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	#!/usr/bin/env python
	# coding=latin-1
	'''
	Copyright (C) 2012-2018: Willem G. Vree
	Contributions: Nils Liberg, Nicolas Froment, Norman Schmidt, Reinier Maliepaard, Martin Tarenskeen,
	Paul Villiger, Alexander Scheutzow, Herbert Schneider, David Randolph, Michael Strasser

	This program is free software; you can redistribute it and/or modify it under the terms of the
	Lesser GNU General Public License as published by the Free Software Foundation;

	This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
	without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	See the Lesser GNU General Public License for more details. <http://www.gnu.org/licenses/lgpl.html>.
	'''

	from functools import reduce
	from pyparsing import Word, OneOrMore, Optional, Literal, NotAny, MatchFirst
	from pyparsing import Group, oneOf, Suppress, ZeroOrMore, Combine, FollowedBy
	from pyparsing import srange, CharsNotIn, StringEnd, LineEnd, White, Regex
	from pyparsing import nums, alphas, alphanums, ParseException, Forward
	try: import xml.etree.cElementTree as E
	except: import xml.etree.ElementTree as E
	import types, sys, os, re, datetime

	VERSION = 245

	python3 = sys.version_info[0] > 2
	lmap = lambda f, xs: list (map (f, xs)) # eager map for python 3
	if python3:
	int_type = int
	list_type = list
	str_type = str
	uni_type = str
	stdin = sys.stdin.buffer if sys.stdin else None # read binary if stdin available!
	else:
	int_type = types.IntType
	list_type = types.ListType
	str_type = types.StringTypes
	uni_type = types.UnicodeType
	stdin = sys.stdin

	info_list = [] # diagnostic messages
	def info (s, warn=1):
	x = (warn and '-- ' or '') + s
	info_list.append (x + '\n') # collect messages
	if __name__ == '__main__': # only write to stdout when called as main progeam
	try: sys.stderr.write (x + '\n')
	except: sys.stderr.write (repr (x) + '\n')

	def getInfo (): # get string of diagnostic messages, then clear messages
	global info_list
	xs = ''.join (info_list)
	info_list = []
	return xs

	def abc_grammar (): # header, voice and lyrics grammar for ABC
	#-----------------------------------------------------------------
	# expressions that catch and skip some syntax errors (see corresponding parse expressions)
	#-----------------------------------------------------------------
	b1 = Word (u"-,'<>\u2019#", exact=1) # catch misplaced chars in chords
	b2 = Regex ('[^H-Wh-w~=]*') # same in user defined symbol definition
	b3 = Regex ('[^=]*') # same, second part

	#-----------------------------------------------------------------
	# ABC header (field_str elements are matched later with reg. epr's)
	#-----------------------------------------------------------------

	number = Word (nums).setParseAction (lambda t: int (t[0]))
	field_str = Regex (r'[^]]*') # match anything until end of field
	field_str.setParseAction (lambda t: t[0].strip ()) # and strip spacing

	userdef_symbol = Word (srange ('[H-Wh-w~]'), exact=1)
	fieldId = oneOf ('K L M Q P I T C O A Z N G H R B D F S E r Y') # info fields
	X_field = Literal ('X') + Suppress (':') + field_str
	U_field = Literal ('U') + Suppress (':') + b2 + Optional (userdef_symbol, 'H') + b3 + Suppress ('=') + field_str
	V_field = Literal ('V') + Suppress (':') + Word (alphanums + '_') + field_str
	inf_fld = fieldId + Suppress (':') + field_str
	ifield = Suppress ('[') + (X_field \| U_field \| V_field \| inf_fld) + Suppress (']')
	abc_header = OneOrMore (ifield) + StringEnd ()

	#---------------------------------------------------------------------------------
	# I:score with recursive part groups and {* grand staff marker
	#---------------------------------------------------------------------------------

	voiceId = Suppress (Optional ('*')) + Word (alphanums + '_')
	voice_gr = Suppress ('(') + OneOrMore (voiceId \| Suppress ('\|')) + Suppress (')')
	simple_part = voiceId \| voice_gr \| Suppress ('\|')
	grand_staff = oneOf ('{* {') + OneOrMore (simple_part) + Suppress ('}')
	part = Forward ()
	part_seq = OneOrMore (part \| Suppress ('\|'))
	brace_gr = Suppress ('{') + part_seq + Suppress ('}')
	bracket_gr = Suppress ('[') + part_seq + Suppress (']')
	part <<= MatchFirst (simple_part \| grand_staff \| brace_gr \| bracket_gr \| Suppress ('\|'))
	abc_scoredef = Suppress (oneOf ('staves score')) + OneOrMore (part)

	#----------------------------------------
	# ABC lyric lines (white space sensitive)
	#----------------------------------------

	skip_note = oneOf ('* -')
	extend_note = Literal ('_')
	measure_end = Literal ('\|')
	syl_str = CharsNotIn ('*-_\| \t\n\\]')
	syl_chars = Combine (OneOrMore (syl_str \| Regex (r'\\.')))
	white = Word (' \t')
	syllable = syl_chars + Optional ('-')
	lyr_elem = (syllable \| skip_note \| extend_note \| measure_end) + Optional (white).suppress ()
	lyr_line = Optional (white).suppress () + ZeroOrMore (lyr_elem)

	syllable.setParseAction (lambda t: pObj ('syl', t))
	skip_note.setParseAction (lambda t: pObj ('skip', t))
	extend_note.setParseAction (lambda t: pObj ('ext', t))
	measure_end.setParseAction (lambda t: pObj ('sbar', t))
	lyr_line_wsp = lyr_line.leaveWhitespace () # parse actions must be set before calling leaveWhitespace

	#---------------------------------------------------------------------------------
	# ABC voice (not white space sensitive, beams detected in note/rest parse actions)
	#---------------------------------------------------------------------------------

	inline_field = Suppress ('[') + (inf_fld \| U_field \| V_field) + Suppress (']')
	lyr_fld = Suppress ('[') + Suppress ('w') + Suppress (':') + lyr_line_wsp + Suppress (']') # lyric line
	lyr_blk = OneOrMore (lyr_fld) # verses
	fld_or_lyr = inline_field \| lyr_blk # inline field or block of lyric verses

	note_length = Optional (number, 1) + Group (ZeroOrMore ('/')) + Optional (number, 2)
	octaveHigh = OneOrMore ("'").setParseAction (lambda t: len(t))
	octaveLow = OneOrMore (',').setParseAction (lambda t: -len(t))
	octave = octaveHigh \| octaveLow

	basenote = oneOf ('C D E F G A B c d e f g a b y') # includes spacer for parse efficiency
	accidental = oneOf ('^^ __ ^ _ =')
	rest_sym = oneOf ('x X z Z')
	slur_beg = oneOf ("( (, (' .( .(, .('") + ~Word (nums) # no tuplet_start
	slur_ends = OneOrMore (oneOf (') .)'))

	long_decoration = Combine (oneOf ('! +') + CharsNotIn ('!+ \n') + oneOf ('! +'))
	staccato = Literal ('.') + ~Literal ('\|') # avoid dotted barline
	pizzicato = Literal ('!+!') # special case: plus sign is old style deco marker
	decoration = slur_beg \| staccato \| userdef_symbol \| long_decoration \| pizzicato
	decorations = OneOrMore (decoration)

	tie = oneOf ('.- -')
	rest = Optional (accidental) + rest_sym + note_length
	pitch = Optional (accidental) + basenote + Optional (octave, 0)
	note = pitch + note_length + Optional (tie) + Optional (slur_ends)
	dec_note = Optional (decorations) + pitch + note_length + Optional (tie) + Optional (slur_ends)
	chord_note = dec_note \| rest \| b1
	grace_notes = Forward ()
	chord = Suppress ('[') + OneOrMore (chord_note \| grace_notes) + Suppress (']') + note_length + Optional (tie) + Optional (slur_ends)
	stem = note \| chord \| rest

	broken = Combine (OneOrMore ('<') \| OneOrMore ('>'))

	tuplet_num = Suppress ('(') + number
	tuplet_into = Suppress (':') + Optional (number, 0)
	tuplet_notes = Suppress (':') + Optional (number, 0)
	tuplet_start = tuplet_num + Optional (tuplet_into + Optional (tuplet_notes))

	acciaccatura = Literal ('/')
	grace_stem = Optional (decorations) + stem
	grace_notes <<= Group (Suppress ('{') + Optional (acciaccatura) + OneOrMore (grace_stem) + Suppress ('}'))

	text_expression = Optional (oneOf ('^ _ < > @'), '^') + Optional (CharsNotIn ('"'), "")
	chord_accidental = oneOf ('# b =')
	triad = oneOf ('ma Maj maj M mi min m aug dim o + -')
	seventh = oneOf ('7 ma7 Maj7 M7 maj7 mi7 min7 m7 dim7 o7 -7 aug7 +7 m7b5 mi7b5')
	sixth = oneOf ('6 ma6 M6 mi6 min6 m6')
	ninth = oneOf ('9 ma9 M9 maj9 Maj9 mi9 min9 m9')
	elevn = oneOf ('11 ma11 M11 maj11 Maj11 mi11 min11 m11')
	thirt = oneOf ('13 ma13 M13 maj13 Maj13 mi13 min13 m13')
	suspended = oneOf ('sus sus2 sus4')
	chord_degree = Combine (Optional (chord_accidental) + oneOf ('2 4 5 6 7 9 11 13'))
	chord_kind = Optional (seventh \| sixth \| ninth \| elevn \| thirt \| triad) + Optional (suspended)
	chord_root = oneOf ('C D E F G A B') + Optional (chord_accidental)
	chord_bass = oneOf ('C D E F G A B') + Optional (chord_accidental) # needs a different parse action
	chordsym = chord_root + chord_kind + ZeroOrMore (chord_degree) + Optional (Suppress ('/') + chord_bass)
	chord_sym = chordsym + Optional (Literal ('(') + CharsNotIn (')') + Literal (')')).suppress ()
	chord_or_text = Suppress ('"') + (chord_sym ^ text_expression) + Suppress ('"')

	volta_nums = Optional ('[').suppress () + Combine (Word (nums) + ZeroOrMore (oneOf (', -') + Word (nums)))
	volta_text = Literal ('[').suppress () + Regex (r'"[^"]+"')
	volta = volta_nums \| volta_text
	invisible_barline = oneOf ('[\|] []')
	dashed_barline = oneOf (': .\|')
	double_rep = Literal (':') + FollowedBy (':') # otherwise ambiguity with dashed barline
	voice_overlay = Combine (OneOrMore ('&'))
	bare_volta = FollowedBy (Literal ('[') + Word (nums)) # no barline, but volta follows (volta is parsed in next measure)
	bar_left = (oneOf ('[\|: \|: [: :') + Optional (volta)) \| Optional ('\|').suppress () + volta \| oneOf ('\| [\|')
	bars = ZeroOrMore (':') + ZeroOrMore ('[') + OneOrMore (oneOf ('\| ]'))
	bar_right = invisible_barline \| double_rep \| Combine (bars) \| dashed_barline \| voice_overlay \| bare_volta

	errors = ~bar_right + Optional (Word (' \n')) + CharsNotIn (':&\|', exact=1)
	linebreak = Literal ('$') \| ~decorations + Literal ('!') # no need for I:linebreak !!!
	element = fld_or_lyr \| broken \| decorations \| stem \| chord_or_text \| grace_notes \| tuplet_start \| linebreak \| errors
	measure = Group (ZeroOrMore (inline_field) + Optional (bar_left) + ZeroOrMore (element) + bar_right + Optional (linebreak) + Optional (lyr_blk))
	noBarMeasure = Group (ZeroOrMore (inline_field) + Optional (bar_left) + OneOrMore (element) + Optional (linebreak) + Optional (lyr_blk))
	abc_voice = ZeroOrMore (measure) + Optional (noBarMeasure \| Group (bar_left)) + ZeroOrMore (inline_field).suppress () + StringEnd ()

	#----------------------------------------
	# I:percmap note [step] [midi] [note-head]
	#----------------------------------------

	white2 = (white \| StringEnd ()).suppress ()
	w3 = Optional (white2)
	percid = Word (alphanums + '-')
	step = basenote + Optional (octave, 0)
	pitchg = Group (Optional (accidental, '') + step + FollowedBy (white2))
	stepg = Group (step + FollowedBy (white2)) \| Literal ('*')
	midi = (Literal ('*') \| number \| pitchg \| percid)
	nhd = Optional (Combine (percid + Optional ('+')), '')
	perc_wsp = Literal ('percmap') + w3 + pitchg + w3 + Optional (stepg, '') + w3 + Optional (midi, '') + w3 + nhd
	abc_percmap = perc_wsp.leaveWhitespace ()

	#----------------------------------------------------------------
	# Parse actions to convert all relevant results into an abstract
	# syntax tree where all tree nodes are instances of pObj
	#----------------------------------------------------------------

	ifield.setParseAction (lambda t: pObj ('field', t))
	grand_staff.setParseAction (lambda t: pObj ('grand', t, 1)) # 1 = keep ordered list of results
	brace_gr.setParseAction (lambda t: pObj ('bracegr', t, 1))
	bracket_gr.setParseAction (lambda t: pObj ('bracketgr', t, 1))
	voice_gr.setParseAction (lambda t: pObj ('voicegr', t, 1))
	voiceId.setParseAction (lambda t: pObj ('vid', t, 1))
	abc_scoredef.setParseAction (lambda t: pObj ('score', t, 1))
	note_length.setParseAction (lambda t: pObj ('dur', (t[0], (t[2] << len (t[1])) >> 1)))
	chordsym.setParseAction (lambda t: pObj ('chordsym', t))
	chord_root.setParseAction (lambda t: pObj ('root', t))
	chord_kind.setParseAction (lambda t: pObj ('kind', t))
	chord_degree.setParseAction (lambda t: pObj ('degree', t))
	chord_bass.setParseAction (lambda t: pObj ('bass', t))
	text_expression.setParseAction (lambda t: pObj ('text', t))
	inline_field.setParseAction (lambda t: pObj ('inline', t))
	lyr_fld.setParseAction (lambda t: pObj ('lyr_fld', t, 1))
	lyr_blk.setParseAction (lambda t: pObj ('lyr_blk', t, 1)) # 1 = keep ordered list of lyric lines
	grace_notes.setParseAction (doGrace)
	acciaccatura.setParseAction (lambda t: pObj ('accia', t))
	note.setParseAction (noteActn)
	rest.setParseAction (restActn)
	decorations.setParseAction (lambda t: pObj ('deco', t))
	pizzicato.setParseAction (lambda t: ['!plus!']) # translate !+!
	slur_ends.setParseAction (lambda t: pObj ('slurs', t))
	chord.setParseAction (lambda t: pObj ('chord', t, 1))
	dec_note.setParseAction (noteActn)
	tie.setParseAction (lambda t: pObj ('tie', t))
	pitch.setParseAction (lambda t: pObj ('pitch', t))
	bare_volta.setParseAction (lambda t: ['\|']) # return barline that user forgot
	dashed_barline.setParseAction (lambda t: ['.\|'])
	bar_right.setParseAction (lambda t: pObj ('rbar', t))
	bar_left.setParseAction (lambda t: pObj ('lbar', t))
	broken.setParseAction (lambda t: pObj ('broken', t))
	tuplet_start.setParseAction (lambda t: pObj ('tup', t))
	linebreak.setParseAction (lambda t: pObj ('linebrk', t))
	measure.setParseAction (doMaat)
	noBarMeasure.setParseAction (doMaat)
	b1.setParseAction (errorWarn)
	b2.setParseAction (errorWarn)
	b3.setParseAction (errorWarn)
	errors.setParseAction (errorWarn)

	return abc_header, abc_voice, abc_scoredef, abc_percmap

	class pObj (object): # every relevant parse result is converted into a pObj
	def __init__ (s, name, t, seq=0): # t = list of nested parse results
	s.name = name # name uniqueliy identifies this pObj
	rest = [] # collect parse results that are not a pObj
	attrs = {} # new attributes
	for x in t: # nested pObj's become attributes of this pObj
	if type (x) == pObj:
	attrs [x.name] = attrs.get (x.name, []) + [x]
	else:
	rest.append (x) # collect non-pObj's (mostly literals)
	for name, xs in attrs.items ():
	if len (xs) == 1: xs = xs[0] # only list if more then one pObj
	setattr (s, name, xs) # create the new attributes
	s.t = rest # all nested non-pObj's (mostly literals)
	s.objs = seq and t or [] # for nested ordered (lyric) pObj's

	def __repr__ (s): # make a nice string representation of a pObj
	r = []
	for nm in dir (s):
	if nm.startswith ('_'): continue # skip build in attributes
	elif nm == 'name': continue # redundant
	else:
	x = getattr (s, nm)
	if not x: continue # s.t may be empty (list of non-pObj's)
	if type (x) == list_type: r.extend (x)
	else: r.append (x)
	xs = []
	for x in r: # recursively call __repr__ and convert all strings to latin-1
	if isinstance (x, str_type): xs.append (x) # string -> no recursion
	else: xs.append (repr (x)) # pObj -> recursive call
	return '(' + s.name + ' ' +','.join (xs) + ')'

	global prevloc # global to remember previous match position of a note/rest
	prevloc = 0
	def detectBeamBreak (line, loc, t):
	global prevloc # location in string 'line' of previous note match
	xs = line[prevloc:loc+1] # string between previous and current note match
	xs = xs.lstrip () # first note match starts on a space!
	prevloc = loc # location in string 'line' of current note match
	b = pObj ('bbrk', [' ' in xs]) # space somewhere between two notes -> beambreak
	t.insert (0, b) # insert beambreak as a nested parse result

	def noteActn (line, loc, t): # detect beambreak between previous and current note/rest
	if 'y' in t[0].t: return [] # discard spacer
	detectBeamBreak (line, loc, t) # adds beambreak to parse result t as side effect
	return pObj ('note', t)

	def restActn (line, loc, t): # detect beambreak between previous and current note/rest
	detectBeamBreak (line, loc, t) # adds beambreak to parse result t as side effect
	return pObj ('rest', t)

	def errorWarn (line, loc, t): # warning for misplaced symbols and skip them
	if not t[0]: return [] # only warn if catched string not empty
	info ('**misplaced symbol: %s' % t[0], warn=0)
	lineCopy = line [:]
	if loc > 40:
	lineCopy = line [loc - 40: loc + 40]
	loc = 40
	info (lineCopy.replace ('\n', ' '), warn=0)
	info (loc * '-' + '^', warn=0)
	return []

