Source code for torchvision.io.video
import gc
import math
import os
import re
import warnings
from fractions import Fraction
from typing import Any, Dict, List, Optional, Tuple, Union
import numpy as np
import torch
from . import _video_opt
try:
import av
av.logging.set_level(av.logging.ERROR)
if not hasattr(av.video.frame.VideoFrame, "pict_type"):
av = ImportError(
"""\
Your version of PyAV is too old for the necessary video operations in torchvision.
If you are on Python 3.5, you will have to build from source (the conda-forge
packages are not up-to-date). See
https://github.com/mikeboers/PyAV#installation for instructions on how to
install PyAV on your system.
"""
)
except ImportError:
av = ImportError(
"""\
PyAV is not installed, and is necessary for the video operations in torchvision.
See https://github.com/mikeboers/PyAV#installation for instructions on how to
install PyAV on your system.
"""
)
def _check_av_available() -> None:
if isinstance(av, Exception):
raise av
def _av_available() -> bool:
return not isinstance(av, Exception)
# PyAV has some reference cycles
_CALLED_TIMES = 0
_GC_COLLECTION_INTERVAL = 10
[docs]def write_video(
filename: str,
video_array: torch.Tensor,
fps: float,
video_codec: str = "libx264",
options: Optional[Dict[str, Any]] = None,
audio_array: Optional[torch.Tensor] = None,
audio_fps: Optional[float] = None,
audio_codec: Optional[str] = None,
audio_options: Optional[Dict[str, Any]] = None,
) -> None:
"""
Writes a 4d tensor in [T, H, W, C] format in a video file
Args:
filename (str): path where the video will be saved
video_array (Tensor[T, H, W, C]): tensor containing the individual frames,
as a uint8 tensor in [T, H, W, C] format
fps (Number): video frames per second
video_codec (str): the name of the video codec, i.e. "libx264", "h264", etc.
options (Dict): dictionary containing options to be passed into the PyAV video stream
audio_array (Tensor[C, N]): tensor containing the audio, where C is the number of channels
and N is the number of samples
audio_fps (Number): audio sample rate, typically 44100 or 48000
audio_codec (str): the name of the audio codec, i.e. "mp3", "aac", etc.
audio_options (Dict): dictionary containing options to be passed into the PyAV audio stream
"""
_check_av_available()
video_array = torch.as_tensor(video_array, dtype=torch.uint8).numpy()
# PyAV does not support floating point numbers with decimal point
# and will throw OverflowException in case this is not the case
if isinstance(fps, float):
fps = np.round(fps)
with av.open(filename, mode="w") as container:
stream = container.add_stream(video_codec, rate=fps)
stream.width = video_array.shape[2]
stream.height = video_array.shape[1]
stream.pix_fmt = "yuv420p" if video_codec != "libx264rgb" else "rgb24"
stream.options = options or {}
if audio_array is not None:
audio_format_dtypes = {
'dbl': '<f8',
'dblp': '<f8',
'flt': '<f4',
'fltp': '<f4',
's16': '<i2',
's16p': '<i2',
's32': '<i4',
's32p': '<i4',
'u8': 'u1',
'u8p': 'u1',
}
a_stream = container.add_stream(audio_codec, rate=audio_fps)
a_stream.options = audio_options or {}
num_channels = audio_array.shape[0]
audio_layout = "stereo" if num_channels > 1 else "mono"
audio_sample_fmt = container.streams.audio[0].format.name
format_dtype = np.dtype(audio_format_dtypes[audio_sample_fmt])
audio_array = torch.as_tensor(audio_array).numpy().astype(format_dtype)
frame = av.AudioFrame.from_ndarray(
audio_array, format=audio_sample_fmt, layout=audio_layout
)
frame.sample_rate = audio_fps
for packet in a_stream.encode(frame):
container.mux(packet)
for packet in a_stream.encode():
container.mux(packet)
for img in video_array:
frame = av.VideoFrame.from_ndarray(img, format="rgb24")
frame.pict_type = "NONE"
for packet in stream.encode(frame):
container.mux(packet)
# Flush stream
for packet in stream.encode():
container.mux(packet)
def _read_from_stream(
container: "av.container.Container",
start_offset: float,
end_offset: float,
pts_unit: str,
stream: "av.stream.Stream",
stream_name: Dict[str, Optional[Union[int, Tuple[int, ...], List[int]]]],
) -> List["av.frame.Frame"]:
global _CALLED_TIMES, _GC_COLLECTION_INTERVAL
_CALLED_TIMES += 1
if _CALLED_TIMES % _GC_COLLECTION_INTERVAL == _GC_COLLECTION_INTERVAL - 1:
gc.collect()
if pts_unit == "sec":
start_offset = int(math.floor(start_offset * (1 / stream.time_base)))
if end_offset != float("inf"):
end_offset = int(math.ceil(end_offset * (1 / stream.time_base)))
else:
warnings.warn(
"The pts_unit 'pts' gives wrong results and will be removed in a "
+ "follow-up version. Please use pts_unit 'sec'."
