aiexperiments-ai-duet/server/third_party/magenta/music/sequences_lib_test.py

# Copyright 2016 Google Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#    http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Tests for sequences_lib."""

import copy

# internal imports
import tensorflow as tf

from magenta.common import testing_lib as common_testing_lib
from magenta.music import sequences_lib
from magenta.music import testing_lib
from magenta.protobuf import music_pb2


class SequencesLibTest(tf.test.TestCase):

  def setUp(self):
    self.steps_per_quarter = 4
    self.note_sequence = common_testing_lib.parse_test_proto(
        music_pb2.NoteSequence,
        """
        time_signatures: {
          numerator: 4
          denominator: 4}
        tempos: {
          qpm: 60}""")
    self.expected_quantized_sequence = sequences_lib.QuantizedSequence()
    self.expected_quantized_sequence.qpm = 60.0
    self.expected_quantized_sequence.steps_per_quarter = self.steps_per_quarter

  def testEq(self):
    left_hand = sequences_lib.QuantizedSequence()
    left_hand.qpm = 123.0
    left_hand.steps_per_quarter = 7
    left_hand.time_signature = sequences_lib.TimeSignature(7, 8)
    testing_lib.add_quantized_track(
        left_hand, 0,
        [(12, 100, 0, 40), (11, 100, 1, 2)])
    testing_lib.add_quantized_track(
        left_hand, 2,
        [(55, 100, 4, 6), (14, 120, 4, 10)])
    testing_lib.add_quantized_track(
        left_hand, 3,
        [(1, 10, 0, 6), (2, 50, 20, 21), (0, 101, 17, 21)])
    testing_lib.add_quantized_chords(
        left_hand, [('Cmaj7', 1), ('G9', 2)])
    right_hand = sequences_lib.QuantizedSequence()
    right_hand.qpm = 123.0
    right_hand.steps_per_quarter = 7
    right_hand.time_signature = sequences_lib.TimeSignature(7, 8)
    testing_lib.add_quantized_track(
        right_hand, 0,
        [(11, 100, 1, 2), (12, 100, 0, 40)])
    testing_lib.add_quantized_track(
        right_hand, 2,
        [(14, 120, 4, 10), (55, 100, 4, 6)])
    testing_lib.add_quantized_track(
        right_hand, 3,
        [(0, 101, 17, 21), (2, 50, 20, 21), (1, 10, 0, 6)])
    testing_lib.add_quantized_chords(
        right_hand, [('G9', 2), ('Cmaj7', 1)])
    self.assertEqual(left_hand, right_hand)

  def testNotEq(self):
    left_hand = sequences_lib.QuantizedSequence()
    left_hand.bpm = 123.0
    left_hand.steps_per_beat = 7
    left_hand.time_signature = sequences_lib.TimeSignature(7, 8)
    testing_lib.add_quantized_track(
        left_hand, 0,
        [(12, 100, 0, 40), (11, 100, 1, 2)])
    testing_lib.add_quantized_track(
        left_hand, 2,
        [(55, 100, 4, 6), (15, 120, 4, 10)])
    testing_lib.add_quantized_track(
        left_hand, 3,
        [(1, 10, 0, 6), (2, 50, 20, 21), (0, 101, 17, 21)])
    testing_lib.add_quantized_chords(
        left_hand, [('Cmaj7', 1), ('G9', 2)])
    right_hand = sequences_lib.QuantizedSequence()
    right_hand.bpm = 123.0
    right_hand.steps_per_beat = 7
    right_hand.time_signature = sequences_lib.TimeSignature(7, 8)
    testing_lib.add_quantized_track(
        right_hand, 0,
        [(11, 100, 1, 2), (12, 100, 0, 40)])
    testing_lib.add_quantized_track(
        right_hand, 2,
        [(14, 120, 4, 10), (55, 100, 4, 6)])
    testing_lib.add_quantized_track(
        right_hand, 3,
        [(0, 101, 17, 21), (2, 50, 20, 21), (1, 10, 0, 6)])
    testing_lib.add_quantized_chords(
        right_hand, [('G9', 2), ('C7', 1)])
    self.assertNotEqual(left_hand, right_hand)

  def testFromNoteSequence(self):
    testing_lib.add_track(
        self.note_sequence, 0,
        [(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),
         (55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])
    testing_lib.add_chords(
        self.note_sequence,
        [('B7', 0.22), ('Em9', 4.0)])
    testing_lib.add_quantized_track(
        self.expected_quantized_sequence, 0,
        [(12, 100, 0, 40), (11, 55, 1, 2), (40, 45, 10, 14),
         (55, 120, 16, 17), (52, 99, 19, 20)])
    testing_lib.add_quantized_chords(
        self.expected_quantized_sequence,
        [('B7', 1), ('Em9', 16)])
    quantized = sequences_lib.QuantizedSequence()
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)
    self.assertEqual(self.expected_quantized_sequence, quantized)

  def testFromNoteSequence_TimeSignatureChange(self):
    testing_lib.add_track(
        self.note_sequence, 0,
        [(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),
         (55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])
    del self.note_sequence.time_signatures[:]
    quantized = sequences_lib.QuantizedSequence()
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)

