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1 /* Part of DML (Digital Music Laboratory)
2 Copyright 2014-2015 Samer Abdallah, University of London
3
4 This program is free software; you can redistribute it and/or
5 modify it under the terms of the GNU General Public License
6 as published by the Free Software Foundation; either version 2
7 of the License, or (at your option) any later version.
8
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
13
14 You should have received a copy of the GNU General Public
15 License along with this library; if not, write to the Free Software
16 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
17 */
18
19 :- module(computations,
20 [ computation/3
21 , computation_memo/3
22 , vamp/3
23 , transform/2
24 , transform_param/3
25 , sparse_to_dense/4
26 , fold_commutative/3
27 , map_reduce/4
28 , map_reduce/5
29 , unzip/3
30 , pair/3
31 , add/3, mul/3, div_by/3
32 , fst/3, snd/3
33 , with_csv_rows/3
34 , csv_op/3
35 , (*)/4
36 , array_list/2
37 , microtone_map/4
38 , rows_cols/3
39 , tempo_curves_stats/3
40 , map_edges/3
41 , csv_pitch_count_prob/5
42 , pitch_hist_prob/4
43 , pitch_name_number/2
44 , pitch_number_name/2
45 , freq_note_number/2
46 , histof/4
47 , histof/3
48 , weighted_histof/5
49 , weighted_histof/4
50 ]).
51
52 :- use_module(library(rdfutils)).
53 :- use_module(library(dcg/basics)).
54 :- use_module(library(dcg_core)).
55 :- use_module(library(dcg_macros)).
56 :- use_module(library(csvutils)).
57 :- use_module(library(listutils)).
58 :- use_module(library(lambda)).
59 :- use_module(library(memo)).
60 :- use_module(library(mlserver)).
61 :- use_module(library(sandbox)).
62 :- use_module(library(backend_json)).
63 :- use_module(library(real)).
64
65 :- volatile_memo pitch_name_number(+atom,-integer).
66
67 :- initialization <-library(pracma).
68
69 :- rdf_meta vamp(?,r,r).
70
71 %% vamp(+T:transform_class, +R:uri, -X:uri) is nondet.
72 %% vamp(-T:transform_class, -R:uri, -X:uri) is nondet.
73 %
74 % See transform/2 for values transform_class type.
75 vamp(Class,In,Out) :-
76 transform(Class,F),
77 computation(F,In,Out).
78
79 %% transform(+T:transform_class, -R:uri) is det.
80 %% transform(-T:transform_class, -R:uri) is nondet.
81 %
82 % Mapping between short transform descriptors and full VAMP transform URIs for
83 % transforms currently known to the system. Currently recognised transform classes are:
84 % ==
85 % transform_class ---> transcription % equivalent to transcription(0)
86 % ; transcription({0,1}) % 0: semitone, 1:microtonal
87 % ; beats({beatroot,qm}) % beats using one of two plugins
88 % ; beats % beats using any plugin
89 % ; tempo
90 % ; chords
91 % ; chord_notes
92 % ; key
93 % ; tonic
94 % ; chromagram
95 % ; mfcc.
96 % ==
97 transform(Class,Transform) :-
98 ground(Class), !,
99 transforms(Class,Transforms),
100 member(Transform,Transforms).
101 transform(Class,Transform) :-
102 transform1(Class,Transform).
103
104 % memoised collection of all transforms
105 :- volatile_memo transforms(+ground,-list(atom)).
106 transforms(Class,Transforms) :-
107 findall(T,transform1(Class,T),Transforms).
108
109 %% transform1(-Class:transform_class,-R:uri) is nondet.
110 % Searches the RDF database for resources of class vamp:Transform which
111 % match the various transform classes. See transform/2.
112 transform1(beats,Transform) :- transform1(beats(_),Transform).
113 transform1(transcription,Transform) :- transform1(transcription(0),Transform).
114 transform1(transcription(Fine),Transform) :-
115 transform1(notes,Transform),
116 transform_param(Transform,finetune,Lit),
117 literal_number(Lit,Fine).
118
119 transform1(Class,Transform) :-
120 def_transform(Class,Plugin,Output),
121 rdf(Transform,vamp:plugin,Plugin),
122 rdf(Transform,vamp:output,Output).
123
124 :- rdf_meta transform_param(r,r,-).
