def testRagAsawari(self):
        sc = scale.RagAsawari('c4')
        self.assertEqual(str(sc.pitchFromDegree(1)), 'C4')

        #
        # ascending should be:  [C2, D2, F2, G2, A-2, C3]

        self.assertEqual(str(sc.nextPitch('c4', Direction.ASCENDING)), 'D4')
        self.assertEqual(self.pitchOut(sc.pitches),
                         '[C4, D4, F4, G4, A-4, C5]')
        # self.assertEqual(str(hs.pitchFromDegree(1)), 'G3')

        # noinspection PyArgumentList
        self.assertEqual(
            self.pitchOut(
                sc.getPitches('c2', 'c4', direction=Direction.ASCENDING)),
            '[C2, D2, F2, G2, A-2, C3, D3, F3, G3, A-3, C4]')

        # noinspection PyArgumentList
        self.assertEqual(
            self.pitchOut(
                sc.getPitches('c2', 'c4', direction=Direction.DESCENDING)),
            '[C4, B-3, A-3, G3, F3, E-3, D3, C3, B-2, A-2, G2, F2, E-2, D2, C2]'
        )

        self.assertEqual(str(sc.nextPitch('c1', Direction.ASCENDING)), 'D1')
        self.assertEqual(str(sc.nextPitch('d1', Direction.ASCENDING)), 'F1')
        self.assertEqual(str(sc.nextPitch('f1', Direction.DESCENDING)), 'E-1')

        self.assertEqual(
            str(
                sc.nextPitch('e-1',
                             Direction.ASCENDING,
                             getNeighbor=Direction.DESCENDING)), 'F1')

        self.assertEqual(str(sc.pitchFromDegree(1)), 'C1')
        # there is no third step in ascending form
        self.assertEqual(str(sc.pitchFromDegree(3)), 'None')
        self.assertEqual(
            str(sc.pitchFromDegree(3, direction=Direction.DESCENDING)), 'E-4')

        self.assertEqual(str(sc.pitchFromDegree(7)), 'None')
        self.assertEqual(
            str(sc.pitchFromDegree(7, direction=Direction.DESCENDING)), 'B-4')
Exemple #2
0
    def testScales01(self):
        from music21 import pitch

        #==== "fig-py01"

        # Providing a tonic makes this concrete
        sc1 = scale.MajorScale('g4')
        sc2 = scale.MajorScale('e-3')

        # Comparing Concrete and Abstract Scales
        assert (sc1 == sc2) == False
        assert (sc1.abstract == sc2.abstract) == True

        # Without arguments, getPitches() returns a single span
        assert common.pitchList(
            sc1.getPitches()) == '[G4, A4, B4, C5, D5, E5, F#5, G5]'
        assert common.pitchList(sc2.getPitches(
            'c2', 'c3')) == '[C2, D2, E-2, F2, G2, A-2, B-2, C3]'

        # As a Chord, Scale pitches gain additional functionality
        assert sc1.getChord().forteClass == '7-35'

        # Given a degree, get the pitch
        assert str(sc1.pitchFromDegree(5)) == 'D5'
        assert common.pitchList(
            sc2.pitchesFromScaleDegrees([7, 2], 'e-6',
                                        'e-9')) == '[F6, D7, F7, D8, F8, D9]'

        # Get a scale degree from a pitch
        assert sc1.getScaleDegreeFromPitch('d') == 5
        assert sc2.getScaleDegreeFromPitch('d') == 7

        # Get the next pitch given step directions
        match = [pitch.Pitch('g2')]
        for direction in [1, 1, 1, -2, 4, -1, 1, 1, 1]:
            # Append the next pitch based on the last-added pitch
            match.append(sc1.next(match[-1], direction))
        assert common.pitchList(
            match), '[G2, A2, B2, C3, A2, E3, D3, E3, F#3, G3]'

        # Derive new scales based on a provided collection or degree
        assert str(sc1.derive(['c4', 'g4', 'b8',
                               'f2'])) == '<music21.scale.MajorScale C major>'
        assert str(sc1.deriveByDegree(
            7, 'C#')) == '<music21.scale.MajorScale D major>'

        # Methods unique to DiatonicScale subclasses
        assert str(
            sc2.getRelativeMinor()) == '<music21.scale.MinorScale C minor>'
        #==== "fig-py01" end

        #==== "fig-py02"
        sc1 = scale.PhrygianScale('g4')
        assert common.pitchList(
            sc1.getPitches()) == '[G4, A-4, B-4, C5, D5, E-5, F5, G5]'
        assert str(
            sc1.getRelativeMajor()) == '<music21.scale.MajorScale E- major>'
        assert str(sc1.getTonic()), str(sc1.getDominant()) == ('G4', 'D5')

        sc2 = scale.HypodorianScale('a6')
        assert common.pitchList(sc2.getPitches(
            'e2', 'e3')) == '[E2, F#2, G2, A2, B2, C3, D3, E3]'
        assert str(
            sc2.getRelativeMajor()) == '<music21.scale.MajorScale G major>'
        assert str(sc2.getTonic()), str(sc2.getDominant()) == ('A6', 'C7')

