# yapf: disable
import copy
import random
from typing import Optional
import numpy as np
from loguru import logger
from PIL import ImageOps
from pydantic import PositiveInt
from data_juicer.utils.constant import HashKeys
from data_juicer.utils.lazy_loader import LazyLoader
from data_juicer.utils.mm_utils import (SpecialTokens, close_video,
extract_key_frames,
extract_video_frames_uniformly,
insert_texts_after_placeholders,
load_data_with_context, load_video,
remove_non_special_tokens,
remove_special_tokens)
from data_juicer.utils.model_utils import get_model, prepare_model
from ..base_op import OPERATORS, Mapper
from ..op_fusion import LOADED_VIDEOS
simhash = LazyLoader('simhash', 'simhash')
OP_NAME = 'video_captioning_from_frames_mapper'
[docs]@OPERATORS.register_module(OP_NAME)
@LOADED_VIDEOS.register_module(OP_NAME)
class VideoCaptioningFromFramesMapper(Mapper):
"""Mapper to generate samples whose captions are generated based on
an image-to-text model and sampled video frames. Captions from different
frames will be concatenated to a single string."""
_accelerator = 'cuda'
_batched_op = True
[docs] def __init__(
self,
hf_img2seq: str = 'Salesforce/blip2-opt-2.7b',
trust_remote_code: bool = False,
caption_num: PositiveInt = 1,
keep_candidate_mode: str = 'random_any',
keep_original_sample: bool = True,
prompt: Optional[str] = None,
prompt_key: Optional[str] = None,
frame_sampling_method: str = 'all_keyframes',
frame_num: PositiveInt = 3,
horizontal_flip: bool = False,
vertical_flip: bool = False,
*args,
**kwargs,
):
"""
Initialization method.
:param hf_img2seq: model name on huggingface to generate caption
:param caption_num: how many candidate captions to generate
for each video
:param keep_candidate_mode: retain strategy for the generated
$caption_num$ candidates.
'random_any': Retain the random one from generated captions
'similar_one_simhash': Retain the generated one that is most
similar to the original caption
'all': Retain all generated captions by concatenation
Note:
This is a batched_OP, whose input and output type are
both list. Suppose there are $N$ list of input samples, whose batch
size is $b$, and denote caption_num as $M$.
The number of total samples after generation is $2Nb$ when
keep_original_sample is True and $Nb$ when keep_original_sample is
False. For 'random_any' and 'similar_one_simhash' mode,
it's $(1+M)Nb$ for 'all' mode when keep_original_sample is True
and $MNb$ when keep_original_sample is False.
:param keep_original_sample: whether to keep the original sample. If
it's set to False, there will be only generated captions in the
final datasets and the original captions will be removed. It's True
in default.
:param prompt: a string prompt to guide the generation of image-to-text
model for all samples globally. It's None in default, which means
no prompt provided.
:param prompt_key: the key name of fields in samples to store prompts
for each sample. It's used for set different prompts for different
samples. If it's none, use prompt in parameter "prompt". It's None
in default.
:param frame_sampling_method: sampling method of extracting frame
videos from the videos. Should be one of
["all_keyframes", "uniform"].
The former one extracts all key frames (the number
of which depends on the duration of the video) and the latter
one extract specified number of frames uniformly from the video.
Default: "all_keyframes".
:param frame_num: the number of frames to be extracted uniformly from
the video. Only works when frame_sampling_method is "uniform". If
it's 1, only the middle frame will be extracted. If it's 2, only
the first and the last frames will be extracted. If it's larger
than 2, in addition to the first and the last frames, other frames
will be extracted uniformly within the video duration.
:param horizontal_flip: flip frame video horizontally (left to right).
:param vertical_flip: flip frame video vertically (top to bottom).