125 transform_param(Transform,ParamId,Value) :-
126 rdf(Transform,vamp:parameter_binding,Binding),
127 rdf(Binding,vamp:parameter,Param),
128 rdf(Param,vamp:identifier,literal(ParamId)),
129 rdf(Binding,vamp:value,literal(Value)).
130
131
132 :- rdf_meta def_transform(-,r,r).
133
134 % transform class, plugin, output
135 def_transform(notes, vamp_plugins:'silvet#silvet', vamp_plugins:'silvet#silvet_output_notes').
136 def_transform(pitch_activation, vamp_plugins:'silvet#silvet', vamp_plugins:'silvet#silvet_output_pitchactivation').
137 def_transform(silvet_timefreq, vamp_plugins:'silvet#silvet', vamp_plugins:'silvet#silvet_output_timefreq').
138 def_transform(beats(beatroot), vamp_plugins:'beatroot-vamp#beatroot', vamp_plugins:'beatroot-vamp#beatroot_output_beats').
139 def_transform(beats(qm), vamp_plugins:'qm-vamp-plugins#qm-tempotracker', vamp_plugins:'qm-vamp-plugins#qm-tempotracker_output_beats').
140 def_transform(tempo, vamp_plugins:'qm-vamp-plugins#qm-tempotracker', vamp_plugins:'qm-vamp-plugins#qm-tempotracker_output_tempo').
141 def_transform(onset_dfn(tempo), vamp_plugins:'qm-vamp-plugins#qm-tempotracker', vamp_plugins:'qm-vamp-plugins#qm-tempotracker_output_detection_fn').
142 def_transform(chords, vamp_plugins:'nnls-chroma#chordino', vamp_plugins:'nnls-chroma#chordino_output_simplechord').
143 def_transform(chord_notes, vamp_plugins:'nnls-chroma#chordino', vamp_plugins:'nnls-chroma#chordino_output_chordnotes').
144 def_transform(harmonic_change, vamp_plugins:'nnls-chroma#chordino', vamp_plugins:'nnls-chroma#chordino_output_harmonicchange').
145 def_transform(key, vamp_plugins:'qm-vamp-plugins#qm-keydetector', vamp_plugins:'qm-vamp-plugins#qm-keydetector_output_key').
146 def_transform(key_strength, vamp_plugins:'qm-vamp-plugins#qm-keydetector', vamp_plugins:'qm-vamp-plugins#qm-keydetector_output_keystrength').
147 def_transform(tonic, vamp_plugins:'qm-vamp-plugins#qm-keydetector', vamp_plugins:'qm-vamp-plugins#qm-keydetector_output_tonic').
148 def_transform(mode, vamp_plugins:'qm-vamp-plugins#qm-keydetector', vamp_plugins:'qm-vamp-plugins#qm-keydetector_output_mode').
149 def_transform(mfcc, vamp_plugins:'qm-vamp-plugins#qm-mfcc', vamp_plugins:'qm-vamp-plugins#qm-mfcc_output_coefficients').
150 def_transform(mfcc_means, vamp_plugins:'qm-vamp-plugins#qm-mfcc', vamp_plugins:'qm-vamp-plugins#qm-mfcc_output_means').
151 def_transform(onsets, vamp_plugins:'qm-vamp-plugins#qm-onsetdetector',vamp_plugins:'qm-vamp-plugins#qm-onsetdetector_output_onsets').
152 def_transform(onset_dfn, vamp_plugins:'qm-vamp-plugins#qm-onsetdetector',vamp_plugins:'qm-vamp-plugins#qm-onsetdetector_output_detection_fn').
153 def_transform(onset_smoothed_dfn, vamp_plugins:'qm-vamp-plugins#qm-onsetdetector',vamp_plugins:'qm-vamp-plugins#qm-onsetdetector_output_smoothed_df').
154 def_transform(chromagram, vamp_plugins:'qm-vamp-plugins#qm-chromagram', vamp_plugins:'qm-vamp-plugins#qm-chromagram_output_chromagram').
155 def_transform(chromameans, vamp_plugins:'qm-vamp-plugins#qm-chromagram', vamp_plugins:'qm-vamp-plugins#qm-chromagram_output_chromameans').
156 def_transform(chromagram(upper), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_chroma').
157 def_transform(chromagram(bass), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_basschroma').
158 def_transform(chromagram(both), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_bothchroma').
159 def_transform(spectrogram(semitone), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_semitonespectrum').
160 def_transform(spectrogram(log_freq), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_logfreqspec').
