def from_wave(cls, filename, wave_filename, compression=None,
block_size=256):
"""Encodes a new AudioFile from an existing .wav file.
Takes a filename string, wave_filename string
of an existing WaveAudio file
and an optional compression level string.
Encodes a new audio file from the wave's data
at the given filename with the specified compression level
and returns a new ShortenAudio object."""
wave = WaveAudio(wave_filename)
if (wave.bits_per_sample() not in (8, 16)):
raise UnsupportedBitsPerSample()
(head, tail) = wave.pcm_split()
if (len(tail) > 0):
blocks = [head, None, tail]
else:
blocks = [head, None]
import audiotools.encoders
try:
audiotools.encoders.encode_shn(filename=filename,
pcmreader=wave.to_pcm(),
block_size=block_size,
verbatim_chunks=blocks)
return cls(filename)
except IOError, err:
cls.__unlink__(filename)
raise EncodingError(str(err))
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new VorbisAudio object"""
from audiotools import (BufferedPCMReader, __default_quality__,
EncodingError)
from audiotools.encoders import encode_vorbis
if (((compression is None)
or (compression not in cls.COMPRESSION_MODES))):
compression = __default_quality__(cls.NAME)
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if (pcmreader.channels > 2) and (pcmreader.channels <= 8):
channel_mask = int(pcmreader.channel_mask)
if ((channel_mask != 0) and (channel_mask not in (
0x7, # FR, FC, FL
0x33, # FR, FL, BR, BL
0x37, # FR, FC, FL, BL, BR
0x3f, # FR, FC, FL, BL, BR, LFE
0x70f, # FL, FC, FR, SL, SR, BC, LFE
0x63f))): # FL, FC, FR, SL, SR, BL, BR, LFE
from audiotools import UnsupportedChannelMask
pcmreader.close()
raise UnsupportedChannelMask(filename, channel_mask)
if total_pcm_frames is not None:
from audiotools import CounterPCMReader
pcmreader = CounterPCMReader(pcmreader)
try:
encode_vorbis(filename, pcmreader, float(compression) / 10)
if ((total_pcm_frames is not None)
and (total_pcm_frames != pcmreader.frames_written)):
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
cls.__unlink__(filename)
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
return VorbisAudio(filename)
except (ValueError, IOError) as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
finally:
pcmreader.close()
def from_pcm(cls, filename, pcmreader,
compression=None,
total_pcm_frames=None,
encoding_function=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new WavPackAudio object"""
from audiotools.encoders import encode_wavpack
from audiotools import BufferedPCMReader
from audiotools import CounterPCMReader
from audiotools import EncodingError
from audiotools import __default_quality__
if pcmreader.bits_per_sample not in (8, 16, 24):
# WavPack technically supports up to 32 bits-per-sample
# but nothing else does
# so I'll treat it as unsupported for now
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if (((compression is None) or
(compression not in cls.COMPRESSION_MODES))):
compression = __default_quality__(cls.NAME)
counter = CounterPCMReader(pcmreader)
try:
(encode_wavpack if encoding_function is None
else encoding_function)(
filename=filename,
pcmreader=counter,
total_pcm_frames=(total_pcm_frames if
total_pcm_frames is not None else 0),
compression=compression)
counter.close()
except (ValueError, IOError) as msg:
counter.close()
cls.__unlink__(filename)
raise EncodingError(str(msg))
except Exception:
counter.close()
cls.__unlink__(filename)
raise
# ensure actual total PCM frames matches argument, if any
if (((total_pcm_frames is not None) and
(counter.frames_written != total_pcm_frames))):
cls.__unlink__(filename)
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
return cls(filename)
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None,
encoding_function=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new AudioFile-compatible object
may raise EncodingError if some problem occurs when
encoding the input file. This includes an error
in the input stream, a problem writing the output file,
or even an EncodingError subclass such as
"UnsupportedBitsPerSample" if the input stream
is formatted in a way this class is unable to support
"""
from audiotools import (BufferedPCMReader, CounterPCMReader,
