'(-0.1 . 0.1) '(0.1 . 1)))
0.7 X))))""",
"eyeglasses": """eyeglassesps = #"0.15 setlinewidth
-% 255 0 0 setrgbcolor
--0.9 0 translate
-1.1 1.1 scale
-1.2 0.7 moveto
-0.7 0.7 0.5 0 361 arc
-stroke
-2.20 0.70 0.50 0 361 arc
-stroke
-1.45 0.85 0.30 0 180 arc
-stroke
-0.20 0.70 moveto
-0.80 2.00 lineto
-0.92 2.26 1.30 2.40 1.15 1.70 curveto
-stroke
-2.70 0.70 moveto
-3.30 2.00 lineto
-3.42 2.26 3.80 2.40 3.65 1.70 curveto
-stroke"
+ -0.9 0 translate
+ 1.1 1.1 scale
+ 1.2 0.7 moveto
+ 0.7 0.7 0.5 0 361 arc
+ stroke
+ 2.20 0.70 0.50 0 361 arc
+ stroke
+ 1.45 0.85 0.30 0 180 arc
+ stroke
+ 0.20 0.70 moveto
+ 0.80 2.00 lineto
+ 0.92 2.26 1.30 2.40 1.15 1.70 curveto
+ stroke
+ 2.70 0.70 moveto
+ 3.30 2.00 lineto
+ 3.42 2.26 3.80 2.40 3.65 1.70 curveto
+ stroke"
eyeglasses = \markup { \with-dimensions #'(0 . 4.4) #'(0 . 2.5) \postscript #eyeglassesps }"""
}
def extract_score_structure (part_list, staffinfo):
+ score = musicexp.Score ()
structure = musicexp.StaffGroup (None)
+ score.set_contents (structure)
+
if not part_list:
return structure
return staves[0]
for i in staves:
structure.append_staff (i)
- return structure
+ return score
def musicxml_duration_to_lily (mxl_note):
#"delayed-turn": "?",
"detached-legato": (musicexp.ShortArticulationEvent, "_"), # or "portato"
"doit": musicxml_doit_to_lily_event,
- #"double-tongue": "",
+ #"double-tongue": "?",
"down-bow": "downbow",
"falloff": musicxml_falloff_to_lily_event,
"fingering": musicxml_fingering_event,
- #"fingernails": "",
- #"fret": "",
- #"hammer-on": "",
+ #"fingernails": "?",
+ #"fret": "?",
+ #"hammer-on": "?",
"harmonic": "flageolet",
- #"heel": "",
+ #"heel": "?",
"inverted-mordent": "prall",
"inverted-turn": "reverseturn",
"mordent": "mordent",
"open-string": "open",
- #"plop": "",
- #"pluck": "",
- #"pull-off": "",
+ #"plop": "?",
+ #"pluck": "?",
+ #"pull-off": "?",
#"schleifer": "?",
- #"scoop": "",
+ #"scoop": "?",
#"shake": "?",
"snap-pizzicato": musicxml_snappizzicato_event,
- #"spiccato": "",
+ #"spiccato": "?",
"staccatissimo": (musicexp.ShortArticulationEvent, "|"), # or "staccatissimo"
"staccato": (musicexp.ShortArticulationEvent, "."), # or "staccato"
"stopped": (musicexp.ShortArticulationEvent, "+"), # or "stopped"
- #"stress": "",
+ #"stress": "?",
"string": musicxml_string_event,
"strong-accent": (musicexp.ShortArticulationEvent, "^"), # or "marcato"
- #"tap": "",
+ #"tap": "?",
"tenuto": (musicexp.ShortArticulationEvent, "-"), # or "tenuto"
"thumb-position": "thumb",
- #"toe": "",
+ #"toe": "?",
"turn": "turn",
"tremolo": musicxml_tremolo_to_lily_event,
"trill-mark": "trill",
- #"triple-tongue": "",
- #"unstress": ""
+ #"triple-tongue": "?",
+ #"unstress": "?"