	#-------------------------------------------------------------
	# transformations of a measure (called by parse action doMaat)
	#-------------------------------------------------------------

	def simplify (a, b): # divide a and b by their greatest common divisor
	x, y = a, b
	while b: a, b = b, a % b
	return x // a, y // a

	def doBroken (prev, brk, x):
	if not prev: info ('error in broken rhythm: %s' % x); return # no changes
	nom1, den1 = prev.dur.t # duration of first note/chord
	nom2, den2 = x.dur.t # duration of second note/chord
	if brk == '>':
	nom1, den1 = simplify (3 * nom1, 2 * den1)
	nom2, den2 = simplify (1 * nom2, 2 * den2)
	elif brk == '<':
	nom1, den1 = simplify (1 * nom1, 2 * den1)
	nom2, den2 = simplify (3 * nom2, 2 * den2)
	elif brk == '>>':
	nom1, den1 = simplify (7 * nom1, 4 * den1)
	nom2, den2 = simplify (1 * nom2, 4 * den2)
	elif brk == '<<':
	nom1, den1 = simplify (1 * nom1, 4 * den1)
	nom2, den2 = simplify (7 * nom2, 4 * den2)
	else: return # give up
	prev.dur.t = nom1, den1 # change duration of previous note/chord
	x.dur.t = nom2, den2 # and current note/chord

	def convertBroken (t): # convert broken rhythms to normal note durations
	prev = None # the last note/chord before the broken symbol
	brk = '' # the broken symbol
	remove = [] # indexes to broken symbols (to be deleted) in measure
	for i, x in enumerate (t): # scan all elements in measure
	if x.name == 'note' or x.name == 'chord' or x.name == 'rest':
	if brk: # a broken symbol was encountered before
	doBroken (prev, brk, x) # change duration previous note/chord/rest and current one
	brk = ''
	else:
	prev = x # remember the last note/chord/rest
	elif x.name == 'broken':
	brk = x.t[0] # remember the broken symbol (=string)
	remove.insert (0, i) # and its index, highest index first
	for i in remove: del t[i] # delete broken symbols from high to low

	def ptc2midi (n): # convert parsed pitch attribute to a midi number
	pt = getattr (n, 'pitch', '')
	if pt:
	p = pt.t
	if len (p) == 3: acc, step, oct = p
	else: acc = ''; step, oct = p
	nUp = step.upper ()
	oct = (4 if nUp == step else 5) + int (oct)
	midi = oct * 12 + [0,2,4,5,7,9,11]['CDEFGAB'.index (nUp)] + {'^':1,'_':-1}.get (acc, 0) + 12
	else: midi = 130 # all non pitch objects first
	return midi

	def convertChord (t): # convert chord to sequence of notes in musicXml-style
	ins = []
	for i, x in enumerate (t):
	if x.name == 'chord':
	if hasattr (x, 'rest') and not hasattr (x, 'note'): # chords containing only rests
	if type (x.rest) == list_type: x.rest = x.rest[0] # more rests == one rest
	ins.insert (0, (i, [x.rest])) # just output a single rest, no chord
	continue
	num1, den1 = x.dur.t # chord duration
	tie = getattr (x, 'tie', None) # chord tie
	slurs = getattr (x, 'slurs', []) # slur endings
	if type (x.note) != list_type: x.note = [x.note] # when chord has only one note ...
	elms = []; j = 0 # sort chord notes, highest first
	nss = sorted (x.objs, key = ptc2midi, reverse=1) if mxm.orderChords else x.objs
	for nt in nss: # all chord elements (note \| decorations \| rest \| grace note)
	if nt.name == 'note':
	num2, den2 = nt.dur.t # note duration * chord duration
	nt.dur.t = simplify (num1 * num2, den1 * den2)
	if tie: nt.tie = tie # tie on all chord notes
	if j == 0 and slurs: nt.slurs = slurs # slur endings only on first chord note
	if j > 0: nt.chord = pObj ('chord', [1]) # label all but first as chord notes
	else: # remember all pitches of the chord in the first note
	pitches = [n.pitch for n in x.note] # to implement conversion of erroneous ties to slurs
	nt.pitches = pObj ('pitches', pitches)
	j += 1
	if nt.name not in ['dur','tie','slurs','rest']: elms.append (nt)
	ins.insert (0, (i, elms)) # chord position, [note\|decotation\|grace note]
	for i, notes in ins: # insert from high to low
	for nt in reversed (notes):
	t.insert (i+1, nt) # insert chord notes after chord
	del t[i] # remove chord itself

	def doMaat (t): # t is a Group() result -> the measure is in t[0]
	convertBroken (t[0]) # remove all broken rhythms and convert to normal durations
	convertChord (t[0]) # replace chords by note sequences in musicXML style

	def doGrace (t): # t is a Group() result -> the grace sequence is in t[0]
	convertChord (t[0]) # a grace sequence may have chords
	for nt in t[0]: # flag all notes within the grace sequence
	if nt.name == 'note': nt.grace = 1 # set grace attribute
	return t[0] # ungroup the parse result
	#--------------------
	# musicXML generation
	#----------------------------------

	def compChordTab (): # avoid some typing work: returns mapping constant {ABC chordsyms -> musicXML kind}
	maj, min, aug, dim, dom, ch7, ch6, ch9, ch11, ch13, hd = 'major minor augmented diminished dominant -seventh -sixth -ninth -11th -13th half-diminished'.split ()
	triad = zip ('ma Maj maj M mi min m aug dim o + -'.split (), [maj, maj, maj, maj, min, min, min, aug, dim, dim, aug, min])
	seventh = zip ('7 ma7 Maj7 M7 maj7 mi7 min7 m7 dim7 o7 -7 aug7 +7 m7b5 mi7b5'.split (),
	[dom, maj+ch7, maj+ch7, maj+ch7, maj+ch7, min+ch7, min+ch7, min+ch7, dim+ch7, dim+ch7, min+ch7, aug+ch7, aug+ch7, hd, hd])
	sixth = zip ('6 ma6 M6 mi6 min6 m6'.split (), [maj+ch6, maj+ch6, maj+ch6, min+ch6, min+ch6, min+ch6])
	ninth = zip ('9 ma9 M9 maj9 Maj9 mi9 min9 m9'.split (), [dom+ch9, maj+ch9, maj+ch9, maj+ch9, maj+ch9, min+ch9, min+ch9, min+ch9])
	elevn = zip ('11 ma11 M11 maj11 Maj11 mi11 min11 m11'.split (), [dom+ch11, maj+ch11, maj+ch11, maj+ch11, maj+ch11, min+ch11, min+ch11, min+ch11])
	thirt = zip ('13 ma13 M13 maj13 Maj13 mi13 min13 m13'.split (), [dom+ch13, maj+ch13, maj+ch13, maj+ch13, maj+ch13, min+ch13, min+ch13, min+ch13])
	sus = zip ('sus sus4 sus2'.split (), ['suspended-fourth', 'suspended-fourth', 'suspended-second'])
	return dict (list (triad) + list (seventh) + list (sixth) + list (ninth) + list (elevn) + list (thirt) + list (sus))

	def addElem (parent, child, level):
	indent = 2
	chldrn = list (parent)
	if chldrn:
	chldrn[-1].tail += indent * ' '
	else:
	parent.text = '\n' + level * indent * ' '
	parent.append (child)
	child.tail = '\n' + (level-1) * indent * ' '

	def addElemT (parent, tag, text, level):
	e = E.Element (tag)
	e.text = text
	addElem (parent, e, level)
	return e

	def mkTmod (tmnum, tmden, lev):
	tmod = E.Element ('time-modification')
	addElemT (tmod, 'actual-notes', str (tmnum), lev + 1)
	addElemT (tmod, 'normal-notes', str (tmden), lev + 1)
	return tmod

	def addDirection (parent, elems, lev, gstaff, subelms=[], placement='below', cue_on=0):
	dir = E.Element ('direction', placement=placement)
	addElem (parent, dir, lev)
	if type (elems) != list_type: elems = [(elems, subelms)] # ugly hack to provide for multiple direction types
	for elem, subelms in elems: # add direction types
	typ = E.Element ('direction-type')
	addElem (dir, typ, lev + 1)
	addElem (typ, elem, lev + 2)
	for subel in subelms: addElem (elem, subel, lev + 3)
	if cue_on: addElem (dir, E.Element ('level', size='cue'), lev + 1)
	if gstaff: addElemT (dir, 'staff', str (gstaff), lev + 1)
	return dir

	def removeElems (root_elem, parent_str, elem_str):
	for p in root_elem.findall (parent_str):
	e = p.find (elem_str)
	if e != None: p.remove (e)

	def alignLyr (vce, lyrs):
	empty_el = pObj ('leeg', '*')
	for k, lyr in enumerate (lyrs): # lyr = one full line of lyrics
	i = 0 # syl counter
	for elem in vce: # reiterate the voice block for each lyrics line
	if elem.name == 'note' and not (hasattr (elem, 'chord') or hasattr (elem, 'grace')):
	if i >= len (lyr): lr = empty_el
	else: lr = lyr [i]
	lr.t[0] = lr.t[0].replace ('%5d',']')
	elem.objs.append (lr)
	if lr.name != 'sbar': i += 1
	if elem.name == 'rbar' and i < len (lyr) and lyr[i].name == 'sbar': i += 1
	return vce

	slur_move = re.compile (r'(?<![!+])([}><][<>]?)(\)+)') # (?<!...) means: not preceeded by ...
	mm_rest = re.compile (r'([XZ])(\d+)')
	bar_space = re.compile (r'([:\|][ \|\[\]]+[:\|])') # barlines with spaces
	def fixSlurs (x): # repair slurs when after broken sign or grace-close
	def f (mo): # replace a multi-measure rest by single measure rests
	n = int (mo.group (2))
	return (n * (mo.group (1) + '\|')) [:-1]
	def g (mo): # squash spaces in barline expressions
	return mo.group (1).replace (' ','')
	x = mm_rest.sub (f, x)
	x = bar_space.sub (g, x)
	return slur_move.sub (r'\2\1', x)

	def splitHeaderVoices (abctext):
	escField = lambda x: '[' + x.replace (']',r'%5d') + ']' # hope nobody uses %5d in a field
	r1 = re.compile (r'%.*$') # comments
	r2 = re.compile (r'^([A-Zw]:.$)\|\[[A-Zw]:[^]]]$') # information field, including lyrics
	r3 = re.compile (r'^%%(?=[^%])') # directive: ^%% folowed by not a %
	xs, nx, mcont, fcont = [], 0, 0, 0 # result lines, X-encountered, music continuation, field continuation
	mln = fln = '' # music line, field line
	for x in abctext.splitlines ():
	x = x.strip ()
	if not x and nx == 1: break # end of tune (empty line)
	if x.startswith ('X:'):
	if nx == 1: break # second tune starts without an empty line !!
	nx = 1 # start first tune
	x = r3.sub ('I:', x) # replace %% -> I:
	x2 = r1.sub ('', x) # remove comment
	while x2.endswith ('*') and not (x2.startswith ('w:') or x2.startswith ('+:') or 'percmap' in x2):
	x2 = x2[:-1] # remove old syntax for right adjusting
	if not x2: continue # empty line
	if x2[:2] == 'W:':
	field = x2 [2:].strip ()
	ftype = mxm.metaMap.get ('W', 'W') # respect the (user defined --meta) mapping of various ABC fields to XML meta data types
	c = mxm.metadata.get (ftype, '')
	mxm.metadata [ftype] = c + '\n' + field if c else field # concatenate multiple info fields with new line as separator
	continue # skip W: lyrics
	if x2[:2] == '+:': # field continuation
	fln += x2[2:]
	continue
	ro = r2.match (x2) # single field on a line
	if ro: # field -> inline_field, escape all ']'
	if fcont: # old style \-info-continuation active
	fcont = x2 [-1] == '\\' # possible further \-info-continuation
	fln += re.sub (r'^.:(.?)\\$', r'\1', x2) # add continuation, remove .: and \
	continue
	if fln: mln += escField (fln)
	if x2.startswith ('['): x2 = x2.strip ('[]')
	fcont = x2 [-1] == '\\' # first encounter of old style \-info-continuation
	fln = x2.rstrip ('\\') # remove continuation from field and inline brackets
	continue
	if nx == 1: # x2 is a new music line
	fcont = 0 # stop \-continuations (-> only adjacent \-info-continuations are joined)
	if fln:
	mln += escField (fln)
	fln = ''
	if mcont:
	mcont = x2 [-1] == '\\'
	mln += x2.rstrip ('\\')
	else:
	if mln: xs.append (mln); mln = ''
	mcont = x2 [-1] == '\\'
	mln = x2.rstrip ('\\')
	if not mcont: xs.append (mln); mln = ''
	if fln: mln += escField (fln)
	if mln: xs.append (mln)

	hs = re.split (r'(\[K:[^]]*\])', xs [0]) # look for end of header K:
	if len (hs) == 1: header = hs[0]; xs [0] = '' # no K: present
	else: header = hs [0] + hs [1]; xs [0] = ''.join (hs[2:]) # h[1] is the first K:
	abctext = '\n'.join (xs) # the rest is body text
	hfs, vfs = [], []
	for x in header[1:-1].split (']['):
	if x[0] == 'V': vfs.append (x) # filter voice- and midi-definitions
	elif x[:6] == 'I:MIDI': vfs.append (x) # from the header to vfs
	elif x[:9] == 'I:percmap': vfs.append (x) # and also percmap
	else: hfs.append (x) # all other fields stay in header
	header = '[' + ']['.join (hfs) + ']' # restore the header
	abctext = ('[' + ']['.join (vfs) + ']' if vfs else '') + abctext # prepend voice/midi from header before abctext

	xs = abctext.split ('[V:')
	if len (xs) == 1: abctext = '[V:1]' + abctext # abc has no voice defs at all
	elif re.sub (r'\[[A-Z]:[^]]*\]', '', xs[0]).strip (): # remove inline fields from starting text, if any
	abctext = '[V:1]' + abctext # abc with voices has no V: at start

