AlkantarClanX12
Current Path : /proc/self/root/opt/alt/python311/lib64/python3.11/email/mime/ |
Current File : //proc/self/root/opt/alt/python311/lib64/python3.11/email/mime/audio.py |
# Copyright (C) 2001-2007 Python Software Foundation # Author: Anthony Baxter # Contact: email-sig@python.org """Class representing audio/* type MIME documents.""" __all__ = ['MIMEAudio'] from io import BytesIO from email import encoders from email.mime.nonmultipart import MIMENonMultipart class MIMEAudio(MIMENonMultipart): """Class for generating audio/* MIME documents.""" def __init__(self, _audiodata, _subtype=None, _encoder=encoders.encode_base64, *, policy=None, **_params): """Create an audio/* type MIME document. _audiodata contains the bytes for the raw audio data. If this data can be decoded as au, wav, aiff, or aifc, then the subtype will be automatically included in the Content-Type header. Otherwise, you can specify the specific audio subtype via the _subtype parameter. If _subtype is not given, and no subtype can be guessed, a TypeError is raised. _encoder is a function which will perform the actual encoding for transport of the image data. It takes one argument, which is this Image instance. It should use get_payload() and set_payload() to change the payload to the encoded form. It should also add any Content-Transfer-Encoding or other headers to the message as necessary. The default encoding is Base64. Any additional keyword arguments are passed to the base class constructor, which turns them into parameters on the Content-Type header. """ if _subtype is None: _subtype = _what(_audiodata) if _subtype is None: raise TypeError('Could not find audio MIME subtype') MIMENonMultipart.__init__(self, 'audio', _subtype, policy=policy, **_params) self.set_payload(_audiodata) _encoder(self) _rules = [] # Originally from the sndhdr module. # # There are others in sndhdr that don't have MIME types. :( # Additional ones to be added to sndhdr? midi, mp3, realaudio, wma?? def _what(data): # Try to identify a sound file type. # # sndhdr.what() had a pretty cruddy interface, unfortunately. This is why # we re-do it here. It would be easier to reverse engineer the Unix 'file' # command and use the standard 'magic' file, as shipped with a modern Unix. hdr = data[:512] fakefile = BytesIO(hdr) for testfn in _rules: if res := testfn(hdr, fakefile): return res else: return None def rule(rulefunc): _rules.append(rulefunc) return rulefunc @rule def _aiff(h, f): if not h.startswith(b'FORM'): return None if h[8:12] in {b'AIFC', b'AIFF'}: return 'x-aiff' else: return None @rule def _au(h, f): if h.startswith(b'.snd'): return 'basic' else: return None @rule def _wav(h, f): # 'RIFF' <len> 'WAVE' 'fmt ' <len> if not h.startswith(b'RIFF') or h[8:12] != b'WAVE' or h[12:16] != b'fmt ': return None else: return "x-wav"