input in
268 let sub_output1 = self#proc_left#eval sub_input1 in
269 let sub_output2 = self#proc_right#eval sub_input2 in
270 sub_output1#append sub_output2
271 end
272
273 and proc_split : faust_exp -> process_type =
274 fun (exp_init : faust_exp) ->
275 object (self)
276 inherit process_binary exp_init
277 method eval : beam_type -> beam_type =
278 fun (input : beam_type) ->
279 let mid_output = self#proc_left#eval input in
280 let mid_input = mid_output#matching self#proc_right#dim#input in
281 self#proc_right#eval mid_input
282 end
283
284 and proc_merge : faust_exp -> process_type =
285 fun (exp_init : faust_exp) ->
286 object (self)
287 inherit process_binary exp_init
288 method eval : beam_type -> beam_type =
289 fun (input : beam_type) ->
290 let mid_output = self#proc_left#eval input in
291 let mid_input = mid_output#matching self#proc_right#dim#input in
292 self#proc_right#eval mid_input
293 end
294
295 and proc_seq : faust_exp -> process_type =
296 fun (exp_init : faust_exp) ->
297 object (self)
298 inherit process_binary exp_init
299 method eval : beam_type -> beam_type =
300 fun (input : beam_type) ->
301 let mid_output = self#proc_left#eval input in
302 self#proc_right#eval mid_output
303 end
304
305 and proc_rec : faust_exp -> process_type =
306 fun (exp_init : faust_exp) ->
307 object (self)
308 inherit process_binary exp_init
309 method eval : beam_type -> beam_type =
310 fun (input : beam_type) ->
311 let memory = Hashtbl.create self#delay in
312 let rates = ref (Array.make self#dim#output (new rate 0 1)) in
313
314 let split : (time -> value_type array) -> (time -> value_type) array =
315 fun beam_at ->
316 let get_signal =
317 fun beam_func -> fun i -> fun t ->
318 (beam_func t).(i) in
319 Array.init self#dim#output (get_signal beam_at) in
320
321 let feedback : (time -> value_type array) -> beam =
322 fun beam_at ->
323 let signals_at = split beam_at in
324 let delay_by_one = fun s -> fun t -> s (t - 1) in
325 let delay_signal_funcs = Array.map delay_by_one
326 (Array.sub signals_at 0 self#proc_right#dim#input) in
327 new beam (array_map2 (new signal)
328 (Array.sub !rates 0 self#proc_right#dim#input)
329 delay_signal_funcs) in
330
331 let rec beam_at : time -> value_type array =
332 fun (t : time) ->
333 if t < 0 then
334 Array.make self#dim#output (new value Zero)
335 else if Hashtbl.mem memory t then
336 Hashtbl.find memory t
337 else
338 let beam_fb_in = feedback beam_at in
339 let beam_fb_out = self#proc_right#eval beam_fb_in in
340 let beam_in = beam_fb_out#append input in
341 let beam_out = self#proc_left#eval beam_in in
342 let values = beam_out#at t in
343 let () = (rates := beam_out#frequency) in
344 let () = Hashtbl.add memory t values in
345 let () = if t - self#delay >= 0 then
346 Hashtbl.remove memory (t - self#delay) else () in
347 values in
348 new beam (array_map2 (new signal) !rates (split beam_at))
349 end
350
351 and proc_factory =
352 object
353 method make : faust_exp -> process_type =
354 fun (exp : faust_exp) ->
355 match exp with
356 | Const b -> new proc_const exp
357 | Ident s -> new proc_ident exp
358 | Par (e1, e2) -> new proc_par exp
359 | Seq (e1, e2) -> new proc_seq exp
360 | Split (e1, e2) -> new proc_split exp
361 | Merge (e1, e2) -> new proc_merge exp
362 | Rec (e1, e2) -> new proc_rec exp
363 end;;