mirror of
https://github.com/microtherion/VocalEasel.git
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503 lines
12 KiB
Python
503 lines
12 KiB
Python
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# chords.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 copy
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from MMA.common import *
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from MMA.chordtable import _chords
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def defChord(ln):
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""" Add a new chord type to the _chords{} dict. """
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emsg="DefChord needs NAME (NOTES) (SCALE)"
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# At this point ln is a list. The first item should be
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# the new chord type name.
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if not len(ln):
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error(emsg)
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name = ln.pop(0)
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if name in _chords.keys():
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warning("Redefining chordtype '%s'." % name)
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if '/' in name:
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error("A slash in not permitted in chord type name")
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if '>' in name:
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error("A '>' in not permitted in chord type name")
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ln=pextract(''.join(ln), '(', ')')
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if ln[0] or len(ln[1])!=2:
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error(emsg)
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notes=ln[1][0].split(',')
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if len(notes) < 2 or len(notes)>8:
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error("There must be 2..8 notes in a chord, not '%s'." % len(note))
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notes.sort()
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for i,v in enumerate(notes):
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v=stoi(v, "Note offsets in chord must be integers, not '%s'." % v)
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if v<0 or v>24:
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error("Note offsets in chord must be 0..24, not '%s'." % v)
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notes[i]=v
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scale=ln[1][1].split(',')
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if len(scale) != 7:
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error("There must be 7 offsets in chord scale, not '%s'" % len(scale))
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scale.sort()
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for i,v in enumerate(scale):
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v=stoi(v, "Scale offsets in chord must be integers, not '%s'." % v)
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if v<0 or v>24:
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error("Scale offsets in chord must be 0..24, not '%s'." % v)
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scale[i]=v
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_chords[name] = ( notes, scale, "User Defined")
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if gbl.debug:
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print "ChordType '%s', %s" % (name, _chords[name])
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def printChord(ln):
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""" Display the note/scale/def for chord(s). """
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for c in ln:
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if not _chords.has_key(c):
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error("Chord '%s' is unknown" % c)
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print c, ':', _chords[c][0], _chords[c][1], _chords[c][2]
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"""
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Table of chord adjustment factors. Since the initial chord is based
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on a C scale, we need to shift the chord for different degrees. Note,
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that with C as a midpoint we shift left for G/A/B and right for D/E/F.
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Should the shifts take in account the current key signature?
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"""
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_chordAdjust = {
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'Gb':-6,
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'G' :-5,
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'G#':-4, 'Ab':-4,
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'A' :-3,
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'A#':-2, 'Bb':-2,
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'B' :-1, 'Cb':-1,
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'B#': 0, 'C' : 0,
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'C#': 1, 'Db': 1,
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'D' : 2,
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'D#': 3, 'Eb': 3,
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'E' : 4, 'Fb': 4,
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'E#': 5, 'F' : 5,
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'F#': 6 }
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def chordAdjust(ln):
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""" Adjust the chord point up/down one octave. """
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if not ln:
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error("ChordAdjust: Needs at least one argument.")
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for l in ln:
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try:
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pitch, octave = l.split('=')
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except:
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error("Each arg must contain an '=', not '%s'." % l)
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if pitch not in _chordAdjust:
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error("ChordAdjust: '%s' is not a valid pitch." % pitch)
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octave = stoi(octave, "ChordAdjust: expecting integer, not '%s'." % octave)
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p=_chordAdjust[pitch]
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if octave == 0:
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if p < -6:
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_chordAdjust[pitch] += 12
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elif p > 6:
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_chordAdjust[pitch]-=12
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elif octave == -1 and p <= 6 and p >= -6:
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_chordAdjust[pitch] -= 12
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elif octave == 1 and p <= 6 and p >= -6:
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_chordAdjust[pitch] += 12
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else:
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error("ChordAdjust: '%s' is not a valid octave. Use 1, 0 or -1." % octave)
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###############################
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# Chord creation/manipulation #
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###############################
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class ChordNotes:
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""" The Chord class creates and manipulates chords for MMA. The
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class is initialized with a call with the chord name. Eg:
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ch = ChordNotes("Am")
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The following methods and variables are defined:
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noteList - the notes in the chord as a list. The "Am"
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would be [9, 12, 16].
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noteListLen - length of noteList.
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tonic - the tonic of the chord ("Am" would be "A").
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chordType - the type of chord ("Am" would be "m").
