Spaces:
Runtime error
Runtime error
File size: 51,928 Bytes
e47ecb8 cfa70b3 1ea42dc cfa70b3 1ea42dc cfa70b3 1ea42dc cfa70b3 1ea42dc cfa70b3 1ea42dc d5353b5 cfa70b3 1ea42dc d5353b5 cfa70b3 d5353b5 1ea42dc e47ecb8 c51a1c9 1ea42dc c51a1c9 d5353b5 e47ecb8 1ea42dc d5353b5 1ea42dc cfa70b3 c51a1c9 e47ecb8 c51a1c9 d5353b5 c51a1c9 d5353b5 c51a1c9 d5353b5 c51a1c9 d5353b5 e47ecb8 1ea42dc d5353b5 23810d5 d5353b5 cfa70b3 d5353b5 cfa70b3 d5353b5 cfa70b3 d5353b5 cfa70b3 d5353b5 ff0299c d5353b5 cfa70b3 d5353b5 cfa70b3 d5353b5 c51a1c9 cfa70b3 d5353b5 c51a1c9 ff0299c c51a1c9 1ea42dc d5353b5 1ea42dc d5353b5 c51a1c9 1ea42dc c51a1c9 1ea42dc 6481a43 cfa70b3 6481a43 1ea42dc c51a1c9 1ea42dc c51a1c9 1ea42dc d5353b5 e47ecb8 1ea42dc e47ecb8 1ea42dc e47ecb8 1ea42dc e47ecb8 1ea42dc e47ecb8 209f9d6 c51a1c9 e47ecb8 209f9d6 e47ecb8 209f9d6 e47ecb8 cfa70b3 c51a1c9 d5353b5 c51a1c9 cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 ff0299c cfa70b3 c51a1c9 cfa70b3 c51a1c9 cfa70b3 c51a1c9 cfa70b3 c51a1c9 cfa70b3 |
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 405 406 407 408 409 410 411 412 413 414 415 416 417 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 446 447 448 449 450 451 452 453 454 455 456 457 458 459 460 461 462 463 464 465 466 467 468 469 470 471 472 473 474 475 476 477 478 479 480 481 482 483 484 485 486 487 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938 939 940 941 942 943 944 945 946 947 948 949 950 951 952 953 954 955 956 957 958 959 960 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 |
import random
import PIL.Image
import numpy as np
class MIDITokenizerV1:
def __init__(self):
self.version = "v1"
self.optimise_midi = False
self.vocab_size = 0
def allocate_ids(size):
ids = [self.vocab_size + i for i in range(size)]
self.vocab_size += size
return ids
self.pad_id = allocate_ids(1)[0]
self.bos_id = allocate_ids(1)[0]
self.eos_id = allocate_ids(1)[0]
self.events = {
"note": ["time1", "time2", "track", "duration", "channel", "pitch", "velocity"],
"patch_change": ["time1", "time2", "track", "channel", "patch"],
"control_change": ["time1", "time2", "track", "channel", "controller", "value"],
"set_tempo": ["time1", "time2", "track", "bpm"],
}
self.event_parameters = {
"time1": 128, "time2": 16, "duration": 2048, "track": 128, "channel": 16, "pitch": 128, "velocity": 128,
"patch": 128, "controller": 128, "value": 128, "bpm": 256
}
self.event_ids = {e: allocate_ids(1)[0] for e in self.events.keys()}
self.id_events = {i: e for e, i in self.event_ids.items()}
self.parameter_ids = {p: allocate_ids(s) for p, s in self.event_parameters.items()}
self.max_token_seq = max([len(ps) for ps in self.events.values()]) + 1
def set_optimise_midi(self, optimise_midi=True):
self.optimise_midi = optimise_midi
@staticmethod
def tempo2bpm(tempo):
tempo = tempo / 10 ** 6 # us to s
bpm = 60 / tempo
return bpm
@staticmethod
def bpm2tempo(bpm):
if bpm == 0:
bpm = 1
tempo = int((60 / bpm) * 10 ** 6)
return tempo
def tokenize(self, midi_score, add_bos_eos=True, cc_eps=4, tempo_eps=4,
remap_track_channel=None, add_default_instr=None, remove_empty_channels=None):
if remap_track_channel is None: # set default value
remap_track_channel = self.optimise_midi
if add_default_instr is None:
add_default_instr = self.optimise_midi
if remove_empty_channels is None:
remove_empty_channels = self.optimise_midi
ticks_per_beat = midi_score[0]
event_list = {}
track_idx_map = {i: dict() for i in range(16)}
track_idx_dict = {}
channels = []
patch_channels = []
empty_channels = [True] * 16
channel_note_tracks = {i: list() for i in range(16)}
for track_idx, track in enumerate(midi_score[1:129]):
last_notes = {}
patch_dict = {}
control_dict = {}
last_tempo = 0
for event in track:
if event[0] not in self.events:
continue
c = -1
t = round(16 * event[1] / ticks_per_beat) # quantization
new_event = [event[0], t // 16, t % 16, track_idx] + event[2:]
if event[0] == "note":
c = event[3]
if c > 15 or c < 0:
continue
empty_channels[c] = False
track_idx_dict.setdefault(c, track_idx)
note_tracks = channel_note_tracks[c]
if track_idx not in note_tracks:
note_tracks.append(track_idx)
new_event[4] = max(1, round(16 * new_event[4] / ticks_per_beat))
elif event[0] == "set_tempo":
if new_event[4] == 0: # invalid tempo
continue
bpm = int(self.tempo2bpm(new_event[4]))
new_event[4] = min(bpm, 255)
if event[0] == "note":
key = tuple(new_event[:4] + new_event[5:-1])
else:
key = tuple(new_event[:-1])
if event[0] == "patch_change":
c, p = event[2:]
if c > 15 or c < 0:
continue
last_p = patch_dict.setdefault(c, None)
if last_p == p:
