Ejemplo n.º 1
0
def test_nonrealtime():
    at = 1.0
    until = 1.5
    pattern = GroupPattern(
        BusPattern(
            MonoEventPattern(frequency=SequencePattern([440, 550, 660]))))
    clock = OfflineClock()
    provider = Provider.nonrealtime()
    pattern.play(provider=provider, clock=clock, at=at, until=until)
    # Session should not map in_ or out, but use their bus numbers as consts.
    assert provider.session.to_strings(True) == normalize("""
        0.0:
            NODE TREE 0 group
        1.0:
            NODE TREE 0 group
                1000 group
                    1001 group
                        1003 default
                            amplitude: 0.1, frequency: 440.0, gate: 1.0, out: 16.0, pan: 0.5
                    1002 system_link_audio_1
                        done_action: 2.0, fade_time: 0.25, gate: 1.0, in_: 16.0, out: 0.0
        3.0:
            NODE TREE 0 group
                1000 group
                    1001 group
                        1003 default
                            amplitude: 0.1, frequency: 550.0, gate: 1.0, out: 16.0, pan: 0.5
                    1002 system_link_audio_1
                        done_action: 2.0, fade_time: 0.25, gate: 1.0, in_: 16.0, out: 0.0
        4.0:
            NODE TREE 0 group
                1000 group
                    1001 group
        4.5:
            NODE TREE 0 group
        """)
import pytest

from supriya.patterns import SequencePattern, UnaryOpPattern
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, operator, input_, expected, is_infinite",
    [
        (None, "-", 1, [-1], True),
        (None, "-", [1], [(-1, )], True),
        (None, "-", [[1]], [((-1, ), )], True),
        (None, "-", [[[1]]], [(((-1, ), ), )], True),
        (None, "-", [1, 2], [(-1, -2)], True),
        (None, "-", SequencePattern([1, 2, 3]), [-1, -2, -3], False),
        (None, "-", SequencePattern([1, 2, 3], None), [-1, -2, -3], True),
    ],
)
def test(stop_at, operator, input_, expected, is_infinite):
    pattern = UnaryOpPattern(operator, input_)
    run_pattern_test(pattern, expected, is_infinite, stop_at)
import pytest

from supriya.patterns import EventPattern, NoteEvent, SequencePattern, UpdatePattern
from supriya.patterns.testutils import MockUUID as M
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, input_a, input_b1, input_b2, input_c, expected, is_infinite",
    [
        (
            None,
            SequencePattern([1, 2, 3]),
            SequencePattern([4, 5]),
            SequencePattern([7, 8, 9]),
            SequencePattern([10, 11]),
            [
                NoteEvent(M("A"), a=1, b=7, c=10),
                NoteEvent(M("B"), a=2, b=8, c=11)
            ],
            False,
        ),
        (
            None,
            SequencePattern([1, 2, 3], None),
            SequencePattern([4, 5], None),
            SequencePattern([7, 8, 9]),
            SequencePattern([10, 11]),
            [
                NoteEvent(M("A"), a=1, b=7, c=10),
                NoteEvent(M("B"), a=2, b=8, c=11)
import pytest

from supriya.patterns import BinaryOpPattern, SequencePattern
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, operator, input_a, input_b, expected, is_infinite",
    [
        (None, "+", 1, 7, [8], True),
        (None, "+", [1], 7, [(8, )], True),
        (None, "+", [1], [7], [(8, )], True),
        (None, "+", [[1]], [7], [((8, ), )], True),
        (None, "+", [[[1]]], [7], [(((8, ), ), )], True),
        (None, "+", [1, 2], [7, 8], [(8, 10)], True),
        (None, "+", [1, 2], [7, 8, 10], [(8, 10, 11)], True),
        (None, "*", SequencePattern([1, 2, 3]), 4, [4, 8, 12], False),
        (None, "*", SequencePattern([1, 2, 3], None), 4, [4, 8, 12], True),
    ],
)
def test(stop_at, operator, input_a, input_b, expected, is_infinite):
    pattern = BinaryOpPattern(operator, input_a, input_b)
    run_pattern_test(pattern, expected, is_infinite, stop_at)
Ejemplo n.º 5
0
import operator