161 def_transform(spectrogram(tuned), vamp_plugins:'nnls-chroma#nnls-chroma', vamp_plugins:'nnls-chroma#nnls-chroma_output_tunedlogfreqspec').
162 def_transform(melody, vamp_plugins:'mtg-melodia#melodia', vamp_plugins:'mtg-melodai#melodia_output_melody').
163 def_transform(spectrogram(const_q), vamp_plugins:'qm-vamp-plugins#qm-constantq', vamp_plugins:'qm-vamp-plugins#qm-constantq_output_constantq').
164 def_transform(segments, vamp_plugins:'qm-vamp-plugins#qm-segmenter', vamp_plugins:'qm-vamp-plugins#qm-segmenter_output_segmentation').
165 def_transform(speech_music, vamp_plugins:'bbc-vamp-plugins#bbc-speechmusic-segmenter',
166 vamp_plugins:'bbc-vamp-plugins#bbc-speechmusic-segmenter_output_segmentation').
167 def_transform(speech_music_dfn, vamp_plugins:'bbc-vamp-plugins#bbc-speechmusic-segmenter',
168 vamp_plugins:'bbc-vamp-plugins#bbc-speechmusic-segmenter_output_skewness').
169
170
171 %% computation_memo(+Transform:uri,+Input:uri,-Output:uri) is det.
172 % Memoised functional Relation between transforms, inputs and outputs.
173
174 :- multifile do_computation/3.
175
176 :- rdf_meta computation_memo(r,r,r).
177 computation_memo(Fn,Input,Output) :-
178 must_be(atom,Fn),
179 must_be(atom,Input),
180 must_be(var,Output),
181 ( computation(Fn,Input,Output) -> true
182 ; memo:timed(computations:do_computation(Fn,Input,Output),comp(_,Time,Dur)),
183 format_time(atom(Timestamp),'%FT%T%:z',Time),
184 memo:hostname(Host),
185 phrase( ( vamp:computation_triples(Comp,Input,Fn,Output),
186 vamp:rdf(Comp,dml:'comp/time',literal(type(xsd:dateTime,Timestamp))),
187 vamp:rdf(Comp,dml:'comp/duration',literal(type(xsd:float,Dur))),
188 vamp:rdf(Comp,dml:'comp/host',literal(Host))
189 ), Triples,[]),
190 forall(member(rdf(S,P,O),Triples), rdf_assert(S,P,O,vamp_memo))
191 ).
192
193
194 %% computation(-Transform:uri,-Input:uri,-Output:uri) is nondet.
195 % Relation between transforms, inputs and outputs using RDF database
196 % of existing computations.
197
198 :- rdf_meta computation(r,r,r).
199 computation(Fn,Input,Output) :- nonvar(Output), !,
200 rdf(Comp,dml:'comp/output',Output),
201 rdf(Comp,dml:'comp/function',Fn),
202 rdf(Comp,dml:'comp/input',Input).
203
204 computation(Fn,Input,Output) :- nonvar(Input), !,
205 rdf(Comp,dml:'comp/input',Input),
206 rdf(Comp,dml:'comp/function',Fn),
207 rdf(Comp,dml:'comp/output',Output).
208
209 computation(Fn,Input,Output) :-
210 rdf(Comp,dml:'comp/input',Input),
211 rdf(Comp,dml:'comp/function',Fn),
212 rdf(Comp,dml:'comp/output',Output).
213
214 % ------------ Framework for doing computations on CSV files -----------
215 :- meta_predicate with_csv_rows(2,+,-).
216 with_csv_rows(Pred,CSV,Result) :-
217 insist(uri_to_csv(CSV,Rows)),
218 insist(call(Pred,Rows,Result), failed_on_csv(Pred,CSV)).
219
220 csv_op(Op,CSV,Result) :-
221 ( memoise(Op)
222 -> csv_op_memo(Op,CSV,Result) % ,_-ok)
223 ; with_csv_rows(row_op(Op),CSV,Result)
224 ),
225 debug(computations(item),'Done csv_op(~q,~q).',[Op,CSV]).
226
227 sandbox:safe_primitive(computations:csv_op(_,_,_)).
228
229 :- persistent_memo csv_op_memo(+ground,+atom,-ground).
230 csv_op_memo(Op,CSV,Result) :- with_csv_rows(row_op(Op),CSV,Result).
231
232 :- initialization time(memo_attach(memo(computations2),[])).
