/usr/bin/musicxml2ly is in lilypond 2.18.2-12build1.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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# -*- coding: utf-8 -*-
import optparse
import sys
import re
import os
import string
import codecs
import zipfile
import tempfile
import StringIO
"""
This generic code used for all python scripts.
The quotes are to ensure that the source .py file can still be
run as a python script, but does not include any sys.path handling.
Otherwise, the lilypond-book calls inside the build
might modify installed .pyc files.
"""
for d in ['/usr/share/lilypond/2.18.2',
'/usr/lib/x86_64-linux-gnu/lilypond/2.18.2']:
sys.path.insert (0, os.path.join (d, 'python'))
# dynamic relocation, for GUB binaries.
bindir = os.path.abspath (os.path.dirname (sys.argv[0]))
for p in ['share', 'lib']:
datadir = os.path.abspath (bindir + '/../%s/lilypond/current/python/' % p)
sys.path.insert (0, datadir)
"""
"""
import lilylib as ly
_ = ly._
import musicxml
import musicexp
from rational import Rational
# Store command-line options in a global variable, so we can access them everywhere
options = None
class Conversion_Settings:
def __init__(self):
self.ignore_beaming = False
conversion_settings = Conversion_Settings ()
# Use a global variable to store the setting needed inside a \layout block.
# whenever we need to change a setting or add/remove an engraver, we can access
# this layout and add the corresponding settings
layout_information = musicexp.Layout ()
needed_additional_definitions = []
additional_definitions = {
"tuplet-note-wrapper": """ % a formatter function, which is simply a wrapper around an existing
% tuplet formatter function. It takes the value returned by the given
% function and appends a note of given length.
#(define-public ((tuplet-number::append-note-wrapper function note) grob)
(let* ((txt (if function (function grob) #f)))
(if txt
(markup txt #:fontsize -5 #:note note UP)
(markup #:fontsize -5 #:note note UP)
)
)
)""",
"tuplet-non-default-denominator": """#(define ((tuplet-number::non-default-tuplet-denominator-text denominator) grob)
(number->string (if denominator
denominator
(ly:event-property (event-cause grob) 'denominator))))
""",
"tuplet-non-default-fraction": """#(define ((tuplet-number::non-default-tuplet-fraction-text denominator numerator) grob)
(let* ((ev (event-cause grob))
(den (if denominator denominator (ly:event-property ev 'denominator)))
(num (if numerator numerator (ly:event-property ev 'numerator))))
(format #f "~a:~a" den num)))
""",
}
def round_to_two_digits (val):
return round (val * 100) / 100
def extract_paper_information (tree):
paper = musicexp.Paper ()
defaults = tree.get_maybe_exist_named_child ('defaults')
if not defaults:
return None
tenths = -1
scaling = defaults.get_maybe_exist_named_child ('scaling')
if scaling:
mm = scaling.get_named_child ('millimeters')
mm = string.atof (mm.get_text ())
tn = scaling.get_maybe_exist_named_child ('tenths')
tn = string.atof (tn.get_text ())
tenths = mm / tn
paper.global_staff_size = mm * 72.27 / 25.4
# We need the scaling (i.e. the size of staff tenths for everything!
if tenths < 0:
return None
def from_tenths (txt):
return round_to_two_digits (string.atof (txt) * tenths / 10)
def set_paper_variable (varname, parent, element_name):
el = parent.get_maybe_exist_named_child (element_name)
if el: # Convert to cm from tenths
setattr (paper, varname, from_tenths (el.get_text ()))
pagelayout = defaults.get_maybe_exist_named_child ('page-layout')
if pagelayout:
# TODO: How can one have different margins for even and odd pages???
set_paper_variable ("page_height", pagelayout, 'page-height')
set_paper_variable ("page_width", pagelayout, 'page-width')
pmargins = pagelayout.get_named_children ('page-margins')
for pm in pmargins:
set_paper_variable ("left_margin", pm, 'left-margin')
set_paper_variable ("right_margin", pm, 'right-margin')
set_paper_variable ("bottom_margin", pm, 'bottom-margin')
set_paper_variable ("top_margin", pm, 'top-margin')
systemlayout = defaults.get_maybe_exist_named_child ('system-layout')
if systemlayout:
sl = systemlayout.get_maybe_exist_named_child ('system-margins')
if sl:
set_paper_variable ("system_left_margin", sl, 'left-margin')
set_paper_variable ("system_right_margin", sl, 'right-margin')
set_paper_variable ("system_distance", systemlayout, 'system-distance')
set_paper_variable ("top_system_distance", systemlayout, 'top-system-distance')
stafflayout = defaults.get_named_children ('staff-layout')
for sl in stafflayout:
nr = getattr (sl, 'number', 1)
dist = sl.get_named_child ('staff-distance')
#TODO: the staff distance needs to be set in the Staff context!!!
# TODO: Finish appearance?, music-font?, word-font?, lyric-font*, lyric-language*
appearance = defaults.get_named_child ('appearance')
if appearance:
lws = appearance.get_named_children ('line-width')
for lw in lws:
# Possible types are: beam, bracket, dashes,
# enclosure, ending, extend, heavy barline, leger,
# light barline, octave shift, pedal, slur middle, slur tip,
# staff, stem, tie middle, tie tip, tuplet bracket, and wedge
tp = lw.type
w = from_tenths (lw.get_text ())
# TODO: Do something with these values!
nss = appearance.get_named_children ('note-size')
for ns in nss:
# Possible types are: cue, grace and large
tp = ns.type
sz = from_tenths (ns.get_text ())
# TODO: Do something with these values!
# <other-appearance> elements have no specified meaning
rawmusicfont = defaults.get_named_child ('music-font')
if rawmusicfont:
# TODO: Convert the font
pass
rawwordfont = defaults.get_named_child ('word-font')
if rawwordfont:
# TODO: Convert the font
pass
rawlyricsfonts = defaults.get_named_children ('lyric-font')
for lyricsfont in rawlyricsfonts:
# TODO: Convert the font
pass
return paper
# score information is contained in the <work>, <identification> or <movement-title> tags
# extract those into a hash, indexed by proper lilypond header attributes
def extract_score_information (tree):
header = musicexp.Header ()
def set_if_exists (field, value):
if value:
header.set_field (field, musicxml.escape_ly_output_string (value))
work = tree.get_maybe_exist_named_child ('work')
if work:
set_if_exists ('worknumber', work.get_work_number ())
set_if_exists ('opus', work.get_opus ())
movement_title = tree.get_maybe_exist_named_child ('movement-title')
# use either work-title or movement-title as title.
# if both exist use movement-title as subtitle.
# if there is only a movement-title (or work-title is empty or missing) the movement-title should be typeset as a title
if work:
work_title = work.get_work_title ()
set_if_exists ('title', work_title)
if work_title == '':
set_if_exists ('title', movement_title.get_text ())
elif movement_title:
set_if_exists ('subtitle', movement_title.get_text ())
elif movement_title:
set_if_exists ('title', movement_title.get_text ())
identifications = tree.get_named_children ('identification')
for ids in identifications:
set_if_exists ('copyright', ids.get_rights ())
set_if_exists ('composer', ids.get_composer ())
set_if_exists ('arranger', ids.get_arranger ())
set_if_exists ('editor', ids.get_editor ())
set_if_exists ('poet', ids.get_poet ())
set_if_exists ('encodingsoftware', ids.get_encoding_software ())
set_if_exists ('encodingdate', ids.get_encoding_date ())
set_if_exists ('encoder', ids.get_encoding_person ())
set_if_exists ('encodingdescription', ids.get_encoding_description ())
set_if_exists ('source', ids.get_source ())
# miscellaneous --> texidoc
set_if_exists ('texidoc', ids.get_file_description ());
# Finally, apply the required compatibility modes
# Some applications created wrong MusicXML files, so we need to
# apply some compatibility mode, e.g. ignoring some features/tags
# in those files
software = ids.get_encoding_software_list ()
# Case 1: "Sibelius 5.1" with the "Dolet 3.4 for Sibelius" plugin
# is missing all beam ends => ignore all beaming information
ignore_beaming_software = {
"Dolet 4 for Sibelius, Beta 2": "Dolet 4 for Sibelius, Beta 2",
"Dolet 3.5 for Sibelius": "Dolet 3.5 for Sibelius",
"Dolet 3.4 for Sibelius": "Dolet 3.4 for Sibelius",
"Dolet 3.3 for Sibelius": "Dolet 3.3 for Sibelius",
"Dolet 3.2 for Sibelius": "Dolet 3.2 for Sibelius",
"Dolet 3.1 for Sibelius": "Dolet 3.1 for Sibelius",
"Dolet for Sibelius 1.3": "Dolet for Sibelius 1.3",
"Noteworthy Composer": "Noteworthy Composer's nwc2xm[",
}
for s in software:
app_description = ignore_beaming_software.get (s, False);
if app_description:
conversion_settings.ignore_beaming = True
ly.warning (_ ("Encountered file created by %s, containing "
"wrong beaming information. All beaming "
"information in the MusicXML file will be "
"ignored") % app_description)
# TODO: Check for other unsupported features
return header
class PartGroupInfo:
def __init__ (self):
self.start = {}
self.end = {}
def is_empty (self):
return len (self.start) + len (self.end) == 0
def add_start (self, g):
self.start[getattr (g, 'number', "1")] = g
def add_end (self, g):
self.end[getattr (g, 'number', "1")] = g
def print_ly (self, printer):
ly.warning (_ ("Unprocessed PartGroupInfo %s encountered") % self)
def ly_expression (self):
ly.warning (_ ("Unprocessed PartGroupInfo %s encountered") % self)
return ''
def musicxml_step_to_lily (step):
if step:
return (ord (step) - ord ('A') + 7 - 2) % 7
else:
return None
def staff_attributes_to_string_tunings (mxl_attr):
details = mxl_attr.get_maybe_exist_named_child ('staff-details')
if not details:
return []
lines = 6
staff_lines = details.get_maybe_exist_named_child ('staff-lines')
if staff_lines:
lines = string.atoi (staff_lines.get_text ())
tunings = [musicexp.Pitch()] * lines
staff_tunings = details.get_named_children ('staff-tuning')
for i in staff_tunings:
p = musicexp.Pitch()
line = 0
try:
line = string.atoi (i.line) - 1
except ValueError:
pass
tunings[line] = p
step = i.get_named_child (u'tuning-step')
step = step.get_text ().strip ()
p.step = musicxml_step_to_lily (step)
octave = i.get_named_child (u'tuning-octave')
octave = octave.get_text ().strip ()
p.octave = int (octave) - 4
alter = i.get_named_child (u'tuning-alter')
if alter:
p.alteration = int (alter.get_text ().strip ())
