ProjektAI/kelner/venv/Lib/site-packages/pygame/tests/mixer_test.py

# -*- coding: utf8 -*-

import sys
import os
import unittest
import platform

from pygame.tests.test_utils import example_path, AssertRaisesRegexMixin

import pygame
from pygame import mixer
from pygame.compat import unicode_, as_bytes, bytes_


IS_PYPY = 'PyPy' == platform.python_implementation()

################################### CONSTANTS ##################################

FREQUENCIES = [11025, 22050, 44100, 48000]
SIZES       = [-16, -8, 8, 16]
if pygame.get_sdl_version()[0] >= 2:
    SIZES.append(32)

CHANNELS    = [1, 2]
BUFFERS     = [3024]

CONFIGS = [{'frequency' : f, 'size' : s, 'channels': c}
           for f in FREQUENCIES
           for s in SIZES
           for c in CHANNELS]
# Using all CONFIGS fails on a Mac; probably older SDL_mixer; we could do:
# if platform.system() == 'Darwin':
# But using all CONFIGS is very slow (> 10 sec for example)
# And probably, we don't need to be so exhaustive, hence:

CONFIG = {'frequency' : 22050, 'size' : -16, 'channels' : 2} # base config
if pygame.get_sdl_version()[0] >= 2:
    CONFIG = {'frequency' : 44100, 'size' : 32, 'channels' : 2} # base config

############################## MODULE LEVEL TESTS ##############################

class MixerModuleTest(unittest.TestCase):

    def tearDown(self):
        mixer.quit()
        mixer.pre_init(0, 0, 0, 0)

    def test_init__keyword_args(self):
        # note: this test used to loop over all CONFIGS, but it's very slow..
        mixer.init(**CONFIG)
        mixer_conf = mixer.get_init()

        self.assertEqual(mixer_conf[0], CONFIG['frequency'])
        # Not all "sizes" are supported on all systems,  hence "abs".
        self.assertEqual(abs(mixer_conf[1]), abs(CONFIG['size']))
        self.assertEqual(mixer_conf[2], CONFIG['channels'])

    def test_pre_init__keyword_args(self):
        # note: this test used to loop over all CONFIGS, but it's very slow..
        mixer.pre_init(**CONFIG)
        mixer.init()

        mixer_conf = mixer.get_init()

        self.assertEqual(mixer_conf[0], CONFIG['frequency'])
        # Not all "sizes" are supported on all systems,  hence "abs".
        self.assertEqual(abs(mixer_conf[1]), abs(CONFIG['size']))
        self.assertEqual(mixer_conf[2], CONFIG['channels'])

    def test_pre_init__zero_values(self):
        # Ensure that argument values of 0 are replaced with
        # default values. No way to check buffer size though.
        mixer.pre_init(44100, -8, 1)  # Non default values
        mixer.pre_init(0, 0, 0)       # Should reset to default values
        mixer.init()
        self.assertEqual(mixer.get_init(), (22050, -16, 2))

    def test_init__zero_values(self):
        # Ensure that argument values of 0 are replaced with
        # preset values. No way to check buffer size though.
        mixer.pre_init(44100, 8, 1, allowedchanges=0)  # None default values
        mixer.init(0, 0, 0)
        self.assertEqual(mixer.get_init(), (44100, 8, 1))

    @unittest.skip('SDL_mixer bug')
    def test_get_init__returns_exact_values_used_for_init(self):
        # fix in 1.9 - I think it's a SDL_mixer bug.

        # TODO: When this bug is fixed, testing through every combination
        #       will be too slow so adjust as necessary, at the moment it
        #       breaks the loop after first failure

        for init_conf in CONFIGS:
            frequency, size, channels
            if (frequency, size) == (22050, 16):
                continue
            mixer.init(frequency, size, channels)

            mixer_conf = mixer.get_init()

            self.assertEqual(init_conf, mixer_conf)
            mixer.quit()

    def test_get_init__returns_None_if_mixer_not_initialized(self):
        self.assertIsNone(mixer.get_init())

    def test_get_num_channels__defaults_eight_after_init(self):
        mixer.init()
        self.assertEqual(mixer.get_num_channels(), 8)