	r1 = re.compile (r'\[V:\s(\S)[ \]]') # get voice id from V: field (skip spaces betwee V: and ID)
	vmap = {} # {voice id -> [voice abc string]}
	vorder = {} # mark document order of voices
	xs = re.split (r'(\[V:[^]]*\])', abctext) # split on every V-field (V-fields included in split result list)
	if len (xs) == 1: raise ValueError ('bugs ...')
	else:
	pm = re.findall (r'\[P:.\]', xs[0]) # all P:-marks after K: but before first V:
	if pm: xs[2] = ''.join (pm) + xs[2] # prepend P:-marks to the text of the first voice
	header += re.sub (r'\[P:.\]', '', xs[0]) # clear all P:-marks from text between K: and first V: and put text in the header
	i = 1
	while i < len (xs): # xs = ['', V-field, voice abc, V-field, voice abc, ...]
	vce, abc = xs[i:i+2]
	id = r1.search (vce).group (1) # get voice ID from V-field
	if not id: id, vce = '1', '[V:1]' # voice def has no ID
	vmap[id] = vmap.get (id, []) + [vce, abc] # collect abc-text for each voice id (include V-fields)
	if id not in vorder: vorder [id] = i # store document order of first occurrence of voice id
	i += 2
	voices = []
	ixs = sorted ([(i, id) for id, i in vorder.items ()]) # restore document order of voices
	for i, id in ixs:
	voice = ''.join (vmap [id]) # all abc of one voice
	voice = fixSlurs (voice) # put slurs right after the notes
	voices.append ((id, voice))
	return header, voices

	def mergeMeasure (m1, m2, slur_offset, voice_offset, rOpt, is_grand=0, is_overlay=0):
	slurs = m2.findall ('note/notations/slur')
	for slr in slurs:
	slrnum = int (slr.get ('number')) + slur_offset
	slr.set ('number', str (slrnum)) # make unique slurnums in m2
	vs = m2.findall ('note/voice') # set all voice number elements in m2
	for v in vs: v.text = str (voice_offset + int (v.text))
	ls = m1.findall ('note/lyric') # all lyric elements in m1
	lnum_max = max ([int (l.get ('number')) for l in ls] + [0]) # highest lyric number in m1
	ls = m2.findall ('note/lyric') # update lyric elements in m2
	for el in ls:
	n = int (el.get ('number'))
	el.set ('number', str (n + lnum_max))
	ns = m1.findall ('note') # determine the total duration of m1, subtract all backups
	dur1 = sum (int (n.find ('duration').text) for n in ns
	if n.find ('grace') == None and n.find ('chord') == None)
	dur1 -= sum (int (b.text) for b in m1.findall ('backup/duration'))
	repbar, nns, es = 0, 0, [] # nns = number of real notes in m2
	for e in list (m2): # scan all elements of m2
	if e.tag == 'attributes':
	if not is_grand: continue # no attribute merging for normal voices
	else: nns += 1 # but we do merge (clef) attributes for a grand staff
	if e.tag == 'print': continue
	if e.tag == 'note' and (rOpt or e.find ('rest') == None): nns += 1
	if e.tag == 'barline' and e.find ('repeat') != None: repbar = e;
	es.append (e) # buffer elements to be merged
	if nns > 0: # only merge if m2 contains any real notes
	if dur1 > 0: # only insert backup if duration of m1 > 0
	b = E.Element ('backup')
	addElem (m1, b, level=3)
	addElemT (b, 'duration', str (dur1), level=4)
	for e in es: addElem (m1, e, level=3) # merge buffered elements of m2
	elif is_overlay and repbar: addElem (m1, repbar, level=3) # merge repeat in empty overlay

	def mergePartList (parts, rOpt, is_grand=0): # merge parts, make grand staff when is_grand true

	def delAttrs (part): # for the time being we only keep clef attributes
	xs = [(m, e) for m in part.findall ('measure') for e in m.findall ('attributes')]
	for m, e in xs:
	for c in list (e):
	if c.tag == 'clef': continue # keep clef attribute
	if c.tag == 'staff-details': continue # keep staff-details attribute
	e.remove (c) # delete all other attrinutes for higher staff numbers
	if len (list (e)) == 0: m.remove (e) # remove empty attributes element

	p1 = parts[0]
	for p2 in parts[1:]:
	if is_grand: delAttrs (p2) # delete all attributes except clef
	for i in range (len (p1) + 1, len (p2) + 1): # second part longer than first one
	maat = E.Element ('measure', number = str(i)) # append empty measures
	addElem (p1, maat, 2)
	slurs = p1.findall ('measure/note/notations/slur') # find highest slur num in first part
	slur_max = max ([int (slr.get ('number')) for slr in slurs] + [0])
	vs = p1.findall ('measure/note/voice') # all voice number elements in first part
	vnum_max = max ([int (v.text) for v in vs] + [0]) # highest voice number in first part
	for im, m2 in enumerate (p2.findall ('measure')): # merge all measures of p2 into p1
	mergeMeasure (p1[im], m2, slur_max, vnum_max, rOpt, is_grand) # may change slur numbers in p1
	return p1

	def mergeParts (parts, vids, staves, rOpt, is_grand=0):
	if not staves: return parts, vids # no voice mapping
	partsnew, vidsnew = [], []
	for voice_ids in staves:
	pixs = []
	for vid in voice_ids:
	if vid in vids: pixs.append (vids.index (vid))
	else: info ('score partname %s does not exist' % vid)
	if pixs:
	xparts = [parts[pix] for pix in pixs]
	if len (xparts) > 1: mergedpart = mergePartList (xparts, rOpt, is_grand)
	else: mergedpart = xparts [0]
	partsnew.append (mergedpart)
	vidsnew.append (vids [pixs[0]])
	return partsnew, vidsnew

	def mergePartMeasure (part, msre, ovrlaynum, rOpt): # merge msre into last measure of part, only for overlays
	slur_offset = 0; # slur numbers determined by the slurstack size (as in a single voice)
	last_msre = list (part)[-1] # last measure in part
	mergeMeasure (last_msre, msre, slur_offset, ovrlaynum, rOpt, is_overlay=1) # voice offset = s.overlayVNum

	def pushSlur (boogStapel, stem):
	if stem not in boogStapel: boogStapel [stem] = [] # initialize slurstack for stem
	boognum = sum (map (len, boogStapel.values ())) + 1 # number of open slurs in all (overlay) voices
	boogStapel [stem].append (boognum)
	return boognum

	def setFristVoiceNameFromGroup (vids, vdefs): # vids = [vid], vdef = {vid -> (name, subname, voicedef)}
	vids = [v for v in vids if v in vdefs] # only consider defined voices
	if not vids: return vdefs
	vid0 = vids [0] # first vid of the group
	_, _, vdef0 = vdefs [vid0] # keep de voice definition (vdef0) when renaming vid0
	for vid in vids:
	nm, snm, vdef = vdefs [vid]
	if nm: # first non empty name encountered will become
	vdefs [vid0] = nm, snm, vdef0 # name of merged group == name of first voice in group (vid0)
	break
	return vdefs

	def mkGrand (p, vdefs): # transform parse subtree into list needed for s.grands
	xs = []
	for i, x in enumerate (p.objs): # changing p.objs [i] alters the tree. changing x has no effect on the tree.
	if type (x) == pObj:
	us = mkGrand (x, vdefs) # first get transformation results of current pObj
	if x.name == 'grand': # x.objs contains ordered list of nested parse results within x
	vids = [y.objs[0] for y in x.objs[1:]] # the voice ids in the grand staff
	nms = [vdefs [u][0] for u in vids if u in vdefs] # the names of those voices
	accept = sum ([1 for nm in nms if nm]) == 1 # accept as grand staff when only one of the voices has a name
	if accept or us[0] == '{*':
	xs.append (us[1:]) # append voice ids as a list (discard first item '{' or '{*')
	vdefs = setFristVoiceNameFromGroup (vids, vdefs)
	p.objs [i] = x.objs[1] # replace voices by first one in the grand group (this modifies the parse tree)
	else:
	xs.extend (us[1:]) # extend current result with all voice ids of rejected grand staff
	else: xs.extend (us) # extend current result with transformed pObj
	else: xs.append (p.t[0]) # append the non pObj (== voice id string)
	return xs

	def mkStaves (p, vdefs): # transform parse tree into list needed for s.staves
	xs = []
	for i, x in enumerate (p.objs): # structure and comments identical to mkGrand
	if type (x) == pObj:
	us = mkStaves (x, vdefs)
	if x.name == 'voicegr':
	xs.append (us)
	vids = [y.objs[0] for y in x.objs]
	vdefs = setFristVoiceNameFromGroup (vids, vdefs)
	p.objs [i] = x.objs[0]
	else:
	xs.extend (us)
	else:
	if p.t[0] not in '{*': xs.append (p.t[0])
	return xs

	def mkGroups (p): # transform parse tree into list needed for s.groups
	xs = []
	for x in p.objs:
	if type (x) == pObj:
	if x.name == 'vid': xs.extend (mkGroups (x))
	elif x.name == 'bracketgr': xs.extend (['['] + mkGroups (x) + [']'])
	elif x.name == 'bracegr': xs.extend (['{'] + mkGroups (x) + ['}'])
	else: xs.extend (mkGroups (x) + ['}']) # x.name == 'grand' == rejected grand staff
	else:
	xs.append (p.t[0])
	return xs

	def stepTrans (step, soct, clef): # [A-G] (1...8)
	if clef.startswith ('bass'):
	nm7 = 'C,D,E,F,G,A,B'.split (',')
	n = 14 + nm7.index (step) - 12 # two octaves extra to avoid negative numbers
	step, soct = nm7 [n % 7], soct + n // 7 - 2 # subtract two octaves again
	return step, soct

	def reduceMids (parts, vidsnew, midiInst): # remove redundant instruments from a part
	for pid, part in zip (vidsnew, parts):
	mids, repls, has_perc = {}, {}, 0
	for ipid, ivid, ch, prg, vol, pan in sorted (list (midiInst.values ())):
	if ipid != pid: continue # only instruments from part pid
	if ch == '10': has_perc = 1; continue # only consider non percussion instruments
	instId, inst = 'I%s-%s' % (ipid, ivid), (ch, prg)
	if inst in mids: # midi instrument already defined in this part
	repls [instId] = mids [inst] # remember to replace instId by inst (see below)
	del midiInst [instId] # instId is redundant
	else: mids [inst] = instId # collect unique instruments in this part
	if len (mids) < 2 and not has_perc: # only one instrument used -> no instrument tags needed in notes
	removeElems (part, 'measure/note', 'instrument') # no instrument tag needed for one- or no-instrument parts
	else:
	for e in part.findall ('measure/note/instrument'):
	id = e.get ('id') # replace all redundant instrument Id's
	if id in repls: e.set ('id', repls [id])

	class stringAlloc:
	def __init__ (s):
	s.snaarVrij = [] # [[(t1, t2) ...] for each string ]
	s.snaarIx = [] # index in snaarVrij for each string
	s.curstaff = -1 # staff being allocated
	def beginZoek (s): # reset snaarIx at start of each voice
	s.snaarIx = []
	for i in range (len (s.snaarVrij)): s.snaarIx.append (0)
	def setlines (s, stflines, stfnum):
	if stfnum != s.curstaff: # initialize for new staff
	s.curstaff = stfnum
	s.snaarVrij = []
	for i in range (stflines): s.snaarVrij.append ([])
	s.beginZoek ()
	def isVrij (s, snaar, t1, t2): # see if string snaar is free between t1 and t2
	xs = s.snaarVrij [snaar]
	for i in range (s.snaarIx [snaar], len (xs)):
	tb, te = xs [i]
	if t1 >= te: continue # te_prev < t1 <= te
	if t1 >= tb: s.snaarIx [snaar] = i; return 0 # tb <= t1 < te
	if t2 > tb: s.snaarIx [snaar] = i; return 0 # t1 < tb < t2
	s.snaarIx [snaar] = i; # remember position for next call
	xs.insert (i, (t1,t2)) # te_prev < t1 < t2 < tb
	return 1
	xs.append ((t1,t2))
	s.snaarIx [snaar] = len (xs) - 1
	return 1
	def bezet (s, snaar, t1, t2): # force allocation of note (t1,t2) on string snaar
	xs = s.snaarVrij [snaar]
	for i, (tb, te) in enumerate (xs):
	if t1 >= te: continue # te_prev < t1 <= te
	xs.insert (i, (t1, t2))
	return
	xs.append ((t1,t2))

	class MusicXml:
	typeMap = {1:'long', 2:'breve', 4:'whole', 8:'half', 16:'quarter', 32:'eighth', 64:'16th', 128:'32nd', 256:'64th'}
	dynaMap = {'p':1,'pp':1,'ppp':1,'pppp':1,'f':1,'ff':1,'fff':1,'ffff':1,'mp':1,'mf':1,'sfz':1}
	tempoMap = {'larghissimo':40, 'moderato':104, 'adagissimo':44, 'allegretto':112, 'lentissimo':48, 'allegro':120, 'largo':56,
	'vivace':168, 'adagio':59, 'vivo':180, 'lento':62, 'presto':192, 'larghetto':66, 'allegrissimo':208, 'adagietto':76,
	'vivacissimo':220, 'andante':88, 'prestissimo':240, 'andantino':96}
	wedgeMap = {'>(':1, '>)':1, '<(':1,'<)':1,'crescendo(':1,'crescendo)':1,'diminuendo(':1,'diminuendo)':1}
	artMap = {'.':'staccato','>':'accent','accent':'accent','wedge':'staccatissimo','tenuto':'tenuto',
	'breath':'breath-mark','marcato':'strong-accent','^':'strong-accent','slide':'scoop'}
	ornMap = {'trill':'trill-mark','T':'trill-mark','turn':'turn','uppermordent':'inverted-mordent','lowermordent':'mordent',
	'pralltriller':'inverted-mordent','mordent':'mordent','turn':'turn','invertedturn':'inverted-turn'}
	tecMap = {'upbow':'up-bow', 'downbow':'down-bow', 'plus':'stopped','open':'open-string','snap':'snap-pizzicato',
	'thumb':'thumb-position'}
	capoMap = {'fine':('Fine','fine','yes'), 'D.S.':('D.S.','dalsegno','segno'), 'D.C.':('D.C.','dacapo','yes'),'dacapo':('D.C.','dacapo','yes'),
	'dacoda':('To Coda','tocoda','coda'), 'coda':('coda','coda','coda'), 'segno':('segno','segno','segno')}
	sharpness = ['Fb', 'Cb','Gb','Db','Ab','Eb','Bb','F','C','G','D','A', 'E', 'B', 'F#','C#','G#','D#','A#','E#','B#']
	offTab = {'maj':8, 'm':11, 'min':11, 'mix':9, 'dor':10, 'phr':12, 'lyd':7, 'loc':13}
	modTab = {'maj':'major', 'm':'minor', 'min':'minor', 'mix':'mixolydian', 'dor':'dorian', 'phr':'phrygian', 'lyd':'lydian', 'loc':'locrian'}
	clefMap = { 'alto1':('C','1'), 'alto2':('C','2'), 'alto':('C','3'), 'alto4':('C','4'), 'tenor':('C','4'),
	'bass3':('F','3'), 'bass':('F','4'), 'treble':('G','2'), 'perc':('percussion',''), 'none':('',''), 'tab':('TAB','5')}
	clefLineMap = {'B':'treble', 'G':'alto1', 'E':'alto2', 'C':'alto', 'A':'tenor', 'F':'bass3', 'D':'bass'}
	alterTab = {'=':'0', '_':'-1', '__':'-2', '^':'1', '^^':'2'}
	accTab = {'=':'natural', '_':'flat', '__':'flat-flat', '^':'sharp', '^^':'sharp-sharp'}
	chordTab = compChordTab ()
	uSyms = {'~':'roll', 'H':'fermata','L':'>','M':'lowermordent','O':'coda',
	'P':'uppermordent','S':'segno','T':'trill','u':'upbow','v':'downbow'}
	pageFmtDef = [0.75,297,210,18,18,10,10] # the abcm2ps page formatting defaults for A4
	metaTab = {'O':'origin', 'A':'area', 'Z':'transcription', 'N':'notes', 'G':'group', 'H':'history', 'R':'rhythm',
	'B':'book', 'D':'discography', 'F':'fileurl', 'S':'source', 'P':'partmap', 'W':'lyrics'}
	metaMap = {'C':'composer'} # mapping of composer is fixed
	metaTypes = {'composer':1,'lyricist':1,'poet':1,'arranger':1,'translator':1, 'rights':1} # valid MusicXML meta data types
	tuningDef = 'E2,A2,D3,G3,B3,E4'.split (',') # default string tuning (guitar)

