mirror of
https://github.com/microtherion/VocalEasel.git
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622 lines
15 KiB
Python
622 lines
15 KiB
Python
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# patSolo.py
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"""
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This module is an integeral part of the program
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MMA - Musical Midi Accompaniment.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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Bob van der Poel <bvdp@xplornet.com>
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"""
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import gbl
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from MMA.common import *
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from MMA.notelen import getNoteLen
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import MMA.translate
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from MMA.harmony import harmonize
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from MMA.pat import PC
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import MMA.alloc
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import MMA.volume
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class NoteList:
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def __init__(self, length):
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self.dur = length
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self.velocity = []
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self.nl = []
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##############################
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class Melody(PC):
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""" The melody and solo tracks are identical, expect that
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the solo tracks DO NOT get saved in grooves and are only
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initialized once.
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"""
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vtype = 'MELODY'
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drumType = None
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endTilde = []
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drumTone = 38
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def setDrumType(self):
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""" Set this track to be a drum track. """
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if self.channel:
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error("You cannot change a track to DRUM once it has been used.")
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self.drumType = 1
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self.setChannel('10')
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def definePattern(self, name, ln):
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error("Melody/solo patterns cannot be defined.")
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def restart(self):
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self.ssvoice = -1
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def setTone(self, ln):
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""" A solo track can have a tone, if it is DRUMTYPE."""
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if not self.drumType:
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error("You must set a Solo track to DrumType before setting Tone.")
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if len(ln) > 1:
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error("Only 1 value permitted for Drum Tone in Solo tracks.")
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self.drumTone = MMA.translate.dtable.get(ln[0])
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def getLine(self, pat, ctable):
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""" Extract a melodyline for solo/melody tracks.
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This is only called from trackbar(), but it's nicer
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to isolate it here.
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"""
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sc = self.seq
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barEnd = gbl.BperQ*gbl.QperBar
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acc=keySig.getAcc()
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# list of notename to midivalues
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midiNotes = {'c':0, 'd':2, 'e':4, 'f':5, 'g':7, 'a':9, 'b':11, 'r':None }
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""" The initial string is in the format "1ab;4c;;4r;". The trailing
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';' is important and needed. If we don't have this requirement
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we can't tell if the last note is a repeat of the previous. For
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example, if we have coded "2a;2a;" as "2a;;" and we didn't
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have the 'must end with ;' rule, we end up with "2a;" and
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then we make this into 2 notes...or do we? Easiest just to
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insist that all bars end with a ";".
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"""
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if not pat.endswith(';'):
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error("All Solo strings must end with a ';'")
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""" Take our list of note/value pairs and decode into
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a list of midi values. Quite ugly.
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"""
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if gbl.swingMode:
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len8 = getNoteLen('8')
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len81 = getNoteLen('81')
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len82 = getNoteLen('82')
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onBeats = [ x * gbl.BperQ for x in range(gbl.QperBar)]
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offBeats = [ (x * gbl.BperQ + len8) for x in range(gbl.QperBar)]
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length = getNoteLen('4') # default note length
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lastc = '' # last parsed note
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velocity = 90 # intial/default velocity for solo notes
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harmony = self.harmony[sc]
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harmOnly = self.harmonyOnly[sc]
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notes={} # A dict of NoteList, keys == offset
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if self.drumType:
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isdrum = 1
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lastc = str(self.drumTone)
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else:
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isdrum = None
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pat = pat.replace(' ', '').split(';')[:-1]
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# set initial offset into bar
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if pat[0].startswith("~"):
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pat[0]=pat[0][1:]
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if not self.endTilde or self.endTilde[1] != gbl.tickOffset:
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error("Previous line did not end with '~'.")
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else:
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offset = self.endTilde[0]
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else:
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offset = 0
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lastOffset = None
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# Strip off trailing ~
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if pat[-1].endswith("~"):
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self.endTilde = [1, gbl.tickOffset + (gbl.BperQ * gbl.QperBar) ]
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pat[-1]=pat[-1][:-1]
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else:
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self.endTilde = []
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# Begin parse loop
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for a in pat:
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if a == '<>':
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continue
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if offset >= barEnd:
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error("Attempt to start Solo note '%s' after end of bar." % a)
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# strip out all '<volume>' setting and adjust velocity
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a, vls = pextract(a, "<", ">")
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if vls:
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if len(vls) > 1:
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error("Only 1 volume string is permitted per note-set")
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vls = vls[0].upper().strip()
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if not vls in MMA.volume.vols:
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error("%s string Expecting a valid volume, not '%s'" % \
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(self.name, vls))
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velocity *= MMA.volume.vols[vls]
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""" Split the chord chunk into a note length and notes. Each
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part of this is optional and defaults to the previously
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parsed value.
