diff --git a/.gitattributes b/.gitattributes index a6344aac8c09253b3b630fb776ae94478aa0275b..fe7f6c127c721b5387159366ce0f8a852a598f20 100644 --- a/.gitattributes +++ b/.gitattributes @@ -33,3 +33,11 @@ saved_model/**/* filter=lfs diff=lfs merge=lfs -text *.zip filter=lfs diff=lfs merge=lfs -text *.zst filter=lfs diff=lfs merge=lfs -text *tfevents* filter=lfs diff=lfs merge=lfs -text +tortoise/voices/angie/2.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/benson/13.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/benson/21.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/benson/22.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/benson/32.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/benson/7.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/deniro/2.wav filter=lfs diff=lfs merge=lfs -text +tortoise/voices/train_lescault/lescault_new4.wav filter=lfs diff=lfs merge=lfs -text diff --git a/tortoise/README.md b/tortoise/README.md new file mode 100644 index 0000000000000000000000000000000000000000..184878aa949eff6c64f8fec1d6c156583f2b389e --- /dev/null +++ b/tortoise/README.md @@ -0,0 +1,227 @@ +# TorToiSe + +Tortoise is a text-to-speech program built with the following priorities: + +1. Strong multi-voice capabilities. +2. Highly realistic prosody and intonation. + +This repo contains all the code needed to run Tortoise TTS in inference mode. + +Manuscript: https://arxiv.org/abs/2305.07243 +## Hugging Face space + +A live demo is hosted on Hugging Face Spaces. If you'd like to avoid a queue, please duplicate the Space and add a GPU. Please note that CPU-only spaces do not work for this demo. + +https://huggingface.co/spaces/Manmay/tortoise-tts + +## Install via pip +```bash +pip install tortoise-tts +``` + +If you would like to install the latest development version, you can also install it directly from the git repository: + +```bash +pip install git+https://github.com/neonbjb/tortoise-tts +``` + +## What's in a name? + +I'm naming my speech-related repos after Mojave desert flora and fauna. Tortoise is a bit tongue in cheek: this model +is insanely slow. It leverages both an autoregressive decoder **and** a diffusion decoder; both known for their low +sampling rates. On a K80, expect to generate a medium sized sentence every 2 minutes. + +well..... not so slow anymore now we can get a **0.25-0.3 RTF** on 4GB vram and with streaming we can get < **500 ms** latency !!! + +## Demos + +See [this page](http://nonint.com/static/tortoise_v2_examples.html) for a large list of example outputs. + +A cool application of Tortoise + GPT-3 (not affiliated with this repository): https://twitter.com/lexman_ai. Unfortunately, this proejct seems no longer to be active. + +## Usage guide + +### Local installation + +If you want to use this on your own computer, you must have an NVIDIA GPU. + +On Windows, I **highly** recommend using the Conda installation path. I have been told that if you do not do this, you +will spend a lot of time chasing dependency problems. + +First, install miniconda: https://docs.conda.io/en/latest/miniconda.html + +Then run the following commands, using anaconda prompt as the terminal (or any other terminal configured to work with conda) + +This will: +1. create conda environment with minimal dependencies specified +1. activate the environment +1. install pytorch with the command provided here: https://pytorch.org/get-started/locally/ +1. clone tortoise-tts +1. change the current directory to tortoise-tts +1. run tortoise python setup install script + +```shell +conda create --name tortoise python=3.9 numba inflect +conda activate tortoise +conda install pytorch torchvision torchaudio pytorch-cuda=11.7 -c pytorch -c nvidia +conda install transformers=4.29.2 +git clone https://github.com/neonbjb/tortoise-tts.git +cd tortoise-tts +python setup.py install +``` + +Optionally, pytorch can be installed in the base environment, so that other conda environments can use it too. To do this, simply send the `conda install pytorch...` line before activating the tortoise environment. + +> **Note:** When you want to use tortoise-tts, you will always have to ensure the `tortoise` conda environment is activated. + +If you are on windows, you may also need to install pysoundfile: `conda install -c conda-forge pysoundfile` + +### Docker + +An easy way to hit the ground running and a good jumping off point depending on your use case. + +```sh +git clone https://github.com/neonbjb/tortoise-tts.git +cd tortoise-tts + +docker build . -t tts + +docker run --gpus all \ + -e TORTOISE_MODELS_DIR=/models \ + -v /mnt/user/data/tortoise_tts/models:/models \ + -v /mnt/user/data/tortoise_tts/results:/results \ + -v /mnt/user/data/.cache/huggingface:/root/.cache/huggingface \ + -v /root:/work \ + -it tts +``` +This gives you an interactive terminal in an environment that's ready to do some tts. Now you can explore the different interfaces that tortoise exposes for tts. + +For example: + +```sh +cd app +conda activate tortoise +time python tortoise/do_tts.py \ + --output_path /results \ + --preset ultra_fast \ + --voice geralt \ + --text "Time flies like an arrow; fruit flies like a bananna." +``` + +## Apple Silicon + +On macOS 13+ with M1/M2 chips you need to install the nighly version of PyTorch, as stated in the official page you can do: + +```shell +pip3 install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/cpu +``` + +Be sure to do that after you activate the environment. If you don't use conda the commands would look like this: + +```shell +python3.10 -m venv .venv +source .venv/bin/activate +pip install numba inflect psutil +pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/cpu +pip install transformers +git clone https://github.com/neonbjb/tortoise-tts.git +cd tortoise-tts +pip install . +``` + +Be aware that DeepSpeed is disabled on Apple Silicon since it does not work. The flag `--use_deepspeed` is ignored. +You may need to prepend `PYTORCH_ENABLE_MPS_FALLBACK=1` to the commands below to make them work since MPS does not support all the operations in Pytorch. + + +### do_tts.py + +This script allows you to speak a single phrase with one or more voices. +```shell +python tortoise/do_tts.py --text "I'm going to speak this" --voice random --preset fast +``` +### faster inference read.py + +This script provides tools for reading large amounts of text. + +```shell +python tortoise/read_fast.py --textfile --voice random +``` + +### read.py + +This script provides tools for reading large amounts of text. + +```shell +python tortoise/read.py --textfile --voice random +``` + +This will break up the textfile into sentences, and then convert them to speech one at a time. It will output a series +of spoken clips as they are generated. Once all the clips are generated, it will combine them into a single file and +output that as well. + +Sometimes Tortoise screws up an output. You can re-generate any bad clips by re-running `read.py` with the --regenerate +argument. + +### API + +Tortoise can be used programmatically, like so: + +```python +reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] +tts = api.TextToSpeech() +pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast') +``` + +To use deepspeed: + +```python +reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] +tts = api.TextToSpeech(use_deepspeed=True) +pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast') +``` + +To use kv cache: + +```python +reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] +tts = api.TextToSpeech(kv_cache=True) +pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast') +``` + +To run model in float16: + +```python +reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] +tts = api.TextToSpeech(half=True) +pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast') +``` +for Faster runs use all three: + +```python +reference_clips = [utils.audio.load_audio(p, 22050) for p in clips_paths] +tts = api.TextToSpeech(use_deepspeed=True, kv_cache=True, half=True) +pcm_audio = tts.tts_with_preset("your text here", voice_samples=reference_clips, preset='fast') +``` + +## Acknowledgements + +This project has garnered more praise than I expected. I am standing on the shoulders of giants, though, and I want to +credit a few of the amazing folks in the community that have helped make this happen: + +- Hugging Face, who wrote the GPT model and the generate API used by Tortoise, and who hosts the model weights. +- [Ramesh et al](https://arxiv.org/pdf/2102.12092.pdf) who authored the DALLE paper, which is the inspiration behind Tortoise. +- [Nichol and Dhariwal](https://arxiv.org/pdf/2102.09672.pdf) who authored the (revision of) the code that drives the diffusion model. +- [Jang et al](https://arxiv.org/pdf/2106.07889.pdf) who developed and open-sourced univnet, the vocoder this repo uses. +- [Kim and Jung](https://github.com/mindslab-ai/univnet) who implemented univnet pytorch model. +- [lucidrains](https://github.com/lucidrains) who writes awesome open source pytorch models, many of which are used here. +- [Patrick von Platen](https://huggingface.co/patrickvonplaten) whose guides on setting up wav2vec were invaluable to building my dataset. + +## Notice + +Tortoise was built entirely by the author (James Betker) using their own hardware. Their employer was not involved in any facet of Tortoise's development. + +## License + +Tortoise TTS is licensed under the Apache 2.0 license. + +If you use this repo or the ideas therein for your research, please cite it! A bibtex entree can be found in the right pane on GitHub. diff --git a/tortoise/__init__.py b/tortoise/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/tortoise/api.py b/tortoise/api.py new file mode 100644 index 0000000000000000000000000000000000000000..69807b18aced06dd7d29f169e18bef2b4ecda8b9 --- /dev/null +++ b/tortoise/api.py @@ -0,0 +1,598 @@ +import os +import random +import uuid +from time import time +from urllib import request + +import torch +import torch.nn.functional as F +import progressbar +import torchaudio + +from tortoise.models.classifier import AudioMiniEncoderWithClassifierHead +from tortoise.models.diffusion_decoder import DiffusionTts +from tortoise.models.autoregressive import UnifiedVoice +from tqdm import tqdm +from tortoise.models.arch_util import TorchMelSpectrogram +from tortoise.models.clvp import CLVP +from tortoise.models.cvvp import CVVP +from tortoise.models.random_latent_generator import RandomLatentConverter +from tortoise.models.vocoder import UnivNetGenerator +from tortoise.utils.audio import wav_to_univnet_mel, denormalize_tacotron_mel +from tortoise.utils.diffusion import SpacedDiffusion, space_timesteps, get_named_beta_schedule +from tortoise.utils.tokenizer import VoiceBpeTokenizer +from tortoise.utils.wav2vec_alignment import Wav2VecAlignment +from contextlib import contextmanager +from huggingface_hub import hf_hub_download +pbar = None + +DEFAULT_MODELS_DIR = os.path.join(os.path.expanduser('~'), '.cache', 'tortoise', 'models') +MODELS_DIR = os.environ.get('TORTOISE_MODELS_DIR', DEFAULT_MODELS_DIR) +MODELS = { + 'autoregressive.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/autoregressive.pth', + 'classifier.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/classifier.pth', + 'clvp2.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/clvp2.pth', + 'cvvp.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/cvvp.pth', + 'diffusion_decoder.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/diffusion_decoder.pth', + 'vocoder.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/vocoder.pth', + 'rlg_auto.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/rlg_auto.pth', + 'rlg_diffuser.pth': 'https://huggingface.co/jbetker/tortoise-tts-v2/resolve/main/.models/rlg_diffuser.pth', +} + +def get_model_path(model_name, models_dir=MODELS_DIR): + """ + Get path to given model, download it if it doesn't exist. + """ + if model_name not in MODELS: + raise ValueError(f'Model {model_name} not found in available models.') + model_path = hf_hub_download(repo_id="Manmay/tortoise-tts", filename=model_name, cache_dir=models_dir) + return model_path + + +def pad_or_truncate(t, length): + """ + Utility function for forcing to have the specified sequence length, whether by clipping it or padding it with 0s. + """ + if t.shape[-1] == length: + return t + elif t.shape[-1] < length: + return F.pad(t, (0, length-t.shape[-1])) + else: + return t[..., :length] + + +def load_discrete_vocoder_diffuser(trained_diffusion_steps=4000, desired_diffusion_steps=200, cond_free=True, cond_free_k=1): + """ + Helper function to load a GaussianDiffusion instance configured for use as a vocoder. + """ + return SpacedDiffusion(use_timesteps=space_timesteps(trained_diffusion_steps, [desired_diffusion_steps]), model_mean_type='epsilon', + model_var_type='learned_range', loss_type='mse', betas=get_named_beta_schedule('linear', trained_diffusion_steps), + conditioning_free=cond_free, conditioning_free_k=cond_free_k) + + +def format_conditioning(clip, cond_length=132300, device="cuda" if not torch.backends.mps.is_available() else 'mps'): + """ + Converts the given conditioning signal to a MEL spectrogram and clips it as expected by the models. + """ + gap = clip.shape[-1] - cond_length + if gap < 0: + clip = F.pad(clip, pad=(0, abs(gap))) + elif gap > 0: + rand_start = random.randint(0, gap) + clip = clip[:, rand_start:rand_start + cond_length] + mel_clip = TorchMelSpectrogram()(clip.unsqueeze(0)).squeeze(0) + return mel_clip.unsqueeze(0).to(device) + + +def fix_autoregressive_output(codes, stop_token, complain=True): + """ + This function performs some padding on coded audio that fixes a mismatch issue between what the diffusion model was + trained on and what the autoregressive code generator creates (which has no padding or end). + This is highly specific to the DVAE being used, so this particular coding will not necessarily work if used with + a different DVAE. This can be inferred by feeding a audio clip padded with lots of zeros on the end through the DVAE + and copying out the last few codes. + + Failing to do this padding will produce speech with a harsh end that sounds like "BLAH" or similar. + """ + # Strip off the autoregressive stop token and add padding. + stop_token_indices = (codes == stop_token).nonzero() + if len(stop_token_indices) == 0: + if complain: + print("No stop tokens found in one of the generated voice clips. This typically means the spoken audio is " + "too long. In some cases, the output will still be good, though. Listen to it and if it is missing words, " + "try breaking up your input text.") + return codes + else: + codes[stop_token_indices] = 83 + stm = stop_token_indices.min().item() + codes[stm:] = 83 + if stm - 3 < codes.shape[0]: + codes[-3] = 45 + codes[-2] = 45 + codes[-1] = 248 + + return codes + + +def do_spectrogram_diffusion(diffusion_model, diffuser, latents, conditioning_latents, temperature=1, verbose=True): + """ + Uses the specified diffusion model to convert discrete codes into a spectrogram. + """ + with torch.no_grad(): + output_seq_len = latents.shape[1] * 4 * 24000 // 22050 # This diffusion model converts from 22kHz spectrogram codes to a 24kHz spectrogram signal. + output_shape = (latents.shape[0], 100, output_seq_len) + precomputed_embeddings = diffusion_model.timestep_independent(latents, conditioning_latents, output_seq_len, False) + + noise = torch.randn(output_shape, device=latents.device) * temperature + mel = diffuser.p_sample_loop(diffusion_model, output_shape, noise=noise, + model_kwargs={'precomputed_aligned_embeddings': precomputed_embeddings}, + progress=verbose) + return denormalize_tacotron_mel(mel)[:,:,:output_seq_len] + + +def classify_audio_clip(clip): + """ + Returns whether or not Tortoises' classifier thinks the given clip came from Tortoise. + :param clip: torch tensor containing audio waveform data (get it from load_audio) + :return: True if the clip was classified as coming from Tortoise and false if it was classified as real. + """ + classifier = AudioMiniEncoderWithClassifierHead(2, spec_dim=1, embedding_dim=512, depth=5, downsample_factor=4, + resnet_blocks=2, attn_blocks=4, num_attn_heads=4, base_channels=32, + dropout=0, kernel_size=5, distribute_zero_label=False) + classifier.load_state_dict(torch.load(get_model_path('classifier.pth'), map_location=torch.device('cpu'))) + clip = clip.cpu().unsqueeze(0) + results = F.softmax(classifier(clip), dim=-1) + return results[0][0] + + +def pick_best_batch_size_for_gpu(): + """ + Tries to pick a batch size that will fit in your GPU. These sizes aren't guaranteed to