    # Single time signature.
    self.note_sequence.time_signatures.add(numerator=4, denominator=4)
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)

    # Multiple time signatures with no change.
    self.note_sequence.time_signatures.add(numerator=4, denominator=4)
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)

    # Time signature change.
    self.note_sequence.time_signatures.add(numerator=2, denominator=4)
    with self.assertRaises(sequences_lib.MultipleTimeSignatureException):
      quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)

  def testRounding(self):
    testing_lib.add_track(
        self.note_sequence, 1,
        [(12, 100, 0.01, 0.24), (11, 100, 0.22, 0.55), (40, 100, 0.50, 0.75),
         (41, 100, 0.689, 1.18), (44, 100, 1.19, 1.69), (55, 100, 4.0, 4.01)])
    testing_lib.add_quantized_track(
        self.expected_quantized_sequence, 1,
        [(12, 100, 0, 1), (11, 100, 1, 2), (40, 100, 2, 3),
         (41, 100, 3, 5), (44, 100, 5, 7), (55, 100, 16, 17)])
    quantized = sequences_lib.QuantizedSequence()
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)
    self.assertEqual(self.expected_quantized_sequence, quantized)

  def testMultiTrack(self):
    testing_lib.add_track(
        self.note_sequence, 0,
        [(12, 100, 1.0, 4.0), (19, 100, 0.95, 3.0)])
    testing_lib.add_track(
        self.note_sequence, 3,
        [(12, 100, 1.0, 4.0), (19, 100, 2.0, 5.0)])
    testing_lib.add_track(
        self.note_sequence, 7,
        [(12, 100, 1.0, 5.0), (19, 100, 2.0, 4.0), (24, 100, 3.0, 3.5)])
    testing_lib.add_quantized_track(
        self.expected_quantized_sequence, 0,
        [(12, 100, 4, 16), (19, 100, 4, 12)])
    testing_lib.add_quantized_track(
        self.expected_quantized_sequence, 3,
        [(12, 100, 4, 16), (19, 100, 8, 20)])
    testing_lib.add_quantized_track(
        self.expected_quantized_sequence, 7,
        [(12, 100, 4, 20), (19, 100, 8, 16), (24, 100, 12, 14)])
    quantized = sequences_lib.QuantizedSequence()
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)
    self.assertEqual(self.expected_quantized_sequence, quantized)

  def testStepsPerBar(self):
    quantized = sequences_lib.QuantizedSequence()
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)
    self.assertEqual(16, quantized.steps_per_bar())

    self.note_sequence.time_signatures[0].numerator = 6
    self.note_sequence.time_signatures[0].denominator = 8
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)
    self.assertEqual(12.0, quantized.steps_per_bar())

  def testDeepcopy(self):
    quantized = sequences_lib.QuantizedSequence()
    testing_lib.add_track(
        self.note_sequence, 0,
        [(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),
         (55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])
    quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)

    quantized_copy = copy.deepcopy(quantized)
    self.assertEqual(quantized, quantized_copy)

    testing_lib.add_quantized_track(
        quantized, 1,
        [(12, 100, 4, 20), (19, 100, 8, 16), (24, 100, 12, 14)])

    self.assertNotEqual(quantized, quantized_copy)


if __name__ == '__main__':
  tf.test.main()
server 2016-11-11 18:53:51 +00:00			`# Copyright 2016 Google Inc. All Rights Reserved.`
			`#`
			`# Licensed under the Apache License, Version 2.0 (the "License");`
			`# you may not use this file except in compliance with the License.`
			`# You may obtain a copy of the License at`
			`#`
			`# http://www.apache.org/licenses/LICENSE-2.0`
			`#`
			`# Unless required by applicable law or agreed to in writing, software`
			`# distributed under the License is distributed on an "AS IS" BASIS,`
			`# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`# See the License for the specific language governing permissions and`
			`# limitations under the License.`
			`"""Tests for sequences_lib."""`

			`import copy`

			`# internal imports`
			`import tensorflow as tf`

			`from magenta.common import testing_lib as common_testing_lib`
			`from magenta.music import sequences_lib`
			`from magenta.music import testing_lib`
			`from magenta.protobuf import music_pb2`