        #==== "fig-py02" end

        #==== "fig-py06"
        # see below
        #==== "fig-py06" end

        #==== "fig-py03"
        #print('\n\nfig-py03')

        sc1 = scale.HarmonicMinorScale('a3')
        assert common.pitchList(
            sc1.getPitches()) == '[A3, B3, C4, D4, E4, F4, G#4, A4]'
        assert str(sc1.getTonic()), str(sc1.getDominant()) == ('A3', 'E4')

        s = stream.Stream()
        for d in [1, 3, 2, 1, 6, 5, 8, 7, 8]:
            s.append(
                note.Note(sc1.pitchFromDegree(d, equateTermini=False),
                          type='eighth'))
        #s.show()
        #==== "fig-py03" end

        #==== "fig-py04"
        import random

        sc1 = scale.MelodicMinorScale('c4')
        assert common.pitchList(sc1.getPitches(
            direction='ascending')) == '[C4, D4, E-4, F4, G4, A4, B4, C5]'
        assert common.pitchList(
            sc1.getPitches('c3', 'c5', direction='descending')) == (
                '[C5, B-4, A-4, G4, F4, E-4, D4, ' +
                'C4, B-3, A-3, G3, F3, E-3, D3, C3]')
        assert str(sc1.getTonic()), str(sc1.getDominant()) == ('C4', 'G4')

        s = stream.Stream()
        p = None
        for i in range(8):  # was 16, but sometimes exceeded scale length.
            direction = random.choice([-1, 1])
            for j in range(2):
                p = sc1.next(p, direction)
                s.append(note.Note(p, quarterLength=.25))
        #s.show()
        #==== "fig-py04" end

        #==== "fig-py05"
        sc1 = scale.OctatonicScale('e3', 'm2')
        assert common.pitchList(
            sc1.getPitches()) == '[E3, F3, G3, A-3, B-3, C-4, D-4, D4, E4]'
        sc2 = scale.OctatonicScale('e3', 'M2')
        assert common.pitchList(
            sc2.getPitches()) == '[E3, F#3, G3, A3, B-3, C4, D-4, E-4, F-4]'

        part1 = stream.Part()
        part2 = stream.Part()
        durPart1 = [1, 1, 0.5, 0.5, 1]
        durPart2 = [3, 1]
        degrees = list(range(1, 9))
        for unused in range(4):
            random.shuffle(degrees)
            random.shuffle(durPart1)
            random.shuffle(durPart2)
            i = 0
            for dur in durPart1:
                part1.append(
                    note.Note(sc2.pitchFromDegree(degrees[i]),
                              quarterLength=dur))
                i += 1
            for dur in durPart2:
                part2.append(
                    note.Note(sc2.pitchFromDegree(degrees[i],
                                                  minPitch='c2',
                                                  maxPitch='c3'),
                              quarterLength=dur))
                i += 1
        s = stream.Score()
        s.insert(0, part1)
        s.insert(0, part2)
        #s.show()

        # add notation example; perhaps create tri-chords from scale-completing selections
        #==== "fig-py05" end

        #sc = scale.SieveScale('c2', '(-3@2 & 4) | (-3@1 & 4@1) | (3@2 & 4@2) | (-3 & 4@3)')

        #==== "fig-py07"
        # add examples
        sc1 = scale.SieveScale('c4', '3@0|4@0')
        self.assertEqual(common.pitchList(sc1.getPitches()),
                         '[C4, E-4, E4, F#4, G#4, A4, C5]')

        sc2 = scale.SieveScale('c4', '5@0|7@0')
        self.assertEqual(
            common.pitchList(sc2.getPitches()),
            '[C4, F4, G4, B-4, D5, E-5, G#5, A5, C#6, E6, F#6, B6]')

        s = stream.Stream()
        pColection = sc2.getPitches('c3', 'c7')
        random.shuffle(pColection)
        for p in pColection:
            s.append(note.Note(p, type='16th'))
        #s.show()
        #==== "fig-py07" end

        #==== "fig-py08"

        sc1 = scale.RagAsawari('g3')
        self.assertEqual(
            common.pitchList(sc1.getPitches(direction='ascending')),
            '[G3, A3, C4, D4, E-4, G4]')
        self.assertEqual(
            common.pitchList(sc1.getPitches(direction='descending')),
            '[G4, F4, E-4, D4, C4, B-3, A3, G3]')

        sc2 = scale.RagMarwa('g3')
        assert common.pitchList(sc2.getPitches(direction='ascending')
                                ) == '[G3, A-3, B3, C#4, E4, F#4, E4, G4, A-4]'
        assert common.pitchList(
            sc2.getPitches(direction='descending'
                           )) == '[A-4, G4, A-4, F#4, E4, C#4, B3, A-3, G3]'

        p1 = None
        s = stream.Stream()
        for direction in ([1] * 10) + ([-1] * 8) + ([1] * 4) + ([-1] *
                                                                3) + ([1] * 4):
            p1 = sc1.next(p1, direction)
            s.append(note.Note(p1, quarterLength=.25))
        #s.show()

        p1 = None
        s = stream.Stream()
        for direction in ([1] * 10) + ([-1] * 8) + ([1] * 4) + ([-1] *
                                                                3) + ([1] * 4):
            p1 = sc2.next(p1, direction)
            s.append(note.Note(p1, quarterLength=.25))
        #s.show()

        #==== "fig-py08" end

        #==== "fig-py09"
        #import random
        sc1 = scale.WeightedHexatonicBlues('c3')
        p = 'c3'
        s = stream.Stream()
        for n in range(32):
            p = sc1.next(p, random.choice([-1, 1]))
            n = note.Note(p, quarterLength=random.choice([.5, .25, .25]))
            s.append(n)