def run():
if len (sys.argv) < 2:
print ("Usage: %s wavefile" % os.path.basename(sys.argv[0]))
print (" Using an example wav file...")
dirname = os.path.dirname(__file__)
fname = os.path.join(dirname, "hey.wav")
else:
fname = sys.argv[1]
wavefp = wave.open(fname)
channels = wavefp.getnchannels()
bitrate = wavefp.getsampwidth() * 8
samplerate = wavefp.getframerate()
wavbuf = wavefp.readframes(wavefp.getnframes())
formatmap = {
(1, 8) : al.AL_FORMAT_MONO8,
(2, 8) : al.AL_FORMAT_STEREO8,
(1, 16): al.AL_FORMAT_MONO16,
(2, 16) : al.AL_FORMAT_STEREO16,
}
alformat = formatmap[(channels, bitrate)]
device = alc.alcOpenDevice(None)
context = alc.alcCreateContext(device, None)
alc.alcMakeContextCurrent(context)
source = al.ALuint(0)
al.alGenSources(1, source)
al.alSourcef(source, al.AL_PITCH, 1)
al.alSourcef(source, al.AL_GAIN, 1)
al.alSource3f(source, al.AL_POSITION, 10, 0, 0)
al.alSource3f(source, al.AL_VELOCITY, 0, 0, 0)
al.alSourcei(source, al.AL_LOOPING, 1)
buf = al.ALuint(0)
al.alGenBuffers(1, buf)
al.alBufferData(buf, alformat, wavbuf, len(wavbuf), samplerate)
al.alSourceQueueBuffers(source, 1, buf)
al.alSourcePlay(source)
state = al.ALint(0)
al.alGetSourcei(source, al.AL_SOURCE_STATE, state)
z = 10
while z > -10:
time.sleep(1)
al.alSource3f(source, al.AL_POSITION, z, 0, 0)
print("playing at %r" % ([z, 0, 0]))
z -= 1
print("done")
al.alDeleteSources(1, source)
al.alDeleteBuffers(1, buf)
alc.alcDestroyContext(context)
alc.alcCloseDevice(device)
def run():
if len(sys.argv) < 2:
print("Usage: %s wavefile" % os.path.basename(sys.argv[0]))
print(" Using an example wav file...")
dirname = os.path.dirname(__file__)
fname = os.path.join(dirname, "hey.wav")
else:
fname = sys.argv[1]
wavefp = wave.open(fname)
channels = wavefp.getnchannels()
bitrate = wavefp.getsampwidth() * 8
samplerate = wavefp.getframerate()
wavbuf = wavefp.readframes(wavefp.getnframes())
formatmap = {
(1, 8): al.AL_FORMAT_MONO8,
(2, 8): al.AL_FORMAT_STEREO8,
(1, 16): al.AL_FORMAT_MONO16,
(2, 16): al.AL_FORMAT_STEREO16,
}
alformat = formatmap[(channels, bitrate)]
device = alc.alcOpenDevice(None)
context = alc.alcCreateContext(device, None)
alc.alcMakeContextCurrent(context)
source = al.ALuint(0)
al.alGenSources(1, source)
al.alSourcef(source, al.AL_PITCH, 1)
al.alSourcef(source, al.AL_GAIN, 1)
al.alSource3f(source, al.AL_POSITION, 0, 10, 0)
al.alSource3f(source, al.AL_VELOCITY, 0, 0, 0)
al.alSourcei(source, al.AL_LOOPING, 1)
buf = al.ALuint(0)
al.alGenBuffers(1, buf)
al.alBufferData(buf, alformat, wavbuf, len(wavbuf), samplerate)
al.alSourceQueueBuffers(source, 1, buf)
al.alSourcePlay(source)
state = al.ALint(0)
al.alGetSourcei(source, al.AL_SOURCE_STATE, state)
z = 10
while z > -10:
time.sleep(1)
al.alSource3f(source, al.AL_POSITION, 0, 0, z)
print("playing at %r" % ([z, 0, 0]))
z -= 1
print("done")
al.alDeleteSources(1, source)
al.alDeleteBuffers(1, buf)
alc.alcDestroyContext(context)
alc.alcCloseDevice(device)
def __init__(self):
#load device/context/listener
self.device = alc.alcOpenDevice(None)
self.context = alc.alcCreateContext(self.device, None)
alc.alcMakeContextCurrent(self.context)
alc.alcProcessContext(self.context)
#get list of capture devices
self.cap_devices = self.parse(
alc.alcGetString(None, alc.ALC_CAPTURE_DEVICE_SPECIFIER))
#capture device container
self.captureDev = None
#main buffer
self.samplescaptured = ''
def __init__(self):
#load device/context/listener
self.device = alc.alcOpenDevice(None)
self.context = alc.alcCreateContext(self.device, None)
alc.alcMakeContextCurrent(self.context)
#get list of available htrf tables
self.hrtf_buffers = [alc.ALCint(), alc.ALCint * 4, alc.ALCint()]
