import sys
import string
import re
+import lilylib as ly
+
+_ = ly._
from rational import Rational
previous_pitch = None
relative_pitches = False
+def warning (str):
+ ly.stderr_write ((_ ("warning: %s") % str) + "\n")
+
+
def escape_instrument_string (input_string):
retstring = string.replace (input_string, "\"", "\\\"")
if re.match ('.*[\r\n]+.*', retstring):
self.factor.denominator ())
- def ly_expression (self, factor = None):
+ def ly_expression (self, factor = None, scheme_mode = False):
if not factor:
factor = self.factor
-
- str = '%d%s' % (1 << self.duration_log, '.'*self.dots)
+
+ if self.duration_log < 0:
+ if scheme_mode:
+ longer_dict = {-1: "breve", -2: "longa"}
+ else:
+ longer_dict = {-1: "\\breve", -2: "\\longa"}
+ str = longer_dict.get (self.duration_log, "1")
+ else:
+ str = '%d' % (1 << self.duration_log)
+ str += '.'*self.dots
if factor <> Rational (1,1):
if factor.denominator () <> 1:
value = None
at = len( self.elements ) - 1
while (at >= 0 and
- not isinstance (self.elements[at], EventChord) and
+ not isinstance (self.elements[at], ChordEvent) and
not isinstance (self.elements[at], BarLine)):
at -= 1
- if (at >= 0 and isinstance (self.elements[at], EventChord)):
+ if (at >= 0 and isinstance (self.elements[at], ChordEvent)):
value = self.elements[at]
return value
self.music = SequentialMusic ()
self.music.elements = music
else:
- sys.stderr.write ("WARNING: Unable to set the music %s for the repeat %s" % (music, self))
+ warning (_ ("unable to set the music %(music)s for the repeat %(repeat)s" % \
+ {'music':music, 'repeat':self}))
def add_ending (self, music):
self.endings.append (music)
def print_ly (self, printer):
if self.music:
self.music.print_ly (printer)
else:
- sys.stderr.write ("WARNING: Encountered repeat without body\n")
+ warning (_ ("encountered repeat without body"))
printer.dump ('{}')
if self.endings:
printer.dump ('\\alternative {')
printer.dump ('}')
printer.newline ()
+class Layout:
+ def __init__ (self):
+ self.context_dict = {}
+ def add_context (self, context):
+ if not self.context_dict.has_key (context):
+ self.context_dict[context] = []
+ def set_context_item (self, context, item):
+ self.add_context (context)
+ if not item in self.context_dict[context]:
+ self.context_dict[context].append (item)
+ def print_ly (self, printer):
+ if self.context_dict.items ():
+ printer.dump ('\\layout {')
+ printer.newline ()
+ for (context, defs) in self.context_dict.items ():
+ printer.dump ('\\context { \\%s' % context)
+ printer.newline ()
+ for d in defs:
+ printer.dump (d)
+ printer.newline ()
+ printer.dump ('}')
+ printer.newline ()
+ printer.dump ('}')
+ printer.newline ()
-class EventChord (NestedMusic):
+
+class ChordEvent (NestedMusic):
def __init__ (self):
NestedMusic.__init__ (self)
self.grace_elements = None
for e in self.elements:
l = max(l, e.get_length())
return l
-
+
+ def get_duration (self):
+ note_events = [e for e in self.elements if
+ isinstance (e, NoteEvent) or isinstance (e, RestEvent)]
+ if note_events:
+ return note_events[0].duration
+ else:
+ return None
+
def print_ly (self, printer):
note_events = [e for e in self.elements if
isinstance (e, NoteEvent)]
printer ('\\grace')
# don't print newlines after the { and } braces
self.grace_elements.print_ly (printer, False)
+ # Print all overrides and other settings needed by the
+ # articulations/ornaments before the note
+ for e in other_events:
+ e.print_before_note (printer)
if rest_events:
rest_events[0].print_ly (printer)
basepitch = previous_pitch
printer ('<%s>' % string.join (pitches))
previous_pitch = basepitch
- note_events[0].duration.print_ly (printer)
+ duration = self.get_duration ()
+ if duration:
+ duration.print_ly (printer)
else:
pass
for e in other_events:
e.print_ly (printer)
+ for e in other_events:
+ e.print_after_note (printer)
+
self.print_comment (printer)
class Partial (Music):
return " | "
class Event(Music):
+ def __init__ (self):
+ # strings to print before the note to which an event is attached.