# lilypond seems to use the opposite ordering than MusicXML...
tunings.reverse ()
return tunings
def staff_attributes_to_lily_staff (mxl_attr):
if not mxl_attr:
return musicexp.Staff ()
(staff_id, attributes) = mxl_attr.items ()[0]
# distinguish by clef:
# percussion (percussion and rhythmic), tab, and everything else
clef_sign = None
clef = attributes.get_maybe_exist_named_child ('clef')
if clef:
sign = clef.get_maybe_exist_named_child ('sign')
if sign:
clef_sign = {"percussion": "percussion", "TAB": "tab"}.get (sign.get_text (), None)
lines = 5
details = attributes.get_named_children ('staff-details')
for d in details:
staff_lines = d.get_maybe_exist_named_child ('staff-lines')
if staff_lines:
lines = string.atoi (staff_lines.get_text ())
# TODO: Handle other staff attributes like staff-space, etc.
staff = None
if clef_sign == "percussion" and lines == 1:
staff = musicexp.RhythmicStaff ()
elif clef_sign == "percussion":
staff = musicexp.DrumStaff ()
# staff.drum_style_table = ???
elif clef_sign == "tab":
staff = musicexp.TabStaff ()
staff.string_tunings = staff_attributes_to_string_tunings (attributes)
# staff.tablature_format = ???
else:
staff = musicexp.Staff ()
# TODO: Handle case with lines <> 5!
if (lines != 5):
staff.add_context_modification ("\\override StaffSymbol #'line-count = #%s" % lines)
return staff
def extract_score_structure (part_list, staffinfo):
score = musicexp.Score ()
structure = musicexp.StaffGroup (None)
score.set_contents (structure)
if not part_list:
return structure
def read_score_part (el):
if not isinstance (el, musicxml.Score_part):
return
# Depending on the attributes of the first measure, we create different
# types of staves (Staff, RhythmicStaff, DrumStaff, TabStaff, etc.)
staff = staff_attributes_to_lily_staff (staffinfo.get (el.id, None))
if not staff:
return None
staff.id = el.id
partname = el.get_maybe_exist_named_child ('part-name')
# Finale gives unnamed parts the name "MusicXML Part" automatically!
if partname and partname.get_text() != "MusicXML Part":
staff.instrument_name = partname.get_text ()
# part-name-display overrides part-name!
partname = el.get_maybe_exist_named_child ("part-name-display")
if partname:
staff.instrument_name = extract_display_text (partname)
partdisplay = el.get_maybe_exist_named_child ('part-abbreviation')
if partdisplay:
staff.short_instrument_name = partdisplay.get_text ()
# part-abbreviation-display overrides part-abbreviation!
partdisplay = el.get_maybe_exist_named_child ("part-abbreviation-display")
if partdisplay:
staff.short_instrument_name = extract_display_text (partdisplay)
# TODO: Read in the MIDI device / instrument
return staff
def read_score_group (el):
if not isinstance (el, musicxml.Part_group):
return
group = musicexp.StaffGroup ()
if hasattr (el, 'number'):
id = el.number
group.id = id
#currentgroups_dict[id] = group
#currentgroups.append (id)
if el.get_maybe_exist_named_child ('group-name'):
group.instrument_name = el.get_maybe_exist_named_child ('group-name').get_text ()
if el.get_maybe_exist_named_child ('group-abbreviation'):
group.short_instrument_name = el.get_maybe_exist_named_child ('group-abbreviation').get_text ()
if el.get_maybe_exist_named_child ('group-symbol'):
group.symbol = el.get_maybe_exist_named_child ('group-symbol').get_text ()
if el.get_maybe_exist_named_child ('group-barline'):
group.spanbar = el.get_maybe_exist_named_child ('group-barline').get_text ()
return group
parts_groups = part_list.get_all_children ()
# the start/end group tags are not necessarily ordered correctly and groups
# might even overlap, so we can't go through the children sequentially!
# 1) Replace all Score_part objects by their corresponding Staff objects,
# also collect all group start/stop points into one PartGroupInfo object
staves = []
group_info = PartGroupInfo ()
for el in parts_groups:
if isinstance (el, musicxml.Score_part):
if not group_info.is_empty ():
staves.append (group_info)
group_info = PartGroupInfo ()
staff = read_score_part (el)
if staff:
staves.append (staff)
elif isinstance (el, musicxml.Part_group):
if el.type == "start":
group_info.add_start (el)
elif el.type == "stop":
group_info.add_end (el)
if not group_info.is_empty ():
staves.append (group_info)
# 2) Now, detect the groups:
group_starts = []
pos = 0
while pos < len (staves):
el = staves[pos]
if isinstance (el, PartGroupInfo):
prev_start = 0
if len (group_starts) > 0:
prev_start = group_starts[-1]
elif len (el.end) > 0: # no group to end here
el.end = {}
if len (el.end) > 0: # closes an existing group
ends = el.end.keys ()
prev_started = staves[prev_start].start.keys ()
grpid = None
intersection = filter(lambda x:x in ends, prev_started)
if len (intersection) > 0:
grpid = intersection[0]
else:
# Close the last started group
grpid = staves[prev_start].start.keys () [0]
# Find the corresponding closing tag and remove it!
j = pos + 1
foundclosing = False
while j < len (staves) and not foundclosing:
if isinstance (staves[j], PartGroupInfo) and staves[j].end.has_key (grpid):
foundclosing = True
del staves[j].end[grpid]
if staves[j].is_empty ():
del staves[j]
j += 1
grpobj = staves[prev_start].start[grpid]
group = read_score_group (grpobj)
# remove the id from both the start and end
if el.end.has_key (grpid):
del el.end[grpid]
del staves[prev_start].start[grpid]
if el.is_empty ():
del staves[pos]
# replace the staves with the whole group
for j in staves[(prev_start + 1):pos]:
group.append_staff (j)
del staves[(prev_start + 1):pos]
staves.insert (prev_start + 1, group)
# reset pos so that we continue at the correct position
pos = prev_start
# remove an empty start group
if staves[prev_start].is_empty ():
del staves[prev_start]
group_starts.remove (prev_start)
pos -= 1
elif len (el.start) > 0: # starts new part groups
group_starts.append (pos)
pos += 1
for i in staves:
structure.append_staff (i)
return score
def musicxml_duration_to_lily (mxl_note):
# if the note has no Type child, then that method returns None. In that case,
# use the <duration> tag instead. If that doesn't exist, either -> Error
dur = mxl_note.get_duration_info ()
if dur:
d = musicexp.Duration ()
d.duration_log = dur[0]
d.dots = dur[1]
# Grace notes by specification have duration 0, so no time modification
# factor is possible. It even messes up the output with *0/1
if not mxl_note.get_maybe_exist_typed_child (musicxml.Grace):
d.factor = mxl_note._duration / d.get_length ()
return d
else:
if mxl_note._duration > 0:
return rational_to_lily_duration (mxl_note._duration)
else:
mxl_note.message (_ ("Encountered note at %s without type and duration (=%s)") % (mxl_note.start, mxl_note._duration) )
return None
def rational_to_lily_duration (rational_len):
d = musicexp.Duration ()
rational_len.normalize_self ()
d_log = {1: 0, 2: 1, 4:2, 8:3, 16:4, 32:5, 64:6, 128:7, 256:8, 512:9}.get (rational_len.denominator (), -1)
# Duration of the form 1/2^n or 3/2^n can be converted to a simple lilypond duration
dots = {1: 0, 3: 1, 7: 2, 15: 3, 31: 4, 63: 5, 127: 6}.get (rational_len.numerator(), -1)
if ( d_log >= dots >= 0 ):
# account for the dots!
d.duration_log = d_log - dots
d.dots = dots
elif (d_log >= 0):
d.duration_log = d_log
d.factor = Rational (rational_len.numerator ())
else:
ly.warning (_ ("Encountered rational duration with denominator %s, "
"unable to convert to lilypond duration") %
rational_len.denominator ())
# TODO: Test the above error message
return None
return d
def musicxml_partial_to_lily (partial_len):
if partial_len > 0:
p = musicexp.Partial ()
p.partial = rational_to_lily_duration (partial_len)
return p
else:
return None
# Detect repeats and alternative endings in the chord event list (music_list)
# and convert them to the corresponding musicexp objects, containing nested
# music
def group_repeats (music_list):
repeat_replaced = True
music_start = 0
i = 0
# Walk through the list of expressions, looking for repeat structure
# (repeat start/end, corresponding endings). If we find one, try to find the
# last event of the repeat, replace the whole structure and start over again.
# For nested repeats, as soon as we encounter another starting repeat bar,
# treat that one first, and start over for the outer repeat.
while repeat_replaced and i < 100:
i += 1
repeat_start = -1 # position of repeat start / end
repeat_end = -1 # position of repeat start / end
repeat_times = 0
ending_start = -1 # position of current ending start
endings = [] # list of already finished endings
pos = 0
last = len (music_list) - 1
repeat_replaced = False
final_marker = 0
while pos < len (music_list) and not repeat_replaced:
e = music_list[pos]
repeat_finished = False
if isinstance (e, RepeatMarker):
if not repeat_times and e.times:
repeat_times = e.times
if e.direction == -1:
if repeat_end >= 0:
repeat_finished = True
else:
repeat_start = pos
repeat_end = -1
ending_start = -1
endings = []
elif e.direction == 1:
if repeat_start < 0:
repeat_start = 0
if repeat_end < 0:
repeat_end = pos
final_marker = pos
elif isinstance (e, EndingMarker):
if e.direction == -1:
if repeat_start < 0:
repeat_start = 0
if repeat_end < 0:
repeat_end = pos
ending_start = pos
elif e.direction == 1:
if ending_start < 0:
ending_start = 0
endings.append ([ending_start, pos])
ending_start = -1
final_marker = pos
elif not isinstance (e, musicexp.BarLine):
# As soon as we encounter an element when repeat start and end
# is set and we are not inside an alternative ending,
# this whole repeat structure is finished => replace it
if repeat_start >= 0 and repeat_end > 0 and ending_start < 0:
repeat_finished = True
# Finish off all repeats without explicit ending bar (e.g. when
# we convert only one page of a multi-page score with repeats)
if pos == last and repeat_start >= 0:
repeat_finished = True
final_marker = pos
if repeat_end < 0:
repeat_end = pos
if ending_start >= 0:
endings.append ([ending_start, pos])
ending_start = -1
if repeat_finished:
# We found the whole structure replace it!
r = musicexp.RepeatedMusic ()
if repeat_times <= 0:
repeat_times = 2
r.repeat_count = repeat_times
# don't erase the first element for "implicit" repeats (i.e. no
# starting repeat bars at the very beginning)
start = repeat_start + 1
if repeat_start == music_start:
start = music_start
r.set_music (music_list[start:repeat_end])
for (start, end) in endings:
s = musicexp.SequentialMusic ()
s.elements = music_list[start + 1:end]
r.add_ending (s)
del music_list[repeat_start:final_marker + 1]
music_list.insert (repeat_start, r)
repeat_replaced = True
pos += 1
# TODO: Implement repeats until the end without explicit ending bar
return music_list
# Extract the settings for tuplets from the <notations><tuplet> and the
# <time-modification> elements of the note:
def musicxml_tuplet_to_lily (tuplet_elt, time_modification):
tsm = musicexp.TimeScaledMusic ()
fraction = (1, 1)
if time_modification:
fraction = time_modification.get_fraction ()
tsm.numerator = fraction[0]
tsm.denominator = fraction[1]
normal_type = tuplet_elt.get_normal_type ()
if not normal_type and time_modification:
normal_type = time_modification.get_normal_type ()
if not normal_type and time_modification:
note = time_modification.get_parent ()
if note:
normal_type = note.get_duration_info ()
if normal_type:
normal_note = musicexp.Duration ()
(normal_note.duration_log, normal_note.dots) = normal_type
tsm.normal_type = normal_note
actual_type = tuplet_elt.get_actual_type ()
if actual_type:
actual_note = musicexp.Duration ()