233
234 memoise(pitch_hist(_)).
235 memoise(freq_hist(_,_)).
236 memoise(tempo_hist(_,_)).
237 memoise(uniform_tempo(_)).
238 memoise(uniform_tempo_r(_)).
239 memoise(normalised_tempo(_)).
240 memoise(normalised_tempo_r(_)).
241
242 row_op(id,Rows,Rows) :- !.
243 row_op(column(N),Rows,Vals) :- !, maplist(arg(N),Rows,Vals).
244 row_op(array,Rows,Array) :- !, maplist(row_list(_),Rows,Array).
245 row_op(chord_hist,Rows,Hist) :- !, histof(Chord,T,member(row(T,Chord),Rows),Hist).
246 row_op(pitch_hist(none),Rows,Hist) :- !, histof(Pitch,t(T,Dur),note(Rows,T,Dur,Pitch),Hist).
247 row_op(pitch_hist(W),Rows,Hist) :- !, weighted_histof(Weight,Pitch,t(T,Dur),weighted_note(W,Rows,T,Dur,Pitch,Weight),Hist).
248 row_op(beat_times,Rows,Times) :- !, row_op(column(1),Rows,Times).
249 row_op(onset_times,Rows,Times) :- !, row_op(column(1),Rows,Times).
250 row_op(tempo,Rows,Tempo) :- !, maplist(row_pair(1,2),Rows,Tempo).
251 row_op(uniform_tempo(DT),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), uniform_sample(ml,cubic,DT,Tempo,Samples).
252 row_op(uniform_tempo_r(DT),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), uniform_sample(r,cubic,DT,Tempo,Samples).
253 row_op(uniform_tempo(Meth,DT),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), uniform_sample(ml,Meth,DT,Tempo,Samples).
254 row_op(uniform_tempo_r(Meth,DT),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), uniform_sample(r,Meth,DT,Tempo,Samples).
255 row_op(normalised_tempo(N),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), normalised_sample(ml,N,Tempo,Samples).
256 row_op(normalised_tempo_r(N),Rows,Samples) :- !, row_op(tempo,Rows,Tempo), normalised_sample(r,N,Tempo,Samples).
257 row_op(tempo_hist(DT,Map),Rows,Edges-Counts) :- !,
258 row_op(uniform_tempo(DT),Rows,_-Tempo),
259 M===Map,
260 [arr(Counts), arr(Edges)] ===
261 deal(accumhist(flatten(feval(M,Tempo)),1,cardr(M)), flatten(edges(M))).
262
263 row_op(tempo_hist_r(DT,Map),Rows,Edges-Counts) :- !,
264 map_to_r_edges(Map,REdges),
265 row_op(uniform_tempo_r(DT),Rows,_-Tempo),
266 Counts <- table(cut(Tempo,breaks=REdges)),
267 Edges <- REdges.
268 % memberchk(counts=Counts,Hist),
269 % memberchk(breaks=Edges,Hist).
270
271 row_op(freq_hist(Map1,W),Rows,Counts) :-
272 column(transcription,freq,J),
273 ( W=none
274 -> maplist(arg(J),Rows,Freqs), Weights=1
275 ; column(transcription,W,I),
276 rows_cols([J,I],Rows,[Freqs,Weights])
277 ),
278 Map===Map1, % evaluate map and keep in Matlab workspace
279 X=feval(Map,12*log2(Freqs)-(12*log2(440)-69)),
280 array_list(accumhist(flatten(X),flatten(Weights),cardr(Map)),Counts).
281
282 row_op(freq_hist_r(Map1,W),Rows,Counts) :-
283 column(transcription,freq,J),
284 map_to_r_edges(Map1,REdges),
285 Pitches=12*log2(Freqs)-(12*log2(440)-69),
286 ( W=none
287 -> maplist(arg(J),Rows,Freqs),
288 Hist <- hist(Pitches,breaks=REdges,plot=0)
289 ; column(transcription,W,I),
290 rows_cols([J,I],Rows,[Freqs,Weights]),
291 Hist <- hist(Pitches,Weights,breaks=REdges,plot=0)
292 ),
293 memberchk(counts=Counts,Hist).
294
295 map_edges(r,Map,Edges) :-
296 map_to_r_edges(Map,Expr),
297 Edges <- Expr.
298 map_edges(ml,Map,Edges) :-
299 array_list(edges(Map),Edges).
