X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=scripts%2Fmidi2ly.py;h=fbd9596eba41bf05366e74ad89b9d973f78338fb;hb=d30df9cb27b36e66621504519aba10b464fde691;hp=b49386be113e05f0592de0132a3a9a3d5c29bcf2;hpb=69d35384f8bb79751fa9923501c6bb9e51065aad;p=lilypond.git diff --git a/scripts/midi2ly.py b/scripts/midi2ly.py index b49386be11..fbd9596eba 100644 --- a/scripts/midi2ly.py +++ b/scripts/midi2ly.py @@ -10,98 +10,354 @@ ''' TODO: - - * fix duration bug for lily input: a4*3/5 - * handle all notes off - * recognise (note-on, volume = 0) as note-off - * don't ever quant skips - * handle lyrics and other text events - + * test on weird and unquantised midi input (lily-devel) + * drop c++ midi2ly + * update doc and manpage + + * simply insert clef changes whenever too many ledger lines + [to avoid tex capacity exceeded] + * do not ever quant skips + * better lyrics handling + * [see if it is feasible to] move ly-classes to library for use in + other converters, while leaving midi specific stuff here ''' +import os +import sys import getopt -import __main__ import sys import string -sys.path.append ('@datadir@/python') -sys.path.append ('@datadir@/buildscripts/out') -sys.path.append ('@datadir@/modules/out') + +# do fuddling: we must load the midi module from the right directory. +datadir = '@datadir@' +if os.environ.has_key ('LILYPONDPREFIX'): + datadir = os.environ['LILYPONDPREFIX'] +else: + datadir = '@datadir@' + +sys.path.append (os.path.join (datadir, 'python')) +sys.path.append (os.path.join (datadir, 'python/out')) import midi +################################################################ +################ CONSTANTS + + +output_name = '' +LINE_BELL = 60 +scale_steps = [0,2,4,5,7,9,11] + +clocks_per_1 = 1536 +clocks_per_4 = 0 +key = 0 +time = 0 +reference_note = 0 +start_quant = 0 +start_quant_clocks = 0 +duration_quant = 0 +duration_quant_clocks = 0 +allowed_tuplets = [] +allowed_tuplet_clocks = [] +absolute_p = 0 +explicit_durations_p = 0 +text_lyrics_p = 0 + + + +################################################################ + +localedir = '@localedir@' try: import gettext - gettext.bindtextdomain ('lilypond', '@localedir@') + gettext.bindtextdomain ('lilypond', localedir) gettext.textdomain ('lilypond') _ = gettext.gettext except: def _ (s): return s -# Attempt to fix problems with limited stack size set by Python! -# Sets unlimited stack size. Note that the resource module only -# is available on UNIX. -try: - import resource - resource.setrlimit (resource.RLIMIT_STACK, (-1, -1)) -except: - pass +program_name = 'midi2ly' +program_version = '@TOPLEVEL_VERSION@' + +errorport = sys.stderr +verbose_p = 0 + +# temp_dir = os.path.join (original_dir, '%s.dir' % program_name) +# original_dir = os.getcwd () +# keep_temp_dir_p = 0 + -program_name = 'midi2ly [experimental]' -package_name = 'lilypond' help_summary = _ ("Convert MIDI to LilyPond source") option_definitions = [ - ('', 'h', 'help', _ ("this help")), + ('', 'a', 'absolute-pitches', _ ("print absolute pitches")), (_ ("DUR"), 'd', 'duration-quant', _ ("quantise note durations on DUR")), - (_ ("ACC[:MINOR]"), 'k', 'key', _ ("set key: ACC=+sharps|-flats; MINOR=1")), + ('', 