(actual_note.duration_log, actual_note.dots) = actual_type
tsm.actual_type = actual_note
# Obtain non-default nrs of notes from the tuplet object!
tsm.display_numerator = tuplet_elt.get_normal_nr ()
tsm.display_denominator = tuplet_elt.get_actual_nr ()
if hasattr (tuplet_elt, 'bracket') and tuplet_elt.bracket == "no":
tsm.display_bracket = None
elif hasattr (tuplet_elt, 'line-shape') and getattr (tuplet_elt, 'line-shape') == "curved":
tsm.display_bracket = "curved"
else:
tsm.display_bracket = "bracket"
display_values = {"none": None, "actual": "actual", "both": "both"}
if hasattr (tuplet_elt, "show-number"):
tsm.display_number = display_values.get (getattr (tuplet_elt, "show-number"), "actual")
if hasattr (tuplet_elt, "show-type"):
tsm.display_type = display_values.get (getattr (tuplet_elt, "show-type"), None)
return tsm
def group_tuplets (music_list, events):
"""Collect Musics from
MUSIC_LIST demarcated by EVENTS_LIST in TimeScaledMusic objects.
"""
indices = []
brackets = {}
j = 0
for (ev_chord, tuplet_elt, time_modification) in events:
while (j < len (music_list)):
if music_list[j] == ev_chord:
break
j += 1
nr = 0
if hasattr (tuplet_elt, 'number'):
nr = getattr (tuplet_elt, 'number')
if tuplet_elt.type == 'start':
tuplet_object = musicxml_tuplet_to_lily (tuplet_elt, time_modification)
tuplet_info = [j, None, tuplet_object]
indices.append (tuplet_info)
brackets[nr] = tuplet_info
elif tuplet_elt.type == 'stop':
bracket_info = brackets.get (nr, None)
if bracket_info:
bracket_info[1] = j # Set the ending position to j
del brackets[nr]
new_list = []
last = 0
for (i1, i2, tsm) in indices:
if i1 > i2:
continue
new_list.extend (music_list[last:i1])
seq = musicexp.SequentialMusic ()
last = i2 + 1
seq.elements = music_list[i1:last]
tsm.element = seq
new_list.append (tsm)
#TODO: Handle nested tuplets!!!!
new_list.extend (music_list[last:])
return new_list
def musicxml_clef_to_lily (attributes):
change = musicexp.ClefChange ()
(change.type, change.position, change.octave) = attributes.get_clef_information ()
return change
def musicxml_time_to_lily (attributes):
sig = attributes.get_time_signature ()
if not sig:
return None
change = musicexp.TimeSignatureChange()
change.fractions = sig
time_elm = attributes.get_maybe_exist_named_child ('time')
if time_elm and hasattr (time_elm, 'symbol'):
change.style = { 'single-number': "'single-digit",
'cut': None,
'common': None,
'normal': "'()"}.get (time_elm.symbol, "'()")
else:
change.style = "'()"
# TODO: Handle senza-misura measures
# TODO: Handle hidden time signatures (print-object="no")
# TODO: What shall we do if the symbol clashes with the sig? e.g. "cut"
# with 3/8 or "single-number" with (2+3)/8 or 3/8+2/4?
return change
def musicxml_key_to_lily (attributes):
key_sig = attributes.get_key_signature ()
if not key_sig or not (isinstance (key_sig, list) or isinstance (key_sig, tuple)):
ly.warning (_ ("Unable to extract key signature!"))
return None
change = musicexp.KeySignatureChange()
if len (key_sig) == 2 and not isinstance (key_sig[0], list):
# standard key signature, (fifths, mode)
(fifths, mode) = key_sig
change.mode = mode
start_pitch = musicexp.Pitch ()
start_pitch.octave = 0
try:
(n, a) = {
'major' : (0, 0),
'minor' : (5, 0),
'ionian' : (0, 0),
'dorian' : (1, 0),
'phrygian' : (2, 0),
'lydian' : (3, 0),
'mixolydian': (4, 0),
'aeolian' : (5, 0),
'locrian' : (6, 0),
}[mode]
start_pitch.step = n
start_pitch.alteration = a
except KeyError:
ly.warning (_ ("unknown mode %s, expecting 'major' or 'minor' "
"or a church mode!") % mode)
fifth = musicexp.Pitch()
fifth.step = 4
if fifths < 0:
fifths *= -1
fifth.step *= -1
fifth.normalize ()
for x in range (fifths):
start_pitch = start_pitch.transposed (fifth)
change.tonic = start_pitch
else:
# Non-standard key signature of the form [[step,alter<,octave>],...]
# MusicXML contains C,D,E,F,G,A,B as steps, lily uses 0-7, so convert
alterations = []
for k in key_sig:
k[0] = musicxml_step_to_lily (k[0])
alterations.append (k)
change.non_standard_alterations = alterations
return change
def musicxml_transpose_to_lily (attributes):
transpose = attributes.get_transposition ()
if not transpose:
return None
shift = musicexp.Pitch ()
octave_change = transpose.get_maybe_exist_named_child ('octave-change')
if octave_change:
shift.octave = string.atoi (octave_change.get_text ())
chromatic_shift = string.atoi (transpose.get_named_child ('chromatic').get_text ())
chromatic_shift_normalized = chromatic_shift % 12;
(shift.step, shift.alteration) = [
(0, 0), (0, 1), (1, 0), (2, -1), (2, 0),
(3, 0), (3, 1), (4, 0), (5, -1), (5, 0),
(6, -1), (6, 0)][chromatic_shift_normalized];
shift.octave += (chromatic_shift - chromatic_shift_normalized) / 12
diatonic = transpose.get_maybe_exist_named_child ('diatonic')
if diatonic:
diatonic_step = string.atoi (diatonic.get_text ()) % 7
if diatonic_step != shift.step:
# We got the alter incorrect!
old_semitones = shift.semitones ()
shift.step = diatonic_step
new_semitones = shift.semitones ()
shift.alteration += old_semitones - new_semitones
transposition = musicexp.Transposition ()
transposition.pitch = musicexp.Pitch ().transposed (shift)
return transposition
def musicxml_staff_details_to_lily (attributes):
details = attributes.get_maybe_exist_named_child ('staff-details')
if not details:
return None
## TODO: Handle staff-type, staff-lines, staff-tuning, capo, staff-size
ret = []
stafflines = details.get_maybe_exist_named_child ('staff-lines')
if stafflines:
lines = string.atoi (stafflines.get_text ());
lines_event = musicexp.StaffLinesEvent (lines);
ret.append (lines_event);
return ret;
def musicxml_attributes_to_lily (attrs):
elts = []
attr_dispatch = {
'clef': musicxml_clef_to_lily,
'time': musicxml_time_to_lily,
'key': musicxml_key_to_lily,
'transpose': musicxml_transpose_to_lily,
'staff-details': musicxml_staff_details_to_lily,
}
for (k, func) in attr_dispatch.items ():
children = attrs.get_named_children (k)
if children:
ev = func (attrs)
if isinstance (ev, list):
for e in ev:
elts.append (e)
elif ev:
elts.append (ev)
return elts
def extract_display_text (el):
child = el.get_maybe_exist_named_child ("display-text")
if child:
return child.get_text ()
else:
return False
def musicxml_print_to_lily (el):
# TODO: Implement other print attributes
# <!ELEMENT print (page-layout?, system-layout?, staff-layout*,
# measure-layout?, measure-numbering?, part-name-display?,
# part-abbreviation-display?)>
# <!ATTLIST print
# staff-spacing %tenths; #IMPLIED
# new-system %yes-no; #IMPLIED
# new-page %yes-no-number; #IMPLIED
# blank-page NMTOKEN #IMPLIED
# page-number CDATA #IMPLIED
# >
elts = []
if (hasattr (el, "new-system") and conversion_settings.convert_page_layout):
val = getattr (el, "new-system")
if (val == "yes"):
elts.append (musicexp.Break ("break"))
if (hasattr (el, "new-page") and conversion_settings.convert_page_layout):
val = getattr (el, "new-page")
if (val == "yes"):
elts.append (musicexp.Break ("pageBreak"))
child = el.get_maybe_exist_named_child ("part-name-display")
if child:
elts.append (musicexp.SetEvent ("Staff.instrumentName",
"\"%s\"" % extract_display_text (child)))
child = el.get_maybe_exist_named_child ("part-abbreviation-display")
if child:
elts.append (musicexp.SetEvent ("Staff.shortInstrumentName",
"\"%s\"" % extract_display_text (child)))
return elts
class Marker (musicexp.Music):
def __init__ (self):
self.direction = 0
self.event = None
def print_ly (self, printer):
ly.warning (_ ("Encountered unprocessed marker %s\n") % self)
pass
def ly_expression (self):
return ""
class RepeatMarker (Marker):
def __init__ (self):
Marker.__init__ (self)
self.times = 0
class EndingMarker (Marker):
pass
# Convert the <barline> element to musicxml.BarLine (for non-standard barlines)
# and to RepeatMarker and EndingMarker objects for repeat and
# alternatives start/stops
def musicxml_barline_to_lily (barline):
# retval contains all possible markers in the order:
# 0..bw_ending, 1..bw_repeat, 2..barline, 3..fw_repeat, 4..fw_ending
retval = {}
bartype_element = barline.get_maybe_exist_named_child ("bar-style")
repeat_element = barline.get_maybe_exist_named_child ("repeat")
ending_element = barline.get_maybe_exist_named_child ("ending")
bartype = None
if bartype_element:
bartype = bartype_element.get_text ()
if repeat_element and hasattr (repeat_element, 'direction'):
repeat = RepeatMarker ()
repeat.direction = {"forward": -1, "backward": 1}.get (repeat_element.direction, 0)
if ( (repeat_element.direction == "forward" and bartype == "heavy-light") or
(repeat_element.direction == "backward" and bartype == "light-heavy") ):
bartype = None
if hasattr (repeat_element, 'times'):
try:
repeat.times = int (repeat_element.times)
except ValueError:
repeat.times = 2
repeat.event = barline
if repeat.direction == -1:
retval[3] = repeat
else:
retval[1] = repeat
if ending_element and hasattr (ending_element, 'type'):
ending = EndingMarker ()
ending.direction = {"start": -1, "stop": 1, "discontinue": 1}.get (ending_element.type, 0)
ending.event = barline
if ending.direction == -1:
retval[4] = ending
else:
retval[0] = ending
if bartype:
b = musicexp.BarLine ()
b.type = bartype
retval[2] = b
return retval.values ()
spanner_event_dict = {
'beam' : musicexp.BeamEvent,
'dashes' : musicexp.TextSpannerEvent,
'bracket' : musicexp.BracketSpannerEvent,
'glissando' : musicexp.GlissandoEvent,
'octave-shift' : musicexp.OctaveShiftEvent,
'pedal' : musicexp.PedalEvent,
'slide' : musicexp.GlissandoEvent,
'slur' : musicexp.SlurEvent,
'wavy-line' : musicexp.TrillSpanEvent,
'wedge' : musicexp.HairpinEvent
}
spanner_type_dict = {
'start': -1,
'begin': -1,
'crescendo': -1,
'decreschendo': -1,
'diminuendo': -1,
'continue': 0,
'change': 0,
'up': -1,
'down': -1,
'stop': 1,
'end' : 1
}
def musicxml_spanner_to_lily_event (mxl_event):
ev = None
name = mxl_event.get_name()
func = spanner_event_dict.get (name)
if func:
ev = func()
else:
ly.warning (_ ('unknown span event %s') % mxl_event)
type = mxl_event.get_type ()
span_direction = spanner_type_dict.get (type)
# really check for None, because some types will be translated to 0, which
# would otherwise also lead to the unknown span warning
if span_direction != None:
ev.span_direction = span_direction
else:
ly.warning (_ ('unknown span type %s for %s') % (type, name))
ev.set_span_type (type)
ev.line_type = getattr (mxl_event, 'line-type', 'solid')