transfer_data, EncodingError)
# from audiotools.py_encoders import encode_tta
from audiotools.encoders import encode_tta
from audiotools.bitstream import BitstreamWriter
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
# open output file right away
# so we can fail as soon as possible
try:
file = open(filename, "wb")
except IOError as err:
pcmreader.close()
raise EncodingError(str(err))
try:
encode_tta(file=file,
pcmreader=pcmreader,
total_pcm_frames=(total_pcm_frames if total_pcm_frames
is not None else 0))
return cls(filename)
except (IOError, ValueError) as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
except:
cls.__unlink__(filename)
raise
finally:
file.close()
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None,
block_size=256,
encoding_function=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new ShortenAudio object"""
# can't build artificial header because we don't know
# how long the PCMReader will be and there's no way
# to go back and write one later because all the byte values
# are stored variable-sized
# so we have to build a temporary Wave file instead
from audiotools import UnsupportedBitsPerSample
if (pcmreader.bits_per_sample not in (8, 16)):
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if (total_pcm_frames is not None):
from audiotools.wav import wave_header
return cls.from_wave(
filename,
wave_header(pcmreader.sample_rate, pcmreader.channels,
pcmreader.channel_mask, pcmreader.bits_per_sample,
total_pcm_frames), pcmreader,
chr(0) * (((pcmreader.bits_per_sample // 8) *
pcmreader.channels * total_pcm_frames) % 2),
compression, block_size, encoding_function)
else:
from audiotools import WaveAudio
import tempfile
f = tempfile.NamedTemporaryFile(suffix=".wav")
try:
w = WaveAudio.from_pcm(f.name, pcmreader)
(header, footer) = w.wave_header_footer()
return cls.from_wave(filename, header, w.to_pcm(), footer,
compression, block_size,
encoding_function)
finally:
if (os.path.isfile(f.name)):
f.close()
else:
f.close_called = True
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new MP3Audio object"""
from audiotools import (PCMConverter, BufferedPCMReader, ChannelMask,
__default_quality__, EncodingError)
from audiotools.encoders import encode_mp3
if (((compression is None)
or (compression not in cls.COMPRESSION_MODES))):
compression = __default_quality__(cls.NAME)
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
try:
if total_pcm_frames is not None:
from audiotools import CounterPCMReader
pcmreader = CounterPCMReader(pcmreader)
encode_mp3(
filename,
PCMConverter(pcmreader,
sample_rate=pcmreader.sample_rate,
channels=min(pcmreader.channels, 2),
channel_mask=ChannelMask.from_channels(
min(pcmreader.channels, 2)),
bits_per_sample=16), compression)
if ((total_pcm_frames is not None)
and (total_pcm_frames != pcmreader.frames_written)):
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
cls.__unlink__(filename)
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
return MP3Audio(filename)
except (ValueError, IOError) as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
finally:
pcmreader.close()
def from_pcm(cls, filename, pcmreader, compression=None):
if (pcmreader.bits_per_sample not in (8,16)):
raise UnsupportedBitsPerSample()
import tempfile
f = tempfile.NamedTemporaryFile(suffix=".wav")
w = WaveAudio.from_pcm(f.name, pcmreader)
try:
return cls.from_wave(filename,f.name,compression)
finally:
f.close()
def from_wave(cls, filename, wave_filename, compression=None):
wave = WaveAudio(wave_filename)
if (wave.bits_per_sample() not in (8,16)):
raise UnsupportedBitsPerSample()
(head,tail) = wave.pcm_split()
if (len(tail) > 0):
blocks = [head,None,tail]
else:
blocks = [head,None]
import audiotools.encoders
try:
audiotools.encoders.encode_shn(filename=filename,
pcmreader=wave.to_pcm(),
block_size=256,
verbatim_chunks=blocks)
return cls(filename)
except IOError:
raise EncodingError("shn")
def from_pcm(cls, filename, pcmreader, compression=None,
block_size=256):
"""Encodes a new file from PCM data.
Takes a filename string, PCMReader object
and optional compression level string.
Encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new ShortenAudio object."""
