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r''' |
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This module offers functions: concatenate_scores(), grep(), |
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merge_scores(), mix_scores(), midi2opus(), midi2score(), opus2midi(), |
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opus2score(), play_score(), score2midi(), score2opus(), score2stats(), |
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score_type(), segment(), timeshift() and to_millisecs(), |
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where "midi" means the MIDI-file bytes (as can be put in a .mid file, |
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or piped into aplaymidi), and "opus" and "score" are list-structures |
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as inspired by Sean Burke's MIDI-Perl CPAN module. |
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|
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Warning: Version 6.4 is not necessarily backward-compatible with |
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previous versions, in that text-data is now bytes, not strings. |
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This reflects the fact that many MIDI files have text data in |
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encodings other that ISO-8859-1, for example in Shift-JIS. |
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Download MIDI.py from http://www.pjb.com.au/midi/free/MIDI.py |
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and put it in your PYTHONPATH. MIDI.py depends on Python3. |
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There is also a call-compatible translation into Lua of this |
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module: see http://www.pjb.com.au/comp/lua/MIDI.html |
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The "opus" is a direct translation of the midi-file-events, where |
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the times are delta-times, in ticks, since the previous event. |
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The "score" is more human-centric; it uses absolute times, and |
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combines the separate note_on and note_off events into one "note" |
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event, with a duration: |
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['note', start_time, duration, channel, note, velocity] # in a "score" |
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EVENTS (in an "opus" structure) |
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['note_off', dtime, channel, note, velocity] # in an "opus" |
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['note_on', dtime, channel, note, velocity] # in an "opus" |
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['key_after_touch', dtime, channel, note, velocity] |
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['control_change', dtime, channel, controller(0-127), value(0-127)] |
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['patch_change', dtime, channel, patch] |
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['channel_after_touch', dtime, channel, velocity] |
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['pitch_wheel_change', dtime, channel, pitch_wheel] |
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['text_event', dtime, text] |
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['copyright_text_event', dtime, text] |
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['track_name', dtime, text] |
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['instrument_name', dtime, text] |
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['lyric', dtime, text] |
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['marker', dtime, text] |
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['cue_point', dtime, text] |
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['text_event_08', dtime, text] |
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['text_event_09', dtime, text] |
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['text_event_0a', dtime, text] |
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['text_event_0b', dtime, text] |
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['text_event_0c', dtime, text] |
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['text_event_0d', dtime, text] |
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['text_event_0e', dtime, text] |
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['text_event_0f', dtime, text] |
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['end_track', dtime] |
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['set_tempo', dtime, tempo] |
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['smpte_offset', dtime, hr, mn, se, fr, ff] |
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['time_signature', dtime, nn, dd, cc, bb] |
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['key_signature', dtime, sf, mi] |
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['sequencer_specific', dtime, raw] |
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['raw_meta_event', dtime, command(0-255), raw] |
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['sysex_f0', dtime, raw] |
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['sysex_f7', dtime, raw] |
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['song_position', dtime, song_pos] |
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['song_select', dtime, song_number] |
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['tune_request', dtime] |
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DATA TYPES |
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channel = a value 0 to 15 |
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controller = 0 to 127 (see http://www.pjb.com.au/muscript/gm.html#cc ) |
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dtime = time measured in "ticks", 0 to 268435455 |
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velocity = a value 0 (soft) to 127 (loud) |
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note = a value 0 to 127 (middle-C is 60) |
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patch = 0 to 127 (see http://www.pjb.com.au/muscript/gm.html ) |
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pitch_wheel = a value -8192 to 8191 (0x1FFF) |
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raw = bytes, of length 0 or more (for sysex events see below) |
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sequence_number = a value 0 to 65,535 (0xFFFF) |
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song_pos = a value 0 to 16,383 (0x3FFF) |
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song_number = a value 0 to 127 |
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tempo = microseconds per crochet (quarter-note), 0 to 16777215 |
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text = bytes, of length 0 or more |
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ticks = the number of ticks per crochet (quarter-note) |
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|