work, but they should give + you a good shot. + """ + if torch.cuda.is_available(): + _, available = torch.cuda.mem_get_info() + availableGb = available / (1024 ** 3) + if availableGb > 14: + return 16 + elif availableGb > 10: + return 8 + elif availableGb > 7: + return 4 + if torch.backends.mps.is_available(): + import psutil + available = psutil.virtual_memory().total + availableGb = available / (1024 ** 3) + if availableGb > 14: + return 16 + elif availableGb > 10: + return 8 + elif availableGb > 7: + return 4 + return 1 + +class TextToSpeech: + """ + Main entry point into Tortoise. + """ + + def __init__(self, autoregressive_batch_size=None, models_dir=MODELS_DIR, + enable_redaction=True, kv_cache=False, use_deepspeed=False, half=False, device=None, + tokenizer_vocab_file=None, tokenizer_basic=False): + + """ + Constructor + :param autoregressive_batch_size: Specifies how many samples to generate per batch. Lower this if you are seeing + GPU OOM errors. Larger numbers generates slightly faster. + :param models_dir: Where model weights are stored. This should only be specified if you are providing your own + models, otherwise use the defaults. + :param enable_redaction: When true, text enclosed in brackets are automatically redacted from the spoken output + (but are still rendered by the model). This can be used for prompt engineering. + Default is true. + :param device: Device to use when running the model. If omitted, the device will be automatically chosen. + """ + self.models_dir = models_dir + self.autoregressive_batch_size = pick_best_batch_size_for_gpu() if autoregressive_batch_size is None else autoregressive_batch_size + self.enable_redaction = enable_redaction + self.device = torch.device('cuda' if torch.cuda.is_available() else'cpu') + if torch.backends.mps.is_available(): + self.device = torch.device('mps') + if self.enable_redaction: + self.aligner = Wav2VecAlignment() + + self.tokenizer = VoiceBpeTokenizer( + vocab_file=tokenizer_vocab_file, + use_basic_cleaners=tokenizer_basic, + ) + self.half = half + if os.path.exists(f'{models_dir}/autoregressive.ptt'): + # Assume this is a traced directory. + self.autoregressive = torch.jit.load(f'{models_dir}/autoregressive.ptt') + self.diffusion = torch.jit.load(f'{models_dir}/diffusion_decoder.ptt') + else: + self.autoregressive = UnifiedVoice(max_mel_tokens=604, max_text_tokens=402, max_conditioning_inputs=2, layers=30, + model_dim=1024, + heads=16, number_text_tokens=255, start_text_token=255, checkpointing=False, + train_solo_embeddings=False).cpu().eval() + self.autoregressive.load_state_dict(torch.load(get_model_path('autoregressive.pth', models_dir)), strict=False) + self.autoregressive.post_init_gpt2_config(use_deepspeed=use_deepspeed, kv_cache=kv_cache, half=self.half) + + self.diffusion = DiffusionTts(model_channels=1024, num_layers=10, in_channels=100, out_channels=200, + in_latent_channels=1024, in_tokens=8193, dropout=0, use_fp16=False, num_heads=16, + layer_drop=0, unconditioned_percentage=0).cpu().eval() + self.diffusion.load_state_dict(torch.load(get_model_path('diffusion_decoder.pth', models_dir))) + + self.clvp = CLVP(dim_text=768, dim_speech=768, dim_latent=768, num_text_tokens=256, text_enc_depth=20, + text_seq_len=350, text_heads=12, + num_speech_tokens=8192, speech_enc_depth=20, speech_heads=12, speech_seq_len=430, + use_xformers=True).cpu().eval() + self.clvp.load_state_dict(torch.load(get_model_path('clvp2.pth', models_dir))) + self.cvvp = None # CVVP model is only loaded if used. + + self.vocoder = UnivNetGenerator().cpu() + self.vocoder.load_state_dict(torch.load(get_model_path('vocoder.pth', models_dir), map_location=torch.device('cpu'))['model_g']) + self.vocoder.eval(inference=True) + + # Random latent generators (RLGs) are loaded lazily. + self.rlg_auto = None + self.rlg_diffusion = None + @contextmanager + def temporary_cuda(self, model): + m = model.to(self.device) + yield m + m = model.cpu() + + + def load_cvvp(self): + """Load CVVP model.""" + self.cvvp = CVVP(model_dim=512, transformer_heads=8, dropout=0, mel_codes=8192, conditioning_enc_depth=8, cond_mask_percentage=0, + speech_enc_depth=8, speech_mask_percentage=0, latent_multiplier=1).cpu().eval() + self.cvvp.load_state_dict(torch.load(get_model_path('cvvp.pth', self.models_dir))) + + def get_conditioning_latents(self, voice_samples, return_mels=False): + """ + Transforms one or more voice_samples into a tuple (autoregressive_conditioning_latent, diffusion_conditioning_latent). + These are expressive learned latents that encode aspects of the provided clips like voice, intonation, and acoustic + properties. + :param voice_samples: List of 2 or more ~10 second reference clips, which should be torch tensors containing 22.05kHz waveform data. + """ + with torch.no_grad(): + voice_samples = [v.to(self.device) for v in voice_samples] + + auto_conds = [] + if not isinstance(voice_samples, list): + voice_samples = [voice_samples] + for vs in voice_samples: + auto_conds.append(format_conditioning(vs, device=self.device)) + auto_conds = torch.stack(auto_conds, dim=1) + self.autoregressive = self.autoregressive.to(self.device) + auto_latent = self.autoregressive.get_conditioning(auto_conds) + self.autoregressive = self.autoregressive.cpu() + + diffusion_conds = [] + for sample in voice_samples: + # The diffuser operates at a sample rate of 24000 (except for the latent inputs) + sample = torchaudio.functional.resample(sample, 22050, 24000) + sample = pad_or_truncate(sample, 102400) + cond_mel = wav_to_univnet_mel(sample.to(self.device), do_normalization=False, device=self.device) + diffusion_conds.append(cond_mel) + diffusion_conds = torch.stack(diffusion_conds, dim=1) + + self.diffusion = self.diffusion.to(self.device) + diffusion_latent = self.diffusion.get_conditioning(diffusion_conds) + self.diffusion = self.diffusion.cpu() + + if return_mels: + return auto_latent, diffusion_latent, auto_conds, diffusion_conds + else: + return auto_latent, diffusion_latent + + def get_random_conditioning_latents(self): + # Lazy-load the RLG models. + if self.rlg_auto is None: + self.rlg_auto = RandomLatentConverter(1024).eval() + self.rlg_auto.load_state_dict(torch.load(get_model_path('rlg_auto.pth', self.models_dir), map_location=torch.device('cpu'))) + self.rlg_diffusion = RandomLatentConverter(2048).eval() + self.rlg_diffusion.load_state_dict(torch.load(get_model_path('rlg_diffuser.pth', self.models_dir), map_location=torch.device('cpu'))) + with torch.no_grad(): + return self.rlg_auto(torch.tensor([0.0])), self.rlg_diffusion(torch.tensor([0.0])) + + def tts_with_preset(self, text, preset='fast', **kwargs): + """ + Calls TTS with one of a set of preset generation parameters. Options: + 'ultra_fast': Produces speech at a speed which belies the name of this repo. (Not really, but it's definitely fastest). + 'fast': Decent quality speech at a decent inference rate. A good choice for mass inference. + 'standard': Very good quality. This is generally about as good as you are going to get. + 'high_quality': Use if you want the absolute best. This is not really worth the compute, though. + """ + # Use generally found best tuning knobs for generation. + settings = {'temperature': .8, 'length_penalty': 1.0, 'repetition_penalty': 2.0, + 'top_p': .8, + 'cond_free_k': 2.0, 'diffusion_temperature': 1.0} + # Presets are defined here. + presets = { + 'ultra_fast': {'num_autoregressive_samples': 16, 'diffusion_iterations': 30, 'cond_free': False}, + 'fast': {'num_autoregressive_samples': 96, 'diffusion_iterations': 80}, + 'standard': {'num_autoregressive_samples': 256, 'diffusion_iterations': 200}, + 'high_quality': {'num_autoregressive_samples': 256, 'diffusion_iterations': 400}, + } + settings.update(presets[preset]) + settings.update(kwargs) # allow overriding of preset settings with kwargs + return self.tts(text, **settings) + + def tts(self, text, voice_samples=None, conditioning_latents=None, k=1, verbose=True, use_deterministic_seed=None, + return_deterministic_state=False, + # autoregressive generation parameters follow + num_autoregressive_samples=512, temperature=.8, length_penalty=1, repetition_penalty=2.0, top_p=.8, max_mel_tokens=500, + # CVVP parameters follow + cvvp_amount=.0, + # diffusion generation parameters follow + diffusion_iterations=100, cond_free=True, cond_free_k=2, diffusion_temperature=1.0, + **hf_generate_kwargs): + """ + Produces an audio clip of the given text being spoken with the given reference voice. + :param text: Text to be spoken. + :param voice_samples: List of 2 or more ~10 second reference clips which should be torch tensors containing 22.05kHz waveform data. + :param conditioning_latents: A tuple of (autoregressive_conditioning_latent, diffusion_conditioning_latent), which + can be provided in lieu of voice_samples. This is ignored unless voice_samples=None. + Conditioning latents can be retrieved via get_conditioning_latents(). + :param k: The number of returned clips. The most likely (as determined by Tortoises' CLVP model) clips are returned. + :param verbose: Whether or not to print log messages indicating the progress of creating a clip. Default=true. + ~~AUTOREGRESSIVE KNOBS~~ + :param num_autoregressive_samples: Number of samples taken from the autoregressive model, all of which are filtered using CLVP. + As Tortoise is a probabilistic model, more samples means a higher probability of creating something "great". + :param temperature: The softmax temperature of the autoregressive model. + :param length_penalty: A length penalty applied to the autoregressive decoder. Higher settings causes the model to produce more terse outputs. + :param repetition_penalty: A penalty that prevents the autoregressive decoder from repeating itself during decoding. Can be used to reduce the incidence + of long silences or "uhhhhhhs", etc. + :param top_p: P value used in nucleus sampling. (0,1]. Lower values mean the decoder produces more "likely" (aka boring) outputs. + :param max_mel_tokens: Restricts the output length. (0,600] integer. Each unit is 1/20 of a second. + :param typical_sampling: Turns typical sampling on or off. This sampling mode is discussed in this paper: https://arxiv.org/abs/2202.00666 + I was interested in the premise, but the results were not as good as I was hoping. This is off by default, but + could use some tuning. + :param typical_mass: The typical_mass parameter from the typical_sampling algorithm. + ~~CLVP-CVVP KNOBS~~ + :param cvvp_amount: Controls the influence of the CVVP model in selecting the best output from the autoregressive model. + [0,1]. Values closer to 1 mean the CVVP model is more important, 0 disables the CVVP model. + ~~DIFFUSION KNOBS~~ + :param diffusion_iterations: Number of diffusion steps to perform. [0,4000]. More steps means the network has more chances to iteratively refine + the output, which should theoretically mean a higher quality output. Generally a value above 250 is not noticeably better, + however. + :param cond_free: Whether or not to perform conditioning-free diffusion. Conditioning-free diffusion performs two forward passes for + each diffusion step: one with the outputs of the autoregressive model and one with no conditioning priors. The output + of the two is blended according to the cond_free_k value below. Conditioning-free diffusion is the real deal, and + dramatically improves realism. + :param cond_free_k: Knob that determines how to balance the conditioning free signal with the conditioning-present signal. [0,inf]. + As cond_free_k increases, the output becomes dominated by the conditioning-free signal. + Formula is: output=cond_present_output*(cond_free_k+1)-cond_absenct_output*cond_free_k + :param diffusion_temperature: Controls the variance of the noise fed into the diffusion model. [0,1]. Values at 0 + are the "mean" prediction of the diffusion network and will sound bland and smeared. + ~~OTHER STUFF~~ + :param hf_generate_kwargs: The huggingface Transformers generate API is used for the autoregressive transformer. + Extra keyword args fed to this function get forwarded directly to that API. Documentation + here: https://huggingface.co/docs/transformers/internal/generation_utils + :return: Generated audio clip(s) as a torch tensor. Shape 1,S if k=1 else, (k,1,S) where S is the sample length. + Sample rate is 24kHz. + """ + deterministic_seed = self.deterministic_state(seed=use_deterministic_seed) + + text_tokens = torch.IntTensor(self.tokenizer.encode(text)).unsqueeze(0).to(self.device) + text_tokens = F.pad(text_tokens, (0, 1)) # This may not be necessary. + assert text_tokens.shape[-1] < 400, 'Too much text provided. Break the text up into separate segments and re-try inference.' + auto_conds = None + if voice_samples is not None: + auto_conditioning, diffusion_conditioning, auto_conds, _ = self.get_conditioning_latents(voice_samples, return_mels=True) + elif conditioning_latents is not None: + auto_conditioning, diffusion_conditioning = conditioning_latents + else: + auto_conditioning, diffusion_conditioning = self.get_random_conditioning_latents() + auto_conditioning = auto_conditioning.to(self.device) + diffusion_conditioning = diffusion_conditioning.to(self.device) + + diffuser = load_discrete_vocoder_diffuser(desired_diffusion_steps=diffusion_iterations, cond_free=cond_free, cond_free_k=cond_free_k) + + with torch.no_grad(): + samples = [] + num_batches = num_autoregressive_samples // self.autoregressive_batch_size + stop_mel_token = self.autoregressive.stop_mel_token + calm_token = 83 # This is the token for coding silence, which is fixed in place with "fix_autoregressive_output" + if verbose: + print("Generating autoregressive samples..") + if not torch.backends.mps.is_available(): + with self.temporary_cuda(self.autoregressive + ) as autoregressive, torch.autocast(device_type="cuda", dtype=torch.float16, enabled=self.half): + for b in tqdm(range(num_batches), disable=not verbose): + codes = autoregressive.inference_speech(auto_conditioning, text_tokens, + do_sample=True, + top_p=top_p, + temperature=temperature, + num_return_sequences=self.autoregressive_batch_size, + length_penalty=length_penalty, + repetition_penalty=repetition_penalty, + max_generate_length=max_mel_tokens, + **hf_generate_kwargs) + padding_needed = max_mel_tokens - codes.shape[1] + codes = F.pad(codes, (0, padding_needed), value=stop_mel_token) + samples.append(codes) + else: + with self.temporary_cuda(self.autoregressive) as autoregressive: + for b in tqdm(range(num_batches), disable=not verbose): + codes = autoregressive.inference_speech(auto_conditioning, text_tokens, + do_sample=True, + top_p=top_p, + temperature=temperature, + num_return_sequences=self.autoregressive_batch_size, + length_penalty=length_penalty, + repetition_penalty=repetition_penalty, + max_generate_length=max_mel_tokens, + **hf_generate_kwargs) + padding_needed = max_mel_tokens - codes.shape[1] + codes = F.pad(codes, (0, padding_needed), value=stop_mel_token) + samples.append(codes) + + clip_results = [] + + if not torch.backends.mps.is_available(): + with self.temporary_cuda(self.clvp) as clvp, torch.autocast( + device_type="cuda" if not torch.backends.mps.is_available() else 'mps', dtype=torch.float16, enabled=self.half + ): + if cvvp_amount > 0: + if self.cvvp is None: + self.load_cvvp() + self.cvvp = self.cvvp.to(self.device) + if verbose: + if self.cvvp is None: + print("Computing best candidates using CLVP") + else: + print(f"Computing best candidates using CLVP {((1-cvvp_amount) * 100):2.0f}% and CVVP {(cvvp_amount * 100):2.0f}%") + for batch in tqdm(samples, disable=not verbose): + for i in range(batch.shape[0]): + batch[i] = fix_autoregressive_output(batch[i], stop_mel_token) + if cvvp_amount != 1: + clvp_out = clvp(text_tokens.repeat(batch.shape[0], 1), batch, return_loss=False) + if auto_conds is not None and cvvp_amount > 0: + cvvp_accumulator = 0 + for cl in range(auto_conds.shape[1]): + cvvp_accumulator = cvvp_accumulator + self.cvvp(auto_conds[:, cl].repeat(batch.shape[0], 1, 1), batch, return_loss=False) + cvvp = cvvp_accumulator / auto_conds.shape[1] + if cvvp_amount == 1: + clip_results.append(cvvp) + else: + clip_results.append(cvvp * cvvp_amount + clvp_out * (1-cvvp_amount)) + else: + clip_results.append(clvp_out) + clip_results = torch.cat(clip_results, dim=0) + samples = torch.cat(samples, dim=0) + best_results = samples[torch.topk(clip_results, k=k).indices] + else: + with self.temporary_cuda(self.clvp) as clvp: + if cvvp_amount > 0: + if self.cvvp is None: + self.load_cvvp() + self.cvvp = self.cvvp.to(self.device) + if verbose: + if self.cvvp is None: + print("Computing