"up-bow": "upbow",
#"wavy-line": "?",
}
"medium": '',
"large": '\\large',
"x-large": '\\huge',
- "xx-large": '\\bigger\\huge'
+ "xx-large": '\\larger\\huge'
}.get (size, '')
if font_size:
event.markup += font_size
ev = musicexp.MarkEvent ("\\markup { %s }" % text)
return ev
+def musicxml_harp_pedals_to_ly (mxl_event):
+ count = 0
+ result = "\\harp-pedal #\""
+ for t in mxl_event.get_named_children ('pedal-tuning'):
+ alter = t.get_named_child ('pedal-alter')
+ if alter:
+ val = int (alter.get_text ().strip ())
+ result += {1: "v", 0: "-", -1: "^"}.get (val, "")
+ count += 1
+ if count == 3:
+ result += "|"
+ ev = musicexp.MarkupEvent ()
+ ev.contents = result + "\""
+ return ev
+
def musicxml_eyeglasses_to_ly (mxl_event):
needed_additional_definitions.append ("eyeglasses")
return musicexp.MarkEvent ("\\eyeglasses")
+def next_non_hash_index (lst, pos):
+ pos += 1
+ while pos < len (lst) and isinstance (lst[pos], musicxml.Hash_text):
+ pos += 1
+ return pos
+
+def musicxml_metronome_to_ly (mxl_event):
+ children = mxl_event.get_all_children ()
+ if not children:
+ return
+
+ index = -1
+ index = next_non_hash_index (children, index)
+ if isinstance (children[index], musicxml.BeatUnit):
+ # first form of metronome-mark, using unit and beats/min or other unit
+ ev = musicexp.TempoMark ()
+ if hasattr (mxl_event, 'parentheses'):
+ ev.set_parentheses (mxl_event.parentheses == "yes")
+
+ d = musicexp.Duration ()
+ d.duration_log = musicxml.musicxml_duration_to_log (children[index].get_text ())
+ index = next_non_hash_index (children, index)
+ if isinstance (children[index], musicxml.BeatUnitDot):
+ d.dots = 1
+ index = next_non_hash_index (children, index)
+ ev.set_base_duration (d)
+ if isinstance (children[index], musicxml.BeatUnit):
+ # Form "note = newnote"
+ newd = musicexp.Duration ()
+ newd.duration_log = musicxml.musicxml_duration_to_log (children[index].get_text ())
+ index = next_non_hash_index (children, index)
+ if isinstance (children[index], musicxml.BeatUnitDot):
+ newd.dots = 1
+ index = next_non_hash_index (children, index)
+ ev.set_new_duration (newd)
+ elif isinstance (children[index], musicxml.PerMinute):
+ # Form "note = bpm"
+ try:
+ beats = int (children[index].get_text ())
+ ev.set_beats_per_minute (beats)
+ except ValueError:
+ pass
+ else:
+ error_message (_ ("Unknown metronome mark, ignoring"))
+ return
+ return ev
+ else:
+ #TODO: Implement the other (more complex) way for tempo marks!
+ error_message (_ ("Metronome marks with complex relations (<metronome-note> in MusicXML) are not yet implemented."))
+ return
+
# translate directions into Events, possible values:
# -) string (MarkEvent with that command)
# -) function (function(mxl_event) needs to return a full Event-derived object
# 'damp' : ???
# 'damp-all' : ???
'eyeglasses': musicxml_eyeglasses_to_ly,
-# 'harp-pedals' :
-# 'image' :
-# 'metronome' :
+ 'harp-pedals' : musicxml_harp_pedals_to_ly,
+# 'image' : ???
+ 'metronome' : musicxml_metronome_to_ly,
'rehearsal' : musicxml_rehearsal_to_ly_mark,
-# 'scordatura' :
+# 'scordatura' : ???