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In sysex_f0 events, the raw data must not start with a \xF0 byte, |
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since this gets added automatically; |
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but it must end with an explicit \xF7 byte! |
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In the very unlikely case that you ever need to split sysex data |
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into one sysex_f0 followed by one or more sysex_f7s, then only the |
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last of those sysex_f7 events must end with the explicit \xF7 byte |
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(again, the raw data of individual sysex_f7 events must not start |
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with any \xF7 byte, since this gets added automatically). |
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|
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Since version 6.4, text data is in bytes, not in a ISO-8859-1 string. |
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GOING THROUGH A SCORE WITHIN A PYTHON PROGRAM |
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channels = {2,3,5,8,13} |
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itrack = 1 # skip 1st element which is ticks |
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while itrack < len(score): |
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for event in score[itrack]: |
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if event[0] == 'note': # for example, |
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pass # do something to all notes |
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# or, to work on events in only particular channels... |
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channel_index = MIDI.Event2channelindex.get(event[0], False) |
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if channel_index and (event[channel_index] in channels): |
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pass # do something to channels 2,3,5,8 and 13 |
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itrack += 1 |
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''' |
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import sys, struct, copy |
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Version = '6.7' |
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VersionDate = '20201120' |
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_previous_warning = '' |
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_previous_times = 0 |
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def opus2midi(opus=[]): |
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r'''The argument is a list: the first item in the list is the "ticks" |
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parameter, the others are the tracks. Each track is a list |
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of midi-events, and each event is itself a list; see above. |
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opus2midi() returns a bytestring of the MIDI, which can then be |
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written either to a file opened in binary mode (mode='wb'), |
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or to stdout by means of: sys.stdout.buffer.write() |
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|
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my_opus = [ |
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96, |
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[ # track 0: |
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['patch_change', 0, 1, 8], # and these are the events... |
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['note_on', 5, 1, 25, 96], |
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['note_off', 96, 1, 25, 0], |
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['note_on', 0, 1, 29, 96], |
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['note_off', 96, 1, 29, 0], |
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], # end of track 0 |
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] |
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my_midi = opus2midi(my_opus) |
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sys.stdout.buffer.write(my_midi) |
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''' |
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if len(opus) < 2: |
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opus=[1000, [],] |
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tracks = copy.deepcopy(opus) |
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ticks = int(tracks.pop(0)) |
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ntracks = len(tracks) |
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if ntracks == 1: |
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format = 0 |
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else: |
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format = 1 |
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|
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my_midi = b"MThd\x00\x00\x00\x06"+struct.pack('>HHH',format,ntracks,ticks) |
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for track in tracks: |
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events = _encode(track) |
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my_midi += b'MTrk' + struct.pack('>I',len(events)) + events |
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_clean_up_warnings() |
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return my_midi |
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def score2opus(score=None): |
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r''' |
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The argument is a list: the first item in the list is the "ticks" |
|
parameter, the others are the tracks. Each track is a list |
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of score-events, and each event is itself a list. A score-event |
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is similar to an opus-event (see above), except that in a score: |
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1) the times are expressed as an absolute number of ticks |
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from the track's start time |
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2) the pairs of 'note_on' and 'note_off' events in an "opus" |
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are abstracted into a single 'note' event in a "score": |
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['note', start_time, duration, channel, pitch, velocity] |
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score2opus() returns a list specifying the equivalent "opus". |
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|
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my_score = [ |
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96, |
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[ # track 0: |
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['patch_change', 0, 1, 8], |