# assign the size, which is used for octave-shift, etc.
ev.size = mxl_event.get_size ()
return ev
def musicxml_direction_to_indicator (direction):
return { "above": 1, "upright": 1, "up": 1, "below": -1, "downright": -1, "down": -1, "inverted": -1 }.get (direction, 0)
def musicxml_fermata_to_lily_event (mxl_event):
ev = musicexp.ArticulationEvent ()
txt = mxl_event.get_text ()
# The contents of the element defined the shape, possible are normal, angled and square
ev.type = { "angled": "shortfermata", "square": "longfermata" }.get (txt, "fermata")
if hasattr (mxl_event, 'type'):
dir = musicxml_direction_to_indicator (mxl_event.type)
if dir and options.convert_directions:
ev.force_direction = dir
return ev
def musicxml_arpeggiate_to_lily_event (mxl_event):
ev = musicexp.ArpeggioEvent ()
ev.direction = musicxml_direction_to_indicator (getattr (mxl_event, 'direction', None))
return ev
def musicxml_nonarpeggiate_to_lily_event (mxl_event):
ev = musicexp.ArpeggioEvent ()
ev.non_arpeggiate = True
ev.direction = musicxml_direction_to_indicator (getattr (mxl_event, 'direction', None))
return ev
def musicxml_tremolo_to_lily_event (mxl_event):
ev = musicexp.TremoloEvent ()
txt = mxl_event.get_text ()
if txt:
ev.bars = txt
else:
ev.bars = "3"
return ev
def musicxml_falloff_to_lily_event (mxl_event):
ev = musicexp.BendEvent ()
ev.alter = -4
return ev
def musicxml_doit_to_lily_event (mxl_event):
ev = musicexp.BendEvent ()
ev.alter = 4
return ev
def musicxml_bend_to_lily_event (mxl_event):
ev = musicexp.BendEvent ()
ev.alter = mxl_event.bend_alter ()
return ev
def musicxml_caesura_to_lily_event (mxl_event):
ev = musicexp.MarkupEvent ()
# FIXME: default to straight or curved caesura?
ev.contents = "\\musicglyph #\"scripts.caesura.straight\""
ev.force_direction = 1
return ev
def musicxml_fingering_event (mxl_event):
ev = musicexp.ShortArticulationEvent ()
ev.type = mxl_event.get_text ()
return ev
def musicxml_string_event (mxl_event):
ev = musicexp.NoDirectionArticulationEvent ()
ev.type = mxl_event.get_text ()
return ev
def musicxml_accidental_mark (mxl_event):
ev = musicexp.MarkupEvent ()
contents = { "sharp": "\\sharp",
"natural": "\\natural",
"flat": "\\flat",
"double-sharp": "\\doublesharp",
"sharp-sharp": "\\sharp\\sharp",
"flat-flat": "\\flat\\flat",
"flat-flat": "\\doubleflat",
"natural-sharp": "\\natural\\sharp",
"natural-flat": "\\natural\\flat",
"quarter-flat": "\\semiflat",
"quarter-sharp": "\\semisharp",
"three-quarters-flat": "\\sesquiflat",
"three-quarters-sharp": "\\sesquisharp",
}.get (mxl_event.get_text ())
if contents:
ev.contents = contents
return ev
else:
return None
# translate articulations, ornaments and other notations into ArticulationEvents
# possible values:
# -) string (ArticulationEvent with that name)
# -) function (function(mxl_event) needs to return a full ArticulationEvent-derived object
# -) (class, name) (like string, only that a different class than ArticulationEvent is used)
# TODO: Some translations are missing!
articulations_dict = {
"accent": (musicexp.ShortArticulationEvent, ">"), # or "accent"
"accidental-mark": musicxml_accidental_mark,
"bend": musicxml_bend_to_lily_event,
"breath-mark": (musicexp.NoDirectionArticulationEvent, "breathe"),
"caesura": musicxml_caesura_to_lily_event,
#"delayed-turn": "?",
"detached-legato": (musicexp.ShortArticulationEvent, "_"), # or "portato"
"doit": musicxml_doit_to_lily_event,
#"double-tongue": "?",
"down-bow": "downbow",
"falloff": musicxml_falloff_to_lily_event,
"fingering": musicxml_fingering_event,
#"fingernails": "?",
#"fret": "?",
#"hammer-on": "?",
"harmonic": "flageolet",
#"heel": "?",
"inverted-mordent": "prall",
"inverted-turn": "reverseturn",
"mordent": "mordent",
"open-string": "open",
#"plop": "?",
#"pluck": "?",
#"pull-off": "?",
#"schleifer": "?",
#"scoop": "?",
#"shake": "?",
"snap-pizzicato": "snappizzicato",
#"spiccato": "?",
"staccatissimo": (musicexp.ShortArticulationEvent, "!"), # or "staccatissimo"
"staccato": (musicexp.ShortArticulationEvent, "."), # or "staccato"
"stopped": (musicexp.ShortArticulationEvent, "+"), # or "stopped"
#"stress": "?",
"string": musicxml_string_event,
"strong-accent": (musicexp.ShortArticulationEvent, "^"), # or "marcato"
#"tap": "?",
"tenuto": (musicexp.ShortArticulationEvent, "-"), # or "tenuto"
"thumb-position": "thumb",
#"toe": "?",
"turn": "turn",
"tremolo": musicxml_tremolo_to_lily_event,
"trill-mark": "trill",
#"triple-tongue": "?",
#"unstress": "?"
"up-bow": "upbow",
#"wavy-line": "?",
}
articulation_spanners = [ "wavy-line" ]
def musicxml_articulation_to_lily_event (mxl_event):
# wavy-line elements are treated as trill spanners, not as articulation ornaments
if mxl_event.get_name () in articulation_spanners:
return musicxml_spanner_to_lily_event (mxl_event)
tmp_tp = articulations_dict.get (mxl_event.get_name ())
if not tmp_tp:
return
if isinstance (tmp_tp, str):
ev = musicexp.ArticulationEvent ()
ev.type = tmp_tp
elif isinstance (tmp_tp, tuple):
ev = tmp_tp[0] ()
ev.type = tmp_tp[1]
else:
ev = tmp_tp (mxl_event)
# Some articulations use the type attribute, other the placement...
dir = None
if hasattr (mxl_event, 'type') and options.convert_directions:
dir = musicxml_direction_to_indicator (mxl_event.type)
if hasattr (mxl_event, 'placement') and options.convert_directions:
dir = musicxml_direction_to_indicator (mxl_event.placement)
if dir:
ev.force_direction = dir
return ev
def musicxml_dynamics_to_lily_event (dynentry):
dynamics_available = (
"ppppp", "pppp", "ppp", "pp", "p", "mp", "mf",
"f", "ff", "fff", "ffff", "fp", "sf", "sff", "sp", "spp", "sfz", "rfz" )
dynamicsname = dynentry.get_name ()
if dynamicsname == "other-dynamics":
dynamicsname = dynentry.get_text ()
if not dynamicsname or dynamicsname == "#text":
return
if not dynamicsname in dynamics_available:
# Get rid of - in tag names (illegal in ly tags!)
dynamicstext = dynamicsname
dynamicsname = string.replace (dynamicsname, "-", "")
additional_definitions[dynamicsname] = dynamicsname + \
" = #(make-dynamic-script \"" + dynamicstext + "\")"
needed_additional_definitions.append (dynamicsname)
event = musicexp.DynamicsEvent ()
event.type = dynamicsname
return event
# Convert single-color two-byte strings to numbers 0.0 - 1.0
def hexcolorval_to_nr (hex_val):
try:
v = int (hex_val, 16)
if v == 255:
v = 256
return v / 256.
except ValueError:
return 0.
def hex_to_color (hex_val):
res = re.match (r'#([0-9a-f][0-9a-f]|)([0-9a-f][0-9a-f])([0-9a-f][0-9a-f])([0-9a-f][0-9a-f])$', hex_val, re.IGNORECASE)
if res:
return map (lambda x: hexcolorval_to_nr (x), res.group (2, 3, 4))
else:
return None
def musicxml_words_to_lily_event (words):
event = musicexp.TextEvent ()
text = words.get_text ()
text = re.sub ('^ *\n? *', '', text)
text = re.sub (' *\n? *$', '', text)
event.text = text
if hasattr (words, 'default-y') and options.convert_directions:
offset = getattr (words, 'default-y')
try:
off = string.atoi (offset)
if off > 0:
event.force_direction = 1
else:
event.force_direction = -1
except ValueError:
event.force_direction = 0
if hasattr (words, 'font-weight'):
font_weight = { "normal": '', "bold": '\\bold' }.get (getattr (words, 'font-weight'), '')
if font_weight:
event.markup += font_weight
if hasattr (words, 'font-size'):
size = getattr (words, 'font-size')
font_size = {
"xx-small": '\\teeny',
"x-small": '\\tiny',
"small": '\\small',
"medium": '',
"large": '\\large',
"x-large": '\\huge',
"xx-large": '\\larger\\huge'
}.get (size, '')
if font_size:
event.markup += font_size
if hasattr (words, 'color'):
color = getattr (words, 'color')
rgb = hex_to_color (color)
if rgb:
event.markup += "\\with-color #(rgb-color %s %s %s)" % (rgb[0], rgb[1], rgb[2])
if hasattr (words, 'font-style'):
font_style = { "italic": '\\italic' }.get (getattr (words, 'font-style'), '')
if font_style:
event.markup += font_style
# TODO: How should I best convert the font-family attribute?
# TODO: How can I represent the underline, overline and line-through
# attributes in LilyPond? Values of these attributes indicate
# the number of lines
return event
# convert accordion-registration to lilypond.
# Since lilypond does not have any built-in commands, we need to create
# the markup commands manually and define our own variables.
# Idea was taken from: http://lsr.dsi.unimi.it/LSR/Item?id=194
def musicxml_accordion_to_markup (mxl_event):
commandname = "accReg"
command = ""
high = mxl_event.get_maybe_exist_named_child ('accordion-high')
if high:
commandname += "H"
command += """\\combine
\\raise #2.5 \\musicglyph #\"accordion.dot\"
"""
middle = mxl_event.get_maybe_exist_named_child ('accordion-middle')
if middle:
# By default, use one dot (when no or invalid content is given). The
# MusicXML spec is quiet about this case...
txt = 1
try:
txt = string.atoi (middle.get_text ())
except ValueError:
pass
if txt == 3:
commandname += "MMM"
command += """\\combine
\\raise #1.5 \\musicglyph #\"accordion.dot\"
\\combine
\\raise #1.5 \\translate #(cons 1 0) \\musicglyph #\"accordion.dot\"
\\combine
\\raise #1.5 \\translate #(cons -1 0) \\musicglyph #\"accordion.dot\"
"""
elif txt == 2:
commandname += "MM"
command += """\\combine
\\raise #1.5 \\translate #(cons 0.5 0) \\musicglyph #\"accordion.dot\"
\\combine
\\raise #1.5 \\translate #(cons -0.5 0) \\musicglyph #\"accordion.dot\"
"""
elif not txt <= 0:
commandname += "M"
command += """\\combine
\\raise #1.5 \\musicglyph #\"accordion.dot\"
"""
low = mxl_event.get_maybe_exist_named_child ('accordion-low')
if low:
commandname += "L"
command += """\\combine
\\raise #0.5 \musicglyph #\"accordion.dot\"
"""
command += "\musicglyph #\"accordion.discant\""
command = "\\markup { \\normalsize %s }" % command
# Define the newly built command \accReg[H][MMM][L]
additional_definitions[commandname] = "%s = %s" % (commandname, command)
needed_additional_definitions.append (commandname)
return "\\%s" % commandname
def musicxml_accordion_to_ly (mxl_event):
txt = musicxml_accordion_to_markup (mxl_event)
if txt:
ev = musicexp.MarkEvent (txt)
return ev
return
def musicxml_rehearsal_to_ly_mark (mxl_event):
text = mxl_event.get_text ()
if not text:
return
# default is boxed rehearsal marks!
encl = "box"
if hasattr (mxl_event, 'enclosure'):
encl = {"none": None, "square": "box", "circle": "circle" }.get (mxl_event.enclosure, None)
if encl:
text = "\\%s { %s }" % (encl, text)
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 ("\\markup { \\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:
ly.warning (_ ("Unknown metronome mark, ignoring"))
return
return ev
else:
#TODO: Implement the other (more complex) way for tempo marks!
ly.warning (_ ("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
# -) (class, name) (like string, only that a different class than MarkEvent is used)
directions_dict = {
'accordion-registration' : musicxml_accordion_to_ly,
'coda' : (musicexp.MusicGlyphMarkEvent, "coda"),
# 'damp' : ???
# 'damp-all' : ???
'eyeglasses': musicxml_eyeglasses_to_ly,
'harp-pedals' : musicxml_harp_pedals_to_ly,
# 'image' : ???
'metronome' : musicxml_metronome_to_ly,
'rehearsal' : musicxml_rehearsal_to_ly_mark,
# 'scordatura' : ???
'segno' : (musicexp.MusicGlyphMarkEvent, "segno"),
'words' : musicxml_words_to_lily_event,
}
directions_spanners = [ 'octave-shift', 'pedal', 'wedge', 'dashes', 'bracket' ]
def musicxml_direction_to_lily (n):
# TODO: Handle the <staff> element!
res = []
# placement applies to all children!
dir = None
if hasattr (n, 'placement') and options.convert_directions:
dir = musicxml_direction_to_indicator (n.placement)
dirtype_children = []
# TODO: The direction-type is used for grouping (e.g. dynamics with text),
# so we can't simply flatten them out!
for dt in n.get_typed_children (musicxml.DirType):
dirtype_children += dt.get_all_children ()
for entry in dirtype_children:
# backets, dashes, octave shifts. pedal marks, hairpins etc. are spanners:
if entry.get_name() in directions_spanners:
event = musicxml_spanner_to_lily_event (entry)
if event:
res.append (event)
continue
# now treat all the "simple" ones, that can be translated using the dict
ev = None
tmp_tp = directions_dict.get (entry.get_name (), None)
if isinstance (tmp_tp, str): # string means MarkEvent
ev = musicexp.MarkEvent (tmp_tp)
elif isinstance (tmp_tp, tuple): # tuple means (EventClass, "text")
ev = tmp_tp[0] (tmp_tp[1])
elif tmp_tp:
ev = tmp_tp (entry)
if ev:
# TODO: set the correct direction! Unfortunately, \mark in ly does
# not seem to support directions!
ev.force_direction = dir
res.append (ev)
continue
if entry.get_name () == "dynamics":
for dynentry in entry.get_all_children ():
ev = musicxml_dynamics_to_lily_event (dynentry)
if ev:
res.append (ev)
return res
def musicxml_frame_to_lily_event (frame):
ev = musicexp.FretEvent ()
ev.strings = frame.get_strings ()
ev.frets = frame.get_frets ()
#offset = frame.get_first_fret () - 1
barre = []
for fn in frame.get_named_children ('frame-note'):
fret = fn.get_fret ()
if fret <= 0:
fret = "o"
el = [ fn.get_string (), fret ]
fingering = fn.get_fingering ()
if fingering >= 0:
el.append (fingering)
ev.elements.append (el)
b = fn.get_barre ()
if b == 'start':
barre[0] = el[0] # start string
barre[2] = el[1] # fret
elif b == 'stop':
barre[1] = el[0] # end string
if barre:
ev.barre = barre
return ev
def musicxml_harmony_to_lily (n):
res = []
for f in n.get_named_children ('frame'):
ev = musicxml_frame_to_lily_event (f)
if ev:
res.append (ev)
return res
notehead_styles_dict = {
'slash': '\'slash',
'triangle': '\'triangle',
'diamond': '\'diamond',
'square': '\'la', # TODO: Proper squared note head
'cross': None, # TODO: + shaped note head
'x': '\'cross',
'circle-x': '\'xcircle',
'inverted triangle': None, # TODO: Implement
'arrow down': None, # TODO: Implement
'arrow up': None, # TODO: Implement
'slashed': None, # TODO: Implement
'back slashed': None, # TODO: Implement
'normal': None,
'cluster': None, # TODO: Implement
'none': '#f',
'do': '\'do',
're': '\'re',
'mi': '\'mi',
'fa': '\'fa',
'so': None,
'la': '\'la',
'ti': '\'ti',
}
def musicxml_notehead_to_lily (nh):
styles = []
# Notehead style
style = notehead_styles_dict.get (nh.get_text ().strip (), None)
style_elm = musicexp.NotestyleEvent ()
if style:
style_elm.style = style
if hasattr (nh, 'filled'):
style_elm.filled = (getattr (nh, 'filled') == "yes")
if style_elm.style or (style_elm.filled != None):
styles.append (style_elm)
# parentheses
if hasattr (nh, 'parentheses') and (nh.parentheses == "yes"):
styles.append (musicexp.ParenthesizeEvent ())
return styles
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',
'dominant-seventh': '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:
ly.warning (_ ("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
def musicxml_figured_bass_note_to_lily (n):
res = musicexp.FiguredBassNote ()
suffix_dict = { 'sharp' : "+",
'flat' : "-",
'natural' : "!",
'double-sharp' : "++",
'flat-flat' : "--",
'sharp-sharp' : "++",
'slash' : "/" }
prefix = n.get_maybe_exist_named_child ('prefix')
if prefix:
res.set_prefix (suffix_dict.get (prefix.get_text (), ""))
fnumber = n.get_maybe_exist_named_child ('figure-number')
if fnumber:
res.set_number (fnumber.get_text ())
suffix = n.get_maybe_exist_named_child ('suffix')
if suffix:
res.set_suffix (suffix_dict.get (suffix.get_text (), ""))
if n.get_maybe_exist_named_child ('extend'):
# TODO: Implement extender lines (unfortunately, in lilypond you have
# to use \set useBassFigureExtenders = ##t, which turns them on
# globally, while MusicXML has a property for each note...
# I'm not sure there is a proper way to implement this cleanly
#n.extend
pass
return res
def musicxml_figured_bass_to_lily (n):
if not isinstance (n, musicxml.FiguredBass):
return
res = musicexp.FiguredBassEvent ()
for i in n.get_named_children ('figure'):
note = musicxml_figured_bass_note_to_lily (i)
if note:
res.append (note)
dur = n.get_maybe_exist_named_child ('duration')
if dur:
# apply the duration to res
length = Rational(int(dur.get_text()), n._divisions) * Rational(1, 4)
res.set_real_duration (length)
duration = rational_to_lily_duration (length)
if duration:
res.set_duration (duration)
if hasattr (n, 'parentheses') and n.parentheses == "yes":
res.set_parentheses (True)
return res
instrument_drumtype_dict = {
'Acoustic Snare Drum': 'acousticsnare',
'Side Stick': 'sidestick',
'Open Triangle': 'opentriangle',
'Mute Triangle': 'mutetriangle',
'Tambourine': 'tambourine',
'Bass Drum': 'bassdrum',
}
def musicxml_note_to_lily_main_event (n):
pitch = None
duration = None
event = None
mxl_pitch = n.get_maybe_exist_typed_child (musicxml.Pitch)
if mxl_pitch:
pitch = musicxml_pitch_to_lily (mxl_pitch)
event = musicexp.NoteEvent ()
event.pitch = pitch
acc = n.get_maybe_exist_named_child ('accidental')
if acc:
# AccidentalCautionary in lily has parentheses
# so treat accidental explicitly in parentheses as cautionary
if hasattr(acc, 'parentheses') and acc.parentheses == "yes":
event.cautionary = True
else:
event.cautionary = acc.cautionary
# TODO: Handle editorial accidentals
# TODO: Handle the level-display setting for displaying brackets/parentheses
elif n.get_maybe_exist_typed_child (musicxml.Unpitched):
