VocalEasel/mma/MMA/patScale.py

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# patScale.py
"""
This module is an integeral part of the program
MMA - Musical Midi Accompaniment.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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Bob van der Poel <bob@mellowood.ca>
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"""
import random
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import MMA.harmony
import MMA.notelen
from MMA.pat import PC
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import gbl
from MMA.common import *
class Scale(PC):
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""" Pattern class for a Scale track. """
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vtype = 'SCALE'
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lastNote = -1
lastChord = None
lastStype = None
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lastDirect = 1
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lastRange = 0
sOffset = 0
notes = None
dirfact = 1
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def getPgroup(self, ev):
""" Get group for scale patterns.
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Fields - start, length, volume
"""
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if len(ev) != 3:
error("There must be at exactly 3 items in each group "
"in a Scale definition, not <%s>." % ' '.join(ev))
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a = struct()
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a.offset = self.setBarOffset(ev[0])
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a.duration = MMA.notelen.getNoteLen(ev[1])
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a.vol = stoi(ev[2], "Type error in Scale definition")
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return a
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def setScaletype(self, ln):
""" Set scale type. """
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ln = lnExpand(ln, "%s ScaleType" % self.name)
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tmp = []
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for n in ln:
n = n.upper()
if not n in ( 'CHROMATIC', 'AUTO'):
error("Unknown %s ScaleType. Only Chromatic and Auto are valid" % self.name)
tmp.append(n)
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self.scaleType = seqBump(tmp)
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if gbl.debug:
print "Set %s ScaleType to " % self.name,
printList(ln)
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def restart(self):
self.ssvoice = -1
self.lastNote = -1
self.lastChord = None
self.lastStype = None
self.lastDirect = 1
self.lastRange = 0
self.sOffset = 0
self.notes = None
self.dirfact = 1
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def trackBar(self, pattern, ctable):
""" Do a scale bar.
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Called from self.bar()
"""
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sc = self.seq
direct = self.direction[sc]
unify = self.unify[sc]
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# If the range or direction has changed, we just start
# with a new scale.
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t = self.chordRange[sc]
if t != self.lastRange:
self.lastRange = t
self.lastChord = None
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if self.lastDirect != direct:
self.lastDirect = direct
self.lastChord = None
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for p in pattern:
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tb = self.getChordInPos(p.offset, ctable)
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if tb.scaleZ:
continue
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thisChord = tb.chord.tonic + tb.chord.chordType
stype = self.scaleType[sc]
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if thisChord != self.lastChord or stype != self.lastStype:
self.lastChord = thisChord
self.lastStype = stype
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if stype == 'CHROMATIC':
notelist = [ tb.chord.rootNote + x for x in range(0,12)]
else:
notelist = list(tb.chord.scaleList)
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""" Get the current scale and append enuf copies
together for RANGE setting. If Range happens
to be 0 or 1 we end up with a single copy.
"""
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ln=self.chordRange[sc] # RANGE 1...x (def. == 1)
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o=0
self.notes = []
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while ln >= 1:
for a in notelist:
self.notes.append(a+o)
o+=12
ln-=1
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if ln>0 and ln<1: # for fractional scale lengths
ln = int(len(notelist) * ln)
if ln < 2: # important, must be at least 2 notes in a scale
ln=2
for a in notelist[:ln]:
self.notes.append(a+o)
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if direct == 'DOWN':
self.dirfact = -1
if self.lastNote == -1:
self.sOffset = len(self.notes)-1
else:
self.sOffset = 0
if self.lastNote > -1:
if self.lastNote in self.notes:
self.sOffset = self.notes.index(self.lastNote)
else:
self.sOffset=len(self.notes)-1
for i, a in enumerate(self.notes):
if a>self.lastNote:
self.sOffset = i
break
# Keep offset into note list in range
# only > end of list if BOTH or UP
if self.sOffset >= len(self.notes):
if direct == 'BOTH':
self.dirfact = -1
self.sOffset = len(self.notes)-2
else: ## UP
self.sOffset = 0
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# only < start of list if DOWN or BOTH
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elif self.sOffset < 0:
if direct == 'BOTH':
self.dirfact = 1
self.sOffset = 1
else: ## DOWN
self.sOffset = len(self.notes)-1
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if direct == 'RANDOM':
note = random.choice(self.notes)
else:
note = self.notes[self.sOffset]
self.sOffset += self.dirfact
self.lastNote = note
if not self.harmonyOnly[sc]:
self.sendNote(
p.offset,
self.getDur(p.duration),
self.adjustNote(note),
self.adjustVolume(p.vol, p.offset))
if self.harmony[sc]:
ch = self.getChordInPos(p.offset, ctable).chord.noteList
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h = MMA.harmony.harmonize(self.harmony[sc], note, ch)
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strumOffset = self.getStrum(sc)
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for n in h:
self.sendNote(
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p.offset + strumOffset,
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self.getDur(p.duration),
self.adjustNote(n),
self.adjustVolume(self.harmonyVolume[sc] * p.vol, -1) )
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strumOffset += self.getStrum(sc)
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