300
301 map_to_r_edges(expmap(Min,Max,N),sapply(seq(log(Min),log(Max),len=N+1),exp)).
302 map_to_r_edges(binmap(Min,Max,N),seq(Min-HalfWidth,Max+HalfWidth,len=N+1)) :- HalfWidth=(Max-Min)/(2*(N-1)).
303
304 column(Format, Name, Number) :- csv(Format,Row), arg(Number,Row,Name).
305 csv(transcription, row(time,dur,freq,vel,pitch)).
306
307 gather(P,Rows,Xs) :- findall(X,(member(R,Rows),call(P,R,X)),Xs).
308
309
310 microtone_map(Min,Max,Res,binmap(Min,Max,N)) :- N is (Max-Min)*Res+1.
311
312 % qfreq(Q,Rows,T,Dur,QFreq) :- member(row(T,Dur,Freq,_,_),Rows), qlogfreq(Q,Freq,QFreq).
313 % weighted_qfreq(dur,Q,Rows,T,Dur,QFreq,Dur) :- member(row(T,Dur,Freq,_,_),Rows), qlogfreq(Q,Freq,QFreq).
314 % weighted_qfreq(vel,Q,Rows,T,Dur,QFreq,Vel) :- member(row(T,Dur,Freq,Vel,_),Rows), qlogfreq(Q,Freq,QFreq).
315 % qlogfreq(Q,In,Out) :- B is 12/log(2), Out is 69+round(Q*B*(log(In)-log(440)))/Q.
316 % goal_expansion(qlogfreq(Q,In,Out), Out is 69+round(Q*B*(log(In)-A))/Q) :- B is 12/log(2), A=log(440).
317
318 uniform_sample(DT,In,Out) :- uniform_sample(ml,linear,DT,In,Out).
319
320 uniform_sample(_,_,_,[Time-Val],[Time]-[Val]) :- !.
321 uniform_sample(Lang,Meth,DT,Pairs,Times1-Vals1) :-
322 unzip(Pairs,Times,Vals),
323 aggregate(max(T), member(T,Times), MaxT),
324 interp1(Lang,Meth,0:DT:MaxT,Times,Vals,Times1,Vals1).
325
326 normalised_sample(N,In,Out) :- normalised_sample(ml,N,In,Out).
327
328 normalised_sample(_,N,[Time-Val],Times-Vals) :- !,
329 rep(N,Time,Times),
330 rep(N,Val,Vals).
331 normalised_sample(Lang,N,Pairs,Times1-Vals1) :-
332 unzip(Pairs,Times,Vals),
333 aggregate(max(T), member(T,Times), MaxT),
334 interp1(Lang,cubic,linspace(0,MaxT,N),Times,Vals,Times1,Vals1).
335
336 interp1(ml,Meth,TSpec,Times,Vals,Times1,Vals1) :-
337 length(Times,N),
338 (N<4 -> Method=q(linear); Method=q(Meth)),
339 T1===flatten(TSpec),
340 [arr(Times1), arr(Vals1)]===deal(T1,interp1(Times,Vals,T1,Method)).
341 interp1(r,Meth,TSpec,Times,Vals,Times1,Vals1) :-
342 ml_r(TSpec,RTSpec),
343 length(Times,N),
344 (N<4 -> Method = +linear; Method = +Meth),
345 Times1 <- RTSpec,
346 Vals1 <- interp1(Times,Vals,Times1,Method).
347
348 ml_r(X1:DX:X2, seq(X1,X2,DX)).
349 ml_r(linspace(X1,X2,N), seq(X1,X2,len=N)).
350
351 array_list(Array,List) :- arr(List)===flatten(Array).
352
353 :- meta_predicate '*'(2,2,+,-).
354 *(F1,F2,X,Y) :- call(F1,X,Z), call(F2,Z,Y).
355
356 note(Rows,T,Dur,NN) :- member(row(T,Dur,_,_,Pitch),Rows), pitch_name_number(Pitch,NN).
357
358 weighted_note(dur,Rows,T,Dur,NN,Dur) :- member(row(T,Dur,_,_,Pitch),Rows), pitch_name_number(Pitch,NN).
359 weighted_note(vel,Rows,T,Dur,NN,Vel) :- member(row(T,Dur,_,Vel,Pitch),Rows), pitch_name_number(Pitch,NN).