    def test_set_num_channels(self):
        mixer.init()

        default_num_channels = mixer.get_num_channels()
        for i in range(1, default_num_channels + 1):
            mixer.set_num_channels(i)
            self.assertEqual(mixer.get_num_channels(), i)

    def test_quit(self):
        """ get_num_channels() Should throw pygame.error if uninitialized
        after mixer.quit() """
        mixer.init()
        mixer.quit()
        self.assertRaises(pygame.error, mixer.get_num_channels)

    def test_sound_args(self):
        def get_bytes(snd):
            return snd.get_raw()
        mixer.init()

        sample = as_bytes('\x00\xff') * 24
        wave_path = example_path(os.path.join('data', 'house_lo.wav'))
        uwave_path = unicode_(wave_path)
        bwave_path = uwave_path.encode(sys.getfilesystemencoding())
        snd = mixer.Sound(file=wave_path)
        self.assertTrue(snd.get_length() > 0.5)
        snd_bytes = get_bytes(snd)
        self.assertTrue(len(snd_bytes) > 1000)
        self.assertEqual(get_bytes(mixer.Sound(wave_path)), snd_bytes)
        self.assertEqual(get_bytes(mixer.Sound(file=uwave_path)), snd_bytes)
        self.assertEqual(get_bytes(mixer.Sound(uwave_path)), snd_bytes)
        arg_emsg = 'Sound takes either 1 positional or 1 keyword argument'

        with self.assertRaises(TypeError) as cm:
            mixer.Sound()
        self.assertEqual(str(cm.exception), arg_emsg)
        with self.assertRaises(TypeError) as cm:
            mixer.Sound(wave_path, buffer=sample)
        self.assertEqual(str(cm.exception), arg_emsg)
        with self.assertRaises(TypeError) as cm:
            mixer.Sound(sample, file=wave_path)
        self.assertEqual(str(cm.exception), arg_emsg)
        with self.assertRaises(TypeError) as cm:
            mixer.Sound(buffer=sample, file=wave_path)
        self.assertEqual(str(cm.exception), arg_emsg)

        with self.assertRaises(TypeError) as cm:
            mixer.Sound(foobar=sample)
        self.assertEqual(str(cm.exception),
                         "Unrecognized keyword argument 'foobar'")

        snd = mixer.Sound(wave_path, **{})
        self.assertEqual(get_bytes(snd), snd_bytes)
        snd = mixer.Sound(*[], **{'file': wave_path})

        with self.assertRaises(TypeError) as cm:
            mixer.Sound([])
        self.assertEqual(str(cm.exception),
                         'Unrecognized argument (type list)')

        with self.assertRaises(TypeError) as cm:
            snd = mixer.Sound(buffer=[])
        emsg = 'Expected object with buffer interface: got a list'
        self.assertEqual(str(cm.exception), emsg)

        ufake_path = unicode_('12345678')
        self.assertRaises(IOError, mixer.Sound, ufake_path)
        self.assertRaises(IOError, mixer.Sound, '12345678')

        with self.assertRaises(TypeError) as cm:
            mixer.Sound(buffer=unicode_('something'))
        emsg = 'Unicode object not allowed as buffer object'
        self.assertEqual(str(cm.exception), emsg)
        self.assertEqual(get_bytes(mixer.Sound(buffer=sample)), sample)
        if type(sample) != str:
            somebytes = get_bytes(mixer.Sound(sample))
            # on python 2 we do not allow using string except as file name.
            self.assertEqual(somebytes, sample)
        self.assertEqual(get_bytes(mixer.Sound(file=bwave_path)), snd_bytes)
        self.assertEqual(get_bytes(mixer.Sound(bwave_path)), snd_bytes)

        snd = mixer.Sound(wave_path)
        with self.assertRaises(TypeError) as cm:
            mixer.Sound(wave_path, array=snd)
        self.assertEqual(str(cm.exception), arg_emsg)
        with self.assertRaises(TypeError) as cm:
            mixer.Sound(buffer=sample, array=snd)
        self.assertEqual(str(cm.exception), arg_emsg)
        snd2 = mixer.Sound(array=snd)
        self.assertEqual(snd.get_raw(), snd2.get_raw())

    def test_sound_unicode(self):
        """test non-ASCII unicode path"""
        mixer.init()
        import shutil
        ep = unicode_(example_path('data'))
        temp_file = os.path.join(ep, u'你好.wav')
        org_file = os.path.join(ep, u'house_lo.wav')
        shutil.copy(org_file, temp_file)
        try:
            with open(temp_file, 'rb') as f:
                pass
        except IOError:
            raise unittest.SkipTest('the path cannot be opened')

        try:
            sound = mixer.Sound(temp_file)
            del sound
        finally:
            os.remove(temp_file)