best candidates using CLVP") + else: + print(f"Computing best candidates using CLVP {((1-cvvp_amount) * 100):2.0f}% and CVVP {(cvvp_amount * 100):2.0f}%") + for batch in tqdm(samples, disable=not verbose): + for i in range(batch.shape[0]): + batch[i] = fix_autoregressive_output(batch[i], stop_mel_token) + if cvvp_amount != 1: + clvp_out = clvp(text_tokens.repeat(batch.shape[0], 1), batch, return_loss=False) + if auto_conds is not None and cvvp_amount > 0: + cvvp_accumulator = 0 + for cl in range(auto_conds.shape[1]): + cvvp_accumulator = cvvp_accumulator + self.cvvp(auto_conds[:, cl].repeat(batch.shape[0], 1, 1), batch, return_loss=False) + cvvp = cvvp_accumulator / auto_conds.shape[1] + if cvvp_amount == 1: + clip_results.append(cvvp) + else: + clip_results.append(cvvp * cvvp_amount + clvp_out * (1-cvvp_amount)) + else: + clip_results.append(clvp_out) + clip_results = torch.cat(clip_results, dim=0) + samples = torch.cat(samples, dim=0) + best_results = samples[torch.topk(clip_results, k=k).indices] + if self.cvvp is not None: + self.cvvp = self.cvvp.cpu() + del samples + + # The diffusion model actually wants the last hidden layer from the autoregressive model as conditioning + # inputs. Re-produce those for the top results. This could be made more efficient by storing all of these + # results, but will increase memory usage. + if not torch.backends.mps.is_available(): + with self.temporary_cuda( + self.autoregressive + ) as autoregressive, torch.autocast( + device_type="cuda" if not torch.backends.mps.is_available() else 'mps', dtype=torch.float16, enabled=self.half + ): + best_latents = autoregressive(auto_conditioning.repeat(k, 1), text_tokens.repeat(k, 1), + torch.tensor([text_tokens.shape[-1]], device=text_tokens.device), best_results, + torch.tensor([best_results.shape[-1]*self.autoregressive.mel_length_compression], device=text_tokens.device), + return_latent=True, clip_inputs=False) + del auto_conditioning + else: + with self.temporary_cuda( + self.autoregressive + ) as autoregressive: + best_latents = autoregressive(auto_conditioning.repeat(k, 1), text_tokens.repeat(k, 1), + torch.tensor([text_tokens.shape[-1]], device=text_tokens.device), best_results, + torch.tensor([best_results.shape[-1]*self.autoregressive.mel_length_compression], device=text_tokens.device), + return_latent=True, clip_inputs=False) + del auto_conditioning + + if verbose: + print("Transforming autoregressive outputs into audio..") + wav_candidates = [] + if not torch.backends.mps.is_available(): + with self.temporary_cuda(self.diffusion) as diffusion, self.temporary_cuda( + self.vocoder + ) as vocoder: + for b in range(best_results.shape[0]): + codes = best_results[b].unsqueeze(0) + latents = best_latents[b].unsqueeze(0) + + # Find the first occurrence of the "calm" token and trim the codes to that. + ctokens = 0 + for k in range(codes.shape[-1]): + if codes[0, k] == calm_token: + ctokens += 1 + else: + ctokens = 0 + if ctokens > 8: # 8 tokens gives the diffusion model some "breathing room" to terminate speech. + latents = latents[:, :k] + break + mel = do_spectrogram_diffusion(diffusion, diffuser, latents, diffusion_conditioning, temperature=diffusion_temperature, + verbose=verbose) + wav = vocoder.inference(mel) + wav_candidates.append(wav.cpu()) + else: + diffusion, vocoder = self.diffusion, self.vocoder + diffusion_conditioning = diffusion_conditioning.cpu() + for b in range(best_results.shape[0]): + codes = best_results[b].unsqueeze(0).cpu() + latents = best_latents[b].unsqueeze(0).cpu() + + # Find the first occurrence of the "calm" token and trim the codes to that. + ctokens = 0 + for k in range(codes.shape[-1]): + if codes[0, k] == calm_token: + ctokens += 1 + else: + ctokens = 0 + if ctokens > 8: # 8 tokens gives the diffusion model some "breathing room" to terminate speech. + latents = latents[:, :k] + break + mel = do_spectrogram_diffusion(diffusion, diffuser, latents, diffusion_conditioning, temperature=diffusion_temperature, + verbose=verbose) + wav = vocoder.inference(mel) + wav_candidates.append(wav.cpu()) + + def potentially_redact(clip, text): + if self.enable_redaction: + return self.aligner.redact(clip.squeeze(1), text).unsqueeze(1) + return clip + wav_candidates = [potentially_redact(wav_candidate, text) for wav_candidate in wav_candidates] + + if len(wav_candidates) > 1: + res = wav_candidates + else: + res = wav_candidates[0] + + if return_deterministic_state: + return res, (deterministic_seed, text, voice_samples, conditioning_latents) + else: + return res + def deterministic_state(self, seed=None): + """ + Sets the random seeds that tortoise uses to the current time() and returns that seed so results can be + reproduced. + """ + seed = int(time()) if seed is None else seed + torch.manual_seed(seed) + random.seed(seed) + # Can't currently set this because of CUBLAS. TODO: potentially enable it if necessary. + # torch.use_deterministic_algorithms(True) + + return seed diff --git a/tortoise/api_fast.py b/tortoise/api_fast.py new file mode 100644 index 0000000000000000000000000000000000000000..216ecf2df06135b3d53e012f4b7089216a5e9523 --- /dev/null +++ b/tortoise/api_fast.py @@ -0,0 +1,511 @@ +import os +import random +import uuid +from time import time +from urllib import request + +import torch +import torch.nn.functional as F +import progressbar +import torchaudio +import numpy as np +from tortoise.models.classifier import AudioMiniEncoderWithClassifierHead +from tortoise.models.diffusion_decoder import DiffusionTts +from tortoise.models.autoregressive import UnifiedVoice +from tqdm import tqdm +from tortoise.models.arch_util import TorchMelSpectrogram +from tortoise.models.clvp import CLVP +from tortoise.models.cvvp import CVVP +from tortoise.models.hifigan_decoder import HifiganGenerator +from tortoise.models.random_latent_generator import RandomLatentConverter +from tortoise.models.vocoder import UnivNetGenerator +from tortoise.utils.audio import wav_to_univnet_mel, denormalize_tacotron_mel +from tortoise.utils.diffusion import SpacedDiffusion, space_timesteps, get_named_beta_schedule +from tortoise.utils.tokenizer import VoiceBpeTokenizer +from tortoise.utils.wav2vec_alignment import Wav2VecAlignment +from contextlib import contextmanager +from tortoise.models.stream_generator import init_stream_support +from huggingface_hub import hf_hub_download +pbar = None +init_stream_support() +DEFAULT_MODELS_DIR = os.path.join(os.path.expanduser('~'), '.cache', 'tortoise', 'models') +MODELS_DIR = os.environ.get('TORTOISE_MODELS_DIR', DEFAULT_MODELS_DIR) + +MODELS = { + 'autoregressive.pth': 'https://huggingface.co/Manmay/tortoise-tts/resolve/main/autoregressive.pth', + 'classifier.pth': 'https://huggingface.co/Manmay/tortoise-tts/resolve/main/classifier.pth', + 'rlg_auto.pth': 'https://huggingface.co/Manmay/tortoise-tts/resolve/main/rlg_auto.pth', + 'hifidecoder.pth': 'https://huggingface.co/Manmay/tortoise-tts/resolve/main/hifidecoder.pth', +} + +def get_model_path(model_name, models_dir=MODELS_DIR): + """ + Get path to given model, download it if it doesn't exist. + """ + if model_name not in MODELS: + raise ValueError(f'Model {model_name} not found in available models.') + model_path = hf_hub_download(repo_id="Manmay/tortoise-tts", filename=model_name, cache_dir=models_dir) + return model_path + + +def pad_or_truncate(t, length): + """ + Utility function for forcing to have the specified sequence length, whether by clipping it or padding it with 0s. + """ + if t.shape[-1] == length: + return t + elif t.shape[-1] < length: + return F.pad(t, (0, length-t.shape[-1])) + else: + return t[..., :length] + + +def load_discrete_vocoder_diffuser(trained_diffusion_steps=4000, desired_diffusion_steps=200, cond_free=True, cond_free_k=1): + """ + Helper function to load a GaussianDiffusion instance configured for use as a vocoder. + """ + return SpacedDiffusion(use_timesteps=space_timesteps(trained_diffusion_steps, [desired_diffusion_steps]), model_mean_type='epsilon', + model_var_type='learned_range', loss_type='mse', betas=get_named_beta_schedule('linear', trained_diffusion_steps), + conditioning_free=cond_free, conditioning_free_k=cond_free_k) + + +def format_conditioning(clip, cond_length=132300, device="cuda" if not torch.backends.mps.is_available() else 'mps'): + """ + Converts the given conditioning signal to a MEL spectrogram and clips it as expected by the models. + """ + gap = clip.shape[-1] - cond_length + if gap < 0: + clip = F.pad(clip, pad=(0, abs(gap))) + elif gap > 0: + rand_start = random.randint(0, gap) + clip = clip[:, rand_start:rand_start + cond_length] + mel_clip = TorchMelSpectrogram()(clip.unsqueeze(0)).squeeze(0) + return mel_clip.unsqueeze(0).to(device) + + +def fix_autoregressive_output(codes, stop_token, complain=True): + """ + This function performs some padding on coded audio that fixes a mismatch issue between what the diffusion model was + trained on and what the autoregressive code generator creates (which has no padding or end). + This is highly specific to the DVAE being used, so this particular coding will not necessarily work if used with + a different DVAE. This can be inferred by feeding a audio clip padded with lots of zeros on the end through the DVAE + and copying out the last few codes. + + Failing to do this padding will produce speech with a harsh end that sounds like "BLAH" or similar. + """ + # Strip off the autoregressive stop token and add padding. + stop_token_indices = (codes == stop_token).nonzero() + if len(stop_token_indices) == 0: + if complain: + print("No stop tokens found in one of the generated voice clips. This typically means the spoken audio is " + "too long. In some cases, the output will still be good, though. Listen to it and if it is missing words, " + "try breaking up your input text.") + return codes + else: + codes[stop_token_indices] = 83 + stm = stop_token_indices.min().item() + codes[stm:] = 83 + if stm - 3 < codes.shape[0]: + codes[-3] = 45 + codes[-2] = 45 + codes[-1] = 248 + + return codes + + +def do_spectrogram_diffusion(diffusion_model, diffuser, latents, conditioning_latents, temperature=1, verbose=True): + """ + Uses the specified diffusion model to convert discrete codes into a spectrogram. + """ + with torch.no_grad(): + output_seq_len = latents.shape[1] * 4 * 24000 // 22050 # This diffusion model converts from 22kHz spectrogram codes to a 24kHz spectrogram signal. + output_shape = (latents.shape[0], 100, output_seq_len) + precomputed_embeddings = diffusion_model.timestep_independent(latents, conditioning_latents, output_seq_len, False) + + noise = torch.randn(output_shape, device=latents.device) * temperature + mel = diffuser.p_sample_loop(diffusion_model, output_shape, noise=noise, + model_kwargs={'precomputed_aligned_embeddings': precomputed_embeddings}, + progress=verbose) + return denormalize_tacotron_mel(mel)[:,:,:output_seq_len] + + +def classify_audio_clip(clip): + """ + Returns whether or not Tortoises' classifier thinks the given clip came from Tortoise. + :param clip: torch tensor containing audio waveform data (get it from load_audio) + :return: True if the clip was classified as coming from Tortoise and false if it was classified as real. + """ + classifier = AudioMiniEncoderWithClassifierHead(2, spec_dim=1, embedding_dim=512, depth=5, downsample_factor=4, + resnet_blocks=2, attn_blocks=4, num_attn_heads=4, base_channels=32, + dropout=0, kernel_size=5, distribute_zero_label=False) + classifier.load_state_dict(torch.load(get_model_path('classifier.pth'), map_location=torch.device('cpu'))) + clip = clip.cpu().unsqueeze(0) + results = F.softmax(classifier(clip), dim=-1) + return results[0][0] + + +def pick_best_batch_size_for_gpu(): + """ + Tries to pick a batch size that will fit in your GPU. These sizes aren't guaranteed to work, but they should give + you a good shot. + """ + if torch.cuda.is_available(): + _, available = torch.cuda.mem_get_info() + availableGb = available / (1024 ** 3) + if availableGb > 14: + return 16 + elif availableGb > 10: + return 8 + elif availableGb > 7: + return 4 + if torch.backends.mps.is_available(): + import psutil + available = psutil.virtual_memory().total + availableGb = available / (1024 ** 3) + if availableGb > 14: + return 16 + elif availableGb > 10: + return 8 + elif availableGb > 7: + return 4 + return 1 + +class TextToSpeech: + """ + Main entry point into Tortoise. + """ + + def __init__(self, autoregressive_batch_size=None, models_dir=MODELS_DIR, + enable_redaction=True, kv_cache=False, use_deepspeed=False, half=False, device=None, + tokenizer_vocab_file=None, tokenizer_basic=False): + + """ + Constructor + :param autoregressive_batch_size: Specifies how many samples to generate per batch. Lower this if you are seeing + GPU OOM errors. Larger numbers generates slightly faster. + :param models_dir: Where model weights are stored. This should only be specified if you are providing your own + models, otherwise use the defaults. + :param enable_redaction: When true, text enclosed in brackets are automatically redacted from the spoken output + (but are still rendered by the model). This can be used for prompt engineering. + Default is true. + :param device: Device to use when running the model. If omitted, the device will be automatically chosen. + """ + self.models_dir = models_dir + self.autoregressive_batch_size = pick_best_batch_size_for_gpu() if autoregressive_batch_size is None else autoregressive_batch_size + self.enable_redaction = enable_redaction + self.device = torch.device('cuda' if torch.cuda.is_available() else'cpu') + if torch.backends.mps.is_available(): + self.device = torch.device('mps') + if self.enable_redaction: + self.aligner = Wav2VecAlignment() + + self.tokenizer = VoiceBpeTokenizer( + vocab_file=tokenizer_vocab_file, + use_basic_cleaners=tokenizer_basic, + ) + self.half = half + if os.path.exists(f'{models_dir}/autoregressive.ptt'): + # Assume this is a traced directory. + self.autoregressive = torch.jit.load(f'{models_dir}/autoregressive.ptt') + else: + self.autoregressive = UnifiedVoice(max_mel_tokens=604, max_text_tokens=402, max_conditioning_inputs=2, layers=30, + model_dim=1024, + heads=16, number_text_tokens=255, start_text_token=255, checkpointing=False, + train_solo_embeddings=False).to(self.device).eval() + self.autoregressive.load_state_dict(torch.load(get_model_path('autoregressive.pth', models_dir)), strict=False) + self.autoregressive.post_init_gpt2_config(use_deepspeed=use_deepspeed, kv_cache=kv_cache, half=self.half) + + self.hifi_decoder = HifiganGenerator(in_channels=1024, out_channels = 1, resblock_type = "1", + resblock_dilation_sizes = [[1, 3, 5], [1, 3, 5], [1, 3, 5]], resblock_kernel_sizes = [3, 7, 11], + upsample_kernel_sizes = [16, 16, 4, 4], upsample_initial_channel = 512, upsample_factors = [8, 8, 2, 2], + cond_channels=1024).to(self.device).eval() + hifi_model = torch.load(get_model_path('hifidecoder.pth')) + self.hifi_decoder.load_state_dict(hifi_model, strict=False) + # Random latent generators (RLGs) are loaded lazily. + self.rlg_auto = None + def get_conditioning_latents(self, voice_samples, return_mels=False): + """ + Transforms one or more voice_samples into a tuple (autoregressive_conditioning_latent, diffusion_conditioning_latent). + These are expressive learned latents that encode aspects of the provided clips like voice, intonation, and acoustic + properties. + :param voice_samples: List of 2 or more ~10 second reference clips, which should be torch tensors containing 22.05kHz waveform data. + """ + with torch.no_grad(): + voice_samples = [v.to(self.device) for v in voice_samples] + + auto_conds = [] + if not isinstance(voice_samples, list): + voice_samples = [voice_samples] + for vs in voice_samples: + auto_conds.append(format_conditioning(vs, device=self.device)) + auto_conds = torch.stack(auto_conds, dim=1) + auto_latent = self.autoregressive.get_conditioning(auto_conds) + + if return_mels: + return auto_latent + else: + return auto_latent + + def get_random_conditioning_latents(self): + # Lazy-load the RLG models. + if self.rlg_auto is None: + self.rlg_auto = RandomLatentConverter(1024).eval() + self.rlg_auto.load_state_dict(torch.load(get_model_path('rlg_auto.pth', self.models_dir), map_location=torch.device('cpu'))) + with torch.no_grad(): + return self.rlg_auto(torch.tensor([0.0])) + + def tts_with_preset(self, text, preset='fast', **kwargs): + """ + Calls TTS with one of a set of preset generation parameters. Options: + 'ultra_fast': Produces speech at a speed which belies the name of this repo. (Not really, but it's definitely fastest). + 'fast': Decent quality speech at a