X-Git-Url: https://git.donarmstrong.com/?a=blobdiff_plain;f=scripts%2Fmusicxml2ly.py;h=eb5d359a2abc28dd0856ff642d26d7e6a93981d7;hb=2ab5d80245dcab194daea64ec83ded3ec8252e51;hp=b45cf41508089599bf9ec00ff4aec34538d4ba47;hpb=c96dc4cfcb9ca9be790b4cca05f70538bbab9b05;p=lilypond.git diff --git a/scripts/musicxml2ly.py b/scripts/musicxml2ly.py index b45cf41508..eb5d359a2a 100644 --- a/scripts/musicxml2ly.py +++ b/scripts/musicxml2ly.py @@ -1,2969 +1,7 @@ -#!@TARGET_PYTHON@ +#!/usr/bin/env python # -*- coding: utf-8 -*- -import optparse -import sys -import re -import os -import string -import codecs -import zipfile -import StringIO -""" -@relocate-preamble@ -""" - -import lilylib as ly -_ = ly._ - -import musicxml -import musicexp - -from rational import Rational - -# Store command-line options in a global variable, so we can access them everythwere -options = None - -class Conversion_Settings: - def __init__(self): - self.ignore_beaming = False - -conversion_settings = Conversion_Settings () -# Use a global variable to store the setting needed inside a \layout block. -# whenever we need to change a setting or add/remove an engraver, we can access -# this layout and add the corresponding settings -layout_information = musicexp.Layout () - -def progress (str): - ly.stderr_write (str + '\n') - sys.stderr.flush () - -def error_message (str): - ly.stderr_write (str + '\n') - sys.stderr.flush () - -needed_additional_definitions = [] -additional_definitions = { - - "tuplet-note-wrapper": """ % a formatter function, which is simply a wrapper around an existing - % tuplet formatter function. It takes the value returned by the given - % function and appends a note of given length. - #(define-public ((tuplet-number::append-note-wrapper function note) grob) - (let* ((txt (if function (function grob) #f))) - (if txt - (markup txt #:fontsize -5 #:note note UP) - (markup #:fontsize -5 #:note note UP) - ) - ) - )""", - - "tuplet-non-default-denominator": """#(define ((tuplet-number::non-default-tuplet-denominator-text denominator) grob) - (number->string (if denominator - denominator - (ly:event-property (event-cause grob) 'denominator)))) -""", - - "tuplet-non-default-fraction": """#(define ((tuplet-number::non-default-tuplet-fraction-text denominator numerator) grob) - (let* ((ev (event-cause grob)) - (den (if denominator denominator (ly:event-property ev 'denominator))) - (num (if numerator numerator (ly:event-property ev 'numerator)))) - (format "~a:~a" den num))) -""", - - "compound-time-signature": """%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -% Formatting of (possibly complex) compound time signatures -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -#(define-public (insert-markups l m) - (let* ((ll (reverse l))) - (let join-markups ((markups (list (car ll))) - (remaining (cdr ll))) - (if (pair? remaining) - (join-markups (cons (car remaining) (cons m markups)) (cdr remaining)) - markups)))) - -% Use a centered-column inside a left-column, because the centered column -% moves its reference point to the center, which the left-column undoes. -% The center-column also aligns its contented centered, which is not undone... -#(define-public (format-time-fraction time-sig-fraction) - (let* ((revargs (reverse (map number->string time-sig-fraction))) - (den (car revargs)) - (nums (reverse (cdr revargs)))) - (make-override-markup '(baseline-skip . 0) - (make-number-markup - (make-left-column-markup (list - (make-center-column-markup (list - (make-line-markup (insert-markups nums "+")) - den)))))))) - -#(define-public (format-complex-compound-time time-sig) - (let* ((sigs (map format-time-fraction time-sig))) - (make-override-markup '(baseline-skip . 0) - (make-number-markup - (make-line-markup - (insert-markups sigs (make-vcenter-markup "+"))))))) - -#(define-public (format-compound-time time-sig) - (cond - ((not (pair? time-sig)) (null-markup)) - ((pair? (car time-sig)) (format-complex-compound-time time-sig)) - (else (format-time-fraction time-sig)))) - - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -% Measure length calculation of (possibly complex) compound time signatures -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -#(define-public (calculate-time-fraction time-sig-fraction) - (let* ((revargs (reverse time-sig-fraction)) - (den (car revargs)) - (nums (cdr revargs))) - (ly:make-moment (apply + nums) den))) - -#(define-public (calculate-complex-compound-time time-sig) - (let* ((sigs (map calculate-time-fraction time-sig))) - (let add-moment ((moment ZERO-MOMENT) - (remaining sigs)) - (if (pair? remaining) - (add-moment (ly:moment-add moment (car remaining)) (cdr remaining)) - moment)))) - -#(define-public (calculate-compound-measure-length time-sig) - (cond - ((not (pair? time-sig)) (ly:make-moment 4 4)) - ((pair? (car time-sig)) (calculate-complex-compound-time time-sig)) - (else (calculate-time-fraction time-sig)))) - - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -% Base beat lenth -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -#(define-public (calculate-compound-base-beat-full time-sig) - (let* ((den (map last time-sig))) - (apply max den))) - -#(define-public (calculate-compound-base-beat time-sig) - (ly:make-moment 1 (cond - ((not (pair? time-sig)) 4) - ((pair? (car time-sig)) (calculate-compound-base-beat-full time-sig)) - (else (calculate-compound-base-beat-full (list time-sig)))))) - - -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -% The music function to set the complex time signature -%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% - -compoundMeter = -#(define-music-function (parser location args) (pair?) - (let ((mlen (calculate-compound-measure-length args)) - (beat (calculate-compound-base-beat args))) - #{ -\once \override Staff.TimeSignature #'stencil = #ly:text-interface::print -\once \override Staff.TimeSignature #'text = #(format-compound-time $args) -% \set Staff.beatGrouping = #(reverse (cdr (reverse $args))) -\set Timing.measureLength = $mlen -\set Timing.timeSignatureFraction = #(cons (ly:moment-main-numerator $mlen) - (ly:moment-main-denominator $mlen)) -\set Timing.beatLength = $beat - -% TODO: Implement beatGrouping and auto-beam-settings!!! -#} )) -""" -} - -def round_to_two_digits (val): - return round (val * 100) / 100 - -def extract_paper_information (tree): - paper = musicexp.Paper () - defaults = tree.get_maybe_exist_named_child ('defaults') - if not defaults: - return None - tenths = -1 - scaling = defaults.get_maybe_exist_named_child ('scaling') - if scaling: - mm = scaling.get_named_child ('millimeters') - mm = string.atof (mm.get_text ()) - tn = scaling.get_maybe_exist_named_child ('tenths') - tn = string.atof (tn.get_text ()) - tenths = mm / tn - paper.global_staff_size = mm * 72.27 / 25.4 - # We need the scaling (i.e. the size of staff tenths for everything! - if tenths < 0: - return None - - def from_tenths (txt): - return round_to_two_digits (string.atof (txt) * tenths / 10) - def set_paper_variable (varname, parent, element_name): - el = parent.get_maybe_exist_named_child (element_name) - if el: # Convert to cm from tenths - setattr (paper, varname, from_tenths (el.get_text ())) - - pagelayout = defaults.get_maybe_exist_named_child ('page-layout') - if pagelayout: - # TODO: How can one have different margins for even and odd pages??? - set_paper_variable ("page_height", pagelayout, 'page-height') - set_paper_variable ("page_width", pagelayout, 'page-width') - - pmargins = pagelayout.get_named_children ('page-margins') - for pm in pmargins: - set_paper_variable ("left_margin", pm, 'left-margin') - set_paper_variable ("right_margin", pm, 'right-margin') - set_paper_variable ("bottom_margin", pm, 'bottom-margin') - set_paper_variable ("top_margin", pm, 'top-margin') - - systemlayout = defaults.get_maybe_exist_named_child ('system-layout') - if systemlayout: - sl = systemlayout.get_maybe_exist_named_child ('system-margins') - if sl: - set_paper_variable ("system_left_margin", sl, 'left-margin') - set_paper_variable ("system_right_margin", sl, 'right-margin') - set_paper_variable ("system_distance", systemlayout, 'system-distance') - set_paper_variable ("top_system_distance", systemlayout, 'top-system-distance') - - stafflayout = defaults.get_named_children ('staff-layout') - for sl in stafflayout: - nr = getattr (sl, 'number', 1) - dist = sl.get_named_child ('staff-distance') - #TODO: the staff distance needs to be set in the Staff context!!! - - # TODO: Finish appearance?, music-font?, word-font?, lyric-font*, lyric-language* - appearance = defaults.get_named_child ('appearance') - if appearance: - lws = appearance.get_named_children ('line-width') - for lw in lws: - # Possible types are: beam, bracket, dashes, - # enclosure, ending, extend, heavy barline, leger, - # light barline, octave shift, pedal, slur middle, slur tip, - # staff, stem, tie middle, tie tip, tuplet bracket, and wedge - tp = lw.type - w = from_tenths (lw.get_text ()) - # TODO: Do something with these values! - nss = appearance.get_named_children ('note-size') - for ns in nss: - # Possible types are: cue, grace and large - tp = ns.type - sz = from_tenths (ns.get_text ()) - # TODO: Do something with these values! - # elements have no specified meaning - - rawmusicfont = defaults.get_named_child ('music-font') - if rawmusicfont: - # TODO: Convert the font - pass - rawwordfont = defaults.get_named_child ('word-font') - if rawwordfont: - # TODO: Convert the font - pass - rawlyricsfonts = defaults.get_named_children ('lyric-font') - for lyricsfont in rawlyricsfonts: - # TODO: Convert the font - pass - - return paper - - - -# score information is contained in the , or tags -# extract those into a hash, indexed by proper lilypond header attributes -def extract_score_information (tree): - header = musicexp.Header () - def set_if_exists (field, value): - if value: - header.set_field (field, musicxml.escape_ly_output_string (value)) - - movement_title = tree.get_maybe_exist_named_child ('movement-title') - if movement_title: - set_if_exists ('title', movement_title.get_text ()) - work = tree.get_maybe_exist_named_child ('work') - if work: - # Overwrite the title from movement-title with work->title - set_if_exists ('title', work.get_work_title ()) - set_if_exists ('worknumber', work.get_work_number ()) - set_if_exists ('opus', work.get_opus ()) - - identifications = tree.get_named_children ('identification') - for ids in identifications: - set_if_exists ('copyright', ids.get_rights ()) - set_if_exists ('composer', ids.get_composer ()) - set_if_exists ('arranger', ids.get_arranger ()) - set_if_exists ('editor', ids.get_editor ()) - set_if_exists ('poet', ids.get_poet ()) - - set_if_exists ('tagline', ids.get_encoding_software ()) - set_if_exists ('encodingsoftware', ids.get_encoding_software ()) - set_if_exists ('encodingdate', ids.get_encoding_date ()) - set_if_exists ('encoder', ids.get_encoding_person ()) - set_if_exists ('encodingdescription', ids.get_encoding_description ()) - - set_if_exists ('texidoc', ids.get_file_description ()); - - # Finally, apply the required compatibility modes - # Some applications created wrong MusicXML files, so we need to - # apply some compatibility mode, e.g. ignoring some features/tags - # in those files - software = ids.get_encoding_software_list () - - # Case 1: "Sibelius 5.1" with the "Dolet 3.4 for Sibelius" plugin - # is missing all beam ends => ignore all beaming information - ignore_beaming_software = { - "Dolet 4 for Sibelius, Beta 2": "Dolet 4 for Sibelius, Beta 2", - "Dolet 3.5 for Sibelius": "Dolet 3.5 for Sibelius", - "Dolet 3.4 for Sibelius": "Dolet 3.4 for Sibelius", - "Dolet 3.3 for Sibelius": "Dolet 3.3 for Sibelius", - "Dolet 3.2 for Sibelius": "Dolet 3.2 for Sibelius", - "Dolet 3.1 for Sibelius": "Dolet 3.1 for Sibelius", - "Dolet for Sibelius 1.3": "Dolet for Sibelius 1.3", - "Noteworthy Composer": "Noteworthy Composer's