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['note', 5, 96, 1, 25, 96], |
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['note', 101, 96, 1, 29, 96] |
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], # end of track 0 |
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] |
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my_opus = score2opus(my_score) |
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''' |
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if len(score) < 2: |
|
score=[1000, [],] |
|
tracks = copy.deepcopy(score) |
|
ticks = int(tracks.pop(0)) |
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opus_tracks = [] |
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for scoretrack in tracks: |
|
time2events = dict([]) |
|
for scoreevent in scoretrack: |
|
if scoreevent[0] == 'note': |
|
note_on_event = ['note_on',scoreevent[1], |
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scoreevent[3],scoreevent[4],scoreevent[5]] |
|
note_off_event = ['note_off',scoreevent[1]+scoreevent[2], |
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scoreevent[3],scoreevent[4],scoreevent[5]] |
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if time2events.get(note_on_event[1]): |
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time2events[note_on_event[1]].append(note_on_event) |
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else: |
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time2events[note_on_event[1]] = [note_on_event,] |
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if time2events.get(note_off_event[1]): |
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time2events[note_off_event[1]].append(note_off_event) |
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else: |
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time2events[note_off_event[1]] = [note_off_event,] |
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continue |
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if time2events.get(scoreevent[1]): |
|
time2events[scoreevent[1]].append(scoreevent) |
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else: |
|
time2events[scoreevent[1]] = [scoreevent,] |
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|
|
sorted_times = [] |
|
for k in time2events.keys(): |
|
sorted_times.append(k) |
|
sorted_times.sort() |
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|
|
sorted_events = [] |
|
for time in sorted_times: |
|
sorted_events.extend(time2events[time]) |
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|
|
abs_time = 0 |
|
for event in sorted_events: |
|
delta_time = event[1] - abs_time |
|
abs_time = event[1] |
|
event[1] = delta_time |
|
opus_tracks.append(sorted_events) |
|
opus_tracks.insert(0,ticks) |
|
_clean_up_warnings() |
|
return opus_tracks |
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|
|
def score2midi(score=None): |
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r''' |
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Translates a "score" into MIDI, using score2opus() then opus2midi() |
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''' |
|
return opus2midi(score2opus(score)) |
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def midi2opus(midi=b''): |
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r'''Translates MIDI into a "opus". For a description of the |
|
"opus" format, see opus2midi() |
|
''' |
|
my_midi=bytearray(midi) |
|
if len(my_midi) < 4: |
|
_clean_up_warnings() |
|
return [1000,[],] |
|
id = bytes(my_midi[0:4]) |
|
if id != b'MThd': |
|
_warn("midi2opus: midi starts with "+str(id)+" instead of 'MThd'") |
|
_clean_up_warnings() |
|
return [1000,[],] |
|
[length, format, tracks_expected, ticks] = struct.unpack( |
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'>IHHH', bytes(my_midi[4:14])) |
|
if length != 6: |
|
_warn("midi2opus: midi header length was "+str(length)+" instead of 6") |
|
_clean_up_warnings() |
|
return [1000,[],] |
|
my_opus = [ticks,] |
|
my_midi = my_midi[14:] |
|
track_num = 1 |
|
while len(my_midi) >= 8: |
|
track_type = bytes(my_midi[0:4]) |
|
if track_type != b'MTrk': |
|
_warn('midi2opus: Warning: track #'+str(track_num)+' type is '+str(track_type)+" instead of b'MTrk'") |
|
[track_length] = struct.unpack('>I', my_midi[4:8]) |
|
my_midi = my_midi[8:] |
|
if track_length > len(my_midi): |
|
_warn('midi2opus: track #'+str(track_num)+' length '+str(track_length)+' is too large') |
|
_clean_up_warnings() |
|
return my_opus |
|
my_midi_track = my_midi[0:track_length] |
|
my_track = _decode(my_midi_track) |
|
my_opus.append(my_track) |
|
my_midi = my_midi[track_length:] |
|
track_num += 1 |
|
_clean_up_warnings() |
|
return my_opus |
|
|
|
def opus2score(opus=[]): |
|
r'''For a description of the "opus" and "score" formats, |
|
see opus2midi() and score2opus(). |
|
''' |
|
if len(opus) < 2: |
|
_clean_up_warnings() |
|
return [1000,[],] |
|
tracks = copy.deepcopy(opus) |
|
ticks = int(tracks.pop(0)) |
|
score = [ticks,] |
|
for opus_track in tracks: |
|
ticks_so_far = 0 |
|
score_track = [] |
|
chapitch2note_on_events = dict([]) |
|
for opus_event in opus_track: |
|
ticks_so_far += opus_event[1] |
|
if opus_event[0] == 'note_off' or (opus_event[0] == 'note_on' and opus_event[4] == 0): |
|
cha = opus_event[2] |
|
pitch = opus_event[3] |
|
key = cha*128 + pitch |
|
if chapitch2note_on_events.get(key): |
|
new_event = chapitch2note_on_events[key].pop(0) |
|
new_event[2] = ticks_so_far - new_event[1] |
|
score_track.append(new_event) |
|
elif pitch > 127: |
|
pass |
|
else: |
|
pass |
|
elif opus_event[0] == 'note_on': |
|
cha = opus_event[2] |
|
pitch = opus_event[3] |
|
key = cha*128 + pitch |
|
new_event = ['note',ticks_so_far,0,cha,pitch, opus_event[4]] |
|
if chapitch2note_on_events.get(key): |
|
chapitch2note_on_events[key].append(new_event) |
|
else: |
|
chapitch2note_on_events[key] = [new_event,] |
|
else: |
|
opus_event[1] = ticks_so_far |
|
score_track.append(opus_event) |
|
|
|
for chapitch in chapitch2note_on_events: |
|
note_on_events = chapitch2note_on_events[chapitch] |
|
for new_e in note_on_events: |
|
new_e[2] = ticks_so_far - new_e[1] |
|
score_track.append(new_e) |
|
pass |
|
score.append(score_track) |
|
_clean_up_warnings() |
|
return score |
|
|
|
def midi2score(midi=b''): |
|
r''' |
|
Translates MIDI into a "score", using midi2opus() then opus2score() |
|
''' |
|
return opus2score(midi2opus(midi)) |
|
|
|
def midi2ms_score(midi=b''): |
|
r''' |
|
Translates MIDI into a "score" with one beat per second and one |
|
tick per millisecond, using midi2opus() then to_millisecs() |
|
then opus2score() |
|
''' |
|
return opus2score(to_millisecs(midi2opus(midi))) |
|
|
|
|
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|
|
def to_millisecs(old_opus=None): |
|
r'''Recallibrates all the times in an "opus" to use one beat |
|
per second and one tick per millisecond. This makes it |
|
hard to retrieve any information about beats or barlines, |
|
but it does make it easy to mix different scores together. |
|
''' |
|
if old_opus == None: |
|
return [1000,[],] |
|
try: |
|
old_tpq = int(old_opus[0]) |
|
except IndexError: |
|
_warn('to_millisecs: the opus '+str(type(old_opus))+' has no elements') |
|
return [1000,[],] |
|
new_opus = [1000,] |
|
|
|
ticks2tempo = {} |
|
itrack = 1 |
|
while itrack < len(old_opus): |