continue
patch_dict[c] = p
if c not in patch_channels:
patch_channels.append(c)
elif event[0] == "control_change":
c, cc, v = event[2:]
if c > 15 or c < 0:
continue
last_v = control_dict.setdefault((c, cc), 0)
if abs(last_v - v) < cc_eps:
continue
control_dict[(c, cc)] = v
elif event[0] == "set_tempo":
tempo = new_event[-1]
if abs(last_tempo - tempo) < tempo_eps:
continue
last_tempo = tempo
if c != -1:
if c not in channels:
channels.append(c)
tr_map = track_idx_map[c]
if track_idx not in tr_map:
tr_map[track_idx] = 0
if event[0] == "note": # to eliminate note overlap due to quantization
cp = tuple(new_event[5:7])
if cp in last_notes:
last_note_key, last_note = last_notes[cp]
last_t = last_note[1] * 16 + last_note[2]
last_note[4] = max(0, min(last_note[4], t - last_t))
if last_note[4] == 0:
event_list.pop(last_note_key)
last_notes[cp] = (key, new_event)
event_list[key] = new_event
event_list = list(event_list.values())
empty_channels = [c for c in channels if empty_channels[c]]
if remap_track_channel:
patch_channels = []
channels_count = 0
channels_map = {9: 9} if 9 in channels else {}
if remove_empty_channels:
channels = sorted(channels, key=lambda x: 1 if x in empty_channels else 0)
for c in channels:
if c == 9:
continue
channels_map[c] = channels_count
channels_count += 1
if channels_count == 9:
channels_count = 10
channels = list(channels_map.values())
track_count = 0
track_idx_map_order = [k for k, v in sorted(list(channels_map.items()), key=lambda x: x[1])]
for c in track_idx_map_order: # tracks not to remove
if remove_empty_channels and c in empty_channels:
continue
tr_map = track_idx_map[c]
for track_idx in tr_map:
note_tracks = channel_note_tracks[c]
if len(note_tracks) != 0 and track_idx not in note_tracks:
continue
track_count += 1
tr_map[track_idx] = track_count
for c in track_idx_map_order: # tracks to remove
if not (remove_empty_channels and c in empty_channels):
continue
tr_map = track_idx_map[c]
for track_idx in tr_map:
note_tracks = channel_note_tracks[c]
if not (len(note_tracks) != 0 and track_idx not in note_tracks):
continue
track_count += 1
tr_map[track_idx] = track_count
empty_channels = [channels_map[c] for c in empty_channels]
track_idx_dict = {}
for event in event_list:
name = event[0]
track_idx = event[3]
if name == "note":
c = event[5]
event[5] = channels_map[c]
event[3] = track_idx_map[c][track_idx]
track_idx_dict.setdefault(event[5], event[3])
# setdefault, so the track_idx is first of the channel
elif name == "set_tempo":
event[3] = 0
elif name == "control_change" or name == "patch_change":
c = event[4]
event[4] = channels_map[c]
tr_map = track_idx_map[c]
# move the event to first track of the channel if it's original track is empty
note_tracks = channel_note_tracks[c]
if len(note_tracks) != 0 and track_idx not in note_tracks:
track_idx = channel_note_tracks[c][0]
new_track_idx = tr_map[track_idx]
event[3] = new_track_idx
if name == "patch_change" and event[4] not in patch_channels:
patch_channels.append(event[4])
if add_default_instr:
for c in channels:
if c not in patch_channels and c in track_idx_dict:
event_list.append(["patch_change", 0, 0, track_idx_dict[c], c, 0])
events_name_order = {"set_tempo": 0, "patch_change": 1, "control_change": 2, "note": 3}
events_order = lambda e: e[1:4] + [events_name_order[e[0]]]
event_list = sorted(event_list, key=events_order)
setup_events = {}
notes_in_setup = False
for i, event in enumerate(event_list): # optimise setup
new_event = [*event]
if event[0] != "note":
new_event[1] = 0
new_event[2] = 0
has_next = False
has_pre = False
if i < len(event_list) - 1:
next_event = event_list[i + 1]
has_next = event[1] + event[2] == next_event[1] + next_event[2]
if notes_in_setup and i > 0:
pre_event = event_list[i - 1]
has_pre = event[1] + event[2] == pre_event[1] + pre_event[2]
if (event[0] == "note" and not has_next) or (notes_in_setup and not has_pre):
event_list = sorted(setup_events.values(), key=events_order) + event_list[i:]
break
else:
if event[0] == "note":
notes_in_setup = True
key = tuple([event[0]] + event[3:-2])
else:
key = tuple([event[0]] + event[3:-1])
setup_events[key] = new_event
last_t1 = 0
midi_seq = []
for event in event_list:
if remove_empty_channels and event[0] in ["control_change", "patch_change"] and event[4] in empty_channels:
continue
cur_t1 = event[1]
event[1] = event[1] - last_t1
tokens = self.event2tokens(event)
if not tokens:
continue
midi_seq.append(tokens)
last_t1 = cur_t1
if add_bos_eos:
bos = [self.bos_id] + [self.pad_id] * (self.max_token_seq - 1)