+ # Ignored for notes etc.
+ self.before_note = None
+ self.after_note = None
+ # print something before the note to which an event is attached, e.g. overrides
+ def print_before_note (self, printer):
+ if self.before_note:
+ printer.dump (self.before_note)
+ # print something after the note to which an event is attached, e.g. resetting
+ def print_after_note (self, printer):
+ if self.after_note:
+ printer.dump (self.after_note)
pass
class SpanEvent (Event):
self.span_type = type
class SlurEvent (SpanEvent):
+ def print_before_note (self, printer):
+ command = {'dotted': '\\slurDotted',
+ 'dashed' : '\\slurDashed'}.get (self.line_type, '')
+ if command and self.span_direction == -1:
+ printer.dump (command)
+ def print_after_note (self, printer):
+ # reset non-solid slur types!
+ command = {'dotted': '\\slurSolid',
+ 'dashed' : '\\slurSolid'}.get (self.line_type, '')
+ if command and self.span_direction == -1:
+ printer.dump (command)
def ly_expression (self):
- before = ''
- after = ''
- # TODO: setting dashed/dotted line style does not work, because that
- # command needs to be written before the note, not when the
- # event is observed after the note!
- #before = {'dotted': '\\slurDotted',
- # 'dashed' : '\\slurDashed'}.get (self.line_type, '')
- #if before:
- #after = '\\slurSolid'
-
- return {-1: before + '(' + after,
- 1:')'}.get (self.span_direction, '')
+ return {-1: '(', 1:')'}.get (self.span_direction, '')
class BeamEvent (SpanEvent):
def ly_expression (self):
- return {-1: '[',
- 1:']'}.get (self.span_direction, '')
+ return {-1: '[', 1:']'}.get (self.span_direction, '')
class PedalEvent (SpanEvent):
def ly_expression (self):
- return {-1: '\\sustainDown',
- 1:'\\sustainUp'}.get (self.span_direction, '')
+ return {-1: '\\sustainOn',
+ 0:'\\sustainOff\\sustainOn',
+ 1:'\\sustainOff'}.get (self.span_direction, '')
+
+class TextSpannerEvent (SpanEvent):
+ def ly_expression (self):
+ return {-1: '\\startTextSpan',
+ 1:'\\stopTextSpan'}.get (self.span_direction, '')
+
+class BracketSpannerEvent (SpanEvent):
+ # Ligature brackets use prefix-notation!!!
+ def print_before_note (self, printer):
+ if self.span_direction == -1:
+ printer.dump ('\[')
+ # the the bracket after the last note
+ def print_after_note (self, printer):
+ if self.span_direction == 1:
+ printer.dump ('\]')
+ # we're printing everything in print_(before|after)_note...
+ def ly_expression (self):
+ return '';
+
-# type==-1 means octave up, type==-2 means octave down
class OctaveShiftEvent (SpanEvent):
def wait_for_note (self):
- return False;
+ return False
def set_span_type (self, type):
self.span_type = {'up': 1, 'down': -1}.get (type, 0)
def ly_octave_shift_indicator (self):
dir = self.ly_octave_shift_indicator ()
value = ''
if dir:
- value = '#(set-octavation %s)' % dir
+ value = '\ottava #%s' % dir
return {
-1: value,
- 1: '#(set-octavation 0)'}.get (self.span_direction, '')
+ 1: '\ottava #0'}.get (self.span_direction, '')
class TrillSpanEvent (SpanEvent):
def ly_expression (self):
1:'\\stopTrillSpan'}.get (self.span_direction, '')
class GlissandoEvent (SpanEvent):
+ def print_before_note (self, printer):
+ if self.span_direction == -1:
+ style= {
+ "dashed" : "dashed-line",
+ "dotted" : "dotted-line",
+ "wavy" : "zigzag"
+ }. get (self.line_type, None)
+ if style:
+ printer.dump ("\once \override Glissando #'style = #'%s" % style)
def ly_expression (self):
- style = ''
- # TODO: wavy-line glissandos don't work, becasue the style has to be
- # set before the note, at the \glissando it's already too late!