)
frames = {}
should_buffer = True
max_buffer_size = 5
if stream.type == "video":
# DivX-style packed B-frames can have out-of-order pts (2 frames in a single pkt)
# so need to buffer some extra frames to sort everything
# properly
extradata = stream.codec_context.extradata
# overly complicated way of finding if `divx_packed` is set, following
# https://github.com/FFmpeg/FFmpeg/commit/d5a21172283572af587b3d939eba0091484d3263
if extradata and b"DivX" in extradata:
# can't use regex directly because of some weird characters sometimes...
pos = extradata.find(b"DivX")
d = extradata[pos:]
o = re.search(br"DivX(\d+)Build(\d+)(\w)", d)
if o is None:
o = re.search(br"DivX(\d+)b(\d+)(\w)", d)
if o is not None:
should_buffer = o.group(3) == b"p"
seek_offset = start_offset
# some files don't seek to the right location, so better be safe here
seek_offset = max(seek_offset - 1, 0)
if should_buffer:
# FIXME this is kind of a hack, but we will jump to the previous keyframe
# so this will be safe
seek_offset = max(seek_offset - max_buffer_size, 0)
try:
# TODO check if stream needs to always be the video stream here or not
container.seek(seek_offset, any_frame=False, backward=True, stream=stream)
except av.AVError:
# TODO add some warnings in this case
# print("Corrupted file?", container.name)
return []
buffer_count = 0
try:
for _idx, frame in enumerate(container.decode(**stream_name)):
frames[frame.pts] = frame
if frame.pts >= end_offset:
if should_buffer and buffer_count < max_buffer_size:
buffer_count += 1
continue
break
except av.AVError:
# TODO add a warning
pass
# ensure that the results are sorted wrt the pts
result = [
frames[i] for i in sorted(frames) if start_offset <= frames[i].pts <= end_offset
]
if len(frames) > 0 and start_offset > 0 and start_offset not in frames:
# if there is no frame that exactly matches the pts of start_offset
# add the last frame smaller than start_offset, to guarantee that
# we will have all the necessary data. This is most useful for audio
preceding_frames = [i for i in frames if i < start_offset]
if len(preceding_frames) > 0:
first_frame_pts = max(preceding_frames)
result.insert(0, frames[first_frame_pts])
return result
def _align_audio_frames(
aframes: torch.Tensor, audio_frames: List["av.frame.Frame"], ref_start: int, ref_end: float
) -> torch.Tensor:
start, end = audio_frames[0].pts, audio_frames[-1].pts
total_aframes = aframes.shape[1]
step_per_aframe = (end - start + 1) / total_aframes
s_idx = 0
e_idx = total_aframes
if start < ref_start:
s_idx = int((ref_start - start) / step_per_aframe)
if end > ref_end:
e_idx = int((ref_end - end) / step_per_aframe)
return aframes[:, s_idx:e_idx]
[docs]def read_video(
filename: str,
start_pts: Union[float, Fraction] = 0,
end_pts: Optional[Union[float, Fraction]] = None,
pts_unit: str = "pts",
) -> Tuple[torch.Tensor, torch.Tensor, Dict[str, Any]]:
"""
Reads a video from a file, returning both the video frames as well as
the audio frames
Args:
filename (str): path to the video file
start_pts (int if pts_unit = 'pts', float / Fraction if pts_unit = 'sec', optional):
The start presentation time of the video
end_pts (int if pts_unit = 'pts', float / Fraction if pts_unit = 'sec', optional):
The end presentation time
pts_unit (str, optional): unit in which start_pts and end_pts values will be interpreted,
either 'pts' or 'sec'. Defaults to 'pts'.
