forked from mrq/tortoise-tts
Update sweep & eval_multiple with new voices
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732deaa212
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2eb5d4b0cb
13
api.py
13
api.py
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@ -140,6 +140,13 @@ class TextToSpeech:
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average_conditioning_embeddings=True).cpu().eval()
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self.autoregressive.load_state_dict(torch.load('.models/autoregressive_diverse.pth'))
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self.autoregressive_for_latents = UnifiedVoice(max_mel_tokens=604, max_text_tokens=402, max_conditioning_inputs=2, layers=30,
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model_dim=1024,
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heads=16, number_text_tokens=256, start_text_token=255, checkpointing=False,
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train_solo_embeddings=False,
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average_conditioning_embeddings=True).cpu().eval()
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self.autoregressive_for_latents.load_state_dict(torch.load('.models/autoregressive_diverse.pth'))
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self.clip = VoiceCLIP(dim_text=512, dim_speech=512, dim_latent=512, num_text_tokens=256, text_enc_depth=12,
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text_seq_len=350, text_heads=8,
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num_speech_tokens=8192, speech_enc_depth=12, speech_heads=8, speech_seq_len=430,
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@ -221,11 +228,11 @@ class TextToSpeech:
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# The diffusion model actually wants the last hidden layer from the autoregressive model as conditioning
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# inputs. Re-produce those for the top results. This could be made more efficient by storing all of these
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# results, but will increase memory usage.
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self.autoregressive = self.autoregressive.cuda()
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best_latents = self.autoregressive(conds, text, torch.tensor([text.shape[-1]], device=conds.device), best_results,
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self.autoregressive_for_latents = self.autoregressive_for_latents.cuda()
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best_latents = self.autoregressive_for_latents(conds, text, torch.tensor([text.shape[-1]], device=conds.device), best_results,
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torch.tensor([best_results.shape[-1]*self.autoregressive.mel_length_compression], device=conds.device),
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return_latent=True, clip_inputs=False)
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self.autoregressive = self.autoregressive.cpu()
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self.autoregressive_for_latents = self.autoregressive_for_latents.cpu()
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print("Performing vocoding..")
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wav_candidates = []
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@ -6,27 +6,30 @@ from api import TextToSpeech
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from utils.audio import load_audio
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if __name__ == '__main__':
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fname = 'Y:\\libritts\\test-clean\\transcribed-brief-w2v.tsv'
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outpath = 'D:\\tmp\\tortoise-tts-eval\\diverse_new_decoder_1'
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fname = 'Y:\\clips\\books2\\subset512-oco.tsv'
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stop_after = 128
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outpath_base = 'D:\\tmp\\tortoise-tts-eval\\diverse'
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outpath_real = 'D:\\tmp\\tortoise-tts-eval\\real'
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os.makedirs(outpath, exist_ok=True)
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os.makedirs(outpath_real, exist_ok=True)
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with open(fname, 'r', encoding='utf-8') as f:
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lines = [l.strip().split('\t') for l in f.readlines()]
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recorder = open(os.path.join(outpath, 'transcript.tsv'), 'w', encoding='utf-8')
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tts = TextToSpeech()
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for k in range(4):
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outpath = f'{outpath_base}_{k}'
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os.makedirs(outpath, exist_ok=True)
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recorder = open(os.path.join(outpath, 'transcript.tsv'), 'w', encoding='utf-8')
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for e, line in enumerate(lines):
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if e >= stop_after:
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break
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transcript = line[0]
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if len(transcript) > 120:
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continue # We need to support this, but cannot yet.
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path = os.path.join(os.path.dirname(fname), line[1])
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cond_audio = load_audio(path, 22050)
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torchaudio.save(os.path.join(outpath_real, os.path.basename(line[1])), cond_audio, 22050)
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sample = tts.tts(transcript, [cond_audio, cond_audio], num_autoregressive_samples=256, k=1,
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sample = tts.tts(transcript, [cond_audio, cond_audio], num_autoregressive_samples=128, k=1,
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repetition_penalty=2.0, length_penalty=2, temperature=.5, top_p=.5,
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diffusion_temperature=.7, cond_free_k=2, diffusion_iterations=100)
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diffusion_temperature=.7, cond_free_k=2, diffusion_iterations=70)
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down = torchaudio.functional.resample(sample, 24000, 22050)
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fout_path = os.path.join(outpath, os.path.basename(line[1]))
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17
read.py
17
read.py
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@ -30,24 +30,13 @@ if __name__ == '__main__':
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# These are voices drawn randomly from the training set. You are free to substitute your own voices in, but testing
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# has shown that the model does not generalize to new voices very well.