nwc2xm[", - } - for s in software: - app_description = ignore_beaming_software.get (s, False); - if app_description: - conversion_settings.ignore_beaming = True - progress (_ ("Encountered file created by %s, containing wrong beaming information. All beaming information in the MusicXML file will be ignored") % app_description) - - # TODO: Check for other unsupported features - return header - -class PartGroupInfo: - def __init__ (self): - self.start = {} - self.end = {} - def is_empty (self): - return len (self.start) + len (self.end) == 0 - def add_start (self, g): - self.start[getattr (g, 'number', "1")] = g - def add_end (self, g): - self.end[getattr (g, 'number', "1")] = g - def print_ly (self, printer): - error_message (_ ("Unprocessed PartGroupInfo %s encountered") % self) - def ly_expression (self): - error_message (_ ("Unprocessed PartGroupInfo %s encountered") % self) - return '' - -def staff_attributes_to_string_tunings (mxl_attr): - details = mxl_attr.get_maybe_exist_named_child ('staff-details') - if not details: - return [] - lines = 6 - staff_lines = details.get_maybe_exist_named_child ('staff-lines') - if staff_lines: - lines = string.atoi (staff_lines.get_text ()) - - tunings = [0]*lines - staff_tunings = details.get_named_children ('staff-tuning') - for i in staff_tunings: - p = musicexp.Pitch() - line = 0 - try: - line = string.atoi (i.line) - 1 - except ValueError: - pass - tunings[line] = p - - step = i.get_named_child (u'tuning-step') - step = step.get_text ().strip () - p.step = musicxml_step_to_lily (step) - - octave = i.get_named_child (u'tuning-octave') - octave = octave.get_text ().strip () - p.octave = int (octave) - 4 - - alter = i.get_named_child (u'tuning-alter') - if alter: - p.alteration = int (alter.get_text ().strip ()) - # lilypond seems to use the opposite ordering than MusicXML... - tunings.reverse () - - return tunings - - -def staff_attributes_to_lily_staff (mxl_attr): - if not mxl_attr: - return musicexp.Staff () - - (staff_id, attributes) = mxl_attr.items ()[0] - - # distinguish by clef: - # percussion (percussion and rhythmic), tab, and everything else - clef_sign = None - clef = attributes.get_maybe_exist_named_child ('clef') - if clef: - sign = clef.get_maybe_exist_named_child ('sign') - if sign: - clef_sign = {"percussion": "percussion", "TAB": "tab"}.get (sign.get_text (), None) - - lines = 5 - details = attributes.get_named_children ('staff-details') - for d in details: - staff_lines = d.get_maybe_exist_named_child ('staff-lines') - if staff_lines: - lines = string.atoi (staff_lines.get_text ()) - - staff = None - if clef_sign == "percussion" and lines == 1: - staff = musicexp.RhythmicStaff () - elif clef_sign == "percussion": - staff = musicexp.DrumStaff () - # staff.drum_style_table = ??? - elif clef_sign == "tab": - staff = musicexp.TabStaff () - staff.string_tunings = staff_attributes_to_string_tunings (attributes) - # staff.tablature_format = ??? - else: - # TODO: Handle case with lines <> 5! - staff = musicexp.Staff () - - return staff - - -def extract_score_structure (part_list, staffinfo): - score = musicexp.Score () - structure = musicexp.StaffGroup (None) - score.set_contents (structure) - - if not part_list: - return structure - - def read_score_part (el): - if not isinstance (el, musicxml.Score_part): - return - # Depending on the attributes of the first measure, we create different - # types of staves (Staff, RhythmicStaff, DrumStaff, TabStaff, etc.) - staff = staff_attributes_to_lily_staff (staffinfo.get (el.id, None)) - if not staff: - return None - staff.id = el.id - partname = el.get_maybe_exist_named_child ('part-name') - # Finale gives unnamed parts the name "MusicXML Part" automatically! - if partname and partname.get_text() != "MusicXML Part": - staff.instrument_name = partname.get_text () - if el.get_maybe_exist_named_child ('part-abbreviation'): - staff.short_instrument_name = el.get_maybe_exist_named_child ('part-abbreviation').get_text () - # TODO: Read in the MIDI device / instrument - return staff - - def read_score_group (el): - if not isinstance (el, musicxml.Part_group): - return - group = musicexp.StaffGroup () - if hasattr (el, 'number'): - id = el.number - group.id = id - #currentgroups_dict[id] = group - #currentgroups.append (id) - if el.get_maybe_exist_named_child ('group-name'): - group.instrument_name = el.get_maybe_exist_named_child ('group-name').get_text () - if el.get_maybe_exist_named_child ('group-abbreviation'): - group.short_instrument_name = el.get_maybe_exist_named_child ('group-abbreviation').get_text () - if el.get_maybe_exist_named_child ('group-symbol'): - group.symbol = el.get_maybe_exist_named_child ('group-symbol').get_text () - if el.get_maybe_exist_named_child ('group-barline'): - group.spanbar = el.get_maybe_exist_named_child ('group-barline').get_text () - return group - - - parts_groups = part_list.get_all_children () - - # the start/end group tags are not necessarily ordered correctly and groups - # might even overlap, so we can't go through the children sequentially! - - # 1) Replace all Score_part objects by their corresponding Staff objects, - # also collect all group start/stop points into one PartGroupInfo object - staves = [] - group_info = PartGroupInfo () - for el in parts_groups: - if isinstance (el, musicxml.Score_part): - if not group_info.is_empty (): - staves.append (group_info) - group_info = PartGroupInfo () - staff = read_score_part (el) - if staff: - staves.append (staff) - elif isinstance (el, musicxml.Part_group): - if el.type == "start": - group_info.add_start (el) - elif el.type == "stop": - group_info.add_end (el) - if not group_info.is_empty (): - staves.append (group_info) - - # 2) Now, detect the groups: - group_starts = [] - pos = 0 - while pos < len (staves): - el = staves[pos] - if isinstance (el, PartGroupInfo): - prev_start = 0 - if len (group_starts) > 0: - prev_start = group_starts[-1] - elif len (el.end) > 0: # no group to end here - el.end = {} - if len (el.end) > 0: # closes an existing group - ends = el.end.keys () - prev_started = staves[prev_start].start.keys () - grpid = None - intersection = filter(lambda x:x in ends, prev_started) - if len (intersection) > 0: - grpid = intersection[0] - else: - # Close the last started group - grpid = staves[prev_start].start.keys () [0] - # Find the corresponding closing tag and remove it! - j = pos + 1 - foundclosing = False - while j < len (staves) and not foundclosing: - if isinstance (staves[j], PartGroupInfo) and staves[j].end.has_key (grpid): - foundclosing = True - del staves[j].end[grpid] - if staves[j].is_empty (): - del staves[j] - j += 1 - grpobj = staves[prev_start].start[grpid] - group = read_score_group (grpobj) - # remove the id from both the start and end - if el.end.has_key (grpid): - del el.end[grpid] - del staves[prev_start].start[grpid] - if el.is_empty (): - del staves[pos] - # replace the staves with the whole group - for j in staves[(prev_start + 1):pos]: - group.append_staff (j) - del staves[(prev_start + 1):pos] - staves.insert (prev_start + 1, group) - # reset pos so that we continue at the correct position - pos = prev_start - # remove an empty start group - if staves[prev_start].is_empty (): - del staves[prev_start] - group_starts.remove (prev_start) - pos -= 1 - elif len (el.start) > 0: # starts new part groups - group_starts.append (pos) - pos += 1 - - if len (staves) == 1: - return staves[0] - for i in staves: - structure.append_staff (i) - return score - - -def musicxml_duration_to_lily (mxl_note): - # if the note has no Type child, then that method returns None. In that case, - # use the tag instead. If that doesn't exist, either -> Error - dur = mxl_note.get_duration_info () - if dur: - d = musicexp.Duration () - d.duration_log = dur[0] - d.dots = dur[1] - # Grace notes by specification have duration 0, so no time modification - # factor is possible. It even messes up the output with *0/1 - if not mxl_note.get_maybe_exist_typed_child (musicxml.Grace): - d.factor = mxl_note._duration / d.get_length () - return d - - else: - if mxl_note._duration > 0: - return rational_to_lily_duration (mxl_note._duration) - else: - mxl_note.message (_ ("Encountered note at %s without type and duration (=%s)") % (mxl_note.start, mxl_note._duration) ) - return None - - -def rational_to_lily_duration (rational_len): - d = musicexp.Duration () - - rational_len.normalize_self () - d_log = {1: 0, 2: 1, 4:2, 8:3, 16:4, 32:5, 64:6, 128:7, 256:8, 512:9}.get (rational_len.denominator (), -1) - - # Duration of the form 1/2^n or 3/2^n can be converted to a simple lilypond duration - if (d_log >= 0 and rational_len.numerator() in (1,3,5,7) ): - # account for the dots! - d.dots = (rational_len.numerator()-1)/2 - d.duration_log = d_log - d.dots - elif (d_log >= 0): - d.duration_log = d_log - d.factor = Rational (rational_len.numerator ()) - else: - error_message (_ ("Encountered rational duration with denominator %s, " - "unable to convert to lilypond duration") % - rational_len.denominator ()) - # TODO: Test the above error message - return None - - return d - -def musicxml_partial_to_lily (partial_len): - if partial_len > 0: - p = musicexp.Partial () - p.partial = rational_to_lily_duration (partial_len) - return p - else: - return Null - -# Detect repeats and alternative endings in the chord event list (music_list) -# and convert them to the corresponding musicexp objects, containing nested -# music -def group_repeats (music_list): - repeat_replaced = True - music_start = 0 - i = 0 - # Walk through the list of expressions, looking for repeat structure - # (repeat start/end, corresponding endings). If we find one, try to find the - # last event of the repeat, replace the whole structure and start over again. - # For nested repeats, as soon as we encounter another starting repeat bar, - # treat that one first, and start over for the outer repeat. - while repeat_replaced and i < 100: - i += 1 - repeat_start = -1 # position of repeat start / end - repeat_end = -1 # position of repeat start / end - repeat_times = 0 - ending_start = -1 # position of current ending start - endings = [] # list of already finished endings - pos = 0 - last = len (music_list) - 1 - repeat_replaced = False - final_marker = 0 - while pos < len (music_list) and not repeat_replaced: - e = music_list[pos] - repeat_finished = False - if isinstance (e, RepeatMarker): - if not repeat_times and e.times: - repeat_times = e.times - if e.direction == -1: - if repeat_end >= 0: - repeat_finished = True - else: - repeat_start = pos - repeat_end = -1 - ending_start = -1 - endings = [] - elif e.direction == 1: - if repeat_start < 0: - repeat_start = 0 - if repeat_end < 0: - repeat_end = pos - final_marker = pos - elif isinstance (e, EndingMarker): - if e.direction == -1: - if repeat_start < 0: - repeat_start = 0 - if repeat_end < 0: - repeat_end = pos - ending_start = pos - elif e.direction == 1: - if ending_start < 0: - ending_start = 0 - endings.append ([ending_start, pos]) - ending_start = -1 - final_marker = pos - elif not isinstance (e, musicexp.BarLine): - # As soon as we encounter an element when repeat start and end - # is set and we are not inside an alternative ending, - # this whole repeat structure is finished => replace it - if repeat_start >= 0 and repeat_end > 0 and ending_start < 0: - repeat_finished = True - - # Finish off all repeats without explicit ending bar (e.g. when - # we convert only one page of a multi-page score with repeats) - if pos == last and repeat_start >= 0: - repeat_finished = True - final_marker = pos - if repeat_end < 0: - repeat_end = pos - if ending_start >= 0: - endings.append ([ending_start, pos]) - ending_start = -1 - - if repeat_finished: - # We found the whole structure replace it! - r = musicexp.RepeatedMusic () - if repeat_times <= 0: - repeat_times = 2 - r.repeat_count = repeat_times - # don't erase the first element for "implicit" repeats (i.e. no - # starting repeat bars at the very beginning) - start = repeat_start+1 - if repeat_start == music_start: - start = music_start - r.set_music (music_list[start:repeat_end]) - for (start, end) in endings: - s = musicexp.SequentialMusic () - s.elements = music_list[start+1:end] - r.add_ending (s) - del music_list[repeat_start:final_marker+1] - music_list.insert (repeat_start, r) - repeat_replaced = True - pos += 1 - # TODO: Implement repeats until the end without explicit ending bar - return music_list - - -# Extract the settings for tuplets from the and the -# elements of the note: -def musicxml_tuplet_to_lily (tuplet_elt, time_modification): - tsm = musicexp.TimeScaledMusic () - fraction = (1,1) - if time_modification: - fraction = time_modification.get_fraction () - tsm.numerator = fraction[0] - tsm.denominator = fraction[1] - - - normal_type = tuplet_elt.get_normal_type () - if not normal_type and time_modification: - normal_type = time_modification.get_normal_type () - if not normal_type and time_modification: - note = time_modification.get_parent () - if note: - normal_type = note.get_duration_info () - if normal_type: - normal_note = musicexp.Duration () - (normal_note.duration_log, normal_note.dots) = normal_type - tsm.normal_type = normal_note - - actual_type = tuplet_elt.get_actual_type () - if actual_type: - actual_note = musicexp.Duration () - (actual_note.duration_log, actual_note.dots) = actual_type - tsm.actual_type = actual_note - - # Obtain non-default nrs of notes from the tuplet object! - tsm.display_numerator = tuplet_elt.get_normal_nr () - tsm.display_denominator = tuplet_elt.get_actual_nr () - - - if hasattr (tuplet_elt, 'bracket') and tuplet_elt.bracket == "no": - tsm.display_bracket = None - elif hasattr (tuplet_elt, 'line-shape') and getattr (tuplet_elt, 'line-shape') == "curved": - tsm.display_bracket = "curved" - else: - tsm.display_bracket = "bracket" - - display_values = {"none": None, "actual": "actual", "both": "both"} - if hasattr (tuplet_elt, "show-number"): - tsm.display_number = display_values.get (getattr (tuplet_elt, "show-number"), "actual") - - if hasattr (tuplet_elt, "show-type"): - tsm.display_type = display_values.get (getattr (tuplet_elt, "show-type"), None) - - return tsm - - -def group_tuplets (music_list, events): - - - """Collect Musics from - MUSIC_LIST demarcated by EVENTS_LIST in TimeScaledMusic objects. - """ - - - indices = [] - brackets = {} - - j = 0 - for (ev_chord, tuplet_elt, time_modification) in events: - while (j < len (music_list)): - if music_list[j] == ev_chord: - break - j += 1 - nr = 0 - if hasattr (tuplet_elt, 'number'): - nr = getattr (tuplet_elt, 'number') - if tuplet_elt.type == 'start': - tuplet_object = musicxml_tuplet_to_lily (tuplet_elt, time_modification) - tuplet_info = [j, None, tuplet_object] - indices.append (tuplet_info) - brackets[nr] = tuplet_info - elif tuplet_elt.type == 'stop': - bracket_info = brackets.get (nr, None) - if bracket_info: - bracket_info[1] = j # Set the ending position to j - del brackets[nr] - - new_list = [] - last = 0 - for (i1, i2, tsm) in indices: - if i1 > i2: - continue - - new_list.extend (music_list[last:i1]) - seq = musicexp.SequentialMusic () - last = i2 + 1 - seq.elements = music_list[i1:last] - - tsm.element = seq - - new_list.append (tsm) - #TODO: Handle nested tuplets!!!! - - new_list.extend (music_list[last:]) - return new_list - - -def musicxml_clef_to_lily (attributes): - change = musicexp.ClefChange () - (change.type, change.position, change.octave) = attributes.get_clef_information () - return change - -def musicxml_time_to_lily (attributes): - sig = attributes.get_time_signature () - if not sig: - return None - change = musicexp.TimeSignatureChange() - change.fractions = sig - if (len(sig) != 2) or isinstance (sig[0], list): - needed_additional_definitions.append ("compound-time-signature") - - time_elm = attributes.get_maybe_exist_named_child ('time') - if time_elm and hasattr (time_elm, 'symbol'): - change.style = { 'single-number': "'single-digit", - 'cut': None, - 'common': None, - 'normal': "'()"}.get (time_elm.symbol, "'()") - else: - change.style = "'()" - - # TODO: Handle senza-misura measures - # TODO: Handle hidden time signatures (print-object="no") - # TODO: What shall we do if the symbol clashes with the sig? e.g. "cut" - # with 3/8 or "single-number" with (2+3)/8 or 3/8+2/4? - - return change - -def musicxml_key_to_lily (attributes): - key_sig = attributes.get_key_signature () - if not key_sig or not (isinstance (key_sig, list) or isinstance (key_sig, tuple)): - error_message (_ ("Unable to extract key signature!")) - return None - - change = musicexp.KeySignatureChange() - - if len (key_sig) == 2 and not isinstance (key_sig[0], list): - # standard key signature, (fifths, mode) - (fifths, mode) = key_sig - change.mode = mode - - start_pitch = musicexp.Pitch () - start_pitch.octave = 0 - try: - (n,a) = { - 'major' : (0,0), - 'minor' : (5,0), - 'ionian' : (0,0), - 'dorian' : (1,0), - 'phrygian' : (2,0), - 'lydian' : (3,0), - 'mixolydian': (4,0), - 'aeolian' : (5,0), - 'locrian' : (6,0), - }[mode] - start_pitch.step = n - start_pitch.alteration = a - except KeyError: - error_message (_ ("unknown mode %s, expecting 'major' or 'minor' " - "or a church mode!") % mode) - - fifth = musicexp.Pitch() - fifth.step = 4 - if fifths < 0: - fifths *= -1 - fifth.step *= -1 - fifth.normalize () - for x in range (fifths): - start_pitch = start_pitch.transposed (fifth) - change.tonic = start_pitch - - else: - # Non-standard key signature of the form [[step,alter<,octave>],...] - change.non_standard_alterations = key_sig - return change - -def musicxml_transpose_to_lily (attributes): - transpose = attributes.get_transposition () - if not transpose: - return None - - shift = musicexp.Pitch () - octave_change = transpose.get_maybe_exist_named_child ('octave-change') - if octave_change: - shift.octave = string.atoi (octave_change.get_text ()) - chromatic_shift = string.atoi (transpose.get_named_child ('chromatic').get_text ()) - chromatic_shift_normalized = chromatic_shift % 12; - (shift.step, shift.alteration) = [ - (0,0), (0,1), (1,0), (2,-1), (2,0), - (3,0), (3,1), (4,0), (5,-1), (5,0), - (6,-1), (6,0)][chromatic_shift_normalized]; - - shift.octave += (chromatic_shift - chromatic_shift_normalized) / 12 - - diatonic = transpose.get_maybe_exist_named_child ('diatonic') - if diatonic: - diatonic_step = string.atoi (diatonic.get_text ()) % 7 - if diatonic_step != shift.step: - # We got the alter incorrect! - old_semitones = shift.semitones () - shift.step = diatonic_step - new_semitones = shift.semitones () - shift.alteration += old_semitones - new_semitones - - transposition = musicexp.Transposition () - transposition.pitch = musicexp.Pitch ().transposed (shift) - return transposition - - -def musicxml_attributes_to_lily (attrs): - elts = [] - attr_dispatch = { - 'clef': musicxml_clef_to_lily, - 'time': musicxml_time_to_lily, - 'key': musicxml_key_to_lily, - 'transpose': musicxml_transpose_to_lily, - } - for (k, func) in attr_dispatch.items (): - children = attrs.get_named_children (k) - if children: - ev = func (attrs) - if ev: - elts.append (ev) - - return elts - -def musicxml_print_to_lily (el): - # TODO: Implement other print attributes - # - # - elts = [] - if (hasattr (el, "new-system") and conversion_settings.convert_page_layout): - val = getattr (el, "new-system") - if (val == "yes"): - elts.append (musicexp.Break ("break")) - if (hasattr (el, "new-page") and conversion_settings.convert_page_layout): - val = getattr (el, "new-page") - if (val == "yes"): - elts.append (musicexp.Break ("pageBreak")) - return elts - - -class Marker (musicexp.Music): - def __init__ (self): - self.direction = 0 - self.event = None - def print_ly (self, printer): - ly.stderr_write (_ ("Encountered unprocessed marker %s\n") % self) - pass - def ly_expression (self): - return "" -class RepeatMarker (Marker): - def __init__ (self): - Marker.__init__ (self) - self.times = 0 -class EndingMarker (Marker): - pass - -# Convert the element to musicxml.BarLine (for non-standard barlines) -# and to RepeatMarker and EndingMarker objects for repeat and -# alternatives start/stops -def musicxml_barline_to_lily (barline): - # retval contains all possible markers in the order: - # 0..bw_ending, 1..bw_repeat, 2..barline, 3..fw_repeat, 4..fw_ending - retval = {} - bartype_element = barline.get_maybe_exist_named_child ("bar-style") - repeat_element = barline.get_maybe_exist_named_child ("repeat") - ending_element = barline.get_maybe_exist_named_child ("ending") - - bartype = None - if bartype_element: - bartype = bartype_element.get_text () - - if repeat_element and hasattr (repeat_element, 'direction'): - repeat = RepeatMarker () - repeat.direction = {"forward": -1, "backward": 1}.get (repeat_element.direction, 0) - - if ( (repeat_element.direction == "forward" and bartype == "heavy-light") or - (repeat_element.direction == "backward" and bartype == "light-heavy") ): - bartype = None - if hasattr (repeat_element, 'times'): - try: - repeat.times = int (repeat_element.times) - except ValueError: - repeat.times = 2 - repeat.event = barline - if repeat.direction == -1: - retval[3] = repeat - else: - retval[1] = repeat - - if ending_element and hasattr (ending_element, 'type'): - ending = EndingMarker () - ending.direction = {"start": -1, "stop": 1, "discontinue": 1}.get (ending_element.type, 0) - ending.event = barline - if ending.direction == -1: - retval[4] = ending - else: - retval[0] = ending - - if bartype: - b = musicexp.BarLine () - b.type = bartype - retval[2] = b - - return retval.values () - -spanner_event_dict = { - 'beam' : musicexp.BeamEvent, - 'dashes' : musicexp.TextSpannerEvent, - 'bracket' : musicexp.BracketSpannerEvent, - 'glissando' : musicexp.GlissandoEvent, - 'octave-shift' : musicexp.OctaveShiftEvent, - 'pedal' : musicexp.PedalEvent, - 'slide' : musicexp.GlissandoEvent, - 'slur' : musicexp.SlurEvent, - 'wavy-line' : musicexp.TrillSpanEvent, - 'wedge' : musicexp.HairpinEvent -} -spanner_type_dict = { - 'start': -1, - 'begin': -1, - 'crescendo': -1, - 'decreschendo': -1, - 'diminuendo': -1, - 'continue': 0, - 'change': 0, - 'up': -1, - 'down': -1, - 'stop': 1, - 'end' : 1 -} - -def musicxml_spanner_to_lily_event (mxl_event): - ev = None - - name = mxl_event.get_name() - func = spanner_event_dict.get (name) - if func: - ev = func() - else: - error_message (_ ('unknown span event %s') % mxl_event) - - - type = mxl_event.get_type () - span_direction = spanner_type_dict.get (type) - # really check for None, because some types will be translated to 0, which - # would otherwise also lead to the unknown span warning - if span_direction != None: - ev.span_direction = span_direction - else: - error_message (_ ('unknown span type %s for %s') % (type, name)) - - ev.set_span_type (type) - ev.line_type = getattr (mxl_event, 'line-type', 'solid') - - # assign the size, which is used for octave-shift, etc. - ev.size = mxl_event.get_size () - - return ev - -def musicxml_direction_to_indicator (direction): - return { "above": 1, "upright": 1, "up": 1, "below": -1, "downright": -1, "down": -1, "inverted": -1 }.get (direction, 0) - -def musicxml_fermata_to_lily_event (mxl_event): - ev = musicexp.ArticulationEvent () - txt = mxl_event.get_text () - # The contents of the element defined the shape, possible are normal, angled and square - ev.type = { "angled": "shortfermata", "square": "longfermata" }.get (txt, "fermata") - if hasattr (mxl_event, 'type'): - dir = musicxml_direction_to_indicator (mxl_event.type) - if dir and options.convert_directions: - ev.force_direction = dir - return ev - -def musicxml_arpeggiate_to_lily_event (mxl_event): - ev = musicexp.ArpeggioEvent () - ev.direction = musicxml_direction_to_indicator (getattr (mxl_event, 'direction', None)) - return ev - -def musicxml_nonarpeggiate_to_lily_event (mxl_event): - ev = musicexp.ArpeggioEvent () - ev.non_arpeggiate = True - ev.direction = musicxml_direction_to_indicator (getattr (mxl_event, 'direction', None)) - return ev - -def musicxml_tremolo_to_lily_event (mxl_event): - ev = musicexp.TremoloEvent () - txt = mxl_event.get_text () - if txt: - ev.bars = txt - else: - ev.bars = "3" - return ev - -def musicxml_falloff_to_lily_event (mxl_event): - ev = musicexp.BendEvent () - ev.alter = -4 - return ev - -def musicxml_doit_to_lily_event (mxl_event): - ev = musicexp.BendEvent () - ev.alter = 4 - return ev - -def musicxml_bend_to_lily_event (mxl_event): - ev = musicexp.BendEvent () - ev.alter = mxl_event.bend_alter () - return ev - -def musicxml_caesura_to_lily_event (mxl_event): - ev = musicexp.MarkupEvent () - # FIXME: default to straight or curved caesura? - ev.contents = "\\musicglyph #\"scripts.caesura.straight\"" - ev.force_direction = 1 - return ev - -def musicxml_fingering_event (mxl_event): - ev = musicexp.ShortArticulationEvent () - ev.type = mxl_event.get_text () - return ev - -def musicxml_string_event (mxl_event): - ev = musicexp.NoDirectionArticulationEvent () - ev.type = mxl_event.get_text () - return ev - -def musicxml_accidental_mark (mxl_event): - ev = musicexp.MarkupEvent () - contents = { "sharp": "\\sharp", - "natural": "\\natural", - "flat": "\\flat", - "double-sharp": "\\doublesharp", - "sharp-sharp": "\\sharp\\sharp", - "flat-flat": "\\flat\\flat", - "flat-flat": "\\doubleflat", - "natural-sharp": "\\natural\\sharp", - "natural-flat": "\\natural\\flat", - "quarter-flat": "\\semiflat", - "quarter-sharp": "\\semisharp", - "three-quarters-flat": "\\sesquiflat", - "three-quarters-sharp": "\\sesquisharp", - }.get (mxl_event.get_text ()) - if contents: - ev.contents = contents - return ev - else: - return None - -# translate articulations, ornaments and other notations into ArticulationEvents -# possible values: -# -) string (ArticulationEvent with that name) -# -) function (function(mxl_event) needs to return a full ArticulationEvent-derived object -# -) (class, name) (like string, only that a different class than ArticulationEvent is used) -# TODO: Some translations are missing! -articulations_dict = { - "accent": (musicexp.ShortArticulationEvent, ">"), # or "accent" - "accidental-mark": musicxml_accidental_mark, - "bend": musicxml_bend_to_lily_event, - "breath-mark": (musicexp.NoDirectionArticulationEvent, "breathe"), - "caesura": musicxml_caesura_to_lily_event, - #"delayed-turn": "?", - "detached-legato": (musicexp.ShortArticulationEvent, "_"), # or "portato" - "doit": musicxml_doit_to_lily_event, - #"double-tongue": "?", - "down-bow": "downbow", - "falloff": musicxml_falloff_to_lily_event, - "fingering": musicxml_fingering_event, - #"fingernails": "?", - #"fret": "?", - #"hammer-on": "?", - "harmonic": "flageolet", - #"heel": "?", - "inverted-mordent": "prall", - "inverted-turn": "reverseturn", - "mordent": "mordent", - "open-string": "open", - #"plop": "?", - #"pluck": "?", - #"pull-off": "?", - #"schleifer": "?", - #"scoop": "?", - #"shake": "?", - "snap-pizzicato": "snappizzicato", - #"spiccato": "?", - "staccatissimo": (musicexp.ShortArticulationEvent, "|"), # or "staccatissimo" - "staccato": (musicexp.ShortArticulationEvent, "."), # or "staccato" - "stopped": (musicexp.ShortArticulationEvent, "+"), # or "stopped" - #"stress": "?", - "string": musicxml_string_event, - "strong-accent": (musicexp.ShortArticulationEvent, "^"), # or "marcato" - #"tap": "?", - "tenuto": (musicexp.ShortArticulationEvent, "-"), # or "tenuto" - "thumb-position": "thumb", - #"toe": "?", - "turn": "turn", - "tremolo": musicxml_tremolo_to_lily_event, - "trill-mark": "trill", - #"triple-tongue": "?", - #"unstress": "?" - "up-bow": "upbow", - #"wavy-line": "?", -} -articulation_spanners = [ "wavy-line" ] - -def musicxml_articulation_to_lily_event (mxl_event): - # wavy-line elements are treated as trill spanners, not as articulation ornaments - if mxl_event.get_name () in articulation_spanners: - return musicxml_spanner_to_lily_event (mxl_event) - - tmp_tp = articulations_dict.get (mxl_event.get_name ()) - if not tmp_tp: - return - - if isinstance (tmp_tp, str): - ev = musicexp.ArticulationEvent () - ev.type = tmp_tp - elif isinstance (tmp_tp, tuple): - ev = tmp_tp[0] () - ev.type = tmp_tp[1] - else: - ev = tmp_tp (mxl_event) - - # Some articulations use the type attribute, other the placement... - dir = None - if hasattr (mxl_event, 'type') and options.convert_directions: - dir = musicxml_direction_to_indicator (mxl_event.type) - if hasattr (mxl_event, 'placement') and options.convert_directions: - dir = musicxml_direction_to_indicator (mxl_event.placement) - if dir: - ev.force_direction = dir - return ev - - - -def musicxml_dynamics_to_lily_event (dynentry): - dynamics_available = ( - "ppppp", "pppp", "ppp", "pp", "p", "mp", "mf", - "f", "ff", "fff", "ffff", "fp", "sf", "sff", "sp", "spp", "sfz", "rfz" ) - dynamicsname = dynentry.get_name () - if dynamicsname == "other-dynamics": - dynamicsname = dynentry.get_text () - if not dynamicsname or dynamicsname=="#text": - return - - if not dynamicsname in dynamics_available: - # Get rid of - in tag names (illegal in ly tags!) - dynamicstext = dynamicsname - dynamicsname = string.replace (dynamicsname, "-", "") - additional_definitions[dynamicsname] = dynamicsname + \ - " = #(make-dynamic-script \"" + dynamicstext + "\")" - needed_additional_definitions.append (dynamicsname) - event = musicexp.DynamicsEvent () - event.type = dynamicsname - return event - -# Convert single-color two-byte strings to numbers 0.0 - 1.0 -def hexcolorval_to_nr (hex_val): - try: - v = int (hex_val, 16) - if v == 255: - v = 256 - return v / 256. - except ValueError: - return 0. - -def hex_to_color (hex_val): - res = re.match (r'#([0-9a-f][0-9a-f]|)([0-9a-f][0-9a-f])([0-9a-f][0-9a-f])([0-9a-f][0-9a-f])$', hex_val, re.IGNORECASE) - if res: - return map (lambda x: hexcolorval_to_nr (x), res.group (2,3,4)) - else: - return None - -def musicxml_words_to_lily_event (words): - event = musicexp.TextEvent () - text = words.get_text () - text = re.sub ('^ *\n? *', '', text) - text = re.sub (' *\n? *$', '', text) - event.text = text - - if hasattr (words, 'default-y') and options.convert_directions: - offset = getattr (words, 'default-y') - try: - off = string.atoi (offset) - if off > 0: - event.force_direction = 1 - else: - event.force_direction = -1 - except ValueError: - event.force_direction = 0 - - if hasattr (words, 'font-weight'): - font_weight = { "normal": '', "bold": '\\bold' }.get (getattr (words, 'font-weight'), '') - if font_weight: - event.markup += font_weight - - if hasattr (words, 'font-size'): - size = getattr (words, 'font-size') - font_size = { - "xx-small": '\\teeny', - "x-small": '\\tiny', - "small": '\\small', - "medium": '', - "large": '\\large', - "x-large": '\\huge', - "xx-large": '\\larger\\huge' - }.get (size, '') - if font_size: - event.markup += font_size - - if hasattr (words, 'color'): - color = getattr (words, 'color') - rgb = hex_to_color (color) - if rgb: - event.markup += "\\with-color #(rgb-color %s %s %s)" % (rgb[0], rgb[1], rgb[2]) - - if hasattr (words, 'font-style'): - font_style = { "italic": '\\italic' }.get (getattr (words, 'font-style'), '') - if font_style: - event.markup += font_style - - # TODO: How should I best convert the font-family attribute? - - # TODO: How can I represent the underline, overline and line-through - # attributes in Lilypond? Values of these attributes indicate - # the number of lines - - return event - - -# convert accordion-registration to lilypond. -# Since lilypond does not have any built-in commands, we need to create -# the markup commands manually and define our own variables. -# Idea was taken from: http://lsr.dsi.unimi.it/LSR/Item?id=194 -def musicxml_accordion_to_markup (mxl_event): - commandname = "accReg" - command = "" - - high = mxl_event.get_maybe_exist_named_child ('accordion-high') - if high: - commandname += "H" - command += """\\combine - \\raise #2.5 \\musicglyph #\"accordion.accDot\" - """ - middle = mxl_event.get_maybe_exist_named_child ('accordion-middle') - if middle: - # By default, use one dot (when no or invalid content is given). The - # MusicXML spec is quiet about this case... - txt = 1 - try: - txt = string.atoi (middle.get_text ()) - except ValueError: - pass - if txt == 3: - commandname += "MMM" - command += """\\combine - \\raise #1.5 \\musicglyph #\"accordion.accDot\" - \\combine - \\raise #1.5 \\translate #(cons 1 0) \\musicglyph #\"accordion.accDot\" - \\combine - \\raise #1.5 \\translate #(cons -1 0) \\musicglyph #\"accordion.accDot\" - """ - elif txt == 2: - commandname += "MM" - command += """\\combine - \\raise #1.5 \\translate #(cons 0.5 0) \\musicglyph #\"accordion.accDot\" - \\combine - \\raise #1.5 \\translate #(cons -0.5 0) \\musicglyph #\"accordion.accDot\" - """ - elif not txt <= 0: - commandname += "M" - command += """\\combine - \\raise #1.5 \\musicglyph #\"accordion.accDot\" - """ - low = mxl_event.get_maybe_exist_named_child ('accordion-low') - if low: - commandname += "L" - command += """\\combine - \\raise #0.5 \musicglyph #\"accordion.accDot\" - """ - - command += "\musicglyph #\"accordion.accDiscant\"" - command = "\\markup { \\normalsize %s }" % command - # Define the newly built command \accReg[H][MMM][L] - additional_definitions[commandname] = "%s = %s" % (commandname, command) - needed_additional_definitions.append (commandname) - return "\\%s" % commandname - -def musicxml_accordion_to_ly (mxl_event): - txt = musicxml_accordion_to_markup (mxl_event) - if txt: - ev = musicexp.MarkEvent (txt) - return ev - return - - -def musicxml_rehearsal_to_ly_mark (mxl_event): - text = mxl_event.get_text () - if not text: - return - # default is boxed rehearsal marks! - encl = "box" - if hasattr (mxl_event, 'enclosure'): - encl = {"none": None, "square": "box", "circle": "circle" }.get (mxl_event.enclosure, None) - if encl: - text = "\\%s { %s }" % (encl, text) - ev = musicexp.MarkEvent ("\\markup { %s }" % text) - return ev - -def musicxml_harp_pedals_to_ly (mxl_event): - count = 0 - result = "\\harp-pedal #\"" - for t in mxl_event.get_named_children ('pedal-tuning'): - alter = t.get_named_child ('pedal-alter') - if alter: - val = int (alter.get_text ().strip ()) - result += {1: "v", 0: "-", -1: "^"}.get (val, "") - count += 1 - if count == 3: - result += "|" - ev = musicexp.MarkupEvent () - ev.contents = result + "\"" - return ev - -def musicxml_eyeglasses_to_ly (mxl_event): - needed_additional_definitions.append ("eyeglasses") - return musicexp.MarkEvent ("\\markup { \\eyeglasses }") - -def next_non_hash_index (lst, pos): - pos += 1 - while pos < len (lst) and isinstance (lst[pos], musicxml.Hash_text): - pos += 1 - return pos - -def musicxml_metronome_to_ly (mxl_event): - children = mxl_event.get_all_children () - if not children: - return - - index = -1 - index = next_non_hash_index (children, index) - if isinstance (children[index], musicxml.BeatUnit): - # first form of metronome-mark, using unit and beats/min or other unit - ev = musicexp.TempoMark () - if hasattr (mxl_event, 'parentheses'): - ev.set_parentheses (mxl_event.parentheses == "yes") - - d = musicexp.Duration () - d.duration_log = musicxml.musicxml_duration_to_log (children[index].get_text ()) - index = next_non_hash_index (children, index) - if isinstance (children[index], musicxml.BeatUnitDot): - d.dots = 1 - index = next_non_hash_index (children, index) - ev.set_base_duration (d) - if isinstance (children[index], musicxml.BeatUnit): - # Form "note = newnote" - newd = musicexp.Duration () - newd.duration_log = musicxml.musicxml_duration_to_log (children[index].get_text ()) - index = next_non_hash_index (children, index) - if isinstance (children[index], musicxml.BeatUnitDot): - newd.dots = 1 - index = next_non_hash_index (children, index) - ev.set_new_duration (newd) - elif isinstance (children[index], musicxml.PerMinute): - # Form "note = bpm" - try: - beats = int (children[index].get_text ()) - ev.set_beats_per_minute (beats) - except ValueError: - pass - else: - error_message (_ ("Unknown metronome mark, ignoring")) - return - return ev - else: - #TODO: Implement the other (more complex) way for tempo marks! - error_message (_ ("Metronome marks with complex relations ( in MusicXML) are not yet implemented.")) - return - -# translate directions into Events, possible values: -# -) string (MarkEvent with that command) -# -) function (function(mxl_event) needs to return a full Event-derived object -# -) (class, name) (like string, only that a different class than MarkEvent is used) -directions_dict = { - 'accordion-registration' : musicxml_accordion_to_ly, - 'coda' : (musicexp.MusicGlyphMarkEvent, "coda"), -# 'damp' : ??? -# 'damp-all' : ??? - 'eyeglasses': musicxml_eyeglasses_to_ly, - 'harp-pedals' : musicxml_harp_pedals_to_ly, -# 'image' : ??? - 'metronome' : musicxml_metronome_to_ly, - 'rehearsal' : musicxml_rehearsal_to_ly_mark, -# 'scordatura' : ??? - 'segno' : (musicexp.MusicGlyphMarkEvent, "segno"), - 'words' : musicxml_words_to_lily_event, -} -directions_spanners = [ 'octave-shift', 'pedal', 'wedge', 'dashes', 'bracket' ] - -def musicxml_direction_to_lily (n): - # TODO: Handle the element! - res = [] - # placement applies to all children! - dir = None - if hasattr (n, 'placement') and options.convert_directions: - dir = musicxml_direction_to_indicator (n.placement) - dirtype_children = [] - # TODO: The direction-type is used for grouping (e.g. dynamics with text), - # so we can't simply flatten them out! - for dt in n.get_typed_children (musicxml.DirType): - dirtype_children += dt.get_all_children () - - for entry in dirtype_children: - # backets, dashes, octave shifts. pedal marks, hairpins etc. are spanners: - if entry.get_name() in directions_spanners: - event = musicxml_spanner_to_lily_event (entry) - if event: - res.append (event) - continue - - # now treat all the "simple" ones, that can be translated using the dict - ev = None - tmp_tp = directions_dict.get (entry.get_name (), None) - if isinstance (tmp_tp, str): # string means MarkEvent - ev = musicexp.MarkEvent (tmp_tp) - elif isinstance (tmp_tp, tuple): # tuple means (EventClass, "text") - ev = tmp_tp[0] (tmp_tp[1]) - elif tmp_tp: - ev = tmp_tp (entry) - if ev: - # TODO: set the correct direction! Unfortunately, \mark in ly does - # not seem to support directions! - res.append (ev) - continue - - if entry.get_name () == "dynamics": - for dynentry in entry.get_all_children (): - ev = musicxml_dynamics_to_lily_event (dynentry) - if ev: - res.append (ev) - - return res - -def musicxml_frame_to_lily_event (frame): - ev = musicexp.FretEvent () - ev.strings = frame.get_strings () - ev.frets = frame.get_frets () - #offset = frame.get_first_fret () - 1 - barre = [] - for fn in frame.get_named_children ('frame-note'): - fret = fn.get_fret () - if fret <= 0: - fret = "o" - el = [ fn.get_string (), fret ] - fingering = fn.get_fingering () - if fingering >= 0: - el.append (fingering) - ev.elements.append (el) - b = fn.get_barre () - if b == 'start': - barre[0] = el[0] # start string - barre[2] = el[1] # fret - elif b == 'stop': - barre[1] = el[0] # end string - if barre: - ev.barre = barre - return ev - -def musicxml_harmony_to_lily (n): - res = [] - for f in n.get_named_children ('frame'): - ev = musicxml_frame_to_lily_event (f) - if ev: - res.append (ev) - return res - - -notehead_styles_dict = { - 'slash': '\'slash', - 'triangle': '\'triangle', - 'diamond': '\'diamond', - 'square': '\'la', # TODO: Proper squared note head - 'cross': None, # TODO: + shaped note head - 'x': '\'cross', - 'circle-x': '\'xcircle', - 'inverted triangle': None, # TODO: Implement - 'arrow down': None, # TODO: Implement - 'arrow up': None, # TODO: Implement - 'slashed': None, # TODO: Implement - 'back slashed': None, # TODO: Implement - 'normal': None, - 'cluster': None, # TODO: Implement - 'none': '#f', - 'do': '\'do', - 're': '\'re', - 'mi': '\'mi', - 'fa': '\'fa', - 'so': None, - 'la': '\'la', - 'ti': '\'ti', - } - -def musicxml_notehead_to_lily (nh): - styles = [] - - # Notehead style - style = notehead_styles_dict.get (nh.get_text ().strip (), None) - style_elm = musicexp.NotestyleEvent () - if style: - style_elm.style = style - if hasattr (nh, 'filled'): - style_elm.filled = (getattr (nh, 'filled') == "yes") - if style_elm.style or (style_elm.filled != None): - styles.append (style_elm) - - # parentheses - if hasattr (nh, 'parentheses') and (nh.parentheses == "yes"): - styles.append (musicexp.ParenthesizeEvent ()) - - return styles - -def musicxml_chordpitch_to_lily (mxl_cpitch): - r = musicexp.ChordPitch () - r.alteration = mxl_cpitch.get_alteration () - r.step = musicxml_step_to_lily (mxl_cpitch.get_step ()) - return r - -chordkind_dict = { - 'major': '5', - 'minor': 'm5', - 'augmented': 'aug5', - 'diminished': 'dim5', - # Sevenths: - 'dominant': '7', - 'dominant-seventh': '7', - 'major-seventh': 'maj7', - 'minor-seventh': 'm7', - 'diminished-seventh': 'dim7', - 'augmented-seventh': 'aug7', - 'half-diminished': 'dim5m7', - 'major-minor': 'maj7m5', - # Sixths: - 'major-sixth': '6', - 'minor-sixth': 'm6', - # Ninths: - 'dominant-ninth': '9', - 'major-ninth': 'maj9', - 'minor-ninth': 'm9', - # 11ths (usually as the basis for alteration): - 'dominant-11th': '11', - 'major-11th': 'maj11', - 'minor-11th': 'm11', - # 13ths (usually as the basis for alteration): - 'dominant-13th': '13.11', - 'major-13th': 'maj13.11', - 'minor-13th': 'm13', - # Suspended: - 'suspended-second': 'sus2', - 'suspended-fourth': 'sus4', - # Functional sixths: - # TODO - #'Neapolitan': '???', - #'Italian': '???', - #'French': '???', - #'German': '???', - # Other: - #'pedal': '???',(pedal-point bass) - 'power': '5^3', - #'Tristan': '???', - 'other': '1', - 'none': None, -} - -def musicxml_chordkind_to_lily (kind): - res = chordkind_dict.get (kind, None) - # Check for None, since a major chord is converted to '' - if res == None: - error_message (_ ("Unable to convert chord type %s to lilypond.") % kind) - return res - -def musicxml_harmony_to_lily_chordname (n): - res = [] - root = n.get_maybe_exist_named_child ('root') - if root: - ev = musicexp.ChordNameEvent () - ev.root = musicxml_chordpitch_to_lily (root) - kind = n.get_maybe_exist_named_child ('kind') - if kind: - ev.kind = musicxml_chordkind_to_lily (kind.get_text ()) - if not ev.kind: - return res - bass = n.get_maybe_exist_named_child ('bass') - if bass: - ev.bass = musicxml_chordpitch_to_lily (bass) - inversion = n.get_maybe_exist_named_child ('inversion') - if inversion: - # TODO: Lilypond does not support inversions, does it? - - # Mail from Carl Sorensen on lilypond-devel, June 11, 2008: - # 4. LilyPond supports the first inversion in the form of added - # bass notes. So the first inversion of C major would be c:/g. - # To get the second inversion of C major, you would need to do - # e:6-3-^5 or e:m6-^5. However, both of these techniques - # require you to know the chord and calculate either the fifth - # pitch (for the first inversion) or the third pitch (for the - # second inversion) so they may not be helpful for musicxml2ly. - inversion_count = string.atoi (inversion.get_text ()) - if inversion_count == 1: - # TODO: Calculate the bass note for the inversion... - pass - pass - for deg in n.get_named_children ('degree'): - d = musicexp.ChordModification () - d.type = deg.get_type () - d.step = deg.get_value () - d.alteration = deg.get_alter () - ev.add_modification (d) - #TODO: convert the user-symbols attribute: - #major: a triangle, like Unicode 25B3 - #minor: -, like Unicode 002D - #augmented: +, like Unicode 002B - #diminished: (degree), like Unicode 00B0 - #half-diminished: (o with slash), like Unicode 00F8 - if ev and ev.root: - res.append (ev) - - return res - -def musicxml_figured_bass_note_to_lily (n): - res = musicexp.FiguredBassNote () - suffix_dict = { 'sharp' : "+", - 'flat' : "-", - 'natural' : "!", - 'double-sharp' : "++", - 'flat-flat' : "--", - 'sharp-sharp' : "++", - 'slash' : "/" } - prefix = n.get_maybe_exist_named_child ('prefix') - if prefix: - res.set_prefix (suffix_dict.get (prefix.get_text (), "")) - fnumber = n.get_maybe_exist_named_child ('figure-number') - if fnumber: - res.set_number (fnumber.get_text ()) - suffix = n.get_maybe_exist_named_child ('suffix') - if suffix: - res.set_suffix (suffix_dict.get (suffix.get_text (), "")) - if n.get_maybe_exist_named_child ('extend'): - # TODO: Implement extender lines (unfortunately, in lilypond you have - # to use \set useBassFigureExtenders = ##t, which turns them on - # globally, while MusicXML has a property for each note... - # I'm not sure there is a proper way to implement this cleanly - #n.extend - pass - return res - - - -def musicxml_figured_bass_to_lily (n): - if not isinstance (n, musicxml.FiguredBass): - return - res = musicexp.FiguredBassEvent () - for i in n.get_named_children ('figure'): - note = musicxml_figured_bass_note_to_lily (i) - if note: - res.append (note) - dur = n.get_maybe_exist_named_child ('duration') - if dur: - # apply the duration to res - length = Rational(int(dur.get_text()), n._divisions)*Rational(1,4) - res.set_real_duration (length) - duration = rational_to_lily_duration (length) - if duration: - res.set_duration (duration) - if hasattr (n, 'parentheses') and n.parentheses == "yes": - res.set_parentheses (True) - return res - -instrument_drumtype_dict = { - 'Acoustic Snare Drum': 'acousticsnare', - 'Side Stick': 'sidestick', - 'Open Triangle': 'opentriangle', - 'Mute Triangle': 'mutetriangle', - 'Tambourine': 'tambourine', - 'Bass Drum': 'bassdrum', -} - -def musicxml_note_to_lily_main_event (n): - pitch = None - duration = None - event = None - - mxl_pitch = n.get_maybe_exist_typed_child (musicxml.Pitch) - if mxl_pitch: - pitch = musicxml_pitch_to_lily (mxl_pitch) - event = musicexp.NoteEvent () - event.pitch = pitch - - acc = n.get_maybe_exist_named_child ('accidental') - if acc: - # let's not force accs everywhere. - event.cautionary = acc.editorial - - elif n.get_maybe_exist_typed_child (musicxml.Unpitched): - # Unpitched elements have display-step and can also have - # display-octave. - unpitched = n.get_maybe_exist_typed_child (musicxml.Unpitched) - event = musicexp.NoteEvent () - event.pitch = musicxml_unpitched_to_lily (unpitched) - - elif n.get_maybe_exist_typed_child (musicxml.Rest): - # rests can have display-octave and display-step, which are - # treated like an ordinary note pitch - rest = n.get_maybe_exist_typed_child (musicxml.Rest) - event = musicexp.RestEvent () - if options.convert_rest_positions: - pitch = musicxml_restdisplay_to_lily (rest) - event.pitch = pitch - - elif n.instrument_name: - event = musicexp.NoteEvent () - drum_type = instrument_drumtype_dict.get (n.instrument_name) - if drum_type: - event.drum_type = drum_type - else: - n.message (_ ("drum %s type unknown, please add to instrument_drumtype_dict") % n.instrument_name) - event.drum_type = 'acousticsnare' - - else: - n.message (_ ("cannot find suitable event")) - - if event: - event.duration = musicxml_duration_to_lily (n) - - noteheads = n.get_named_children ('notehead') - for nh in noteheads: - styles = musicxml_notehead_to_lily (nh) - for s in styles: - event.add_associated_event (s) - - return event - -def musicxml_lyrics_to_text (lyrics): - # TODO: Implement text styles for lyrics syllables - continued = False - extended = False - text = '' - for e in lyrics.get_all_children (): - if isinstance (e, musicxml.Syllabic): - continued = e.continued () - elif isinstance (e, musicxml.Text): - # We need to convert soft hyphens to -, otherwise the ascii codec as well - # as lilypond will barf on that character - text += string.replace( e.get_text(), u'\xad', '-' ) - elif isinstance (e, musicxml.Elision): - if text: - text += " " - continued = False - extended = False - elif isinstance (e, musicxml.Extend): - if text: - text += " " - extended = True - - if text == "-" and continued: - return "--" - elif text == "_" and extended: - return "__" - elif continued and text: - return musicxml.escape_ly_output_string (text) + " --" - elif continued: - return "--" - elif extended and text: - return musicxml.escape_ly_output_string (text) + " __" - elif extended: - return "__" - elif text: - return musicxml.escape_ly_output_string (text) - else: - return "" - -## TODO -class NegativeSkip: - def __init__ (self, here, dest): - self.here = here - self.dest = dest - -class LilyPondVoiceBuilder: - def __init__ (self): - self.elements = [] - self.pending_dynamics = [] - self.end_moment = Rational (0) - self.begin_moment = Rational (0) - self.pending_multibar = Rational (0) - self.ignore_skips = False - self.has_relevant_elements = False - self.measure_length = Rational (4, 4) - - def _insert_multibar (self): - layout_information.set_context_item ('Score', 'skipBars = ##t') - r = musicexp.MultiMeasureRest () - lenfrac = self.measure_length - r.duration = rational_to_lily_duration (lenfrac) - r.duration.factor *= self.pending_multibar / lenfrac - self.elements.append (r) - self.begin_moment = self.end_moment - self.end_moment = self.begin_moment + self.pending_multibar - self.pending_multibar = Rational (0) - - def set_measure_length (self, mlen): - if (mlen != self.measure_length) and self.pending_multibar: - self._insert_multibar () - self.measure_length = mlen - - def add_multibar_rest (self, duration): - self.pending_multibar += duration - - def set_duration (self, duration): - self.end_moment = self.begin_moment + duration - def current_duration (self): - return self.end_moment - self.begin_moment - - def add_music (self, music, duration, relevant = True): - assert isinstance (music, musicexp.Music) - if self.pending_multibar > Rational (0): - self._insert_multibar () - - self.has_relevant_elements = self.has_relevant_elements or relevant - self.elements.append (music) - self.begin_moment = self.end_moment - self.set_duration (duration) - - # Insert all pending dynamics right after the note/rest: - if isinstance (music, musicexp.ChordEvent) and self.pending_dynamics: - for d in self.pending_dynamics: - music.append (d) - self.pending_dynamics = [] - - # Insert some music command that does not affect the position in the measure - def add_command (self, command, relevant = True): - assert isinstance (command, musicexp.Music) - if self.pending_multibar > Rational (0): - self._insert_multibar () - self.has_relevant_elements = self.has_relevant_elements or relevant - self.elements.append (command) - def add_barline (self, barline, relevant = False): - # Insert only if we don't have a barline already - # TODO: Implement proper merging of default barline and custom bar line - has_relevant = self.has_relevant_elements - if (not (self.elements) or - not (isinstance (self.elements[-1], musicexp.BarLine)) or - (self.pending_multibar > Rational (0))): - self.add_music (barline, Rational (0)) - self.has_relevant_elements = has_relevant or relevant - def add_partial (self, command): - self.ignore_skips = True - # insert the partial, but restore relevant_elements (partial is not relevant) - relevant = self.has_relevant_elements - self.add_command (command) - self.has_relevant_elements = relevant - - def add_dynamics (self, dynamic): - # store the dynamic item(s) until we encounter the next note/rest: - self.pending_dynamics.append (dynamic) - - def add_bar_check (self, number): - # re/store has_relevant_elements, so that a barline alone does not - # trigger output for figured bass, chord names - b = musicexp.BarLine () - b.bar_number = number - self.add_barline (b) - - def jumpto (self, moment): - current_end = self.end_moment + self.pending_multibar - diff = moment - current_end - - if diff < Rational (0): - error_message (_ ('Negative skip %s (from position %s to %s)') % - (diff, current_end, moment)) - diff = Rational (0) - - if diff > Rational (0) and not (self.ignore_skips and moment == 0): - skip = musicexp.SkipEvent() - duration_factor = 1 - duration_log = {1: 0, 2: 1, 4:2, 8:3, 16:4, 32:5, 64:6, 128:7, 256:8, 512:9}.get (diff.denominator (), -1) - duration_dots = 0 - # TODO: Use the time signature for skips, too. Problem: The skip - # might not start at a measure boundary! - if duration_log > 0: # denominator is a power of 2... - if diff.numerator () == 3: - duration_log -= 1 - duration_dots = 1 - else: - duration_factor = Rational (diff.numerator ()) - else: - # for skips of a whole or more, simply use s1*factor - duration_log = 0 - duration_factor = diff - skip.duration.duration_log = duration_log - skip.duration.factor = duration_factor - skip.duration.dots = duration_dots - - evc = musicexp.ChordEvent () - evc.elements.append (skip) - self.add_music (evc, diff, False) - - if diff > Rational (0) and moment == 0: - self.ignore_skips = False - - def last_event_chord (self, starting_at): - - value = None - - # if the position matches, find the last ChordEvent, do not cross a bar line! - at = len( self.elements ) - 1 - while (at >= 0 and - not isinstance (self.elements[at], musicexp.ChordEvent) and - not isinstance (self.elements[at], musicexp.BarLine)): - at -= 1 - - if (self.elements - and at >= 0 - and isinstance (self.elements[at], musicexp.ChordEvent) - and self.begin_moment == starting_at): - value = self.elements[at] - else: - self.jumpto (starting_at) - value = None - return value - - def correct_negative_skip (self, goto): - self.end_moment = goto - self.begin_moment = goto - evc = musicexp.ChordEvent () - self.elements.append (evc) - - -class VoiceData: - def __init__ (self): - self.voicename = None - self.voicedata = None - self.ly_voice = None - self.figured_bass = None - self.chordnames = None - self.lyrics_dict = {} - self.lyrics_order = [] - -def musicxml_step_to_lily (step): - if step: - return (ord (step) - ord ('A') + 7 - 2) % 7 - else: - return None - -def measure_length_from_attributes (attr, current_measure_length): - len = attr.get_measure_length () - if not len: - len = current_measure_length - return len - -def musicxml_voice_to_lily_voice (voice): - tuplet_events = [] - modes_found = {} - lyrics = {} - return_value = VoiceData () - return_value.voicedata = voice - - # First pitch needed for relative mode (if selected in command-line options) - first_pitch = None - - # Needed for melismata detection (ignore lyrics on those notes!): - inside_slur = False - is_tied = False - is_chord = False - is_beamed = False - ignore_lyrics = False - - current_staff = None - - pending_figured_bass = [] - pending_chordnames = [] - - # Make sure that the keys in the dict don't get reordered, since - # we need the correct ordering of the lyrics stanzas! By default, - # a dict will reorder its keys - return_value.lyrics_order = voice.get_lyrics_numbers () - for k in return_value.lyrics_order: - lyrics[k] = [] - - voice_builder = LilyPondVoiceBuilder () - figured_bass_builder = LilyPondVoiceBuilder () - chordnames_builder = LilyPondVoiceBuilder () - current_measure_length = Rational (4, 4) - voice_builder.set_measure_length (current_measure_length) - - for n in voice._elements: - tie_started = False - if n.get_name () == 'forward': - continue - staff = n.get_maybe_exist_named_child ('staff') - if staff: - staff = staff.get_text () - if current_staff and staff <> current_staff and not n.get_maybe_exist_named_child ('chord'): - voice_builder.add_command (musicexp.StaffChange (staff)) - current_staff = staff - - if isinstance (n, musicxml.Partial) and n.partial > 0: - a = musicxml_partial_to_lily (n.partial) - if a: - voice_builder.add_partial (a) - figured_bass_builder.add_partial (a) - chordnames_builder.add_partial (a) - continue - - is_chord = n.get_maybe_exist_named_child ('chord') - is_after_grace = (isinstance (n, musicxml.Note) and n.is_after_grace ()); - if not is_chord and not is_after_grace: - try: - voice_builder.jumpto (n._when) - figured_bass_builder.jumpto (n._when) - chordnames_builder.jumpto (n._when) - except NegativeSkip, neg: - voice_builder.correct_negative_skip (n._when) - figured_bass_builder.correct_negative_skip (n._when) - chordnames_builder.correct_negative_skip (n._when) - n.message (_ ("Negative skip found: from %s to %s, difference is %s") % (neg.here, neg.dest, neg.dest - neg.here)) - - if isinstance (n, musicxml.Barline): - barlines = musicxml_barline_to_lily (n) - for a in barlines: - if isinstance (a, musicexp.BarLine): - voice_builder.add_barline (a) - figured_bass_builder.add_barline (a, False) - chordnames_builder.add_barline (a, False) - elif isinstance (a, RepeatMarker) or isinstance (a, EndingMarker): - voice_builder.add_command (a) - figured_bass_builder.add_barline (a, False) - chordnames_builder.add_barline (a, False) - continue - - - if isinstance (n, musicxml.Print): - for a in musicxml_print_to_lily (n): - voice_builder.add_command (a, False) - continue - - # Continue any multimeasure-rests before trying to add bar checks! - # Don't handle new MM rests yet, because for them we want bar checks! - rest = n.get_maybe_exist_typed_child (musicxml.Rest) - if (rest and rest.is_whole_measure () - and voice_builder.pending_multibar > Rational (0)): - voice_builder.add_multibar_rest (n._duration) - continue - - - # print a bar check at the beginning of each measure! - if n.is_first () and n._measure_position == Rational (0) and n != voice._elements[0]: - try: - num = int (n.get_parent ().number) - except ValueError: - num = 0 - if num > 0: - voice_builder.add_bar_check (num) - figured_bass_builder.add_bar_check (num) - chordnames_builder.add_bar_check (num) - - # Start any new multimeasure rests - if (rest and rest.is_whole_measure ()): - voice_builder.add_multibar_rest (n._duration) - continue - - - if isinstance (n, musicxml.Direction): - for a in musicxml_direction_to_lily (n): - if a.wait_for_note (): - voice_builder.add_dynamics (a) - else: - voice_builder.add_command (a) - continue - - if isinstance (n, musicxml.Harmony): - for a in musicxml_harmony_to_lily (n): - if a.wait_for_note (): - voice_builder.add_dynamics (a) - else: - voice_builder.add_command (a) - for a in musicxml_harmony_to_lily_chordname (n): - pending_chordnames.append (a) - continue - - if isinstance (n, musicxml.FiguredBass): - a = musicxml_figured_bass_to_lily (n) - if a: - pending_figured_bass.append (a) - continue - - if isinstance (n, musicxml.Attributes): - for a in musicxml_attributes_to_lily (n): - voice_builder.add_command (a) - measure_length = measure_length_from_attributes (n, current_measure_length) - if current_measure_length != measure_length: - current_measure_length = measure_length - voice_builder.set_measure_length (current_measure_length) - continue - - if not n.__class__.