	def __init__ (s):
	s.pageFmtCmd = [] # set by command line option -p
	s.reset ()
	def reset (s, fOpt=False):
	s.divisions = 2520 # xml duration of 1/4 note, 2^3 * 3^2 * 5 * 7 => 5,7,9 tuplets
	s.ties = {} # {abc pitch tuple -> alteration} for all open ties
	s.slurstack = {} # stack of open slur numbers per (overlay) voice
	s.slurbeg = [] # type of slurs to start (when slurs are detected at element-level)
	s.tmnum = 0 # time modification, numerator
	s.tmden = 0 # time modification, denominator
	s.ntup = 0 # number of tuplet notes remaining
	s.trem = 0 # number of bars for tremolo
	s.intrem = 0 # mark tremolo sequence (for duration doubling)
	s.tupnts = [] # all tuplet modifiers with corresp. durations: [(duration, modifier), ...]
	s.irrtup = 0 # 1 if an irregular tuplet
	s.ntype = '' # the normal-type of a tuplet (== duration type of a normal tuplet note)
	s.unitL = (1, 8) # default unit length
	s.unitLcur = (1, 8) # unit length of current voice
	s.keyAlts = {} # alterations implied by key
	s.msreAlts = {} # temporarily alterations
	s.curVolta = '' # open volta bracket
	s.title = '' # title of music
	s.creator = {} # {creator-type -> creator string}
	s.metadata = {} # {metadata-type -> string}
	s.lyrdash = {} # {lyric number -> 1 if dash between syllables}
	s.usrSyms = s.uSyms # user defined symbols
	s.prevNote = None # xml element of previous beamed note to correct beams (start, continue)
	s.prevLyric = {} # xml element of previous lyric to add/correct extend type (start, continue)
	s.grcbbrk = False # remember any bbrk in a grace sequence
	s.linebrk = 0 # 1 if next measure should start with a line break
	s.nextdecos = [] # decorations for the next note
	s.prevmsre = None # the previous measure
	s.supports_tag = 0 # issue supports-tag in xml file when abc uses explicit linebreaks
	s.staveDefs = [] # collected %%staves or %%score instructions from score
	s.staves = [] # staves = [[voice names to be merged into one stave]]
	s.groups = [] # list of merged part names with interspersed {[ and }]
	s.grands = [] # [[vid1, vid2, ..], ...] voiceIds to be merged in a grand staff
	s.gStaffNums = {} # map each voice id in a grand staff to a staff number
	s.gNstaves = {} # map each voice id in a grand staff to total number of staves
	s.pageFmtAbc = [] # formatting from abc directives
	s.mdur = (4,4) # duration of one measure
	s.gtrans = 0 # octave transposition (by clef)
	s.midprg = ['', '', '', ''] # MIDI channel nr, program nr, volume, panning for the current part
	s.vid = '' # abc voice id for the current voice
	s.pid = '' # xml part id for the current voice
	s.gcue_on = 0 # insert <cue/> tag in each note
	s.percVoice = 0 # 1 if percussion enabled
	s.percMap = {} # (part-id, abc_pitch, xml-octave) -> (abc staff step, midi note number, xml notehead)
	s.pMapFound = 0 # at least one I:percmap has been found
	s.vcepid = {} # voice_id -> part_id
	s.midiInst = {} # inst_id -> (part_id, voice_id, channel, midi_number), remember instruments used
	s.capo = 0 # fret position of the capodastro
	s.tunmid = [] # midi numbers of strings
	s.tunTup = [] # ordered midi numbers of strings [(midi_num, string_num), ...] (midi_num from high to low)
	s.fOpt = fOpt # force string/fret allocations for tab staves
	s.orderChords = 0 # order notes in a chord
	s.chordDecos = {} # decos that should be distributed to all chord notes for xml
	ch10 = 'acoustic-bass-drum,35;bass-drum-1,36;side-stick,37;acoustic-snare,38;hand-clap,39;electric-snare,40;low-floor-tom,41;closed-hi-hat,42;high-floor-tom,43;pedal-hi-hat,44;low-tom,45;open-hi-hat,46;low-mid-tom,47;hi-mid-tom,48;crash-cymbal-1,49;high-tom,50;ride-cymbal-1,51;chinese-cymbal,52;ride-bell,53;tambourine,54;splash-cymbal,55;cowbell,56;crash-cymbal-2,57;vibraslap,58;ride-cymbal-2,59;hi-bongo,60;low-bongo,61;mute-hi-conga,62;open-hi-conga,63;low-conga,64;high-timbale,65;low-timbale,66;high-agogo,67;low-agogo,68;cabasa,69;maracas,70;short-whistle,71;long-whistle,72;short-guiro,73;long-guiro,74;claves,75;hi-wood-block,76;low-wood-block,77;mute-cuica,78;open-cuica,79;mute-triangle,80;open-triangle,81'
	s.percsnd = [x.split (',') for x in ch10.split (';')] # {name -> midi number} of standard channel 10 sound names
	s.gTime = (0,0) # (XML begin time, XML end time) in divisions
	s.tabStaff = '' # == pid (part ID) for a tab staff

	def mkPitch (s, acc, note, oct, lev):
	if s.percVoice: # percussion map switched off by perc=off (see doClef)
	octq = int (oct) + s.gtrans # honour the octave= transposition when querying percmap
	tup = s.percMap.get ((s.pid, acc+note, octq), s.percMap.get (('', acc+note, octq), 0))
	if tup: step, soct, midi, notehead = tup
	else: step, soct = note, octq
	octnum = (4 if step.upper() == step else 5) + int (soct)
	if not tup: # add percussion map for unmapped notes in this part
	midi = str (octnum * 12 + [0,2,4,5,7,9,11]['CDEFGAB'.index (step.upper())] + {'^':1,'_':-1}.get (acc, 0) + 12)
	notehead = {'^':'x', '_':'circle-x'}.get (acc, 'normal')
	if s.pMapFound: info ('no I:percmap for: %s%s in part %s, voice %s' % (acc+note, -oct',' if oct<0 else oct"'", s.pid, s.vid))
	s.percMap [(s.pid, acc+note, octq)] = (note, octq, midi, notehead)
	else: # correct step value for clef
	step, octnum = stepTrans (step.upper (), octnum, s.curClef)
	pitch = E.Element ('unpitched')
	addElemT (pitch, 'display-step', step.upper (), lev + 1)
	addElemT (pitch, 'display-octave', str (octnum), lev + 1)
	return pitch, '', midi, notehead
	nUp = note.upper ()
	octnum = (4 if nUp == note else 5) + int (oct) + s.gtrans
	pitch = E.Element ('pitch')
	addElemT (pitch, 'step', nUp, lev + 1)
	alter = ''
	if (note, oct) in s.ties:
	tied_alter, _, vnum, _ = s.ties [(note,oct)] # vnum = overlay voice number when tie started
	if vnum == s.overlayVnum: alter = tied_alter # tied note in the same overlay -> same alteration
	elif acc:
	s.msreAlts [(nUp, octnum)] = s.alterTab [acc]
	alter = s.alterTab [acc] # explicit notated alteration
	elif (nUp, octnum) in s.msreAlts: alter = s.msreAlts [(nUp, octnum)] # temporary alteration
	elif nUp in s.keyAlts: alter = s.keyAlts [nUp] # alteration implied by the key
	if alter: addElemT (pitch, 'alter', alter, lev + 1)
	addElemT (pitch, 'octave', str (octnum), lev + 1)
	return pitch, alter, '', ''

	def getNoteDecos (s, n):
	decos = s.nextdecos # decorations encountered so far
	ndeco = getattr (n, 'deco', 0) # possible decorations of notes of a chord
	if ndeco: # add decorations, translate used defined symbols
	decos += [s.usrSyms.get (d, d).strip ('!+') for d in ndeco.t]
	s.nextdecos = []
	if s.tabStaff == s.pid and s.fOpt and n.name != 'rest': # force fret/string allocation if explicit string decoration is missing
	if [d for d in decos if d in '0123456789'] == []: decos.append ('0')
	return decos

	def mkNote (s, n, lev):
	isgrace = getattr (n, 'grace', '')
	ischord = getattr (n, 'chord', '')
	if s.ntup >= 0 and not isgrace and not ischord:
	s.ntup -= 1 # count tuplet notes only on non-chord, non grace notes
	if s.ntup == -1 and s.trem <= 0:
	s.intrem = 0 # tremolo pair ends at first note that is not a new tremolo pair (s.trem > 0)
	nnum, nden = n.dur.t # abc dutation of note
	if s.intrem: nnum += nnum # double duration of tremolo duplets
	if nden == 0: nden = 1 # occurs with illegal ABC like: "A2 1". Now interpreted as A2/1
	num, den = simplify (nnum * s.unitLcur[0], nden * s.unitLcur[1]) # normalised with unit length
	if den > 64: # limit denominator to 64
	num = int (round (64 * float (num) / den)) # scale note to num/64
	num, den = simplify (max ([num, 1]), 64) # smallest num == 1
	info ('duration too small: rounded to %d/%d' % (num, den))
	if n.name == 'rest' and ('Z' in n.t or 'X' in n.t):
	num, den = s.mdur # duration of one measure
	noMsrRest = not (n.name == 'rest' and (num, den) == s.mdur) # not a measure rest
	dvs = (4 * s.divisions * num) // den # divisions is xml-duration of 1/4
	rdvs = dvs # real duration (will be 0 for chord/grace)
	num, den = simplify (num, den * 4) # scale by 1/4 for s.typeMap
	ndot = 0
	if num == 3 and noMsrRest: ndot = 1; den = den // 2 # look for dotted notes
	if num == 7 and noMsrRest: ndot = 2; den = den // 4
	nt = E.Element ('note')
	if isgrace: # a grace note (and possibly a chord note)
	grace = E.Element ('grace')
	if s.acciatura: grace.set ('slash', 'yes'); s.acciatura = 0
	addElem (nt, grace, lev + 1)
	dvs = rdvs = 0 # no (real) duration for a grace note
	if den <= 16: den = 32 # not longer than 1/8 for a grace note
	if s.gcue_on: # insert cue tag
	cue = E.Element ('cue')
	addElem (nt, cue, lev + 1)
	if ischord: # a chord note
	chord = E.Element ('chord')
	addElem (nt, chord, lev + 1)
	rdvs = 0 # chord notes no real duration
	if den not in s.typeMap: # take the nearest smaller legal duration
	info ('illegal duration %d/%d' % (nnum, nden))
	den = min (x for x in s.typeMap.keys () if x > den)
	xmltype = str (s.typeMap [den]) # xml needs the note type in addition to duration
	acc, step, oct = '', 'C', '0' # abc-notated pitch elements (accidental, pitch step, octave)
	alter, midi, notehead = '', '', '' # xml alteration
	if n.name == 'rest':
	if 'x' in n.t or 'X' in n.t: nt.set ('print-object', 'no')
	rest = E.Element ('rest')
	if not noMsrRest: rest.set ('measure', 'yes')
	addElem (nt, rest, lev + 1)
	else:
	p = n.pitch.t # get pitch elements from parsed tokens
	if len (p) == 3: acc, step, oct = p
	else: step, oct = p
	pitch, alter, midi, notehead = s.mkPitch (acc, step, oct, lev + 1)
	if midi: acc = '' # erase accidental for percussion notes
	addElem (nt, pitch, lev + 1)
	if s.ntup >= 0: # modify duration for tuplet notes
	dvs = dvs * s.tmden // s.tmnum
	if dvs:
	addElemT (nt, 'duration', str (dvs), lev + 1) # skip when dvs == 0, requirement of musicXML
	if not ischord: s.gTime = s.gTime [1], s.gTime [1] + dvs
	ptup = (step, oct) # pitch tuple without alteration to check for ties
	tstop = ptup in s.ties and s.ties[ptup][2] == s.overlayVnum # open tie on this pitch tuple in this overlay
	if tstop:
	tie = E.Element ('tie', type='stop')
	addElem (nt, tie, lev + 1)
	if getattr (n, 'tie', 0):
	tie = E.Element ('tie', type='start')
	addElem (nt, tie, lev + 1)
	if (s.midprg != ['', '', '', ''] or midi) and n.name != 'rest': # only add when %%midi was present or percussion
	instId = 'I%s-%s' % (s.pid, 'X' + midi if midi else s.vid)
	chan, midi = ('10', midi) if midi else s.midprg [:2]
	inst = E.Element ('instrument', id=instId) # instrument id for midi
	addElem (nt, inst, lev + 1)
	if instId not in s.midiInst: s.midiInst [instId] = (s.pid, s.vid, chan, midi, s.midprg [2], s.midprg [3]) # for instrument list in mkScorePart
	addElemT (nt, 'voice', '1', lev + 1) # default voice, for merging later
	if noMsrRest: addElemT (nt, 'type', xmltype, lev + 1) # add note type if not a measure rest
	for i in range (ndot): # add dots
	dot = E.Element ('dot')
	addElem (nt, dot, lev + 1)
	decos = s.getNoteDecos (n) # get decorations for this note
	if acc and not tstop: # only add accidental if note not tied
	e = E.Element ('accidental')
	if 'courtesy' in decos:
	e.set ('parentheses', 'yes')
	decos.remove ('courtesy')
	e.text = s.accTab [acc]
	addElem (nt, e, lev + 1)
	tupnotation = '' # start/stop notation element for tuplets
	if s.ntup >= 0: # add time modification element for tuplet notes
	tmod = mkTmod (s.tmnum, s.tmden, lev + 1)
	addElem (nt, tmod, lev + 1)
	if s.ntup > 0 and not s.tupnts: tupnotation = 'start'
	s.tupnts.append ((rdvs, tmod)) # remember all tuplet modifiers with corresp. durations
	if s.ntup == 0: # last tuplet note (and possible chord notes there after)
	if rdvs: tupnotation = 'stop' # only insert notation in the real note (rdvs > 0)
	s.cmpNormType (rdvs, lev + 1) # compute and/or add normal-type elements (-> s.ntype)
	hasStem = 1
	if not ischord: s.chordDecos = {} # clear on non chord note
	if 'stemless' in decos or (s.nostems and n.name != 'rest') or 'stemless' in s.chordDecos:
	hasStem = 0
	addElemT (nt, 'stem', 'none', lev + 1)
	if 'stemless' in decos: decos.remove ('stemless') # do not handle in doNotations
	if hasattr (n, 'pitches'): s.chordDecos ['stemless'] = 1 # set on first chord note
	if notehead:
	nh = addElemT (nt, 'notehead', re.sub (r'[+-]$', '', notehead), lev + 1)
	if notehead[-1] in '+-': nh.set ('filled', 'yes' if notehead[-1] == '+' else 'no')
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	if gstaff: addElemT (nt, 'staff', str (gstaff), lev + 1)
	if hasStem: s.doBeams (n, nt, den, lev + 1) # no stems -> no beams in a tab staff
	s.doNotations (n, decos, ptup, alter, tupnotation, tstop, nt, lev + 1)
	if n.objs: s.doLyr (n, nt, lev + 1)
	else: s.prevLyric = {} # clear on note without lyrics
	return nt

	def cmpNormType (s, rdvs, lev): # compute the normal-type of a tuplet (only needed for Finale)
	if rdvs: # the last real tuplet note (chord notes can still follow afterwards with rdvs == 0)
	durs = [dur for dur, tmod in s.tupnts if dur > 0]
	ndur = sum (durs) // s.tmnum # duration of the normal type
	s.irrtup = any ((dur != ndur) for dur in durs) # irregular tuplet
	tix = 16 * s.divisions // ndur # index in typeMap of normal-type duration
	if tix in s.typeMap:
	s.ntype = str (s.typeMap [tix]) # the normal-type
	else: s.irrtup = 0 # give up, no normal type possible
	if s.irrtup: # only add normal-type for irregular tuplets
	for dur, tmod in s.tupnts: # add normal-type to all modifiers
	addElemT (tmod, 'normal-type', s.ntype, lev + 1)
	s.tupnts = [] # reset the tuplet buffer