'e', 'explicit-durations', _ ("print explicit durations")), + ('', 'h', 'help', _ ("this help")), + (_ ("ALT[:MINOR]"), 'k', 'key', _ ("set key: ALT=+sharps|-flats; MINOR=1")), (_ ("FILE"), 'o', 'output', _ ("write ouput to FILE")), (_ ("DUR"), 's', 'start-quant', _ ("quantise note starts on DUR")), (_ ("DUR*NUM/DEN"), 't', 'allow-tuplet', _ ("allow tuplet durations DUR*NUM/DEN")), + ('', 'V', 'verbose', _ ("verbose")), ('', 'v', 'version', _ ("print version number")), ('', 'w', 'warranty', _ ("show warranty and copyright")), + ('', 'x', 'text-lyrics', _ ("treat every text as a lyric")), ] -from lilylib import * +################################################################ +# lilylib.py -- options and stuff +# +# source file of the GNU LilyPond music typesetter + +import os + +try: + import gettext + gettext.bindtextdomain ('lilypond', localedir) + gettext.textdomain ('lilypond') + _ = gettext.gettext +except: + def _ (s): + return s + +if program_version == '@' + 'TOPLEVEL_VERSION' + '@': + program_version = '1.5.17' + +def identify (): + sys.stdout.write ('%s (GNU LilyPond) %s\n' % (program_name, program_version)) + +def warranty (): + identify () + sys.stdout.write ('\n') + sys.stdout.write (_ ('Copyright (c) %s by' % ' 2001--2002')) + sys.stdout.write ('\n') + sys.stdout.write (' Han-Wen Nienhuys') + sys.stdout.write (' Jan Nieuwenhuizen') + sys.stdout.write ('\n') + sys.stdout.write (_ (r''' +Distributed under terms of the GNU General Public License. It comes with +NO WARRANTY.''')) + sys.stdout.write ('\n') + +def progress (s): + errorport.write (s + '\n') + +def warning (s): + progress (_ ("warning: ") + s) + +def error (s): + + + '''Report the error S. Exit by raising an exception. Please + do not abuse by trying to catch this error. If you do not want + a stack trace, write to the output directly. + + RETURN VALUE + + None + + ''' + + progress (_ ("error: ") + s) + raise _ ("Exiting ... ") + +def getopt_args (opts): + '''Construct arguments (LONG, SHORT) for getopt from list of options.''' + short = '' + long = [] + for o in opts: + if o[1]: + short = short + o[1] + if o[0]: + short = short + ':' + if o[2]: + l = o[2] + if o[0]: + l = l + '=' + long.append (l) + return (short, long) + +def option_help_str (o): + '''Transform one option description (4-tuple ) into neatly formatted string''' + sh = ' ' + if o[1]: + sh = '-%s' % o[1] + + sep = ' ' + if o[1] and o[2]: + sep = ',' + + long = '' + if o[2]: + long= '--%s' % o[2] + + arg = '' + if o[0]: + if o[2]: + arg = '=' + arg = arg + o[0] + return ' ' + sh + sep + long + arg + + +def options_help_str (opts): + '''Convert a list of options into a neatly formatted string''' + w = 0 + strs =[] + helps = [] + + for o in opts: + s = option_help_str (o) + strs.append ((s, o[3])) + if len (s) > w: + w = len (s) + + str = '' + for s in strs: + str = str + '%s%s%s\n' % (s[0], ' ' * (w - len(s[0]) + 3), s[1]) + return str + +def help (): + ls = [(_ ("Usage: %s [OPTION]... FILE") % program_name), + ('\n\n'), + (help_summary), + ('\n\n'), + (_ ("Options:")), + ('\n'), + (options_help_str (option_definitions)), + ('\n\n'), + (_ ("Report bugs to %s") % 'bug-lilypond@gnu.org'), + ('\n')] + map (sys.stdout.write, ls) + +def setup_temp (): + """ + Create a temporary directory, and return its name. + """ + global temp_dir + if not keep_temp_dir_p: + temp_dir = tempfile.mktemp (program_name) + try: + os.mkdir (temp_dir, 0777) + except OSError: + pass + + return temp_dir + + +def system (cmd, ignore_error = 0): + """Run CMD. If IGNORE_ERROR is set, don't complain when CMD returns non zero. + + RETURN VALUE + + Exit status of CMD + """ + + if verbose_p: + progress (_ ("Invoking `%s\'") % cmd) + st = os.system (cmd) + if st: + name = re.match ('[ \t]*([^ \t]*)', cmd).group (1) + msg = name + ': ' + _ ("command exited with value %d") % st + if ignore_error: + warning (msg + ' ' + _ ("(ignored)") + ' ') + else: + error (msg) + + return st + + +def cleanup_temp (): + if not keep_temp_dir_p: + if verbose_p: + progress (_ ("Cleaning %s...") % temp_dir) + shutil.rmtree (temp_dir) + +def strip_extension (f, ext): + (p, e) = os.path.splitext (f) + if e == ext: + e = '' + return p + e +################################################################ +# END Library +################################################################ + + + +class Duration: + allowed_durs = (1, 2, 4, 8, 16, 32, 64, 128) + def __init__ (self, clocks): + self.clocks = clocks + if clocks <= 0: + self.clocks = duration_quant_clocks + (self.dur, self.num, self.den) = self.dur_num_den (clocks) + + def dur_num_den (self, clocks): + for i in range (len (allowed_tuplet_clocks)): + if clocks == allowed_tuplet_clocks[i]: + return allowed_tuplets[i] + + dur = 0; num = 1; den = 1; + g = gcd (clocks, clocks_per_1) + if g: + (dur, num) = (clocks_per_1 / g, clocks / g) + if not dur in self.allowed_durs: + dur = 4; num = clocks; den = clocks_per_4 + return (dur, num, den) + + def dump (self): + if self.den == 1: + if self.num == 1: + s = '%d' % self.dur + elif self.num == 3 and self.dur != 1: + s = '%d.' % (self.dur / 2) + else: + s = '%d*%d' % (self.dur, self.num) + else: + s = '%d*%d/%d' % (self.dur, self.num, self.den) + + global reference_note + reference_note.duration = self + + return s + + def compare (self, other): + return self.clocks - other.clocks + +def sign (x): + if x >= 0: + return 1 + else: + return -1 class Note: names = (0, 0, 1, 1, 2, 3, 3, 4, 4, 5, 5, 6) - accidentals = (0, 1, 0, 1, 0, 0, 1, 0, 1, 0, 1, 0) - acc_name = ('eses', 'es', 'BUG', 'is' , 'isis') + alterations = (0, 1, 0, 1, 0, 0, 1, 0, 1, 0, 1, 0) + alteration_names = ('eses', 'es', '', 'is' , 'isis') def __init__ (self, clocks, pitch, velocity): - self.velocity = velocity self.pitch = pitch + self.velocity = velocity + # hmm self.clocks = clocks + self.duration = Duration (clocks) + (self.octave, self.notename, self.alteration) = self.o_n_a () - def clocks_compare (a, b): - if a.clocks < b.clocks: - return -1 - elif a.clocks > b.clocks: - return 1 - else: - return 0 - - def dump (self): + def o_n_a (self): # major scale: do-do # minor scale: la-la (= + 5) ''' n = self.names[(self.pitch) % 12] - a = self.accidentals[(self.pitch) % 12] + a = self.alterations[(self.pitch) % 12] if a and key.flats: - a = - self.accidentals[(self.pitch) % 12] + a = - self.alterations[(self.pitch) % 12] n = (n - a) % 