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#!/usr/bin/env python3
# Portions Copyright (c) Meta Platforms, Inc. and affiliates.
# All rights reserved.
# This source code is licensed under the license found in the
# LICENSE file in the root directory of this source tree.
import math
import torch
import torch.nn as nn
import torchaudio
import logging
from models.multimodal_preprocessors import SimpleTokenizer
from PIL import Image
from pytorchvideo import transforms as pv_transforms
from pytorchvideo.data.clip_sampling import ConstantClipsPerVideoSampler
from pytorchvideo.data.encoded_video import EncodedVideo
from torchvision import transforms
from torchvision.transforms._transforms_video import NormalizeVideo
DEFAULT_AUDIO_FRAME_SHIFT_MS = 10 # in milliseconds
BPE_PATH = "bpe/bpe_simple_vocab_16e6.txt.gz"
def waveform2melspec(waveform, sample_rate, num_mel_bins, target_length):
# Based on https://github.com/YuanGongND/ast/blob/d7d8b4b8e06cdaeb6c843cdb38794c1c7692234c/src/dataloader.py#L102
waveform -= waveform.mean()
fbank = torchaudio.compliance.kaldi.fbank(
waveform,
htk_compat=True,
sample_frequency=sample_rate,
use_energy=False,
window_type="hanning",
num_mel_bins=num_mel_bins,
dither=0.0,
frame_length=25,
frame_shift=DEFAULT_AUDIO_FRAME_SHIFT_MS,
)
# Convert to [mel_bins, num_frames] shape
fbank = fbank.transpose(0, 1)
# Pad to target_length
n_frames = fbank.size(1)
p = target_length - n_frames
# if p is too large (say >20%), flash a warning
if abs(p) / n_frames > 0.2:
logging.warning(
"Large gap between audio n_frames(%d) and "
"target_length (%d). Is the audio_target_length "
"setting correct?",
n_frames,
target_length,
)
# cut and pad
if p > 0:
fbank = torch.nn.functional.pad(fbank, (0, p), mode="constant", value=0)
elif p < 0:
fbank = fbank[:, 0:target_length]
# Convert to [1, mel_bins, num_frames] shape, essentially like a 1
# channel image
fbank = fbank.unsqueeze(0)
return fbank
def get_clip_timepoints(clip_sampler, duration):
# Read out all clips in this video
all_clips_timepoints = []
is_last_clip = False
end = 0.0
while not is_last_clip:
start, end, _, _, is_last_clip = clip_sampler(end, duration, annotation=None)
all_clips_timepoints.append((start, end))
return all_clips_timepoints
def load_and_transform_vision_data_from_pil_image(img_list, device):
if img_list is None:
return None
image_ouputs = []
for image in img_list:
data_transform = transforms.Compose(
[
transforms.Resize(
224, interpolation=transforms.InterpolationMode.BICUBIC
),
transforms.CenterCrop(224),
transforms.ToTensor(),
transforms.Normalize(
mean=(0.48145466, 0.4578275, 0.40821073),
std=(0.26862954, 0.26130258, 0.27577711),
),
]
)
image = data_transform(image).to(device)
image_ouputs.append(image)
return torch.stack(image_ouputs, dim=0)
def load_and_transform_vision_data(image_paths, device):
if image_paths is None:
return None
image_ouputs = []
for image_path in image_paths:
data_transform = transforms.Compose(
[
transforms.Resize(
224, interpolation=transforms.InterpolationMode.BICUBIC
),
transforms.CenterCrop(224),
transforms.ToTensor(),
transforms.Normalize(
mean=(0.48145466, 0.4578275, 0.40821073),
std=(0.26862954, 0.26130258, 0.27577711),
),
]
)
with open(image_path, "rb") as fopen:
image = Image.open(fopen).convert("RGB")
image = data_transform(image).to(device)
image_ouputs.append(image)
return torch.stack(image_ouputs, dim=0)
def load_and_transform_text(text, device):
if text is None:
return None
tokenizer = SimpleTokenizer(bpe_path=BPE_PATH)
tokens = [tokenizer(t).unsqueeze(0).to(device) for t in text]
tokens = torch.cat(tokens, dim=0)
return tokens
def load_and_transform_audio_data(
audio_paths,
device,
num_mel_bins=128,
target_length=204,
sample_rate=16000,
clip_duration=2,
clips_per_video=3,
mean=-4.268,
std=9.138,
):
if audio_paths is None:
return None
audio_outputs = []
clip_sampler = ConstantClipsPerVideoSampler(
clip_duration=clip_duration, clips_per_video=clips_per_video
)
for audio_path in audio_paths:
waveform, sr = torchaudio.load(audio_path)
if sample_rate != sr:
waveform = torchaudio.functional.resample(
waveform, orig_freq=sr, new_freq=sample_rate
)
all_clips_timepoints = get_clip_timepoints(
clip_sampler, waveform.size(1) / sample_rate
)
all_clips = []
for clip_timepoints in all_clips_timepoints:
waveform_clip = waveform[
:,
int(clip_timepoints[0] * sample_rate) : int(
clip_timepoints[1] * sample_rate
),
]
waveform_melspec = waveform2melspec(
waveform_clip, sample_rate, num_mel_bins, target_length
)
all_clips.append(waveform_melspec)
normalize = transforms.Normalize(mean=mean, std=std)
all_clips = [normalize(ac).to(device) for ac in all_clips]
all_clips = torch.stack(all_clips, dim=0)
audio_outputs.append(all_clips)
return torch.stack(audio_outputs, dim=0)
def get_clip_timepoints(clip_sampler, duration):
# Read out all clips in this video
all_clips_timepoints = []
is_last_clip = False
end = 0.0
while not is_last_clip:
start, end, _, _, is_last_clip = clip_sampler(end, duration, annotation=None)
all_clips_timepoints.append((start, end))
return all_clips_timepoints
def crop_boxes(boxes, x_offset, y_offset):
"""
Peform crop on the bounding boxes given the offsets.