	def doNotations (s, n, decos, ptup, alter, tupnotation, tstop, nt, lev):
	slurs = getattr (n, 'slurs', 0) # slur ends
	pts = getattr (n, 'pitches', []) # all chord notes available in the first note
	ov = s.overlayVnum # current overlay voice number (0 for the main voice)
	if pts: # make list of pitches in chord: [(pitch, octave), ..]
	if type (pts.pitch) == pObj: pts = [pts.pitch] # chord with one note
	else: pts = [tuple (p.t[-2:]) for p in pts.pitch] # normal chord
	for pt, (tie_alter, nts, vnum, ntelm) in sorted (list (s.ties.items ())): # scan all open ties and delete illegal ones
	if vnum != s.overlayVnum: continue # tie belongs to different overlay
	if pts and pt in pts: continue # pitch tuple of tie exists in chord
	if getattr (n, 'chord', 0): continue # skip chord notes
	if pt == ptup: continue # skip correct single note tie
	if getattr (n, 'grace', 0): continue # skip grace notes
	info ('tie between different pitches: %s%s converted to slur' % pt)
	del s.ties [pt] # remove the note from pending ties
	e = [t for t in ntelm.findall ('tie') if t.get ('type') == 'start'][0] # get the tie start element
	ntelm.remove (e) # delete start tie element
	e = [t for t in nts.findall ('tied') if t.get ('type') == 'start'][0] # get the tied start element
	e.tag = 'slur' # convert tie into slur
	slurnum = pushSlur (s.slurstack, ov)
	e.set ('number', str (slurnum))
	if slurs: slurs.t.append (')') # close slur on this note
	else: slurs = pObj ('slurs', [')'])
	tstart = getattr (n, 'tie', 0) # start a new tie
	if not (tstop or tstart or decos or slurs or s.slurbeg or tupnotation or s.trem): return nt
	nots = E.Element ('notations') # notation element needed
	if s.trem: # +/- => tuple tremolo sequence / single note tremolo
	if s.trem < 0: tupnotation = 'single'; s.trem = -s.trem
	if not tupnotation: return # only add notation at first or last note of a tremolo sequence
	orn = E.Element ('ornaments')
	trm = E.Element ('tremolo', type=tupnotation) # type = start, stop or single
	trm.text = str (s.trem) # the number of bars in a tremolo note
	addElem (nots, orn, lev + 1)
	addElem (orn, trm, lev + 2)
	if tupnotation == 'stop' or tupnotation == 'single': s.trem = 0
	elif tupnotation: # add tuplet type
	tup = E.Element ('tuplet', type=tupnotation)
	if tupnotation == 'start': tup.set ('bracket', 'yes')
	addElem (nots, tup, lev + 1)
	if tstop: # stop tie
	del s.ties[ptup] # remove flag
	tie = E.Element ('tied', type='stop')
	addElem (nots, tie, lev + 1)
	if tstart: # start a tie
	s.ties[ptup] = (alter, nots, s.overlayVnum, nt) # remember pitch tuple to stop tie and apply same alteration
	tie = E.Element ('tied', type='start')
	if tstart.t[0] == '.-': tie.set ('line-type', 'dotted')
	addElem (nots, tie, lev + 1)
	if decos: # look for slurs and decorations
	slurMap = { '(':1, '.(':1, '(,':1, "('":1, '.(,':1, ".('":1 }
	arts = [] # collect articulations
	for d in decos: # do all slurs and decos
	if d in slurMap: s.slurbeg.append (d); continue # slurs made in while loop at the end
	elif d == 'fermata' or d == 'H':
	ntn = E.Element ('fermata', type='upright')
	elif d == 'arpeggio':
	ntn = E.Element ('arpeggiate', number='1')
	elif d in ['~(', '~)']:
	if d[1] == '(': tp = 'start'; s.glisnum += 1; gn = s.glisnum
	else: tp = 'stop'; gn = s.glisnum; s.glisnum -= 1
	if s.glisnum < 0: s.glisnum = 0; continue # stop without previous start
	ntn = E.Element ('glissando', {'line-type':'wavy', 'number':'%d' % gn, 'type':tp})
	elif d in ['-(', '-)']:
	if d[1] == '(': tp = 'start'; s.slidenum += 1; gn = s.slidenum
	else: tp = 'stop'; gn = s.slidenum; s.slidenum -= 1
	if s.slidenum < 0: s.slidenum = 0; continue # stop without previous start
	ntn = E.Element ('slide', {'line-type':'solid', 'number':'%d' % gn, 'type':tp})
	else: arts.append (d); continue
	addElem (nots, ntn, lev + 1)
	if arts: # do only note articulations and collect staff annotations in xmldecos
	rest = s.doArticulations (nt, nots, arts, lev + 1)
	if rest: info ('unhandled note decorations: %s' % rest)
	if slurs: # these are only slur endings
	for d in slurs.t: # slurs to be closed on this note
	if not s.slurstack.get (ov, 0): break # no more open old slurs for this (overlay) voice
	slurnum = s.slurstack [ov].pop ()
	slur = E.Element ('slur', number='%d' % slurnum, type='stop')
	addElem (nots, slur, lev + 1)
	while s.slurbeg: # create slurs beginning on this note
	stp = s.slurbeg.pop (0)
	slurnum = pushSlur (s.slurstack, ov)
	ntn = E.Element ('slur', number='%d' % slurnum, type='start')
	if '.' in stp: ntn.set ('line-type', 'dotted')
	if ',' in stp: ntn.set ('placement', 'below')
	if "'" in stp: ntn.set ('placement', 'above')
	addElem (nots, ntn, lev + 1)
	if list (nots) != []: # only add notations if not empty
	addElem (nt, nots, lev)

	def doArticulations (s, nt, nots, arts, lev):
	decos = []
	for a in arts:
	if a in s.artMap:
	art = E.Element ('articulations')
	addElem (nots, art, lev)
	addElem (art, E.Element (s.artMap[a]), lev + 1)
	elif a in s.ornMap:
	orn = E.Element ('ornaments')
	addElem (nots, orn, lev)
	addElem (orn, E.Element (s.ornMap[a]), lev + 1)
	elif a in ['trill(','trill)']:
	orn = E.Element ('ornaments')
	addElem (nots, orn, lev)
	type = 'start' if a.endswith ('(') else 'stop'
	if type == 'start': addElem (orn, E.Element ('trill-mark'), lev + 1)
	addElem (orn, E.Element ('wavy-line', type=type), lev + 1)
	elif a in s.tecMap:
	tec = E.Element ('technical')
	addElem (nots, tec, lev)
	addElem (tec, E.Element (s.tecMap[a]), lev + 1)
	elif a in '0123456':
	tec = E.Element ('technical')
	addElem (nots, tec, lev)
	if s.tabStaff == s.pid: # current voice belongs to a tabStaff
	alt = int (nt.findtext ('pitch/alter') or 0) # find midi number of current note
	step = nt.findtext ('pitch/step')
	oct = int (nt.findtext ('pitch/octave'))
	midi = oct * 12 + [0,2,4,5,7,9,11]['CDEFGAB'.index (step)] + alt + 12
	if a == '0': # no string annotation: find one
	firstFit = ''
	for smid, istr in s.tunTup: # midi numbers of open strings from high to low
	if midi >= smid: # highest open string where this note can be played
	isvrij = s.strAlloc.isVrij (istr - 1, s.gTime [0], s.gTime [1])
	a = str (istr) # string number
	if not firstFit: firstFit = a
	if isvrij: break
	if not isvrij: # no free string, take the first fit (lowest fret)
	a = firstFit
	s.strAlloc.bezet (int (a) - 1, s.gTime [0], s.gTime [1])
	else: # force annotated string number
	s.strAlloc.bezet (int (a) - 1, s.gTime [0], s.gTime [1])
	bmidi = s.tunmid [int (a) - 1] # midi number of allocated string (with capodastro)
	fret = midi - bmidi # fret position (respecting capodastro)
	if fret < 25 and fret >= 0:
	addElemT (tec, 'fret', str (fret), lev + 1)
	else:
	altp = 'b' if alt == -1 else '#' if alt == 1 else ''
	info ('fret %d out of range, note %s%d on string %s' % (fret, step+altp, oct, a))
	addElemT (tec, 'string', a, lev + 1)
	else:
	addElemT (tec, 'fingering', a, lev + 1)
	else: decos.append (a) # return staff annotations
	return decos

	def doLyr (s, n, nt, lev):
	for i, lyrobj in enumerate (n.objs):
	lyrel = E.Element ('lyric', number = str (i + 1))
	if lyrobj.name == 'syl':
	dash = len (lyrobj.t) == 2
	if dash:
	if i in s.lyrdash: type = 'middle'
	else: type = 'begin'; s.lyrdash [i] = 1
	else:
	if i in s.lyrdash: type = 'end'; del s.lyrdash [i]
	else: type = 'single'
	addElemT (lyrel, 'syllabic', type, lev + 1)
	txt = lyrobj.t[0] # the syllabe
	txt = re.sub (r'(?<!\\)~', ' ', txt) # replace ~ by space when not escaped (preceded by \)
	txt = re.sub (r'\\(.)', r'\1', txt) # replace all escaped characters by themselves (for the time being)
	addElemT (lyrel, 'text', txt, lev + 1)
	elif lyrobj.name == 'ext' and i in s.prevLyric:
	pext = s.prevLyric [i].find ('extend') # identify previous extend
	if pext == None:
	ext = E.Element ('extend', type = 'start')
	addElem (s.prevLyric [i], ext, lev + 1)
	elif pext.get('type') == 'stop': # subsequent extend: stop -> continue
	pext.set ('type', 'continue')
	ext = E.Element ('extend', type = 'stop') # always stop on current extend
	addElem (lyrel, ext, lev + 1)
	elif lyrobj.name == 'ext': info ('lyric extend error'); continue
	else: continue # skip other lyric elements or errors
	addElem (nt, lyrel, lev)
	s.prevLyric [i] = lyrel # for extension (melisma) on the next note

	def doBeams (s, n, nt, den, lev):
	if hasattr (n, 'chord') or hasattr (n, 'grace'):
	s.grcbbrk = s.grcbbrk or n.bbrk.t[0] # remember if there was any bbrk in or before a grace sequence
	return
	bbrk = s.grcbbrk or n.bbrk.t[0] or den < 32
	s.grcbbrk = False
	if not s.prevNote: pbm = None
	else: pbm = s.prevNote.find ('beam')
	bm = E.Element ('beam', number='1')
	bm.text = 'begin'
	if pbm != None:
	if bbrk:
	if pbm.text == 'begin':
	s.prevNote.remove (pbm)
	elif pbm.text == 'continue':
	pbm.text = 'end'
	s.prevNote = None
	else: bm.text = 'continue'
	if den >= 32 and n.name != 'rest':
	addElem (nt, bm, lev)
	s.prevNote = nt

	def stopBeams (s):
	if not s.prevNote: return
	pbm = s.prevNote.find ('beam')
	if pbm != None:
	if pbm.text == 'begin':
	s.prevNote.remove (pbm)
	elif pbm.text == 'continue':
	pbm.text = 'end'
	s.prevNote = None

	def staffDecos (s, decos, maat, lev):
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	for d in decos:
	d = s.usrSyms.get (d, d).strip ('!+') # try to replace user defined symbol
	if d in s.dynaMap:
	dynel = E.Element ('dynamics')
	addDirection (maat, dynel, lev, gstaff, [E.Element (d)], 'below', s.gcue_on)
	elif d in s.wedgeMap: # wedge
	if ')' in d: type = 'stop'
	else: type = 'crescendo' if '<' in d or 'crescendo' in d else 'diminuendo'
	addDirection (maat, E.Element ('wedge', type=type), lev, gstaff)
	elif d.startswith ('8v'):
	if 'a' in d: type, plce = 'down', 'above'
	else: type, plce = 'up', 'below'
	if ')' in d: type = 'stop'
	addDirection (maat, E.Element ('octave-shift', type=type, size='8'), lev, gstaff, placement=plce)
	elif d in (['ped','ped-up']):
	type = 'stop' if d.endswith ('up') else 'start'
	addDirection (maat, E.Element ('pedal', type=type), lev, gstaff)
	elif d in ['coda', 'segno']:
	text, attr, val = s.capoMap [d]
	dir = addDirection (maat, E.Element (text), lev, gstaff, placement='above')
	sound = E.Element ('sound'); sound.set (attr, val)
	addElem (dir, sound, lev + 1)
	elif d in s.capoMap:
	text, attr, val = s.capoMap [d]
	words = E.Element ('words'); words.text = text
	dir = addDirection (maat, words, lev, gstaff, placement='above')
	sound = E.Element ('sound'); sound.set (attr, val)
	addElem (dir, sound, lev + 1)
	elif d == '(' or d == '.(': s.slurbeg.append (d) # start slur on next note
	elif d in ['/-','//-','///-','////-']: # duplet tremolo sequence
	s.tmnum, s.tmden, s.ntup, s.trem, s.intrem = 2, 1, 2, len (d) - 1, 1
	elif d in ['/','//','///']: s.trem = - len (d) # single note tremolo
	elif d == 'rbstop': s.rbStop = 1; # sluit een open volta aan het eind van de maat
	else: s.nextdecos.append (d) # keep annotation for the next note