    @unittest.skipIf(os.environ.get('SDL_AUDIODRIVER') == 'disk',
                    'this test fails without real sound card')
    def test_array_keyword(self):
        try:
            from numpy import (array, arange, zeros,
                               int8, uint8,
                               int16, uint16,
                               int32, uint32)
        except ImportError:
            self.skipTest('requires numpy')

        freq = 22050
        format_list = [-8, 8, -16, 16]
        channels_list = [1, 2]

        a_lists = dict((f, []) for f in format_list)
        a32u_mono = arange(0, 256, 1, uint32)
        a16u_mono = a32u_mono.astype(uint16)
        a8u_mono = a32u_mono.astype(uint8)
        au_list_mono = [(1, a) for a in [a8u_mono, a16u_mono, a32u_mono]]
        for format in format_list:
            if format > 0:
                a_lists[format].extend(au_list_mono)
        a32s_mono = arange(-128, 128, 1, int32)
        a16s_mono = a32s_mono.astype(int16)
        a8s_mono = a32s_mono.astype(int8)
        as_list_mono = [(1, a) for a in [a8s_mono, a16s_mono, a32s_mono]]
        for format in format_list:
            if format < 0:
                a_lists[format].extend(as_list_mono)
        a32u_stereo = zeros([a32u_mono.shape[0], 2], uint32)
        a32u_stereo[:,0] = a32u_mono
        a32u_stereo[:,1] = 255 - a32u_mono
        a16u_stereo = a32u_stereo.astype(uint16)
        a8u_stereo = a32u_stereo.astype(uint8)
        au_list_stereo = [(2, a)
                          for a in [a8u_stereo, a16u_stereo, a32u_stereo]]
        for format in format_list:
            if format > 0:
                a_lists[format].extend(au_list_stereo)
        a32s_stereo = zeros([a32s_mono.shape[0], 2], int32)
        a32s_stereo[:,0] = a32s_mono
        a32s_stereo[:,1] = -1 - a32s_mono
        a16s_stereo = a32s_stereo.astype(int16)
        a8s_stereo = a32s_stereo.astype(int8)
        as_list_stereo = [(2, a)
                          for a in [a8s_stereo, a16s_stereo, a32s_stereo]]
        for format in format_list:
            if format < 0:
                a_lists[format].extend(as_list_stereo)

        for format in format_list:
            for channels in channels_list:
                try:
                    mixer.init(freq, format, channels)
                except pygame.error:
                    # Some formats (e.g. 16) may not be supported.
                    continue
                try:
                    __, f, c = mixer.get_init()
                    if f != format or c != channels:
                        # Some formats (e.g. -8) may not be supported.
                        continue
                    for c, a in a_lists[format]:
                        self._test_array_argument(format, a, c == channels)
                finally:
                    mixer.quit()

    def _test_array_argument(self, format, a, test_pass):
        from numpy import array, all as all_

        try:
            snd = mixer.Sound(array=a)
        except ValueError:
            if not test_pass:
                return
            self.fail("Raised ValueError: Format %i, dtype %s" %
                      (format, a.dtype))
        if not test_pass:
            self.fail("Did not raise ValueError: Format %i, dtype %s" %
                      (format, a.dtype))
        a2 = array(snd)
        a3 = a.astype(a2.dtype)
        lshift = abs(format) - 8 * a.itemsize
        if lshift >= 0:
            # This is asymmetric with respect to downcasting.
            a3 <<= lshift
        self.assertTrue(all_(a2 == a3),
                     "Format %i, dtype %s" % (format, a.dtype))

    def _test_array_interface_fail(self, a):
        self.assertRaises(ValueError, mixer.Sound, array=a)