'segno' : (musicexp.MusicGlyphMarkEvent, "segno"),
'words' : musicxml_words_to_lily_event,
}
ev = musicxml_frame_to_lily_event (f)
if ev:
res.append (ev)
+ return res
+
+
+def musicxml_chordpitch_to_lily (mxl_cpitch):
+ r = musicexp.ChordPitch ()
+ r.alteration = mxl_cpitch.get_alteration ()
+ r.step = musicxml_step_to_lily (mxl_cpitch.get_step ())
+ return r
+
+chordkind_dict = {
+ 'major': '5',
+ 'minor': 'm5',
+ 'augmented': 'aug5',
+ 'diminished': 'dim5',
+ # Sevenths:
+ 'dominant': '7',
+ 'major-seventh': 'maj7',
+ 'minor-seventh': 'm7',
+ 'diminished-seventh': 'dim7',
+ 'augmented-seventh': 'aug7',
+ 'half-diminished': 'dim5m7',
+ 'major-minor': 'maj7m5',
+ # Sixths:
+ 'major-sixth': '6',
+ 'minor-sixth': 'm6',
+ # Ninths:
+ 'dominant-ninth': '9',
+ 'major-ninth': 'maj9',
+ 'minor-ninth': 'm9',
+ # 11ths (usually as the basis for alteration):
+ 'dominant-11th': '11',
+ 'major-11th': 'maj11',
+ 'minor-11th': 'm11',
+ # 13ths (usually as the basis for alteration):
+ 'dominant-13th': '13.11',
+ 'major-13th': 'maj13.11',
+ 'minor-13th': 'm13',
+ # Suspended:
+ 'suspended-second': 'sus2',
+ 'suspended-fourth': 'sus4',
+ # Functional sixths:
+ # TODO
+ #'Neapolitan': '???',
+ #'Italian': '???',
+ #'French': '???',
+ #'German': '???',
+ # Other:
+ #'pedal': '???',(pedal-point bass)
+ 'power': '5^3',
+ #'Tristan': '???',
+ 'other': '1',
+ 'none': None,
+}
+
+def musicxml_chordkind_to_lily (kind):
+ res = chordkind_dict.get (kind, None)
+ # Check for None, since a major chord is converted to ''
+ if res == None:
+ error_message (_ ("Unable to convert chord type %s to lilypond.") % kind)
+ return res
+
+def musicxml_harmony_to_lily_chordname (n):
+ res = []
+ root = n.get_maybe_exist_named_child ('root')
+ if root:
+ ev = musicexp.ChordNameEvent ()
+ ev.root = musicxml_chordpitch_to_lily (root)
+ kind = n.get_maybe_exist_named_child ('kind')
+ if kind:
+ ev.kind = musicxml_chordkind_to_lily (kind.get_text ())
+ if not ev.kind:
+ return res
+ bass = n.get_maybe_exist_named_child ('bass')
+ if bass:
+ ev.bass = musicxml_chordpitch_to_lily (bass)
+ inversion = n.get_maybe_exist_named_child ('inversion')
+ if inversion:
+ # TODO: Lilypond does not support inversions, does it?
+
+ # Mail from Carl Sorensen on lilypond-devel, June 11, 2008:
+ # 4. LilyPond supports the first inversion in the form of added
+ # bass notes. So the first inversion of C major would be c:/g.
+ # To get the second inversion of C major, you would need to do
+ # e:6-3-^5 or e:m6-^5. However, both of these techniques
+ # require you to know the chord and calculate either the fifth
+ # pitch (for the first inversion) or the third pitch (for the
+ # second inversion) so they may not be helpful for musicxml2ly.
+ inversion_count = string.atoi (inversion.get_text ())
+ if inversion_count == 1:
+ # TODO: Calculate the bass note for the inversion...
+ pass
+ pass
+ for deg in n.get_named_children ('degree'):
+ d = musicexp.ChordModification ()
+ d.type = deg.get_type ()
+ d.step = deg.get_value ()
+ d.alteration = deg.get_alter ()
+ ev.add_modification (d)
+ #TODO: convert the user-symbols attribute:
+ #major: a triangle, like Unicode 25B3
+ #minor: -, like Unicode 002D
+ #augmented: +, like Unicode 002B
+ #diminished: (degree), like Unicode 00B0
+ #half-diminished: (o with slash), like Unicode 00F8
+ if ev and ev.root:
+ res.append (ev)
return res
res.append (note)
dur = n.get_maybe_exist_named_child ('duration')
if dur:
- # TODO: implement duration (given in base steps!)