			`class SequencesLibTest(tf.test.TestCase):`

			`def setUp(self):`
			`self.steps_per_quarter = 4`
			`self.note_sequence = common_testing_lib.parse_test_proto(`
			`music_pb2.NoteSequence,`
			`"""`
			`time_signatures: {`
			`numerator: 4`
			`denominator: 4}`
			`tempos: {`
			`qpm: 60}""")`
			`self.expected_quantized_sequence = sequences_lib.QuantizedSequence()`
			`self.expected_quantized_sequence.qpm = 60.0`
			`self.expected_quantized_sequence.steps_per_quarter = self.steps_per_quarter`

			`def testEq(self):`
			`left_hand = sequences_lib.QuantizedSequence()`
			`left_hand.qpm = 123.0`
			`left_hand.steps_per_quarter = 7`
			`left_hand.time_signature = sequences_lib.TimeSignature(7, 8)`
			`testing_lib.add_quantized_track(`
			`left_hand, 0,`
			`[(12, 100, 0, 40), (11, 100, 1, 2)])`
			`testing_lib.add_quantized_track(`
			`left_hand, 2,`
			`[(55, 100, 4, 6), (14, 120, 4, 10)])`
			`testing_lib.add_quantized_track(`
			`left_hand, 3,`
			`[(1, 10, 0, 6), (2, 50, 20, 21), (0, 101, 17, 21)])`
			`testing_lib.add_quantized_chords(`
			`left_hand, [('Cmaj7', 1), ('G9', 2)])`
			`right_hand = sequences_lib.QuantizedSequence()`
			`right_hand.qpm = 123.0`
			`right_hand.steps_per_quarter = 7`
			`right_hand.time_signature = sequences_lib.TimeSignature(7, 8)`
			`testing_lib.add_quantized_track(`
			`right_hand, 0,`
			`[(11, 100, 1, 2), (12, 100, 0, 40)])`
			`testing_lib.add_quantized_track(`
			`right_hand, 2,`
			`[(14, 120, 4, 10), (55, 100, 4, 6)])`
			`testing_lib.add_quantized_track(`
			`right_hand, 3,`
			`[(0, 101, 17, 21), (2, 50, 20, 21), (1, 10, 0, 6)])`
			`testing_lib.add_quantized_chords(`
			`right_hand, [('G9', 2), ('Cmaj7', 1)])`
			`self.assertEqual(left_hand, right_hand)`

			`def testNotEq(self):`
			`left_hand = sequences_lib.QuantizedSequence()`
			`left_hand.bpm = 123.0`
			`left_hand.steps_per_beat = 7`
			`left_hand.time_signature = sequences_lib.TimeSignature(7, 8)`
			`testing_lib.add_quantized_track(`
			`left_hand, 0,`
			`[(12, 100, 0, 40), (11, 100, 1, 2)])`
			`testing_lib.add_quantized_track(`
			`left_hand, 2,`
			`[(55, 100, 4, 6), (15, 120, 4, 10)])`
			`testing_lib.add_quantized_track(`
			`left_hand, 3,`
			`[(1, 10, 0, 6), (2, 50, 20, 21), (0, 101, 17, 21)])`
			`testing_lib.add_quantized_chords(`
			`left_hand, [('Cmaj7', 1), ('G9', 2)])`
			`right_hand = sequences_lib.QuantizedSequence()`
			`right_hand.bpm = 123.0`
			`right_hand.steps_per_beat = 7`
			`right_hand.time_signature = sequences_lib.TimeSignature(7, 8)`
			`testing_lib.add_quantized_track(`
			`right_hand, 0,`
			`[(11, 100, 1, 2), (12, 100, 0, 40)])`
			`testing_lib.add_quantized_track(`
			`right_hand, 2,`
			`[(14, 120, 4, 10), (55, 100, 4, 6)])`
			`testing_lib.add_quantized_track(`
			`right_hand, 3,`
			`[(0, 101, 17, 21), (2, 50, 20, 21), (1, 10, 0, 6)])`
			`testing_lib.add_quantized_chords(`
			`right_hand, [('G9', 2), ('C7', 1)])`
			`self.assertNotEqual(left_hand, right_hand)`