alc.alcGetIntegerv(self.device, alc.ALC_NUM_HRTF_SPECIFIERS_SOFT, 1,
self.hrtf_buffers[0])
#attributes for device to set specified hrtf table
self.hrtf_select = self.hrtf_buffers[1](alc.ALC_HRTF_SOFT,
alc.ALC_TRUE,
alc.ALC_HRTF_ID_SOFT, 1)
def main():
source = al.ALuint()
device = alc.alcOpenDevice(None)
if not device:
error = alc.alcGetError()
# do something with the error, which is a ctypes value
return -1
# Omit error checking
context = alc.alcCreateContext(device, None)
alc.alcMakeContextCurrent(context)
# Do more things
al.alGenSources(1, source)
al.alSourcef(source, al.AL_PITCH, 1)
al.alSourcef(source, al.AL_GAIN, 1)
al.alSource3f(source, al.AL_POSITION, 10, 0, 0)
al.alSource3f(source, al.AL_VELOCITY, 0, 0, 0)
al.alSourcei(source, al.AL_LOOPING, 1)
al.alDeleteSources(1, source)
alc.alcDestroyContext(context)
alc.alcCloseDevice(device)
return 0
def __init__(self):
#load device/context/listener
self.device = alc.alcOpenDevice(None)
self.context = alc.alcCreateContext(self.device, None)
alc.alcMakeContextCurrent(self.context)
def haas(path_to_wav):
"""
Demonstrates the Haas Effect using the given <=16-bit WAV file.
Plays the given audio three times, perceived from the center,
left and right, respectively.
"""
# Load the WAVE file and save some of its properties.
wav = wave.open(path_to_wav)
wav_name = path_to_wav.rsplit(os.path.sep).pop()
channels = wav.getnchannels()
bitrate = wav.getsampwidth() * 8
samplerate = wav.getframerate()
wav_buffer = wav.readframes(wav.getnframes())
wav_fmt_map = {
(1, 8): al.AL_FORMAT_MONO8,
(2, 8): al.AL_FORMAT_STEREO8,
(1, 16): al.AL_FORMAT_MONO16,
(2, 16): al.AL_FORMAT_STEREO16,
# 24-bit ints and floats are not supported by OpenAL out of the box.
}
alformat = wav_fmt_map[(channels, bitrate)]
# Get the playback device / context.
device = alc.alcOpenDevice(None) # opens the default device.
context = alc.alcCreateContext(device, None) # no attributes needed.
alc.alcMakeContextCurrent(context)
# Prepare the playback buffer.
buffer = al.ALuint(0)
al.alGenBuffers(1, buffer)
al.alBufferData(buffer, alformat, wav_buffer, len(wav_buffer), samplerate)
# Initialize and configure the sources for playback.
sources = src_left, src_right, src_center = get_sources()
for src in sources:
al.alSourceQueueBuffers(src, 1, buffer)
def play(delay_ms=15, dominant='left'):
"""
Plays the above wav file from a perceived location.
Args:
delay_ms: The delay between the first and second source.
dominant: The dominant location to play the audio from.
"""
dominant = dominant.lower()
directions = {'left', 'right', 'center'}
GAIN = 1.
if dominant not in directions or dominant == 'center':
al.alSourcePlay(src_center)
else:
# Determine the order in which to play the sources.
play_order = [src_left, src_right] # left-dominant.
if dominant == 'right':
play_order.reverse()
# Adjust the gains for a more biased stereo effect.
al.alSourcef(play_order[0], al.AL_GAIN, GAIN * 0.5)
al.alSourcef(play_order[1], al.AL_GAIN, GAIN * 0.4)
# Apply the precedence effect by playing the sources
# 'delay_ms' milliseconds apart.
al.alSourcePlay(play_order[0])
time.sleep(delay_ms / 1000)
al.alSourcePlay(play_order[1])
# Wait until playback is finished, then delete the buffer.
duration = wav.getnframes() / samplerate
time.sleep(duration)
# Play the wav file localized at each of the given positions.
for position in ['center', 'left', 'right']:
print(f'Playing {wav_name} perceived from the {position}.')
play(dominant=position)
print('Done playing.\n')
# Clean up.
for src in sources:
al.alDeleteSources(1, src)
al.alDeleteBuffers(1, buffer)
alc.alcDestroyContext(context)
alc.alcCloseDevice(device)
return 0