import io import warnings from typing import Any, Dict, Iterator import torch from ..utils import _log_api_usage_once from ._video_opt import _HAS_VIDEO_OPT if _HAS_VIDEO_OPT: def _has_video_opt() -> bool: return True else: def _has_video_opt() -> bool: return False 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. """ ) class VideoReader: """ Fine-grained video-reading API. Supports frame-by-frame reading of various streams from a single video container. Much like previous video_reader API it supports the following backends: video_reader, pyav, and cuda. Backends can be set via `torchvision.set_video_backend` function. .. betastatus:: VideoReader class Example: The following examples creates a :mod:`VideoReader` object, seeks into 2s point, and returns a single frame:: import torchvision video_path = "path_to_a_test_video" reader = torchvision.io.VideoReader(video_path, "video") reader.seek(2.0) frame = next(reader) :mod:`VideoReader` implements the iterable API, which makes it suitable to using it in conjunction with :mod:`itertools` for more advanced reading. As such, we can use a :mod:`VideoReader` instance inside for loops:: reader.seek(2) for frame in reader: frames.append(frame['data']) # additionally, `seek` implements a fluent API, so we can do for frame in reader.seek(2): frames.append(frame['data']) With :mod:`itertools`, we can read all frames between 2 and 5 seconds with the following code:: for frame in itertools.takewhile(lambda x: x['pts'] <= 5, reader.seek(2)): frames.append(frame['data']) and similarly, reading 10 frames after the 2s timestamp can be achieved as follows:: for frame in itertools.islice(reader.seek(2), 10): frames.append(frame['data']) .. note:: Each stream descriptor consists of two parts: stream type (e.g. 'video') and a unique stream id (which are determined by the video encoding). In this way, if the video container contains multiple streams of the same type, users can access the one they want. If only stream type is passed, the decoder auto-detects first stream of that type. Args: src (string, bytes object, or tensor): The media source. If string-type, it must be a file path supported by FFMPEG. If bytes, should be an in-memory representation of a file supported by FFMPEG. If Tensor, it is interpreted internally as byte buffer. It must be one-dimensional, of type ``torch.uint8``. stream (string, optional): descriptor of the required stream, followed by the stream id, in the format ``{stream_type}:{stream_id}``. Defaults to ``"video:0"``. Currently available options include ``['video', 'audio']`` num_threads (int, optional): number of threads used by the codec to decode video. Default value (0) enables multithreading with codec-dependent heuristic. The performance will depend on the version of FFMPEG codecs supported. """ def __init__( self, src: str, stream: str = "video", num_threads: int = 0, ) -> None: _log_api_usage_once(self) from .. import get_video_backend self.backend = get_video_backend() if isinstance(src, str): if not src: raise ValueError("src cannot be empty") elif isinstance(src, bytes): if self.backend in ["cuda"]: raise RuntimeError( "VideoReader cannot be initialized from bytes object when using cuda or pyav backend." ) elif self.backend == "pyav": src = io.BytesIO(src) else: with warnings.catch_warnings(): # Ignore the warning because we actually don't modify the buffer in this function warnings.filterwarnings("ignore", message="The given buffer is not writable") src = torch.frombuffer(src, dtype=torch.uint8) elif isinstance(src, torch.Tensor): if self.backend in ["cuda", "pyav"]: raise RuntimeError( "VideoReader cannot be initialized from Tensor object when using cuda or pyav backend." ) else: raise ValueError(f"src must be either string, Tensor or bytes object. Got {type(src)}") if self.backend == "cuda": device = torch.device("cuda") self._c = torch.classes.torchvision.GPUDecoder(src, device) elif self.backend == "video_reader": if isinstance(src, str): self._c = torch.classes.torchvision.Video(src, stream, num_threads) elif isinstance(src, torch.Tensor): self._c = torch.classes.torchvision.Video("", "", 