decent inference rate. A good choice for mass inference. + 'standard': Very good quality. This is generally about as good as you are going to get. + 'high_quality': Use if you want the absolute best. This is not really worth the compute, though. + """ + # Use generally found best tuning knobs for generation. + settings = {'temperature': .8, 'length_penalty': 1.0, 'repetition_penalty': 2.0, + 'top_p': .8, + 'cond_free_k': 2.0, 'diffusion_temperature': 1.0} + # Presets are defined here. + presets = { + 'ultra_fast': {'num_autoregressive_samples': 1, 'diffusion_iterations': 10}, + 'fast': {'num_autoregressive_samples': 32, 'diffusion_iterations': 50}, + 'standard': {'num_autoregressive_samples': 256, 'diffusion_iterations': 200}, + 'high_quality': {'num_autoregressive_samples': 256, 'diffusion_iterations': 400}, + } + settings.update(presets[preset]) + settings.update(kwargs) # allow overriding of preset settings with kwargs + for audio_frame in self.tts(text, **settings): + yield audio_frame + # taken from here https://github.com/coqui-ai/TTS/blob/b4c552a112fd4c5f3477f439882eb43c2e2ce85f/TTS/tts/models/xtts.py#L600 + def handle_chunks(self, wav_gen, wav_gen_prev, wav_overlap, overlap_len): + """Handle chunk formatting in streaming mode""" + wav_chunk = wav_gen[:-overlap_len] + if wav_gen_prev is not None: + wav_chunk = wav_gen[(wav_gen_prev.shape[0] - overlap_len) : -overlap_len] + if wav_overlap is not None: + # cross fade the overlap section + if overlap_len > len(wav_chunk): + # wav_chunk is smaller than overlap_len, pass on last wav_gen + if wav_gen_prev is not None: + wav_chunk = wav_gen[(wav_gen_prev.shape[0] - overlap_len):] + else: + # not expecting will hit here as problem happens on last chunk + wav_chunk = wav_gen[-overlap_len:] + return wav_chunk, wav_gen, None + else: + crossfade_wav = wav_chunk[:overlap_len] + crossfade_wav = crossfade_wav * torch.linspace(0.0, 1.0, overlap_len).to(crossfade_wav.device) + wav_chunk[:overlap_len] = wav_overlap * torch.linspace(1.0, 0.0, overlap_len).to(wav_overlap.device) + wav_chunk[:overlap_len] += crossfade_wav + + wav_overlap = wav_gen[-overlap_len:] + wav_gen_prev = wav_gen + return wav_chunk, wav_gen_prev, wav_overlap + + + def tts_stream(self, text, voice_samples=None, conditioning_latents=None, k=1, verbose=True, use_deterministic_seed=None, + return_deterministic_state=False, overlap_wav_len=1024, stream_chunk_size=40, + # autoregressive generation parameters follow + num_autoregressive_samples=512, temperature=.8, length_penalty=1, repetition_penalty=2.0, top_p=.8, max_mel_tokens=500, + # CVVP parameters follow + cvvp_amount=.0, + # diffusion generation parameters follow + diffusion_iterations=100, cond_free=True, cond_free_k=2, diffusion_temperature=1.0, + **hf_generate_kwargs): + """ + Produces an audio clip of the given text being spoken with the given reference voice. + :param text: Text to be spoken. + :param voice_samples: List of 2 or more ~10 second reference clips which should be torch tensors containing 22.05kHz waveform data. + :param conditioning_latents: A tuple of (autoregressive_conditioning_latent, diffusion_conditioning_latent), which + can be provided in lieu of voice_samples. This is ignored unless voice_samples=None. + Conditioning latents can be retrieved via get_conditioning_latents(). + :param k: The number of returned clips. The most likely (as determined by Tortoises' CLVP model) clips are returned. + :param verbose: Whether or not to print log messages indicating the progress of creating a clip. Default=true. + ~~AUTOREGRESSIVE KNOBS~~ + :param num_autoregressive_samples: Number of samples taken from the autoregressive model, all of which are filtered using CLVP. + As Tortoise is a probabilistic model, more samples means a higher probability of creating something "great". + :param temperature: The softmax temperature of the autoregressive model. + :param length_penalty: A length penalty applied to the autoregressive decoder. Higher settings causes the model to produce more terse outputs. + :param repetition_penalty: A penalty that prevents the autoregressive decoder from repeating itself during decoding. Can be used to reduce the incidence + of long silences or "uhhhhhhs", etc. + :param top_p: P value used in nucleus sampling. (0,1]. Lower values mean the decoder produces more "likely" (aka boring) outputs. + :param max_mel_tokens: Restricts the output length. (0,600] integer. Each unit is 1/20 of a second. + ~~DIFFUSION KNOBS~~ + :param diffusion_iterations: Number of diffusion steps to perform. [0,4000]. More steps means the network has more chances to iteratively refine + the output, which should theoretically mean a higher quality output. Generally a value above 250 is not noticeably better, + however. + :param cond_free: Whether or not to perform conditioning-free diffusion. Conditioning-free diffusion performs two forward passes for + each diffusion step: one with the outputs of the autoregressive model and one with no conditioning priors. The output + of the two is blended according to the cond_free_k value below. Conditioning-free diffusion is the real deal, and + dramatically improves realism. + :param cond_free_k: Knob that determines how to balance the conditioning free signal with the conditioning-present signal. [0,inf]. + As cond_free_k increases, the output becomes dominated by the conditioning-free signal. + Formula is: output=cond_present_output*(cond_free_k+1)-cond_absenct_output*cond_free_k + :param diffusion_temperature: Controls the variance of the noise fed into the diffusion model. [0,1]. Values at 0 + are the "mean" prediction of the diffusion network and will sound bland and smeared. + ~~OTHER STUFF~~ + :param hf_generate_kwargs: The huggingface Transformers generate API is used for the autoregressive transformer. + Extra keyword args fed to this function get forwarded directly to that API. Documentation + here: https://huggingface.co/docs/transformers/internal/generation_utils + :return: Generated audio clip(s) as a torch tensor. Shape 1,S if k=1 else, (k,1,S) where S is the sample length. + Sample rate is 24kHz. + """ + deterministic_seed = self.deterministic_state(seed=use_deterministic_seed) + + text_tokens = torch.IntTensor(self.tokenizer.encode(text)).unsqueeze(0).to(self.device) + text_tokens = F.pad(text_tokens, (0, 1)) # This may not be necessary. + assert text_tokens.shape[-1] < 400, 'Too much text provided. Break the text up into separate segments and re-try inference.' + if voice_samples is not None: + auto_conditioning = self.get_conditioning_latents(voice_samples, return_mels=False) + else: + auto_conditioning = self.get_random_conditioning_latents() + auto_conditioning = auto_conditioning.to(self.device) + + with torch.no_grad(): + calm_token = 83 # This is the token for coding silence, which is fixed in place with "fix_autoregressive_output" + if verbose: + print("Generating autoregressive samples..") + with torch.autocast( + device_type="cuda" , dtype=torch.float16, enabled=self.half + ): + fake_inputs = self.autoregressive.compute_embeddings( + auto_conditioning, + text_tokens, + ) + gpt_generator = self.autoregressive.get_generator( + fake_inputs=fake_inputs, + top_k=50, + top_p=top_p, + temperature=temperature, + do_sample=True, + num_beams=1, + num_return_sequences=1, + length_penalty=float(length_penalty), + repetition_penalty=float(repetition_penalty), + output_attentions=False, + output_hidden_states=True, + **hf_generate_kwargs, + ) + all_latents = [] + codes_ = [] + wav_gen_prev = None + wav_overlap = None + is_end = False + first_buffer = 60 + while not is_end: + try: + with torch.autocast( + device_type="cuda", dtype=torch.float16, enabled=self.half + ): + codes, latent = next(gpt_generator) + all_latents += [latent] + codes_ += [codes] + except StopIteration: + is_end = True + + if is_end or (stream_chunk_size > 0 and len(codes_) >= max(stream_chunk_size, first_buffer)): + first_buffer = 0 + gpt_latents = torch.cat(all_latents, dim=0)[None, :] + wav_gen = self.hifi_decoder.inference(gpt_latents.to(self.device), auto_conditioning) + wav_gen = wav_gen.squeeze() + wav_chunk, wav_gen_prev, wav_overlap = self.handle_chunks( + wav_gen.squeeze(), wav_gen_prev, wav_overlap, overlap_wav_len + ) + codes_ = [] + yield wav_chunk + def tts(self, text, voice_samples=None, k=1, verbose=True, use_deterministic_seed=None, + # autoregressive generation parameters follow + num_autoregressive_samples=512, temperature=.8, length_penalty=1, repetition_penalty=2.0, + top_p=.8, max_mel_tokens=500, + # CVVP parameters follow + cvvp_amount=.0, + **hf_generate_kwargs): + """ + Produces an audio clip of the given text being spoken with the given reference voice. + :param text: Text to be spoken. + :param voice_samples: List of 2 or more ~10 second reference clips which should be torch tensors containing 22.05kHz waveform data. + :param conditioning_latents: A tuple of (autoregressive_conditioning_latent, diffusion_conditioning_latent), which + can be provided in lieu of voice_samples. This is ignored unless voice_samples=None. + Conditioning latents can be retrieved via get_conditioning_latents(). + :param k: The number of returned clips. The most likely (as determined by Tortoises' CLVP model) clips are returned. + :param verbose: Whether or not to print log messages indicating the progress of creating a clip. Default=true. + ~~AUTOREGRESSIVE KNOBS~~ + :param num_autoregressive_samples: Number of samples taken from the autoregressive model, all of which are filtered using CLVP. + As Tortoise is a probabilistic model, more samples means a higher probability of creating something "great". + :param temperature: The softmax temperature of the autoregressive model. + :param length_penalty: A length penalty applied to the autoregressive decoder. Higher settings causes the model to produce more terse outputs. + :param repetition_penalty: A penalty that prevents the autoregressive decoder from repeating itself during decoding. Can be used to reduce the incidence + of long silences or "uhhhhhhs", etc. + :param top_p: P value used in nucleus sampling. (0,1]. Lower values mean the decoder produces more "likely" (aka boring) outputs. + :param max_mel_tokens: Restricts the output length. (0,600] integer. Each unit is 1/20 of a second. + ~~DIFFUSION KNOBS~~ + :param diffusion_iterations: Number of diffusion steps to perform. [0,4000]. More steps means the network has more chances to iteratively refine + the output, which should theoretically mean a higher quality output. Generally a value above 250 is not noticeably better, + however. + :param cond_free: Whether or not to perform conditioning-free diffusion. Conditioning-free diffusion performs two forward passes for + each diffusion step: one with the outputs of the autoregressive model and one with no conditioning priors. The output + of the two is blended according to the cond_free_k value below. Conditioning-free diffusion is the real deal, and + dramatically improves realism. + :param cond_free_k: Knob that determines how to balance the conditioning free signal with the conditioning-present signal. [0,inf]. + As cond_free_k increases, the output becomes dominated by the conditioning-free signal. + Formula is: output=cond_present_output*(cond_free_k+1)-cond_absenct_output*cond_free_k + :param diffusion_temperature: Controls the variance of the noise fed into the diffusion model. [0,1]. Values at 0 + are the "mean" prediction of the diffusion network and will sound bland and smeared. + ~~OTHER STUFF~~ + :param hf_generate_kwargs: The huggingface Transformers generate API is used for the autoregressive transformer. + Extra keyword args fed to this function get forwarded directly to that API. Documentation + here: https://huggingface.co/docs/transformers/internal/generation_utils + :return: Generated audio clip(s) as a torch tensor. Shape 1,S if k=1 else, (k,1,S) where S is the sample length. + Sample rate is 24kHz. + """ + deterministic_seed = self.deterministic_state(seed=use_deterministic_seed) + + text_tokens = torch.IntTensor(self.tokenizer.encode(text)).unsqueeze(0).to(self.device) + text_tokens = F.pad(text_tokens, (0, 1)) # This may not be necessary. + assert text_tokens.shape[-1] < 400, 'Too much text provided. Break the text up into separate segments and re-try inference.' + if voice_samples is not None: + auto_conditioning = self.get_conditioning_latents(voice_samples, return_mels=False) + else: + auto_conditioning = self.get_random_conditioning_latents() + auto_conditioning = auto_conditioning.to(self.device) + + with torch.no_grad(): + calm_token = 83 # This is the token for coding silence, which is fixed in place with "fix_autoregressive_output" + if verbose: + print("Generating autoregressive samples..") + with torch.autocast( + device_type="cuda" , dtype=torch.float16, enabled=self.half + ): + codes = self.autoregressive.inference_speech(auto_conditioning, text_tokens, + top_k=50, + top_p=top_p, + temperature=temperature, + do_sample=True, + num_beams=1, + num_return_sequences=1, + length_penalty=float(length_penalty), + repetition_penalty=float(repetition_penalty), + output_attentions=False, + output_hidden_states=True, + **hf_generate_kwargs) + gpt_latents = self.autoregressive(auto_conditioning.repeat(k, 1), text_tokens.repeat(k, 1), + torch.tensor([text_tokens.shape[-1]], device=text_tokens.device), codes, + torch.tensor([codes.shape[-1]*self.autoregressive.mel_length_compression], device=text_tokens.device), + return_latent=True, clip_inputs=False) + if verbose: + print("generating audio..") + wav_gen = self.hifi_decoder.inference(gpt_latents.to(self.device), auto_conditioning) + return wav_gen + def deterministic_state(self, seed=None): + """ + Sets the random seeds that tortoise uses to the current time() and returns that seed so results can be + reproduced. + """ + seed = int(time()) if seed is None else seed + torch.manual_seed(seed) + random.seed(seed) + # Can't currently set this because of CUBLAS. TODO: potentially enable it if necessary. + # torch.use_deterministic_algorithms(True) + + return seed diff --git a/tortoise/data/got.txt b/tortoise/data/got.txt new file mode 100644 index 0000000000000000000000000000000000000000..a7180b9a224d40d824807fefe86d592b709216ad --- /dev/null +++ b/tortoise/data/got.txt @@ -0,0 +1,276 @@ +Chapter One + + +Bran + + +The morning had dawned clear and cold, with a crispness that hinted at the end of summer. They set forth at daybreak to see a man beheaded, twenty in all, and Bran rode among them, nervous with excitement. This was the first time he had been deemed old enough to go with his lord father and his brothers to see the king's justice done. It was the ninth year of summer, and the seventh of Bran's life. + + +The man had been taken outside a small holdfast in the hills. Robb thought he was a wildling, his sword sworn to Mance Rayder, the King-beyond-the-Wall. It made Bran's skin prickle to think of it. He remembered the hearth tales Old Nan told them. The wildlings were cruel men, she said, slavers and slayers and thieves. They consorted with giants and ghouls, stole girl children in the dead of night, and drank blood from polished horns. And their women lay with the Others in the Long Night to sire terrible half-human children. + + +But the man they found bound hand and foot to the holdfast wall awaiting the king's justice was old and scrawny, not much taller than Robb. He had lost both ears and a finger to frostbite, and he dressed all in black, the same as a brother of the Night's Watch, except that his furs were ragged and greasy. + + +The breath of man and horse mingled, steaming, in the cold morning air as his lord father had the man cut down from the wall and dragged before them. Robb and Jon sat tall and still on their horses, with Bran between them on his pony, trying to seem older than seven, trying to pretend that he'd seen all this before. A faint wind blew through the holdfast gate. Over their heads flapped the banner of the Starks of Winterfell: a grey direwolf racing across an ice-white field. + +Bran's father sat solemnly on his horse, long brown hair stirring in the wind. His closely trimmed beard was shot with white, making him look older than his thirty-five years. He had a grim cast to his grey eyes this day, and he seemed not at all the man who would sit before the fire in the evening and talk softly of the age of heroes and the children of the forest. He had taken off Father's face, Bran thought, and donned the face of Lord Stark of Winterfell. + + +There were questions asked and answers given there in the chill of morning, but