|
ticks_so_far = 0 |
|
for old_event in old_opus[itrack]: |
|
if old_event[0] == 'note': |
|
raise TypeError('to_millisecs needs an opus, not a score') |
|
ticks_so_far += old_event[1] |
|
if old_event[0] == 'set_tempo': |
|
ticks2tempo[ticks_so_far] = old_event[2] |
|
itrack += 1 |
|
|
|
tempo_ticks = [] |
|
for k in ticks2tempo.keys(): |
|
tempo_ticks.append(k) |
|
tempo_ticks.sort() |
|
|
|
|
|
itrack = 1 |
|
while itrack < len(old_opus): |
|
ms_per_old_tick = 500.0 / old_tpq |
|
i_tempo_ticks = 0 |
|
ticks_so_far = 0 |
|
ms_so_far = 0.0 |
|
previous_ms_so_far = 0.0 |
|
new_track = [['set_tempo',0,1000000],] |
|
for old_event in old_opus[itrack]: |
|
|
|
|
|
event_delta_ticks = old_event[1] |
|
if (i_tempo_ticks < len(tempo_ticks) and |
|
tempo_ticks[i_tempo_ticks] < (ticks_so_far + old_event[1])): |
|
delta_ticks = tempo_ticks[i_tempo_ticks] - ticks_so_far |
|
ms_so_far += (ms_per_old_tick * delta_ticks) |
|
ticks_so_far = tempo_ticks[i_tempo_ticks] |
|
ms_per_old_tick = ticks2tempo[ticks_so_far] / (1000.0*old_tpq) |
|
i_tempo_ticks += 1 |
|
event_delta_ticks -= delta_ticks |
|
new_event = copy.deepcopy(old_event) |
|
ms_so_far += (ms_per_old_tick * old_event[1]) |
|
new_event[1] = round(ms_so_far - previous_ms_so_far) |
|
if old_event[0] != 'set_tempo': |
|
previous_ms_so_far = ms_so_far |
|
new_track.append(new_event) |
|
ticks_so_far += event_delta_ticks |
|
new_opus.append(new_track) |
|
itrack += 1 |
|
_clean_up_warnings() |
|
return new_opus |
|
|
|
def event2alsaseq(event=None): |
|
r'''Converts an event into the format needed by the alsaseq module, |
|
http://pp.com.mx/python/alsaseq |
|
The type of track (opus or score) is autodetected. |
|
''' |
|
pass |
|
|
|
def grep(score=None, channels=None): |
|
r'''Returns a "score" containing only the channels specified |
|
''' |
|
if score == None: |
|
return [1000,[],] |
|
ticks = score[0] |
|
new_score = [ticks,] |
|
if channels == None: |
|
return new_score |
|
channels = set(channels) |
|
global Event2channelindex |
|
itrack = 1 |
|
while itrack < len(score): |
|
new_score.append([]) |
|
for event in score[itrack]: |
|
channel_index = Event2channelindex.get(event[0], False) |
|
if channel_index: |
|
if event[channel_index] in channels: |
|
new_score[itrack].append(event) |
|
else: |
|
new_score[itrack].append(event) |
|
itrack += 1 |
|
return new_score |
|
|
|
def play_score(score=None): |
|
r'''Converts the "score" to midi, and feeds it into 'aplaymidi -' |
|
''' |
|
if score == None: |
|
return |
|
import subprocess |
|
pipe = subprocess.Popen(['aplaymidi','-'], stdin=subprocess.PIPE) |
|
if score_type(score) == 'opus': |
|
pipe.stdin.write(opus2midi(score)) |
|
else: |
|
pipe.stdin.write(score2midi(score)) |
|
pipe.stdin.close() |
|
|
|
def timeshift(score=None, shift=None, start_time=None, from_time=0, tracks={0,1,2,3,4,5,6,7,8,10,12,13,14,15}): |
|
r'''Returns a "score" shifted in time by "shift" ticks, or shifted |
|
so that the first event starts at "start_time" ticks. |
|
|
|
If "from_time" is specified, only those events in the score |
|
that begin after it are shifted. If "start_time" is less than |
|
"from_time" (or "shift" is negative), then the intermediate |
|
notes are deleted, though patch-change events are preserved. |
|
|
|
If "tracks" are specified, then only those tracks get shifted. |
|
"tracks" can be a list, tuple or set; it gets converted to set |
|
internally. |
|
|
|
It is deprecated to specify both "shift" and "start_time". |
|
If this does happen, timeshift() will print a warning to |
|
stderr and ignore the "shift" argument. |
|
|
|
If "shift" is negative and sufficiently large that it would |
|
leave some event with a negative tick-value, then the score |
|
is shifted so that the first event occurs at time 0. This |
|
also occurs if "start_time" is negative, and is also the |
|
default if neither "shift" nor "start_time" are specified. |
|
''' |
|
|
|
if score == None or len(score) < 2: |
|
return [1000, [],] |
|
new_score = [score[0],] |
|
my_type = score_type(score) |
|
if my_type == '': |
|
return new_score |
|
if my_type == 'opus': |
|
_warn("timeshift: opus format is not supported\n") |
|
|
|
return new_score |
|
if not (shift == None) and not (start_time == None): |
|
_warn("timeshift: shift and start_time specified: ignoring shift\n") |
|
shift = None |
|
if shift == None: |
|
if (start_time == None) or (start_time < 0): |
|
start_time = 0 |
|
|
|
|
|
i = 1 |
|
tracks = set(tracks) |
|
earliest = 1000000000 |
|
if not (start_time == None) or shift < 0: |
|
while i < len(score): |
|
if len(tracks) and not ((i-1) in tracks): |
|
i += 1 |
|
continue |
|
for event in score[i]: |
|
if event[1] < from_time: |
|
continue |
|
if event[1] < earliest: |
|
earliest = event[1] |
|
i += 1 |
|
if earliest > 999999999: |
|
earliest = 0 |
|
if shift == None: |
|
shift = start_time - earliest |
|
elif (earliest + shift) < 0: |
|
start_time = 0 |
|
shift = 0 - earliest |
|
|
|
i = 1 |
|
while i < len(score): |
|
if len(tracks) == 0 or not ((i-1) in tracks): |
|
new_score.append(score[i]) |
|
i += 1 |
|
continue |
|
new_track = [] |
|
for event in score[i]: |
|
new_event = list(event) |
|
|
|
|
|
|
|
if new_event[1] >= from_time: |
|
|
|
if new_event[0] != 'set_tempo' or shift<0: |
|
new_event[1] += shift |
|
elif (shift < 0) and (new_event[1] >= (from_time+shift)): |
|
continue |
|
new_track.append(new_event) |
|
if len(new_track) > 0: |
|
new_score.append(new_track) |
|
i += 1 |
|
_clean_up_warnings() |
|
return new_score |
|
|
|
def segment(score=None, start_time=None, end_time=None, start=0, end=100000000, |
|
tracks={0,1,2,3,4,5,6,7,8,10,11,12,13,14,15}): |
|
r'''Returns a "score" which is a segment of the one supplied |
|
as the argument, beginning at "start_time" ticks and ending |
|
at "end_time" ticks (or at the end if "end_time" is not supplied). |
|
If the set "tracks" is specified, only those tracks will |
|
be returned. |
|
''' |
|
if score == None or len(score) < 2: |
|
return [1000, [],] |
|
if start_time == None: |
|
start_time = start |
|
if end_time == None: |
|
end_time = end |
|
new_score = [score[0],] |
|
my_type = score_type(score) |
|
if my_type == '': |
|
return new_score |
|
if my_type == 'opus': |
|
|
|
_warn("segment: opus format is not supported\n") |
|
_clean_up_warnings() |
|
return new_score |
|
i = 1 |
|
tracks = set(tracks) |
|
while i < len(score): |
|
if len(tracks) and not ((i-1) in tracks): |
|
i += 1 |
|
continue |
|
new_track = [] |
|
channel2cc_num = {} |
|
channel2cc_val = {} |
|
channel2cc_time = {} |
|
channel2patch_num = {} |
|
channel2patch_time = {} |
|
set_tempo_num = 500000 |
|
set_tempo_time = 0 |
|
earliest_note_time = end_time |
|
for event in score[i]: |
|
if event[0] == 'control_change': |
|
cc_time = channel2cc_time.get(event[2]) or 0 |
|
if (event[1] <= start_time) and (event[1] >= cc_time): |
|
channel2cc_num[event[2]] = event[3] |
|
channel2cc_val[event[2]] = event[4] |
|
channel2cc_time[event[2]] = event[1] |
|
elif event[0] == 'patch_change': |
|
patch_time = channel2patch_time.get(event[2]) or 0 |
|
if (event[1]<=start_time) and (event[1] >= patch_time): |
|
channel2patch_num[event[2]] = event[3] |
|
channel2patch_time[event[2]] = event[1] |
|
elif event[0] == 'set_tempo': |
|
if (event[1]<=start_time) and (event[1]>=set_tempo_time): |