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rootNote - the root note of the chord ("Am" would be a 9).
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bnoteList - the original chord notes, bypassing any
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invert(), etc. mangling.
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scaleList - a 7 note list representing a scale similar to
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the chord.
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reset() - resets noteList to the original chord notes.
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This is useful to restore the original after
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chord note mangling by invert(), etc. without having to
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create a new chord object.
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invert(n) - Inverts a chord by 'n'. This is done inplace and
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returns None. 'n' can have any integer value, but -1 and 1
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are most common. The order of the notes is not changed. Eg:
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ch=Chord('Am')
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ch.noteList == [9, 12, 16]
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ch.invert(1)
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ch.noteList = [21, 12, 16]
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compress() - Compresses the range of a chord to a single octave. This is
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done inplace and return None. Eg:
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ch=Chord("A13")
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ch.noteList == [1, 5, 8, 11, 21]
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ch.compress()
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ch.noteList == [1, 5, 8, 11, 10 ]
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limit(n) - Limits the range of the chord 'n' notes. Done inplace
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and returns None. Eg:
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ch=Chord("CM711")
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ch.noteList == [0, 4, 7, 11, 15, 18]
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ch.limit(4)
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ch.noteList == [0, 4, 7, 11]
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"""
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#################
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### Functions ###
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#################
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def __init__(self, name, line=''):
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""" Create a chord object. Pass the chord name as the only arg.
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NOTE: Chord names ARE case-sensitive!
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The chord NAME at this point is something like 'Cm' or 'A#7'.
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Split off the tonic and the type.
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If the 2nd char is '#' or 'b' we have a 2 char tonic,
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otherwise, it's the first char only.
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A chord can start with a single '+' or '-'. This moves
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the entire chord and scale up/down an octave.
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Note pythonic trick: By using ranges like [1:2] we
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avoid runtime errors on too-short strings. If a 1 char
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string, name[1] is an error; name[1:2] just returns None.
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Further note: I have tried to enable caching of the generated
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chords, but found no speed difference. So, to make life simpler
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I've decided to generate a new object each time.
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"""
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slash = None
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octave = 0
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inversion = 0
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if name == 'z':
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self.tonic = self.chordType = None
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self.noteListLen = 0
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self.notesList = self.bnoteList = []
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return
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if '/' in name and '>' in name:
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error("You cannot use both an inversion and a slash in the same chord.")
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if '>' in name:
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name, inversion = name.split('>', 1)
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inversion = stoi(inversion, "Expecting interger after '>'.")
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if inversion < -5 or inversion > 5:
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error("Chord inversions limited to -5 to 5 (more seems silly).")
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if name.startswith('-'):
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name = name[1:]
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octave = -12
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if name.startswith('+'):
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name = name[1:]
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octave = 12
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name = name.replace('&', 'b')
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# Strip off the slash part of the chord. Use later
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# to do proper inversion.
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if name.find('/') > 0:
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name, slash = name.split('/')
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if name[1:2] in ( '#b' ):
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tonic = name[0:2]
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ctype = name[2:]
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else:
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tonic = name[0:1]
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ctype = name[1:]
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if not ctype: # If no type, make it a Major
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ctype='M'
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try:
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notes = _chords[ctype][0]
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adj = _chordAdjust[tonic] + octave
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except:
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error( "Illegal/Unknown chord name: '%s'." % name )
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self.noteList = [ x + adj for x in notes ]
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self.bnoteList = tuple(self.noteList)
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self.scaleList = tuple([ x + adj for x in _chords[ctype][1] ])
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self.chordType = ctype
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self.tonic = tonic
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self.rootNote = self.noteList[0]
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self.noteListLen = len(self.noteList)
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# Inversion
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if inversion:
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self.invert(inversion)
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self.bnoteList = tuple(self.noteList)
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# Do inversions if there is a valid slash notation.
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if slash:
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if not _chordAdjust.has_key(slash):
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error("The note '%s' in the slash chord is unknown." % slash)
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r=_chordAdjust[slash] # r = -6 to 6
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# If the slash note is in the chord we invert
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# the chord so the slash note is in root position.
