VEO3-Free

Running on Zero

Rex Cheng

test

c58ca4b 11 months ago

4.63 kB

	from dataclasses import dataclass
	from fractions import Fraction
	from pathlib import Path
	from typing import Optional

	import av
	import numpy as np
	import torch
	from av import AudioFrame


	@dataclass
	class VideoInfo:
	duration_sec: float
	fps: Fraction
	clip_frames: torch.Tensor
	sync_frames: torch.Tensor
	all_frames: Optional[list[np.ndarray]]

	@property
	def height(self):
	return self.all_frames[0].shape[0]

	@property
	def width(self):
	return self.all_frames[0].shape[1]


	def read_frames(video_path: Path, list_of_fps: list[float], start_sec: float, end_sec: float,
	need_all_frames: bool) -> tuple[list[np.ndarray], list[np.ndarray], Fraction]:
	output_frames = [[] for _ in list_of_fps]
	next_frame_time_for_each_fps = [0.0 for _ in list_of_fps]
	time_delta_for_each_fps = [1 / fps for fps in list_of_fps]
	all_frames = []

	# container = av.open(video_path)
	with av.open(video_path) as container:
	stream = container.streams.video[0]
	fps = stream.guessed_rate
	stream.thread_type = 'AUTO'
	for packet in container.demux(stream):
	for frame in packet.decode():
	frame_time = frame.time
	if frame_time < start_sec:
	continue
	if frame_time > end_sec:
	break

	frame_np = None
	if need_all_frames:
	frame_np = frame.to_ndarray(format='rgb24')
	all_frames.append(frame_np)

	for i, _ in enumerate(list_of_fps):
	this_time = frame_time
	while this_time >= next_frame_time_for_each_fps[i]:
	if frame_np is None:
	frame_np = frame.to_ndarray(format='rgb24')

	output_frames[i].append(frame_np)
	next_frame_time_for_each_fps[i] += time_delta_for_each_fps[i]

	output_frames = [np.stack(frames) for frames in output_frames]
	return output_frames, all_frames, fps


	def reencode_with_audio(video_info: VideoInfo, output_path: Path, audio: torch.Tensor,
	sampling_rate: int):
	container = av.open(output_path, 'w')
	output_video_stream = container.add_stream('h264', video_info.fps)
	output_video_stream.codec_context.bit_rate = 10 * 1e6 # 10 Mbps
	output_video_stream.width = video_info.width
	output_video_stream.height = video_info.height
	output_video_stream.pix_fmt = 'yuv420p'

	output_audio_stream = container.add_stream('aac', sampling_rate)

	# encode video
	for image in video_info.all_frames:
	image = av.VideoFrame.from_ndarray(image)
	packet = output_video_stream.encode(image)
	container.mux(packet)

	for packet in output_video_stream.encode():
	container.mux(packet)

	# convert float tensor audio to numpy array
	audio_np = audio.numpy().astype(np.float32)
	audio_frame = AudioFrame.from_ndarray(audio_np, format='flt', layout='mono')
	audio_frame.sample_rate = sampling_rate

	for packet in output_audio_stream.encode(audio_frame):
	container.mux(packet)

	for packet in output_audio_stream.encode():
	container.mux(packet)

	container.close()


	def remux_with_audio(video_path: Path, audio: torch.Tensor, output_path: Path, sampling_rate: int):
	"""
	NOTE: I don't think we can get the exact video duration right without re-encoding
	so we are not using this but keeping it here for reference
	"""
	video = av.open(video_path)
	output = av.open(output_path, 'w')
	input_video_stream = video.streams.video[0]
	output_video_stream = output.add_stream(template=input_video_stream)
	output_audio_stream = output.add_stream('aac', sampling_rate)

	duration_sec = audio.shape[-1] / sampling_rate

	for packet in video.demux(input_video_stream):
	# We need to skip the "flushing" packets that `demux` generates.
	if packet.dts is None:
	continue
	# We need to assign the packet to the new stream.
	packet.stream = output_video_stream
	output.mux(packet)

	# convert float tensor audio to numpy array
	audio_np = audio.numpy().astype(np.float32)
	audio_frame = av.AudioFrame.from_ndarray(audio_np, format='flt', layout='mono')
	audio_frame.sample_rate = sampling_rate

	for packet in output_audio_stream.encode(audio_frame):
	output.mux(packet)

	for packet in output_audio_stream.encode():
	output.mux(packet)

	video.close()
	output.close()

	output.close()