|
set_tempo_num = event[2] |
|
set_tempo_time = event[1] |
|
if (event[1] >= start_time) and (event[1] <= end_time): |
|
new_track.append(event) |
|
if (event[0] == 'note') and (event[1] < earliest_note_time): |
|
earliest_note_time = event[1] |
|
if len(new_track) > 0: |
|
new_track.append(['set_tempo', start_time, set_tempo_num]) |
|
for c in channel2patch_num: |
|
new_track.append(['patch_change',start_time,c,channel2patch_num[c]],) |
|
for c in channel2cc_num: |
|
new_track.append(['control_change',start_time,c,channel2cc_num[c],channel2cc_val[c]]) |
|
new_score.append(new_track) |
|
i += 1 |
|
_clean_up_warnings() |
|
return new_score |
|
|
|
def score_type(opus_or_score=None): |
|
r'''Returns a string, either 'opus' or 'score' or '' |
|
''' |
|
if opus_or_score == None or str(type(opus_or_score)).find('list')<0 or len(opus_or_score) < 2: |
|
return '' |
|
i = 1 |
|
while i < len(opus_or_score): |
|
for event in opus_or_score[i]: |
|
if event[0] == 'note': |
|
return 'score' |
|
elif event[0] == 'note_on': |
|
return 'opus' |
|
i += 1 |
|
return '' |
|
|
|
def concatenate_scores(scores): |
|
r'''Concatenates a list of scores into one score. |
|
If the scores differ in their "ticks" parameter, |
|
they will all get converted to millisecond-tick format. |
|
''' |
|
|
|
|
|
input_scores = _consistentise_ticks(scores) |
|
output_score = copy.deepcopy(input_scores[0]) |
|
for input_score in input_scores[1:]: |
|
output_stats = score2stats(output_score) |
|
delta_ticks = output_stats['nticks'] |
|
itrack = 1 |
|
while itrack < len(input_score): |
|
if itrack >= len(output_score): |
|
output_score.append([]) |
|
for event in input_score[itrack]: |
|
output_score[itrack].append(copy.deepcopy(event)) |
|
output_score[itrack][-1][1] += delta_ticks |
|
itrack += 1 |
|
return output_score |
|
|
|
def merge_scores(scores): |
|
r'''Merges a list of scores into one score. A merged score comprises |
|
all of the tracks from all of the input scores; un-merging is possible |
|
by selecting just some of the tracks. If the scores differ in their |
|
"ticks" parameter, they will all get converted to millisecond-tick |
|
format. merge_scores attempts to resolve channel-conflicts, |
|
but there are of course only 15 available channels... |
|
''' |
|
input_scores = _consistentise_ticks(scores) |
|
output_score = [1000] |
|
channels_so_far = set() |
|
all_channels = {0,1,2,3,4,5,6,7,8,10,11,12,13,14,15} |
|
global Event2channelindex |
|
for input_score in input_scores: |
|
new_channels = set(score2stats(input_score).get('channels_total', [])) |
|
new_channels.discard(9) |
|
for channel in channels_so_far & new_channels: |
|
|
|
free_channels = list(all_channels - (channels_so_far|new_channels)) |
|
if len(free_channels) > 0: |
|
free_channels.sort() |
|
free_channel = free_channels[0] |
|
else: |
|
free_channel = None |
|
break |
|
itrack = 1 |
|
while itrack < len(input_score): |
|
for input_event in input_score[itrack]: |
|
channel_index=Event2channelindex.get(input_event[0],False) |
|
if channel_index and input_event[channel_index]==channel: |
|
input_event[channel_index] = free_channel |
|
itrack += 1 |
|
channels_so_far.add(free_channel) |
|
|
|
channels_so_far |= new_channels |
|
output_score.extend(input_score[1:]) |
|
return output_score |
|
|
|
def _ticks(event): |
|
return event[1] |
|
def mix_opus_tracks(input_tracks): |
|
r'''Mixes an array of tracks into one track. A mixed track |
|
cannot be un-mixed. It is assumed that the tracks share the same |
|
ticks parameter and the same tempo. |
|
Mixing score-tracks is trivial (just insert all events into one array). |
|
Mixing opus-tracks is only slightly harder, but it's common enough |
|
that a dedicated function is useful. |
|
''' |
|
output_score = [1000, []] |
|
for input_track in input_tracks: |
|
input_score = opus2score([1000, input_track]) |
|
for event in input_score[1]: |
|
output_score[1].append(event) |
|
output_score[1].sort(key=_ticks) |
|
output_opus = score2opus(output_score) |
|
return output_opus[1] |
|
|
|
def mix_scores(scores): |
|
r'''Mixes a list of scores into one one-track score. |
|
A mixed score cannot be un-mixed. Hopefully the scores |
|
have no undesirable channel-conflicts between them. |
|
If the scores differ in their "ticks" parameter, |
|
they will all get converted to millisecond-tick format. |
|
''' |
|
input_scores = _consistentise_ticks(scores) |
|
output_score = [1000, []] |
|
for input_score in input_scores: |
|
for input_track in input_score[1:]: |
|
output_score[1].extend(input_track) |
|
return output_score |
|
|
|
def score2stats(opus_or_score=None): |
|
r'''Returns a dict of some basic stats about the score, like |
|
bank_select (list of tuples (msb,lsb)), |
|
channels_by_track (list of lists), channels_total (set), |
|
general_midi_mode (list), |
|
ntracks, nticks, patch_changes_by_track (list of dicts), |
|
num_notes_by_channel (list of numbers), |
|
patch_changes_total (set), |
|
percussion (dict histogram of channel 9 events), |
|
pitches (dict histogram of pitches on channels other than 9), |
|
pitch_range_by_track (list, by track, of two-member-tuples), |
|
pitch_range_sum (sum over tracks of the pitch_ranges), |
|
''' |
|
bank_select_msb = -1 |
|
bank_select_lsb = -1 |
|
bank_select = [] |
|
channels_by_track = [] |
|
channels_total = set([]) |
|
general_midi_mode = [] |
|
num_notes_by_channel = dict([]) |
|
patches_used_by_track = [] |
|
patches_used_total = set([]) |
|
patch_changes_by_track = [] |
|
patch_changes_total = set([]) |
|
percussion = dict([]) |
|
pitches = dict([]) |
|
pitch_range_sum = 0 |
|
pitch_range_by_track = [] |
|
is_a_score = True |
|
if opus_or_score == None: |
|
return {'bank_select':[], 'channels_by_track':[], 'channels_total':[], |
|
'general_midi_mode':[], 'ntracks':0, 'nticks':0, |
|
'num_notes_by_channel':dict([]), |
|
'patch_changes_by_track':[], 'patch_changes_total':[], |
|
'percussion':{}, 'pitches':{}, 'pitch_range_by_track':[], |
|
'ticks_per_quarter':0, 'pitch_range_sum':0} |
|
ticks_per_quarter = opus_or_score[0] |
|
i = 1 |
|
nticks = 0 |
|
while i < len(opus_or_score): |
|
highest_pitch = 0 |
|
lowest_pitch = 128 |
|
channels_this_track = set([]) |
|
patch_changes_this_track = dict({}) |
|
for event in opus_or_score[i]: |
|
if event[0] == 'note': |
|
num_notes_by_channel[event[3]] = num_notes_by_channel.get(event[3],0) + 1 |
|
if event[3] == 9: |
|
percussion[event[4]] = percussion.get(event[4],0) + 1 |
|
else: |
|
pitches[event[4]] = pitches.get(event[4],0) + 1 |
|
if event[4] > highest_pitch: |
|
highest_pitch = event[4] |
|
if event[4] < lowest_pitch: |
|
lowest_pitch = event[4] |
|
channels_this_track.add(event[3]) |
|
channels_total.add(event[3]) |
|
finish_time = event[1] + event[2] |
|
if finish_time > nticks: |
|
nticks = finish_time |
|
elif event[0] == 'note_off' or (event[0] == 'note_on' and event[4] == 0): |
|
finish_time = event[1] |
|
if finish_time > nticks: |
|
nticks = finish_time |
|
elif event[0] == 'note_on': |
|
is_a_score = False |
|
num_notes_by_channel[event[2]] = num_notes_by_channel.get(event[2],0) + 1 |
|
if event[2] == 9: |
|
percussion[event[3]] = percussion.get(event[3],0) + 1 |
|
else: |
|
pitches[event[3]] = pitches.get(event[3],0) + 1 |
|
if event[3] > highest_pitch: |
|
highest_pitch = event[3] |
|