7 - name = chr ((n + 2) % 7 + ord ('a')) - - if a: - name = name + self.acc_name[a + 2] - # By tradition, all scales now consist of a sequence # of 7 notes each with a distinct name, from amongst # a b c d e f g. But, minor scales have a wide @@ -131,39 +387,71 @@ class Note: o = self.pitch / 12 - 4 if key.minor: - if key.sharps == 0 and key.flats == 0 and name == 'as': - name = 'gis' - elif key.flats == 1 and name == 'des': - name = 'cis' - elif key.flats == 2 and name == 'ges': - name = 'fis' - elif key.sharps == 5 and name == 'g': - name = 'fisis' - elif key.sharps == 6 and name == 'd': - name = 'cisis' - elif key.sharps == 7 and name == 'a': - name = 'gisis' - - if key.flats >= 6 and name == 'b': - name = 'ces' - o = o + 1 - if key.flats >= 7 and name == 'e': - name = 'fes' - - if key.sharps >= 3 and name == 'f': - name = 'eis' - if key.sharps >= 4 and name == 'c': - name = 'bis' - o = o - 1 - - s = name + # as -> gis + if key.sharps == 0 and key.flats == 0 \ + and n == 5 and a == -1: + n = 4; a = 1 + # des -> cis + elif key.flats == 1 and n == 1 and a == -1: + n = 0; a = 1 + # ges -> fis + elif key.flats == 2 and n == 4 and a == -1: + n = 3; a = 1 + # g -> fisis + elif key.sharps == 5 and n == 4 and a == 0: + n = 3; a = 2 + # d -> cisis + elif key.sharps == 6 and n == 1 and a == 0: + n = 0; a = 2 + # a -> gisis + elif key.sharps == 7 and n == 5 and a == 0: + n = 4; a = 2 + + # b -> ces + if key.flats >= 6 and n == 6 and a == 0: + n = 0; a = -1; o = o + 1 + # e -> fes + if key.flats >= 7 and n == 2 and a == 0: + n = 3; a = -1 + + # f -> eis + if key.sharps >= 3 and n == 3 and a == 0: + n = 2; a = 1 + # c -> bis + if key.sharps >= 4 and n == 0 and a == 0: + n = 6; a = 1; o = o - 1 + + return (o, n, a) - if o > 0: - s = s + "'" * o - elif o < 0: - s = s + "," * -o + def dump (self): + s = chr ((self.notename + 2) % 7 + ord ('a')) + s = s + self.alteration_names[self.alteration + 2] + if absolute_p: + commas = self.octave + else: + delta = self.pitch - reference_note.pitch + commas = sign (delta) * (abs (delta) / 12) + if ((sign (delta) \ + * (self.notename - reference_note.notename) + 7) \ + % 7 >= 4) \ + or ((self.notename == reference_note.notename) \ + and (abs (delta) > 4) and (abs (delta) < 12)): + commas = commas + sign (delta) + + if commas > 0: + s = s + "'" * commas + elif commas < 0: + s = s + "," * -commas - return s + dump_duration (self.clocks) + ' ' + if explicit_durations_p \ + or Duration.compare (self.duration, reference_note.duration): + s = s + self.duration.dump () + + global reference_note + reference_note = self + + # TODO: move space + return s + ' ' class Time: @@ -172,7 +460,12 @@ class Time: self.num = num self.den = den + def bar_clocks (self): + return clocks_per_1 * self.num / self.den + def dump (self): + global time + time = self return '\n ' + '\\time %d/%d ' % (self.num, self.den) + '\n ' class Tempo: @@ -181,9 +474,16 @@ class Tempo: self.seconds_per_1 = seconds_per_1 def dump (self): - # return '\n ' + '\\tempo 1 = %d ' % (60 / self.seconds_per_1) + '\n ' return '\n ' + '\\tempo 4 = %d ' % (4 * 60 / self.seconds_per_1) + '\n ' +class Clef: + clefs = ('"bass_8"', 'bass', 'violin', '"violin^8"') + def __init__ (self, type): + self.type = type + + def dump (self): + return '\n \\clef %s\n ' % self.clefs[self.type] + class Key: key_sharps = ('c', 'g', 'd', 'a', 'e', 'b', 'fis') key_flats = ('BUG', 'f', 'bes', 'es', 'as', 'des', 'ges') @@ -226,7 +526,7 @@ class Key: a = 1 if a: - name = name + Note.acc_name[a + 2] + name = name + Note.alteration_names[a + 2] s = '\\key ' + name if self.minor: @@ -237,7 +537,6 @@ class Key: return '\n\n ' + s + '\n ' -# TODO: really handle lyrics class Text: text_types = ( 'SEQUENCE_NUMBER', @@ -255,21 +554,19 @@ class Text: self.text = text def dump (self): - return '\n % [' + self.text_types[self.type] + '] ' + self.text + '\n ' - - -output_name = '' -LINE_BELL = 60 -scale_steps = [0,2,4,5,7,9,11] + # urg, we should be sure that we're in a lyrics staff + if self.type == midi.LYRIC: + s = '"%s"' % self.text + d = Duration (self.clocks) + if explicit_durations_p \ + or Duration.compare (d, + reference_note.duration): + s = s + Duration (self.clocks).dump () + s = s + ' ' + else: + s = '\n % [' + self.text_types[self.type] + '] ' + self.text + '\n ' + return s -clocks_per_1 = 1536 -key = 0 -start_quant = 0 -start_quant_clocks = 0 -duration_quant = 0 -duration_quant_clocks = 0 -allowed_tuplets = [] -allowed_tuplet_clocks = [] def split_track (track): chs = {} @@ -308,11 +605,36 @@ def quantise_clocks (clocks, quant): q = q + quant return q +def end_note (pitches, notes, t, e): + try: + (lt, vel) = pitches[e] + del pitches[e] + + i = len (notes) - 1 + while i > 0: + if notes[i][0] > lt: + i = i -1 + else: + break + d = t - lt + if duration_quant_clocks: + d = quantise_clocks (d, duration_quant_clocks) + if not d: + d = duration_quant_clocks + + notes.insert (i + 1, + (lt, Note (d, e, vel))) + + except KeyError: + pass + def events_on_channel (channel): pitches = {} notes = [] events = [] + last_lyric = 0 + last_time = 0 for e in channel: t = e[0] @@ -320,33 +642,27 @@ def events_on_channel (channel): t = quantise_clocks (t, start_quant_clocks) - if e[1][0] == midi.NOTE_ON: + if e[1][0] == midi.NOTE_OFF \ + or (e[1][0] == midi.NOTE_ON and e[1][2] == 0): + end_note (pitches, notes, t, e[1][1]) + + elif e[1][0] == midi.NOTE_ON: if not pitches.has_key (e[1][1]): pitches[e[1][1]] = (t, e[1][2]) - elif e[1][0] == midi.NOTE_OFF: - try: - (lt, vel) = pitches[e[1][1]] - del pitches[e[1][1]] - - i = len (notes) - 1 - while i > 0: - if notes[i][0] > lt: - i = i -1 - else: - break - d = t - lt - if duration_quant_clocks: - d = quantise_clocks (d, duration_quant_clocks) - if not d: - d = duration_quant_clocks - - notes.insert (i + 1, - (lt, Note (d, e[1][1], vel))) - - except KeyError: - pass + + # all include ALL_NOTES_OFF + elif e[1][0] >= midi.ALL_SOUND_OFF \ + and e[1][0] <= midi.POLY_MODE_ON: + for i in pitches.keys (): + end_note (pitches, notes, t, i) + elif e[1][0] == midi.META_EVENT: - if e[1][1] == midi.SET_TEMPO: + if e[1][1] == midi.END_OF_TRACK: + for i in pitches.keys (): + end_note (pitches, notes, t, i) + break + + elif e[1][1] == midi.SET_TEMPO: (u0, u1, u2) = map (ord, e[1][2]) us_per_4 = u2 + 256 * (u1 + 256 * u0) seconds_per_1 = us_per_4 * 4 / 1e6 @@ -356,24 +672,50 @@ def events_on_channel (channel): den = 2 ** dur events.append ((t, Time (num, den))) elif e[1][1] == midi.KEY_SIGNATURE: - (accidentals, minor) = map (ord, e[1][2]) + (alterations, minor) = map (ord, e[1][2]) sharps = 0 flats = 0 - if accidentals < 127: - sharps = accidentals + if alterations < 127: + sharps = alterations else: - flats = 256 - accidentals - - events.append ((t, Key (sharps, flats, minor))) - elif e[1][1] >= midi.SEQUENCE_NUMBER and e[1][1] <= midi.CUE_POINT: + flats = 256 - alterations + + k = Key (sharps, flats, minor) + events.append ((t, k)) + + # ugh, must set key while parsing + # because Note init uses key + # Better do Note.calc () at dump time? + global key + key = k + + elif e[1][1] == midi.LYRIC \ + or (text_lyrics_p and e[1][1] == midi.TEXT_EVENT): + if last_lyric: + last_lyric.clocks = t - last_time + events.append ((last_time, last_lyric)) + last_time = t + last_lyric = Text (midi.LYRIC, e[1][2]) + + elif e[1][1] >= midi.SEQUENCE_NUMBER \ + and e[1][1] <= midi.CUE_POINT: events.append ((t, Text (e[1][1], e[1][2]))) else: - sys.stderr.write ("SKIP: %s\n" % `e`) + if verbose_p: + sys.stderr.write ("SKIP: %s\n" % `e`) pass else: - sys.stderr.write ("SKIP: %s\n" % `e`) + if verbose_p: + sys.stderr.write ("SKIP: %s\n" % `e`) pass + if last_lyric: + # last_lyric.clocks = t - last_time + # hmm + last_lyric.clocks = clocks_per_4 + events.append ((last_time, last_lyric)) + last_lyric = 0 + i = 0 while len (notes): if i < len (events) and notes[0][0] >= events[i][0]: @@ -392,12 +734,17 @@ def unthread_notes (channel): todo = [] for e in channel: t = e[0] - if e[1].__class__ == Note and ((t == start_busy_t and e[1].clocks + t == end_busy_t) \ + if e[1].__class__ == Note \ + and ((t == start_busy_t \ + and e[1].clocks + t == end_busy_t) \ or t >= end_busy_t): thread.append (e) start_busy_t = t end_busy_t = t + e[1].clocks - elif e[1].__class__ == Time or e[1].__class__ == Key or e[1].__class__ == Text or e[1].__class__ == Tempo: + elif e[1].__class__ == Time \ + or e[1].__class__ == Key \ + or e[1].__class__ == Text \ + or e[1].__class__ == Tempo: thread.append (e) else: todo.append (e) @@ -416,29 +763,9 @@ def gcd (a,b): b = c return a -def dump_skip (clocks): - return 's' + dump_duration (clocks) + ' ' - -def dump_duration (clocks): - for i in range (len (allowed_tuplet_clocks)): - if clocks == allowed_tuplet_clocks[i]: - (dur, num, den) = allowed_tuplets[i] - s = '%d*%d/%d' % (dur, num, den) - return s - - g = gcd (clocks, clocks_per_1) - if g: - (d, n) = (clocks_per_1 / g, clocks / g) - if n == 1: - s = '%d' % d - elif n == 3 and d != 1: - s = '%d.' % (d / 2) - else: - s = '%d*%d' % (d, n) - else: - s = '1*%d/%d' % (clocks, clocks_per_1) - return s - +def dump_skip (skip, clocks): + return skip + Duration (clocks).dump () + ' ' + def dump (self): return self.dump () @@ -453,14 +780,41 @@ def dump_chord (ch): if len (notes) == 1: s = s + dump (notes[0]) elif len (notes) > 1: - s = s + '<' + string.join (map (dump, notes)) + '>' + global reference_note + s = s + '<' + s = s + notes[0].dump () + r = reference_note + for i in notes[1:]: + s = s + i.dump () + s = s + '>' + reference_note = r return s -# thread? -def dump_channel (thread): - global