__name__ == 'Note': - n.message (_ ('unexpected %s; expected %s or %s or %s') % (n, 'Note', 'Attributes', 'Barline')) - continue - - main_event = musicxml_note_to_lily_main_event (n) - if main_event and not first_pitch: - first_pitch = main_event.pitch - # ignore lyrics for notes inside a slur, tie, chord or beam - ignore_lyrics = inside_slur or is_tied or is_chord or is_beamed - - if main_event and hasattr (main_event, 'drum_type') and main_event.drum_type: - modes_found['drummode'] = True - - ev_chord = voice_builder.last_event_chord (n._when) - if not ev_chord: - ev_chord = musicexp.ChordEvent() - voice_builder.add_music (ev_chord, n._duration) - - # For grace notes: - grace = n.get_maybe_exist_typed_child (musicxml.Grace) - if n.is_grace (): - is_after_grace = ev_chord.has_elements () or n.is_after_grace (); - is_chord = n.get_maybe_exist_typed_child (musicxml.Chord) - - grace_chord = None - - # after-graces and other graces use different lists; Depending on - # whether we have a chord or not, obtain either a new ChordEvent or - # the previous one to create a chord - if is_after_grace: - if ev_chord.after_grace_elements and n.get_maybe_exist_typed_child (musicxml.Chord): - grace_chord = ev_chord.after_grace_elements.get_last_event_chord () - if not grace_chord: - grace_chord = musicexp.ChordEvent () - ev_chord.append_after_grace (grace_chord) - elif n.is_grace (): - if ev_chord.grace_elements and n.get_maybe_exist_typed_child (musicxml.Chord): - grace_chord = ev_chord.grace_elements.get_last_event_chord () - if not grace_chord: - grace_chord = musicexp.ChordEvent () - ev_chord.append_grace (grace_chord) - - if hasattr (grace, 'slash') and not is_after_grace: - # TODO: use grace_type = "appoggiatura" for slurred grace notes - if grace.slash == "yes": - ev_chord.grace_type = "acciaccatura" - # now that we have inserted the chord into the grace music, insert - # everything into that chord instead of the ev_chord - ev_chord = grace_chord - ev_chord.append (main_event) - ignore_lyrics = True - else: - ev_chord.append (main_event) - # When a note/chord has grace notes (duration==0), the duration of the - # event chord is not yet known, but the event chord was already added - # with duration 0. The following correct this when we hit the real note! - if voice_builder.current_duration () == 0 and n._duration > 0: - voice_builder.set_duration (n._duration) - - # if we have a figured bass, set its voice builder to the correct position - # and insert the pending figures - if pending_figured_bass: - try: - figured_bass_builder.jumpto (n._when) - except NegativeSkip, neg: - pass - for fb in pending_figured_bass: - # if a duration is given, use that, otherwise the one of the note - dur = fb.real_duration - if not dur: - dur = ev_chord.get_length () - if not fb.duration: - fb.duration = ev_chord.get_duration () - figured_bass_builder.add_music (fb, dur) - pending_figured_bass = [] - - if pending_chordnames: - try: - chordnames_builder.jumpto (n._when) - except NegativeSkip, neg: - pass - for cn in pending_chordnames: - # Assign the duration of the EventChord - cn.duration = ev_chord.get_duration () - chordnames_builder.add_music (cn, ev_chord.get_length ()) - pending_chordnames = [] - - notations_children = n.get_typed_children (musicxml.Notations) - tuplet_event = None - span_events = [] - - # The element can have the following children (+ means implemented, ~ partially, - not): - # +tied | +slur | +tuplet | glissando | slide | - # ornaments | technical | articulations | dynamics | - # +fermata | arpeggiate | non-arpeggiate | - # accidental-mark | other-notation - for notations in notations_children: - for tuplet_event in notations.get_tuplets(): - time_mod = n.get_maybe_exist_typed_child (musicxml.Time_modification) - tuplet_events.append ((ev_chord, tuplet_event, time_mod)) - - # First, close all open slurs, only then start any new slur - # TODO: Record the number of the open slur to dtermine the correct - # closing slur! - endslurs = [s for s in notations.get_named_children ('slur') - if s.get_type () in ('stop')] - if endslurs and not inside_slur: - endslurs[0].message (_ ('Encountered closing slur, but no slur is open')) - elif endslurs: - if len (endslurs) > 1: - endslurs[0].message (_ ('Cannot have two simultaneous (closing) slurs')) - # record the slur status for the next note in the loop - inside_slur = False - lily_ev = musicxml_spanner_to_lily_event (endslurs[0]) - ev_chord.append (lily_ev) - - startslurs = [s for s in notations.get_named_children ('slur') - if s.get_type () in ('start')] - if startslurs and inside_slur: - startslurs[0].message (_ ('Cannot have a slur inside another slur')) - elif startslurs: - if len (startslurs) > 1: - startslurs[0].message (_ ('Cannot have two simultaneous slurs')) - # record the slur status for the next note in the loop - inside_slur = True - lily_ev = musicxml_spanner_to_lily_event (startslurs[0]) - ev_chord.append (lily_ev) - - - if not grace: - mxl_tie = notations.get_tie () - if mxl_tie and mxl_tie.type == 'start': - ev_chord.append (musicexp.TieEvent ()) - is_tied = True - tie_started = True - else: - is_tied = False - - fermatas = notations.get_named_children ('fermata') - for a in fermatas: - ev = musicxml_fermata_to_lily_event (a) - if ev: - ev_chord.append (ev) - - arpeggiate = notations.get_named_children ('arpeggiate') - for a in arpeggiate: - ev = musicxml_arpeggiate_to_lily_event (a) - if ev: - ev_chord.append (ev) - - arpeggiate = notations.get_named_children ('non-arpeggiate') - for a in arpeggiate: - ev = musicxml_nonarpeggiate_to_lily_event (a) - if ev: - ev_chord.append (ev) - - glissandos = notations.get_named_children ('glissando') - glissandos += notations.get_named_children ('slide') - for a in glissandos: - ev = musicxml_spanner_to_lily_event (a) - if ev: - ev_chord.append (ev) - - # accidental-marks are direct children of ! - for a in notations.get_named_children ('accidental-mark'): - ev = musicxml_articulation_to_lily_event (a) - if ev: - ev_chord.append (ev) - - # Articulations can contain the following child elements: - # accent | strong-accent | staccato | tenuto | - # detached-legato | staccatissimo | spiccato | - # scoop | plop | doit | falloff | breath-mark | - # caesura | stress | unstress - # Technical can contain the following child elements: - # up-bow | down-bow | harmonic | open-string | - # thumb-position | fingering | pluck | double-tongue | - # triple-tongue | stopped | snap-pizzicato | fret | - # string | hammer-on | pull-off | bend | tap | heel | - # toe | fingernails | other-technical - # Ornaments can contain the following child elements: - # trill-mark | turn | delayed-turn | inverted-turn | - # shake | wavy-line | mordent | inverted-mordent | - # schleifer | tremolo | other-ornament, accidental-mark - ornaments = notations.get_named_children ('ornaments') - ornaments += notations.get_named_children ('articulations') - ornaments += notations.get_named_children ('technical') - - for a in ornaments: - for ch in a.get_all_children (): - ev = musicxml_articulation_to_lily_event (ch) - if ev: - ev_chord.append (ev) - - dynamics = notations.get_named_children ('dynamics') - for a in dynamics: - for ch in a.get_all_children (): - ev = musicxml_dynamics_to_lily_event (ch) - if ev: - ev_chord.append (ev) - - - mxl_beams = [b for b in n.get_named_children ('beam') - if (b.get_type () in ('begin', 'end') - and b.is_primary ())] - if mxl_beams and not conversion_settings.ignore_beaming: - beam_ev = musicxml_spanner_to_lily_event (mxl_beams[0]) - if beam_ev: - ev_chord.append (beam_ev) - if beam_ev.span_direction == -1: # beam and thus melisma starts here - is_beamed = True - elif beam_ev.span_direction == 1: # beam and thus melisma ends here - is_beamed = False - - # Extract the lyrics - if not rest and not ignore_lyrics: - note_lyrics_processed = [] - note_lyrics_elements = n.get_typed_children (musicxml.Lyric) - for l in note_lyrics_elements: - if l.get_number () < 0: - for k in lyrics.keys (): - lyrics[k].append (musicxml_lyrics_to_text (l)) - note_lyrics_processed.append (k) - else: - lyrics[l.number].append(musicxml_lyrics_to_text (l)) - note_lyrics_processed.append (l.number) - for lnr in lyrics.keys (): - if not lnr in note_lyrics_processed: - lyrics[lnr].append ("\skip4") - - # Assume that a element only lasts for one note. - # This might not be correct MusicXML interpretation, but works for - # most cases and fixes broken files, which have the end tag missing - if is_tied and not tie_started: - is_tied = False - - ## force trailing mm rests to be written out. - voice_builder.add_music (musicexp.ChordEvent (), Rational (0)) - - ly_voice = group_tuplets (voice_builder.elements, tuplet_events) - ly_voice = group_repeats (ly_voice) - - seq_music = musicexp.SequentialMusic () - - if 'drummode' in modes_found.keys (): - ## \key barfs in drummode. - ly_voice = [e for e in ly_voice - if not isinstance(e, musicexp.KeySignatureChange)] - - seq_music.elements = ly_voice - for k in lyrics.keys (): - return_value.lyrics_dict[k] = musicexp.Lyrics () - return_value.lyrics_dict[k].lyrics_syllables = lyrics[k] - - - if len (modes_found) > 1: - error_message (_ ('cannot simultaneously have more than one mode: %s') % modes_found.keys ()) - - if options.relative: - v = musicexp.RelativeMusic () - v.element = seq_music - v.basepitch = first_pitch - seq_music = v - - return_value.ly_voice = seq_music - for mode in modes_found.keys (): - v = musicexp.ModeChangingMusicWrapper() - v.element = seq_music - v.mode = mode - return_value.ly_voice = v - - # create \figuremode { figured bass elements } - if figured_bass_builder.has_relevant_elements: - fbass_music = musicexp.SequentialMusic () - fbass_music.elements = group_repeats (figured_bass_builder.elements) - v = musicexp.ModeChangingMusicWrapper() - v.mode = 'figuremode' - v.element = fbass_music - return_value.figured_bass = v - - # create \chordmode { chords } - if chordnames_builder.has_relevant_elements: - cname_music = musicexp.SequentialMusic () - cname_music.elements = group_repeats (chordnames_builder.elements) - v = musicexp.ModeChangingMusicWrapper() - v.mode = 'chordmode' - v.element = cname_music - return_value.chordnames = v - - return return_value - -def musicxml_id_to_lily (id): - digits = ['Zero', 'One', 'Two', 'Three', 'Four', 'Five', - 'Six', 'Seven', 'Eight', 'Nine', 'Ten'] - - for digit in digits: - d = digits.index (digit) - id = re.sub ('%d' % d, digit, id) - - id = re.sub ('[^a-zA-Z]', 'X', id) - return id - -def musicxml_pitch_to_lily (mxl_pitch): - p = musicexp.Pitch () - p.alteration = mxl_pitch.get_alteration () - p.step = musicxml_step_to_lily (mxl_pitch.get_step ()) - p.octave = mxl_pitch.get_octave () - 4 - return p - -def musicxml_unpitched_to_lily (mxl_unpitched): - p = None - step = mxl_unpitched.get_step () - if step: - p = musicexp.Pitch () - p.step = musicxml_step_to_lily (step) - octave = mxl_unpitched.get_octave () - if octave and p: - p.octave = octave - 4 - return p - -def musicxml_restdisplay_to_lily (mxl_rest): - p = None - step = mxl_rest.get_step () - if step: - p = musicexp.Pitch () - p.step = musicxml_step_to_lily (step) - octave = mxl_rest.get_octave () - if octave and p: - p.octave = octave - 4 - return p - -def voices_in_part (part): - """Return a Name -> Voice dictionary for PART""" - part.interpret () - part.extract_voices () - voices = part.get_voices () - part_info = part.get_staff_attributes () - - return (voices, part_info) - -def voices_in_part_in_parts (parts): - """return a Part -> Name -> Voice dictionary""" - # don't crash if p doesn't have an id (that's invalid MusicXML, - # but such files are out in the wild! - dictionary = {} - for p in parts: - voices = voices_in_part (p) - if (hasattr (p, "id")): - dictionary[p.id] = voices - else: - # TODO: extract correct part id from other sources - dictionary[None] = voices - return dictionary; - - -def get_all_voices (parts): - all_voices = voices_in_part_in_parts (parts) - - all_ly_voices = {} - all_ly_staffinfo = {} - for p, (name_voice, staff_info) in all_voices.items (): - - part_ly_voices = {} - for n, v in name_voice.items (): - progress (_ ("Converting to LilyPond expressions...")) - # musicxml_voice_to_lily_voice returns (lily_voice, {nr->lyrics, nr->lyrics}) - part_ly_voices[n] = musicxml_voice_to_lily_voice (v) - - all_ly_voices[p] = part_ly_voices - all_ly_staffinfo[p] = staff_info - - return (all_ly_voices, all_ly_staffinfo) - - -def option_parser (): - p = ly.get_option_parser (usage = _ ("musicxml2ly [OPTION]... FILE.xml"), - description = -_ ("""Convert MusicXML from FILE.xml to LilyPond input. -If the given filename is -, musicxml2ly reads from the command line. -"""), add_help_option=False) - - p.add_option("-h", "--help", - action="help", - help=_ ("show this help and exit")) - - p.version = ('''%prog (LilyPond) @TOPLEVEL_VERSION@\n\n''' -+ -_ ("""Copyright (c) 2005--2009 by - Han-Wen Nienhuys , - Jan Nieuwenhuizen and - Reinhold Kainhofer -""" -+ -""" -This program is free software. It is covered by the GNU General Public -License and you are welcome to change it and/or distribute copies of it -under certain conditions. Invoke as `%s --warranty' for more -information.""") % 'lilypond') - - p.add_option("--version", - action="version", - help=_ ("show version number and exit")) - - p.add_option ('-v', '--verbose', - action = "store_true", - dest = 'verbose', - help = _ ("be verbose")) - - p.add_option ('', '--lxml', - action = "store_true", - default = False, - dest = "use_lxml", - help = _ ("use lxml.etree; uses less memory and cpu time")) - - p.add_option ('-z', '--compressed', - action = "store_true", - dest = 'compressed', - default = False, - help = _ ("input file is a zip-compressed MusicXML file")) - - p.add_option ('-r', '--relative', - action = "store_true", - default = True, - dest = "relative", - help = _ ("convert pitches in relative mode (default)")) - - p.add_option ('-a', '--absolute', - action = "store_false", - dest = "relative", - help = _ ("convert pitches in absolute mode")) - - p.add_option ('-l', '--language', - metavar = _ ("LANG"), - action = "store", - help = _ ("use a different language file 'LANG.ly' and corresponding pitch names, e.g. 