0) self._c.init_from_memory(src, stream, num_threads) elif self.backend == "pyav": self.container = av.open(src, metadata_errors="ignore") # TODO: load metadata stream_type = stream.split(":")[0] stream_id = 0 if len(stream.split(":")) == 1 else int(stream.split(":")[1]) self.pyav_stream = {stream_type: stream_id} self._c = self.container.decode(**self.pyav_stream) # TODO: add extradata exception else: raise RuntimeError("Unknown video backend: {}".format(self.backend)) def __next__(self) -> Dict[str, Any]: """Decodes and returns the next frame of the current stream. Frames are encoded as a dict with mandatory data and pts fields, where data is a tensor, and pts is a presentation timestamp of the frame expressed in seconds as a float. Returns: (dict): a dictionary and containing decoded frame (``data``) and corresponding timestamp (``pts``) in seconds """ if self.backend == "cuda": frame = self._c.next() if frame.numel() == 0: raise StopIteration return {"data": frame, "pts": None} elif self.backend == "video_reader": frame, pts = self._c.next() else: try: frame = next(self._c) pts = float(frame.pts * frame.time_base) if "video" in self.pyav_stream: frame = torch.as_tensor(frame.to_rgb().to_ndarray()).permute(2, 0, 1) elif "audio" in self.pyav_stream: frame = torch.as_tensor(frame.to_ndarray()).permute(1, 0) else: frame = None except av.error.EOFError: raise StopIteration if frame.numel() == 0: raise StopIteration return {"data": frame, "pts": pts} def __iter__(self) -> Iterator[Dict[str, Any]]: return self def seek(self, time_s: float, keyframes_only: bool = False) -> "VideoReader": """Seek within current stream. Args: time_s (float): seek time in seconds keyframes_only (bool): allow to seek only to keyframes .. note:: Current implementation is the so-called precise seek. This means following seek, call to :mod:`next()` will return the frame with the exact timestamp if it exists or the first frame with timestamp larger than ``time_s``. """ if self.backend in ["cuda", "video_reader"]: self._c.seek(time_s, keyframes_only) else: # handle special case as pyav doesn't catch it if time_s < 0: time_s = 0 temp_str = self.container.streams.get(**self.pyav_stream)[0] offset = int(round(time_s / temp_str.time_base)) if not keyframes_only: warnings.warn("Accurate seek is not implemented for pyav backend") self.container.seek(offset, backward=True, any_frame=False, stream=temp_str) self._c = self.container.decode(**self.pyav_stream) return self def get_metadata(self) -> Dict[str, Any]: """Returns video metadata Returns: (dict): dictionary containing duration and frame rate for every stream """ if self.backend == "pyav": metadata = {} # type: Dict[str, Any] for stream in self.container.streams: if stream.type not in metadata: if stream.type == "video": rate_n = "fps" else: rate_n = "framerate" metadata[stream.type] = {rate_n: [], "duration": []} rate = stream.average_rate if stream.average_rate is not None else stream.sample_rate metadata[stream.type]["duration"].append(float(stream.duration * stream.time_base)) metadata[stream.type][rate_n].append(float(rate)) return metadata return self._c.get_metadata() def set_current_stream(self, stream: str) -> bool: """Set current stream. Explicitly define the stream we are operating on. Args: stream (string): descriptor of the required stream. Defaults to ``"video:0"`` Currently available stream types include ``['video', 'audio']``. Each descriptor consists of two parts: stream type (e.g. 'video') and a unique stream id (which are determined by video encoding). In this way, if the video container contains multiple streams of the same type, users can access the one they want. If only stream type is passed, the decoder auto-detects first stream of that type and returns it. Returns: (bool): True on success, False otherwise """ if self.backend == "cuda": warnings.warn("GPU decoding only works with video stream.") if self.backend == "pyav": stream_type = stream.split(":")[0] stream_id = 0 if len(stream.split(":")) == 1 else int(stream.split(":")[1]) self.pyav_stream = {stream_type: stream_id} self._c = self.container.decode(**self.pyav_stream) return True return self._c.set_current_stream(stream)