key +def dump_bar_line (last_bar_t, t, bar_count): + s = '' + bar_t = time.bar_clocks () + if t - last_bar_t >= bar_t: + bar_count = bar_count + (t - last_bar_t) / bar_t + + if t - last_bar_t == bar_t: + s = '|\n %% %d\n ' % bar_count + last_bar_t = t + else: + # urg, this will barf at meter changes + last_bar_t = last_bar_t + (t - last_bar_t) / bar_t * bar_t + + return (s, last_bar_t, bar_count) + + +def dump_channel (thread, skip): + global key, reference_note, time key = Key (0, 0, 0) + time = Time (4, 4) + # urg LilyPond doesn't start at c4, but + # remembers from previous tracks! + # reference_note = Note (clocks_per_4, 4*12, 0) + reference_note = Note (0, 4*12, 0) last_e = None chs = [] ch = [] @@ -480,17 +834,26 @@ def dump_channel (thread): chs.append ((last_e[0], ch)) t = 0 last_t = 0 - + last_bar_t = 0 + bar_count = 1 + lines = [''] - for ch in chs: - i = string.rfind (lines[-1], '\n') + for ch in chs: + t = ch[0] + + i = string.rfind (lines[-1], '\n') + 1 if len (lines[-1][i:]) > LINE_BELL: lines.append ('') - t = ch[0] - if t - last_t: - lines[-1] = lines[-1] + dump_skip (t-last_t) - + if t - last_t > 0: + lines[-1] = lines[-1] + dump_skip (skip, t-last_t) + elif t - last_t < 0: + errorport.write ('BUG: time skew') + + (s, last_bar_t, bar_count) = dump_bar_line (last_bar_t, + t, bar_count) + lines[-1] = lines[-1] + s + lines[-1] = lines[-1] + dump_chord (ch[1]) clocks = 0 @@ -499,6 +862,10 @@ def dump_channel (thread): clocks = i.clocks last_t = t + clocks + + (s, last_bar_t, bar_count) = dump_bar_line (last_bar_t, + last_t, bar_count) + lines[-1] = lines[-1] + s return string.join (lines, '\n ') + '\n' @@ -511,28 +878,86 @@ def channel_name (i): def dump_track (channels, n): s = '\n' track = track_name (n) + clef = guess_clef (channels) + for i in range (len (channels)): channel = channel_name (i) - s = s + '%s = \\notes {\n' % (track + channel) - s = s + ' ' + dump_channel (channels[i][0]) + item = thread_first_item (channels[i]) + + if item and item.__class__ == Note: + skip = 's' + s = s + '%s = \\notes' % (track + channel) + if not absolute_p: + s = s + '\\relative c ' + elif item and item.__class__ == Text: + skip = '" "' + s = s + '%s = \\lyrics ' % (track + channel) + else: + skip = '\\skip ' + # must be in \notes mode for parsing \skip + s = s + '%s = \\notes ' % (track + channel) + s = s + '{\n' + s = s + ' ' + dump_channel (channels[i][0], skip) s = s + '}\n\n' s = s + '%s = <\n' % track + if clef.type != 2: + s = s + clef.dump () + '\n' + for i in range (len (channels)): channel = channel_name (i) - s = s + ' \\context Voice = %s \\%s\n' % (channel, track + channel) + item = thread_first_item (channels[i]) + if item and item.__class__ == Text: + s = s + ' \\context Lyrics = %s \\%s\n' % (channel, + track + channel) + else: + s = s + ' \\context Voice = %s \\%s\n' % (channel, + track + channel) s = s + '>\n\n' return s - + +def thread_first_item (thread): + for chord in thread: + for event in chord: + if event[1].__class__ == Note \ + or (event[1].__class__ == Text \ + and event[1].type == midi.LYRIC): + return event[1] + return 0 + +def track_first_item (track): + for thread in track: + return thread_first_item (thread) + +def guess_clef (track): + i = 0 + p = 0 + for thread in track: + for chord in thread: + for event in chord: + if event[1].