eos = [self.eos_id] + [self.pad_id] * (self.max_token_seq - 1)
midi_seq = [bos] + midi_seq + [eos]
return midi_seq
def event2tokens(self, event):
name = event[0]
params = event[1:]
if not all([0 <= params[i] < self.event_parameters[p] for i, p in enumerate(self.events[name])]):
return []
tokens = [self.event_ids[name]] + [self.parameter_ids[p][params[i]]
for i, p in enumerate(self.events[name])]
tokens += [self.pad_id] * (self.max_token_seq - len(tokens))
return tokens
def tokens2event(self, tokens):
if tokens[0] not in self.id_events:
return []
name = self.id_events[tokens[0]]
if len(tokens) <= len(self.events[name]):
return []
params = tokens[1:]
params = [params[i] - self.parameter_ids[p][0] for i, p in enumerate(self.events[name])]
if not all([0 <= params[i] < self.event_parameters[p] for i, p in enumerate(self.events[name])]):
return []
event = [name] + params
return event
def detokenize(self, midi_seq):
ticks_per_beat = 480
tracks_dict = {}
t1 = 0
for tokens in midi_seq:
if tokens[0] in self.id_events:
event = self.tokens2event(tokens)
if not event:
continue
name = event[0]
if name == "set_tempo":
event[4] = self.bpm2tempo(event[4])
if event[0] == "note":
event[4] = int(event[4] * ticks_per_beat / 16)
t1 += event[1]
t = t1 * 16 + event[2]
t = int(t * ticks_per_beat / 16)
track_idx = event[3]
if track_idx not in tracks_dict:
tracks_dict[track_idx] = []
tracks_dict[track_idx].append([event[0], t] + event[4:])
tracks = [tr for idx, tr in sorted(list(tracks_dict.items()), key=lambda it: it[0])]
for i in range(len(tracks)): # to eliminate note overlap
track = tracks[i]
track = sorted(track, key=lambda e: e[1])
last_note_t = {}
zero_len_notes = []
for e in reversed(track):
if e[0] == "note":
t, d, c, p = e[1:5]
key = (c, p)
if key in last_note_t:
d = min(d, max(last_note_t[key] - t, 0))
last_note_t[key] = t
e[2] = d
if d == 0:
zero_len_notes.append(e)
for e in zero_len_notes:
track.remove(e)
tracks[i] = track
return [ticks_per_beat, *tracks]
def midi2img(self, midi_score):
ticks_per_beat = midi_score[0]
notes = []
max_time = 1
track_num = len(midi_score[1:])
for track_idx, track in enumerate(midi_score[1:]):
for event in track:
t = round(16 * event[1] / ticks_per_beat)
if event[0] == "note":
d = max(1, round(16 * event[2] / ticks_per_beat))
c, p = event[3:5]
max_time = max(max_time, t + d + 1)
notes.append((track_idx, c, p, t, d))
img = np.zeros((128, max_time, 3), dtype=np.uint8)
colors = {(i, j): np.random.randint(50, 256, 3) for i in range(track_num) for j in range(16)}
for note in notes:
tr, c, p, t, d = note
img[p, t: t + d] = colors[(tr, c)]
img = PIL.Image.fromarray(np.flip(img, 0))
return img
def augment(self, midi_seq, max_pitch_shift=4, max_vel_shift=10, max_cc_val_shift=10, max_bpm_shift=10,
max_track_shift=0, max_channel_shift=16):
pitch_shift = random.randint(-max_pitch_shift, max_pitch_shift)
vel_shift = random.randint(-max_vel_shift, max_vel_shift)
cc_val_shift = random.randint(-max_cc_val_shift, max_cc_val_shift)
bpm_shift = random.randint(-max_bpm_shift, max_bpm_shift)
track_shift = random.randint(0, max_track_shift)
channel_shift = random.randint(0, max_channel_shift)
midi_seq_new = []
for tokens in midi_seq:
tokens_new = [*tokens]
if tokens[0] in self.id_events:
name = self.id_events[tokens[0]]
for i, pn in enumerate(self.events[name]):
if pn == "track":
tr = tokens[1 + i] - self.parameter_ids[pn][0]
tr += track_shift
tr = tr % self.event_parameters[pn]
tokens_new[1 + i] = self.parameter_ids[pn][tr]
elif pn == "channel":
c = tokens[1 + i] - self.parameter_ids[pn][0]
c0 = c
c += channel_shift
c = c % self.event_parameters[pn]
if c0 == 9:
c = 9
elif c == 9:
c = (9 + channel_shift) % self.event_parameters[pn]
tokens_new[1 + i] = self.parameter_ids[pn][c]
if name == "note":
c = tokens[5] - self.parameter_ids["channel"][0]
p = tokens[6] - self.parameter_ids["pitch"][0]
v = tokens[7] - self.parameter_ids["velocity"][0]
if c != 9: # no shift for drums
p += pitch_shift
if not 0 <= p < 128:
return midi_seq
v += vel_shift
v = max(1, min(127, v))
tokens_new[6] = self.parameter_ids["pitch"][p]
tokens_new[7] = self.parameter_ids["velocity"][v]
elif name == "control_change":
cc = tokens[5] - self.parameter_ids["controller"][0]
val = tokens[6] - self.parameter_ids["value"][0]
if cc in [1, 2, 7, 11]:
val += cc_val_shift
val = max(1, min(127, val))
tokens_new[6] = self.parameter_ids["value"][val]
elif name == "set_tempo":
bpm = tokens[4] - self.parameter_ids["bpm"][0]
bpm += bpm_shift
bpm = max(1, min(255, bpm))
tokens_new[4] = self.parameter_ids["bpm"][bpm]
midi_seq_new.append(tokens_new)