- #if self.line_type == 'wavy':
- #style = "\once\override Glissando #'style = #'zigzag"
- # In lilypond, glissando is NOT a spanner, unlike MusicXML.
- return {-1: style + '\\glissando',
+ return {-1: '\\glissando',
1:''}.get (self.span_direction, '')
class ArpeggioEvent(Event):
def __init__ (self):
Event.__init__ (self)
self.direction = 0
+ self.non_arpeggiate = False
def wait_for_note (self):
- return True;
+ return True
+ def print_before_note (self, printer):
+ if self.non_arpeggiate:
+ printer.dump ("\\arpeggioBracket")
+ else:
+ dir = { -1: "\\arpeggioArrowDown", 1: "\\arpeggioArrowUp" }.get (self.direction, '')
+ if dir:
+ printer.dump (dir)
+ def print_after_note (self, printer):
+ if self.non_arpeggiate or self.direction:
+ printer.dump ("\\arpeggioNormal")
def ly_expression (self):
- # TODO: Use self.direction for up/down arpeggios
return ('\\arpeggio')
class DynamicsEvent (Event):
def __init__ (self):
+ Event.__init__ (self)
self.type = None
- self.available_commands = [ "ppppp", "pppp", "ppp", "pp", "p",
- "mp", "mf",
- "f", "ff", "fff", "ffff",
- "fp", "sf", "sff", "sp", "spp", "sfz", "rfz" ];
def wait_for_note (self):
- return True;
+ return True
def ly_expression (self):
- if self.type == None:
- return;
- elif self.type in self.available_commands:
+ if self.type:
return '\%s' % self.type
else:
- return '-\markup{ \dynamic %s }' % self.type
-
- def print_ly (self, printer):
- if self.type == None:
return
- elif self.type in self.available_commands:
+
+ def print_ly (self, printer):
+ if self.type:
printer.dump ("\\%s" % self.type)
+
+class MarkEvent (Event):
+ def __init__ (self, text="\\default"):
+ Event.__init__ (self)
+ self.mark = text
+ def wait_for_note (self):
+ return False
+ def ly_contents (self):
+ if self.mark:
+ return '%s' % self.mark
else:
- printer.dump ("-\\markup{ \\dynamic %s }" % self.type)
+ return "\"ERROR\""
+ def ly_expression (self):
+ return '\\mark %s' % self.ly_contents ()
+
+class MusicGlyphMarkEvent (MarkEvent):
+ def ly_contents (self):
+ if self.mark:
+ return '\\markup { \\musicglyph #"scripts.%s" }' % self.mark
+ else:
+ return ''
class TextEvent (Event):
def __init__ (self):
+ Event.__init__ (self)
self.Text = None
self.force_direction = None
self.markup = ''
class ArticulationEvent (Event):
def __init__ (self):
+ Event.__init__ (self)
self.type = None
self.force_direction = None
def wait_for_note (self):
- return True;
+ return True
def direction_mod (self):
return { 1: '^', -1: '_', 0: '-' }.get (self.force_direction, '')
else:
return ''
+class ChordPitch:
+ def __init__ (self):
+ self.alteration = 0
+ self.step = 0
+ def __repr__(self):
+ return self.ly_expression()
+ def ly_expression (self):
+ return pitch_generating_function (self)
+
+class ChordModification:
+ def __init__ (self):
+ self.alteration = 0
+ self.step = 0
+ self.type = 0
+ def ly_expression (self):
+ if self.type:
+ val = {1: ".", -1: "^" }.get (self.type, "")
+ val += "%s" % self.step
+ val += {1: "+", -1: "-"}.get (self.alteration, "")
+ return val
+ else:
+ return ''
+
+class ChordNameEvent (Event):
+ def __init__ (self):
+ Event.__init__ (self)
+ self.root = None
+ self.kind = None
+ self.duration = None
+ self.modifications = []
+ self.bass = None
+ def add_modification (self, mod):
+ self.modifications.append (mod)
+ def ly_expression (self):
+ if not self.root:
+ return ''
+ value = self.root.ly_expression ()
+ if self.duration:
+ value += self.duration.ly_expression ()
+ if self.kind:
+ value += ":"