360 weighted_note(dur*vel,Rows,T,Dur,NN,Weight) :-
361 member(row(T,Dur,_,Vel,Pitch),Rows), pitch_name_number(Pitch,NN),
362 Weight is Dur*Vel.
363
364
365 tempo_curves_stats(ml,Curves, _{means:Means,std_devs:StdDevs}) :-
366 Data===arr(Curves),
367 array_list(mean(Data,2),Means),
368 array_list(std(Data,0,2),StdDevs).
369
370 tempo_curves_stats(r,Curves, _{means:Means,std_devs:Stds}) :-
371 data <- Curves,
372 Means <- apply(data,2,mean),
373 Stds <- apply(data,2,sd).
374
375 :- meta_predicate histof(-,0,-)
376 , histof(-,-,0,-)
377 , weighted_histof(-,-,0,-)
378 , weighted_histof(-,-,-,0,-)
379 .
380
381 %% histof(@Dom:A,+Goal:callable,-Hist:list(pair(A,natural))) is nondet.
382 % Compile a histogram over values taken by the variable Dom while enumerating
383 % all solutions of Goal. Repeated solutions of Goal with the same values
384 % count as distinct observations. See also histof/4.
385 histof(Dom,Goal,Hist) :-
386 setof(Dom-N,aggregate(count,Goal,N),Hist).
387
388 %% histof(@Dom:A,@Disc:_,+Goal:callable,-Hist:list(pair(A,natural))) is nondet.
389 % Compile a histogram over values taken by the variable Dom while enumerating
390 % all solutions of Goal. The value of Disc is used to discriminate between
391 % solutions of Goal with the same value of Dom. See also histof/3 and aggregate/4
392 % for more information about discriminator variables.
393 histof(Dom,Disc,Goal,Hist) :-
394 setof(Dom-N,aggregate(count,Disc,Goal,N),Hist).
395
396 weighted_histof(W,Dom,Goal,Hist) :-
397 setof(Dom-N,aggregate(sum(W),Goal,N),Hist).
398
399 weighted_histof(W,Dom,Disc,Goal,Hist) :-
400 setof(Dom-N,aggregate(sum(W),Disc,Goal,N),Hist).
401
402 sparse_to_dense(Min,Max,Hist,Counts) :-
403 s_to_d(Min,Max,Hist,Counts).
404
405 s_to_d(I,Max,[],[]) :- I>Max, !.
406 s_to_d(I,Max,[],[0|Counts]) :- !, succ(I,J), s_to_d(J,Max,[],Counts).
407 s_to_d(I,Max,[I-C|Hist],[C|Counts]) :- !, succ(I,J), s_to_d(J,Max,Hist,Counts).
408 s_to_d(I,Max,Hist,[0|Counts]) :- succ(I,J), s_to_d(J,Max,Hist,Counts).
409
410
411 add(X,Y,Z) :- Z is X+Y.
412
413 :- meta_predicate
414 map_reduce(1,2,3,-),
415 map_reduce(1,2,3,-,-),
416 fold_commutative(3,+,-).
417
418 %% map_reduce(+Generator:pred(-R), +Mapper:pred(+R,-A), +Reducer:pred(+A,+A,-A), -Result:A, -Errors:list(error_report(R))) is det.
419 %% map_reduce(+Generator:pred(-R), +Mapper:pred(+R,-A), +Reducer:pred(+A,+A,-A), -Result:A) is semidet.
420 %
421 % Simple implementation of map-reduce: Mapper is applied to each item produced by Generator
422 % and the results all combined using Reducer. Mapper should be a deterministic predicate.
423 % Failures and exceptions encountered in the mapping phase are reported in Errors.
424 % However, if the items are successfully mapped, this predicate fails.
425 % Any choice points left by mapper after its first solution are cut.
426 %
427 % ==
428 % error_report(R) ---> failed(R); error(R,exception).
429 % ==
430 map_reduce(Finder,Mapper,Reducer,Result) :-
431 map_reduce(Finder,Mapper,Reducer,Result,_).
432
433 map_reduce(Finder,Mapper,Reducer,Result,Errors-Failures) :-
434 setof(X,call(Finder,X),Xs),
435 maplist(safe_call(Mapper),Xs,Ys),
436 partition_ok(Ys,Ok,Errors,Failures),
437 insist(fold_commutative(Reducer,Ok,Result)).
438
439 %% safe_call(+P:pred(+A,-B), +X:A, -Y:result(A,B)) is det.