import pytest

from supriya.patterns import BinaryOpPattern, SequencePattern, UnaryOpPattern


@pytest.mark.parametrize(
    "op, expr_one, expr_two, expected",
    [
        (
            operator.add,
            23,
            SequencePattern([1, 2, 3]),
            BinaryOpPattern("+", 23, SequencePattern([1, 2, 3])),
        ),
        (
            operator.add,
            SequencePattern([1, 2, 3]),
            23,
            BinaryOpPattern("+", SequencePattern([1, 2, 3]), 23),
        ),
        (
            operator.floordiv,
            23,
            SequencePattern([1, 2, 3]),
            BinaryOpPattern("//", 23, SequencePattern([1, 2, 3])),
        ),
        (
            operator.floordiv,
            SequencePattern([1, 2, 3]),
Ejemplo n.º 6
0
    GroupPattern,
    NodeFreeEvent,
    NoteEvent,
    NullEvent,
    SequencePattern,
)
from supriya.patterns.testutils import MockUUID as M
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, inner_pattern, release_time, expected, is_infinite",
    [
        (
            None,
            EventPattern(a=SequencePattern([1, 2])),
            0.0,
            [
                CompositeEvent([GroupAllocateEvent(M("A"), delta=0.0)]),
                NoteEvent(M("B"), a=1, target_node=M("A")),
                NoteEvent(M("C"), a=2, target_node=M("A")),
                CompositeEvent([NodeFreeEvent(M("A"), delta=0.0)]),
            ],
            False,
        ),
        (
            None,
            EventPattern(a=SequencePattern([1, 2])),
            0.25,
            [
                CompositeEvent([GroupAllocateEvent(M("A"), delta=0.0)]),
Ejemplo n.º 7
0
import pytest
from uqbar.iterables import nwise

from supriya.patterns import ChoicePattern, SequencePattern


@pytest.mark.parametrize(
    "sequence, iterations, forbid_repetitions, weights, is_infinite",
    [
        ([1, 2, 3], 1, False, None, False),
        ([1, 2, 3], 1, True, None, False),
        ([1, 2, 3], None, False, None, True),
        ([1, 2, 3], None, True, None, True),
        ([1, 2, 3], None, True, [1, 2, 1], True),
        (
            [SequencePattern(["a", "b"]),
             SequencePattern(["c", "d"])],
            None,
            False,
            None,
            True,
        ),
    ],
)
def test(sequence, iterations, forbid_repetitions, weights, is_infinite):
    pattern = ChoicePattern(
        sequence,
        iterations=iterations,
        forbid_repetitions=forbid_repetitions,
        weights=weights,
    )
Ejemplo n.º 8
0
import pytest

from supriya.patterns import MonoEventPattern, NoteEvent, SequencePattern
from supriya.patterns.testutils import MockUUID as M
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, input_a, input_b, expected, is_infinite",
    [
        (
            None,
            SequencePattern([1, 2, 3], None),
            SequencePattern([4, 5], None),
            [
                NoteEvent(M("A"), a=1, b=4),
                NoteEvent(M("A"), a=2, b=5),
                NoteEvent(M("A"), a=3, b=4),
                NoteEvent(M("A"), a=1, b=5),
                NoteEvent(M("A"), a=2, b=4),
                NoteEvent(M("A"), a=3, b=5),
            ],
            True,
        ),
        (
            None,
            SequencePattern([1, 2, 3], None),
            SequencePattern([4, 5], 1),
            [NoteEvent(M("A"), a=1, b=4),
             NoteEvent(M("A"), a=2, b=5)],
            False,
Ejemplo n.º 9
0
    BusPattern,
    EventPattern,
    GroupPattern,
    MonoEventPattern,
    ParallelPattern,
    SequencePattern,
)
from supriya.providers import BusGroupProxy, GroupProxy, Provider, SynthProxy


