def make_buffer_from_bit_pattern(pattern, on_freq, off_freq):
""" Takes a pattern and returns an audio buffer that encodes that pattern """
# the key's middle value is the bit's value and the left and right bits are the bits before and after
# the buffers are enveloped to cleanly blend into each other
buffers = {
"000": quietnet.tone(off_freq, DATASIZE),
"100": quietnet.lenvelope(quietnet.tone(off_freq, DATASIZE)),
"001": quietnet.renvelope(quietnet.tone(off_freq, DATASIZE)),
"101": quietnet.envelope(quietnet.tone(off_freq, DATASIZE)),
"010": quietnet.envelope(quietnet.tone(on_freq, DATASIZE)),
"011": quietnet.lenvelope(quietnet.tone(on_freq, DATASIZE)),
"110": quietnet.renvelope(quietnet.tone(on_freq, DATASIZE)),
"111": quietnet.tone(on_freq, DATASIZE)
}
last_bit = pattern[-1]
output_buffer = []
for i in range(len(pattern)):
bit = pattern[i]
if i < len(pattern) - 1:
next_bit = pattern[i+1]
else:
next_bit = pattern[0]
output_buffer = output_buffer + buffers[last_bit + bit + next_bit]
last_bit = bit
return quietnet.pack_buffer(output_buffer)
def make_buffer_from_bit_pattern(pattern, on_freq, off_freq):
""" Takes a pattern and returns an audio buffer that encodes that pattern """
# the key's middle value is the bit's value and the left and right bits are the bits before and after
# the buffers are enveloped to cleanly blend into each other
last_bit = pattern[-1]
output_buffer = []
offset = 0
for i in range(len(pattern)):
bit = pattern[i]
if i < len(pattern) - 1:
next_bit = pattern[i + 1]
else:
next_bit = pattern[0]
freq = on_freq if bit == '1' else off_freq
tone = quietnet.tone(freq, DATASIZE, offset=offset)
output_buffer += quietnet.envelope(tone,
left=last_bit == '0',
right=next_bit == '0')
offset += DATASIZE
last_bit = bit
return quietnet.pack_buffer(output_buffer)
def make_custom_buffer_from_bit_pattern(pattern,
zero_freq=FREQ_ZERO,
one_freq=FREQ_ONE,
two_freq=FREQ_TWO,
off_freq=0):
""" Takes a pattern and returns an audio buffer that encodes that pattern """
# the key's middle value is the bit's value and the left and right bits are the bits before and after
# the buffers are enveloped to cleanly blend into each other
last_bit = pattern[-1]
output_buffer = []
offset = 0
for i in range(len(pattern)):
bit = pattern[i]
if i < len(pattern) - 1:
next_bit = pattern[i + 1]
else:
next_bit = pattern[0]
freq = 0
if bit == '0':
print('0')
freq = zero_freq
elif bit == '1':
print('1')
freq = one_freq
elif bit == '2':
print('2')
freq = two_freq
else:
print('0')
freq = off_freq
tone = quietnet.tone(freq, DATASIZE, offset=offset)
output_buffer += quietnet.envelope(tone, left=False, right=False)
offset += DATASIZE
last_bit = bit
return quietnet.pack_buffer(output_buffer)
def make_buffer_from_bit_pattern(pattern, on_freq, off_freq):
""" Takes a pattern and returns an audio buffer that encodes that pattern """
# the key's middle value is the bit's value and the left and right bits are the bits before and after
# the buffers are enveloped to cleanly blend into each other
last_bit = pattern[-1]
output_buffer = []
offset = 0
for i in range(len(pattern)):
bit = pattern[i]
if i < len(pattern) - 1:
next_bit = pattern[i+1]
else:
next_bit = pattern[0]
freq = on_freq if bit == '1' else off_freq
tone = quietnet.tone(freq, DATASIZE, offset=offset)
output_buffer += quietnet.envelope(tone, left=last_bit=='0', right=next_bit=='0')
offset += DATASIZE
last_bit = bit
return quietnet.pack_buffer(output_buffer)
import pyaudio
import quietnet
import options
FORMAT = pyaudio.paInt16
CHANNELS = options.channels
RATE = options.rate
FREQ = options.freq
FREQ_OFF = 0
DATASIZE = options.datasize
p = pyaudio.PyAudio()
stream = p.open(format=FORMAT, channels=CHANNELS, rate=RATE, output=True)
buffer = quietnet.envelope(quietnet.tone(FREQ_OFF, DATASIZE)) + quietnet.envelope(quietnet.tone(FREQ, DATASIZE))
buffer = buffer * 10
output_buffer = quietnet.pack_buffer(buffer)
def play_buffer(buffer):
for sample in buffer:
stream.write(sample)
while True:
play_buffer(output_buffer)