afterward Bran could not recall much of what had been said. Finally his lord father gave a command, and two of his guardsmen dragged the ragged man to the ironwood stump in the center of the square. They forced his head down onto the hard black wood. Lord Eddard Stark dismounted and his ward Theon Greyjoy brought forth the sword. "Ice," that sword was called. It was as wide across as a man's hand, and taller even than Robb. The blade was Valyrian steel, spell-forged and dark as smoke. Nothing held an edge like Valyrian steel. + + +His father peeled off his gloves and handed them to Jory Cassel, the captain of his household guard. He took hold of Ice with both hands and said, "In the name of Robert of the House Baratheon, the First of his Name, King of the Andals and the Rhoynar and the First Men, Lord of the Seven Kingdoms and Protector of the Realm, by the word of Eddard of the House Stark, Lord of Winterfell and Warden of the North, I do sentence you to die." He lifted the greatsword high above his head. + + +Bran's bastard brother Jon Snow moved closer. "Keep the pony well in hand," he whispered. "And don't look away. Father will know if you do." + + +Bran kept his pony well in hand, and did not look away. + + +His father took off the man's head with a single sure stroke. Blood sprayed out across the snow, as red as surnmerwine. One of the horses reared and had to be restrained to keep from bolting. Bran could not take his eyes off the blood. The snows around the stump drank it eagerly, reddening as he watched. + +The head bounced off a thick root and rolled. It came up near Greyjoy's feet. Theon was a lean, dark youth of nineteen who found everything amusing. He laughed, put his boot on the head, and kicked it away. + + +"Ass," Jon muttered, low enough so Greyjoy did not hear. He put a hand on Bran's shoulder, and Bran looked over at his bastard brother. "You did well," Jon told him solemnly. Jon was fourteen, an old hand at justice. + + +It seemed colder on the long ride back to Winterfell, though the wind had died by then and the sun was higher in the sky. Bran rode with his brothers, well ahead of the main party, his pony struggling hard to keep up with their horses. + + +"The deserter died bravely," Robb said. He was big and broad and growing every day, with his mother's coloring, the fair skin, red-brown hair, and blue eyes of the Tullys of Riverrun. "He had courage, at the least." + + +"No," Jon Snow said quietly. "It was not courage. This one was dead of fear. You could see it in his eyes, Stark." Jon's eyes were a grey so dark they seemed almost black, but there was little they did not see. He was of an age with Robb, but they did not look alike. Jon was slender where Robb was muscular, dark where Robb was fair, graceful and quick where his half brother was strong and fast. + + +Robb was not impressed. "The Others take his eyes," he swore. "He died well. Race you to the bridge?" + + +"Done," Jon said, kicking his horse forward. Robb cursed and followed, and they galloped off down the trail, Robb laughing and hooting, Jon silent and intent. The hooves of their horses kicked up showers of snow as they went. + +Bran did not try to follow. His pony could not keep up. He had seen the ragged man's eyes, and he was thinking of them now. After a while, the sound of Robb's laughter receded, and the woods grew silent again. + + +So deep in thought was he that he never heard the rest of the party until his father moved up to ride beside him. "Are you well, Bran?" he asked, not unkindly. + + +"Yes, Father," Bran told him. He looked up. Wrapped in his furs and leathers, mounted on his great warhorse, his lord father loomed over him like a giant. "Robb says the man died bravely, but Jon says he was afraid." + + +"What do you think?" his father asked. + + +Bran thought about it. "Can a man still be brave if he's afraid?" + + +"That is the only time a man can be brave," his father told him. "Do you understand why I did it?" + + +"He was a wildling," Bran said. "They carry off women and sell them to the Others." + + +His lord father smiled. "Old Nan has been telling you stories again. In truth, the man was an oathbreaker, a deserter from the Night's Watch. No man is more dangerous. The deserter knows his life is forfeit if he is taken, so he will not flinch from any crime, no matter how vile. But you mistake me. The question was not why the man had to die, but why I must do it." + + +Bran had no answer for that. "King Robert has a headsman," he said, uncertainly. + + +"He does," his father admitted. "As did the Targaryen kings before him. Yet our way is the older way. The blood of the First Men still flows in the veins of the Starks, and we hold to the belief that the man who passes the sentence should swing the sword. If you would take a man's life, you owe it to him to look into his eyes and hear his final words. And if you cannot bear to do that, then perhaps the man does not deserve to die. + + +"One day, Bran, you will be Robb's bannerman, holding a keep of your own for your brother and your king, and justice will fall to you. When that day comes, you must take no pleasure in the task, but neither must you look away. A ruler who hides behind paid executioners soon forgets what death is." + + +That was when Jon reappeared on the crest of the hill before them. He waved and shouted down at them. "Father, Bran, come quickly, see what Robb has found!" Then he was gone again. + + +Jory rode up beside them. "Trouble, my lord?" + + +"Beyond a doubt," his lord father said. "Come, let us see what mischief my sons have rooted out now." He sent his horse into a trot. Jory and Bran and the rest came after. + + +They found Robb on the riverbank north of the bridge, with Jon still mounted beside him. The late summer snows had been heavy this moonturn. Robb stood knee-deep in white, his hood pulled back so the sun shone in his hair. He was cradling something in his arm, while the boys talked in hushed, excited voices. + + +The riders picked their way carefully through the drifts, groping for solid footing on the hidden, uneven ground . Jory Cassel and Theon Greyjoy were the first to reach the boys. Greyjoy was laughing and joking as he rode. Bran heard the breath go out of him. "Gods!" he exclaimed, struggling to keep control of his horse as he reached for his sword. + + +Jory's sword was already out. "Robb, get away from it!" he called as his horse reared under him. + + +Robb grinned and looked up from the bundle in his arms. "She can't hurt you," he said. "She's dead, Jory." + + +Bran was afire with curiosity by then. He would have spurred the pony faster, but his father made them dismount beside the bridge and approach on foot. Bran jumped off and ran. + + +By then Jon, Jory, and Theon Greyjoy had all dismounted as well. "What in the seven hells is it?" Greyjoy was saying. + + +"A wolf," Robb told him. + + +"A freak," Greyjoy said. "Look at the size of it." + + +Bran's heart was thumping in his chest as he pushed through a waist-high drift to his brothers' side. + + +Half-buried in bloodstained snow, a huge dark shape slumped in death. Ice had formed in its shaggy grey fur, and the faint smell of corruption clung to it like a woman's perfume. Bran glimpsed blind eyes crawling with maggots, a wide mouth full of yellowed teeth. But it was the size of it that made him gasp. It was bigger than his pony, twice the size of the largest hound in his father's kennel. + + +"It's no freak," Jon said calmly. "That's a direwolf. They grow larger than the other kind." + + +Theon Greyjoy said, "There's not been a direwolf sighted south of the Wall in two hundred years." + + +"I see one now," Jon replied. + + +Bran tore his eyes away from the monster. That was when he noticed the bundle in Robb's arms. He gave a cry of delight and moved closer. The pup was a tiny ball of grey-black fur, its eyes still closed. It nuzzled blindly against Robb's chest as he cradled it, searching for milk among his leathers, making a sad little whimpery sound. Bran reached out hesitantly. "Go on," Robb told him. "You can touch him." + + +Bran gave the pup a quick nervous stroke, then turned as Jon said, "Here you go." His half brother put a second pup into his arms. "There are five of them." Bran sat down in the snow and hugged the wolf pup to his face. Its fur was soft and warm against his cheek. + + +"Direwolves loose in the realm, after so many years," muttered Hullen, the master of horse. "I like it not." + + +"It is a sign," Jory said. + + +Father frowned. "This is only a dead animal, Jory," he said. Yet he seemed troubled. Snow crunched under his boots as he moved around the body. "Do we know what killed her?" + + +"There's something in the throat," Robb told him, proud to have found the answer before his father even asked. "There, just under the jaw." + + +His father knelt and groped under the beast's head with his hand. He gave a yank and held it up for all to see. A foot of shattered antler, tines snapped off, all wet with blood. + + +A sudden silence descended over the party. The men looked at the antler uneasily, and no one dared to speak. Even Bran could sense their fear, though he did not understand. + + +His father tossed the antler to the side and cleansed his hands in the snow. "I'm surprised she lived long enough to whelp," he said. His voice broke the spell. + + +"Maybe she didn't," Jory said. "I've heard tales . . . maybe the bitch was already dead when the pups came." + + +"Born with the dead," another man put in. "Worse luck." + + +"No matter," said Hullen. "They be dead soon enough too." + + +Bran gave a wordless cry of dismay. + + +"The sooner the better," Theon Greyjoy agreed. He drew his sword. "Give the beast here, Bran." + + +The little thing squirmed against him, as if it heard and understood. "No!" Bran cried out fiercely. "It's mine." + + +"Put away your sword, Greyjoy," Robb said. For a moment he sounded as commanding as their father, like the lord he would someday be. "We will keep these pups." + + +"You cannot do that, boy," said Harwin, who was Hullen's son. + + +"It be a mercy to kill them," Hullen said. + + +Bran looked to his lord father for rescue, but got only a frown, a furrowed brow. "Hullen speaks truly, son. Better a swift death than a hard one from cold and starvation." + + +"No!" He could feel tears welling in his eyes, and he looked away. He did not want to cry in front of his father. + + +Robb resisted stubbornly. "Ser Rodrik's red bitch whelped again last week," he said. "It was a small litter, only two live pups. She'll have milk enough." + + +"She'll rip them apart when they try to nurse." + + +"Lord Stark," Jon said. It was strange to hear him call Father that, so formal. Bran looked at him with desperate hope. "There are five pups," he told Father. "Three male, two female." + + +"What of it, Jon?" + + +"You have five trueborn children," Jon said. "Three sons, two daughters. The direwolf is the sigil of your House. Your children were meant to have these pups, my lord." + + +Bran saw his father's face change, saw the other men exchange glances. He loved Jon with all his heart at that moment. Even at seven, Bran understood what his brother had done. The count had come right only because Jon had omitted himself. He had included the girls, included even Rickon, the baby, but not the bastard who bore the surname Snow, the name that custom decreed be given to all those in the north unlucky enough to be born with no name of their own. + + +Their father understood as well. "You want no pup for yourself, Jon?" he asked softly. + + +"The direwolf graces the banners of House Stark," Jon pointed out. "I am no Stark, Father." + + +Their lord father regarded Jon thoughtfully. Robb rushed into the silence he left. "I will nurse him myself, Father," he promised. "I will soak a towel with warm milk, and give him suck from that." + + +"Me too!" Bran echoed. + + +The lord weighed his sons long and carefully with his eyes. "Easy to say, and harder to do. I will not have you wasting the servants' time with this. If you want these pups, you will feed them yourselves. Is that understood?" + + +Bran nodded eagerly. The pup squirmed in his grasp, licked at his face with a warm tongue. + + +"You must train them as well," their father said. "You must train them. The kennelmaster will have nothing to do with these monsters, I promise you that. And the gods help you if you neglect them, or brutalize them, or train them badly. These are not dogs to beg for treats and slink off at a kick. A direwolf will rip a man's arm off his shoulder as easily as a dog will kill a rat. Are you sure you want this?" + +"Yes, Father," Bran said. + + +"Yes," Robb agreed. + + +"The pups may die anyway, despite all you do." + + +"They won't die," Robb said. "We won't let them die." + + +"Keep them, then. Jory, Desmond, gather up the other pups. It's time we were back to Winterfell." + + +It was not until they were mounted and on their way that Bran allowed himself to taste the sweet air of victory. By then, his pup was snuggled inside his leathers, warm against him, safe for the long ride home. Bran was wondering what to name him. + + +Halfway across the bridge, Jon pulled up suddenly. + + +"What is it, Jon?" their lord father asked. + + +"Can't you hear it?" + + +Bran could hear the wind in the trees, the clatter of their hooves on the ironwood planks, the whimpering of his hungry pup, but Jon was listening to something else. + + +"There," Jon said. He swung his horse around and galloped back across the bridge. They watched him dismount where the direwolf lay dead in the snow, watched him kneel. A moment later he was riding back to them, smiling. + + +"He must have crawled away from the others," Jon said. + + +"Or been driven away," their father said, looking at the sixth pup. His fur was white, where the rest of the litter was grey. His eyes were as red as the blood of the ragged man who had died that morning. Bran thought it curious that this pup alone would have opened his eyes while the others were still blind. + + +"An albino," Theon Greyjoy said with wry amusement. "This one will die even faster than the others." + + +Jon Snow gave his father's ward a long, chilling look. "I think not, Greyjoy," he said. "This one belongs to me." \ No newline at end of file diff --git a/tortoise/data/layman.txt b/tortoise/data/layman.txt new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/tortoise/data/mel_norms.pth b/tortoise/data/mel_norms.pth new file mode 100644 index 0000000000000000000000000000000000000000..ed4d6e4f71fba223d920da25f1bbd0c8619433b5 --- /dev/null +++ b/tortoise/data/mel_norms.pth @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:1f69422a8a8f344c4fca2f0c6b8d41d2151d6615b7321e48e6bb15ae949b119c +size 1067 diff --git a/tortoise/data/riding_hood.txt b/tortoise/data/riding_hood.txt new file mode 100644 index 0000000000000000000000000000000000000000..2987bef78f92ecb327fc0f754b7ab1211a18542b --- /dev/null +++ b/tortoise/data/riding_hood.txt @@ -0,0 +1,54 @@ +Once upon a time there lived in a certain village a little country girl, the prettiest creature who was ever seen. Her mother was excessively fond of her; and her grandmother doted on her still more. This good woman had a little red riding hood made for her. It suited the girl so extremely well that everybody called her Little Red Riding Hood. +One day her mother, having made some cakes, said to her, "Go, my dear, and see how your grandmother is doing, for I hear she has been very ill. Take her a cake, and this little pot of butter." + +Little Red Riding Hood set out immediately to go to her grandmother, who lived in another village. + +As she was going through the wood, she met with a wolf, who had a very great mind to eat her up, but he dared not, because of some woodcutters working nearby in the forest. He asked her where she was going. The poor child, who did not know that it was dangerous to stay and talk to a wolf, said to him, "I am going to see my grandmother and carry her a cake and a little pot of butter from my mother." + +"Does she live far off?" said the wolf + +"Oh I say," answered Little Red Riding Hood; "it is beyond that mill you see there, at the first house in the village." + +"Well," said the wolf, "and I'll go and see her too. I'll go this way and go you that, and we shall see who will be there first." + +The wolf ran as fast as he could, taking the shortest path, and the little girl took a roundabout way, entertaining herself by gathering nuts, running after butterflies, and gathering bouquets of little flowers. It was