# patAria.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 Bob van der Poel """ import random import MMA.notelen import MMA.harmony import gbl from MMA.common import * from MMA.pat import PC class Aria(PC): """ Pattern class for an aria (auto-melody) track. """ vtype = 'ARIA' notes = [] selectDir = [1] noteptr = 0 dirptr = 0 lastChord = None lastStype = None lastRange = None def restoreGroove(self, gname): """ Grooves are not saved/restored for aria tracks. But, seqsize is honored! """ self.setSeqSize() def saveGroove(self, gname): """ No save done for grooves. """ pass def getPgroup(self, ev): """ Get group for aria pattern. Fields - start, length, velocity """ if len(ev) != 3: error("There must be n groups of 3 in a pattern definition, " "not <%s>" % ' '.join(ev) ) a = struct() a.offset = self.setBarOffset(ev[0]) a.duration = MMA.notelen.getNoteLen( ev[1] ) a.vol = stoi(ev[2], "Note volume in Aria definition not int") return a def setScaletype(self, ln): """ Set scale type. """ ln = lnExpand(ln, "%s ScaleType" % self.name) tmp = [] for n in ln: n = n.upper() if not n in ( 'CHROMATIC', 'AUTO', 'CHORD'): error("Unknown %s ScaleType. Only Chromatic, Scale and Chord are valid" % self.name) tmp.append(n) self.scaleType = seqBump(tmp) if gbl.debug: print "Set %s ScaleType: " % self.name, printList(self.scaleType) def setDirection(self, ln): """ Set direction for melody creation. This function replaces the pattern function of the same name ... the command name is shared, the function is different. Note we need to use a different storage name as well since self.direction is managed in the PC class. """ if not len(ln): error("There must be at least one value for %s Direction." % self.name) self.selectDir = [] for a in ln: if a.upper() == 'R': self.selectDir.append(a.upper()) else: a=stoi(a, "Expecting integer value or 'r'.") if a < -4 or a > 4: error("Aria direction must be 'r' or -4 to 4, not '%s'" % a) self.selectDir.append(a) if gbl.debug: print "Set %s Direction:" % self.name, printList(self.selectDir) def restart(self): self.ssvoice = -1 def trackBar(self, pattern, ctable): """ Do the aria bar. Called from self.bar() """ sc = self.seq unify = self.unify[sc] for p in pattern: ct = self.getChordInPos(p.offset, ctable) if ct.ariaZ: continue thisChord = ct.chord.tonic + ct.chord.chordType stype = self.scaleType[sc] range = self.chordRange[sc] ### Generate notelist if nesc. if self.lastChord != thisChord or self.lastStype != stype or \ self.lastRange != range: self.lastChord = thisChord self.lastStype = stype self.lastRange = range if stype == 'CHORD': notelist = ct.chord.noteList elif stype == 'CHROMATIC': notelist = [ ct.chord.rootNote + x for x in range(0,12)] else: notelist = list(ct.chord.scaleList) o=0 self.notes=[] while range >= 1: for a in notelist: self.notes.append(a+o) o+=12 range-=1 if range>0 and range<1: # for fractional scale lengths range = int(len(notelist) * range) if range < 2: # important, must be at least 2 notes in a scale range=2 for a in notelist[:range]: self.notes.append(a+o) # grab a note from the list if self.dirptr >= len(self.selectDir): self.dirptr=0 a = self.selectDir[self.dirptr] if a == 'R': a = random.choice( (-1, 0, 1) ) self.noteptr += a if self.noteptr >= len(self.notes): if a > 0: self.noteptr = 0 else: self.noteptr = len(self.notes)-1 elif self.noteptr < 0: if a < 0: self.noteptr = len(self.notes)-1 else: self.noteptr = 0 note = self.notes[self.noteptr] self.dirptr += 1 # output 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]: h = MMA.harmony.harmonize(self.harmony[sc], note, ct.chord.noteList) for n in h: self.sendNote( p.offset, self.getDur(p.duration), self.adjustNote(n), self.adjustVolume(p.vol * self.harmonyVolume[sc], -1))