# apply the duration to res
length = Rational(int(dur.get_text()), n._divisions)*Rational(1,4)
res.set_real_duration (length)
self.begin_moment = Rational (0)
self.pending_multibar = Rational (0)
self.ignore_skips = False
+ self.has_relevant_elements = False
def _insert_multibar (self):
r = musicexp.MultiMeasureRest ()
if self.pending_multibar > Rational (0):
self._insert_multibar ()
+ self.has_relevant_elements = True
self.elements.append (music)
self.begin_moment = self.end_moment
self.set_duration (duration)
assert isinstance (command, musicexp.Music)
if self.pending_multibar > Rational (0):
self._insert_multibar ()
+ self.has_relevant_elements = True
self.elements.append (command)
def add_barline (self, barline):
# TODO: Implement merging of default barline and custom bar line
self.pending_dynamics.append (dynamic)
def add_bar_check (self, number):
+ # re/store has_relevant_elements, so that a barline alone does not
+ # trigger output for figured bass, chord names
+ has_relevant = self.has_relevant_elements
b = musicexp.BarLine ()
b.bar_number = number
self.add_barline (b)
+ self.has_relevant_elements = has_relevant
def jumpto (self, moment):
current_end = self.end_moment + self.pending_multibar
diff = moment - current_end
if diff < Rational (0):
- error_message (_ ('Negative skip %s') % diff)
+ error_message (_ ('Negative skip %s (from position %s to %s)') %
+ (diff, current_end, moment))
diff = Rational (0)
if diff > Rational (0) and not (self.ignore_skips and moment == 0):
self.voicedata = None
self.ly_voice = None
self.figured_bass = None
+ self.chordnames = None
self.lyrics_dict = {}
self.lyrics_order = []
current_staff = None
pending_figured_bass = []
+ pending_chordnames = []
# Make sure that the keys in the dict don't get reordered, since
# we need the correct ordering of the lyrics stanzas! By default,
voice_builder = LilyPondVoiceBuilder ()
figured_bass_builder = LilyPondVoiceBuilder ()
+ chordnames_builder = LilyPondVoiceBuilder ()
for n in voice._elements:
if n.get_name () == 'forward':
voice_builder.add_dynamics (a)
else:
voice_builder.add_command (a)
+ for a in musicxml_harmony_to_lily_chordname (n):
+ pending_chordnames.append (a)
continue
-
+
if isinstance (n, musicxml.FiguredBass):
a = musicxml_figured_bass_to_lily (n)
if a:
number = 0
if number > 0:
voice_builder.add_bar_check (number)
+ figured_bass_builder.add_bar_check (number)
+ chordnames_builder.add_bar_check (number)
for a in musicxml_attributes_to_lily (n):
voice_builder.add_command (a)
num = 0
if num > 0:
voice_builder.add_bar_check (num)
+ figured_bass_builder.add_bar_check (num)
+ chordnames_builder.add_bar_check (num)
main_event = musicxml_note_to_lily_main_event (n)
if main_event and not first_pitch:
# if we have a figured bass, set its voice builder to the correct position
# and insert the pending figures
if pending_figured_bass:
- try:
- figured_bass_builder.jumpto (n._when)
- except NegativeSkip, neg:
- pass
- for fb in pending_figured_bass:
- figured_bass_builder.add_music (fb, fb.real_duration)
- pending_figured_bass = []
+ try:
+ figured_bass_builder.jumpto (n._when)
+ except NegativeSkip, neg:
+ pass
+ for fb in pending_figured_bass:
+ # if a duration is given, use that, otherwise the one of the note
+ dur = fb.real_duration
+ if not dur:
+ dur = ev_chord.get_length ()
+ if not fb.duration:
+ fb.duration = ev_chord.get_duration ()
+ figured_bass_builder.add_music (fb, dur)
+ pending_figured_bass = []
+
+ if pending_chordnames:
+ try:
+ chordnames_builder.jumpto (n._when)
+ except NegativeSkip, neg:
+ pass
+ for cn in pending_chordnames:
+ # Assign the duration of the EventChord
+ cn.duration = ev_chord.get_duration ()
+ chordnames_builder.add_music (cn, ev_chord.get_length ())
+ pending_chordnames = []
notations_children = n.get_typed_children (musicxml.Notations)
return_value.ly_voice = v
# create \figuremode { figured bass elements }
- if figured_bass_builder.elements:
+ if figured_bass_builder.has_relevant_elements:
fbass_music = musicexp.SequentialMusic ()
fbass_music.elements = figured_bass_builder.elements
v = musicexp.ModeChangingMusicWrapper()
v.element = fbass_music
return_value.figured_bass = v
+ # create \chordmode { chords }
+ if chordnames_builder.has_relevant_elements:
+ cname_music = musicexp.SequentialMusic ()
+ cname_music.elements = chordnames_builder.elements
+ v = musicexp.ModeChangingMusicWrapper()
+ v.mode = 'chordmode'
+ v.element = cname_music
+ return_value.chordnames = v
+
return return_value
def musicxml_id_to_lily (id):
def option_parser ():
- p = ly.get_option_parser (usage = _ ("musicxml2ly [options] FILE.xml"),
- description = _ ("Convert MusicXML from FILE.xml to LilyPond input. If the given filename is -, musicxml2ly reads from the command line.") + "\n",
- add_help_option=False)
+ p = ly.get_option_parser (usage = _ ("musicxml2ly [OPTION]... FILE.xml"),
+ description =
+_ ("""Convert MusicXML from FILE.xml to LilyPond input.
+If the given filename is -, musicxml2ly reads from the command line.