if (pcmreader.bits_per_sample not in (8, 16)):
raise UnsupportedBitsPerSample()
import tempfile
f = tempfile.NamedTemporaryFile(suffix=".wav")
try:
w = WaveAudio.from_pcm(f.name, pcmreader)
return cls.from_wave(filename, f.name, compression, block_size)
finally:
if (os.path.isfile(f.name)):
f.close()
else:
f.close_called = True
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None,
block_size=4096,
encoding_function=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new ALACAudio object"""
from audiotools.encoders import encode_alac
from audiotools import VERSION, EncodingError
if pcmreader.bits_per_sample not in {16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if (pcmreader.channel_mask not in {
0x0001, # 1ch - mono
0x0004, # 1ch - mono
0x0003, # 2ch - left, right
0x0007, # 3ch - center, left, right
0x0107, # 4ch - center, left, right, back center
0x0037, # 5ch - center, left, right, back left, back right
0x003F, # 6ch - C, L, R, back left, back right, LFE
0x013F, # 7ch - C, L, R, bL, bR, back center, LFE
0x063F, # 8ch - fC, lC, rC, fL, fR, bL, bR, LFE
0x0000
}): # undefined
from audiotools import UnsupportedChannelMask
pcmreader.close()
raise UnsupportedChannelMask(filename, pcmreader.channel_mask)
try:
file = open(filename, "wb")
except IOError as err:
pcmreader.close()
raise EncodingError(str(err))
try:
encode_alac(
file=file,
pcmreader=pcmreader,
total_pcm_frames=(total_pcm_frames if
(total_pcm_frames is not None) else 0),
block_size=block_size,
initial_history=cls.INITIAL_HISTORY,
history_multiplier=cls.HISTORY_MULTIPLIER,
maximum_k=cls.MAXIMUM_K,
version="Python Audio Tools " + VERSION)
except (ValueError, IOError) as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception:
cls.__unlink__(filename)
raise
finally:
pcmreader.close()
file.close()
return cls(filename)
def from_pcm(cls, filename, pcmreader,
compression=None, total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new WaveAudio object"""
from audiotools import EncodingError
from audiotools import DecodingError
from audiotools import CounterPCMReader
from audiotools import transfer_framelist_data
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
try:
header = wave_header(pcmreader.sample_rate,
pcmreader.channels,
pcmreader.channel_mask,
pcmreader.bits_per_sample,
total_pcm_frames if total_pcm_frames
is not None else 0)
except ValueError as err:
pcmreader.close()
raise EncodingError(str(err))
try:
f = open(filename, "wb")
except IOError as err:
pcmreader.close()
raise EncodingError(str(err))
counter = CounterPCMReader(pcmreader)
f.write(header)
try:
transfer_framelist_data(counter,
f.write,
pcmreader.bits_per_sample > 8,
False)
except (IOError, ValueError) as err:
f.close()
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception as err:
f.close()
cls.__unlink__(filename)
raise err
# handle odd-sized "data" chunks
if counter.frames_written % 2:
f.write(b"\x00")
if total_pcm_frames is not None:
f.close()
if total_pcm_frames != counter.frames_written:
# ensure written number of PCM frames
# matches total_pcm_frames argument
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
cls.__unlink__(filename)
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
else:
# go back and rewrite populated header
# with counted number of PCM frames
f.seek(0, 0)
f.write(wave_header(pcmreader.sample_rate,
pcmreader.channels,
pcmreader.channel_mask,
pcmreader.bits_per_sample,
counter.frames_written))
f.close()
return WaveAudio(filename)
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object
optional compression level string,
and optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new AudioFile-compatible object
specifying total_pcm_frames, when the number is known in advance,
may allow the encoder to work more efficiently but is never required
"""
import bisect
import os
import subprocess
from audiotools import __default_quality__
from audiotools import transfer_framelist_data
from audiotools import EncodingError
from audiotools import PCMConverter
from audiotools import ChannelMask
if ((compression is None)
or (compression not in cls.COMPRESSION_MODES)):
compression = __default_quality__(cls.NAME)
if pcmreader.bits_per_sample not in (8, 16, 24):
from audiotools import UnsupportedBitsPerSample
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if total_pcm_frames is not None:
from audiotools import CounterPCMReader
counter_reader = CounterPCMReader(pcmreader)
else:
counter_reader = pcmreader
pcmreader = PCMConverter(
counter_reader,
sample_rate=[8000, 8000, 16000,
32000][bisect.bisect([8000, 16000, 32000],
pcmreader.sample_rate)],
channels=min(pcmreader.channels, 2),