+ value += self.kind
+ # First print all additions/changes, and only afterwards all subtractions
+ for m in self.modifications:
+ if m.type == 1:
+ value += m.ly_expression ()
+ for m in self.modifications:
+ if m.type == -1:
+ value += m.ly_expression ()
+ if self.bass:
+ value += "/+%s" % self.bass.ly_expression ()
+ return value
+
+
class TremoloEvent (ArticulationEvent):
def __init__ (self):
Event.__init__ (self)
return ''
+class TempoMark (Music):
+ def __init__ (self):
+ Music.__init__ (self)
+ self.baseduration = None
+ self.newduration = None
+ self.beats = None
+ self.parentheses = False
+ def set_base_duration (self, dur):
+ self.baseduration = dur
+ def set_new_duration (self, dur):
+ self.newduration = dur
+ def set_beats_per_minute (self, beats):
+ self.beats = beats
+ def set_parentheses (self, parentheses):
+ self.parentheses = parentheses
+ def wait_for_note (self):
+ return False
+ def duration_to_markup (self, dur):
+ if dur:
+ # Generate the markup to print the note, use scheme mode for
+ # ly_expression to get longa and not \longa (which causes an error)
+ return "\\general-align #Y #DOWN \\smaller \\note #\"%s\" #UP" % dur.ly_expression(None, True)
+ else:
+ return ''
+ def tempo_markup_template (self):
+ return "\\mark\\markup { \\fontsize #-2 \\line { %s } }"
+ def ly_expression (self):
+ res = ''
+ if not self.baseduration:
+ return res
+ if self.beats:
+ if self.parentheses:
+ res += "\\tempo \"\" %s=%s" % (self.baseduration.ly_expression(), self.beats)
+ else:
+ res += "\\tempo %s=%s" % (self.baseduration.ly_expression(), self.beats)
+ elif self.newduration:
+ dm = self.duration_to_markup (self.baseduration)
+ ndm = self.duration_to_markup (self.newduration)
+ if self.parentheses:
+ contents = "\"(\" %s = %s \")\"" % (dm, ndm)
+ else:
+ contents = " %s = %s " % (dm, ndm)
+ res += self.tempo_markup_template() % contents
+ else:
+ return ''
+ return res
+
+class FiguredBassNote (Music):
+ def __init__ (self):
+ Music.__init__ (self)
+ self.number = ''
+ self.prefix = ''
+ self.suffix = ''
+ def set_prefix (self, prefix):
+ self.prefix = prefix
+ def set_suffix (self, suffix):
+ self.prefix = suffix
+ def set_number (self, number):
+ self.number = number
+ def ly_expression (self):
+ res = ''
+ if self.number:
+ res += self.number
+ else:
+ res += '_'
+ if self.prefix:
+ res += self.prefix
+ if self.suffix:
+ res += self.suffix
+ return res
+
+
+class FiguredBassEvent (NestedMusic):
+ def __init__ (self):
+ NestedMusic.__init__ (self)
+ self.duration = None
+ self.real_duration = 0
+ self.parentheses = False
+ return
+ def set_duration (self, dur):
+ self.duration = dur
+ def set_parentheses (self, par):
+ self.parentheses = par
+ def set_real_duration (self, dur):
+ self.real_duration = dur
+
+ def print_ly (self, printer):
+ figured_bass_events = [e for e in self.elements if
+ isinstance (e, FiguredBassNote)]
+ if figured_bass_events:
+ notes = []
+ for x in figured_bass_events:
+ notes.append (x.ly_expression ())
+ contents = string.join (notes)
+ if self.parentheses:
+ contents = '[%s]' % contents
+ printer ('<%s>' % contents)
+ self.duration.print_ly (printer)
+
+
class MultiMeasureRest(Music):
def lisp_expression (self):
'elements
(list (make-music (quote BarCheck))
(make-music
- 'EventChord
+ 'ChordEvent
'elements
(list (make-music
'MultiMeasureRestEvent
sub_staff_type = self.stafftype
for [staff_id, voices] in self.part_information:
+ # Chord names need to come before the staff itself!