# Unpitched elements have display-step and can also have
# display-octave.
unpitched = n.get_maybe_exist_typed_child (musicxml.Unpitched)
event = musicexp.NoteEvent ()
event.pitch = musicxml_unpitched_to_lily (unpitched)
elif n.get_maybe_exist_typed_child (musicxml.Rest):
# rests can have display-octave and display-step, which are
# treated like an ordinary note pitch
rest = n.get_maybe_exist_typed_child (musicxml.Rest)
event = musicexp.RestEvent ()
if options.convert_rest_positions:
pitch = musicxml_restdisplay_to_lily (rest)
event.pitch = pitch
elif n.instrument_name:
event = musicexp.NoteEvent ()
drum_type = instrument_drumtype_dict.get (n.instrument_name)
if drum_type:
event.drum_type = drum_type
else:
n.message (_ ("drum %s type unknown, please add to instrument_drumtype_dict") % n.instrument_name)
event.drum_type = 'acousticsnare'
else:
n.message (_ ("cannot find suitable event"))
if event:
event.duration = musicxml_duration_to_lily (n)
noteheads = n.get_named_children ('notehead')
for nh in noteheads:
styles = musicxml_notehead_to_lily (nh)
for s in styles:
event.add_associated_event (s)
return event
def musicxml_lyrics_to_text (lyrics):
# TODO: Implement text styles for lyrics syllables
continued = False
extended = False
text = ''
for e in lyrics.get_all_children ():
if isinstance (e, musicxml.Syllabic):
continued = e.continued ()
elif isinstance (e, musicxml.Text):
# We need to convert soft hyphens to -, otherwise the ascii codec as well
# as lilypond will barf on that character
text += string.replace( e.get_text(), u'\xad', '-' )
elif isinstance (e, musicxml.Elision):
if text:
text += " "
continued = False
extended = False
elif isinstance (e, musicxml.Extend):
if text:
text += " "
extended = True
if text == "-" and continued:
return "--"
elif text == "_" and extended:
return "__"
elif continued and text:
return musicxml.escape_ly_output_string (text) + " --"
elif continued:
return "--"
elif extended and text:
return musicxml.escape_ly_output_string (text) + " __"
elif extended:
return "__"
elif text:
return musicxml.escape_ly_output_string (text)
else:
return ""
## TODO
class NegativeSkip:
def __init__ (self, here, dest):
self.here = here
self.dest = dest
class LilyPondVoiceBuilder:
def __init__ (self):
self.elements = []
self.pending_dynamics = []
self.end_moment = Rational (0)
self.begin_moment = Rational (0)
self.pending_multibar = Rational (0)
self.ignore_skips = False
self.has_relevant_elements = False
self.measure_length = Rational (4, 4)
def _insert_multibar (self):
layout_information.set_context_item ('Score', 'skipBars = ##t')
r = musicexp.MultiMeasureRest ()
lenfrac = self.measure_length
r.duration = rational_to_lily_duration (lenfrac)
r.duration.factor *= self.pending_multibar / lenfrac
self.elements.append (r)
self.begin_moment = self.end_moment
self.end_moment = self.begin_moment + self.pending_multibar
self.pending_multibar = Rational (0)
def set_measure_length (self, mlen):
if (mlen != self.measure_length) and self.pending_multibar:
self._insert_multibar ()
self.measure_length = mlen
def add_multibar_rest (self, duration):
self.pending_multibar += duration
def set_duration (self, duration):
self.end_moment = self.begin_moment + duration
def current_duration (self):
return self.end_moment - self.begin_moment
def add_music (self, music, duration, relevant=True):
assert isinstance (music, musicexp.Music)
if self.pending_multibar > Rational (0):
self._insert_multibar ()
self.has_relevant_elements = self.has_relevant_elements or relevant
self.elements.append (music)
self.begin_moment = self.end_moment
self.set_duration (duration)
# Insert all pending dynamics right after the note/rest:
if isinstance (music, musicexp.ChordEvent) and self.pending_dynamics:
for d in self.pending_dynamics:
music.append (d)
self.pending_dynamics = []
# Insert some music command that does not affect the position in the measure
def add_command (self, command, relevant=True):
assert isinstance (command, musicexp.Music)
if self.pending_multibar > Rational (0):
self._insert_multibar ()
self.has_relevant_elements = self.has_relevant_elements or relevant
self.elements.append (command)
def add_barline (self, barline, relevant=False):
# Insert only if we don't have a barline already
# TODO: Implement proper merging of default barline and custom bar line
has_relevant = self.has_relevant_elements
if (not (self.elements) or
not (isinstance (self.elements[-1], musicexp.BarLine)) or
(self.pending_multibar > Rational (0))):
self.add_music (barline, Rational (0))
self.has_relevant_elements = has_relevant or relevant
def add_partial (self, command):
self.ignore_skips = True
# insert the partial, but restore relevant_elements (partial is not relevant)
relevant = self.has_relevant_elements
self.add_command (command)
self.has_relevant_elements = relevant
def add_dynamics (self, dynamic):
# store the dynamic item(s) until we encounter the next note/rest:
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
b = musicexp.BarLine ()
b.bar_number = number
self.add_barline (b)
def jumpto (self, moment):
current_end = self.end_moment + self.pending_multibar
diff = moment - current_end
if diff < Rational (0):
ly.warning (_ ('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):
skip = musicexp.SkipEvent()
duration_factor = 1
duration_log = {1: 0, 2: 1, 4:2, 8:3, 16:4, 32:5, 64:6, 128:7, 256:8, 512:9}.get (diff.denominator (), -1)
duration_dots = 0
# TODO: Use the time signature for skips, too. Problem: The skip
# might not start at a measure boundary!
if duration_log > 0: # denominator is a power of 2...
if diff.numerator () == 3:
duration_log -= 1
duration_dots = 1
else:
duration_factor = Rational (diff.numerator ())
else:
# for skips of a whole or more, simply use s1*factor
duration_log = 0
duration_factor = diff
skip.duration.duration_log = duration_log
skip.duration.factor = duration_factor
skip.duration.dots = duration_dots
evc = musicexp.ChordEvent ()
evc.elements.append (skip)
self.add_music (evc, diff, False)
if diff > Rational (0) and moment == 0:
self.ignore_skips = False
def last_event_chord (self, starting_at):
value = None
# if the position matches, find the last ChordEvent, do not cross a bar line!
at = len(self.elements) - 1
while (at >= 0 and
not isinstance (self.elements[at], musicexp.ChordEvent) and
not isinstance (self.elements[at], musicexp.BarLine)):
at -= 1
if (self.elements
and at >= 0
and isinstance (self.elements[at], musicexp.ChordEvent)
and self.begin_moment == starting_at):
value = self.elements[at]
else:
self.jumpto (starting_at)
value = None
return value
def correct_negative_skip (self, goto):
self.end_moment = goto
self.begin_moment = goto
evc = musicexp.ChordEvent ()
self.elements.append (evc)
class VoiceData:
def __init__ (self):
self.voicename = None
self.voicedata = None
self.ly_voice = None
self.figured_bass = None
self.chordnames = None
self.lyrics_dict = {}
self.lyrics_order = []
def measure_length_from_attributes (attr, current_measure_length):
len = attr.get_measure_length ()
if not len:
len = current_measure_length
return len
def musicxml_voice_to_lily_voice (voice):
tuplet_events = []
modes_found = {}
lyrics = {}
return_value = VoiceData ()
return_value.voicedata = voice
# First pitch needed for relative mode (if selected in command-line options)
first_pitch = None
# Needed for melismata detection (ignore lyrics on those notes!):
inside_slur = False
is_tied = False
is_chord = False
is_beamed = False
ignore_lyrics = False
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,
# a dict will reorder its keys
return_value.lyrics_order = voice.get_lyrics_numbers ()
for k in return_value.lyrics_order:
lyrics[k] = []
voice_builder = LilyPondVoiceBuilder ()
figured_bass_builder = LilyPondVoiceBuilder ()
chordnames_builder = LilyPondVoiceBuilder ()
current_measure_length = Rational (4, 4)
voice_builder.set_measure_length (current_measure_length)
for n in voice._elements:
tie_started = False
if n.get_name () == 'forward':
continue
staff = n.get_maybe_exist_named_child ('staff')
if staff:
staff = staff.get_text ()
if current_staff and staff <> current_staff and not n.get_maybe_exist_named_child ('chord'):
voice_builder.add_command (musicexp.StaffChange (staff))
current_staff = staff
if isinstance (n, musicxml.Partial) and n.partial > 0:
a = musicxml_partial_to_lily (n.partial)
if a:
voice_builder.add_partial (a)
figured_bass_builder.add_partial (a)
chordnames_builder.add_partial (a)
continue
is_chord = n.get_maybe_exist_named_child ('chord')
is_after_grace = (isinstance (n, musicxml.Note) and n.is_after_grace ());
if not is_chord and not is_after_grace:
try:
voice_builder.jumpto (n._when)
figured_bass_builder.jumpto (n._when)
chordnames_builder.jumpto (n._when)
except NegativeSkip, neg:
voice_builder.correct_negative_skip (n._when)
figured_bass_builder.correct_negative_skip (n._when)
chordnames_builder.correct_negative_skip (n._when)
n.message (_ ("Negative skip found: from %s to %s, difference is %s") % (neg.here, neg.dest, neg.dest - neg.here))
if isinstance (n, musicxml.Barline):
barlines = musicxml_barline_to_lily (n)
for a in barlines:
if isinstance (a, musicexp.BarLine):
voice_builder.add_barline (a)
figured_bass_builder.add_barline (a, False)
chordnames_builder.add_barline (a, False)
elif isinstance (a, RepeatMarker) or isinstance (a, EndingMarker):
voice_builder.add_command (a)
figured_bass_builder.add_barline (a, False)
chordnames_builder.add_barline (a, False)
continue
if isinstance (n, musicxml.Print):
for a in musicxml_print_to_lily (n):
voice_builder.add_command (a, False)
continue
# Continue any multimeasure-rests before trying to add bar checks!
# Don't handle new MM rests yet, because for them we want bar checks!
rest = n.get_maybe_exist_typed_child (musicxml.Rest)
if (rest and rest.is_whole_measure ()
and voice_builder.pending_multibar > Rational (0)):
voice_builder.add_multibar_rest (n._duration)