channel_mask=ChannelMask.from_channels(min(pcmreader.channels, 2)),
bits_per_sample=min(pcmreader.bits_per_sample, 16))
BITS_PER_SAMPLE = {
8: ['--8bit'],
16: ['--16bit']
}[pcmreader.bits_per_sample]
CHANNELS = {1: [], 2: ['--stereo']}[pcmreader.channels]
sub = subprocess.Popen(
[BIN['speexenc'],
'--quality', str(compression),
'--rate', str(pcmreader.sample_rate),
'--le'] + \
BITS_PER_SAMPLE + \
CHANNELS + \
['-', filename],
stdin=subprocess.PIPE,
stderr=subprocess.DEVNULL if hasattr(subprocess, "DEVNULL") else
open(os.devnull, "wb"))
try:
transfer_framelist_data(pcmreader, sub.stdin.write)
except (IOError, ValueError) as err:
sub.stdin.close()
sub.wait()
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception as err:
sub.stdin.close()
sub.wait()
cls.__unlink__(filename)
raise err
sub.stdin.close()
if sub.wait() == 0:
if ((total_pcm_frames is None)
or (total_pcm_frames == counter_reader.frames_written)):
return SpeexAudio(filename)
else:
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
cls.__unlink__(filename)
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
else:
raise EncodingError(u"unable to encode file with speexenc")
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and
optional total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new AuAudio object"""
from audiotools import EncodingError
from audiotools import DecodingError
from audiotools import CounterPCMReader
from audiotools import transfer_framelist_data
if (pcmreader.bits_per_sample not in (8, 16, 24)):
from audiotools import Filename
from audiotools import UnsupportedBitsPerSample
from audiotools.text import ERR_UNSUPPORTED_BITS_PER_SAMPLE
raise UnsupportedBitsPerSample(
ERR_UNSUPPORTED_BITS_PER_SAMPLE % {
"target_filename": Filename(filename),
"bps": pcmreader.bits_per_sample
})
try:
header = au_header(
pcmreader.sample_rate, pcmreader.channels,
pcmreader.bits_per_sample,
total_pcm_frames if total_pcm_frames is not None else 0)
except ValueError as err:
raise EncodingError(str(err))
try:
f = open(filename, "wb")
except IOError as err:
raise EncodingError(str(err))
counter = CounterPCMReader(pcmreader)
f.write(header)
try:
transfer_framelist_data(counter, f.write, True, True)
except (IOError, ValueError) as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
if (total_pcm_frames is not None):
if (total_pcm_frames != counter.frames_written):
# ensure written number of PCM frames
# matches total_pcm_frames argument
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
cls.__unlink__(filename)
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
else:
f.close()
else:
# go back and rewrite populated header
# with counted number of PCM frames
f.seek(0, 0)
f.write(
au_header(pcmreader.sample_rate, pcmreader.channels,
pcmreader.bits_per_sample, counter.frames_written))
f.close()
return AuAudio(filename)
def from_aiff(cls,
filename,
header,
pcmreader,
footer,
compression=None,
block_size=256,
encoding_function=None):
"""encodes a new file from AIFF data
takes a filename string, header string,
PCMReader object, footer string
and optional compression level string
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new AiffAudio object
header + pcm data + footer should always result
in the original AIFF file being restored
without need for any padding bytes
may raise EncodingError if some problem occurs when
encoding the input file"""
from audiotools import (CounterPCMReader, BufferedPCMReader,
UnsupportedBitsPerSample, EncodingError)
from audiotools.aiff import (validate_header, validate_footer)
if (encoding_function is None):
from audiotools.encoders import encode_shn
else:
encode_shn = encoding_function
if (pcmreader.bits_per_sample not in (8, 16)):
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
# ensure header is valid
try:
(total_size, ssnd_size) = validate_header(header)
except ValueError as err:
raise EncodingError(str(err))
counter = CounterPCMReader(pcmreader)
try:
if (len(footer) == 0):
encode_shn(filename=filename,
pcmreader=BufferedPCMReader(counter),
is_big_endian=True,
signed_samples=True,
header_data=header,
block_size=block_size)
else:
encode_shn(filename=filename,
pcmreader=BufferedPCMReader(counter),
is_big_endian=True,
signed_samples=True,
header_data=header,
footer_data=footer,
block_size=block_size)
ssnd_bytes_written = counter.bytes_written()
# ensure output data size matches the "SSND" chunk's size
if (ssnd_size != ssnd_bytes_written):
from audiotools.text import ERR_AIFF_TRUNCATED_SSND_CHUNK
raise EncodingError(ERR_AIFF_TRUNCATED_SSND_CHUNK)
# ensure footer validates correctly
try:
validate_footer(footer, ssnd_bytes_written)
except ValueError as err:
raise EncodingError(str(err))