if event[3] < lowest_pitch: |
|
lowest_pitch = event[3] |
|
channels_this_track.add(event[2]) |
|
channels_total.add(event[2]) |
|
elif event[0] == 'patch_change': |
|
patch_changes_this_track[event[2]] = event[3] |
|
patch_changes_total.add(event[3]) |
|
elif event[0] == 'control_change': |
|
if event[3] == 0: |
|
bank_select_msb = event[4] |
|
elif event[3] == 32: |
|
bank_select_lsb = event[4] |
|
if bank_select_msb >= 0 and bank_select_lsb >= 0: |
|
bank_select.append((bank_select_msb,bank_select_lsb)) |
|
bank_select_msb = -1 |
|
bank_select_lsb = -1 |
|
elif event[0] == 'sysex_f0': |
|
if _sysex2midimode.get(event[2], -1) >= 0: |
|
general_midi_mode.append(_sysex2midimode.get(event[2])) |
|
if is_a_score: |
|
if event[1] > nticks: |
|
nticks = event[1] |
|
else: |
|
nticks += event[1] |
|
if lowest_pitch == 128: |
|
lowest_pitch = 0 |
|
channels_by_track.append(channels_this_track) |
|
patch_changes_by_track.append(patch_changes_this_track) |
|
pitch_range_by_track.append((lowest_pitch,highest_pitch)) |
|
pitch_range_sum += (highest_pitch-lowest_pitch) |
|
i += 1 |
|
|
|
return {'bank_select':bank_select, |
|
'channels_by_track':channels_by_track, |
|
'channels_total':channels_total, |
|
'general_midi_mode':general_midi_mode, |
|
'ntracks':len(opus_or_score)-1, |
|
'nticks':nticks, |
|
'num_notes_by_channel':num_notes_by_channel, |
|
'patch_changes_by_track':patch_changes_by_track, |
|
'patch_changes_total':patch_changes_total, |
|
'percussion':percussion, |
|
'pitches':pitches, |
|
'pitch_range_by_track':pitch_range_by_track, |
|
'pitch_range_sum':pitch_range_sum, |
|
'ticks_per_quarter':ticks_per_quarter} |
|
|
|
|
|
|
|
_sysex2midimode = { |
|
"\x7E\x7F\x09\x01\xF7": 1, |
|
"\x7E\x7F\x09\x02\xF7": 0, |
|
"\x7E\x7F\x09\x03\xF7": 2, |
|
} |
|
|
|
|
|
MIDI_events = tuple('''note_off note_on key_after_touch |
|
control_change patch_change channel_after_touch |
|
pitch_wheel_change'''.split()) |
|
|
|
Text_events = tuple('''text_event copyright_text_event |
|
track_name instrument_name lyric marker cue_point text_event_08 |
|
text_event_09 text_event_0a text_event_0b text_event_0c |
|
text_event_0d text_event_0e text_event_0f'''.split()) |
|
|
|
Nontext_meta_events = tuple('''end_track set_tempo |
|
smpte_offset time_signature key_signature sequencer_specific |
|
raw_meta_event sysex_f0 sysex_f7 song_position song_select |
|
tune_request'''.split()) |
|
|
|
|
|
|
|
Meta_events = Text_events + Nontext_meta_events |
|
All_events = MIDI_events + Meta_events |
|
|
|
|
|
Number2patch = { |
|
0:'Acoustic Grand', |
|
1:'Bright Acoustic', |
|
2:'Electric Grand', |
|
3:'Honky-Tonk', |
|
4:'Electric Piano 1', |
|
5:'Electric Piano 2', |
|
6:'Harpsichord', |
|
7:'Clav', |
|
8:'Celesta', |
|
9:'Glockenspiel', |
|
10:'Music Box', |
|
11:'Vibraphone', |
|
12:'Marimba', |
|
13:'Xylophone', |
|
14:'Tubular Bells', |
|
15:'Dulcimer', |
|
16:'Drawbar Organ', |
|
17:'Percussive Organ', |
|
18:'Rock Organ', |
|
19:'Church Organ', |
|
20:'Reed Organ', |
|
21:'Accordion', |
|
22:'Harmonica', |
|
23:'Tango Accordion', |
|
24:'Acoustic Guitar(nylon)', |
|
25:'Acoustic Guitar(steel)', |
|
26:'Electric Guitar(jazz)', |
|
27:'Electric Guitar(clean)', |
|
28:'Electric Guitar(muted)', |
|
29:'Overdriven Guitar', |
|
30:'Distortion Guitar', |
|
31:'Guitar Harmonics', |
|
32:'Acoustic Bass', |
|
33:'Electric Bass(finger)', |
|
34:'Electric Bass(pick)', |
|
35:'Fretless Bass', |
|
36:'Slap Bass 1', |
|
37:'Slap Bass 2', |
|
38:'Synth Bass 1', |
|
39:'Synth Bass 2', |
|
40:'Violin', |
|
41:'Viola', |
|
42:'Cello', |
|
43:'Contrabass', |
|
44:'Tremolo Strings', |
|
45:'Pizzicato Strings', |
|
46:'Orchestral Harp', |
|
47:'Timpani', |
|
48:'String Ensemble 1', |
|
49:'String Ensemble 2', |
|
50:'SynthStrings 1', |
|
51:'SynthStrings 2', |
|
52:'Choir Aahs', |
|
53:'Voice Oohs', |
|
54:'Synth Voice', |
|
55:'Orchestra Hit', |
|
56:'Trumpet', |
|
57:'Trombone', |
|
58:'Tuba', |
|
59:'Muted Trumpet', |
|
60:'French Horn', |
|
61:'Brass Section', |
|
62:'SynthBrass 1', |
|
63:'SynthBrass 2', |
|
64:'Soprano Sax', |
|
65:'Alto Sax', |
|
66:'Tenor Sax', |
|
67:'Baritone Sax', |
|
68:'Oboe', |
|
69:'English Horn', |
|
70:'Bassoon', |
|
71:'Clarinet', |
|
72:'Piccolo', |
|
73:'Flute', |
|
74:'Recorder', |
|
75:'Pan Flute', |
|
76:'Blown Bottle', |
|
77:'Skakuhachi', |
|
78:'Whistle', |
|
79:'Ocarina', |
|
80:'Lead 1 (square)', |
|
81:'Lead 2 (sawtooth)', |
|
82:'Lead 3 (calliope)', |
|
83:'Lead 4 (chiff)', |
|
84:'Lead 5 (charang)', |
|
85:'Lead 6 (voice)', |
|
86:'Lead 7 (fifths)', |
|
87:'Lead 8 (bass+lead)', |
|
88:'Pad 1 (new age)', |
|
89:'Pad 2 (warm)', |
|
90:'Pad 3 (polysynth)', |
|
91:'Pad 4 (choir)', |
|
92:'Pad 5 (bowed)', |
|
93:'Pad 6 (metallic)', |
|
94:'Pad 7 (halo)', |
|
95:'Pad 8 (sweep)', |
|
96:'FX 1 (rain)', |
|
97:'FX 2 (soundtrack)', |
|
98:'FX 3 (crystal)', |
|
99:'FX 4 (atmosphere)', |
|
100:'FX 5 (brightness)', |
|
101:'FX 6 (goblins)', |
|
102:'FX 7 (echoes)', |
|
103:'FX 8 (sci-fi)', |
|
104:'Sitar', |
|
105:'Banjo', |
|
106:'Shamisen', |
|
107:'Koto', |
|
108:'Kalimba', |
|
109:'Bagpipe', |
|
110:'Fiddle', |
|
111:'Shanai', |
|
112:'Tinkle Bell', |
|
113:'Agogo', |
|
114:'Steel Drums', |
|
115:'Woodblock', |
|
116:'Taiko Drum', |
|
117:'Melodic Tom', |
|
118:'Synth Drum', |
|
119:'Reverse Cymbal', |
|
120:'Guitar Fret Noise', |
|
121:'Breath Noise', |
|
122:'Seashore', |
|
123:'Bird Tweet', |
|
124:'Telephone Ring', |
|
125:'Helicopter', |
|
126:'Applause', |
|
127:'Gunshot', |
|
} |
|
Notenum2percussion = { |
|
35:'Acoustic Bass Drum', |
|
36:'Bass Drum 1', |
|
37:'Side Stick', |
|
38:'Acoustic Snare', |
|
39:'Hand Clap', |
|
40:'Electric Snare', |
|
41:'Low Floor Tom', |
|
42:'Closed Hi-Hat', |
|
43:'High Floor Tom', |
|
44:'Pedal Hi-Hat', |
|
45:'Low Tom', |
|
46:'Open Hi-Hat', |
|
47:'Low-Mid Tom', |
|
48:'Hi-Mid Tom', |
|
49:'Crash Cymbal 1', |
|
50:'High Tom', |
|
51:'Ride Cymbal 1', |
|
52:'Chinese Cymbal', |
|
53:'Ride Bell', |
|
54:'Tambourine', |
|
55:'Splash Cymbal', |
|
56:'Cowbell', |
|
57:'Crash Cymbal 2', |
|
58:'Vibraslap', |
|
59:'Ride Cymbal 2', |
|
60:'Hi Bongo', |
|
61:'Low Bongo', |
|
62:'Mute Hi Conga', |
|
63:'Open Hi Conga', |
|
64:'Low Conga', |
|
65:'High Timbale', |
|
66:'Low Timbale', |
|
67:'High Agogo', |
|
68:'Low Agogo', |
|
69:'Cabasa', |
|
70:'Maracas', |
|
71:'Short Whistle', |
|
72:'Long Whistle', |
|
73:'Short Guiro', |
|
74:'Long Guiro', |
|
75:'Claves', |
|
76:'Hi Wood Block', |
|
77:'Low Wood Block', |
|
78:'Mute Cuica', |
|
79:'Open Cuica', |
|
80:'Mute Triangle', |
|
81:'Open Triangle', |
|
} |
|
|
|
Event2channelindex = { 'note':3, 'note_off':2, 'note_on':2, |
|
'key_after_touch':2, 'control_change':2, 'patch_change':2, |
|
'channel_after_touch':2, 'pitch_wheel_change':2 |
|
} |
|
|
|
|
|
|
|
|
|
|
|
def _twobytes2int(byte_a): |
|
r'''decode a 16 bit quantity from two bytes,''' |
|
return (byte_a[1] | (byte_a[0] << 8)) |
|
|
|
def _int2twobytes(int_16bit): |
|
r'''encode a 16 bit quantity into two bytes,''' |
|
return bytes([(int_16bit>>8) & 0xFF, int_16bit & 0xFF]) |
|
|
|
def _read_14_bit(byte_a): |
|
r'''decode a 14 bit quantity from two bytes,''' |
|
return (byte_a[0] | (byte_a[1] << 7)) |
|
|
|
def _write_14_bit(int_14bit): |
|
r'''encode a 14 bit quantity into two bytes,''' |
|
return bytes([int_14bit & 0x7F, (int_14bit>>7) & 0x7F]) |
|
|
|