return midi_seq_new
def check_quality(self, midi_seq, alignment_min=0.3, tonality_min=0.8, piano_max=0.7, notes_bandwidth_min=3,
notes_density_max=50, notes_density_min=2.5, total_notes_max=20000, total_notes_min=256,
note_window_size=16):
total_notes = 0
channels = []
time_hist = [0] * 16
note_windows = {}
notes_sametime = []
notes_density_list = []
tonality_list = []
notes_bandwidth_list = []
instruments = {}
piano_channels = []
abs_t1 = 0
last_t = 0
for tsi, tokens in enumerate(midi_seq):
event = self.tokens2event(tokens)
if not event:
continue
t1, t2, tr = event[1:4]
abs_t1 += t1
t = abs_t1 * 16 + t2
c = None
if event[0] == "note":
d, c, p, v = event[4:]
total_notes += 1
time_hist[t2] += 1
if c != 9: # ignore drum channel
if c not in instruments:
instruments[c] = 0
if c not in piano_channels:
piano_channels.append(c)
note_windows.setdefault(abs_t1 // note_window_size, []).append(p)
if last_t != t:
notes_sametime = [(et, p_) for et, p_ in notes_sametime if et > last_t]
notes_sametime_p = [p_ for _, p_ in notes_sametime]
if len(notes_sametime) > 0:
notes_bandwidth_list.append(max(notes_sametime_p) - min(notes_sametime_p))
notes_sametime.append((t + d - 1, p))
elif event[0] == "patch_change":
c, p = event[4:]
instruments[c] = p
if p == 0 and c not in piano_channels:
piano_channels.append(c)
if c is not None and c not in channels:
channels.append(c)
last_t = t
reasons = []
if total_notes < total_notes_min:
reasons.append("total_min")
if total_notes > total_notes_max:
reasons.append("total_max")
if len(note_windows) == 0 and total_notes > 0:
reasons.append("drum_only")
if reasons:
return False, reasons
time_hist = sorted(time_hist, reverse=True)
alignment = sum(time_hist[:2]) / total_notes
for notes in note_windows.values():
key_hist = [0] * 12
for p in notes:
key_hist[p % 12] += 1
key_hist = sorted(key_hist, reverse=True)
tonality_list.append(sum(key_hist[:7]) / len(notes))
notes_density_list.append(len(notes) / note_window_size)
tonality_list = sorted(tonality_list)
tonality = sum(tonality_list) / len(tonality_list)
notes_bandwidth = sum(notes_bandwidth_list) / len(notes_bandwidth_list) if notes_bandwidth_list else 0
notes_density = max(notes_density_list) if notes_density_list else 0
piano_ratio = len(piano_channels) / len(channels)
if len(channels) <= 3: # ignore piano threshold if it is a piano solo midi
piano_max = 1
if alignment < alignment_min: # check weather the notes align to the bars (because some midi files are recorded)
reasons.append("alignment")
if tonality < tonality_min: # check whether the music is tonal
reasons.append("tonality")
if notes_bandwidth < notes_bandwidth_min: # check whether music is melodic line only
reasons.append("bandwidth")
if not notes_density_min < notes_density < notes_density_max:
reasons.append("density")
if piano_ratio > piano_max: # check whether most instruments is piano (because some midi files don't have instruments assigned correctly)
reasons.append("piano")
return not reasons, reasons
class MIDITokenizerV2:
def __init__(self):
self.version = "v2"
self.optimise_midi = False
self.vocab_size = 0
def allocate_ids(size):
ids = [self.vocab_size + i for i in range(size)]
self.vocab_size += size
return ids
self.pad_id = allocate_ids(1)[0]
self.bos_id = allocate_ids(1)[0]
self.eos_id = allocate_ids(1)[0]
self.events = {
"note": ["time1", "time2", "track", "channel", "pitch", "velocity", "duration"],
"patch_change": ["time1", "time2", "track", "channel", "patch"],
"control_change": ["time1", "time2", "track", "channel", "controller", "value"],
"set_tempo": ["time1", "time2", "track", "bpm"],
"time_signature": ["time1", "time2", "track", "nn", "dd"],
"key_signature": ["time1", "time2", "track", "sf", "mi"],
}
self.event_parameters = {
"time1": 128, "time2": 16, "duration": 2048, "track": 128, "channel": 16, "pitch": 128, "velocity": 128,
"patch": 128, "controller": 128, "value": 128, "bpm": 384, "nn": 16, "dd": 4, "sf": 15, "mi": 2
}
self.event_ids = {e: allocate_ids(1)[0] for e in self.events.keys()}
self.id_events = {i: e for e, i in self.event_ids.items()}
self.parameter_ids = {p: allocate_ids(s) for p, s in self.event_parameters.items()}
self.max_token_seq = max([len(ps) for ps in self.events.values()]) + 1
def set_optimise_midi(self, optimise_midi=True):
self.optimise_midi = optimise_midi
@staticmethod
def tempo2bpm(tempo):
tempo = tempo / 10 ** 6 # us to s
bpm = 60 / tempo
return bpm
@staticmethod
def bpm2tempo(bpm):
if bpm == 0:
bpm = 1
tempo = int((60 / bpm) * 10 ** 6)
return tempo
@staticmethod
def sf2key(sf):