__class__ == Note: + i = i + 1 + p = p + event[1].pitch + if i and p / i <= 3*12: + return Clef (0) + elif i and p / i <= 5*12: + return Clef (1) + elif i and p / i >= 7*12: + return Clef (3) + else: + return Clef (2) + + def convert_midi (f, o): - global clocks_per_1 + global clocks_per_1, clocks_per_4, key str = open (f).read () midi_dump = midi.parse (str) clocks_per_1 = midi_dump[0][1] - + clocks_per_4 = clocks_per_1 / 4 + global start_quant, start_quant_clocks if start_quant: start_quant_clocks = clocks_per_1 / start_quant @@ -548,6 +973,7 @@ def convert_midi (f, o): tracks = [] for t in midi_dump[1]: + key = Key (0, 0, 0) tracks.append (split_track (t)) tag = '%% Lily was here -- automatically converted by %s from %s' % ( program_name, f) @@ -560,7 +986,11 @@ def convert_midi (f, o): s = s + '\n\\score {\n <\n' for i in range (len (tracks)): track = track_name (i) - s = s + ' \\context Staff=%s \\%s\n' % (track, track) + item = track_first_item (tracks[i]) + if item and item.__class__ == Note: + s = s + ' \\context Staff=%s \\%s\n' % (track, track) + elif item and item.__class__ == Text: + s = s + ' \\context Lyrics=%s \\%s\n' % (track, track) s = s + ' >\n}\n' progress (_ ("%s output to `%s'...") % ('LY', o)) @@ -574,7 +1004,7 @@ def convert_midi (f, o): h.close () -(sh, long) = getopt_args (__main__.option_definitions) +(sh, long) = getopt_args (option_definitions) try: (options, files) = getopt.getopt(sys.argv[1:], sh, long) except getopt.error, s: @@ -612,27 +1042,36 @@ for opt in options: if status: warranty () sys.exit (0) + + + elif o == '--absolute-pitches' or o == '-a': + global absolute_p + absolute_p = 1 + elif o == '--duration-quant' or o == '-d': + global duration_quant + duration_quant = string.atoi (a) + elif o == '--explicit-durations' or o == '-e': + global explicit_durations_p + explicit_durations_p = 1 elif o == '--key' or o == '-k': - (accidentals, minor) = map (string.atoi, string.split (a + ':0', ':'))[0:2] + (alterations, minor) = map (string.atoi, string.split (a + ':0', ':'))[0:2] sharps = 0 flats = 0 - if accidentals >= 0: - sharps = accidentals + if alterations >= 0: + sharps = alterations else: - flats = - accidentals + flats = - alterations global key key = Key (sharps, flats, minor) - elif o == '--duration-quant' or o == '-d': - global duration_quant - duration_quant = string.atoi (a) elif o == '--start-quant' or o == '-s': - global start_quant, start_quant_clocks start_quant = string.atoi (a) elif o == '--allow-tuplet' or o == '-t': - global allowed_tuplets a = string.replace (a, '/', '*') tuplet = map (string.atoi, string.split (a, '*')) allowed_tuplets.append (tuplet) + # lots of midi files use plain text for lyric events + elif o == '--text-lyrics' or o == '-x': + text_lyrics_p = 1 if not files or files[0] == '-': @@ -663,8 +1102,11 @@ for f in files: o = output_name (outdir, outbase) = os.path.split (o) - if outdir != '.': - mkdir_p (outdir, 0777) + if outdir != '.' and outdir != '': + try: + os.mkdir (outdir, 0777) + except OSError: + pass convert_midi (f, o)