	def doFields (s, maat, fieldmap, lev):
	def instDir (midelm, midnum, dirtxt):
	instId = 'I%s-%s' % (s.pid, s.vid)
	words = E.Element ('words'); words.text = dirtxt % midnum
	snd = E.Element ('sound')
	mi = E.Element ('midi-instrument', id=instId)
	dir = addDirection (maat, words, lev, gstaff, placement='above')
	addElem (dir, snd, lev + 1)
	addElem (snd, mi, lev + 2)
	addElemT (mi, midelm, midnum, lev + 3)
	def addTrans (n):
	e = E.Element ('transpose')
	addElemT (e, 'chromatic', n, lev + 2) # n == signed number string given after transpose
	atts.append ((9, e))
	def doClef (field):
	if re.search (r'perc\|map', field): # percussion clef or new style perc=on or map=perc
	r = re.search (r'(perc\|map)\s=\s(\S*)', field)
	s.percVoice = 0 if r and r.group (2) not in ['on','true','perc'] else 1
	field = re.sub (r'(perc\|map)\s=\s(\S*)', '', field) # erase the perc= for proper clef matching
	clef, gtrans = 0, 0
	clefn = re.search (r'alto1\|alto2\|alto4\|alto\|tenor\|bass3\|bass\|treble\|perc\|none\|tab', field)
	clefm = re.search (r"(?:^m=\| m=\|middle=)([A-Ga-g])([,']*)", field)
	trans_oct2 = re.search (r'octave=([-+]?\d)', field)
	trans = re.search (r'(?:^t=\| t=\|transpose=)(-?[\d]+)', field)
	trans_oct = re.search (r'([+-^_])(8\|15)', field)
	cue_onoff = re.search (r'cue=(on\|off)', field)
	strings = re.search (r"strings=(\S+)", field)
	stafflines = re.search (r'stafflines=\s*(\d)', field)
	capo = re.search (r'capo=(\d+)', field)
	if clefn:
	clef = clefn.group ()
	if clefm:
	note, octstr = clefm.groups ()
	nUp = note.upper ()
	octnum = (4 if nUp == note else 5) + (len (octstr) if "'" in octstr else -len (octstr))
	gtrans = (3 if nUp in 'AFD' else 4) - octnum
	if clef not in ['perc', 'none']: clef = s.clefLineMap [nUp]
	if clef:
	s.gtrans = gtrans # only change global tranposition when a clef is really defined
	if clef != 'none': s.curClef = clef # keep track of current abc clef (for percmap)
	sign, line = s.clefMap [clef]
	if not sign: return
	c = E.Element ('clef')
	if gstaff: c.set ('number', str (gstaff)) # only add staff number when defined
	addElemT (c, 'sign', sign, lev + 2)
	if line: addElemT (c, 'line', line, lev + 2)
	if trans_oct:
	n = trans_oct.group (1) in '-_' and -1 or 1
	if trans_oct.group (2) == '15': n *= 2 # 8 => 1 octave, 15 => 2 octaves
	addElemT (c, 'clef-octave-change', str (n), lev + 2) # transpose print out
	if trans_oct.group (1) in '+-': s.gtrans += n # also transpose all pitches with one octave
	atts.append ((7, c))
	if trans_oct2: # octave= can also be in a K: field
	n = int (trans_oct2.group (1))
	s.gtrans = gtrans + n
	if trans != None: # add transposition in semitones
	e = E.Element ('transpose')
	addElemT (e, 'chromatic', str (trans.group (1)), lev + 3)
	atts.append ((9, e))
	if cue_onoff: s.gcue_on = cue_onoff.group (1) == 'on'
	nlines = 0
	if clef == 'tab':
	s.tabStaff = s.pid
	if capo: s.capo = int (capo.group (1))
	if strings: s.tuning = strings.group (1).split (',')
	s.tunmid = [int (boct) * 12 + [0,2,4,5,7,9,11]['CDEFGAB'.index (bstep)] + 12 + s.capo for bstep, boct in s.tuning]
	s.tunTup = sorted (zip (s.tunmid, range (len (s.tunmid), 0, -1)), reverse=1)
	s.tunmid.reverse ()
	nlines = str (len (s.tuning))
	s.strAlloc.setlines (len (s.tuning), s.pid)
	s.nostems = 'nostems' in field # tab clef without stems
	s.diafret = 'diafret' in field # tab with diatonic fretting
	if stafflines or nlines:
	e = E.Element ('staff-details')
	if gstaff: e.set ('number', str (gstaff)) # only add staff number when defined
	if not nlines: nlines = stafflines.group (1)
	addElemT (e, 'staff-lines', nlines, lev + 2)
	if clef == 'tab':
	for line, t in enumerate (s.tuning):
	st = E.Element ('staff-tuning', line=str(line+1))
	addElemT (st, 'tuning-step', t[0], lev + 3)
	addElemT (st, 'tuning-octave', t[1], lev + 3)
	addElem (e, st, lev + 2)
	if s.capo: addElemT (e, 'capo', str (s.capo), lev + 2)
	atts.append ((8, e))
	s.diafret = 0 # chromatic fretting is default
	atts = [] # collect xml attribute elements [(order-number, xml-element), ..]
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	for ftype, field in fieldmap.items ():
	if not field: # skip empty fields
	continue
	if ftype == 'Div': # not an abc field, but handled as if
	d = E.Element ('divisions')
	d.text = field
	atts.append ((1, d))
	elif ftype == 'gstaff': # make grand staff
	e = E.Element ('staves')
	e.text = str (field)
	atts.append ((4, e))
	elif ftype == 'M':
	if field == 'none': continue
	if field == 'C': field = '4/4'
	elif field == 'C\|': field = '2/2'
	t = E.Element ('time')
	if '/' not in field:
	info ('M:%s not recognized, 4/4 assumed' % field)
	field = '4/4'
	beats, btype = field.split ('/')[:2]
	try: s.mdur = simplify (eval (beats), int (btype)) # measure duration for Z and X rests (eval allows M:2+3/4)
	except:
	info ('error in M:%s, 4/4 assumed' % field)
	s.mdur = (4,4)
	beats, btype = '4','4'
	addElemT (t, 'beats', beats, lev + 2)
	addElemT (t, 'beat-type', btype, lev + 2)
	atts.append ((3, t))
	elif ftype == 'K':
	accs = ['F','C','G','D','A','E','B'] # == s.sharpness [7:14]
	mode = ''
	key = re.match (r'\s([A-G][#b]?)\s([a-zA-Z]*)', field)
	alts = re.search (r'\s((\s?[=^_][A-Ga-g])+)', ' ' + field) # avoid matching middle=G and m=G
	if key:
	key, mode = key.groups ()
	mode = mode.lower ()[:3] # only first three chars, no case
	if mode not in s.offTab: mode = 'maj'
	fifths = s.sharpness.index (key) - s.offTab [mode]
	if fifths >= 0: s.keyAlts = dict (zip (accs[:fifths], fifths * ['1']))
	else: s.keyAlts = dict (zip (accs[fifths:], -fifths * ['-1']))
	elif field.startswith ('none') or field == '': # the default key
	fifths = 0
	mode = 'maj'
	if alts:
	alts = re.findall (r'[=^_][A-Ga-g]', alts.group(1)) # list of explicit alterations
	alts = [(x[1], s.alterTab [x[0]]) for x in alts] # [step, alter]
	for step, alter in alts: # correct permanent alterations for this key
	s.keyAlts [step.upper ()] = alter
	k = E.Element ('key')
	koctave = []
	lowerCaseSteps = [step.upper () for step, alter in alts if step.islower ()]
	for step, alter in sorted (list (s.keyAlts.items ())):
	if alter == '0': # skip neutrals
	del s.keyAlts [step.upper ()] # otherwise you get neutral signs on normal notes
	continue
	addElemT (k, 'key-step', step.upper (), lev + 2)
	addElemT (k, 'key-alter', alter, lev + 2)
	koctave.append ('5' if step in lowerCaseSteps else '4')
	if koctave: # only key signature if not empty
	for oct in koctave:
	e = E.Element ('key-octave', number=oct)
	addElem (k, e, lev + 2)
	atts.append ((2, k))
	elif mode:
	k = E.Element ('key')
	addElemT (k, 'fifths', str (fifths), lev + 2)
	addElemT (k, 'mode', s.modTab [mode], lev + 2)
	atts.append ((2, k))
	doClef (field)
	elif ftype == 'L':
	try: s.unitLcur = lmap (int, field.split ('/'))
	except: s.unitLcur = (1,8)
	if len (s.unitLcur) == 1 or s.unitLcur[1] not in s.typeMap:
	info ('L:%s is not allowed, 1/8 assumed' % field)
	s.unitLcur = 1,8
	elif ftype == 'V':
	doClef (field)
	elif ftype == 'I':
	s.doField_I (ftype, field, instDir, addTrans)
	elif ftype == 'Q':
	s.doTempo (maat, field, lev)
	elif ftype == 'P': # ad hoc translation of P: into a staff text direction
	words = E.Element ('rehearsal')
	words.set ('font-weight', 'bold')
	words.text = field
	addDirection (maat, words, lev, gstaff, placement='above')
	elif ftype in 'TCOAZNGHRBDFSU':
	info ('**illegal header field in body: %s, content: %s' % (ftype, field))
	else:
	info ('unhandled field: %s, content: %s' % (ftype, field))

	if atts:
	att = E.Element ('attributes') # insert sub elements in the order required by musicXML
	addElem (maat, att, lev)
	for _, att_elem in sorted (atts, key=lambda x: x[0]): # ordering !
	addElem (att, att_elem, lev + 1)
	if s.diafret:
	other = E.Element ('other-direction'); other.text = 'diatonic fretting'
	addDirection (maat, other, lev, 0)

	def doTempo (s, maat, field, lev):
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	t = re.search (r'(\d)/(\d\d?)\s=\s(\d[.\d])\|(\d[.\d])', field)
	rtxt = re.search (r'"([^"]*)"', field) # look for text in Q: field
	if not t and not rtxt: return
	elems = [] # [(element, sub-elements)] will be added as direction-types
	if rtxt:
	num, den, upm = 1, 4, s.tempoMap.get (rtxt.group (1).lower ().strip (), 120)
	words = E.Element ('words'); words.text = rtxt.group (1)
	elems.append ((words, []))
	if t:
	try:
	if t.group (4): num, den, upm = 1, s.unitLcur[1] , float (t.group (4)) # old syntax Q:120
	else: num, den, upm = int (t.group (1)), int (t.group (2)), float (t.group (3))
	except: info ('conversion error: %s' % field); return
	num, den = simplify (num, den);
	dotted, den_not = (1, den // 2) if num == 3 else (0, den)
	metro = E.Element ('metronome')
	u = E.Element ('beat-unit'); u.text = s.typeMap.get (4 * den_not, 'quarter')
	pm = E.Element ('per-minute'); pm.text = ('%.2f' % upm).rstrip ('0').rstrip ('.')
	subelms = [u, E.Element ('beat-unit-dot'), pm] if dotted else [u, pm]
	elems.append ((metro, subelms))
	dir = addDirection (maat, elems, lev, gstaff, [], placement='above')
	if num != 1 and num != 3: info ('in Q: numerator in %d/%d not supported' % (num, den))
	qpm = 4. * num * upm / den
	sound = E.Element ('sound'); sound.set ('tempo', '%.2f' % qpm)
	addElem (dir, sound, lev + 1)

	def mkBarline (s, maat, loc, lev, style='', dir='', ending=''):
	b = E.Element ('barline', location=loc)
	if style:
	addElemT (b, 'bar-style', style, lev + 1)
	if s.curVolta: # first stop a current volta
	end = E.Element ('ending', number=s.curVolta, type='stop')
	s.curVolta = ''
	if loc == 'left': # stop should always go to a right barline
	bp = E.Element ('barline', location='right')
	addElem (bp, end, lev + 1)
	addElem (s.prevmsre, bp, lev) # prevmsre has no right barline! (ending would have stopped there)
	else:
	addElem (b, end, lev + 1)
	if ending:
	ending = ending.replace ('-',',') # MusicXML only accepts comma's
	endtxt = ''
	if ending.startswith ('"'): # ending is a quoted string
	endtxt = ending.strip ('"')
	ending = '33' # any number that is not likely to occur elsewhere
	end = E.Element ('ending', number=ending, type='start')
	if endtxt: end.text = endtxt # text appears in score in stead of number attribute
	addElem (b, end, lev + 1)
	s.curVolta = ending
	if dir:
	r = E.Element ('repeat', direction=dir)
	addElem (b, r, lev + 1)
	addElem (maat, b, lev)

	def doChordSym (s, maat, sym, lev):
	alterMap = {'#':'1','=':'0','b':'-1'}
	rnt = sym.root.t
	chord = E.Element ('harmony')
	addElem (maat, chord, lev)
	root = E.Element ('root')
	addElem (chord, root, lev + 1)
	addElemT (root, 'root-step', rnt[0], lev + 2)
	if len (rnt) == 2: addElemT (root, 'root-alter', alterMap [rnt[1]], lev + 2)
	kind = s.chordTab.get (sym.kind.t[0], 'major') if sym.kind.t else 'major'
	addElemT (chord, 'kind', kind, lev + 1)
	if hasattr (sym, 'bass'):
	bnt = sym.bass.t
	bass = E.Element ('bass')
	addElem (chord, bass, lev + 1)
	addElemT (bass, 'bass-step', bnt[0], lev + 2)
	if len (bnt) == 2: addElemT (bass, 'bass-alter', alterMap [bnt[1]], lev + 2)
	degs = getattr (sym, 'degree', '')
	if degs:
	if type (degs) != list_type: degs = [degs]
	for deg in degs:
	deg = deg.t[0]
	if deg[0] == '#': alter = '1'; deg = deg[1:]
	elif deg[0] == 'b': alter = '-1'; deg = deg[1:]
	else: alter = '0'; deg = deg
	degree = E.Element ('degree')
	addElem (chord, degree, lev + 1)
	addElemT (degree, 'degree-value', deg, lev + 2)
	addElemT (degree, 'degree-alter', alter, lev + 2)
	addElemT (degree, 'degree-type', 'add', lev + 2)

	def mkMeasure (s, i, t, lev, fieldmap={}):
	s.msreAlts = {}
	s.ntup, s.trem, s.intrem = -1, 0, 0
	s.acciatura = 0 # next grace element gets acciatura attribute
	s.rbStop = 0 # sluit een open volta aan het eind van de maat
	overlay = 0
	maat = E.Element ('measure', number = str(i))
	if fieldmap: s.doFields (maat, fieldmap, lev + 1)
	if s.linebrk: # there was a line break in the previous measure
	e = E.Element ('print')
	e.set ('new-system', 'yes')
	addElem (maat, e, lev + 1)
	s.linebrk = 0
	for it, x in enumerate (t):
	if x.name == 'note' or x.name == 'rest':
	if x.dur.t[0] == 0: # a leading zero was used for stemmless in abcm2ps, we only support !stemless!
	x.dur.t = tuple ([1, x.dur.t[1]])
	note = s.mkNote (x, lev + 1)
	addElem (maat, note, lev + 1)
	elif x.name == 'lbar':
	bar = x.t[0]
	if bar == '\|' or bar == '[\|': pass # skip redundant bar
	elif ':' in bar: # forward repeat
	volta = x.t[1] if len (x.t) == 2 else ''
	s.mkBarline (maat, 'left', lev + 1, style='heavy-light', dir='forward', ending=volta)
	else: # bar must be a volta number
	s.mkBarline (maat, 'left', lev + 1, ending=bar)
	elif x.name == 'rbar':
	bar = x.t[0]
	if bar == '.\|':
	s.mkBarline (maat, 'right', lev + 1, style='dotted')
	elif ':' in bar: # backward repeat
	s.mkBarline (maat, 'right', lev + 1, style='light-heavy', dir='backward')
	elif bar == '\|\|':
	s.mkBarline (maat, 'right', lev + 1, style='light-light')
	elif bar == '[\|]' or bar == '[]':
	s.mkBarline (maat, 'right', lev + 1, style='none')
	elif '[' in bar or ']' in bar:
	s.mkBarline (maat, 'right', lev + 1, style='light-heavy')
	elif bar == '\|' and s.rbStop: # normale barline hoeft niet, behalve om een volta te stoppen
	s.mkBarline (maat, 'right', lev + 1, style='regular')
	elif bar[0] == '&': overlay = 1
	elif x.name == 'tup':
	if len (x.t) == 3: n, into, nts = x.t
	elif len (x.t) == 2: n, into, nts = x.t + [0]
	else: n, into, nts = x.t[0], 0, 0
	if into == 0: into = 3 if n in [2,4,8] else 2
	if nts == 0: nts = n
	s.tmnum, s.tmden, s.ntup = n, into, nts
	elif x.name == 'deco':
	s.staffDecos (x.t, maat, lev + 1) # output staff decos, postpone note decos to next note
	elif x.name == 'text':
	pos, text = x.t[:2]
	place = 'above' if pos == '^' else 'below'
	words = E.Element ('words')
	words.text = text
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	addDirection (maat, words, lev + 1, gstaff, placement=place)
	elif x.name == 'inline':
	fieldtype, fieldval = x.t[0], ' '.join (x.t[1:])
	s.doFields (maat, {fieldtype:fieldval}, lev + 1)
	elif x.name == 'accia': s.acciatura = 1
	elif x.name == 'linebrk':
	s.supports_tag = 1
	if it > 0 and t[it -1].name == 'lbar': # we are at start of measure
	e = E.Element ('print') # output linebreak now
	e.set ('new-system', 'yes')
	addElem (maat, e, lev + 1)
	else:
	s.linebrk = 1 # output linebreak at start of next measure
	elif x.name == 'chordsym':
	s.doChordSym (maat, x, lev + 1)
	s.stopBeams ()
	s.prevmsre = maat
	return maat, overlay

	def mkPart (s, maten, id, lev, attrs, nstaves, rOpt):
	s.slurstack = {}
	s.glisnum = 0; # xml number attribute for glissandos
	s.slidenum = 0; # xml number attribute for slides
	s.unitLcur = s.unitL # set the default unit length at begin of each voice
	s.curVolta = ''
	s.lyrdash = {}
	s.linebrk = 0
	s.midprg = ['', '', '', ''] # MIDI channel nr, program nr, volume, panning for the current part
	s.gcue_on = 0 # reset cue note marker for each new voice
	s.gtrans = 0 # reset octave transposition (by clef)
	s.percVoice = 0 # 1 if percussion clef encountered
	s.curClef = '' # current abc clef (for percmap)
	s.nostems = 0 # for the tab clef
	s.tuning = s.tuningDef # reset string tuning to default
	part = E.Element ('part', id=id)
	s.overlayVnum = 0 # overlay voice number to relate ties that extend from one overlayed measure to the next
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	attrs_cpy = attrs.copy () # don't change attrs itself in next line
	if gstaff == 1: attrs_cpy ['gstaff'] = nstaves # make a grand staff
	if 'perc' in attrs_cpy.get ('V', ''): del attrs_cpy ['K'] # remove key from percussion voice
	msre, overlay = s.mkMeasure (1, maten[0], lev + 1, attrs_cpy)
	addElem (part, msre, lev + 1)
	for i, maat in enumerate (maten[1:]):
	s.overlayVnum = s.overlayVnum + 1 if overlay else 0
	msre, next_overlay = s.mkMeasure (i+2, maat, lev + 1)
	if overlay: mergePartMeasure (part, msre, s.overlayVnum, rOpt)
	else: addElem (part, msre, lev + 1)
	overlay = next_overlay
	return part