# sf in key_signature to key.
# key represents the sequence from C note to B note (12 in total)
return (sf * 7) % 12
@staticmethod
def key2sf(k, mi):
# key to sf
sf = (k * 7) % 12
if sf > 6 or (mi == 1 and sf >= 5):
sf -= 12
return sf
@staticmethod
def detect_key_signature(key_hist, threshold=0.7):
if len(key_hist) != 12:
return None
if sum(key_hist) == 0:
return None
p = sum(sorted(key_hist, reverse=True)[:7]) / sum(key_hist)
if p < threshold:
return None
keys = [x[1] for x in sorted(zip(key_hist, range(len(key_hist))), reverse=True, key=lambda x: x[0])[:7]]
keys = sorted(keys)
semitones = []
for i in range(len(keys)):
dis = keys[i] - keys[i - 1]
if dis == 1 or dis == -11:
semitones.append(keys[i])
if len(semitones) != 2:
return None
semitones_dis = semitones[1] - semitones[0]
if semitones_dis == 5:
root_key = semitones[0]
elif semitones_dis == 7:
root_key = semitones[1]
else:
return None
return root_key
def tokenize(self, midi_score, add_bos_eos=True, cc_eps=4, tempo_eps=4,
remap_track_channel=None, add_default_instr=None, remove_empty_channels=None):
if remap_track_channel is None: # set default value
remap_track_channel = self.optimise_midi
if add_default_instr is None:
add_default_instr = self.optimise_midi
if remove_empty_channels is None:
remove_empty_channels = self.optimise_midi
ticks_per_beat = midi_score[0]
event_list = {}
track_idx_map = {i: dict() for i in range(16)}
track_idx_dict = {}
channels = []
patch_channels = []
empty_channels = [True] * 16
channel_note_tracks = {i: list() for i in range(16)}
note_key_hist = [0]*12
key_sigs = []
track_to_channels = {}
for track_idx, track in enumerate(midi_score[1:129]):
last_notes = {}
patch_dict = {}
control_dict = {}
last_bpm = 0
track_channels = []
track_to_channels.setdefault(track_idx, track_channels)
for event in track:
if event[0] not in self.events:
continue
name = event[0]
c = -1
t = round(16 * event[1] / ticks_per_beat) # quantization
new_event = [name, t // 16, t % 16, track_idx]
if name == "note":
d, c, p, v = event[2:]
if not (0 <= c <= 15):
continue
d = max(1, round(16 * d / ticks_per_beat))
new_event += [c, p, v, d]
empty_channels[c] = False
track_idx_dict.setdefault(c, track_idx)
note_tracks = channel_note_tracks[c]
if track_idx not in note_tracks:
note_tracks.append(track_idx)
if c != 9:
note_key_hist[p%12] += 1
if c not in track_channels:
track_channels.append(c)
elif name == "patch_change":
c, p = event[2:]
if not (0 <= c <= 15):
continue
new_event += [c, p]
last_p = patch_dict.setdefault(c, None)
if last_p == p:
continue
patch_dict[c] = p
if c not in patch_channels:
patch_channels.append(c)
elif name == "control_change":
c, cc, v = event[2:]
if not (0 <= c <= 15):
continue
new_event += [c, cc, v]
last_v = control_dict.setdefault((c, cc), 0)
if abs(last_v - v) < cc_eps:
continue
control_dict[(c, cc)] = v
elif name == "set_tempo":
tempo = event[2]
if tempo == 0: # invalid tempo
continue
bpm = min(int(self.tempo2bpm(tempo)), 383)
new_event += [bpm]
if abs(last_bpm - bpm) < tempo_eps:
continue
last_bpm = bpm
elif name == "time_signature":
nn, dd = event[2:4]
if not (1 <= nn <= 16 and 1 <= dd <= 4): # invalid
continue
nn -= 1 # make it start from 0
dd -= 1
new_event += [nn, dd]
elif name == "key_signature":
sf, mi = event[2:]
if not (-7 <= sf <= 7 and 0 <= mi <= 1): # invalid
continue
sf += 7
new_event += [sf, mi]
key_sigs.append(new_event)
if name in ["note", "time_signature", "key_signature"]:
key = tuple(new_event[:-2])
else:
key = tuple(new_event[:-1])
if c != -1:
if c not in channels:
channels.append(c)
tr_map = track_idx_map[c]
if track_idx not in tr_map:
tr_map[track_idx] = 0
if event[0] == "note": # to eliminate note overlap due to quantization
cp = tuple(new_event[4:6]) # channel pitch
if cp in last_notes:
last_note_key, last_note = last_notes[cp]
last_t = last_note[1] * 16 + last_note[2]
last_note[-1] = max(0, min(last_note[-1], t - last_t)) # modify duration
if last_note[-1] == 0:
event_list.pop(last_note_key)
last_notes[cp] = (key, new_event)
event_list[key] = new_event
event_list = list(event_list.values())
empty_channels = [c for c in channels if empty_channels[c]]
if remap_track_channel:
patch_channels = []
channels_count = 0
channels_map = {9: 9} if 9 in channels else {}
if remove_empty_channels:
channels = sorted(channels, key=lambda x: 1 if x in empty_channels else 0)
for c in channels:
if c == 9:
continue
channels_map[c] = channels_count
channels_count += 1
if channels_count == 9:
channels_count = 10
channels = list(channels_map.values())
track_count = 0
track_idx_map_order = [k for k, v in sorted(list(channels_map.items()), key=lambda x: x[1])]
for c in track_idx_map_order: # tracks not to remove
if remove_empty_channels and c in empty_channels:
continue
tr_map = track_idx_map[c]
for track_idx in tr_map:
note_tracks = channel_note_tracks[c]
if len(note_tracks) != 0 and track_idx not in note_tracks:
continue
track_count += 1
tr_map[track_idx] = track_count
for c in track_idx_map_order: # tracks to remove
if not (remove_empty_channels and c in empty_channels):
continue
tr_map = track_idx_map[c]
for track_idx in tr_map:
note_tracks = channel_note_tracks[c]
if not (len(note_tracks) != 0 and track_idx not in note_tracks):
continue
track_count += 1
tr_map[track_idx] = track_count
empty_channels = [channels_map[c] for c in empty_channels]
track_idx_dict = {}
key_sigs = []
key_signature_to_add = []
key_signature_to_remove = []
for event in event_list:
name = event[0]
track_idx = event[3]
if name == "note":
c = event[4]
event[4] = channels_map[c] # channel
event[3] = track_idx_map[c][track_idx] # track
track_idx_dict.setdefault(event[4], event[3])
# setdefault, so the track_idx is first of the channel
elif name in ["set_tempo", "time_signature"]:
event[3] = 0 # set track 0 for meta events
elif name == "key_signature":
new_channel_track_idxs = []
for c, tr_map in track_idx_map.items():
if track_idx in tr_map:
new_track_idx = tr_map[track_idx]
c = channels_map[c]
new_channel_track_idx = (c, new_track_idx)
if new_track_idx == 0:
continue
if new_channel_track_idx not in new_channel_track_idxs:
new_channel_track_idxs.append(new_channel_track_idx)
if len(new_channel_track_idxs) == 0:
if event[3] == 0: # keep key_signature on track 0 (meta)
key_sigs.append(event)
continue
event[3] = -1 # avoid remove same event
key_signature_to_remove.append(event) # empty track
continue
c, nt = new_channel_track_idxs[0]
event[3] = nt
key_sigs.append(event)
if c == 9:
event[4] = 7 # sf=0
for c, nt in new_channel_track_idxs[1:]:
new_event = [*event]
new_event[3] = nt
if c == 9:
new_event[4] = 7 # sf=0
key_sigs.append(new_event)
key_signature_to_add.append(new_event)
elif name == "control_change" or name == "patch_change":
c = event[4]
event[4] = channels_map[c] # channel
tr_map = track_idx_map[c]
# move the event to first track of the channel if it's original track is empty
note_tracks = channel_note_tracks[c]
if len(note_tracks) != 0 and track_idx not in note_tracks:
track_idx = channel_note_tracks[c][0]
new_track_idx = tr_map[track_idx]
event[3] = new_track_idx
if name == "patch_change" and event[4] not in patch_channels:
patch_channels.append(event[4])
for key_sig in key_signature_to_remove:
event_list.remove(key_sig)
event_list += key_signature_to_add
track_to_channels ={}
for c, tr_map in track_idx_map.items():
if c not in channels_map:
continue
c = channels_map[c]
for _, track_idx in tr_map.items():
track_to_channels.setdefault(track_idx, [])
cs = track_to_channels[track_idx]
if c not in cs:
cs.append(c)
if add_default_instr:
for c in channels:
if c not in patch_channels and c in track_idx_dict:
event_list.append(["patch_change", 0, 0, track_idx_dict[c], c, 0])
if len(key_sigs) == 0 or all([key_sig[4]==7 for key_sig in key_sigs]):
# detect key signature or fix the default key signature
root_key = self.detect_key_signature(note_key_hist)
if root_key is not None:
sf = self.key2sf(root_key, 0)
# print("detect_key_signature",sf)
if len(key_sigs) == 0:
for tr, cs in track_to_channels.items():
if remap_track_channel and tr == 0:
continue
new_event = ["key_signature", 0, 0, tr, (0 if (len(cs) == 1 and cs[0] == 9) else sf) + 7, 0]
event_list.append(new_event)
else:
for key_sig in key_sigs:
tr = key_sig[3]
if tr in track_to_channels:
cs = track_to_channels[tr]
if len(cs) == 1 and cs[0] == 9:
continue
key_sig[4] = sf + 7
key_sig[5] = 0
else:
# remove default key signature
for key_sig in key_sigs:
event_list.remove(key_sig)
events_name_order = ["time_signature", "key_signature", "set_tempo", "patch_change", "control_change", "note"]
events_name_order = {name: i for i, name in enumerate(events_name_order)}
events_order = lambda e: e[1:4] + [events_name_order[e[0]]]
event_list = sorted(event_list, key=events_order)
setup_events = {}
notes_in_setup = False
for i, event in enumerate(event_list): # optimise setup
new_event = [*event] # make copy of event
if event[0] not in ["note", "time_signature"]:
new_event[1] = 0
new_event[2] = 0
has_next = False
has_pre = False
if i < len(event_list) - 1:
next_event = event_list[i + 1]
has_next = event[1] + event[2] == next_event[1] + next_event[2]
if notes_in_setup and i > 0:
pre_event = event_list[i - 1]
has_pre = event[1] + event[2] == pre_event[1] + pre_event[2]
if (event[0] == "note" and not has_next) or (notes_in_setup and not has_pre):
event_list = sorted(setup_events.values(), key=events_order) + event_list[i:]
break
else:
if event[0] == "note":
notes_in_setup = True