@pytest.mark.parametrize(
    "pattern, until, expected",
    [
        (
            SequencePattern([
                EventPattern(frequency=SequencePattern([440, 550, 660])),
                MonoEventPattern(frequency=SequencePattern([440, 550, 660])),
            ]),
            None,
            lambda provider: [
                call.at(0.0),
                call.add_synth(
                    add_action=AddAction.ADD_TO_HEAD,
                    synthdef=None,
                    target_node=None,
                    frequency=440,
                ),
                call.at(2.0),
                call.add_synth(
                    add_action=AddAction.ADD_TO_HEAD,
                    synthdef=None,
                    target_node=None,
def test___init__(sequence, iterations, raises):
    if raises:
        with pytest.raises(raises):
            SequencePattern(sequence, iterations)
    else:
        SequencePattern(sequence, iterations)
def test(stop_at, sequence, iterations, expected, is_infinite):
    pattern = SequencePattern(sequence, iterations=iterations)
    run_pattern_test(pattern, expected, is_infinite, stop_at)
import pytest

from supriya.patterns import SequencePattern
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, sequence, iterations, expected, is_infinite",
    [
        (None, [1, 2, 3], None, [1, 2, 3], True),
        (None, [1, 2, 3], 1, [1, 2, 3], False),
        (None, [1, 2, 3], 2, [1, 2, 3, 1, 2, 3], False),
        (None, [1, 2, 3, SequencePattern(["a", "b"])], 1, [1, 2, 3, "a", "b"], False),
        (
            None,
            [1, 2, 3, SequencePattern(["a", "b"], None)],
            1,
            [1, 2, 3, "a", "b"],
            True,
        ),
        (
            None,
            [SequencePattern([1, 2, 3]), SequencePattern(["a", "b"])],
            1,
            [1, 2, 3, "a", "b"],
            False,
        ),
        (
            None,
            [SequencePattern([1, 2, 3]), SequencePattern(["a", "b"])],
            2,
import pytest

from supriya.patterns import ChoicePattern, SeedPattern, SequencePattern
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, pattern, expected, is_infinite",
    [
        (None, SequencePattern([1, 2, 3, 4]), [1, 2, 3, 4], False),
        (1, SequencePattern([1, 2, 3, 4]), [1], False),
    ],
)
def test(stop_at, pattern, expected, is_infinite):
    pattern = SeedPattern(pattern)
    run_pattern_test(pattern, expected, is_infinite, stop_at)


def test_random():
    pattern = ChoicePattern([1, 2, 3])
    assert len(set(tuple(pattern) for _ in range(10))) > 1
    pattern = SeedPattern(ChoicePattern([1, 2, 3]))
    assert len(set(tuple(pattern) for _ in range(10))) == 1
Ejemplo n.º 14
0
    NoteEvent,
    NullEvent,
    ParallelPattern,
    SequencePattern,
)
from supriya.patterns.testutils import MockUUID as M
from supriya.patterns.testutils import run_pattern_test


@pytest.mark.parametrize(
    "stop_at, patterns, expected, is_infinite",
    [
        (
            None,
            [
                EventPattern(frequency=SequencePattern([440, 550, 660])),
                EventPattern(frequency=SequencePattern([777, 888, 999])),
            ],
            [
                CompositeEvent(
                    [
                        NoteEvent(M("A"), delta=0.0, frequency=440),
                        NoteEvent(M("B"), delta=0.0, frequency=777),
                    ],
                    delta=1.0,
                ),
                CompositeEvent(
                    [
                        NoteEvent(M("C"), delta=0.0, frequency=550),
                        NoteEvent(M("D"), delta=0.0, frequency=888),
                    ],