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"""
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i = 0
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while i < len(a):
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if not a[i] in '1234568.+':
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break
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else:
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i+=1
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if i:
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l=getNoteLen(a[0:i])
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c=a[i:]
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else:
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l=length
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c=a
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if not c:
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c=lastc
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if not c:
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error("You must specify the first note in a solo line")
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length = l # set defaults for next loop
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lastc = c
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""" Convert the note part into a series of midi values
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Notes can be a single note, or a series of notes. And
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each note can be a letter a-g (or r), a '#,&,n' plus
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a series of '+'s or '-'s. Drum solos must have each
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note separated by ','s: "Snare1,Kick1,44".
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"""
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if isdrum:
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c=c.split(',')
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else:
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c=list(c)
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while c:
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# Parse off note name or 'r' for a rest
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name = c.pop(0)
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if name == 'r' and (offset in notes or c):
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error("You cannot combine a rest with a note in "
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"a chord for solos.")
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if not isdrum:
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if not name in midiNotes:
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error("%s encountered illegal note name '%s'."
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% (self.name, name))
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v = midiNotes[ name ]
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# Parse out a "#', '&' or 'n' accidental.
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if c and c[0]=='#':
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c.pop(0)
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acc[name] = 1
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elif c and c[0]=='&':
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c.pop(0)
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acc[name] = -1
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elif c and c[0]=='n':
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c.pop(0)
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acc[name] = 0
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if v != None:
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v += acc[name]
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# Parse out +/- (or series) for octave
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if c and c[0] == '+':
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while c and c[0] == '+':
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c.pop(0)
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v += 12
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elif c and c[0] == '-':
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while c and c[0] == '-':
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c.pop(0)
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v -= 12
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else:
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if not name: # just for leading '.'s
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continue
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if name == 'r':
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v = midiNotes[ name ]
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elif name == '*':
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v = self.drumTone
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else:
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v = MMA.translate.dtable.get(name)
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""" Swingmode -- This tests for successive 8ths on/off beat
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If found, the first is converted to 'long' 8th, the 2nd to a 'short'
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and the offset for the 2nd is adjusted to comp. for the 'long'.
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"""
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if gbl.swingMode and l==len8 and \
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offset in offBeats and \
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lastOffset in onBeats and \
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lastOffset in notes:
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if notes[lastOffset].dur == len8:
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offset = lastOffset + len81
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notes[lastOffset].dur = len81
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l=len82
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# create a new note[] entry for this offset
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if not offset in notes:
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notes[offset] = NoteList(l)
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# add note event to note[] array
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notes[offset].nl.append(v)
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notes[offset].velocity.append(self.adjustVolume(velocity, offset))
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""" Do harmony. This is done for each chord as they are
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parsed out. So, after parsing out the "16g" from the solo
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string "4a;16g;4c;" we add the harmony notes to the 'g' note.
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The chord is not processed if this is a "drum-type", if there is
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more than one note in the chord (we assume user harmony),
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if the chord for the current beat is a 'z', or if the note
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is a 'rest' (note==None).
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"""
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if harmony and offset in notes and not isdrum:
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nn=notes[offset]
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if len(nn.nl) == 1 and nn.nl[0] != None:
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tb = self.getChordInPos(offset, ctable)
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if not tb.chordZ:
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h = harmonize(harmony, nn.nl[0], tb.chord.bnoteList)
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""" If harmonyonly set then drop note, substitute harmony,
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else append harmony notes to chord.
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"""
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for i in range(len(h)):
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nn.velocity.append(self.adjustVolume(velocity *
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self.harmonyVolume[sc], offset))
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if harmOnly:
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nn.nl = h
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else:
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nn.nl.extend(h)
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lastOffset = offset
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offset += l
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if offset <= barEnd:
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if self.endTilde:
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error("Tilde at end of bar has no effect.")