if event[0] in ["note", "time_signature", "key_signature"]:
key = tuple([event[0]]+event[3:-2])
else:
key = tuple([event[0]]+event[3:-1])
setup_events[key] = new_event
last_t1 = 0
midi_seq = []
for event in event_list:
if remove_empty_channels and event[0] in ["control_change", "patch_change"] and event[4] in empty_channels:
continue
cur_t1 = event[1]
event[1] = event[1] - last_t1
tokens = self.event2tokens(event)
if not tokens:
continue
midi_seq.append(tokens)
last_t1 = cur_t1
if add_bos_eos:
bos = [self.bos_id] + [self.pad_id] * (self.max_token_seq - 1)
eos = [self.eos_id] + [self.pad_id] * (self.max_token_seq - 1)
midi_seq = [bos] + midi_seq + [eos]
return midi_seq
def event2tokens(self, event):
name = event[0]
params = event[1:]
if not all([0 <= params[i] < self.event_parameters[p] for i, p in enumerate(self.events[name])]):
return []
tokens = [self.event_ids[name]] + [self.parameter_ids[p][params[i]]
for i, p in enumerate(self.events[name])]
tokens += [self.pad_id] * (self.max_token_seq - len(tokens))
return tokens
def tokens2event(self, tokens):
if tokens[0] not in self.id_events:
return []
name = self.id_events[tokens[0]]
if len(tokens) <= len(self.events[name]):
return []
params = tokens[1:]
params = [params[i] - self.parameter_ids[p][0] for i, p in enumerate(self.events[name])]
if not all([0 <= params[i] < self.event_parameters[p] for i, p in enumerate(self.events[name])]):
return []
event = [name] + params
return event
def detokenize(self, midi_seq):
ticks_per_beat = 480
tracks_dict = {}
t1 = 0
for tokens in midi_seq:
if tokens[0] in self.id_events:
event = self.tokens2event(tokens)
if not event:
continue
name = event[0]
t1 += event[1]
t = t1 * 16 + event[2]
t = int(t * ticks_per_beat / 16)
track_idx = event[3]
event_new = [name, t]
if name == "note":
c, p, v, d = event[4:]
d = int(d * ticks_per_beat / 16)
event_new += [d, c, p, v]
elif name == "control_change" or name == "patch_change":
event_new += event[4:]
elif name == "set_tempo":
event_new += [self.bpm2tempo(event[4])]
elif name == "time_signature":
nn, dd = event[4:]
nn += 1
dd += 1
event_new += [nn, dd, 24, 8] # usually cc, bb = 24, 8
elif name == "key_signature":
sf, mi = event[4:]
sf -= 7
event_new += [sf, mi]
else: # should not go here
continue
if track_idx not in tracks_dict:
tracks_dict[track_idx] = []
tracks_dict[track_idx].append(event_new)
tracks = [tr for idx, tr in sorted(list(tracks_dict.items()), key=lambda it: it[0])]
for i in range(len(tracks)): # to eliminate note overlap
track = tracks[i]
track = sorted(track, key=lambda e: e[1])
last_note_t = {}
zero_len_notes = []
for e in reversed(track):
if e[0] == "note":
t, d, c, p = e[1:5]
key = (c, p)
if key in last_note_t:
d = min(d, max(last_note_t[key] - t, 0))
last_note_t[key] = t
e[2] = d
if d == 0:
zero_len_notes.append(e)
for e in zero_len_notes:
track.remove(e)
tracks[i] = track
return [ticks_per_beat, *tracks]
def midi2img(self, midi_score):
ticks_per_beat = midi_score[0]
notes = []
max_time = 1
track_num = len(midi_score[1:])
for track_idx, track in enumerate(midi_score[1:]):
for event in track:
t = round(16 * event[1] / ticks_per_beat)
if event[0] == "note":
d = max(1, round(16 * event[2] / ticks_per_beat))
c, p = event[3:5]
max_time = max(max_time, t + d + 1)
notes.append((track_idx, c, p, t, d))
img = np.zeros((128, max_time, 3), dtype=np.uint8)
colors = {(i, j): np.random.randint(50, 256, 3) for i in range(track_num) for j in range(16)}
for note in notes:
tr, c, p, t, d = note
img[p, t: t + d] = colors[(tr, c)]
img = PIL.Image.fromarray(np.flip(img, 0))
return img
def augment(self, midi_seq, max_pitch_shift=4, max_vel_shift=10, max_cc_val_shift=10, max_bpm_shift=10,
max_track_shift=0, max_channel_shift=16):
pitch_shift = random.randint(-max_pitch_shift, max_pitch_shift)
vel_shift = random.randint(-max_vel_shift, max_vel_shift)
cc_val_shift = random.randint(-max_cc_val_shift, max_cc_val_shift)
bpm_shift = random.randint(-max_bpm_shift, max_bpm_shift)
track_shift = random.randint(0, max_track_shift)
channel_shift = random.randint(0, max_channel_shift)
midi_seq_new = []
key_signature_tokens = []
track_to_channels = {}
for tokens in midi_seq:
tokens_new = [*tokens]
if tokens[0] in self.id_events:
name = self.id_events[tokens[0]]
for i, pn in enumerate(self.events[name]):
if pn == "track":
tr = tokens[1 + i] - self.parameter_ids[pn][0]
tr += track_shift
tr = tr % self.event_parameters[pn]
tokens_new[1 + i] = self.parameter_ids[pn][tr]
elif pn == "channel":
c = tokens[1 + i] - self.parameter_ids[pn][0]
c0 = c
c += channel_shift
c = c % self.event_parameters[pn]
if c0 == 9:
c = 9
elif c == 9:
c = (9 + channel_shift) % self.event_parameters[pn]
tokens_new[1 + i] = self.parameter_ids[pn][c]