continue
# print a bar check at the beginning of each measure!
if n.is_first () and n._measure_position == Rational (0) and n != voice._elements[0]:
try:
num = int (n.get_parent ().number)
except ValueError:
num = 0
if num > 0:
voice_builder.add_bar_check (num)
figured_bass_builder.add_bar_check (num)
chordnames_builder.add_bar_check (num)
# Start any new multimeasure rests
if (rest and rest.is_whole_measure ()):
voice_builder.add_multibar_rest (n._duration)
continue
if isinstance (n, musicxml.Direction):
for a in musicxml_direction_to_lily (n):
if a.wait_for_note ():
voice_builder.add_dynamics (a)
else:
voice_builder.add_command (a)
continue
if isinstance (n, musicxml.Harmony):
for a in musicxml_harmony_to_lily (n):
if a.wait_for_note ():
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:
pending_figured_bass.append (a)
continue
if isinstance (n, musicxml.Attributes):
for a in musicxml_attributes_to_lily (n):
voice_builder.add_command (a)
measure_length = measure_length_from_attributes (n, current_measure_length)
if current_measure_length != measure_length:
current_measure_length = measure_length
voice_builder.set_measure_length (current_measure_length)
continue
if not n.__class__.__name__ == 'Note':
n.message (_ ('unexpected %s; expected %s or %s or %s') % (n, 'Note', 'Attributes', 'Barline'))
continue
main_event = musicxml_note_to_lily_main_event (n)
if main_event and not first_pitch:
first_pitch = main_event.pitch
# ignore lyrics for notes inside a slur, tie, chord or beam
ignore_lyrics = inside_slur or is_tied or is_chord or is_beamed
if main_event and hasattr (main_event, 'drum_type') and main_event.drum_type:
modes_found['drummode'] = True
ev_chord = voice_builder.last_event_chord (n._when)
if not ev_chord:
ev_chord = musicexp.ChordEvent()
voice_builder.add_music (ev_chord, n._duration)
# For grace notes:
grace = n.get_maybe_exist_typed_child (musicxml.Grace)
if n.is_grace ():
is_after_grace = ev_chord.has_elements () or n.is_after_grace ();
is_chord = n.get_maybe_exist_typed_child (musicxml.Chord)
grace_chord = None
# after-graces and other graces use different lists; Depending on
# whether we have a chord or not, obtain either a new ChordEvent or
# the previous one to create a chord
if is_after_grace:
if ev_chord.after_grace_elements and n.get_maybe_exist_typed_child (musicxml.Chord):
grace_chord = ev_chord.after_grace_elements.get_last_event_chord ()
if not grace_chord:
grace_chord = musicexp.ChordEvent ()
ev_chord.append_after_grace (grace_chord)
elif n.is_grace ():
if ev_chord.grace_elements and n.get_maybe_exist_typed_child (musicxml.Chord):
grace_chord = ev_chord.grace_elements.get_last_event_chord ()
if not grace_chord:
grace_chord = musicexp.ChordEvent ()
ev_chord.append_grace (grace_chord)
if hasattr (grace, 'slash') and not is_after_grace:
# TODO: use grace_type = "appoggiatura" for slurred grace notes
if grace.slash == "yes":
ev_chord.grace_type = "acciaccatura"
# now that we have inserted the chord into the grace music, insert
# everything into that chord instead of the ev_chord
ev_chord = grace_chord
ev_chord.append (main_event)
ignore_lyrics = True
else:
ev_chord.append (main_event)
# When a note/chord has grace notes (duration==0), the duration of the
# event chord is not yet known, but the event chord was already added
# with duration 0. The following correct this when we hit the real note!
if voice_builder.current_duration () == 0 and n._duration > 0:
voice_builder.set_duration (n._duration)
# 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:
# 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)
tuplet_event = None
span_events = []
# The <notation> element can have the following children (+ means implemented, ~ partially, - not):
# +tied | +slur | +tuplet | glissando | slide |
# ornaments | technical | articulations | dynamics |
# +fermata | arpeggiate | non-arpeggiate |
# accidental-mark | other-notation
for notations in notations_children:
for tuplet_event in notations.get_tuplets():
time_mod = n.get_maybe_exist_typed_child (musicxml.Time_modification)
tuplet_events.append ((ev_chord, tuplet_event, time_mod))
# First, close all open slurs, only then start any new slur
# TODO: Record the number of the open slur to dtermine the correct
# closing slur!
endslurs = [s for s in notations.get_named_children ('slur')
if s.get_type () in ('stop')]
if endslurs and not inside_slur:
endslurs[0].message (_ ('Encountered closing slur, but no slur is open'))
elif endslurs:
if len (endslurs) > 1:
endslurs[0].message (_ ('Cannot have two simultaneous (closing) slurs'))
# record the slur status for the next note in the loop
inside_slur = False
lily_ev = musicxml_spanner_to_lily_event (endslurs[0])
ev_chord.append (lily_ev)
startslurs = [s for s in notations.get_named_children ('slur')
if s.get_type () in ('start')]
if startslurs and inside_slur:
startslurs[0].message (_ ('Cannot have a slur inside another slur'))
elif startslurs:
if len (startslurs) > 1:
startslurs[0].message (_ ('Cannot have two simultaneous slurs'))
# record the slur status for the next note in the loop
inside_slur = True
lily_ev = musicxml_spanner_to_lily_event (startslurs[0])
ev_chord.append (lily_ev)
if not grace:
mxl_tie = notations.get_tie ()
if mxl_tie and mxl_tie.type == 'start':
ev_chord.append (musicexp.TieEvent ())
is_tied = True
tie_started = True
else:
is_tied = False
fermatas = notations.get_named_children ('fermata')
for a in fermatas:
ev = musicxml_fermata_to_lily_event (a)
if ev:
ev_chord.append (ev)
arpeggiate = notations.get_named_children ('arpeggiate')
for a in arpeggiate:
ev = musicxml_arpeggiate_to_lily_event (a)
if ev:
ev_chord.append (ev)
arpeggiate = notations.get_named_children ('non-arpeggiate')
for a in arpeggiate:
ev = musicxml_nonarpeggiate_to_lily_event (a)
if ev:
ev_chord.append (ev)
glissandos = notations.get_named_children ('glissando')
glissandos += notations.get_named_children ('slide')
for a in glissandos:
ev = musicxml_spanner_to_lily_event (a)
if ev:
ev_chord.append (ev)
# accidental-marks are direct children of <notation>!
for a in notations.get_named_children ('accidental-mark'):
ev = musicxml_articulation_to_lily_event (a)
if ev:
ev_chord.append (ev)
# Articulations can contain the following child elements:
# accent | strong-accent | staccato | tenuto |
# detached-legato | staccatissimo | spiccato |
# scoop | plop | doit | falloff | breath-mark |
# caesura | stress | unstress
# Technical can contain the following child elements:
# up-bow | down-bow | harmonic | open-string |
# thumb-position | fingering | pluck | double-tongue |
# triple-tongue | stopped | snap-pizzicato | fret |
# string | hammer-on | pull-off | bend | tap | heel |
# toe | fingernails | other-technical
# Ornaments can contain the following child elements:
# trill-mark | turn | delayed-turn | inverted-turn |
# shake | wavy-line | mordent | inverted-mordent |
# schleifer | tremolo | other-ornament, accidental-mark
ornaments = notations.get_named_children ('ornaments')
ornaments += notations.get_named_children ('articulations')
ornaments += notations.get_named_children ('technical')
for a in ornaments:
for ch in a.get_all_children ():
ev = musicxml_articulation_to_lily_event (ch)
if ev:
ev_chord.append (ev)
dynamics = notations.get_named_children ('dynamics')
for a in dynamics:
for ch in a.get_all_children ():
ev = musicxml_dynamics_to_lily_event (ch)
if ev:
ev_chord.append (ev)
mxl_beams = [b for b in n.get_named_children ('beam')
if (b.get_type () in ('begin', 'end')
and b.is_primary ())]
if mxl_beams and not conversion_settings.ignore_beaming:
beam_ev = musicxml_spanner_to_lily_event (mxl_beams[0])
if beam_ev:
ev_chord.append (beam_ev)
if beam_ev.span_direction == -1: # beam and thus melisma starts here
is_beamed = True
elif beam_ev.span_direction == 1: # beam and thus melisma ends here
is_beamed = False
# Extract the lyrics
if not rest and not ignore_lyrics:
note_lyrics_processed = []
note_lyrics_elements = n.get_typed_children (musicxml.Lyric)
for l in note_lyrics_elements:
if l.get_number () < 0:
for k in lyrics.keys ():
lyrics[k].append (musicxml_lyrics_to_text (l))
note_lyrics_processed.append (k)
else:
lyrics[l.number].append(musicxml_lyrics_to_text (l))
note_lyrics_processed.append (l.number)
for lnr in lyrics.keys ():
if not lnr in note_lyrics_processed:
lyrics[lnr].append ("\skip4")
# Assume that a <tie> element only lasts for one note.
# This might not be correct MusicXML interpretation, but works for
# most cases and fixes broken files, which have the end tag missing
if is_tied and not tie_started:
is_tied = False
## force trailing mm rests to be written out.
voice_builder.add_music (musicexp.ChordEvent (), Rational (0))
ly_voice = group_tuplets (voice_builder.elements, tuplet_events)
ly_voice = group_repeats (ly_voice)
seq_music = musicexp.SequentialMusic ()
if 'drummode' in modes_found.keys ():
## \key <pitch> barfs in drummode.
ly_voice = [e for e in ly_voice
if not isinstance(e, musicexp.KeySignatureChange)]
seq_music.elements = ly_voice
for k in lyrics.keys ():
return_value.lyrics_dict[k] = musicexp.Lyrics ()
return_value.lyrics_dict[k].lyrics_syllables = lyrics[k]
if len (modes_found) > 1:
ly.warning (_ ('cannot simultaneously have more than one mode: %s') % modes_found.keys ())
if options.relative:
v = musicexp.RelativeMusic ()
v.element = seq_music
v.basepitch = first_pitch
seq_music = v
return_value.ly_voice = seq_music
for mode in modes_found.keys ():
v = musicexp.ModeChangingMusicWrapper()
v.element = seq_music
v.mode = mode
return_value.ly_voice = v
# create \figuremode { figured bass elements }
if figured_bass_builder.has_relevant_elements:
fbass_music = musicexp.SequentialMusic ()
fbass_music.elements = group_repeats (figured_bass_builder.elements)
v = musicexp.ModeChangingMusicWrapper()
v.mode = 'figuremode'
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 = group_repeats (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):
digits = ['Zero', 'One', 'Two', 'Three', 'Four', 'Five',
'Six', 'Seven', 'Eight', 'Nine', 'Ten']
for digit in digits:
d = digits.index (digit)
id = re.sub ('%d' % d, digit, id)
id = re.sub ('[^a-zA-Z]', 'X', id)
return id
def musicxml_pitch_to_lily (mxl_pitch):
p = musicexp.Pitch ()
p.alteration = mxl_pitch.get_alteration ()
p.step = musicxml_step_to_lily (mxl_pitch.get_step ())
p.octave = mxl_pitch.get_octave () - 4
return p
def musicxml_unpitched_to_lily (mxl_unpitched):
p = None
step = mxl_unpitched.get_step ()
if step:
p = musicexp.Pitch ()
p.step = musicxml_step_to_lily (step)
octave = mxl_unpitched.get_octave ()
if octave and p:
p.octave = octave - 4
return p
def musicxml_restdisplay_to_lily (mxl_rest):
p = None
step = mxl_rest.get_step ()
if step:
p = musicexp.Pitch ()
p.step = musicxml_step_to_lily (step)
octave = mxl_rest.get_octave ()
if octave and p:
p.octave = octave - 4
return p
def voices_in_part (part):
"""Return a Name -> Voice dictionary for PART"""
part.interpret ()
part.extract_voices ()
voices = part.get_voices ()
part_info = part.get_staff_attributes ()
return (voices, part_info)
def voices_in_part_in_parts (parts):
"""return a Part -> Name -> Voice dictionary"""