not long before the wolf arrived at the old woman's house. He knocked at the door: tap, tap. + +"Who's there?" + +"Your grandchild, Little Red Riding Hood," replied the wolf, counterfeiting her voice; "who has brought you a cake and a little pot of butter sent you by mother." + +The good grandmother, who was in bed, because she was somewhat ill, cried out, "Pull the bobbin, and the latch will go up." + +The wolf pulled the bobbin, and the door opened, and then he immediately fell upon the good woman and ate her up in a moment, for it been more than three days since he had eaten. He then shut the door and got into the grandmother's bed, expecting Little Red Riding Hood, who came some time afterwards and knocked at the door: tap, tap. + +"Who's there?" + +Little Red Riding Hood, hearing the big voice of the wolf, was at first afraid; but believing her grandmother had a cold and was hoarse, answered, "It is your grandchild Little Red Riding Hood, who has brought you a cake and a little pot of butter mother sends you." + +The wolf cried out to her, softening his voice as much as he could, "Pull the bobbin, and the latch will go up." + +Little Red Riding Hood pulled the bobbin, and the door opened. + +The wolf, seeing her come in, said to her, hiding himself under the bedclothes, "Put the cake and the little pot of butter upon the stool, and come get into bed with me." + +Little Red Riding Hood took off her clothes and got into bed. She was greatly amazed to see how her grandmother looked in her nightclothes, and said to her, "Grandmother, what big arms you have!" + +"All the better to hug you with, my dear." + +"Grandmother, what big legs you have!" + +"All the better to run with, my child." + +"Grandmother, what big ears you have!" + +"All the better to hear with, my child." + +"Grandmother, what big eyes you have!" + +"All the better to see with, my child." + +"Grandmother, what big teeth you have got!" + +"All the better to eat you up with." + +And, saying these words, this wicked wolf fell upon Little Red Riding Hood, and ate her all up. \ No newline at end of file diff --git a/tortoise/data/seal_copypasta.txt b/tortoise/data/seal_copypasta.txt new file mode 100644 index 0000000000000000000000000000000000000000..ce59a386070125650d3c6d8e8a13801d3666aa5f --- /dev/null +++ b/tortoise/data/seal_copypasta.txt @@ -0,0 +1 @@ +What the fuck did you just fucking say about me, you little bitch? I'll have you know I graduated top of my class in the Navy Seals, and I've been involved in numerous secret raids on Al kayda, and I have over 300 confirmed kills. I am trained in gorilla warfare and I'm the top sniper in the entire U S armed forces. You are nothing to me but just another target. I will wipe you the fuck out with precision the likes of which has never been seen before on this Earth, mark my fucking words. You think you can get away with saying that shit to me over the Internet? Think again, fucker. As we speak I am contacting my secret network of spies across the U S A and your IP is being traced right now so you better prepare for the storm, maggot. The storm that wipes out the pathetic little thing you call your life. You're fucking dead, kid. I can be anywhere, anytime, and I can kill you in over seven hundred ways, and that's just with my bare hands. Not only am I extensively trained in unarmed combat, but I have access to the entire arsenal of the United States Marine Corps and I will use it to its full extent to wipe your miserable ass off the face of the continent, you little shit. If only you could have known what unholy retribution your little "clever" comment was about to bring down upon you, maybe you would have held your fucking tongue. But you couldn't, you didn't, and now you're paying the price, you goddamn idiot. I will shit fury all over you and you will drown in it. You're fucking dead, kiddo. \ No newline at end of file diff --git a/tortoise/data/tokenizer.json b/tortoise/data/tokenizer.json new file mode 100644 index 0000000000000000000000000000000000000000..a128f273053e465a15c488e48d8106e0c8b0898e --- /dev/null +++ b/tortoise/data/tokenizer.json @@ -0,0 +1 @@ +{"version":"1.0","truncation":null,"padding":null,"added_tokens":[{"id":0,"special":true,"content":"[STOP]","single_word":false,"lstrip":false,"rstrip":false,"normalized":false},{"id":1,"special":true,"content":"[UNK]","single_word":false,"lstrip":false,"rstrip":false,"normalized":false},{"id":2,"special":true,"content":"[SPACE]","single_word":false,"lstrip":false,"rstrip":false,"normalized":false}],"normalizer":null,"pre_tokenizer":{"type":"Whitespace"},"post_processor":null,"decoder":null,"model":{"type":"BPE","dropout":null,"unk_token":"[UNK]","continuing_subword_prefix":null,"end_of_word_suffix":null,"fuse_unk":false,"vocab":{"[STOP]":0,"[UNK]":1,"[SPACE]":2,"!":3,"'":4,"(":5,")":6,",":7,"-":8,".":9,"/":10,":":11,";":12,"?":13,"a":14,"b":15,"c":16,"d":17,"e":18,"f":19,"g":20,"h":21,"i":22,"j":23,"k":24,"l":25,"m":26,"n":27,"o":28,"p":29,"q":30,"r":31,"s":32,"t":33,"u":34,"v":35,"w":36,"x":37,"y":38,"z":39,"th":40,"in":41,"the":42,"an":43,"er":44,"ou":45,"re":46,"on":47,"at":48,"ed":49,"en":50,"to":51,"ing":52,"and":53,"is":54,"as":55,"al":56,"or":57,"of":58,"ar":59,"it":60,"es":61,"he":62,"st":63,"le":64,"om":65,"se":66,"be":67,"ad":68,"ow":69,"ly":70,"ch":71,"wh":72,"that":73,"you":74,"li":75,"ve":76,"ac":77,"ti":78,"ld":79,"me":80,"was":81,"gh":82,"id":83,"ll":84,"wi":85,"ent":86,"for":87,"ay":88,"ro":89,"ver":90,"ic":91,"her":92,"ke":93,"his":94,"no":95,"ut":96,"un":97,"ir":98,"lo":99,"we":100,"ri":101,"ha":102,"with":103,"ght":104,"out":105,"im":106,"ion":107,"all":108,"ab":109,"one":110,"ne":111,"ge":112,"ould":113,"ter":114,"mo":115,"had":116,"ce":117,"she":118,"go":119,"sh":120,"ur":121,"am":122,"so":123,"pe":124,"my":125,"de":126,"are":127,"but":128,"ome":129,"fr":130,"ther":131,"fe":132,"su":133,"do":134,"con":135,"te":136,"ain":137,"ere":138,"po":139,"if":140,"they":141,"us":142,"ag":143,"tr":144,"now":145,"oun":146,"this":147,"have":148,"not":149,"sa":150,"il":151,"up":152,"thing":153,"from":154,"ap":155,"him":156,"ack":157,"ation":158,"ant":159,"our":160,"op":161,"like":162,"ust":163,"ess":164,"bo":165,"ok":166,"ul":167,"ind":168,"ex":169,"com":170,"some":171,"there":172,"ers":173,"co":174,"res":175,"man":176,"ard":177,"pl":178,"wor":179,"way":180,"tion":181,"fo":182,"ca":183,"were":184,"by":185,"ate":186,"pro":187,"ted":188,"ound":189,"own":190,"would":191,"ts":192,"what":193,"qu":194,"ally":195,"ight":196,"ck":197,"gr":198,"when":199,"ven":200,"can":201,"ough":202,"ine":203,"end":204,"per":205,"ous":206,"od":207,"ide":208,"know":209,"ty":210,"very":211,"si":212,"ak":213,"who":214,"about":215,"ill":216,"them":217,"est":218,"red":219,"ye":220,"could":221,"ong":222,"your":223,"their":224,"em":225,"just":226,"other":227,"into":228,"any":229,"whi":230,"um":231,"tw":232,"ast":233,"der":234,"did":235,"ie":236,"been":237,"ace":238,"ink":239,"ity":240,"back":241,"ting":242,"br":243,"more":244,"ake":245,"pp":246,"then":247,"sp":248,"el":249,"use":250,"bl":251,"said":252,"over":253,"get":254},"merges":["t 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of autoregressive transformers is literally nuts! I absolutely adore them.") + parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) ' + 'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='random') + parser.add_argument('--preset', type=str, help='Which voice preset to use.', default='fast') + parser.add_argument('--use_deepspeed', type=str, help='Which voice preset to use.', default=False) + parser.add_argument('--kv_cache', type=bool, help='If you disable this please wait for a long a time to get the output', default=True) + parser.add_argument('--half', type=bool, help="float16(half) precision inference if True it's faster and take less vram and ram", default=True) + parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/') + parser.add_argument('--model_dir', type=str, help='Where to find pretrained model checkpoints. Tortoise automatically downloads these to .models, so this' + 'should only be specified if you have custom checkpoints.', default=MODELS_DIR) + parser.add_argument('--candidates', type=int, help='How many output candidates to produce per-voice.', default=3) + parser.add_argument('--seed', type=int, help='Random seed which can be used to reproduce results.', default=None) + parser.add_argument('--produce_debug_state', type=bool, help='Whether or not to produce debug_state.pth, which can aid in reproducing problems. Defaults to true.', default=True) + parser.add_argument('--cvvp_amount', type=float, help='How much the CVVP model should influence the output.' + 'Increasing this can in some cases reduce the likelihood of multiple speakers. Defaults to 0 (disabled)', default=.0) + args = parser.parse_args() + if torch.backends.mps.is_available(): + args.use_deepspeed = False + os.makedirs(args.output_path, exist_ok=True) + tts = TextToSpeech(models_dir=args.model_dir, use_deepspeed=args.use_deepspeed, kv_cache=args.kv_cache, half=args.half) + + selected_voices = args.voice.split(',') + for k, selected_voice in enumerate(selected_voices): + if '&' in selected_voice: + voice_sel = selected_voice.split('&') + else: + voice_sel = [selected_voice] + voice_samples, conditioning_latents = load_voices(voice_sel) + + gen, dbg_state = tts.tts_with_preset(args.text, k=args.candidates, voice_samples=voice_samples, conditioning_latents=conditioning_latents, + preset=args.preset, use_deterministic_seed=args.seed, return_deterministic_state=True, cvvp_amount=args.cvvp_amount) + if isinstance(gen, list): + for j, g in enumerate(gen): + torchaudio.save(os.path.join(args.output_path, f'{selected_voice}_{k}_{j}.wav'), g.squeeze(0).cpu(), 24000) + else: + torchaudio.save(os.path.join(args.output_path, f'{selected_voice}_{k}.wav'), gen.squeeze(0).cpu(), 24000) + + if args.produce_debug_state: + os.makedirs('debug_states', exist_ok=True) + torch.save(dbg_state, f'debug_states/do_tts_debug_{selected_voice}.pth') + diff --git a/tortoise/eval.py b/tortoise/eval.py new file mode 100644 index 0000000000000000000000000000000000000000..312b162234a927e8e7bd89c26f782487ed67bc07 --- /dev/null +++ b/tortoise/eval.py @@ -0,0 +1,27 @@ +import argparse +import os + +import torchaudio + +from api import TextToSpeech +from tortoise.utils.audio import load_audio + +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--eval_path', type=str, help='Path to TSV test file', default="D:\\tmp\\tortoise-tts-eval\\test.tsv") + parser.add_argument('--output_path', type=str, help='Where to put results', default="D:\\tmp\\tortoise-tts-eval\\baseline") + parser.add_argument('--preset', type=str, help='Rendering preset.', default="standard") + args = parser.parse_args() + os.makedirs(args.output_path, exist_ok=True) + + tts = TextToSpeech() + + with open(args.eval_path, 'r', encoding='utf-8') as f: + lines = f.readlines() + + for line in lines: + text, real = line.strip().split('\t') + conds = [load_audio(real, 22050)] + gen = tts.tts_with_preset(text, voice_samples=conds, conditioning_latents=None, preset=args.preset) + torchaudio.save(os.path.join(args.output_path, os.path.basename(real)), gen.squeeze(0).cpu(), 24000) + diff --git a/tortoise/get_conditioning_latents.py b/tortoise/get_conditioning_latents.py new file mode 100644 index 0000000000000000000000000000000000000000..aa7e9b7dde64e4867cfdad025d739ca7fbff425f --- /dev/null +++ b/tortoise/get_conditioning_latents.py @@ -0,0 +1,30 @@ +import argparse +import os +import torch + +from api import TextToSpeech +from tortoise.utils.audio import load_audio, get_voices + +""" +Dumps the conditioning latents for the specified voice to disk. These are expressive latents which can be used for +other ML models, or can be augmented manually and fed back into Tortoise to affect vocal qualities. +""" +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--voice', type=str, help='Selects the voice to convert to conditioning latents', default='pat2') + parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='../results/conditioning_latents') + args = parser.parse_args() + os.makedirs(args.output_path, exist_ok=True) + + tts = TextToSpeech() + voices = get_voices() + selected_voices = args.voice.split(',') + for voice in selected_voices: + cond_paths = voices[voice] + conds = [] + for cond_path in cond_paths: + c = load_audio(cond_path, 22050) + conds.append(c) + conditioning_latents = tts.get_conditioning_latents(conds) + torch.save(conditioning_latents, os.path.join(args.output_path, f'{voice}.pth')) + diff --git a/tortoise/is_this_from_tortoise.py b/tortoise/is_this_from_tortoise.py new file mode 100644 index 0000000000000000000000000000000000000000..289844f499fb45694bfb61f395867b81155daf8b --- /dev/null +++ b/tortoise/is_this_from_tortoise.py @@ -0,0 +1,14 @@ +import argparse + +from api import classify_audio_clip +from tortoise.utils.audio import load_audio + +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--clip', type=str, help='Path to an audio clip to classify.', default="../examples/favorite_riding_hood.mp3") + args = parser.parse_args() + + clip = load_audio(args.clip, 24000) + clip = clip[:, :220000] + prob = classify_audio_clip(clip) + print(f"This classifier thinks there is a {prob*100}% chance that this clip was generated from Tortoise.") \ No newline at end of file diff --git a/tortoise/models/__init__.py b/tortoise/models/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/tortoise/models/arch_util.py b/tortoise/models/arch_util.py new file mode 100644 index 0000000000000000000000000000000000000000..f678a0290cc16901b68bb46191a9f7df1001772a --- /dev/null +++ b/tortoise/models/arch_util.py @@ -0,0 +1,373 @@ +import os +import functools +import math + +import torch +import torch.nn as nn +import torch.nn.functional as F +import torchaudio +from tortoise.models.xtransformers import ContinuousTransformerWrapper, RelativePositionBias + + +def zero_module(module): + """ + Zero out the parameters of a module and return it. + """ + for p in module.parameters(): + p.detach().zero_() + return module + + +class GroupNorm32(nn.GroupNorm): + def forward(self, x): + return super().forward(x.float()).type(x.dtype) + + +def normalization(channels): + """ + Make a standard normalization layer. + + :param channels: number of input channels. + :return: an nn.Module for normalization. + """ + groups = 32 + if channels <= 16: + groups = 8 + elif channels <= 64: + groups = 16 + while channels % groups != 0: + groups = int(groups / 2) + assert groups > 2 + return GroupNorm32(groups, channels) + + +class QKVAttentionLegacy(nn.Module): + """ + A module which performs QKV attention. Matches legacy QKVAttention + input/output heads shaping + """ + + def __init__(self, n_heads): + super().__init__() + self.n_heads = n_heads + + def forward(self, qkv, mask=None, rel_pos=None): + """ + Apply QKV attention. + + :param qkv: an [N x (H * 3 * C) x T] tensor of Qs, Ks, and Vs. + :return: an [N x (H * C) x T] tensor after attention. + """ + bs, width, length = qkv.shape + assert width % (3 * self.n_heads) == 0 + ch = width // (3 * self.n_heads) + q, k, v = qkv.reshape(bs * self.n_heads, ch * 3, length).split(ch, dim=1) + scale = 1 / math.sqrt(math.sqrt(ch)) + weight = torch.einsum( + "bct,bcs->bts", q * scale, k * scale + ) # More stable with f16 than dividing afterwards + if rel_pos is not None: + weight = rel_pos(weight.reshape(bs, self.n_heads, weight.shape[-2], weight.shape[-1])).reshape(bs * self.n_heads, weight.shape[-2], weight.shape[-1]) + weight = torch.softmax(weight.float(), dim=-1).type(weight.dtype) + if mask is not None: + # The proper way to do this is to mask before the softmax using -inf, but that doesn't work properly on CPUs. + mask = mask.repeat(self.n_heads, 1).unsqueeze(1) + weight = weight * mask + a = torch.einsum("bts,bcs->bct", weight, v) + + return a.reshape(bs, -1, length) + + +class AttentionBlock(nn.Module): + """ + An attention block that allows spatial positions to attend to each other. + + Originally ported from here, but adapted to the N-d case. + https://github.com/hojonathanho/diffusion/blob/1e0dceb3b3495bbe19116a5e1b3596cd0706c543/diffusion_tf/models/unet.py#L66. + """ + + def __init__( + self, + channels, + num_heads=1, + num_head_channels=-1, + do_checkpoint=True, + relative_pos_embeddings=False, + ): + super().