+ for [v, lyrics, figuredbass, chordnames] in voices:
+ if chordnames:
+ printer ('\context ChordNames = "%s" \\%s' % (chordnames, chordnames))
+
+ # now comes the real staff definition:
if staff_id:
printer ('\\context %s = "%s" << ' % (sub_staff_type, staff_id))
else:
printer.newline ()
n = 0
nr_voices = len (voices)
- for [v, lyrics] in voices:
+ for [v, lyrics, figuredbass, chordnames] in voices:
n += 1
voice_count_text = ''
if nr_voices > 1:
for l in lyrics:
printer ('\\new Lyrics \\lyricsto "%s" \\%s' % (v,l))
printer.newline()
+ if figuredbass:
+ printer ('\context FiguredBass = "%s" \\%s' % (figuredbass, figuredbass))
printer ('>>')
def print_ly (self, printer):
class RhythmicStaff (Staff):
def __init__ (self, command = "RhythmicStaff"):
Staff.__init__ (self, command)
+
+class Score:
+ def __init__ (self):
+ self.contents = None
+ self.create_midi = False
+
+ def set_contents (self, contents):
+ self.contents = contents
+
+ def set_part_information (self, part_id, staves_info):
+ if self.contents:
+ self.contents.set_part_information (part_id, staves_info)
+
+ def print_ly (self, printer):
+ printer.dump ("\\score {");
+ printer.newline ()
+ if self.contents:
+ self.contents.print_ly (printer);
+ printer.dump ("\\layout {}");
+ printer.newline ()
+ if not self.create_midi:
+ printer.dump ("% To create MIDI output, uncomment the following line:");
+ printer.newline ();
+ printer.dump ("% ");
+ printer.dump ("\\midi {}");
+ printer.newline ()
+ printer.dump ("}");
+ printer.newline ()
def test_pitch ():
def test_printer ():
def make_note ():
- evc = EventChord()
+ evc = ChordEvent()
n = NoteEvent()
evc.append (n)
return n
def test_expr ():
m = SequentialMusic()
l = 2
- evc = EventChord()
+ evc = ChordEvent()
n = NoteEvent()
n.duration.duration_log = l
n.pitch.step = 1
evc.insert_around (None, n, 0)
m.insert_around (None, evc, 0)
- evc = EventChord()
+ evc = ChordEvent()
n = NoteEvent()
n.duration.duration_log = l
n.pitch.step = 3
evc.insert_around (None, n, 0)
m.insert_around (None, evc, 0)
- evc = EventChord()
+ evc = ChordEvent()
n = NoteEvent()
n.duration.duration_log = l
n.pitch.step = 2
evc.type = 'treble'
m.insert_around (None, evc, 0)
- evc = EventChord()
+ evc = ChordEvent()
tonic = Pitch ()
tonic.step = 2
tonic.alteration = -2