	def mkScorePart (s, id, vids_p, partAttr, lev):
	def mkInst (instId, vid, midchan, midprog, midnot, vol, pan, lev):
	si = E.Element ('score-instrument', id=instId)
	pnm = partAttr.get (vid, [''])[0] # part name if present
	addElemT (si, 'instrument-name', pnm or 'dummy', lev + 2) # MuseScore needs a name
	mi = E.Element ('midi-instrument', id=instId)
	if midchan: addElemT (mi, 'midi-channel', midchan, lev + 2)
	if midprog: addElemT (mi, 'midi-program', str (int (midprog) + 1), lev + 2) # compatible with abc2midi
	if midnot: addElemT (mi, 'midi-unpitched', str (int (midnot) + 1), lev + 2)
	if vol: addElemT (mi, 'volume', '%.2f' % (int (vol) / 1.27), lev + 2)
	if pan: addElemT (mi, 'pan', '%.2f' % (int (pan) / 127. * 180 - 90), lev + 2)
	return (si, mi)
	naam, subnm, midprg = partAttr [id]
	sp = E.Element ('score-part', id='P'+id)
	nm = E.Element ('part-name')
	nm.text = naam
	addElem (sp, nm, lev + 1)
	snm = E.Element ('part-abbreviation')
	snm.text = subnm
	if subnm: addElem (sp, snm, lev + 1) # only add if subname was given
	inst = []
	for instId, (pid, vid, chan, midprg, vol, pan) in sorted (s.midiInst.items ()):
	midprg, midnot = ('0', midprg) if chan == '10' else (midprg, '')
	if pid == id: inst.append (mkInst (instId, vid, chan, midprg, midnot, vol, pan, lev))
	for si, mi in inst: addElem (sp, si, lev + 1)
	for si, mi in inst: addElem (sp, mi, lev + 1)
	return sp

	def mkPartlist (s, vids, partAttr, lev):
	def addPartGroup (sym, num):
	pg = E.Element ('part-group', number=str (num), type='start')
	addElem (partlist, pg, lev + 1)
	addElemT (pg, 'group-symbol', sym, lev + 2)
	addElemT (pg, 'group-barline', 'yes', lev + 2)
	partlist = E.Element ('part-list')
	g_num = 0 # xml group number
	for g in (s.groups or vids): # brace/bracket or abc_voice_id
	if g == '[': g_num += 1; addPartGroup ('bracket', g_num)
	elif g == '{': g_num += 1; addPartGroup ('brace', g_num)
	elif g in '}]':
	pg = E.Element ('part-group', number=str (g_num), type='stop')
	addElem (partlist, pg, lev + 1)
	g_num -= 1
	else: # g = abc_voice_id
	if g not in vids: continue # error in %%score
	sp = s.mkScorePart (g, vids, partAttr, lev + 1)
	addElem (partlist, sp, lev + 1)
	return partlist

	def doField_I (s, type, x, instDir, addTrans):
	def instChange (midchan, midprog): # instDir -> doFields
	if midchan and midchan != s.midprg [0]: instDir ('midi-channel', midchan, 'chan: %s')
	if midprog and midprog != s.midprg [1]: instDir ('midi-program', str (int (midprog) + 1), 'prog: %s')
	def readPfmt (x, n): # read ABC page formatting constant
	if not s.pageFmtAbc: s.pageFmtAbc = s.pageFmtDef # set the default values on first change
	ro = re.search (r'[^.\d]([\d.]+)\s(cm\|in\|pt)?', x) # float followed by unit
	if ro:
	x, unit = ro.groups () # unit == None when not present
	u = {'cm':10., 'in':25.4, 'pt':25.4/72} [unit] if unit else 1.
	s.pageFmtAbc [n] = float (x) * u # convert ABC values to millimeters
	else: info ('error in page format: %s' % x)
	def readPercMap (x): # parse I:percmap <abc_note> <step> <MIDI> <notehead>
	def getMidNum (sndnm): # find midi number of GM drum sound name
	pnms = sndnm.split ('-') # sound name parts (from I:percmap)
	ps = s.percsnd [:] # copy of the instruments
	_f = lambda ip, xs, pnm: ip < len (xs) and xs[ip].find (pnm) > -1 # part xs[ip] and pnm match
	for ip, pnm in enumerate (pnms): # match all percmap sound name parts
	ps = [(nm, mnum) for nm, mnum in ps if _f (ip, nm.split ('-'), pnm) ] # filter instruments
	if len (ps) <= 1: break # no match or one instrument left
	if len (ps) == 0: info ('drum sound: %s not found' % sndnm); return '38'
	return ps [0][1] # midi number of (first) instrument found
	def midiVal (acc, step, oct): # abc note -> midi note number
	oct = (4 if step.upper() == step else 5) + int (oct)
	return oct * 12 + [0,2,4,5,7,9,11]['CDEFGAB'.index (step.upper())] + {'^':1,'_':-1,'=':0}.get (acc, 0) + 12
	p0, p1, p2, p3, p4 = abc_percmap.parseString (x).asList () # percmap, abc-note, display-step, midi, note-head
	acc, astep, aoct = p1
	nstep, noct = (astep, aoct) if p2 == '*' else p2
	if p3 == '*': midi = str (midiVal (acc, astep, aoct))
	elif isinstance (p3, list_type): midi = str (midiVal (p3[0], p3[1], p3[2]))
	elif isinstance (p3, int_type): midi = str (p3)
	else: midi = getMidNum (p3.lower ())
	head = re.sub (r'(.)-([^x])', r'\1 \2', p4) # convert abc note head names to xml
	s.percMap [(s.pid, acc + astep, aoct)] = (nstep, noct, midi, head)
	if x.startswith ('score') or x.startswith ('staves'):
	s.staveDefs += [x] # collect all voice mappings
	elif x.startswith ('staffwidth'): info ('skipped I-field: %s' % x)
	elif x.startswith ('staff'): # set new staff number of the current voice
	r1 = re.search (r'staff *([+-]?)(\d)', x)
	if r1:
	sign = r1.group (1)
	num = int (r1.group (2))
	gstaff = s.gStaffNums.get (s.vid, 0) # staff number of the current voice
	if sign: # relative staff number
	num = (sign == '-') and gstaff - num or gstaff + num
	else: # absolute abc staff number
	try: vabc = s.staves [num - 1][0] # vid of (first voice of) abc-staff num
	except: vabc = 0; info ('abc staff %s does not exist' % num)
	num = s.gStaffNumsOrg.get (vabc, 0) # xml staff number of abc-staff num
	if gstaff and num > 0 and num <= s.gNstaves [s.vid]:
	s.gStaffNums [s.vid] = num
	else: info ('could not relocate to staff: %s' % r1.group ())
	else: info ('not a valid staff redirection: %s' % x)
	elif x.startswith ('scale'): readPfmt (x, 0)
	elif x.startswith ('pageheight'): readPfmt (x, 1)
	elif x.startswith ('pagewidth'): readPfmt (x, 2)
	elif x.startswith ('leftmargin'): readPfmt (x, 3)
	elif x.startswith ('rightmargin'): readPfmt (x, 4)
	elif x.startswith ('topmargin'): readPfmt (x, 5)
	elif x.startswith ('botmargin'): readPfmt (x, 6)
	elif x.startswith ('MIDI') or x.startswith ('midi'):
	r1 = re.search (r'program (\d) +(\d+)', x)
	r2 = re.search (r'channel *(\d+)', x)
	r3 = re.search (r"drummap\s+([_=^])([A-Ga-g])([,'])\s+(\d+)", x)
	r4 = re.search (r'control *(\d+) +(\d+)', x)
	ch_nw, prg_nw, vol_nw, pan_nw = '', '', '', ''
	if r1: ch_nw, prg_nw = r1.groups () # channel nr or '', program nr
	if r2: ch_nw = r2.group (1) # channel nr only
	if r4:
	cnum, cval = r4.groups () # controller number, controller value
	if cnum == '7': vol_nw = cval
	if cnum == '10': pan_nw = cval
	if r1 or r2 or r4:
	ch = ch_nw or s.midprg [0]
	prg = prg_nw or s.midprg [1]
	vol = vol_nw or s.midprg [2]
	pan = pan_nw or s.midprg [3]
	instId = 'I%s-%s' % (s.pid, s.vid) # only look for real instruments, no percussion
	if instId in s.midiInst: instChange (ch, prg) # instChance -> doFields
	s.midprg = [ch, prg, vol, pan] # mknote: new instrument -> s.midiInst
	if r3: # translate drummap to percmap
	acc, step, oct, midi = r3.groups ()
	oct = -len (oct) if ',' in x else len (oct)
	notehead = 'x' if acc == '^' else 'circle-x' if acc == '_' else 'normal'
	s.percMap [(s.pid, acc + step, oct)] = (step, oct, midi, notehead)
	r = re.search (r'transpose[^-\d]*(-?\d+)', x)
	if r: addTrans (r.group (1)) # addTrans -> doFields
	elif x.startswith ('percmap'): readPercMap (x); s.pMapFound = 1
	else: info ('skipped I-field: %s' % x)

	def parseStaveDef (s, vdefs):
	for vid in vdefs: s.vcepid [vid] = vid # default: each voice becomes an xml part
	if not s.staveDefs: return vdefs
	for x in s.staveDefs [1:]: info ('%%%%%s dropped, multiple stave mappings not supported' % x)
	x = s.staveDefs [0] # only the first %%score is honoured
	score = abc_scoredef.parseString (x) [0]
	f = lambda x: type (x) == uni_type and [x] or x
	s.staves = lmap (f, mkStaves (score, vdefs)) # [[vid] for each staff]
	s.grands = lmap (f, mkGrand (score, vdefs)) # [staff-id], staff-id == [vid][0]
	s.groups = mkGroups (score)
	vce_groups = [vids for vids in s.staves if len (vids) > 1] # all voice groups
	d = {} # for each voice group: map first voice id -> all merged voice ids
	for vgr in vce_groups: d [vgr[0]] = vgr
	for gstaff in s.grands: # for all grand staves
	if len (gstaff) == 1: continue # skip single parts
	for v, stf_num in zip (gstaff, range (1, len (gstaff) + 1)):
	for vx in d.get (v, [v]): # allocate staff numbers
	s.gStaffNums [vx] = stf_num # to all constituant voices
	s.gNstaves [vx] = len (gstaff) # also remember total number of staves
	s.gStaffNumsOrg = s.gStaffNums.copy () # keep original allocation for abc -> xml staff map
	for xmlpart in s.grands:
	pid = xmlpart [0] # part id == first staff id == first voice id
	vces = [v for stf in xmlpart for v in d.get (stf, [stf])]
	for v in vces: s.vcepid [v] = pid
	return vdefs

	def voiceNamesAndMaps (s, ps): # get voice names and mappings
	vdefs = {}
	for vid, vcedef, vce in ps: # vcedef == emtpy or first pObj == voice definition
	pname, psubnm = '', '' # part name and abbreviation
	if not vcedef: # simple abc without voice definitions
	vdefs [vid] = pname, psubnm, ''
	else: # abc with voice definitions
	if vid != vcedef.t[1]: info ('voice ids unequal: %s (reg-ex) != %s (grammar)' % (vid, vcedef.t[1]))
	rn = re.search (r'(?:name\|nm)="([^"]*)"', vcedef.t[2])
	if rn: pname = rn.group (1)
	rn = re.search (r'(?:subname\|snm\|sname)="([^"]*)"', vcedef.t[2])
	if rn: psubnm = rn.group (1)
	vcedef.t[2] = vcedef.t[2].replace ('"%s"' % pname, '""').replace ('"%s"' % psubnm, '""') # clear voice name to avoid false clef matches later on
	vdefs [vid] = pname, psubnm, vcedef.t[2]
	xs = [pObj.t[1] for maat in vce for pObj in maat if pObj.name == 'inline'] # all inline statements in vce
	s.staveDefs += [x.replace ('%5d',']') for x in xs if x.startswith ('score') or x.startswith ('staves')] # filter %%score and %%staves
	return vdefs

	def doHeaderField (s, fld, attrmap):
	type, value = fld.t[0], fld.t[1].replace ('%5d',']') # restore closing brackets (see splitHeaderVoices)
	if not value: # skip empty field
	return
	if type == 'M':
	attrmap [type] = value
	elif type == 'L':
	try: s.unitL = lmap (int, fld.t[1].split ('/'))
	except:
	info ('illegal unit length:%s, 1/8 assumed' % fld.t[1])
	s.unitL = 1,8
	if len (s.unitL) == 1 or s.unitL[1] not in s.typeMap:
	info ('L:%s is not allowed, 1/8 assumed' % fld.t[1])
	s.unitL = 1,8
	elif type == 'K':
	attrmap[type] = value
	elif type == 'T':
	s.title = s.title + '\n' + value if s.title else value
	elif type == 'U':
	sym = fld.t[2].strip ('!+')
	s.usrSyms [value] = sym
	elif type == 'I':
	s.doField_I (type, value, lambda x,y,z:0, lambda x:0)
	elif type == 'Q':
	attrmap[type] = value
	elif type in 'CRZNOAGHBDFSP': # part maps are treated as meta data
	type = s.metaMap.get (type, type) # respect the (user defined --meta) mapping of various ABC fields to XML meta data types
	c = s.metadata.get (type, '')
	s.metadata [type] = c + '\n' + value if c else value # concatenate multiple info fields with new line as separator
	else:
	info ('skipped header: %s' % fld)

	def mkIdentification (s, score, lev):
	if s.title:
	xs = s.title.split ('\n') # the first T: line goes to work-title
	ys = '\n'.join (xs [1:]) # place subsequent T: lines into work-number
	w = E.Element ('work')
	addElem (score, w, lev + 1)
	if ys: addElemT (w, 'work-number', ys, lev + 2)
	addElemT (w, 'work-title', xs[0], lev + 2)
	ident = E.Element ('identification')
	addElem (score, ident, lev + 1)
	for mtype, mval in s.metadata.items ():
	if mtype in s.metaTypes and mtype != 'rights': # all metaTypes are MusicXML creator types
	c = E.Element ('creator', type=mtype)
	c.text = mval
	addElem (ident, c, lev + 2)
	if 'rights' in s.metadata:
	c = addElemT (ident, 'rights', s.metadata ['rights'], lev + 2)
	encoding = E.Element ('encoding')
	addElem (ident, encoding, lev + 2)
	encoder = E.Element ('encoder')
	encoder.text = 'abc2xml version %d' % VERSION
	addElem (encoding, encoder, lev + 3)
	if s.supports_tag: # avoids interference of auto-flowing and explicit linebreaks
	suports = E.Element ('supports', attribute="new-system", element="print", type="yes", value="yes")
	addElem (encoding, suports, lev + 3)
	encodingDate = E.Element ('encoding-date')
	encodingDate.text = str (datetime.date.today ())
	addElem (encoding, encodingDate, lev + 3)
	s.addMeta (ident, lev + 2)