440 %
441 % Call binary predicate P with arguments of type A and B. The result
442 % term Y is of type
443 % ==
444 % result(A,B) ---> ok(B); failed(A); error(A,exception).
445 % ==
446 % and encodes the result of the call, including the input value that
447 % caused any failure or exception.
448 safe_call(Mapper,X,Z) :-
449 ( catch((call(Mapper,X,Y), Z=ok(Y)), Ex,
450 (Ex=abort_map -> throw(map_aborted); Z=error(X,Ex))), !
451 ; Z=failed(X)
452 ).
453
454 partition_ok([],[],[],[]).
455 partition_ok([In|Ins],Goods,Bads,Uglies) :-
456 ( In=ok(X)
457 -> Goods=[X|Goods1], partition_ok(Ins,Goods1,Bads,Uglies)
458 ; In=error(_,_)
459 -> Bads=[In|Bads1], partition_ok(Ins,Goods,Bads1,Uglies)
460 ; In=failed(X)
461 -> Uglies=[X|Uglies1], partition_ok(Ins,Goods,Bads,Uglies1)
462 ).
463
464 fold_commutative(Op,Items,Result) :-
465 Items=[I1|Rest],
466 seqmap(Op,Rest,I1,Result), !.
467
468 freq_note_number(F,N) :- N is 69+round(12*log(F/440)/log(2)).
469
470 pitch_name_number(Name,Number) :-
471 atom_codes(Name,Chars),
472 phrase(note(Number),Chars).
473
474 pitch_number_name(Number,Name) :-
475 phrase(note(Number),Chars),
476 atom_codes(Name,Chars).
477
478 :- use_module(library(clpfd)).
479 note(Num) -->
480 [Nom], ({Mod=0}; [0'#],{Mod=1}),
481 { PC in 0..11,
482 Num #= 12*(Oct+1)+PC+Mod,
483 nom_semis(Nom,PC)
484 },
485 integer(Oct).
486
487 nom_semis(0'C,0).
488 nom_semis(0'D,2).
489 nom_semis(0'E,4).
490 nom_semis(0'F,5).
491 nom_semis(0'G,7).
492 nom_semis(0'A,9).
493 nom_semis(0'B,11).
494
495 unzip(Pairs,Xs,Ys) :- maplist(pair,Xs,Ys,Pairs).
496 pair(X,Y,X-Y).
497
498 row_pair(I,J,Row,X-Y) :- arg(I,Row,X), arg(J,Row,Y).
499 row_list(N,Row,List) :- functor(Row,_,N), Row=..[_|List].
500 rows_cols(Is,[],Cols) :- !, maplist(nil,Is,Cols).
501 rows_cols(Is,[R|Rs],Cols) :-
502 ( maplist(arg_cons(R),Is,Tails,Cols)
503 -> rows_cols(Is,Rs,Tails)
504 ; fail % rows_cols(Is,Rs,Cols)
505 ).
506
507 arg_cons(Row,I,T,[X|T]) :- arg(I,Row,X).
508 nil(_,[]).
509
510 fst(F,K1-V,K2-V) :- call(F,K1,K2).
511 snd(F,K-V1,K-V2) :- call(F,V1,V2).
512 div_by(K,X,Y) :- Y is X/K.
513
514 mul(X,Y,Z) :- Z is round(X*Y).
515
516 :- dynamic pitch_hist_table/5, pitch_hist_tabled/1.
517
518 csv_pitch_count_prob(W,CSV,Pitch,Count,Prob) :-
519 must_be(ground,W),
520 ( pitch_hist_tabled(W) -> true
521 ; table_pitch_hist(W)
522 ),
523 pitch_hist_table(W,CSV,Pitch,Count,Prob).
524
525 table_pitch_hist(W) :-
526 retractall(pitch_hist_table_cached(W)),
527 forall( browse(csv_op_memo(pitch_hist(W),CSV,Hist)),
528 ( retractall(pitch_hist_table(W,CSV,_,_,_)),
529 forall( pitch_hist_prob(Hist,Pitch,Count,Prob),
530 assert(pitch_hist_table(W,CSV,Pitch,Count,Prob))))),
531 assert(pitch_hist_tabled(W)).
532
533 pitch_hist_prob(Hist,Pitch,Count,Prob) :-
534 unzip(Hist,_,Counts),
535 sumlist(Counts,Total),
536 member(Pitch-Count,Hist),
537 Prob is Count/Total.