__init__() + self.channels = channels + self.do_checkpoint = do_checkpoint + if num_head_channels == -1: + self.num_heads = num_heads + else: + assert ( + channels % num_head_channels == 0 + ), f"q,k,v channels {channels} is not divisible by num_head_channels {num_head_channels}" + self.num_heads = channels // num_head_channels + self.norm = normalization(channels) + self.qkv = nn.Conv1d(channels, channels * 3, 1) + # split heads before split qkv + self.attention = QKVAttentionLegacy(self.num_heads) + + self.proj_out = zero_module(nn.Conv1d(channels, channels, 1)) + if relative_pos_embeddings: + self.relative_pos_embeddings = RelativePositionBias(scale=(channels // self.num_heads) ** .5, causal=False, heads=num_heads, num_buckets=32, max_distance=64) + else: + self.relative_pos_embeddings = None + + def forward(self, x, mask=None): + b, c, *spatial = x.shape + x = x.reshape(b, c, -1) + qkv = self.qkv(self.norm(x)) + h = self.attention(qkv, mask, self.relative_pos_embeddings) + h = self.proj_out(h) + return (x + h).reshape(b, c, *spatial) + + +class Upsample(nn.Module): + """ + An upsampling layer with an optional convolution. + + :param channels: channels in the inputs and outputs. + :param use_conv: a bool determining if a convolution is applied. + """ + + def __init__(self, channels, use_conv, out_channels=None, factor=4): + super().__init__() + self.channels = channels + self.out_channels = out_channels or channels + self.use_conv = use_conv + self.factor = factor + if use_conv: + ksize = 5 + pad = 2 + self.conv = nn.Conv1d(self.channels, self.out_channels, ksize, padding=pad) + + def forward(self, x): + assert x.shape[1] == self.channels + x = F.interpolate(x, scale_factor=self.factor, mode="nearest") + if self.use_conv: + x = self.conv(x) + return x + + +class Downsample(nn.Module): + """ + A downsampling layer with an optional convolution. + + :param channels: channels in the inputs and outputs. + :param use_conv: a bool determining if a convolution is applied. + """ + + def __init__(self, channels, use_conv, out_channels=None, factor=4, ksize=5, pad=2): + super().__init__() + self.channels = channels + self.out_channels = out_channels or channels + self.use_conv = use_conv + + stride = factor + if use_conv: + self.op = nn.Conv1d( + self.channels, self.out_channels, ksize, stride=stride, padding=pad + ) + else: + assert self.channels == self.out_channels + self.op = nn.AvgPool1d(kernel_size=stride, stride=stride) + + def forward(self, x): + assert x.shape[1] == self.channels + return self.op(x) + + +class ResBlock(nn.Module): + def __init__( + self, + channels, + dropout, + out_channels=None, + use_conv=False, + use_scale_shift_norm=False, + up=False, + down=False, + kernel_size=3, + ): + super().__init__() + self.channels = channels + self.dropout = dropout + self.out_channels = out_channels or channels + self.use_conv = use_conv + self.use_scale_shift_norm = use_scale_shift_norm + padding = 1 if kernel_size == 3 else 2 + + self.in_layers = nn.Sequential( + normalization(channels), + nn.SiLU(), + nn.Conv1d(channels, self.out_channels, kernel_size, padding=padding), + ) + + self.updown = up or down + + if up: + self.h_upd = Upsample(channels, False) + self.x_upd = Upsample(channels, False) + elif down: + self.h_upd = Downsample(channels, False) + self.x_upd = Downsample(channels, False) + else: + self.h_upd = self.x_upd = nn.Identity() + + self.out_layers = nn.Sequential( + normalization(self.out_channels), + nn.SiLU(), + nn.Dropout(p=dropout), + zero_module( + nn.Conv1d(self.out_channels, self.out_channels, kernel_size, padding=padding) + ), + ) + + if self.out_channels == channels: + self.skip_connection = nn.Identity() + elif use_conv: + self.skip_connection = nn.Conv1d( + channels, self.out_channels, kernel_size, padding=padding + ) + else: + self.skip_connection = nn.Conv1d(channels, self.out_channels, 1) + + def forward(self, x): + if self.updown: + in_rest, in_conv = self.in_layers[:-1], self.in_layers[-1] + h = in_rest(x) + h = self.h_upd(h) + x = self.x_upd(x) + h = in_conv(h) + else: + h = self.in_layers(x) + h = self.out_layers(h) + return self.skip_connection(x) + h + + +class AudioMiniEncoder(nn.Module): + def __init__(self, + spec_dim, + embedding_dim, + base_channels=128, + depth=2, + resnet_blocks=2, + attn_blocks=4, + num_attn_heads=4, + dropout=0, + downsample_factor=2, + kernel_size=3): + super().__init__() + self.init = nn.Sequential( + nn.Conv1d(spec_dim, base_channels, 3, padding=1) + ) + ch = base_channels + res = [] + for l in range(depth): + for r in range(resnet_blocks): + res.append(ResBlock(ch, dropout, kernel_size=kernel_size)) + res.append(Downsample(ch, use_conv=True, out_channels=ch*2, factor=downsample_factor)) + ch *= 2 + self.res = nn.Sequential(*res) + self.final = nn.Sequential( + normalization(ch), + nn.SiLU(), + nn.Conv1d(ch, embedding_dim, 1) + ) + attn = [] + for a in range(attn_blocks): + attn.append(AttentionBlock(embedding_dim, num_attn_heads,)) + self.attn = nn.Sequential(*attn) + self.dim = embedding_dim + + def forward(self, x): + h = self.init(x) + h = self.res(h) + h = self.final(h) + h = self.attn(h) + return h[:, :, 0] + + +DEFAULT_MEL_NORM_FILE = os.path.join(os.path.dirname(os.path.realpath(__file__)), '../data/mel_norms.pth') + + +class TorchMelSpectrogram(nn.Module): + def __init__(self, filter_length=1024, hop_length=256, win_length=1024, n_mel_channels=80, mel_fmin=0, mel_fmax=8000, + sampling_rate=22050, normalize=False, mel_norm_file=DEFAULT_MEL_NORM_FILE): + super().__init__() + # These are the default tacotron values for the MEL spectrogram. + self.filter_length = filter_length + self.hop_length = hop_length + self.win_length = win_length + self.n_mel_channels = n_mel_channels + self.mel_fmin = mel_fmin + self.mel_fmax = mel_fmax + self.sampling_rate = sampling_rate + self.mel_stft = torchaudio.transforms.MelSpectrogram(n_fft=self.filter_length, hop_length=self.hop_length, + win_length=self.win_length, power=2, normalized=normalize, + sample_rate=self.sampling_rate, f_min=self.mel_fmin, + f_max=self.mel_fmax, n_mels=self.n_mel_channels, + norm="slaney") + self.mel_norm_file = mel_norm_file + if self.mel_norm_file is not None: + self.mel_norms = torch.load(self.mel_norm_file) + else: + self.mel_norms = None + + def forward(self, inp): + if len(inp.shape) == 3: # Automatically squeeze out the channels dimension if it is present (assuming mono-audio) + inp = inp.squeeze(1) + assert len(inp.shape) == 2 + if torch.backends.mps.is_available(): + inp = inp.to('cpu') + self.mel_stft = self.mel_stft.to(inp.device) + mel = self.mel_stft(inp) + # Perform dynamic range compression + mel = torch.log(torch.clamp(mel, min=1e-5)) + if self.mel_norms is not None: + self.mel_norms = self.mel_norms.to(mel.device) + mel = mel / self.mel_norms.unsqueeze(0).unsqueeze(-1) + return mel + + +class CheckpointedLayer(nn.Module): + """ + Wraps a module. When forward() is called, passes kwargs that require_grad through torch.checkpoint() and bypasses + checkpoint for all other args. + """ + def __init__(self, wrap): + super().__init__() + self.wrap = wrap + + def forward(self, x, *args, **kwargs): + for k, v in kwargs.items(): + assert not (isinstance(v, torch.Tensor) and v.requires_grad) # This would screw up checkpointing. + partial = functools.partial(self.wrap, **kwargs) + return partial(x, *args) + + +class CheckpointedXTransformerEncoder(nn.Module): + """ + Wraps a ContinuousTransformerWrapper and applies CheckpointedLayer to each layer and permutes from channels-mid + to channels-last that XTransformer expects. + """ + def __init__(self, needs_permute=True, exit_permute=True, checkpoint=True, **xtransformer_kwargs): + super().__init__() + self.transformer = ContinuousTransformerWrapper(**xtransformer_kwargs) + self.needs_permute = needs_permute + self.exit_permute = exit_permute + + if not checkpoint: + return + for i in range(len(self.transformer.attn_layers.layers)): + n, b, r = self.transformer.attn_layers.layers[i] + self.transformer.attn_layers.layers[i] = nn.ModuleList([n, CheckpointedLayer(b), r]) + + def forward(self, x, **kwargs): + if self.needs_permute: + x = x.permute(0,2,1) + h = self.transformer(x, **kwargs) + if self.exit_permute: + h = h.permute(0,2,1) + return h \ No newline at end of file diff --git a/tortoise/models/autoregressive.py b/tortoise/models/autoregressive.py new file mode 100644 index 0000000000000000000000000000000000000000..fcd1a94ff17ee0847048e529581612364c90cbe6 --- /dev/null +++ b/tortoise/models/autoregressive.py @@ -0,0 +1,582 @@ +import functools + +import torch +import torch.nn as nn +import torch.nn.functional as F +from transformers import GPT2Config, GPT2PreTrainedModel, LogitsProcessorList +from transformers.modeling_outputs import CausalLMOutputWithCrossAttentions +from transformers.utils.model_parallel_utils import get_device_map, assert_device_map +from tortoise.models.arch_util import AttentionBlock +from tortoise.utils.typical_sampling import TypicalLogitsWarper + + +def null_position_embeddings(range, dim): + return torch.zeros((range.shape[0], range.shape[1], dim), device=range.device) + + +class ResBlock(nn.Module): + """ + Basic residual convolutional block that uses GroupNorm. + """ + def __init__(self, chan): + super().__init__() + self.net = nn.Sequential( + nn.Conv1d(chan, chan, kernel_size=3, padding=1), + nn.GroupNorm(chan//8, chan), + nn.ReLU(), + nn.Conv1d(chan, chan, kernel_size=3, padding=1), + nn.GroupNorm(chan//8, chan) + ) + + def forward(self, x): + return F.relu(self.net(x) + x) + + +class GPT2InferenceModel(GPT2PreTrainedModel): + def __init__(self, config, gpt, text_pos_emb, embeddings, norm, linear, kv_cache=False): + super().__init__(config) + self.transformer = gpt + self.text_pos_embedding = text_pos_emb + self.embeddings = embeddings + self.final_norm = norm + self.lm_head = nn.Sequential(norm, linear) + self.kv_cache = kv_cache + + # Model parallel + self.model_parallel = False + self.device_map = None + self.cached_mel_emb = None + def parallelize(self, device_map=None): + self.device_map = ( + get_device_map(len(self.transformer.h), range(max(1, torch.cuda.device_count()))) + if device_map is None + else device_map + ) + assert_device_map(self.device_map, len(self.transformer.h)) + self.transformer.parallelize(self.device_map) + self.lm_head = self.lm_head.to(self.transformer.first_device) + self.model_parallel = True + + def deparallelize(self): + self.transformer.deparallelize() + self.transformer = self.transformer.to("cpu") + self.lm_head = self.lm_head.to("cpu") + self.model_parallel = False + torch.cuda.empty_cache() + if torch.backends.mps.is_available(): + torch.mps.empty_cache() + + def get_output_embeddings(self): + return self.lm_head + + def set_output_embeddings(self, new_embeddings): + self.lm_head = new_embeddings + + def store_mel_emb(self, mel_emb): + self.cached_mel_emb = mel_emb + + def prepare_inputs_for_generation(self, input_ids, past_key_values=None, **kwargs): + token_type_ids = kwargs.get("token_type_ids", None) # usually None + if not self.kv_cache: + past_key_values = None + # only last token for inputs_ids if past is defined in kwargs + if past_key_values: + input_ids = input_ids[:, -1].unsqueeze(-1) + if token_type_ids is not None: + token_type_ids = token_type_ids[:, -1].unsqueeze(-1) + + attention_mask = kwargs.get("attention_mask", None) + position_ids = kwargs.get("position_ids", None) + + if attention_mask is not None and position_ids is None: + # create position_ids on the fly for batch generation + position_ids = attention_mask.long().cumsum(-1) - 1 + position_ids.masked_fill_(attention_mask == 0, 1) + if past_key_values: + position_ids = position_ids[:, -1].unsqueeze(-1) + else: + position_ids = None + return { + "input_ids": input_ids, + "past_key_values": past_key_values, + "use_cache": kwargs.get("use_cache"), + "position_ids": position_ids, + "attention_mask": attention_mask, + "token_type_ids": token_type_ids, + } + + def forward( + self, + input_ids=None, + past_key_values=None, + attention_mask=None, + token_type_ids=None, + position_ids=None, + head_mask=None, + inputs_embeds=None, + encoder_hidden_states=None, + encoder_attention_mask=None, + labels=None, + use_cache=None, + output_attentions=None, + output_hidden_states=None, + return_dict=None, + ): + assert self.cached_mel_emb is not None + assert inputs_embeds is None # Not supported by this inference model. + assert labels is None # Training not supported by this inference model. + return_dict = ( + return_dict if return_dict is not None else self.config.use_return_dict + ) + + # Create embedding + mel_len = self.cached_mel_emb.shape[1] + if input_ids.shape[1] != 1: + text_inputs = input_ids[:, mel_len:] + text_emb = self.embeddings(text_inputs) + text_emb = text_emb + self.text_pos_embedding(text_emb) + if self.cached_mel_emb.shape[0] != text_emb.shape[0]: + mel_emb = self.cached_mel_emb.repeat_interleave( + text_emb.shape[0] // self.cached_mel_emb.shape[0], 0 + ) + else: # this outcome only occurs once per loop in most cases + mel_emb = self.cached_mel_emb + emb = torch.cat([mel_emb, text_emb], dim=1) + else: + emb = self.embeddings(input_ids) + emb = emb + self.text_pos_embedding.get_fixed_embedding( + attention_mask.shape[1] - mel_len, attention_mask.device + ) + transformer_outputs = self.transformer( + inputs_embeds=emb, + past_key_values=past_key_values, + attention_mask=attention_mask, + token_type_ids=token_type_ids, + position_ids=position_ids, + head_mask=head_mask, + encoder_hidden_states=encoder_hidden_states, + encoder_attention_mask=encoder_attention_mask, + use_cache=use_cache, + output_attentions=output_attentions, + output_hidden_states=output_hidden_states, + return_dict=return_dict, + ) + hidden_states = transformer_outputs[0] + + # Set device for model parallelism + if self.model_parallel: + if torch.backends.mps.is_available(): + self.to(self.transformer.first_device) + else: + torch.cuda.set_device(self.transformer.first_device) + hidden_states = hidden_states.to(self.lm_head.weight.device) + + lm_logits = self.lm_head(hidden_states) + + if not return_dict: + return (lm_logits,) + transformer_outputs[1:] + + return CausalLMOutputWithCrossAttentions( + loss=None, + logits=lm_logits, + past_key_values=transformer_outputs.past_key_values, + hidden_states=transformer_outputs.hidden_states, + attentions=transformer_outputs.attentions, + cross_attentions=transformer_outputs.cross_attentions, + ) + + @staticmethod + def _reorder_cache(past, beam_idx): + """ + This function is used to re-order the :obj:`past_key_values` cache if + :meth:`~transformers.PreTrainedModel.beam_search` or :meth:`~transformers.PreTrainedModel.beam_sample` is + called. This is required to match :obj:`past_key_values` with the correct beam_idx at every generation step. + """ + return tuple( + tuple( + past_state.index_select(0, beam_idx.to(past_state.device)) + for past_state in layer_past + ) + for layer_past in past + ) + + +class ConditioningEncoder(nn.Module): + def __init__(self, + spec_dim, + embedding_dim, + attn_blocks=6, + num_attn_heads=4, + do_checkpointing=False, + mean=False): + super().__init__() + attn = [] + self.init = nn.Conv1d(spec_dim, embedding_dim, kernel_size=1) + for a in range(attn_blocks): + attn.append(AttentionBlock(embedding_dim, num_attn_heads)) + self.attn = nn.Sequential(*attn) + self.dim = embedding_dim + self.do_checkpointing = do_checkpointing + self.mean = mean + + def forward(self, x): + h = self.init(x) + h = self.attn(h) + if self.mean: + return h.mean(dim=2) + else: + return h[:, :, 0] + + +class LearnedPositionEmbeddings(nn.Module): + def __init__(self, seq_len, model_dim, init=.02): + super().__init__() + self.emb = nn.Embedding(seq_len, model_dim) + # Initializing this way is standard for GPT-2 + self.emb.weight.data.normal_(mean=0.0, std=init) + + def forward(self, x): + sl = x.shape[1] + return self.emb(torch.arange(0, sl, device=x.device)) + + def get_fixed_embedding(self, ind, dev): + return self.emb(torch.tensor([ind], device=dev)).unsqueeze(0) + + +def build_hf_gpt_transformer(layers, model_dim, heads, max_mel_seq_len, max_text_seq_len, checkpointing): + """ + GPT-2 implemented by the HuggingFace library. + """ + from transformers import GPT2Config, GPT2Model + gpt_config = GPT2Config(vocab_size=256, # Unused. + n_positions=max_mel_seq_len+max_text_seq_len, + n_ctx=max_mel_seq_len+max_text_seq_len, + n_embd=model_dim, + n_layer=layers, + n_head=heads, + gradient_checkpointing=checkpointing, + use_cache=not checkpointing) + gpt = GPT2Model(gpt_config) + # Override the built in positional embeddings + del gpt.wpe + gpt.wpe = functools.partial(null_position_embeddings, dim=model_dim) + # Built-in token embeddings are unused. + del gpt.wte + return gpt, LearnedPositionEmbeddings(max_mel_seq_len, model_dim), LearnedPositionEmbeddings(max_text_seq_len, model_dim),\ + None, None + + +class MelEncoder(nn.Module): + def __init__(self, channels, mel_channels=80, resblocks_per_reduction=2): + super().