Returns:
vframes (Tensor[T, H, W, C]): the `T` video frames
aframes (Tensor[K, L]): the audio frames, where `K` is the number of channels and `L` is the number of points
info (Dict): metadata for the video and audio. Can contain the fields video_fps (float) and audio_fps (int)
"""
from torchvision import get_video_backend
if not os.path.exists(filename):
raise RuntimeError(f'File not found: {filename}')
if get_video_backend() != "pyav":
return _video_opt._read_video(filename, start_pts, end_pts, pts_unit)
_check_av_available()
if end_pts is None:
end_pts = float("inf")
if end_pts < start_pts:
raise ValueError(
"end_pts should be larger than start_pts, got "
"start_pts={} and end_pts={}".format(start_pts, end_pts)
)
info = {}
video_frames = []
audio_frames = []
audio_timebase = _video_opt.default_timebase
try:
with av.open(filename, metadata_errors="ignore") as container:
if container.streams.audio:
audio_timebase = container.streams.audio[0].time_base
time_base = _video_opt.default_timebase
if container.streams.video:
time_base = container.streams.video[0].time_base
elif container.streams.audio:
time_base = container.streams.audio[0].time_base
# video_timebase is the default time_base
start_pts, end_pts, pts_unit = _video_opt._convert_to_sec(
start_pts, end_pts, pts_unit, time_base)
if container.streams.video:
video_frames = _read_from_stream(
container,
start_pts,
end_pts,
pts_unit,
container.streams.video[0],
{"video": 0},
)
video_fps = container.streams.video[0].average_rate
# guard against potentially corrupted files
if video_fps is not None:
info["video_fps"] = float(video_fps)
if container.streams.audio:
audio_frames = _read_from_stream(
container,
start_pts,
end_pts,
pts_unit,
container.streams.audio[0],
{"audio": 0},
)
info["audio_fps"] = container.streams.audio[0].rate
except av.AVError:
# TODO raise a warning?
pass
vframes_list = [frame.to_rgb().to_ndarray() for frame in video_frames]
aframes_list = [frame.to_ndarray() for frame in audio_frames]
if vframes_list:
vframes = torch.as_tensor(np.stack(vframes_list))
else:
vframes = torch.empty((0, 1, 1, 3), dtype=torch.uint8)
if aframes_list:
aframes = np.concatenate(aframes_list, 1)
aframes = torch.as_tensor(aframes)
if pts_unit == 'sec':
start_pts = int(math.floor(start_pts * (1 / audio_timebase)))
if end_pts != float("inf"):
end_pts = int(math.ceil(end_pts * (1 / audio_timebase)))
aframes = _align_audio_frames(aframes, audio_frames, start_pts, end_pts)
else:
aframes = torch.empty((1, 0), dtype=torch.float32)
return vframes, aframes, info
def _can_read_timestamps_from_packets(container: "av.container.Container") -> bool:
extradata = container.streams[0].codec_context.extradata
if extradata is None:
return False
if b"Lavc" in extradata:
return True
return False
def _decode_video_timestamps(container: "av.container.Container") -> List[int]:
if _can_read_timestamps_from_packets(container):
# fast path
return [x.pts for x in container.demux(video=0) if x.pts is not None]
else:
return [x.pts for x in container.decode(video=0) if x.pts is not None]
[docs]def read_video_timestamps(filename: str, pts_unit: str = "pts") -> Tuple[List[int], Optional[float]]:
"""
List the video frames timestamps.
Note that the function decodes the whole video frame-by-frame.
Args:
filename (str): path to the video file
pts_unit (str, optional): unit in which timestamp values will be returned
either 'pts' or 'sec'. Defaults to 'pts'.
Returns:
pts (List[int] if pts_unit = 'pts', List[Fraction] if pts_unit = 'sec'):
presentation timestamps for each one of the frames in the video.
video_fps (float, optional): the frame rate for the video
"""
from torchvision import get_video_backend
if get_video_backend() != "pyav":
return _video_opt._read_video_timestamps(filename, pts_unit)
_check_av_available()
video_fps = None
pts = []
try:
with av.open(filename, metadata_errors="ignore") as container:
if container.streams.video:
video_stream = container.streams.video[0]
video_time_base = video_stream.time_base
try:
pts = _decode_video_timestamps(container)
except av.AVError:
warnings.warn(f"Failed decoding frames for file {filename}")
video_fps = float(video_stream.average_rate)
except av.AVError as e:
msg = f"Failed to open container for {filename}; Caught error: {e}"
warnings.warn(msg, RuntimeWarning)
pts.sort()
if pts_unit == "sec":
pts = [x * video_time_base for x in pts]
return pts, video_fps