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import preprocess | |
from shared import CustomTokens | |
from dataclasses import dataclass, field | |
class SegmentationArguments: | |
pause_threshold: int = field(default=2, metadata={ | |
'help': 'When the time between words is greater than pause threshold, force into a new segment'}) | |
# WORDS TO ALWAYS HAVE ON THEIR OWN | |
# always_split_re = re.compile(r'\[\w+\]') | |
# e.g., [Laughter], [Applause], [Music] | |
always_split = [ | |
CustomTokens.MUSIC.value, | |
CustomTokens.APPLAUSE.value, | |
CustomTokens.LAUGHTER.value | |
] | |
def get_overlapping_chunks_of_tokens(tokens, size, overlap): | |
for i in range(0, len(tokens), size-overlap+1): | |
yield tokens[i:i+size] | |
# Generate up to max_tokens - SAFETY_TOKENS | |
SAFETY_TOKENS = 12 | |
# TODO play around with this? | |
OVERLAP_TOKEN_PERCENTAGE = 0.5 # 0.25 | |
def add_labels_to_words(words, sponsor_segments): | |
# TODO binary search | |
for word in words: | |
word['category'] = None | |
for sponsor_segment in sponsor_segments: | |
if sponsor_segment['start'] <= word['start'] <= sponsor_segment['end']: | |
word['category'] = sponsor_segment['category'] | |
# TODO use extract_segment with mapping function? | |
# TODO remove sponsor segments that contain mostly empty space? | |
return words | |
def generate_labelled_segments(words, tokenizer, segmentation_args, sponsor_segments): | |
segments = generate_segments(words, tokenizer, segmentation_args) | |
labelled_segments = list( | |
map(lambda x: add_labels_to_words(x, sponsor_segments), segments)) | |
return labelled_segments | |
def word_start(word): | |
return word['start'] | |
def word_end(word): | |
return word.get('end', word['start']) | |
def generate_segments(words, tokenizer, segmentation_args): | |
first_pass_segments = [] | |
for index, word in enumerate(words): | |
# Get length of tokenized word | |
cleaned = preprocess.clean_text(word['text']) | |
word['num_tokens'] = len( | |
tokenizer(cleaned, add_special_tokens=False, truncation=True).input_ids) | |
add_new_segment = index == 0 | |
if not add_new_segment: | |
if word['text'] in always_split or words[index-1]['text'] in always_split: | |
add_new_segment = True | |
# Pause too small, do not split | |
elif word_start(words[index]) - word_end(words[index-1]) >= segmentation_args.pause_threshold: | |
add_new_segment = True | |
if add_new_segment: # New segment | |
first_pass_segments.append([word]) | |
else: # Add to current segment | |
first_pass_segments[-1].append(word) | |
max_q_size = tokenizer.model_max_length - SAFETY_TOKENS | |
buffer_size = OVERLAP_TOKEN_PERCENTAGE*max_q_size # tokenizer.model_max_length | |
# In second pass, we split those segments if too big | |
second_pass_segments = [] | |
for segment in first_pass_segments: | |
current_segment_num_tokens = 0 | |
current_segment = [] | |
for word in segment: | |
new_seg = current_segment_num_tokens + word['num_tokens'] >= max_q_size | |
if new_seg: | |
# Adding this token would make it have too many tokens | |
# We save this batch and create new | |
second_pass_segments.append(current_segment.copy()) | |
# Add tokens to current segment | |
current_segment.append(word) | |
current_segment_num_tokens += word['num_tokens'] | |
if new_seg: | |
# Just created a new segment, so we remove until we only have buffer_size tokens | |
while current_segment_num_tokens > buffer_size and current_segment: | |
first_word = current_segment.pop(0) | |
current_segment_num_tokens -= first_word['num_tokens'] | |
if current_segment: # Add remaining segment | |
second_pass_segments.append(current_segment.copy()) | |
# Cleaning up, delete 'num_tokens' from each word | |
for segment in second_pass_segments: | |
for word in segment: | |
word.pop('num_tokens', None) | |
return second_pass_segments | |
def extract_segment(words, start, end, map_function=None): | |
"""Extracts all words with time in [start, end]""" | |
a = binary_search(words, 0, len(words), start, True) | |
b = min(binary_search(words, 0, len(words), end , False) + 1, len(words)) | |
to_transform = map_function is not None and callable(map_function) | |
return [ | |
map_function(words[i]) if to_transform else words[i] for i in range(a, b) | |
] | |
# Binary search to get first index of word whose start/end time is greater/less than some value | |
def binary_search(words, start_index, end_index, time, below): | |
if start_index >= end_index: | |
return end_index | |
middle_index = (start_index + end_index ) // 2 | |
middle_time = word_start(words[middle_index]) if below else word_end(words[middle_index]) | |
if time <= middle_time: | |
return binary_search(words, start_index, middle_index, time, below) | |
else: | |
return binary_search(words, middle_index + 1, end_index, time, below) | |