# don't crash if p doesn't have an id (that's invalid MusicXML,
# but such files are out in the wild!
dictionary = {}
for p in parts:
voices = voices_in_part (p)
if (hasattr (p, "id")):
dictionary[p.id] = voices
else:
# TODO: extract correct part id from other sources
dictionary[None] = voices
return dictionary;
def get_all_voices (parts):
all_voices = voices_in_part_in_parts (parts)
all_ly_voices = {}
all_ly_staffinfo = {}
for p, (name_voice, staff_info) in all_voices.items ():
part_ly_voices = {}
for n, v in name_voice.items ():
ly.progress (_ ("Converting to LilyPond expressions..."), True)
# musicxml_voice_to_lily_voice returns (lily_voice, {nr->lyrics, nr->lyrics})
part_ly_voices[n] = musicxml_voice_to_lily_voice (v)
all_ly_voices[p] = part_ly_voices
all_ly_staffinfo[p] = staff_info
return (all_ly_voices, all_ly_staffinfo)
def option_parser ():
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) 2.18.2\n\n'''
+
_ ("""Copyright (c) 2005--2012 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"))
p.add_option ('-v', '--verbose',
action="callback",
callback=ly.handle_loglevel_option,
callback_args=("DEBUG",),
help = _ ("be verbose"))
p.add_option ('', '--lxml',
action = "store_true",
default = False,
dest = "use_lxml",
help = _ ("use lxml.etree; uses less memory and cpu time"))
p.add_option ('-z', '--compressed',
action = "store_true",
dest = 'compressed',
default = False,
help = _ ("input file is a zip-compressed MusicXML file"))
p.add_option ('-r', '--relative',
action = "store_true",
default = True,
dest = "relative",
help = _ ("convert pitches in relative mode (default)"))
p.add_option ('-a', '--absolute',
action = "store_false",
dest = "relative",
help = _ ("convert pitches in absolute mode"))
p.add_option ('-l', '--language',
metavar = _ ("LANG"),
action = "store",
help = _ ("use LANG for pitch names, e.g. 'deutsch' for note names in German"))
p.add_option ("--loglevel",
help=_ ("Print log messages according to LOGLEVEL "
"(NONE, ERROR, WARNING, PROGRESS (default), DEBUG)"),
metavar=_ ("LOGLEVEL"),
action='callback',
callback=ly.handle_loglevel_option,
type='string')
p.add_option ('--nd', '--no-articulation-directions',
action = "store_false",
default = True,
dest = "convert_directions",
help = _ ("do not convert directions (^, _ or -) for articulations, dynamics, etc."))
p.add_option ('--nrp', '--no-rest-positions',
action = "store_false",
default = True,
dest = "convert_rest_positions",
help = _ ("do not convert exact vertical positions of rests"))
p.add_option ('--npl', '--no-page-layout',
action = "store_false",
default = True,
dest = "convert_page_layout",
help = _ ("do not convert the exact page layout and breaks"))
p.add_option ('--no-beaming',
action = "store_false",
default = True,
dest = "convert_beaming",
help = _ ("do not convert beaming information, use lilypond's automatic beaming instead"))
p.add_option ('-o', '--output',
metavar = _ ("FILE"),
action = "store",
default = None,
type = 'string',
dest = 'output_name',
help = _ ("set output filename to FILE, stdout if -"))
p.add_option ('-m', '--midi',
action = "store_true",
default = False,
dest = "midi",
help = _("activate midi-block"))
p.add_option_group ('',
description = (
_ ("Report bugs via %s")
% 'http://post.gmane.org/post.php'
'?group=gmane.comp.gnu.lilypond.bugs') + '\n')
return p
def music_xml_voice_name_to_lily_name (part_id, name):
str = "Part%sVoice%s" % (part_id, name)
return musicxml_id_to_lily (str)
def music_xml_lyrics_name_to_lily_name (part_id, name, lyricsnr):
str = "Part%sVoice%sLyrics%s" % (part_id, name, lyricsnr)
return musicxml_id_to_lily (str)
def music_xml_figuredbass_name_to_lily_name (part_id, voicename):
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
nv_dict = voices.get (part_id, {})
for (name, voice) in nv_dict.items ():
k = music_xml_voice_name_to_lily_name (part_id, name)
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 )
voice.lyrics_dict[l].print_ly (printer)
printer.newline()
if voice.figured_bass:
fbname = music_xml_figuredbass_name_to_lily_name (part_id, name)
printer.dump ('%s = ' % fbname )
voice.figured_bass.print_ly (printer)
printer.newline()
def uniq_list (l):
return dict ([(elt, 1) for elt in l]).keys ()
# format the information about the staff in the form
# [staffid,
# [
# [voiceid1, [lyricsid11, lyricsid12,...], figuredbassid1],
# [voiceid2, [lyricsid21, lyricsid22,...], figuredbassid2],
# ...
# ]
# ]
# 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, 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)
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):
for part_definition in part_list:
part_id = part_definition.id
nv_dict = voices.get (part_id)
if not nv_dict:
ly.warning (_ ('unknown part in part-list: %s') % part_id)
continue
staves = reduce (lambda x,y: x+ y,
[voice.voicedata._staves.keys ()
for voice in nv_dict.values ()],
[])
staves_info = []
if len (staves) > 1:
staves_info = []
staves = uniq_list (staves)
staves.sort ()
for s in staves:
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, 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)
# Set global values in the \layout block, like auto-beaming etc.
def update_layout_information ():
if not conversion_settings.ignore_beaming and layout_information:
layout_information.set_context_item ('Score', 'autoBeaming = ##f')
def print_ly_preamble (printer, filename):
printer.dump_version ()
printer.print_verbatim ('%% automatically converted by musicxml2ly from %s\n' % filename)
def print_ly_additional_definitions (printer, filename):
if needed_additional_definitions:
printer.newline ()
printer.print_verbatim ('%% additional definitions required by the score:')
printer.newline ()
for a in set(needed_additional_definitions):
printer.print_verbatim (additional_definitions.get (a, ''))
printer.newline ()
printer.newline ()
# Read in the tree from the given I/O object (either file or string) and
# demarshall it using the classes from the musicxml.py file
def read_xml (io_object, use_lxml):
if use_lxml:
import lxml.etree
tree = lxml.etree.parse (io_object)
mxl_tree = musicxml.lxml_demarshal_node (tree.getroot ())
return mxl_tree
else:
from xml.dom import minidom, Node
doc = minidom.parse(io_object)
node = doc.documentElement
return musicxml.minidom_demarshal_node (node)
return None
def read_musicxml (filename, compressed, use_lxml):
raw_string = None
if compressed:
if filename == "-":
ly.progress (_ ("Input is compressed, extracting raw MusicXML data from stdin"), True)
# unfortunately, zipfile.ZipFile can't read directly from
# stdin, so copy everything from stdin to a temp file and read
# that. TemporaryFile() will remove the file when it is closed.
tmp = tempfile.TemporaryFile()
sys.stdin = os.fdopen(sys.stdin.fileno(), 'rb', 0) # Make sys.stdin binary
bytes_read = sys.stdin.read (8192)
while bytes_read:
for b in bytes_read:
tmp.write(b)
bytes_read = sys.stdin.read (8192)
z = zipfile.ZipFile (tmp, "r")
else:
ly.progress (_ ("Input file %s is compressed, extracting raw MusicXML data") % filename, True)
z = zipfile.ZipFile (filename, "r")
container_xml = z.read ("META-INF/container.xml")
if not container_xml:
return None
container = read_xml (StringIO.StringIO (container_xml), use_lxml)
if not container:
return None
rootfiles = container.get_maybe_exist_named_child ('rootfiles')
if not rootfiles:
return None
rootfile_list = rootfiles.get_named_children ('rootfile')
mxml_file = None
if len (rootfile_list) > 0:
mxml_file = getattr (rootfile_list[0], 'full-path', None)
if mxml_file:
raw_string = z.read (mxml_file)
if raw_string:
io_object = StringIO.StringIO (raw_string)
elif filename == "-":
io_object = sys.stdin
else:
io_object = filename
return read_xml (io_object, use_lxml)
def convert (filename, options):
if filename == "-":
ly.progress (_ ("Reading MusicXML from Standard input ..."), True)
else:
ly.progress (_ ("Reading MusicXML from %s ...") % filename, True)
tree = read_musicxml (filename, options.compressed, options.use_lxml)
score_information = extract_score_information (tree)
paper_information = extract_paper_information (tree)
parts = tree.get_typed_children (musicxml.Part)
(voices, staff_info) = get_all_voices (parts)
score = None
mxl_pl = tree.get_maybe_exist_typed_child (musicxml.Part_list)
if mxl_pl:
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, part_list, voices)
# After the conversion, update the list of settings for the \layout block
update_layout_information ()
if not options.output_name:
options.output_name = os.path.basename (filename)
options.output_name = os.path.splitext (options.output_name)[0]
elif re.match (".*\.ly", options.output_name):
options.output_name = os.path.splitext (options.output_name)[0]
#defs_ly_name = options.output_name + '-defs.ly'
if (options.output_name == "-"):
output_ly_name = 'Standard output'
else:
output_ly_name = options.output_name + '.ly'
ly.progress (_ ("Output to `%s'") % output_ly_name, True)
printer = musicexp.Output_printer()
#ly.progress (_ ("Output to `%s'") % defs_ly_name, True)
if (options.output_name == "-"):
printer.set_file (codecs.getwriter ("utf-8")(sys.stdout))
else:
printer.set_file (codecs.open (output_ly_name, 'wb', encoding='utf-8'))
print_ly_preamble (printer, filename)
print_ly_additional_definitions (printer, filename)
if score_information:
score_information.print_ly (printer)
if paper_information and conversion_settings.convert_page_layout:
paper_information.print_ly (printer)
if layout_information:
layout_information.print_ly (printer)
print_voice_definitions (printer, part_list, voices)
printer.newline ()
printer.dump ("% The score definition")
printer.newline ()
score.print_ly (printer)
printer.newline ()
return voices
def get_existing_filename_with_extension (filename, ext):
if os.path.exists (filename):
return filename
newfilename = filename + "." + ext
if os.path.exists (newfilename):
return newfilename;
newfilename = filename + ext
if os.path.exists (newfilename):
return newfilename;
return ''
def main ():
opt_parser = option_parser()
global options
(options, args) = opt_parser.parse_args ()
if not args:
opt_parser.print_usage()
sys.exit (2)
if options.midi:
musicexp.set_create_midi (options.midi)
if options.language:
musicexp.set_pitch_language (options.language)
needed_additional_definitions.append (options.language)
additional_definitions[options.language] = "\\language \"%s\"\n" % options.language
conversion_settings.ignore_beaming = not options.convert_beaming
conversion_settings.convert_page_layout = options.convert_page_layout
# Allow the user to leave out the .xml or xml on the filename
basefilename = args[0].decode('utf-8')
if basefilename == "-": # Read from stdin
filename = "-"
else:
filename = get_existing_filename_with_extension (basefilename, "xml")
if not filename:
filename = get_existing_filename_with_extension (basefilename, "mxl")
options.compressed = True
if filename and filename.endswith ("mxl"):
options.compressed = True
if filename and (filename == "-" or os.path.exists (filename)):
voices = convert (filename, options)
else:
ly.error (_ ("Unable to find input file %s") % basefilename)
if __name__ == '__main__':
main()
|