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else:
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if self.endTilde:
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self.endTilde[0]=offset-barEnd
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else:
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warning("%s, end of last note overlaps end of bar by %2.3f "
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"beat(s)." % (self.name, (offset-barEnd)/float(gbl.BperQ)))
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return notes
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def trackBar(self, pat, ctable):
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""" Do the solo/melody line. Called from self.bar() """
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notes = self.getLine(pat, ctable)
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""" The notes structure is a dictionary. Each key represents an offset
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in MIDI ticks in the current bar. The data for each entry is an array
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of notes, a duration and velocity:
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notes[offset].dur - duration in ticks
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notes[offset].velocity[] - velocity for notes
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notes[offset].nl[] - list of notes (if the only note value is None
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this is a rest placeholder)
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"""
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sc=self.seq
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unify = self.unify[sc]
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rptr = self.mallet
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for offset in sorted(notes.keys()):
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nn=notes[offset]
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for n,v in zip(nn.nl, nn.velocity):
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if n == None: # skip rests
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continue
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if not self.drumType: # octave, transpose
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n = self.adjustNote(n)
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self.sendNote( offset, self.getDur(nn.dur), n, v)
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class Solo(Melody):
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""" Pattern class for a solo track. """
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vtype = 'SOLO'
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# Grooves are not saved/restored for solo tracks.
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def restoreGroove(self, gname):
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self.setSeqSize()
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def saveGroove(self, gname):
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pass
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##################################
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""" Keysignature. This is only used in the solo/melody tracks so it
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probably makes sense to have the parse routine here as well. To
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contain everything in one location we make a single instance class
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of the whole mess.
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"""
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class KeySig:
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def __init__(self):
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self.kSig = 0
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majKy = { "C" : 0, "G" : 1, "D" : 2,
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"A" : 3, "E" : 4, "B" : 5,
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"F#": 6, "C#": 7, "F" : -1,
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"Bb": -2, "Eb": -3, "Ab": -4,
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"Db": -5, "Gb": -6, "Cb": -7 }
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minKy = { "A" : 0, "E" : 1, "B" : 2,
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"F#": 3, "C#": 4, "G#": 5,
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"D#": 6, "A#": 7, "D" : -1,
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"G" : -2, "C" : -3, "F" : -4,
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"Bb": -5, "Eb": -6, "Ab": -7 }
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def set(self,ln):
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""" Set the keysignature. Used by solo tracks."""
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mi = 0
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if len(ln) < 1 or len(ln) > 2:
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error("KeySig only takes 1 or 2 arguments.")
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if len(ln) == 2:
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l=ln[1][0:3].upper()
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if l == 'MIN':
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mi=1
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elif l == 'MAJ':
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mi=0
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else:
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error("KeySig 2nd arg must be 'Major' or 'Minor', not '%s'" % ln[1])
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l=ln[0]
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t=l[0].upper() + l[1:]
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if mi and t in self.minKy:
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self.kSig = self.minKy[t]
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elif not mi and t in self.majKy:
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self.kSig = self.majKy[t]
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elif l[0] in "ABCDEFG":
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error("There is no key signature name: '%s'" % l)
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else:
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c=l[0]
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f=l[1].upper()
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if not f in ("B", "&", "#"):
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error("2nd char in KeySig must be 'b' or '#', not '%s'" % f)
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if not c in "01234567":
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error("1st char in KeySig must be digit 0..7, not '%s'" % c)
|
||
|
|
||
|
self.kSig = int(c)
|
||
|
|
||
|
if f in ('B', '&'):
|
||
|
self.kSig = -self.kSig
|
||
|
|
||
|
|
||
|
if not c in "01234567":
|
||
|
error("1st char in KeySig must be digit 0..7, not '%s'" % c)
|
||
|
|
||
|
|
||
|
# Set the midi meta track with the keysig. This doen't do anything
|
||
|
# in the playback, but other programs may use it.
|
||
|
|
||
|
n = self.kSig
|
||
|
if n < 0:
|
||
|
n = 256 + n
|
||
|
|
||
|
gbl.mtrks[0].addKeySig(gbl.tickOffset, n, mi)
|
||
|
|
||
|
if gbl.debug:
|
||
|
n = self.kSig
|
||
|
if n >= 0:
|
||
|
f = "Sharps"
|
||
|
else:
|
||
|
f = "Flats"
|
||
|
|
||
|
print "KeySig set to %s %s" % (abs(n), f)
|
||
|
|
||
|
|
||
|
def getAcc(self):
|
||
|
""" The solo parser needs to know which notes are accidentals.
|
||
|
This is simple with a keysig table. There is an entry for each note,
|
||
|
either -1,0,1 corresponding to flat,natural,sharp. We populate
|
||
|
the table for each bar from the keysig value. As we process
|
||
|
the bar data we update the table. There is one flaw here---in
|
||
|
real music an accidental for a note in a give octave does not
|
||
|
effect the following same-named notes in different octaves.
|
||
|
In this routine IT DOES.
|
||
|
|
||
|
NOTE: This is recreated for each bar of music for each solo/melody track.