def _ber_compressed_int(integer): |
|
r'''BER compressed integer (not an ASN.1 BER, see perlpacktut for |
|
details). Its bytes represent an unsigned integer in base 128, |
|
most significant digit first, with as few digits as possible. |
|
Bit eight (the high bit) is set on each byte except the last. |
|
''' |
|
ber = bytearray(b'') |
|
seven_bits = 0x7F & integer |
|
ber.insert(0, seven_bits) |
|
integer >>= 7 |
|
while integer > 0: |
|
seven_bits = 0x7F & integer |
|
ber.insert(0, 0x80|seven_bits) |
|
integer >>= 7 |
|
return ber |
|
|
|
def _unshift_ber_int(ba): |
|
r'''Given a bytearray, returns a tuple of (the ber-integer at the |
|
start, and the remainder of the bytearray). |
|
''' |
|
if not len(ba): |
|
_warn('_unshift_ber_int: no integer found') |
|
return ((0, b"")) |
|
byte = ba.pop(0) |
|
integer = 0 |
|
while True: |
|
integer += (byte & 0x7F) |
|
if not (byte & 0x80): |
|
return ((integer, ba)) |
|
if not len(ba): |
|
_warn('_unshift_ber_int: no end-of-integer found') |
|
return ((0, ba)) |
|
byte = ba.pop(0) |
|
integer <<= 7 |
|
|
|
def _clean_up_warnings(): |
|
|
|
|
|
|
|
global _previous_times |
|
global _previous_warning |
|
if _previous_times > 1: |
|
|
|
|
|
|
|
sys.stderr.write(' previous message repeated {0} times\n'.format(_previous_times)) |
|
elif _previous_times > 0: |
|
sys.stderr.write(' previous message repeated\n') |
|
_previous_times = 0 |
|
_previous_warning = '' |
|
|
|
def _warn(s=''): |
|
global _previous_times |
|
global _previous_warning |
|
if s == _previous_warning: |
|
_previous_times = _previous_times + 1 |
|
else: |
|
_clean_up_warnings() |
|
sys.stderr.write(str(s)+"\n") |
|
_previous_warning = s |
|
|
|
def _some_text_event(which_kind=0x01, text=b'some_text'): |
|
if str(type(text)).find("'str'") >= 0: |
|
data = bytes(text, encoding='ISO-8859-1') |
|
else: |
|
data = bytes(text) |
|
return b'\xFF'+bytes((which_kind,))+_ber_compressed_int(len(data))+data |
|
|
|
def _consistentise_ticks(scores): |
|
|
|
if len(scores) == 1: |
|
return copy.deepcopy(scores) |
|
are_consistent = True |
|
ticks = scores[0][0] |
|
iscore = 1 |
|
while iscore < len(scores): |
|
if scores[iscore][0] != ticks: |
|
are_consistent = False |
|
break |
|
iscore += 1 |
|
if are_consistent: |
|
return copy.deepcopy(scores) |
|
new_scores = [] |
|
iscore = 0 |
|
while iscore < len(scores): |
|
score = scores[iscore] |
|
new_scores.append(opus2score(to_millisecs(score2opus(score)))) |
|
iscore += 1 |
|
return new_scores |
|
|
|
|
|
|
|
|
|
def _decode(trackdata=b'', exclude=None, include=None, |
|
event_callback=None, exclusive_event_callback=None, no_eot_magic=False): |
|
r'''Decodes MIDI track data into an opus-style list of events. |
|
The options: |
|
'exclude' is a list of event types which will be ignored SHOULD BE A SET |
|
'include' (and no exclude), makes exclude a list |
|
of all possible events, /minus/ what include specifies |
|
'event_callback' is a coderef |
|
'exclusive_event_callback' is a coderef |
|
''' |
|
trackdata = bytearray(trackdata) |
|
if exclude == None: |
|
exclude = [] |
|
if include == None: |
|
include = [] |
|
if include and not exclude: |
|
exclude = All_events |
|
include = set(include) |
|
exclude = set(exclude) |
|
|
|
|
|
event_code = -1; |
|
event_count = 0; |
|
events = [] |
|
|
|
while(len(trackdata)): |
|
|
|
eot = False |
|
event_count += 1 |
|
|
|
E = [] |
|
|
|
|
|
|
|
[time, remainder] = _unshift_ber_int(trackdata) |
|
|
|
|
|
first_byte = trackdata.pop(0) & 0xFF |
|
|
|
if (first_byte < 0xF0): |
|
if (first_byte & 0x80): |
|
event_code = first_byte |
|
else: |
|
|
|
trackdata.insert(0, first_byte) |
|
if (event_code == -1): |
|
_warn("Running status not set; Aborting track.") |
|
return [] |
|
|
|
command = event_code & 0xF0 |
|
channel = event_code & 0x0F |
|
|
|
if (command == 0xF6): |
|
pass |
|
elif (command == 0xC0 or command == 0xD0): |
|
parameter = trackdata.pop(0) |
|
else: |
|
parameter = (trackdata.pop(0), trackdata.pop(0)) |
|
|
|
|
|
|
|
|
|
if (command == 0x80): |
|
if 'note_off' in exclude: |
|
continue |
|
E = ['note_off', time, channel, parameter[0], parameter[1]] |
|
elif (command == 0x90): |
|
if 'note_on' in exclude: |
|
continue |
|
E = ['note_on', time, channel, parameter[0], parameter[1]] |
|
elif (command == 0xA0): |
|
if 'key_after_touch' in exclude: |
|
continue |
|
E = ['key_after_touch',time,channel,parameter[0],parameter[1]] |
|
elif (command == 0xB0): |
|
if 'control_change' in exclude: |
|
continue |
|
E = ['control_change',time,channel,parameter[0],parameter[1]] |
|
elif (command == 0xC0): |
|
if 'patch_change' in exclude: |
|
continue |
|
E = ['patch_change', time, channel, parameter] |
|
elif (command == 0xD0): |
|
if 'channel_after_touch' in exclude: |
|
continue |
|
E = ['channel_after_touch', time, channel, parameter] |
|
elif (command == 0xE0): |
|
if 'pitch_wheel_change' in exclude: |
|
continue |
|
E = ['pitch_wheel_change', time, channel, |
|
_read_14_bit(parameter)-0x2000] |
|
else: |
|
_warn("Shouldn't get here; command="+hex(command)) |
|
|
|
elif (first_byte == 0xFF): |
|
|
|
|
|
|
|
|
|
command = trackdata.pop(0) & 0xFF |
|
[length, trackdata] = _unshift_ber_int(trackdata) |
|
if (command == 0x00): |
|
if (length == 2): |
|
E = ['set_sequence_number',time,_twobytes2int(trackdata)] |
|
else: |
|
_warn('set_sequence_number: length must be 2, not '+str(length)) |
|
E = ['set_sequence_number', time, 0] |
|
|
|
elif command >= 0x01 and command <= 0x0f: |
|
|
|
|
|
|
|
|
|
text_data = bytes(trackdata[0:length]) |
|
|
|
if (command == 0x01): |
|
E = ['text_event', time, text_data] |
|
elif (command == 0x02): |
|
E = ['copyright_text_event', time, text_data] |
|
elif (command == 0x03): |
|
E = ['track_name', time, text_data] |
|
elif (command == 0x04): |
|
E = ['instrument_name', time, text_data] |
|
elif (command == 0x05): |
|
E = ['lyric', time, text_data] |
|
elif (command == 0x06): |
|
E = ['marker', time, text_data] |
|
elif (command == 0x07): |
|
E = ['cue_point', time, text_data] |
|
|
|
elif (command == 0x08): |
|
E = ['text_event_08', time, text_data] |
|
elif (command == 0x09): |
|
E = ['text_event_09', time, text_data] |
|
elif (command == 0x0a): |
|
E = ['text_event_0a', time, text_data] |
|
elif (command == 0x0b): |
|
E = ['text_event_0b', time, text_data] |
|
elif (command == 0x0c): |
|
E = ['text_event_0c', time, text_data] |
|
elif (command == 0x0d): |
|
E = ['text_event_0d', time, text_data] |
|
elif (command == 0x0e): |
|
E = ['text_event_0e', time, text_data] |
|
elif (command == 0x0f): |
|
E = ['text_event_0f', time, text_data] |
|
|
|
|
|
elif (command == 0x2F): |
|
E = ['end_track', time] |
|
|
|
|
|
elif (command == 0x51): |
|
if length != 3: |
|
_warn('set_tempo event, but length='+str(length)) |
|
E = ['set_tempo', time, |
|
struct.unpack(">I", b'\x00'+trackdata[0:3])[0]] |
|
elif (command == 0x54): |
|
if length != 5: |
|
_warn('smpte_offset event, but length='+str(length)) |
|
E = ['smpte_offset',time] + list(struct.unpack(">BBBBB",trackdata[0:5])) |
|
elif (command == 0x58): |
|
if length != 4: |
|
_warn('time_signature event, but length='+str(length)) |
|
E = ['time_signature', time]+list(trackdata[0:4]) |
|
elif (command == 0x59): |
|
if length != 2: |
|
_warn('key_signature event, but length='+str(length)) |
|
E = ['key_signature',time] + list(struct.unpack(">bB",trackdata[0:2])) |