    def test_array_interface(self):
        mixer.init(22050, -16, 1, allowedchanges=0)
        snd = mixer.Sound(buffer=as_bytes('\x00\x7f') * 20)
        d = snd.__array_interface__
        self.assertTrue(isinstance(d, dict))
        if pygame.get_sdl_byteorder() == pygame.LIL_ENDIAN:
            typestr = '<i2'
        else:
            typestr = '>i2'
        self.assertEqual(d['typestr'], typestr)
        self.assertEqual(d['shape'], (20,))
        self.assertEqual(d['strides'], (2,))
        self.assertEqual(d['data'], (snd._samples_address, False))

    @unittest.skipIf(not pygame.HAVE_NEWBUF, 'newbuf not implemented')
    def test_newbuf__one_channel(self):
        mixer.init(22050, -16, 1)
        self._NEWBUF_export_check()

    @unittest.skipIf(not pygame.HAVE_NEWBUF, 'newbuf not implemented')
    def test_newbuf__twho_channel(self):
        mixer.init(22050, -16, 2)
        self._NEWBUF_export_check()

    def _NEWBUF_export_check(self):
        freq, fmt, channels = mixer.get_init()
        ndim = 1 if (channels == 1) else 2
        itemsize = abs(fmt) // 8
        formats = {8: 'B', -8: 'b',
                   16: '=H', -16: '=h',
                   32: '=I', -32: '=i',  # 32 and 64 for future consideration
                   64: '=Q', -64: '=q'}
        format = formats[fmt]
        from pygame.tests.test_utils import buftools
        Exporter = buftools.Exporter
        Importer = buftools.Importer
        is_lil_endian = pygame.get_sdl_byteorder() == pygame.LIL_ENDIAN
        fsys, frev = ('<', '>') if is_lil_endian else ('>', '<')
        shape = (10, channels)[:ndim]
        strides = (channels * itemsize, itemsize)[2 - ndim:]
        exp = Exporter(shape, format=frev + 'i')
        snd = mixer.Sound(array=exp)
        buflen = len(exp) * itemsize * channels
        imp = Importer(snd, buftools.PyBUF_SIMPLE)
        self.assertEqual(imp.ndim, 0)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertTrue(imp.shape is None)
        self.assertTrue(imp.strides is None)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_WRITABLE)
        self.assertEqual(imp.ndim, 0)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertTrue(imp.shape is None)
        self.assertTrue(imp.strides is None)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_FORMAT)
        self.assertEqual(imp.ndim, 0)
        self.assertEqual(imp.format, format)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertTrue(imp.shape is None)
        self.assertTrue(imp.strides is None)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_ND)
        self.assertEqual(imp.ndim, ndim)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertEqual(imp.shape, shape)
        self.assertTrue(imp.strides is None)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_STRIDES)
        self.assertEqual(imp.ndim, ndim)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertEqual(imp.shape, shape)
        self.assertEqual(imp.strides, strides)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_FULL_RO)
        self.assertEqual(imp.ndim, ndim)
        self.assertEqual(imp.format, format)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, 2)
        self.assertEqual(imp.shape, shape)
        self.assertEqual(imp.strides, strides)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_FULL_RO)
        self.assertEqual(imp.ndim, ndim)
        self.assertEqual(imp.format, format)
        self.assertEqual(imp.len, buflen)
        self.assertEqual(imp.itemsize, itemsize)
        self.assertEqual(imp.shape, exp.shape)
        self.assertEqual(imp.strides, strides)
        self.assertTrue(imp.suboffsets is None)
        self.assertFalse(imp.readonly)
        self.assertEqual(imp.buf, snd._samples_address)
        imp = Importer(snd, buftools.PyBUF_C_CONTIGUOUS)
        self.assertEqual(imp.ndim, ndim)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.strides, strides)
        imp = Importer(snd, buftools.PyBUF_ANY_CONTIGUOUS)
        self.assertEqual(imp.ndim, ndim)
        self.assertTrue(imp.format is None)
        self.assertEqual(imp.strides, strides)
        if ndim == 1:
            imp = Importer(snd, buftools.PyBUF_F_CONTIGUOUS)
            self.assertEqual(imp.ndim, 1)
            self.assertTrue(imp.format is None)
            self.assertEqual(imp.strides, strides)
        else:
            self.assertRaises(BufferError, Importer, snd,
                              buftools.PyBUF_F_CONTIGUOUS)

    def todo_test_fadeout(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.fadeout:

          # pygame.mixer.fadeout(time): return None
          # fade out the volume on all sounds before stopping
          #
          # This will fade out the volume on all active channels over the time
          # argument in milliseconds. After the sound is muted the playback will
          # stop.
          #

        self.fail()

    def todo_test_find_channel(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.find_channel:

          # pygame.mixer.find_channel(force=False): return Channel
          # find an unused channel
          #
          # This will find and return an inactive Channel object. If there are
          # no inactive Channels this function will return None. If there are no
          # inactive channels and the force argument is True, this will find the
          # Channel with the longest running Sound and return it.
          #
          # If the mixer has reserved channels from pygame.mixer.set_reserved()
          # then those channels will not be returned here.
          #

        self.fail()

    def todo_test_get_busy(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.get_busy:

          # pygame.mixer.get_busy(): return bool
          # test if any sound is being mixed
          #
          # Returns True if the mixer is busy mixing any channels. If the mixer
          # is idle then this return False.
          #

        self.fail()

    def todo_test_pause(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.pause:

          # pygame.mixer.pause(): return None
          # temporarily stop playback of all sound channels
          #
          # This will temporarily stop all playback on the active mixer
          # channels. The playback can later be resumed with
          # pygame.mixer.unpause()
          #

        self.fail()

    def todo_test_set_reserved(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.set_reserved:

          # pygame.mixer.set_reserved(count): return None
          # reserve channels from being automatically used
          #
          # The mixer can reserve any number of channels that will not be
          # automatically selected for playback by Sounds. If sounds are
          # currently playing on the reserved channels they will not be stopped.
          #
          # This allows the application to reserve a specific number of channels
          # for important sounds that must not be dropped or have a guaranteed
          # channel to play on.
          #

        self.fail()

    def todo_test_stop(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.stop:

          # pygame.mixer.stop(): return None
          # stop playback of all sound channels
          #
          # This will stop all playback of all active mixer channels.

        self.fail()

    def todo_test_unpause(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.unpause:

          # pygame.mixer.unpause(): return None
          # resume paused playback of sound channels
          #
          # This will resume all active sound channels after they have been paused.

        self.fail()

############################## CHANNEL CLASS TESTS #############################

class ChannelTypeTest(AssertRaisesRegexMixin, unittest.TestCase):
    @classmethod
    def setUpClass(cls):
        # Initializing the mixer is slow, so minimize the times it is called.
        mixer.init()

    @classmethod
    def tearDownClass(cls):
        mixer.quit()

    def setUp(cls):
        # This makes sure the mixer is always initialized before each test (in
        # case a test calls pygame.mixer.quit()).
        if mixer.get_init() is None:
            mixer.init()

    def test_channel(self):
        """Ensure Channel() creation works."""
        channel = mixer.Channel(0)

        self.assertIsInstance(channel, mixer.ChannelType)
        self.assertEqual(channel.__class__.__name__, 'Channel')

    def test_channel__without_arg(self):
        """Ensure exception for Channel() creation with no argument."""
        with self.assertRaises(TypeError):
            mixer.Channel()

    def test_channel__invalid_id(self):
        """Ensure exception for Channel() creation with an invalid id."""
        with self.assertRaises(IndexError):
            mixer.Channel(-1)

    def test_channel__before_init(self):
        """Ensure exception for Channel() creation with non-init mixer."""
        mixer.quit()

        with self.assertRaisesRegex(pygame.error, 'mixer not initialized'):
            mixer.Channel(0)

    def todo_test_fadeout(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.fadeout:

          # Channel.fadeout(time): return None
          # stop playback after fading channel out
          #
          # Stop playback of a channel after fading out the sound over the given
          # time argument in milliseconds.
          #

        self.fail()

    def test_get_busy(self):
        """Ensure an idle channel's busy state is correct."""
        expected_busy = False
        channel = mixer.Channel(0)

        busy = channel.get_busy()

        self.assertEqual(busy, expected_busy)

    def todo_test_get_busy__active(self):
        """Ensure an active channel's busy state is correct."""
        self.fail()

    def todo_test_get_endevent(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.get_endevent:

          # Channel.get_endevent(): return type
          # get the event a channel sends when playback stops
          #
          # Returns the event type to be sent every time the Channel finishes
          # playback of a Sound. If there is no endevent the function returns
          # pygame.NOEVENT.
          #

        self.fail()

    def todo_test_get_queue(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.get_queue:

          # Channel.get_queue(): return Sound
          # return any Sound that is queued
          #
          # If a Sound is already queued on this channel it will be returned.
          # Once the queued sound begins playback it will no longer be on the
          # queue.
          #

        self.fail()

    def todo_test_get_sound(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.get_sound:

          # Channel.get_sound(): return Sound
          # get the currently playing Sound
          #
          # Return the actual Sound object currently playing on this channel. If
          # the channel is idle None is returned.
          #

        self.fail()

    def test_get_volume(self):
        """Ensure a channel's volume can be retrieved."""
        expected_volume = 1.0  # default
        channel = mixer.Channel(0)

        volume = channel.get_volume()

        self.assertAlmostEqual(volume, expected_volume)

    def todo_test_get_volume__while_playing(self):
        """Ensure a channel's volume can be retrieved while playing."""
        self.fail()

    def todo_test_pause(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.pause:

          # Channel.pause(): return None
          # temporarily stop playback of a channel
          #
          # Temporarily stop the playback of sound on a channel. It can be
          # resumed at a later time with Channel.unpause()
          #

        self.fail()

    def todo_test_play(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.play:

          # Channel.play(Sound, loops=0, maxtime=0, fade_ms=0): return None
          # play a Sound on a specific Channel
          #
          # This will begin playback of a Sound on a specific Channel. If the
          # Channel is currently playing any other Sound it will be stopped.
          #
          # The loops argument has the same meaning as in Sound.play(): it is
          # the number of times to repeat the sound after the first time. If it
          # is 3, the sound will be played 4 times (the first time, then three
          # more). If loops is -1 then the playback will repeat indefinitely.
          #
          # As in Sound.play(), the maxtime argument can be used to stop
          # playback of the Sound after a given number of milliseconds.
          #
          # As in Sound.play(), the fade_ms argument can be used fade in the sound.

        self.fail()

    def todo_test_queue(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.queue:

          # Channel.queue(Sound): return None
          # queue a Sound object to follow the current
          #
          # When a Sound is queued on a Channel, it will begin playing
          # immediately after the current Sound is finished. Each channel can
          # only have a single Sound queued at a time. The queued Sound will
          # only play if the current playback finished automatically. It is
          # cleared on any other call to Channel.stop() or Channel.play().
          #
          # If there is no sound actively playing on the Channel then the Sound
          # will begin playing immediately.
          #

        self.fail()

    def todo_test_set_endevent(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.set_endevent:

          # Channel.set_endevent(): return None
          # Channel.set_endevent(type): return None
          # have the channel send an event when playback stops
          #
          # When an endevent is set for a channel, it will send an event to the
          # pygame queue every time a sound finishes playing on that channel
          # (not just the first time). Use pygame.event.get() to retrieve the
          # endevent once it's sent.
          #
          # Note that if you called Sound.play(n) or Channel.play(sound,n), the
          # end event is sent only once: after the sound has been played "n+1"
          # times (see the documentation of Sound.play).
          #
          # If Channel.stop() or Channel.play() is called while the sound was
          # still playing, the event will be posted immediately.
          #
          # The type argument will be the event id sent to the queue. This can
          # be any valid event type, but a good choice would be a value between
          # pygame.locals.USEREVENT and pygame.locals.NUMEVENTS. If no type
          # argument is given then the Channel will stop sending endevents.
          #

        self.fail()

    def todo_test_set_volume(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.set_volume:

          # Channel.set_volume(value): return None
          # Channel.set_volume(left, right): return None
          # set the volume of a playing channel
          #
          # Set the volume (loudness) of a playing sound. When a channel starts
          # to play its volume value is reset. This only affects the current
          # sound. The value argument is between 0.0 and 1.0.
          #
          # If one argument is passed, it will be the volume of both speakers.
          # If two arguments are passed and the mixer is in stereo mode, the
          # first argument will be the volume of the left speaker and the second
          # will be the volume of the right speaker. (If the second argument is
          # None, the first argument will be the volume of both speakers.)
          #
          # If the channel is playing a Sound on which set_volume() has also
          # been called, both calls are taken into account. For example:
          #
          #     sound = pygame.mixer.Sound("s.wav")
          #     channel = s.play()      # Sound plays at full volume by default
          #     sound.set_volume(0.9)   # Now plays at 90% of full volume.
          #     sound.set_volume(0.6)   # Now plays at 60% (previous value replaced).
          #     channel.set_volume(0.5) # Now plays at 30% (0.6 * 0.5).

        self.fail()

    def todo_test_stop(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.stop:

          # Channel.stop(): return None
          # stop playback on a Channel
          #
          # Stop sound playback on a channel. After playback is stopped the
          # channel becomes available for new Sounds to play on it.
          #

        self.fail()

    def todo_test_unpause(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Channel.unpause:

          # Channel.unpause(): return None
          # resume pause playback of a channel
          #
          # Resume the playback on a paused channel.

        self.fail()

############################### SOUND CLASS TESTS ##############################

class SoundTypeTest(AssertRaisesRegexMixin, unittest.TestCase):
    @classmethod
    def setUpClass(cls):
        # Initializing the mixer is slow, so minimize the times it is called.
        mixer.init()

    @classmethod
    def tearDownClass(cls):
        mixer.quit()

    def setUp(cls):
        # This makes sure the mixer is always initialized before each test (in
        # case a test calls pygame.mixer.quit()).
        if mixer.get_init() is None:
            mixer.init()

    # See MixerModuleTest's methods test_sound_args(), test_sound_unicode(),
    # and test_array_keyword() for additional testing of Sound() creation.
    def test_sound(self):
        """Ensure Sound() creation with a filename works."""
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound1 = mixer.Sound(filename)
        sound2 = mixer.Sound(file=filename)

        self.assertIsInstance(sound1, mixer.Sound)
        self.assertIsInstance(sound2, mixer.Sound)

    def test_sound__from_file_object(self):
        """Ensure Sound() creation with a file object works."""
        filename = example_path(os.path.join('data', 'house_lo.wav'))

        # Using 'with' ensures the file is closed even if test fails.
        with open(filename, "rb") as file_obj:
            sound = mixer.Sound(file_obj)

            self.assertIsInstance(sound, mixer.Sound)

    def test_sound__from_sound_object(self):
        """Ensure Sound() creation with a Sound() object works."""
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound_obj = mixer.Sound(file=filename)

        sound = mixer.Sound(sound_obj)

        self.assertIsInstance(sound, mixer.Sound)

    def todo_test_sound__from_buffer(self):
        """Ensure Sound() creation with a buffer works."""
        self.fail()

    def todo_test_sound__from_array(self):
        """Ensure Sound() creation with an array works."""
        self.fail()

    def test_sound__without_arg(self):
        """Ensure exception raised for Sound() creation with no argument."""
        with self.assertRaises(TypeError):
            mixer.Sound()

    def test_sound__before_init(self):
        """Ensure exception raised for Sound() creation with non-init mixer."""
        mixer.quit()
        filename = example_path(os.path.join('data', 'house_lo.wav'))

        with self.assertRaisesRegex(pygame.error, 'mixer not initialized'):
            mixer.Sound(file=filename)

    @unittest.skipIf(IS_PYPY, 'pypy skip')
    def test_samples_address(self):
        """Test the _samples_address getter."""
        from ctypes import pythonapi, c_void_p, py_object

        try:
            Bytes_FromString = pythonapi.PyBytes_FromString  # python 3
        except:
            Bytes_FromString = pythonapi.PyString_FromString  # python 2

        Bytes_FromString.restype = c_void_p
        Bytes_FromString.argtypes = [py_object]
        samples = as_bytes('abcdefgh') # keep byte size a multiple of 4
        sample_bytes = Bytes_FromString(samples)

        snd = mixer.Sound(buffer=samples)

        self.assertNotEqual(snd._samples_address, sample_bytes)

    def todo_test_fadeout(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Sound.fadeout:

          # Sound.fadeout(time): return None
          # stop sound playback after fading out
          #
          # This will stop playback of the sound after fading it out over the
          # time argument in milliseconds. The Sound will fade and stop on all
          # actively playing channels.
          #

        self.fail()

    def todo_test_get_length(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Sound.get_length:

          # Sound.get_length(): return seconds
          # get the length of the Sound
          #
          # Return the length of this Sound in seconds.

        self.fail()

    def test_get_num_channels(self):
        """Ensure correct number of channels."""
        expected_channels = 0
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound = mixer.Sound(file=filename)

        num_channels = sound.get_num_channels()

        self.assertEqual(num_channels, expected_channels)

    def todo_test_get_num_channels__while_playing(self):
        """Ensure correct number of channels while playing."""
        self.fail()

    def test_get_volume(self):
        """Ensure a sound's volume can be retrieved."""
        expected_volume = 1.0  # default
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound = mixer.Sound(file=filename)

        volume = sound.get_volume()

        self.assertAlmostEqual(volume, expected_volume)

    def todo_test_get_volume__while_playing(self):
        """Ensure a sound's volume can be retrieved while playing."""
        self.fail()

    def todo_test_play(self):

        # __doc__ (as of 2008-08-02) for pygame.mixer.Sound.play:

          # Sound.play(loops=0, maxtime=0, fade_ms=0): return Channel
          # begin sound playback
          #
          # Begin playback of the Sound (i.e., on the computer's speakers) on an
          # available Channel. This will forcibly select a Channel, so playback
          # may cut off a currently playing sound if necessary.
          #
          # The loops argument controls how many times the sample will be
          # repeated after being played the first time. A value of 5 means that
          # the sound will be played once, then repeated five times, and so is
          # played a total of six times. The default value (zero) means the
          # Sound is not repeated, and so is only played once. If loops is set
          # to -1 the Sound will loop indefinitely (though you can still call
          # stop() to stop it).
          #
          # The maxtime argument can be used to stop playback after a given
          # number of milliseconds.
          #
          # The fade_ms argument will make the sound start playing at 0 volume
          # and fade up to full volume over the time given. The sample may end
          # before the fade-in is complete.
          #
          # This returns the Channel object for the channel that was selected.

        self.fail()

    def test_set_volume(self):
        """Ensure a sound's volume can be set."""
        float_delta = 1.0 / 128  # SDL volume range is 0 to 128
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound = mixer.Sound(file=filename)
        current_volume = sound.get_volume()

        # (volume_set_value : expected_volume)
        volumes = ((-1,   current_volume),  # value < 0 won't change volume
                   (0,    0.0),
                   (0.01, 0.01),
                   (0.1,  0.1),
                   (0.5,  0.5),
                   (0.9,  0.9),
                   (0.99, 0.99),
                   (1,    1.0),
                   (1.1,  1.0),
                   (2.0,  1.0))

        for volume_set_value, expected_volume in volumes:
            sound.set_volume(volume_set_value)

            self.assertAlmostEqual(sound.get_volume(), expected_volume,
                                   delta=float_delta)

    def todo_test_set_volume__while_playing(self):
        """Ensure a sound's volume can be set while playing."""
        self.fail()

    def test_stop(self):
        """Ensure stop can be called while not playing a sound."""
        expected_channels = 0
        filename = example_path(os.path.join('data', 'house_lo.wav'))
        sound = mixer.Sound(file=filename)

        sound.stop()

        self.assertEqual(sound.get_num_channels(), expected_channels)

    def todo_test_stop__while_playing(self):
        """Ensure stop stops a playing sound."""
        self.fail()

    def test_get_raw(self):
        """Ensure get_raw returns the correct bytestring."""
        samples = as_bytes('abcdefgh') # keep byte size a multiple of 4
        snd = mixer.Sound(buffer=samples)

        raw = snd.get_raw()

        self.assertIsInstance(raw, bytes_)
        self.assertEqual(raw, samples)


##################################### MAIN #####################################

if __name__ == '__main__':
    unittest.main()