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c_roted = 0
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s=self.noteList
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for octave in [0, 12, 24]:
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if r+octave in s:
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rot=s.index(r+octave)
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for i in range(rot):
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s.append(s.pop(0)+12)
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if s[0] >= 12:
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for i,v in enumerate(s):
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s[i] = v-12
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self.noteList = s
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self.bnoteList = tuple(s)
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self.rootNote = self.noteList[0]
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c_roted = 1
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break
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s_roted = 0
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s=list(self.scaleList)
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for octave in [0, 12, 24]:
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if r+octave in s:
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rot=s.index(r+octave)
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for i in range(rot):
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s.append(s.pop(0)+12)
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if s[0] > 12:
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for i,v in enumerate(s):
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s[i] = v-12
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self.scaleList=tuple(s)
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s_roted = 1
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break
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if not c_roted and not s_roted:
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warning("The slash chord note '%s' not in "
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"chord or scale." % slash)
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elif not c_roted:
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warning("The slash chord note '%s' not in "
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"chord '%s'" % (slash, name))
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elif not s_roted: # Probably will never happen :)
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warning("The slash chord note '%s' not in "
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"scale for the chord '%s'" % (slash, name))
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def reset(self):
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""" Restores notes array to original, undoes mangling. """
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self.noteList = list(self.bnoteList[:])
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self.noteListLen = len(self.noteList)
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def invert(self, n):
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""" Apply an inversion to a chord.
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This does not reorder any notes, which means that the root note of
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the chord reminds in postion 0. We just find that highest/lowest
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notes in the chord and adjust their octave.
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NOTE: Done on the existing list of notes. Returns None.
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"""
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if n:
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c=self.noteList[:]
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while n>0: # Rotate up by adding 12 to lowest note
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n -= 1
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c[c.index(min(c))]+=12
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while n<0: # Rotate down, subtract 12 from highest note
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n += 1
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c[c.index(max(c))]-=12
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self.noteList = c
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return None
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def compress(self):
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""" Compress a chord to one ocatve.
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Get max permitted value. This is the lowest note
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plus 12. Note: use the unmodifed value bnoteList!
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"""
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mx = self.bnoteList[0] + 12
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c=[]
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for i, n in enumerate(self.noteList):
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if n > mx:
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n -= 12
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c.append(n)
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self.noteList = c
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return None
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def limit(self, n):
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""" Limit the number of notes in a chord. """
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if n < self.noteListLen:
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self.noteList = self.noteList[:n]
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self.noteListLen = len(self.noteList)
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return None
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def center1(self, lastChord):
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""" Descriptive comment needed here!!!! """
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def minDistToLast(x, lastChord):
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dist=99
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for j in range(len(lastChord)):
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if abs(x-lastChord[j])<abs(dist):
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dist=x-lastChord[j]
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return dist
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def sign(x):
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if (x>0):
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return 1
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elif (x<0):
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return -1
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else:
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return 0
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# Only change what needs to be changed compared to the last chord
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# (leave notes where they are if they are in the new chord as well).
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if lastChord:
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ch=self.noteList
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for i in range(len(ch)):
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# minimize distance to last chord
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oldDist = minDistToLast(ch[i], lastChord)
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while abs(minDistToLast(ch[i] - sign(oldDist)*12,
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lastChord)) < abs(oldDist):
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ch[i] -= 12* sign(oldDist)
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oldDist = minDistToLast(ch[i], lastChord)
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return None
|
||
|
|
||
|
def center2(self, centerNote, noteRange):
|
||
|
""" Need COMMENT """
|
||
|
|
||
|
ch=self.noteList
|
||
|
for i,v in enumerate(ch):
|
||
|
|
||
|
dist = v - centerNote
|
||
|
if dist < -noteRange:
|
||
|
ch[i] = v + 12 * ( abs(dist) / 12+1 )
|
||
|
if dist > noteRange:
|
||
|
ch[i] = v - 12 * ( abs(dist) / 12+1 )
|
||
|
|
||
|
|
||
|
return None
|
||
|
|
||
|
|
||
|
######## End of Chord class #####
|
||
|
|
||
|
|
||
|
|
||
|
def docs():
|
||
|
""" Print out a list of chord names and docs in LaTex. """
|
||
|
|
||
|
import copy
|
||
|
|
||
|
# Just in case someone else wants to use _chords, work on a copy
|
||
|
|
||
|
chords=copy.copy(_chords)
|
||
|
|
||
|
for n in sorted(chords.keys()):
|
||
|
nm=n.replace("#", '$\\sharp$')
|
||
|
nm=nm.replace('b', '$\\flat$')
|
||
|
print "\\insline{%s}{%s}" % (nm, chords[n][2])
|
||
|
|
||
|
|
||
|
|