:param args: extra args
:param kwargs: extra args
"""
super().__init__(*args, **kwargs)
if keep_candidate_mode not in [
'random_any', 'similar_one_simhash', 'all'
]:
raise ValueError(
f'Keep strategy [{keep_candidate_mode}] is not supported. '
f'Can only be one of '
f'["random_any", "similar_one_simhash", "all"].')
if keep_candidate_mode in ['random_any', 'similar_one_simhash']:
self.num_newly_generated_samples = 1
elif keep_candidate_mode in ['all']:
self.num_newly_generated_samples = caption_num
else:
self.num_newly_generated_samples = 0
# report a warning when both prompt and prompt_key are set
if prompt and prompt_key:
logger.warning(
'Both the parameter `prompt` and `prompt_key` are '
'set. Data-Juicer will consider `prompt_key` first.')
self.caption_num = caption_num
self.keep_candidate_mode = keep_candidate_mode
self.keep_original_sample = keep_original_sample
self.prompt = prompt
self.prompt_key = prompt_key
self.extra_args = kwargs
if frame_sampling_method not in ['all_keyframes', 'uniform']:
raise ValueError(
f'Frame sampling method '
f'[{frame_sampling_method}] is not supported. '
f'Can only be one of ["all_keyframes", "uniform"].')
self.horizontal_flip = horizontal_flip
self.vertical_flip = vertical_flip
self.frame_sampling_method = frame_sampling_method
self.frame_num = frame_num
self.model_key = prepare_model(
model_type='huggingface',
pretrained_model_name_or_path=hf_img2seq,
trust_remote_code=trust_remote_code
)
def _process_single_sample(self, ori_sample, rank=None, context=False):
# there is no videos in this sample
if self.video_key not in ori_sample or not ori_sample[self.video_key]:
return []
# the generated results
generated_samples = [
copy.deepcopy(ori_sample)
for _ in range(self.num_newly_generated_samples)
]
for generated_sample in generated_samples:
generated_sample[self.text_key] = ''
# load videos
loaded_video_keys = ori_sample[self.video_key]
sample, videos = load_data_with_context(ori_sample, context,
loaded_video_keys, load_video)
text = sample[self.text_key]
offset = 0
model, processor = get_model(self.model_key, rank, self.use_cuda())
for chunk in text.split(SpecialTokens.eoc):
video_count = chunk.count(SpecialTokens.video)
# no video or no text
if video_count == 0 or len(chunk.strip()) == 0:
continue
else:
text_with_only_special_tokens = remove_non_special_tokens(
chunk)
# generate candidate caption(s) in batch manner
generated_text_candidates_single_chunk = [
[] for _ in range(self.caption_num)
]
for video_key in loaded_video_keys[offset:offset +
video_count]:
video = videos[video_key]
video_frame_videos_chunk = []
# extract frame videos
if self.frame_sampling_method == 'all_keyframes':
frames = extract_key_frames(video)
elif self.frame_sampling_method == 'uniform':
frames = extract_video_frames_uniformly(
video, self.frame_num)
else:
frames = []
frame_videos = [frame.to_image() for frame in frames]
for frame in frame_videos:
if self.horizontal_flip:
frame = ImageOps.mirror(frame)
if self.vertical_flip:
frame = ImageOps.flip(frame)
video_frame_videos_chunk.append(frame)
# construct prompts
if self.prompt_key and isinstance(
ori_sample[self.prompt_key], str):
# check prompt_key is not None, and it's a str
# in the sample
prompt_texts = [ori_sample[self.prompt_key]
] * len(video_frame_videos_chunk)
elif self.prompt and isinstance(self.prompt, str):
# check prompt is not None, and it's a str
prompt_texts = [self.prompt
] * len(video_frame_videos_chunk)
else:
prompt_texts = None
inputs = processor(
text=prompt_texts,
images=video_frame_videos_chunk,
return_tensors='pt',
).to(model.device)
for i in range(self.caption_num):
generated_ids = model.generate(**inputs,
max_new_tokens=128,
do_sample=True)
generated_text = processor.batch_decode(
generated_ids, skip_special_tokens=True)
generated_text_candidates_single_chunk[i] += [
'. '.join([txt.strip() for txt in generated_text])
]
# 3. insert a list of generated captions into the positions of
# subsequent placeholders in the original string
new_generated_text_all_videos = [
[] for _ in range(self.num_newly_generated_samples)
]
# new_generated_text_all_videos is a helper array,
# element [i][j]
# denotes the reduced $i$-th result for the $j$-th video
# reduce the captions according to given mode video by video
for j in range(video_count):
new_generated_text_per_video = self._reduce_captions(
chunk,
[
captions[j] for captions in
generated_text_candidates_single_chunk
],
)
assert self.num_newly_generated_samples == len(
new_generated_text_per_video)
for i in range(len(new_generated_text_per_video)):
new_generated_text_all_videos[i].append(
new_generated_text_per_video[i])
# insert the captions according to given mode
place_holders = [SpecialTokens.video] * video_count
for i in range(self.num_newly_generated_samples):
generated_text_per_chunk = insert_texts_after_placeholders(
original_string=text_with_only_special_tokens,
placeholders=place_holders,
new_texts=new_generated_text_all_videos[i],
)
generated_samples[i][
self.