			`def testFromNoteSequence(self):`
			`testing_lib.add_track(`
			`self.note_sequence, 0,`
			`[(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),`
			`(55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])`
			`testing_lib.add_chords(`
			`self.note_sequence,`
			`[('B7', 0.22), ('Em9', 4.0)])`
			`testing_lib.add_quantized_track(`
			`self.expected_quantized_sequence, 0,`
			`[(12, 100, 0, 40), (11, 55, 1, 2), (40, 45, 10, 14),`
			`(55, 120, 16, 17), (52, 99, 19, 20)])`
			`testing_lib.add_quantized_chords(`
			`self.expected_quantized_sequence,`
			`[('B7', 1), ('Em9', 16)])`
			`quantized = sequences_lib.QuantizedSequence()`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`
			`self.assertEqual(self.expected_quantized_sequence, quantized)`

			`def testFromNoteSequence_TimeSignatureChange(self):`
			`testing_lib.add_track(`
			`self.note_sequence, 0,`
			`[(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),`
			`(55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])`
			`del self.note_sequence.time_signatures[:]`
			`quantized = sequences_lib.QuantizedSequence()`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`

			`# Single time signature.`
			`self.note_sequence.time_signatures.add(numerator=4, denominator=4)`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`

			`# Multiple time signatures with no change.`
			`self.note_sequence.time_signatures.add(numerator=4, denominator=4)`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`

			`# Time signature change.`
			`self.note_sequence.time_signatures.add(numerator=2, denominator=4)`
			`with self.assertRaises(sequences_lib.MultipleTimeSignatureException):`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`

			`def testRounding(self):`
			`testing_lib.add_track(`
			`self.note_sequence, 1,`
			`[(12, 100, 0.01, 0.24), (11, 100, 0.22, 0.55), (40, 100, 0.50, 0.75),`
			`(41, 100, 0.689, 1.18), (44, 100, 1.19, 1.69), (55, 100, 4.0, 4.01)])`
			`testing_lib.add_quantized_track(`
			`self.expected_quantized_sequence, 1,`
			`[(12, 100, 0, 1), (11, 100, 1, 2), (40, 100, 2, 3),`
			`(41, 100, 3, 5), (44, 100, 5, 7), (55, 100, 16, 17)])`
			`quantized = sequences_lib.QuantizedSequence()`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`
			`self.assertEqual(self.expected_quantized_sequence, quantized)`

			`def testMultiTrack(self):`
			`testing_lib.add_track(`
			`self.note_sequence, 0,`
			`[(12, 100, 1.0, 4.0), (19, 100, 0.95, 3.0)])`
			`testing_lib.add_track(`
			`self.note_sequence, 3,`
			`[(12, 100, 1.0, 4.0), (19, 100, 2.0, 5.0)])`
			`testing_lib.add_track(`
			`self.note_sequence, 7,`
			`[(12, 100, 1.0, 5.0), (19, 100, 2.0, 4.0), (24, 100, 3.0, 3.5)])`
			`testing_lib.add_quantized_track(`
			`self.expected_quantized_sequence, 0,`
			`[(12, 100, 4, 16), (19, 100, 4, 12)])`
			`testing_lib.add_quantized_track(`
			`self.expected_quantized_sequence, 3,`
			`[(12, 100, 4, 16), (19, 100, 8, 20)])`
			`testing_lib.add_quantized_track(`
			`self.expected_quantized_sequence, 7,`
			`[(12, 100, 4, 20), (19, 100, 8, 16), (24, 100, 12, 14)])`
			`quantized = sequences_lib.QuantizedSequence()`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`
			`self.assertEqual(self.expected_quantized_sequence, quantized)`

			`def testStepsPerBar(self):`
			`quantized = sequences_lib.QuantizedSequence()`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`
			`self.assertEqual(16, quantized.steps_per_bar())`

			`self.note_sequence.time_signatures[0].numerator = 6`
			`self.note_sequence.time_signatures[0].denominator = 8`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`
			`self.assertEqual(12.0, quantized.steps_per_bar())`

			`def testDeepcopy(self):`
			`quantized = sequences_lib.QuantizedSequence()`
			`testing_lib.add_track(`
			`self.note_sequence, 0,`
			`[(12, 100, 0.01, 10.0), (11, 55, 0.22, 0.50), (40, 45, 2.50, 3.50),`
			`(55, 120, 4.0, 4.01), (52, 99, 4.75, 5.0)])`
			`quantized.from_note_sequence(self.note_sequence, self.steps_per_quarter)`

			`quantized_copy = copy.deepcopy(quantized)`
			`self.assertEqual(quantized, quantized_copy)`

			`testing_lib.add_quantized_track(`
			`quantized, 1,`
			`[(12, 100, 4, 20), (19, 100, 8, 16), (24, 100, 12, 14)])`

			`self.assertNotEqual(quantized, quantized_copy)`


			`if __name__ == '__main__':`
			`tf.test.main()`