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preselected_cond_voices = {
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# Male voices
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'dotrice': ['voices/dotrice/1.wav', 'voices/dotrice/2.wav'],
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'harris': ['voices/harris/1.wav', 'voices/harris/2.wav'],
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'lescault': ['voices/lescault/1.wav', 'voices/lescault/2.wav'],
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'otto': ['voices/otto/1.wav', 'voices/otto/2.wav'],
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'obama': ['voices/obama/1.wav', 'voices/obama/2.wav'],
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'carlin': ['voices/carlin/1.wav', 'voices/carlin/2.wav'],
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# Female voices
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'atkins': ['voices/atkins/1.wav', 'voices/atkins/2.wav'],
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'grace': ['voices/grace/1.wav', 'voices/grace/2.wav'],
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'kennard': ['voices/kennard/1.wav', 'voices/kennard/2.wav'],
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'mol': ['voices/mol/1.wav', 'voices/mol/2.wav'],
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'lj': ['voices/lj/1.wav', 'voices/lj/2.wav'],
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'emma_stone': ['voices/emma_stone/1.wav','voices/emma_stone/2.wav','voices/emma_stone/3.wav'],
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'tom_hanks': ['voices/tom_hanks/1.wav','voices/tom_hanks/2.wav','voices/tom_hanks/3.wav'],
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}
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parser = argparse.ArgumentParser()
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parser.add_argument('-textfile', type=str, help='A file containing the text to read.', default="data/riding_hood.txt")
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parser.add_argument('-voice', type=str, help='Use a preset conditioning voice (defined above). Overrides cond_path.', default='dotrice')
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parser.add_argument('-voice', type=str, help='Use a preset conditioning voice (defined above). Overrides cond_path.', default='emma_stone')
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parser.add_argument('-num_samples', type=int, help='How many total outputs the autoregressive transformer should produce.', default=512)
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parser.add_argument('-batch_size', type=int, help='How many samples to process at once in the autoregressive model.', default=16)
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parser.add_argument('-output_path', type=str, help='Where to store outputs.', default='results/longform/')
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24
sweep.py
24
sweep.py
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@ -24,19 +24,24 @@ def permutations(args):
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if __name__ == '__main__':
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fname = 'Y:\\libritts\\test-clean\\transcribed-brief-w2v.tsv'
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outpath_base = 'D:\\tmp\\tortoise-tts-eval\\std_sweep3'
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fname = 'Y:\\clips\\books2\\subset512-oco.tsv'
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stop_after = 128
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outpath_base = 'D:\\tmp\\tortoise-tts-eval\\sweep'
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outpath_real = 'D:\\tmp\\tortoise-tts-eval\\real'
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arg_ranges = {
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'top_p': [.3,.4,.5,.6],
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'temperature': [.5, .6],
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'top_p': [.5, 1],
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'temperature': [.5, 1],
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'diffusion_temperature': [.6, 1],
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'cond_free_k': [0, 1, 4],
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'repetition_penalty': [1.0, 2.0]
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}
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cfgs = permutations(arg_ranges)
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shuffle(cfgs)
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for cfg in cfgs:
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outpath = os.path.join(outpath_base, f'{cfg["top_p"]}_{cfg["temperature"]}')
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cfg_desc = '_'.join([f'{k}-{v}' for k,v in cfg.items()])
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outpath = os.path.join(outpath_base, f'{cfg_desc}')
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os.makedirs(outpath, exist_ok=True)
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os.makedirs(outpath_real, exist_ok=True)
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with open(fname, 'r', encoding='utf-8') as f:
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@ -45,15 +50,14 @@ if __name__ == '__main__':
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recorder = open(os.path.join(outpath, 'transcript.tsv'), 'w', encoding='utf-8')
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tts = TextToSpeech()
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for e, line in enumerate(lines):
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if e >= stop_after:
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break
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transcript = line[0]
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if len(transcript) > 120:
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continue # We need to support this, but cannot yet.
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path = os.path.join(os.path.dirname(fname), line[1])
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cond_audio = load_audio(path, 22050)
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torchaudio.save(os.path.join(outpath_real, os.path.basename(line[1])), cond_audio, 22050)
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sample = tts.tts(transcript, [cond_audio, cond_audio], num_autoregressive_samples=256, k=1, diffusion_iterations=200,
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repetition_penalty=2.0, length_penalty=2, temperature=.5, top_p=.5,
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diffusion_temperature=.7, cond_free_k=2, **cfg)
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sample = tts.tts(transcript, [cond_audio, cond_audio], num_autoregressive_samples=256,
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k=1, diffusion_iterations=70, length_penalty=1.0, **cfg)
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down = torchaudio.functional.resample(sample, 24000, 22050)
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fout_path = os.path.join(outpath, os.path.basename(line[1]))
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torchaudio.save(fout_path, down.squeeze(0), 22050)
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