+"""), add_help_option=False)
p.add_option("-h", "--help",
action="help",
help=_ ("show this help and exit"))
p.version = ('''%prog (LilyPond) @TOPLEVEL_VERSION@\n\n'''
- +
-_ ("""This program is free software. It is covered by the GNU General Public
-License and you are welcome to change it and/or distribute copies of it
-under certain conditions. Invoke as `%s --warranty' for more
-information.""") % 'lilypond'
-+ """
-Copyright (c) 2005--2008 by
++
+_ ("""Copyright (c) 2005--2008 by
Han-Wen Nienhuys <hanwen@xs4all.nl>,
Jan Nieuwenhuizen <janneke@gnu.org> and
Reinhold Kainhofer <reinhold@kainhofer.com>
-""")
+"""
++
+"""
+This program is free software. It is covered by the GNU General Public
+License and you are welcome to change it and/or distribute copies of it
+under certain conditions. Invoke as `%s --warranty' for more
+information.""") % 'lilypond')
+
p.add_option("--version",
action="version",
help=_ ("show version number and exit"))
type = 'string',
dest = 'output_name',
help = _ ("set output filename to FILE, stdout if -"))
- p.add_option_group (ly.display_encode (_ ('Bugs')),
+ p.add_option_group ('',
description = (_ ("Report bugs via")
+ ''' http://post.gmane.org/post.php'''
'''?group=gmane.comp.gnu.lilypond.bugs\n'''))
str = "Part%sVoice%sFiguredBass" % (part_id, voicename)
return musicxml_id_to_lily (str)
+def music_xml_chordnames_name_to_lily_name (part_id, voicename):
+ str = "Part%sVoice%sChords" % (part_id, voicename)
+ return musicxml_id_to_lily (str)
+
def print_voice_definitions (printer, part_list, voices):
for part in part_list:
part_id = part.id
printer.dump ('%s = ' % k)
voice.ly_voice.print_ly (printer)
printer.newline()
+ if voice.chordnames:
+ cnname = music_xml_chordnames_name_to_lily_name (part_id, name)
+ printer.dump ('%s = ' % cnname )
+ voice.chordnames.print_ly (printer)
+ printer.newline()
for l in voice.lyrics_order:
lname = music_xml_lyrics_name_to_lily_name (part_id, name, l)
printer.dump ('%s = ' % lname )
# raw_voices is of the form [(voicename, lyricsids, havefiguredbass)*]
def format_staff_info (part_id, staff_id, raw_voices):
voices = []
- for (v, lyricsids, figured_bass) in raw_voices:
+ for (v, lyricsids, figured_bass, chordnames) in raw_voices:
voice_name = music_xml_voice_name_to_lily_name (part_id, v)
voice_lyrics = [music_xml_lyrics_name_to_lily_name (part_id, v, l)
for l in lyricsids]
figured_bass_name = ''
if figured_bass:
figured_bass_name = music_xml_figuredbass_name_to_lily_name (part_id, v)
- voices.append ([voice_name, voice_lyrics, figured_bass_name])
+ chordnames_name = ''
+ if chordnames:
+ chordnames_name = music_xml_chordnames_name_to_lily_name (part_id, v)
+ voices.append ([voice_name, voice_lyrics, figured_bass_name, chordnames_name])
return [staff_id, voices]
def update_score_setup (score_structure, part_list, voices):
staves = uniq_list (staves)
staves.sort ()
for s in staves:
- thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass)
+ thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass, voice.chordnames)
for (voice_name, voice) in nv_dict.items ()
if voice.voicedata._start_staff == s]
staves_info.append (format_staff_info (part_id, s, thisstaff_raw_voices))
else:
- thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass)
+ thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass, voice.chordnames)
for (voice_name, voice) in nv_dict.items ()]
staves_info.append (format_staff_info (part_id, None, thisstaff_raw_voices))
score_structure.set_part_information (part_id, staves_info)
parts = tree.get_typed_children (musicxml.Part)
(voices, staff_info) = get_all_voices (parts)
- score_structure = None
+ score = None
mxl_pl = tree.get_maybe_exist_typed_child (musicxml.Part_list)
if mxl_pl:
- score_structure = extract_score_structure (mxl_pl, staff_info)
+ score = extract_score_structure (mxl_pl, staff_info)
part_list = mxl_pl.get_named_children ("score-part")
# score information is contained in the <work>, <identification> or <movement-title> tags
- update_score_setup (score_structure, part_list, voices)
+ update_score_setup (score, part_list, voices)
# After the conversion, update the list of settings for the \layout block
update_layout_information ()
printer.newline ()
printer.dump ("% The score definition")
printer.newline ()
- score_structure.print_ly (printer)
+ score.print_ly (printer)
printer.newline ()
return voices