# ensure total size is correct
if ((len(header) + ssnd_size + len(footer)) != total_size):
from audiotools.text import ERR_AIFF_INVALID_SIZE
raise EncodingError(ERR_AIFF_INVALID_SIZE)
return cls(filename)
except IOError as err:
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception as err:
cls.__unlink__(filename)
raise err
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
"""encodes a new file from PCM data
takes a filename string, PCMReader object,
optional compression level string and optional
total_pcm_frames integer
encodes a new audio file from pcmreader's data
at the given filename with the specified compression level
and returns a new M4AAudio object"""
import subprocess
import os
from audiotools import PCMConverter
from audiotools import transfer_data
from audiotools import transfer_framelist_data
from audiotools import ignore_sigint
from audiotools import EncodingError
from audiotools import DecodingError
from audiotools import ChannelMask
from audiotools import __default_quality__
if ((compression is None)
or (compression not in cls.COMPRESSION_MODES)):
compression = __default_quality__(cls.NAME)
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if pcmreader.channels > 2:
pcmreader = PCMConverter(pcmreader,
sample_rate=pcmreader.sample_rate,
channels=2,
channel_mask=ChannelMask.from_channels(2),
bits_per_sample=pcmreader.bits_per_sample)
# faac requires files to end with .m4a for some reason
if not filename.endswith(".m4a"):
import tempfile
actual_filename = filename
tempfile = tempfile.NamedTemporaryFile(suffix=".m4a")
filename = tempfile.name
else:
actual_filename = tempfile = None
sub = subprocess.Popen(
[
BIN['faac'], "-q", compression, "-P", "-R",
str(pcmreader.sample_rate), "-B",
str(pcmreader.bits_per_sample), "-C",
str(pcmreader.channels), "-X", "-o", filename, "-"
],
stdin=subprocess.PIPE,
stderr=subprocess.DEVNULL
if hasattr(subprocess, "DEVNULL") else open(os.devnull, "wb"),
stdout=subprocess.DEVNULL
if hasattr(subprocess, "DEVNULL") else open(os.devnull, "wb"),
preexec_fn=ignore_sigint)
# Note: faac handles SIGINT on its own,
# so trying to ignore it doesn't work like on most other encoders.
try:
if total_pcm_frames is not None:
from audiotools import CounterPCMReader
pcmreader = CounterPCMReader(pcmreader)
transfer_framelist_data(pcmreader, sub.stdin.write)
if ((total_pcm_frames is not None)
and (total_pcm_frames != pcmreader.frames_written)):
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
except (ValueError, IOError) as err:
sub.stdin.close()
sub.wait()
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception:
sub.stdin.close()
sub.wait()
cls.__unlink__(filename)
raise
sub.stdin.close()
if sub.wait() == 0:
if tempfile is not None:
filename = actual_filename
f = open(filename, 'wb')
tempfile.seek(0, 0)
transfer_data(tempfile.read, f.write)
f.close()
tempfile.close()
return M4AAudio(filename)
else:
if tempfile is not None:
tempfile.close()
raise EncodingError(u"unable to write file with faac")
def from_pcm(cls,
filename,
pcmreader,
compression=None,
total_pcm_frames=None):
from audiotools import __default_quality__
from audiotools import PCMConverter
from audiotools import ChannelMask
from audiotools.encoders import encode_mpc
if (compression is None) or (compression not in cls.COMPRESSION_MODES):
compression = __default_quality__(cls.NAME)
if pcmreader.bits_per_sample not in {8, 16, 24}:
from audiotools import UnsupportedBitsPerSample
pcmreader.close()
raise UnsupportedBitsPerSample(filename, pcmreader.bits_per_sample)
if pcmreader.sample_rate in (32000, 37800, 44100, 48000):
sample_rate = pcmreader.sample_rate
if total_pcm_frames is not None:
from audiotools import CounterPCMReader
pcmreader = CounterPCMReader(pcmreader)
else:
from bisect import bisect
sample_rate = [32000, 32000, 37800, 44100,
48000][bisect([32000, 37800, 44100, 4800],
pcmreader.sample_rate)]
total_pcm_frames = None
try:
encode_mpc(
filename,
PCMConverter(pcmreader,
sample_rate=sample_rate,
channels=min(pcmreader.channels, 2),
channel_mask=int(
ChannelMask.from_channels(
min(pcmreader.channels, 2))),
bits_per_sample=16), float(compression),
total_pcm_frames if (total_pcm_frames is not None) else 0)
# ensure PCM frames match, if indicated
if ((total_pcm_frames is not None)
and (total_pcm_frames != pcmreader.frames_written)):
from audiotools.text import ERR_TOTAL_PCM_FRAMES_MISMATCH
from audiotools import EncodingError
raise EncodingError(ERR_TOTAL_PCM_FRAMES_MISMATCH)
return MPCAudio(filename)
except (IOError, ValueError) as err:
from audiotools import EncodingError
cls.__unlink__(filename)
raise EncodingError(str(err))
except Exception:
cls.__unlink__(filename)
raise
finally:
pcmreader.close()