text_key] += f'{generated_text_per_chunk}' \
f'{SpecialTokens.eoc}'
offset += video_count
if not context:
for vid_key in videos:
close_video(videos[vid_key])
return generated_samples
def _reduce_captions(self, chunk, generated_text_candidates_single_chunk):
generated_text_per_chunk = []
if self.keep_candidate_mode == 'random_any':
generated_text_per_chunk.append(
random.choice(generated_text_candidates_single_chunk))
elif self.keep_candidate_mode == 'all':
generated_text_per_chunk.extend(
generated_text_candidates_single_chunk)
elif self.keep_candidate_mode == 'similar_one_simhash':
from ..deduplicator.document_simhash_deduplicator import \
DocumentSimhashDeduplicator
ori_normal_text = remove_special_tokens(chunk)
# using a simhash OP to calculate their similarity
# NOTE: simhash is just one method to calculate the similarities
# between texts, but not the most accurate one. More methods (e.g.
# embedding-based, ...) will be added.
op_simhash = DocumentSimhashDeduplicator(window_size=2,
**self.extra_args)
ori_text_hash = np.uint64(
op_simhash.compute_hash({op_simhash.text_key:
ori_normal_text})[HashKeys.simhash])
generated_text_hashes = [
np.uint64(
op_simhash.compute_hash(
{op_simhash.text_key:
candidate_text})[HashKeys.simhash])
for candidate_text in generated_text_candidates_single_chunk
]
hamming_distances = [
simhash.num_differing_bits(ori_text_hash, generated_text_hash)
for generated_text_hash in generated_text_hashes
]
max_index = min(range(len(hamming_distances)),
key=hamming_distances.__getitem__)
generated_text_per_chunk.append(
generated_text_candidates_single_chunk[max_index])
return generated_text_per_chunk
[docs] def process_batched(self, samples, rank=None, context=False):
"""
:param samples:
:return:
Note:
This is a batched_OP, whose the input and output type are
both list. Suppose there are $N$ input sample list with batch
size as $b$, and denote caption_num as $M$.
the number of total samples after generation is $2Nb$
for 'random_any' and 'similar_one' mode,
and $(1+M)Nb$ for 'all' mode.
"""
# reconstruct samples from "dict of lists" to "list of dicts"
reconstructed_samples = []
for i in range(len(samples[self.text_key])):
reconstructed_samples.append(
{key: samples[key][i]
for key in samples})
samples_after_generation = []
# do generation for each sample within the batch
for ori_sample in reconstructed_samples:
if self.keep_original_sample:
samples_after_generation.append(ori_sample)
generated_samples = self._process_single_sample(ori_sample,
rank=rank,
context=context)
if len(generated_samples) != 0:
samples_after_generation.extend(generated_samples)
# reconstruct samples from "list of dicts" to "dict of lists"
keys = samples_after_generation[0].keys()
res_samples = {}
for key in keys:
res_samples[key] = [s[key] for s in samples_after_generation]
return res_samples