158 lines
6.4 KiB
Python
158 lines
6.4 KiB
Python
import re
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import torch
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import torchaudio
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from transformers import Wav2Vec2ForCTC, Wav2Vec2FeatureExtractor, Wav2Vec2CTCTokenizer, Wav2Vec2Processor
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from tortoise.utils.audio import load_audio
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def max_alignment(s1, s2, skip_character='~', record=None):
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"""
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A clever function that aligns s1 to s2 as best it can. Wherever a character from s1 is not found in s2, a '~' is
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used to replace that character.
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Finally got to use my DP skills!
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"""
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if record is None:
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record = {}
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assert skip_character not in s1, f"Found the skip character {skip_character} in the provided string, {s1}"
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if len(s1) == 0:
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return ''
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if len(s2) == 0:
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return skip_character * len(s1)
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if s1 == s2:
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return s1
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if s1[0] == s2[0]:
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return s1[0] + max_alignment(s1[1:], s2[1:], skip_character, record)
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take_s1_key = (len(s1), len(s2) - 1)
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if take_s1_key in record:
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take_s1, take_s1_score = record[take_s1_key]
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else:
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take_s1 = max_alignment(s1, s2[1:], skip_character, record)
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take_s1_score = len(take_s1.replace(skip_character, ''))
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record[take_s1_key] = (take_s1, take_s1_score)
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take_s2_key = (len(s1) - 1, len(s2))
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if take_s2_key in record:
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take_s2, take_s2_score = record[take_s2_key]
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else:
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take_s2 = max_alignment(s1[1:], s2, skip_character, record)
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take_s2_score = len(take_s2.replace(skip_character, ''))
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record[take_s2_key] = (take_s2, take_s2_score)
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return take_s1 if take_s1_score > take_s2_score else skip_character + take_s2
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class Wav2VecAlignment:
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"""
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Uses wav2vec2 to perform audio<->text alignment.
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"""
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def __init__(self, device=None):
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if device is None:
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device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
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self.model = Wav2Vec2ForCTC.from_pretrained("jbetker/wav2vec2-large-robust-ft-libritts-voxpopuli").cpu()
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self.feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained(f"facebook/wav2vec2-large-960h")
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self.tokenizer = Wav2Vec2CTCTokenizer.from_pretrained('jbetker/tacotron-symbols')
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self.device = device
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def align(self, audio, expected_text, audio_sample_rate=24000):
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orig_len = audio.shape[-1]
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with torch.no_grad():
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if torch.cuda.is_available(): # This is unneccessary technically, but it's a placebo
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self.model = self.model.to(self.device)
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audio = audio.to(self.device)
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audio = torchaudio.functional.resample(audio, audio_sample_rate, 16000)
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clip_norm = (audio - audio.mean()) / torch.sqrt(audio.var() + 1e-7)
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logits = self.model(clip_norm).logits
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if torch.cuda.is_available():
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self.model = self.model.cpu()
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logits = logits[0]
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pred_string = self.tokenizer.decode(logits.argmax(-1).tolist())
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fixed_expectation = max_alignment(expected_text.lower(), pred_string)
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w2v_compression = orig_len // logits.shape[0]
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expected_tokens = self.tokenizer.encode(fixed_expectation)
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expected_chars = list(fixed_expectation)
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if len(expected_tokens) == 1:
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return [0] # The alignment is simple; there is only one token.
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expected_tokens.pop(0) # The first token is a given.
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expected_chars.pop(0)
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alignments = [0]
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def pop_till_you_win():
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if len(expected_tokens) == 0:
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return None
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popped = expected_tokens.pop(0)
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popped_char = expected_chars.pop(0)
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while popped_char == '~':
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alignments.append(-1)
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if len(expected_tokens) == 0:
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return None
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popped = expected_tokens.pop(0)
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popped_char = expected_chars.pop(0)
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return popped
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next_expected_token = pop_till_you_win()
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for i, logit in enumerate(logits):
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top = logit.argmax()
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if next_expected_token == top:
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alignments.append(i * w2v_compression)
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if len(expected_tokens) > 0:
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next_expected_token = pop_till_you_win()
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else:
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break
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pop_till_you_win()
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if not (len(expected_tokens) == 0 and len(alignments) == len(expected_text)):
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torch.save([audio, expected_text], 'alignment_debug.pth')
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assert False, "Something went wrong with the alignment algorithm. I've dumped a file, 'alignment_debug.pth' to" \
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"your current working directory. Please report this along with the file so it can get fixed."
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# Now fix up alignments. Anything with -1 should be interpolated.
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alignments.append(orig_len) # This'll get removed but makes the algorithm below more readable.
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for i in range(len(alignments)):
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if alignments[i] == -1:
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for j in range(i+1, len(alignments)):
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if alignments[j] != -1:
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next_found_token = j
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break
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for j in range(i, next_found_token):
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gap = alignments[next_found_token] - alignments[i-1]
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alignments[j] = (j-i+1) * gap // (next_found_token-i+1) + alignments[i-1]
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return alignments[:-1]
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def redact(self, audio, expected_text, audio_sample_rate=24000):
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if '[' not in expected_text:
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return audio
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splitted = expected_text.split('[')
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fully_split = [splitted[0]]
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for spl in splitted[1:]:
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assert ']' in spl, 'Every "[" character must be paired with a "]" with no nesting.'
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fully_split.extend(spl.split(']'))
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# At this point, fully_split is a list of strings, with every other string being something that should be redacted.
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non_redacted_intervals = []
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last_point = 0
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for i in range(len(fully_split)):
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if i % 2 == 0:
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end_interval = max(0, last_point + len(fully_split[i]) - 1)
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non_redacted_intervals.append((last_point, end_interval))
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last_point += len(fully_split[i])
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bare_text = ''.join(fully_split)
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alignments = self.align(audio, bare_text, audio_sample_rate)
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output_audio = []
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for nri in non_redacted_intervals:
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start, stop = nri
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output_audio.append(audio[:, alignments[start]:alignments[stop]])
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return torch.cat(output_audio, dim=-1)
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