\consists "String_number_engraver"
\consists "Axis_group_engraver"
- minimumVerticalExtent = #'(-3 . 3)
+ minimumVerticalExtent = #'(-4 . 4)
extraVerticalExtent = ##f
verticalExtent = ##f
localKeySignature = #'()
m = k
for i in range (len(slyrics[voice_idx_dict[k]])):
l=alphabet[i]
- outf.write ("\nwords%sV%s = \\lyrics {" % (m, l))
+ outf.write ("\nwords%sV%s = {" % (m, l))
outf.write ("\n" + slyrics [voice_idx_dict[k]][i])
outf.write ("\n}")
m = alphabet[string.atoi(k)]
else:
m = k
- outf.write ("\nvoice%s = \\notes {" % m)
+ outf.write ("\nvoice%s = {" % m)
dump_default_bar(outf)
if repeat_state[voice_idx_dict[k]]:
outf.write("\n\\repeat volta 2 {")
def dump_score (outf):
outf.write (r"""\score{
- \notes <<
+ <<
""")
ks = voice_idx_dict.keys ();
def lyrics_append(a):
a = re.sub ( '#', '\\#', a) # latex does not like naked #'s
a = re.sub ( '"', '\\"', a) # latex does not like naked "'s
- a = '\t{ \\lyrics "' + a + '" }\n'
+ a = '\t{ "' + a + '" }\n'
stuff_append (lyrics, current_lyric_idx, a)
# break lyrics to words and put "'s around words containing numbers and '"'s
str = str + ' ' * 4 + line + '\n'
line = ''
- str = """\nverse%s = \\lyrics {\n %s}\n""" % (encodeint (self.number - 1) ,str)
+ str = """\nverse%s = \\lyricmode {\n %s}\n""" % (encodeint (self.number - 1) ,str)
return str
class KeySignature:
s = s + '\\relative c '
elif item and item.__class__ == Text:
skip = '" "'
- s = s + '%s = \\lyrics ' % (track + channel)
+ s = s + '%s = \\lyricmode ' % (track + channel)
else:
skip = '\\skip '
# must be in \notes mode for parsing \skip