if name == "note":
tr = tokens[3] - self.parameter_ids["track"][0]
c = tokens[4] - self.parameter_ids["channel"][0]
p = tokens[5] - self.parameter_ids["pitch"][0]
v = tokens[6] - self.parameter_ids["velocity"][0]
if c != 9: # no shift for drums
p += pitch_shift
if not 0 <= p < 128:
return midi_seq
v += vel_shift
v = max(1, min(127, v))
tokens_new[5] = self.parameter_ids["pitch"][p]
tokens_new[6] = self.parameter_ids["velocity"][v]
track_to_channels.setdefault(tr, [])
cs = track_to_channels[tr]
if c not in cs:
cs.append(c)
elif name == "control_change":
cc = tokens[5] - self.parameter_ids["controller"][0]
val = tokens[6] - self.parameter_ids["value"][0]
if cc in [1, 2, 7, 11]:
val += cc_val_shift
val = max(1, min(127, val))
tokens_new[6] = self.parameter_ids["value"][val]
elif name == "set_tempo":
bpm = tokens[4] - self.parameter_ids["bpm"][0]
bpm += bpm_shift
bpm = max(1, min(383, bpm))
tokens_new[4] = self.parameter_ids["bpm"][bpm]
elif name == "key_signature":
sf = tokens[4] - self.parameter_ids["sf"][0]
mi = tokens[5] - self.parameter_ids["mi"][0]
sf -= 7
k = self.sf2key(sf)
k = (k + pitch_shift) % 12
sf = self.key2sf(k, mi)
sf += 7
tokens_new[4] = self.parameter_ids["sf"][sf]
tokens_new[5] = self.parameter_ids["mi"][mi]
key_signature_tokens.append(tokens_new)
midi_seq_new.append(tokens_new)
for tokens in key_signature_tokens:
tr = tokens[3] - self.parameter_ids["track"][0]
if tr in track_to_channels:
cs = track_to_channels[tr]
if len(cs) == 1 and cs[0] == 9:
tokens[4] = self.parameter_ids["sf"][7] # sf=0
return midi_seq_new
def check_quality(self, midi_seq, alignment_min=0.3, tonality_min=0.8, piano_max=0.7, notes_bandwidth_min=3,
notes_density_max=50, notes_density_min=2.5, total_notes_max=20000, total_notes_min=256,
note_window_size=16):
total_notes = 0
channels = []
time_hist = [0] * 16
note_windows = {}
notes_sametime = []
notes_density_list = []
tonality_list = []
notes_bandwidth_list = []
instruments = {}
piano_channels = []
abs_t1 = 0
last_t = 0
for tsi, tokens in enumerate(midi_seq):
event = self.tokens2event(tokens)
if not event:
continue
t1, t2, tr = event[1:4]
abs_t1 += t1
t = abs_t1 * 16 + t2
c = None
if event[0] == "note":
c, p, v, d = event[4:]
total_notes += 1
time_hist[t2] += 1
if c != 9: # ignore drum channel
if c not in instruments:
instruments[c] = 0
if c not in piano_channels:
piano_channels.append(c)
note_windows.setdefault(abs_t1 // note_window_size, []).append(p)
if last_t != t:
notes_sametime = [(et, p_) for et, p_ in notes_sametime if et > last_t]
notes_sametime_p = [p_ for _, p_ in notes_sametime]
if len(notes_sametime) > 0:
notes_bandwidth_list.append(max(notes_sametime_p) - min(notes_sametime_p))
notes_sametime.append((t + d - 1, p))
elif event[0] == "patch_change":
c, p = event[4:]
instruments[c] = p
if p == 0 and c not in piano_channels:
piano_channels.append(c)
if c is not None and c not in channels:
channels.append(c)
last_t = t
reasons = []
if total_notes < total_notes_min:
reasons.append("total_min")
if total_notes > total_notes_max:
reasons.append("total_max")
if len(note_windows) == 0 and total_notes > 0:
reasons.append("drum_only")
if reasons:
return False, reasons
time_hist = sorted(time_hist, reverse=True)
alignment = sum(time_hist[:2]) / total_notes
for notes in note_windows.values():
key_hist = [0] * 12
for p in notes:
key_hist[p % 12] += 1
key_hist = sorted(key_hist, reverse=True)
tonality_list.append(sum(key_hist[:7]) / len(notes))
notes_density_list.append(len(notes) / note_window_size)
tonality_list = sorted(tonality_list)
tonality = sum(tonality_list) / len(tonality_list)
notes_bandwidth = sum(notes_bandwidth_list) / len(notes_bandwidth_list) if notes_bandwidth_list else 0
notes_density = max(notes_density_list) if notes_density_list else 0
piano_ratio = len(piano_channels) / len(channels)
if len(channels) <= 3: # ignore piano threshold if it is a piano solo midi
piano_max = 1
if alignment < alignment_min: # check weather the notes align to the bars (because some midi files are recorded)
reasons.append("alignment")
if tonality < tonality_min: # check whether the music is tonal
reasons.append("tonality")
if notes_bandwidth < notes_bandwidth_min: # check whether music is melodic line only
reasons.append("bandwidth")
if not notes_density_min < notes_density < notes_density_max:
reasons.append("density")
if piano_ratio > piano_max: # check whether most instruments is piano (because some midi files don't have instruments assigned correctly)
reasons.append("piano")
return not reasons, reasons
class MIDITokenizer:
def __new__(cls, version="v2"):
if version == "v1":
return MIDITokenizerV1()
elif version == "v2":
return MIDITokenizerV2()
else:
raise ValueError(f"Unsupported version: {version}")
|