|
elif (command == 0x7F): |
|
E = ['sequencer_specific',time, bytes(trackdata[0:length])] |
|
else: |
|
E = ['raw_meta_event', time, command, |
|
bytes(trackdata[0:length])] |
|
|
|
|
|
|
|
|
|
|
|
trackdata = trackdata[length:] |
|
|
|
|
|
elif (first_byte == 0xF0 or first_byte == 0xF7): |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
[length, trackdata] = _unshift_ber_int(trackdata) |
|
if first_byte == 0xF0: |
|
|
|
|
|
E = ['sysex_f0', time, bytes(trackdata[0:length])] |
|
else: |
|
E = ['sysex_f7', time, bytes(trackdata[0:length])] |
|
trackdata = trackdata[length:] |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
elif (first_byte == 0xF2): |
|
|
|
E = ['song_position', time, _read_14_bit(trackdata[:2])] |
|
trackdata = trackdata[2:] |
|
|
|
elif (first_byte == 0xF3): |
|
|
|
E = ['song_select', time, trackdata[0]] |
|
trackdata = trackdata[1:] |
|
|
|
|
|
elif (first_byte == 0xF6): |
|
E = ['tune_request', time] |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
r''' |
|
elif (first_byte > 0xF0) { # Some unknown kinda F-series event #### |
|
# Here we only produce a one-byte piece of raw data. |
|
# But the encoder for 'raw_data' accepts any length of it. |
|
E = [ 'raw_data', |
|
time, substr(trackdata,Pointer,1) ] |
|
# DTime and the Data (in this case, the one Event-byte) |
|
++Pointer; # itself |
|
|
|
''' |
|
elif first_byte > 0xF0: |
|
|
|
|
|
E = ['raw_data', time, trackdata[0]] |
|
trackdata = trackdata[1:] |
|
else: |
|
_warn("Aborting track. Command-byte first_byte="+hex(first_byte)) |
|
break |
|
|
|
|
|
|
|
|
|
|
|
if E and (E[0] == 'end_track'): |
|
|
|
eot = True |
|
if not no_eot_magic: |
|
if E[1] > 0: |
|
E = ['text_event', E[1], ''] |
|
else: |
|
E = [] |
|
|
|
if E and not (E[0] in exclude): |
|
|
|
|
|
|
|
|
|
events.append(E) |
|
if eot: |
|
break |
|
|
|
|
|
|
|
return events |
|
|
|
|
|
|
|
def _encode(events_lol, unknown_callback=None, never_add_eot=False, |
|
no_eot_magic=False, no_running_status=False): |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
data = [] |
|
|
|
|
|
events = copy.deepcopy(events_lol) |
|
|
|
if not never_add_eot: |
|
|
|
if events: |
|
last = events[-1] |
|
if not (last[0] == 'end_track'): |
|
if (last[0] == 'text_event' and len(last[2]) == 0): |
|
|
|
if no_eot_magic: |
|
|
|
|
|
events.append(['end_track', 0]) |
|
else: |
|
|
|
last[0] = 'end_track' |
|
else: |
|
|
|
events.append(['end_track', 0]) |
|
else: |
|
events = [['end_track', 0],] |
|
|
|
|
|
last_status = -1 |
|
|
|
for event_r in (events): |
|
E = copy.deepcopy(event_r) |
|
|
|
if not E: |
|
continue |
|
|
|
event = E.pop(0) |
|
if not len(event): |
|
continue |
|
|
|
dtime = int(E.pop(0)) |
|
|
|
|
|
event_data = '' |
|
|
|
if ( |
|
event == 'note_on' |
|
or event == 'note_off' |
|
or event == 'control_change' |
|
or event == 'key_after_touch' |
|
or event == 'patch_change' |
|
or event == 'channel_after_touch' |
|
or event == 'pitch_wheel_change' ): |
|
|
|
|
|
if (event == 'note_off'): |
|
status = 0x80 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>BB', int(E[1])&0x7F, int(E[2])&0x7F) |
|
elif (event == 'note_on'): |
|
status = 0x90 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>BB', int(E[1])&0x7F, int(E[2])&0x7F) |
|
elif (event == 'key_after_touch'): |
|
status = 0xA0 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>BB', int(E[1])&0x7F, int(E[2])&0x7F) |
|
elif (event == 'control_change'): |
|
status = 0xB0 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>BB', int(E[1])&0xFF, int(E[2])&0xFF) |
|
elif (event == 'patch_change'): |
|
status = 0xC0 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>B', int(E[1]) & 0xFF) |
|
elif (event == 'channel_after_touch'): |
|
status = 0xD0 | (int(E[0]) & 0x0F) |
|
parameters = struct.pack('>B', int(E[1]) & 0xFF) |
|
elif (event == 'pitch_wheel_change'): |
|
status = 0xE0 | (int(E[0]) & 0x0F) |
|
parameters = _write_14_bit(int(E[1]) + 0x2000) |
|
else: |
|
_warn("BADASS FREAKOUT ERROR 31415!") |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
data.append(_ber_compressed_int(dtime)) |
|
if (status != last_status) or no_running_status: |
|
data.append(struct.pack('>B', status)) |
|
data.append(parameters) |
|
|
|
last_status = status |
|
continue |
|
else: |
|
|
|
|
|
|
|
|
|
last_status = -1 |
|
|
|
if event == 'raw_meta_event': |
|
event_data = _some_text_event(int(E[0]), E[1]) |
|
elif (event == 'set_sequence_number'): |
|
event_data = b'\xFF\x00\x02'+_int2twobytes(E[0]) |
|
|
|
|
|
|
|
elif (event == 'text_event'): |
|
event_data = _some_text_event(0x01, E[0]) |
|
elif (event == 'copyright_text_event'): |
|
event_data = _some_text_event(0x02, E[0]) |
|
elif (event == 'track_name'): |
|
event_data = _some_text_event(0x03, E[0]) |
|
elif (event == 'instrument_name'): |
|
event_data = _some_text_event(0x04, E[0]) |
|
elif (event == 'lyric'): |
|
event_data = _some_text_event(0x05, E[0]) |
|
elif (event == 'marker'): |
|
event_data = _some_text_event(0x06, E[0]) |
|
elif (event == 'cue_point'): |
|
event_data = _some_text_event(0x07, E[0]) |
|
elif (event == 'text_event_08'): |
|
event_data = _some_text_event(0x08, E[0]) |
|
elif (event == 'text_event_09'): |
|
event_data = _some_text_event(0x09, E[0]) |
|
elif (event == 'text_event_0a'): |
|
event_data = _some_text_event(0x0A, E[0]) |
|
elif (event == 'text_event_0b'): |
|
event_data = _some_text_event(0x0B, E[0]) |
|
elif (event == 'text_event_0c'): |
|
event_data = _some_text_event(0x0C, E[0]) |
|
elif (event == 'text_event_0d'): |
|
event_data = _some_text_event(0x0D, E[0]) |
|
elif (event == 'text_event_0e'): |
|
event_data = _some_text_event(0x0E, E[0]) |
|
elif (event == 'text_event_0f'): |
|
event_data = _some_text_event(0x0F, E[0]) |
|
|
|
|
|
elif (event == 'end_track'): |
|
event_data = b"\xFF\x2F\x00" |
|
|
|
elif (event == 'set_tempo'): |
|
|
|
|
|
event_data = b'\xFF\x51\x03'+struct.pack('>I',E[0])[1:] |
|
elif (event == 'smpte_offset'): |
|
|
|
event_data = struct.pack(">BBBbBBBB", 0xFF,0x54,0x05,E[0],E[1],E[2],E[3],E[4]) |
|
elif (event == 'time_signature'): |
|
|
|
event_data = struct.pack(">BBBbBBB", 0xFF, 0x58, 0x04, E[0],E[1],E[2],E[3]) |
|
elif (event == 'key_signature'): |
|
event_data = struct.pack(">BBBbB", 0xFF, 0x59, 0x02, E[0],E[1]) |
|
elif (event == 'sequencer_specific'): |
|
|
|
event_data = _some_text_event(0x7F, E[0]) |
|
|
|
|
|
|
|
elif (event == 'sysex_f0'): |
|
|
|
|
|
event_data = bytearray(b'\xF0')+_ber_compressed_int(len(E[0]))+bytearray(E[0]) |
|
elif (event == 'sysex_f7'): |
|
|
|
event_data = bytearray(b'\xF7')+_ber_compressed_int(len(E[0]))+bytearray(E[0]) |
|
|
|
elif (event == 'song_position'): |
|
event_data = b"\xF2" + _write_14_bit( E[0] ) |
|
elif (event == 'song_select'): |
|
event_data = struct.pack('>BB', 0xF3, E[0] ) |
|
elif (event == 'tune_request'): |
|
event_data = b"\xF6" |
|
elif (event == 'raw_data'): |
|
_warn("_encode: raw_data event not supported") |
|
|
|
continue |
|
|
|
|
|
else: |
|
|
|
if unknown_callback: |
|
|
|
pass |
|
else: |
|
_warn("Unknown event: "+str(event)) |
|
|
|
|
|
continue |
|
|
|
|
|
if str(type(event_data)).find("'str'") >= 0: |
|
event_data = bytearray(event_data.encode('Latin1', 'ignore')) |
|
if len(event_data): |
|
|
|
|
|
data.append(_ber_compressed_int(dtime)+event_data) |
|
|
|
return b''.join(data) |
|
|
|
|