	def mkDefaults (s, score, lev):
	if s.pageFmtCmd: s.pageFmtAbc = s.pageFmtCmd
	if not s.pageFmtAbc: return # do not output the defaults if none is desired
	abcScale, h, w, l, r, t, b = s.pageFmtAbc
	space = abcScale * 2.117 # 2.117 = 6pt = space between staff lines for scale = 1.0 in abcm2ps
	mils = 4 * space # staff height in millimeters
	scale = 40. / mils # tenth's per millimeter
	dflts = E.Element ('defaults')
	addElem (score, dflts, lev)
	scaling = E.Element ('scaling')
	addElem (dflts, scaling, lev + 1)
	addElemT (scaling, 'millimeters', '%g' % mils, lev + 2)
	addElemT (scaling, 'tenths', '40', lev + 2)
	layout = E.Element ('page-layout')
	addElem (dflts, layout, lev + 1)
	addElemT (layout, 'page-height', '%g' % (h * scale), lev + 2)
	addElemT (layout, 'page-width', '%g' % (w * scale), lev + 2)
	margins = E.Element ('page-margins', type='both')
	addElem (layout, margins, lev + 2)
	addElemT (margins, 'left-margin', '%g' % (l * scale), lev + 3)
	addElemT (margins, 'right-margin', '%g' % (r * scale), lev + 3)
	addElemT (margins, 'top-margin', '%g' % (t * scale), lev + 3)
	addElemT (margins, 'bottom-margin', '%g' % (b * scale), lev + 3)

	def addMeta (s, parent, lev):
	misc = E.Element ('miscellaneous')
	mf = 0
	for mtype, mval in sorted (s.metadata.items ()):
	if mtype == 'S':
	addElemT (parent, 'source', mval, lev)
	elif mtype in s.metaTypes: continue # mapped meta data has already been output (in creator elements)
	else:
	mf = E.Element ('miscellaneous-field', name=s.metaTab [mtype])
	mf.text = mval
	addElem (misc, mf, lev + 1)
	if mf != 0: addElem (parent, misc, lev)

	def parse (s, abc_string, rOpt=False, bOpt=False, fOpt=False):
	abctext = abc_string.replace ('[I:staff ','[I:staff') # avoid false beam breaks
	s.reset (fOpt)
	header, voices = splitHeaderVoices (abctext)
	ps = []
	try:
	lbrk_insert = 0 if re.search (r'I:linebreak\s([!$]\|none)\|I:continueall\s(1\|true)', header) else bOpt
	hs = abc_header.parseString (header) if header else ''
	for id, voice in voices:
	if lbrk_insert: # insert linebreak at EOL
	r1 = re.compile (r'\[[wA-Z]:[^]]*\]') # inline field
	has_abc = lambda x: r1.sub ('', x).strip () # empty if line only contains inline fields
	voice = '\n'.join ([balk.rstrip ('$!') + '$' if has_abc (balk) else balk for balk in voice.splitlines ()])
	prevLeftBar = None # previous voice ended with a left-bar symbol (double repeat)
	s.orderChords = s.fOpt and ('tab' in voice [:200] or [x for x in hs if x.t[0] == 'K' and 'tab' in x.t[1]])
	vce = abc_voice.parseString (voice).asList ()
	lyr_notes = [] # remember notes between lyric blocks
	for m in vce: # all measures
	for e in m: # all abc-elements
	if e.name == 'lyr_blk': # -> e.objs is list of lyric lines
	lyr = [line.objs for line in e.objs] # line.objs is listof syllables
	alignLyr (lyr_notes, lyr) # put all syllables into corresponding notes
	lyr_notes = []
	else:
	lyr_notes.append (e)
	if not vce: # empty voice, insert an inline field that will be rejected
	vce = [[pObj ('inline', ['I', 'empty voice'])]]
	if prevLeftBar:
	vce[0].insert (0, prevLeftBar) # insert at begin of first measure
	prevLeftBar = None
	if vce[-1] and vce[-1][-1].name == 'lbar': # last measure ends with an lbar
	prevLeftBar = vce[-1][-1]
	if len (vce) > 1: # vce should not become empty (-> exception when taking vcelyr [0][0])
	del vce[-1] # lbar was the only element in measure vce[-1]
	vcelyr = vce
	elem1 = vcelyr [0][0] # the first element of the first measure
	if elem1.name == 'inline'and elem1.t[0] == 'V': # is a voice definition
	voicedef = elem1
	del vcelyr [0][0] # do not read voicedef twice
	else:
	voicedef = ''
	ps.append ((id, voicedef, vcelyr))
	except ParseException as err:
	if err.loc > 40: # limit length of error message, compatible with markInputline
	err.pstr = err.pstr [err.loc - 40: err.loc + 40]
	err.loc = 40
	xs = err.line[err.col-1:]
	info (err.line, warn=0)
	info ((err.col-1) * '-' + '^', warn=0)
	if re.search (r'\[U:', xs):
	info ('Error: illegal user defined symbol: %s' % xs[1:], warn=0)
	elif re.search (r'\[[OAPZNGHRBDFSXTCIU]:', xs):
	info ('Error: header-only field %s appears after K:' % xs[1:], warn=0)
	else:
	info ('Syntax error at column %d' % err.col, warn=0)
	raise

	score = E.Element ('score-partwise')
	attrmap = {'Div': str (s.divisions), 'K':'C treble', 'M':'4/4'}
	for res in hs:
	if res.name == 'field':
	s.doHeaderField (res, attrmap)
	else:
	info ('unexpected header item: %s' % res)

	vdefs = s.voiceNamesAndMaps (ps)
	vdefs = s.parseStaveDef (vdefs)

	lev = 0
	vids, parts, partAttr = [], [], {}
	s.strAlloc = stringAlloc ()
	for vid, _, vce in ps: # voice id, voice parse tree
	pname, psubnm, voicedef = vdefs [vid] # part name
	attrmap ['V'] = voicedef # abc text of first voice definition (after V:vid) or empty
	pid = 'P%s' % vid # let part id start with an alpha
	s.vid = vid # avoid parameter passing, needed in mkNote for instrument id
	s.pid = s.vcepid [s.vid] # xml part-id for the current voice
	s.gTime = (0, 0) # reset time
	s.strAlloc.beginZoek () # reset search index
	part = s.mkPart (vce, pid, lev + 1, attrmap, s.gNstaves.get (vid, 0), rOpt)
	if 'Q' in attrmap: del attrmap ['Q'] # header tempo only in first part
	parts.append (part)
	vids.append (vid)
	partAttr [vid] = (pname, psubnm, s.midprg)
	if s.midprg != ['', '', '', ''] and not s.percVoice: # when a part has only rests
	instId = 'I%s-%s' % (s.pid, s.vid)
	if instId not in s.midiInst: s.midiInst [instId] = (s.pid, s.vid, s.midprg [0], s.midprg [1], s.midprg [2], s.midprg [3])
	parts, vidsnew = mergeParts (parts, vids, s.staves, rOpt) # merge parts into staves as indicated by %%score
	parts, vidsnew = mergeParts (parts, vidsnew, s.grands, rOpt, 1) # merge grand staves
	reduceMids (parts, vidsnew, s.midiInst)

	s.mkIdentification (score, lev)
	s.mkDefaults (score, lev + 1)

	partlist = s.mkPartlist (vids, partAttr, lev + 1)
	addElem (score, partlist, lev + 1)
	for ip, part in enumerate (parts): addElem (score, part, lev + 1)

	return score


	def decodeInput (data_string):
	try: enc = 'utf-8'; unicode_string = data_string.decode (enc)
	except:
	try: enc = 'latin-1'; unicode_string = data_string.decode (enc)
	except: raise ValueError ('data not encoded in utf-8 nor in latin-1')
	info ('decoded from %s' % enc)
	return unicode_string

	def ggd (a, b): # greatest common divisor
	return a if b == 0 else ggd (b, a % b)

	xmlVersion = "<?xml version='1.0' encoding='utf-8'?>"
	def fixDoctype (elem):
	if python3: xs = E.tostring (elem, encoding='unicode') # writing to file will auto-encode to utf-8
	else: xs = E.tostring (elem, encoding='utf-8') # keep the string utf-8 encoded for writing to file
	ys = xs.split ('\n')
	ys.insert (0, xmlVersion) # crooked logic of ElementTree lib
	ys.insert (1, '<!DOCTYPE score-partwise PUBLIC "-//Recordare//DTD MusicXML 3.0 Partwise//EN" "http://www.musicxml.org/dtds/partwise.dtd">')
	return '\n'.join (ys)

	def xml2mxl (pad, fnm, data): # write xml data to compressed .mxl file
	from zipfile import ZipFile, ZIP_DEFLATED
	fnmext = fnm + '.xml' # file name with extension, relative to the root within the archive
	outfile = os.path.join (pad, fnm + '.mxl')
	meta = '%s\n<container><rootfiles>\n' % xmlVersion
	meta += '<rootfile full-path="%s" media-type="application/vnd.recordare.musicxml+xml"/>\n' % fnmext
	meta += '</rootfiles></container>'
	f = ZipFile (outfile, 'w', ZIP_DEFLATED)
	f.writestr ('META-INF/container.xml', meta)
	f.writestr (fnmext, data)
	f.close ()
	info ('%s written' % outfile, warn=0)

	def convert (pad, fnm, abc_string, mxl, rOpt=False, tOpt=False, bOpt=False, fOpt=False): # not used, backwards compatibility
	score = mxm.parse (abc_string, rOpt, bOpt, fOpt)
	writefile (pad, fnm, '', score, mxl, tOpt)

	def writefile (pad, fnm, fnmNum, xmldoc, mxlOpt, tOpt=False):
	ipad, ifnm = os.path.split (fnm) # base name of input path is
	if tOpt:
	x = xmldoc.findtext ('work/work-title', 'no_title')
	ifnm = x.replace (',','_').replace ("'",'_').replace ('?','_')
	else:
	ifnm += fnmNum
	xmlstr = fixDoctype (xmldoc)
	if pad:
	if not mxlOpt or mxlOpt in ['a', 'add']:
	outfnm = os.path.join (pad, ifnm + '.xml') # joined with path from -o option
	outfile = open (outfnm, 'w')
	outfile.write (xmlstr)
	outfile.close ()
	info ('%s written' % outfnm, warn=0)
	if mxlOpt: xml2mxl (pad, ifnm, xmlstr) # also write a compressed version
	else:
	outfile = sys.stdout
	outfile.write (xmlstr)
	outfile.write ('\n')

	def readfile (fnmext, errmsg='read error: '):
	try:
	if fnmext == '-.abc': fobj = stdin # see python2/3 differences
	else: fobj = open (fnmext, 'rb')
	encoded_data = fobj.read ()
	fobj.close ()
	return encoded_data if type (encoded_data) == uni_type else decodeInput (encoded_data)
	except Exception as e:
	info (errmsg + repr (e) + ' ' + fnmext)
	return None

	def expand_abc_include (abctxt):
	ys = []
	for x in abctxt.splitlines ():
	if x.startswith ('%%abc-include') or x.startswith ('I:abc-include'):
	x = readfile (x[13:].strip (), 'include error: ')
	if x != None: ys.append (x)
	return '\n'.join (ys)

	abc_header, abc_voice, abc_scoredef, abc_percmap = abc_grammar () # compute grammars only once
	mxm = MusicXml () # same for instance of MusicXml

	def getXmlScores (abc_string, skip=0, num=1, rOpt=False, bOpt=False, fOpt=False): # not used, backwards compatibility
	return [fixDoctype (xml_doc) for xml_doc in
	getXmlDocs (abc_string, skip=0, num=1, rOpt=False, bOpt=False, fOpt=False)]

	def getXmlDocs (abc_string, skip=0, num=1, rOpt=False, bOpt=False, fOpt=False): # added by David Randolph
	xml_docs = []
	abctext = expand_abc_include (abc_string)
	fragments = re.split (r'^\s*X:', abctext, flags=re.M)
	preamble = fragments [0] # tunes can be preceeded by formatting instructions
	tunes = fragments[1:]
	if not tunes and preamble: tunes, preamble = ['1\n' + preamble], '' # tune without X:
	for itune, tune in enumerate (tunes):
	if itune < skip: continue # skip tunes, then read at most num tunes
	if itune >= skip + num: break
	tune = preamble + 'X:' + tune # restore preamble before each tune
	try: # convert string abctext -> file pad/fnmNum.xml
	score = mxm.parse (tune, rOpt, bOpt, fOpt)
	ds = list (score.iter ('duration')) # need to iterate twice
	ss = [int (d.text) for d in ds]
	deler = reduce (ggd, ss + [21]) # greatest common divisor of all durations
	for i, d in enumerate (ds): d.text = str (ss [i] // deler)
	for d in score.iter ('divisions'): d.text = str (int (d.text) // deler)
	xml_docs.append (score)
	except ParseException:
	pass # output already printed
	except Exception as err:
	info ('an exception occurred.\n%s' % err)
	return xml_docs

	#----------------
	# Main Program
	#----------------
	if __name__ == '__main__':
	from optparse import OptionParser
	from glob import glob
	import time

	parser = OptionParser (usage='%prog [-h] [-r] [-t] [-b] [-m SKIP NUM] [-o DIR] [-p PFMT] [-z MODE] [--meta MAP] <file1> [<file2> ...]', version='version %d' % VERSION)
	parser.add_option ("-o", action="store", help="store xml files in DIR", default='', metavar='DIR')
	parser.add_option ("-m", action="store", help="skip SKIP (0) tunes, then read at most NUM (1) tunes", nargs=2, type='int', default=(0,1), metavar='SKIP NUM')
	parser.add_option ("-p", action="store", help="pageformat PFMT (mm) = scale (0.75), pageheight (297), pagewidth (210), leftmargin (18), rightmargin (18), topmargin (10), botmargin (10)", default='', metavar='PFMT')
	parser.add_option ("-z", "--mxl", dest="mxl", help="store as compressed mxl, MODE = a(dd) or r(eplace)", default='', metavar='MODE')
	parser.add_option ("-r", action="store_true", help="show whole measure rests in merged staffs", default=False)
	parser.add_option ("-t", action="store_true", help="use tune title as file name", default=False)
	parser.add_option ("-b", action="store_true", help="line break at EOL", default=False)
	parser.add_option ("--meta", action="store", help="map infofields to XML metadata, MAP = R:poet,Z:lyricist,N:...", default='', metavar='MAP')
	parser.add_option ("-f", action="store_true", help="force string/fret allocations for tab staves", default=False)
	options, args = parser.parse_args ()
	if len (args) == 0: parser.error ('no input file given')
	pad = options.o
	if options.mxl and options.mxl not in ['a','add', 'r', 'replace']:
	parser.error ('MODE should be a(dd) or r(eplace), not: %s' % options.mxl)
	if pad:
	if not os.path.exists (pad): os.mkdir (pad)
	if not os.path.isdir (pad): parser.error ('%s is not a directory' % pad)
	if options.p: # set page formatting values
	try: # space, page-height, -width, margin-left, -right, -top, -bottom
	mxm.pageFmtCmd = lmap (float, options.p.split (','))
	if len (mxm.pageFmtCmd) != 7: raise ValueError ('-p needs 7 values')
	except Exception as err: parser.error (err)
	for x in options.meta.split (','):
	if not x: continue
	try: field, tag = x.split (':')
	except: parser.error ('--meta: %s cannot be split on colon' % x)
	if field not in 'OAZNGHRBDFSPW': parser.error ('--meta: field %s is no valid ABC field' % field)
	if tag not in mxm.metaTypes: parser.error ('--meta: tag %s is no valid XML creator type' % tag)
	mxm.metaMap [field] = tag
	fnmext_list = []
	for i in args:
	if i == '-': fnmext_list.append ('-.abc') # represents standard input
	else: fnmext_list += glob (i)
	if not fnmext_list: parser.error ('none of the input files exist')
	t_start = time.time ()
	for fnmext in fnmext_list:
	fnm, ext = os.path.splitext (fnmext)
	if ext.lower () not in ('.abc'):
	info ('skipped input file %s, it should have extension .abc' % fnmext)
	continue
	if os.path.isdir (fnmext):
	info ('skipped directory %s. Only files are accepted' % fnmext)
	continue
	abctext = readfile (fnmext)
	skip, num = options.m
	xml_docs = getXmlDocs (abctext, skip, num, options.r, options.b, options.f)
	for itune, xmldoc in enumerate (xml_docs):
	fnmNum = '%02d' % (itune + 1) if len (xml_docs) > 1 else ''
	writefile (pad, fnm, fnmNum, xmldoc, options.mxl, options.t)
	info ('done in %.2f secs' % (time.time () - t_start))