Args:
boxes (ndarray or None): bounding boxes to peform crop. The dimension
is `num boxes` x 4.
x_offset (int): cropping offset in the x axis.
y_offset (int): cropping offset in the y axis.
Returns:
cropped_boxes (ndarray or None): the cropped boxes with dimension of
`num boxes` x 4.
"""
cropped_boxes = boxes.copy()
cropped_boxes[:, [0, 2]] = boxes[:, [0, 2]] - x_offset
cropped_boxes[:, [1, 3]] = boxes[:, [1, 3]] - y_offset
return cropped_boxes
def uniform_crop(images, size, spatial_idx, boxes=None, scale_size=None):
"""
Perform uniform spatial sampling on the images and corresponding boxes.
Args:
images (tensor): images to perform uniform crop. The dimension is
`num frames` x `channel` x `height` x `width`.
size (int): size of height and weight to crop the images.
spatial_idx (int): 0, 1, or 2 for left, center, and right crop if width
is larger than height. Or 0, 1, or 2 for top, center, and bottom
crop if height is larger than width.
boxes (ndarray or None): optional. Corresponding boxes to images.
Dimension is `num boxes` x 4.
scale_size (int): optinal. If not None, resize the images to scale_size before
performing any crop.
Returns:
cropped (tensor): images with dimension of
`num frames` x `channel` x `size` x `size`.
cropped_boxes (ndarray or None): the cropped boxes with dimension of
`num boxes` x 4.
"""
assert spatial_idx in [0, 1, 2]
ndim = len(images.shape)
if ndim == 3:
images = images.unsqueeze(0)
height = images.shape[2]
width = images.shape[3]
if scale_size is not None:
if width <= height:
width, height = scale_size, int(height / width * scale_size)
else:
width, height = int(width / height * scale_size), scale_size
images = torch.nn.functional.interpolate(
images,
size=(height, width),
mode="bilinear",
align_corners=False,
)
y_offset = int(math.ceil((height - size) / 2))
x_offset = int(math.ceil((width - size) / 2))
if height > width:
if spatial_idx == 0:
y_offset = 0
elif spatial_idx == 2:
y_offset = height - size
else:
if spatial_idx == 0:
x_offset = 0
elif spatial_idx == 2:
x_offset = width - size
cropped = images[:, :, y_offset : y_offset + size, x_offset : x_offset + size]
cropped_boxes = crop_boxes(boxes, x_offset, y_offset) if boxes is not None else None
if ndim == 3:
cropped = cropped.squeeze(0)
return cropped, cropped_boxes
class SpatialCrop(nn.Module):
"""
Convert the video into 3 smaller clips spatially. Must be used after the
temporal crops to get spatial crops, and should be used with
-2 in the spatial crop at the slowfast augmentation stage (so full
frames are passed in here). Will return a larger list with the
3x spatial crops as well.
"""
def __init__(self, crop_size: int = 224, num_crops: int = 3):
super().__init__()
self.crop_size = crop_size
if num_crops == 3:
self.crops_to_ext = [0, 1, 2]
self.flipped_crops_to_ext = []
elif num_crops == 1:
self.crops_to_ext = [1]
self.flipped_crops_to_ext = []
else:
raise NotImplementedError("Nothing else supported yet")
def forward(self, videos):
"""
Args:
videos: A list of C, T, H, W videos.
Returns:
videos: A list with 3x the number of elements. Each video converted
to C, T, H', W' by spatial cropping.
"""
assert isinstance(videos, list), "Must be a list of videos after temporal crops"
assert all([video.ndim == 4 for video in videos]), "Must be (C,T,H,W)"
res = []
for video in videos:
for spatial_idx in self.crops_to_ext:
res.append(uniform_crop(video, self.crop_size, spatial_idx)[0])
if not self.flipped_crops_to_ext:
continue
flipped_video = transforms.functional.hflip(video)
for spatial_idx in self.flipped_crops_to_ext:
res.append(uniform_crop(flipped_video, self.crop_size, spatial_idx)[0])
return res
def load_and_transform_video_data(
video_paths,
device,
clip_duration=2,
clips_per_video=5,
sample_rate=16000,
):
if video_paths is None:
return None
video_outputs = []
video_transform = transforms.Compose(
[
pv_transforms.ShortSideScale(224),
NormalizeVideo(
mean=(0.48145466, 0.4578275, 0.40821073),
std=(0.26862954, 0.26130258, 0.27577711),
),
]
)
clip_sampler = ConstantClipsPerVideoSampler(
clip_duration=clip_duration, clips_per_video=clips_per_video
)
frame_sampler = pv_transforms.UniformTemporalSubsample(num_samples=clip_duration)
for video_path in video_paths:
video = EncodedVideo.from_path(
video_path,
decoder="decord",
decode_audio=False,
**{"sample_rate": sample_rate},
)
all_clips_timepoints = get_clip_timepoints(clip_sampler, video.duration)
all_video = []
for clip_timepoints in all_clips_timepoints:
# Read the clip, get frames
clip = video.get_clip(clip_timepoints[0], clip_timepoints[1])
if clip is None:
raise ValueError("No clip found")
video_clip = frame_sampler(clip["video"])
video_clip = video_clip / 255.0 # since this is float, need 0-1
all_video.append(video_clip)
all_video = [video_transform(clip) for clip in all_video]
all_video = SpatialCrop(224, num_crops=3)(all_video)
all_video = torch.stack(all_video, dim=0)
video_outputs.append(all_video)
return torch.stack(video_outputs, dim=0).to(device)