|
||
|
"""
|
||
|
|
||
|
acc = {'a':0, 'b':0, 'c':0, 'd':0, 'e':0, 'f':0, 'g':0 }
|
||
|
ks=self.kSig
|
||
|
|
||
|
if ks < 0:
|
||
|
for a in range( abs(ks) ):
|
||
|
acc[ ['b','e','a','d','g','c','f'][a] ] = -1
|
||
|
|
||
|
else:
|
||
|
for a in range(ks):
|
||
|
acc[ ['f','c','g','d','a','e','b'][a] ] = 1
|
||
|
|
||
|
return acc
|
||
|
|
||
|
|
||
|
keySig=KeySig() # single instance
|
||
|
|
||
|
#######################
|
||
|
|
||
|
""" When solos are included in a chord/data line they are
|
||
|
assigned to the tracks listed in this list. Users can
|
||
|
change the tracks with the setAutoSolo command.
|
||
|
"""
|
||
|
|
||
|
autoSoloTracks = [ 'SOLO', 'SOLO-1', 'SOLO-2', 'SOLO-3' ]
|
||
|
|
||
|
|
||
|
def setAutoSolo(ln):
|
||
|
""" Set the order and names of tracks to use when assigning
|
||
|
automatic solos (specified on chord lines in {}s).
|
||
|
"""
|
||
|
|
||
|
global autoSoloTracks
|
||
|
|
||
|
if not len(ln):
|
||
|
error("You must specify at least one track for autosolos.")
|
||
|
|
||
|
autoSoloTracks = []
|
||
|
for n in ln:
|
||
|
n=n.upper()
|
||
|
MMA.alloc.trackAlloc(n, 1)
|
||
|
if gbl.tnames[n].vtype not in ('MELODY', 'SOLO'):
|
||
|
error("All autotracks must be Melody or Solo tracks, "
|
||
|
"not %s." % gbl.tnames[n].vtype)
|
||
|
|
||
|
autoSoloTracks.append(n)
|
||
|
|
||
|
if gbl.debug:
|
||
|
print "AutoSolo track names:",
|
||
|
for a in autoSoloTracks:
|
||
|
print a,
|
||
|
print
|
||
|
|
||
|
|
||
|
|
||
|
###############
|
||
|
|
||
|
def extractSolo(ln, rptcount):
|
||
|
""" Parser calls this to extract solo strings. """
|
||
|
|
||
|
a = ln.count('{')
|
||
|
b = ln.count('}')
|
||
|
|
||
|
if a != b:
|
||
|
error("Mismatched {}s for solo found in chord line.")
|
||
|
|
||
|
if a:
|
||
|
if rptcount > 1:
|
||
|
error("Bars with both repeat count and solos are not permitted.")
|
||
|
|
||
|
ln, solo = pextract(ln, '{', '}')
|
||
|
|
||
|
if len(solo) > len(autoSoloTracks):
|
||
|
error("Too many melody/solo riffs in chord line. %s used, "
|
||
|
"only %s defined." % (len(solo), len(autoSoloTracks)) )
|
||
|
|
||
|
|
||
|
firstSolo = solo[0][:] # save for autoharmony tracks
|
||
|
|
||
|
""" We have the solo information. Now we loop though each "solo" and:
|
||
|
1. Ensure or Create a MMA track for the solo
|
||
|
2. Push the solo data into a Riff for the given track.
|
||
|
"""
|
||
|
|
||
|
for s, trk in zip(solo, autoSoloTracks):
|
||
|
MMA.alloc.trackAlloc(trk, 1)
|
||
|
gbl.tnames[trk].setRiff( s.strip() )
|
||
|
|
||
|
|
||
|
""" After all the solo data is interpreted and sent to the
|
||
|
correct track, we check any leftover tracks. If any of these
|
||
|
tracks are empty of data AND are harmonyonly the note
|
||
|
data from the first track is interpeted again for that
|
||
|
track. Tricky: the max() is needed since harmonyonly can
|
||
|
have different setting for each bar...this way
|
||
|
the copy is done if ANY bar in the seq has harmonyonly set.
|
||
|
"""
|
||
|
|
||
|
for t in autoSoloTracks[1:]:
|
||
|
if gbl.tnames.has_key(t) and gbl.tnames[t].riff == [] \
|
||
|
and max(gbl.tnames[t].harmonyOnly):
|
||
|
gbl.tnames[t].setRiff( firstSolo[:] )
|
||
|
|
||
|
if gbl.debug:
|
||
|
print "%s duplicated to %s for HarmonyOnly." % (trk, t)
|
||
|
|
||
|
return ln
|
||
|
|