'deutsch' for deutsch.ly")) - - p.add_option ('--nd', '--no-articulation-directions', - action = "store_false", - default = True, - dest = "convert_directions", - help = _ ("do not convert directions (^, _ or -) for articulations, dynamics, etc.")) - - p.add_option ('--nrp', '--no-rest-positions', - action = "store_false", - default = True, - dest = "convert_rest_positions", - help = _ ("do not convert exact vertical positions of rests")) - - p.add_option ('--npl', '--no-page-layout', - action = "store_false", - default = True, - dest = "convert_page_layout", - help = _ ("do not convert the exact page layout and breaks")) - - p.add_option ('--no-beaming', - action = "store_false", - default = True, - dest = "convert_beaming", - help = _ ("do not convert beaming information, use lilypond's automatic beaming instead")) - - p.add_option ('-o', '--output', - metavar = _ ("FILE"), - action = "store", - default = None, - type = 'string', - dest = 'output_name', - help = _ ("set output filename to FILE, stdout if -")) - p.add_option_group ('', - description = ( - _ ("Report bugs via %s") - % 'http://post.gmane.org/post.php' - '?group=gmane.comp.gnu.lilypond.bugs') + '\n') - return p - -def music_xml_voice_name_to_lily_name (part_id, name): - str = "Part%sVoice%s" % (part_id, name) - return musicxml_id_to_lily (str) - -def music_xml_lyrics_name_to_lily_name (part_id, name, lyricsnr): - str = "Part%sVoice%sLyrics%s" % (part_id, name, lyricsnr) - return musicxml_id_to_lily (str) - -def music_xml_figuredbass_name_to_lily_name (part_id, voicename): - str = "Part%sVoice%sFiguredBass" % (part_id, voicename) - return musicxml_id_to_lily (str) - -def music_xml_chordnames_name_to_lily_name (part_id, voicename): - str = "Part%sVoice%sChords" % (part_id, voicename) - return musicxml_id_to_lily (str) - -def print_voice_definitions (printer, part_list, voices): - for part in part_list: - part_id = part.id - nv_dict = voices.get (part_id, {}) - for (name, voice) in nv_dict.items (): - k = music_xml_voice_name_to_lily_name (part_id, name) - printer.dump ('%s = ' % k) - voice.ly_voice.print_ly (printer) - printer.newline() - if voice.chordnames: - cnname = music_xml_chordnames_name_to_lily_name (part_id, name) - printer.dump ('%s = ' % cnname ) - voice.chordnames.print_ly (printer) - printer.newline() - for l in voice.lyrics_order: - lname = music_xml_lyrics_name_to_lily_name (part_id, name, l) - printer.dump ('%s = ' % lname ) - voice.lyrics_dict[l].print_ly (printer) - printer.newline() - if voice.figured_bass: - fbname = music_xml_figuredbass_name_to_lily_name (part_id, name) - printer.dump ('%s = ' % fbname ) - voice.figured_bass.print_ly (printer) - printer.newline() - - -def uniq_list (l): - return dict ([(elt,1) for elt in l]).keys () - -# format the information about the staff in the form -# [staffid, -# [ -# [voiceid1, [lyricsid11, lyricsid12,...], figuredbassid1], -# [voiceid2, [lyricsid21, lyricsid22,...], figuredbassid2], -# ... -# ] -# ] -# raw_voices is of the form [(voicename, lyricsids, havefiguredbass)*] -def format_staff_info (part_id, staff_id, raw_voices): - voices = [] - for (v, lyricsids, figured_bass, chordnames) in raw_voices: - voice_name = music_xml_voice_name_to_lily_name (part_id, v) - voice_lyrics = [music_xml_lyrics_name_to_lily_name (part_id, v, l) - for l in lyricsids] - figured_bass_name = '' - if figured_bass: - figured_bass_name = music_xml_figuredbass_name_to_lily_name (part_id, v) - chordnames_name = '' - if chordnames: - chordnames_name = music_xml_chordnames_name_to_lily_name (part_id, v) - voices.append ([voice_name, voice_lyrics, figured_bass_name, chordnames_name]) - return [staff_id, voices] - -def update_score_setup (score_structure, part_list, voices): - - for part_definition in part_list: - part_id = part_definition.id - nv_dict = voices.get (part_id) - if not nv_dict: - error_message (_ ('unknown part in part-list: %s') % part_id) - continue - - staves = reduce (lambda x,y: x+ y, - [voice.voicedata._staves.keys () - for voice in nv_dict.values ()], - []) - staves_info = [] - if len (staves) > 1: - staves_info = [] - staves = uniq_list (staves) - staves.sort () - for s in staves: - thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass, voice.chordnames) - for (voice_name, voice) in nv_dict.items () - if voice.voicedata._start_staff == s] - staves_info.append (format_staff_info (part_id, s, thisstaff_raw_voices)) - else: - thisstaff_raw_voices = [(voice_name, voice.lyrics_order, voice.figured_bass, voice.chordnames) - for (voice_name, voice) in nv_dict.items ()] - staves_info.append (format_staff_info (part_id, None, thisstaff_raw_voices)) - score_structure.set_part_information (part_id, staves_info) - -# Set global values in the \layout block, like auto-beaming etc. -def update_layout_information (): - if not conversion_settings.ignore_beaming and layout_information: - layout_information.set_context_item ('Score', 'autoBeaming = ##f') - -def print_ly_preamble (printer, filename): - printer.dump_version () - printer.print_verbatim ('%% automatically converted from %s\n' % filename) - -def print_ly_additional_definitions (printer, filename): - if needed_additional_definitions: - printer.newline () - printer.print_verbatim ('%% additional definitions required by the score:') - printer.newline () - for a in set(needed_additional_definitions): - printer.print_verbatim (additional_definitions.get (a, '')) - printer.newline () - printer.newline () - -# Read in the tree from the given I/O object (either file or string) and -# demarshall it using the classes from the musicxml.py file -def read_xml (io_object, use_lxml): - if use_lxml: - import lxml.etree - tree = lxml.etree.parse (io_object) - mxl_tree = musicxml.lxml_demarshal_node (tree.getroot ()) - return mxl_tree - else: - from xml.dom import minidom, Node - doc = minidom.parse(io_object) - node = doc.documentElement - return musicxml.minidom_demarshal_node (node) - return None - - -def read_musicxml (filename, compressed, use_lxml): - raw_string = None - if compressed: - if filename == "-": - progress (_ ("Input is compressed, extracting raw MusicXML data from stdin") ) - z = zipfile.ZipFile (sys.stdin) - else: - progress (_ ("Input file %s is compressed, extracting raw MusicXML data") % filename) - z = zipfile.ZipFile (filename, "r") - container_xml = z.read ("META-INF/container.xml") - if not container_xml: - return None - container = read_xml (StringIO.StringIO (container_xml), use_lxml) - if not container: - return None - rootfiles = container.get_maybe_exist_named_child ('rootfiles') - if not rootfiles: - return None - rootfile_list = rootfiles.get_named_children ('rootfile') - mxml_file = None - if len (rootfile_list) > 0: - mxml_file = getattr (rootfile_list[0], 'full-path', None) - if mxml_file: - raw_string = z.read (mxml_file) - - if raw_string: - io_object = StringIO.StringIO (raw_string) - elif filename == "-": - io_object = sys.stdin - else: - io_object = filename - - return read_xml (io_object, use_lxml) - - -def convert (filename, options): - if filename == "-": - progress (_ ("Reading MusicXML from Standard input ...") ) - else: - progress (_ ("Reading MusicXML from %s ...") % filename) - - tree = read_musicxml (filename, options.compressed, options.use_lxml) - score_information = extract_score_information (tree) - paper_information = extract_paper_information (tree) - - parts = tree.get_typed_children (musicxml.Part) - (voices, staff_info) = get_all_voices (parts) - - score = None - mxl_pl = tree.get_maybe_exist_typed_child (musicxml.Part_list) - if mxl_pl: - score = extract_score_structure (mxl_pl, staff_info) - part_list = mxl_pl.get_named_children ("score-part") - - # score information is contained in the , or tags - update_score_setup (score, part_list, voices) - # After the conversion, update the list of settings for the \layout block - update_layout_information () - - if not options.output_name: - options.output_name = os.path.basename (filename) - options.output_name = os.path.splitext (options.output_name)[0] - elif re.match (".*\.ly", options.output_name): - options.output_name = os.path.splitext (options.output_name)[0] - - - #defs_ly_name = options.output_name + '-defs.ly' - if (options.output_name == "-"): - output_ly_name = 'Standard output' - else: - output_ly_name = options.output_name + '.ly' - - progress (_ ("Output to `%s'") % output_ly_name) - printer = musicexp.Output_printer() - #progress (_ ("Output to `%s'") % defs_ly_name) - if (options.output_name == "-"): - printer.set_file (codecs.getwriter ("utf-8")(sys.stdout)) - else: - printer.set_file (codecs.open (output_ly_name, 'wb', encoding='utf-8')) - print_ly_preamble (printer, filename) - print_ly_additional_definitions (printer, filename) - if score_information: - score_information.print_ly (printer) - if paper_information and conversion_settings.convert_page_layout: - paper_information.print_ly (printer) - if layout_information: - layout_information.print_ly (printer) - print_voice_definitions (printer, part_list, voices) - - printer.newline () - printer.dump ("% The score definition") - printer.newline () - score.print_ly (printer) - printer.newline () - - return voices - -def get_existing_filename_with_extension (filename, ext): - if os.path.exists (filename): - return filename - newfilename = filename + "." + ext - if os.path.exists (newfilename): - return newfilename; - newfilename = filename + ext - if os.path.exists (newfilename): - return newfilename; - return '' - -def main (): - opt_parser = option_parser() - - global options - (options, args) = opt_parser.parse_args () - if not args: - opt_parser.print_usage() - sys.exit (2) - - if options.language: - musicexp.set_pitch_language (options.language) - needed_additional_definitions.append (options.language) - additional_definitions[options.language] = "\\include \"%s.ly\"\n" % options.language - conversion_settings.ignore_beaming = not options.convert_beaming - conversion_settings.convert_page_layout = options.convert_page_layout - - # Allow the user to leave out the .xml or xml on the filename - basefilename = args[0].decode('utf-8') - if basefilename == "-": # Read from stdin - basefilename = "-" - else: - filename = get_existing_filename_with_extension (basefilename, "xml") - if not filename: - filename = get_existing_filename_with_extension (basefilename, "mxl") - options.compressed = True - if filename and filename.endswith ("mxl"): - options.compressed = True - - if filename and (filename == "-" or os.path.exists (filename)): - voices = convert (filename, options) - else: - progress (_ ("Unable to find input file %s") % basefilename) +from musicxml2ly_conversion import main if __name__ == '__main__': main()