whisper-large-v3-macedonian-asr / custom_interface.py

Create custom_interface.py

728fe25 verified about 2 months ago

4.23 kB

	import torch
	from speechbrain.inference.interfaces import Pretrained
	import librosa


	class ASR(Pretrained):
	def __init__(self, args, *kwargs):
	super().__init__(args, *kwargs)

	def encode_batch(self, device, wavs, wav_lens=None, normalize=False):
	wavs = wavs.to(device)
	wav_lens = wav_lens.to(device)

	# Forward pass
	encoded_outputs = self.mods.encoder_w2v2(wavs.detach())
	# append
	tokens_bos = torch.zeros((wavs.size(0), 1), dtype=torch.long).to(device)
	embedded_tokens = self.mods.embedding(tokens_bos)
	decoder_outputs, _ = self.mods.decoder(embedded_tokens, encoded_outputs, wav_lens)

	# Output layer for seq2seq log-probabilities
	predictions = self.hparams.test_search(encoded_outputs, wav_lens)[0]
	# predicted_words = [self.hparams.tokenizer.decode_ids(prediction).split(" ") for prediction in predictions]
	predicted_words = []
	for prediction in predictions:
	prediction = [token for token in prediction if token != 0]
	predicted_words.append(self.hparams.tokenizer.decode_ids(prediction).split(" "))
	prediction = []
	for sent in predicted_words:
	sent = self.filter_repetitions(sent, 3)
	prediction.append(sent)
	predicted_words = prediction
	return predicted_words

	def filter_repetitions(self, seq, max_repetition_length):
	seq = list(seq)
	output = []
	max_n = len(seq) // 2
	for n in range(max_n, 0, -1):
	max_repetitions = max(max_repetition_length // n, 1)
	# Don't need to iterate over impossible n values:
	# len(seq) can change a lot during iteration
	if (len(seq) <= n*2) or (len(seq) <= max_repetition_length):
	continue
	iterator = enumerate(seq)
	# Fill first buffers:
	buffers = [[next(iterator)[1]] for _ in range(n)]
	for seq_index, token in iterator:
	current_buffer = seq_index % n
	if token != buffers[current_buffer][-1]:
	# No repeat, we can flush some tokens
	buf_len = sum(map(len, buffers))
	flush_start = (current_buffer-buf_len) % n
	# Keep n-1 tokens, but possibly mark some for removal
	for flush_index in range(buf_len - buf_len%n):
	if (buf_len - flush_index) > n-1:
	to_flush = buffers[(flush_index + flush_start) % n].pop(0)
	else:
	to_flush = None
	# Here, repetitions get removed:
	if (flush_index // n < max_repetitions) and to_flush is not None:
	output.append(to_flush)
	elif (flush_index // n >= max_repetitions) and to_flush is None:
	output.append(to_flush)
	buffers[current_buffer].append(token)
	# At the end, final flush
	current_buffer += 1
	buf_len = sum(map(len, buffers))
	flush_start = (current_buffer-buf_len) % n
	for flush_index in range(buf_len):
	to_flush = buffers[(flush_index + flush_start) % n].pop(0)
	# Here, repetitions just get removed:
	if flush_index // n < max_repetitions:
	output.append(to_flush)
	seq = []
	to_delete = 0
	for token in output:
	if token is None:
	to_delete += 1
	elif to_delete > 0:
	to_delete -= 1
	else:
	seq.append(token)
	output = []
	return seq


	def classify_file(self, path, device):
	waveform, sr = librosa.load(path, sr=16000)

	waveform = torch.tensor(waveform).to(device)
	waveform = waveform.to(device)
	# Fake a batch:
	batch = waveform.unsqueeze(0)
	rel_length = torch.tensor([1.0]).to(device)
	outputs = self.encode_batch(device, batch, rel_length)
	outputs = " ".join(outputs[0])
	return outputs