__init__() + self.channels = channels + self.encoder = nn.Sequential(nn.Conv1d(mel_channels, channels//4, kernel_size=3, padding=1), + nn.Sequential(*[ResBlock(channels//4) for _ in range(resblocks_per_reduction)]), + nn.Conv1d(channels//4, channels//2, kernel_size=3, stride=2, padding=1), + nn.GroupNorm(channels//16, channels//2), + nn.ReLU(), + nn.Sequential(*[ResBlock(channels//2) for _ in range(resblocks_per_reduction)]), + nn.Conv1d(channels//2, channels, kernel_size=3, stride=2, padding=1), + nn.GroupNorm(channels//8, channels), + nn.ReLU(), + nn.Sequential(*[ResBlock(channels) for _ in range(resblocks_per_reduction)]), + ) + self.reduction = 4 + + + def forward(self, x): + for e in self.encoder: + x = e(x) + return x.permute(0,2,1) + + +class UnifiedVoice(nn.Module): + def __init__(self, layers=8, model_dim=512, heads=8, max_text_tokens=120, max_mel_tokens=250, max_conditioning_inputs=1, + mel_length_compression=1024, number_text_tokens=256, + start_text_token=None, number_mel_codes=8194, start_mel_token=8192, + stop_mel_token=8193, train_solo_embeddings=False, use_mel_codes_as_input=True, + checkpointing=True, types=1): + """ + Args: + layers: Number of layers in transformer stack. + model_dim: Operating dimensions of the transformer + heads: Number of transformer heads. Must be divisible by model_dim. Recommend model_dim//64 + max_text_tokens: Maximum number of text tokens that will be encountered by model. + max_mel_tokens: Maximum number of MEL tokens that will be encountered by model. + max_conditioning_inputs: Maximum number of conditioning inputs provided to the model. If (1), conditioning input can be of format (b,80,s), otherwise (b,n,80,s). + mel_length_compression: The factor between and . Used to compute MEL code padding given wav input length. + number_text_tokens: + start_text_token: + stop_text_token: + number_mel_codes: + start_mel_token: + stop_mel_token: + train_solo_embeddings: + use_mel_codes_as_input: + checkpointing: + """ + super().__init__() + + self.number_text_tokens = number_text_tokens + self.start_text_token = number_text_tokens * types if start_text_token is None else start_text_token + self.stop_text_token = 0 + self.number_mel_codes = number_mel_codes + self.start_mel_token = start_mel_token + self.stop_mel_token = stop_mel_token + self.layers = layers + self.heads = heads + self.max_mel_tokens = max_mel_tokens + self.max_text_tokens = max_text_tokens + self.model_dim = model_dim + self.max_conditioning_inputs = max_conditioning_inputs + self.mel_length_compression = mel_length_compression + self.conditioning_encoder = ConditioningEncoder(80, model_dim, num_attn_heads=heads) + self.text_embedding = nn.Embedding(self.number_text_tokens*types+1, model_dim) + if use_mel_codes_as_input: + self.mel_embedding = nn.Embedding(self.number_mel_codes, model_dim) + else: + self.mel_embedding = MelEncoder(model_dim, resblocks_per_reduction=1) + self.gpt, self.mel_pos_embedding, self.text_pos_embedding, self.mel_layer_pos_embedding, self.text_layer_pos_embedding = \ + build_hf_gpt_transformer(layers, model_dim, heads, self.max_mel_tokens+2+self.max_conditioning_inputs, self.max_text_tokens+2, checkpointing) + if train_solo_embeddings: + self.mel_solo_embedding = nn.Parameter(torch.randn(1, 1, model_dim) * .02, requires_grad=True) + self.text_solo_embedding = nn.Parameter(torch.randn(1, 1, model_dim) * .02, requires_grad=True) + else: + self.mel_solo_embedding = 0 + self.text_solo_embedding = 0 + + self.final_norm = nn.LayerNorm(model_dim) + self.text_head = nn.Linear(model_dim, self.number_text_tokens*types+1) + self.mel_head = nn.Linear(model_dim, self.number_mel_codes) + + # Initialize the embeddings per the GPT-2 scheme + embeddings = [self.text_embedding] + if use_mel_codes_as_input: + embeddings.append(self.mel_embedding) + for module in embeddings: + module.weight.data.normal_(mean=0.0, std=.02) + def post_init_gpt2_config(self, use_deepspeed=False, kv_cache=False, half=False): + seq_length = self.max_mel_tokens + self.max_text_tokens + 2 + gpt_config = GPT2Config( + vocab_size=self.max_mel_tokens, + n_positions=seq_length, + n_ctx=seq_length, + n_embd=self.model_dim, + n_layer=self.layers, + n_head=self.heads, + gradient_checkpointing=False, + use_cache=True, + ) + self.inference_model = GPT2InferenceModel( + gpt_config, + self.gpt, + self.mel_pos_embedding, + self.mel_embedding, + self.final_norm, + self.mel_head, + kv_cache=kv_cache, + ) + if use_deepspeed and half and torch.cuda.is_available(): + import deepspeed + self.ds_engine = deepspeed.init_inference(model=self.inference_model, + mp_size=1, + replace_with_kernel_inject=True, + dtype=torch.float16) + self.inference_model = self.ds_engine.module.eval() + elif use_deepspeed and torch.cuda.is_available(): + import deepspeed + self.ds_engine = deepspeed.init_inference(model=self.inference_model, + mp_size=1, + replace_with_kernel_inject=True, + dtype=torch.float32) + self.inference_model = self.ds_engine.module.eval() + else: + self.inference_model = self.inference_model.eval() + + # self.inference_model = PrunedGPT2InferenceModel(gpt_config, self.gpt, self.mel_pos_embedding, self.mel_embedding, self.final_norm, self.mel_head) + self.gpt.wte = self.mel_embedding + def build_aligned_inputs_and_targets(self, input, start_token, stop_token): + inp = F.pad(input, (1,0), value=start_token) + tar = F.pad(input, (0,1), value=stop_token) + return inp, tar + + def set_mel_padding(self, mel_input_tokens, wav_lengths): + """ + Given mel tokens that are derived from a padded audio clip and the actual lengths of each batch element in + that audio clip, reformats the tokens with STOP_MEL_TOKEN in place of the zero padding. This is required + preformatting to create a working TTS model. + """ + # Set padding areas within MEL (currently it is coded with the MEL code for ). + mel_lengths = torch.div(wav_lengths, self.mel_length_compression, rounding_mode='trunc') + for b in range(len(mel_lengths)): + actual_end = mel_lengths[b] + 1 # Due to the convolutional nature of how these tokens are generated, it would be best if the model predicts a token past the actual last token. + if actual_end < mel_input_tokens.shape[-1]: + mel_input_tokens[b, actual_end:] = self.stop_mel_token + return mel_input_tokens + + def get_logits(self, speech_conditioning_inputs, first_inputs, first_head, second_inputs=None, second_head=None, get_attns=False, return_latent=False): + if second_inputs is not None: + emb = torch.cat([speech_conditioning_inputs, first_inputs, second_inputs], dim=1) + else: + emb = torch.cat([speech_conditioning_inputs, first_inputs], dim=1) + + gpt_out = self.gpt(inputs_embeds=emb, return_dict=True, output_attentions=get_attns) + if get_attns: + return gpt_out.attentions + + enc = gpt_out.last_hidden_state[:, 1:] # The first logit is tied to the speech_conditioning_input + enc = self.final_norm(enc) + + if return_latent: + return enc[:, speech_conditioning_inputs.shape[1]:speech_conditioning_inputs.shape[1]+first_inputs.shape[1]], enc[:, -second_inputs.shape[1]:] + + first_logits = enc[:, :first_inputs.shape[1]] + first_logits = first_head(first_logits) + first_logits = first_logits.permute(0,2,1) + if second_inputs is not None: + second_logits = enc[:, -second_inputs.shape[1]:] + second_logits = second_head(second_logits) + second_logits = second_logits.permute(0,2,1) + return first_logits, second_logits + else: + return first_logits + + def get_conditioning(self, speech_conditioning_input): + speech_conditioning_input = speech_conditioning_input.unsqueeze(1) if len( + speech_conditioning_input.shape) == 3 else speech_conditioning_input + conds = [] + for j in range(speech_conditioning_input.shape[1]): + conds.append(self.conditioning_encoder(speech_conditioning_input[:, j])) + conds = torch.stack(conds, dim=1) + conds = conds.mean(dim=1) + return conds + + def forward(self, speech_conditioning_latent, text_inputs, text_lengths, mel_codes, wav_lengths, types=None, text_first=True, raw_mels=None, return_attentions=False, + return_latent=False, clip_inputs=True): + """ + Forward pass that uses both text and voice in either text conditioning mode or voice conditioning mode + (actuated by `text_first`). + + speech_conditioning_input: MEL float tensor, (b,1024) + text_inputs: long tensor, (b,t) + text_lengths: long tensor, (b,) + mel_inputs: long tensor, (b,m) + wav_lengths: long tensor, (b,) + raw_mels: MEL float tensor (b,80,s) + + If return_attentions is specified, only logits are returned. + If return_latent is specified, loss & logits are not computed or returned. Only the predicted latents are returned. + If clip_inputs is True, the inputs will be clipped to the smallest input size across each input modality. + """ + # Types are expressed by expanding the text embedding space. + if types is not None: + text_inputs = text_inputs * (1+types).unsqueeze(-1) + + if clip_inputs: + # This model will receive micro-batches with a ton of padding for both the text and MELs. Ameliorate this by + # chopping the inputs by the maximum actual length. + max_text_len = text_lengths.max() + text_inputs = text_inputs[:, :max_text_len] + max_mel_len = wav_lengths.max() // self.mel_length_compression + mel_codes = mel_codes[:, :max_mel_len] + if raw_mels is not None: + raw_mels = raw_mels[:, :, :max_mel_len*4] + mel_codes = self.set_mel_padding(mel_codes, wav_lengths) + text_inputs = F.pad(text_inputs, (0,1), value=self.stop_text_token) + mel_codes = F.pad(mel_codes, (0,1), value=self.stop_mel_token) + + conds = speech_conditioning_latent.unsqueeze(1) + text_inputs, text_targets = self.build_aligned_inputs_and_targets(text_inputs, self.start_text_token, self.stop_text_token) + text_emb = self.text_embedding(text_inputs) + self.text_pos_embedding(text_inputs) + mel_codes, mel_targets = self.build_aligned_inputs_and_targets(mel_codes, self.start_mel_token, self.stop_mel_token) + if raw_mels is not None: + mel_inp = F.pad(raw_mels, (0, 8)) + else: + mel_inp = mel_codes + mel_emb = self.mel_embedding(mel_inp) + mel_emb = mel_emb + self.mel_pos_embedding(mel_codes) + + if text_first: + text_logits, mel_logits = self.get_logits(conds, text_emb, self.text_head, mel_emb, self.mel_head, get_attns=return_attentions, return_latent=return_latent) + if return_latent: + return mel_logits[:, :-2] # Despite the name, these are not logits. Strip off the two tokens added by this forward pass. + else: + mel_logits, text_logits = self.get_logits(conds, mel_emb, self.mel_head, text_emb, self.text_head, get_attns=return_attentions, return_latent=return_latent) + if return_latent: + return text_logits[:, :-2] # Despite the name, these are not logits. Strip off the two tokens added by this forward pass. + + if return_attentions: + return mel_logits + loss_text = F.cross_entropy(text_logits, text_targets.long()) + loss_mel = F.cross_entropy(mel_logits, mel_targets.long()) + return loss_text.mean(), loss_mel.mean(), mel_logits + def compute_embeddings( + self, + cond_latents, + text_inputs, + ): + text_inputs = F.pad(text_inputs, (0, 1), value=self.stop_text_token) + text_inputs = F.pad(text_inputs, (1, 0), value=self.start_text_token) + emb = self.text_embedding(text_inputs) + self.text_pos_embedding(text_inputs) + conds = cond_latents.unsqueeze(1) + emb = torch.cat([conds, emb], dim=1) + self.inference_model.store_mel_emb(emb) + gpt_inputs = torch.full( + ( + emb.shape[0], + emb.shape[1] + 1, # +1 for the start_mel_token + ), + fill_value=1, + dtype=torch.long, + device=text_inputs.device, + ) + gpt_inputs[:, -1] = self.start_mel_token + return gpt_inputs + def inference_speech(self, speech_conditioning_latent, text_inputs, input_tokens=None, num_return_sequences=1, + max_generate_length=None, typical_sampling=False, typical_mass=.9, **hf_generate_kwargs): + + text_inputs = F.pad(text_inputs, (0, 1), value=self.stop_text_token) + text_inputs, _ = self.build_aligned_inputs_and_targets(text_inputs, self.start_text_token, self.stop_text_token) + text_emb = self.text_embedding(text_inputs) + self.text_pos_embedding(text_inputs) + + conds = speech_conditioning_latent.unsqueeze(1) + emb = torch.cat([conds, text_emb], dim=1) + self.inference_model.store_mel_emb(emb) + + fake_inputs = torch.full((emb.shape[0], conds.shape[1] + emb.shape[1],), fill_value=1, dtype=torch.long, + device=text_inputs.device) + fake_inputs[:, -1] = self.start_mel_token + trunc_index = fake_inputs.shape[1] + if input_tokens is None: + inputs = fake_inputs + else: + assert num_return_sequences % input_tokens.shape[0] == 0, "The number of return sequences must be divisible by the number of input sequences" + fake_inputs = fake_inputs.repeat(num_return_sequences, 1) + input_tokens = input_tokens.repeat(num_return_sequences // input_tokens.shape[0], 1) + inputs = torch.cat([fake_inputs, input_tokens], dim=1) + + logits_processor = LogitsProcessorList([TypicalLogitsWarper(mass=typical_mass)]) if typical_sampling else LogitsProcessorList() + max_length = trunc_index + self.max_mel_tokens - 1 if max_generate_length is None else trunc_index + max_generate_length + gen = self.inference_model.generate(inputs, bos_token_id=self.start_mel_token, pad_token_id=self.stop_mel_token, eos_token_id=self.stop_mel_token, + max_length=max_length, logits_processor=logits_processor, + num_return_sequences=num_return_sequences, **hf_generate_kwargs) + return gen[:, trunc_index:] + + def get_generator(self, fake_inputs, **hf_generate_kwargs): + return self.inference_model.generate_stream( + fake_inputs, + bos_token_id=self.start_mel_token, + pad_token_id=self.stop_mel_token, + eos_token_id=self.stop_mel_token, + max_length=500, + do_stream=True, + **hf_generate_kwargs, + ) +if __name__ == '__main__': + gpt = UnifiedVoice(model_dim=256, heads=4, train_solo_embeddings=True, use_mel_codes_as_input=True, max_conditioning_inputs=4) + l = gpt(torch.randn(2, 3, 80, 800), + torch.randint(high=120, size=(2,120)), + torch.tensor([32, 120]), + torch.randint(high=8192, size=(2,250)), + torch.tensor([250*256,195*256])) + gpt.text_forward(torch.randn(2,80,800), torch.randint(high=50, size=(2,80)), torch.tensor([32, 80])) diff --git a/tortoise/models/classifier.py b/tortoise/models/classifier.py new file mode 100644 index 0000000000000000000000000000000000000000..f92d99e511d08f8b9e9807fb5ef34e6e871a998c --- /dev/null +++ b/tortoise/models/classifier.py @@ -0,0 +1,148 @@ +import torch +import torch.nn as nn + +from tortoise.models.arch_util import Upsample, Downsample, normalization, zero_module, AttentionBlock + + +class ResBlock(nn.Module): + def __init__( + self, + channels, + dropout, + out_channels=None, + use_conv=False, + use_scale_shift_norm=False, + dims=2, + up=False, + down=False, + kernel_size=3, + do_checkpoint=True, + ): + super().__init__() + self.channels = channels + self.dropout = dropout + self.out_channels = out_channels or channels + self.use_conv = use_conv + self.use_scale_shift_norm = use_scale_shift_norm + self.do_checkpoint = do_checkpoint + padding = 1 if kernel_size == 3 else 2 + + self.in_layers = nn.Sequential( + normalization(channels), + nn.SiLU(), + nn.Conv1d(channels, self.out_channels, kernel_size, padding=padding), + ) + + self.updown = up or down + + if up: + self.h_upd = Upsample(channels, False, dims) + self.x_upd = Upsample(channels, False, dims) + elif down: + self.h_upd = Downsample(channels, False, dims) + self.x_upd = Downsample(channels, False, dims) + else: + self.h_upd = self.x_upd = nn.Identity() + + self.out_layers = nn.Sequential( + normalization(self.out_channels), + nn.SiLU(), + nn.Dropout(p=dropout), + zero_module( + nn.Conv1d(self.out_channels, self.out_channels, kernel_size, padding=padding) + ), + ) + + if self.out_channels == channels: + self.skip_connection = nn.Identity() + elif use_conv: + self.skip_connection = nn.Conv1d( + dims, channels, self.out_channels, kernel_size, padding=padding + ) + else: + self.skip_connection = nn.Conv1d(dims, channels, self.out_channels, 1) + + def forward(self, x): + if self.updown: + in_rest, in_conv = self.in_layers[:-1], self.in_layers[-1] + h = in_rest(x) + h = self.h_upd(h) + x = self.x_upd(x) + h = in_conv(h) + else: + h = self.in_layers(x) + h = self.out_layers(h) + return self.skip_connection(x) + h + + +class AudioMiniEncoder(nn.Module): + def __init__(self, + spec_dim, + embedding_dim, + base_channels=128, + depth=2, + resnet_blocks=2, + attn_blocks=4, + num_attn_heads=4, + dropout=0, + downsample_factor=2, + kernel_size=3): + super().__init__() + self.init = nn.Sequential( + nn.Conv1d(spec_dim, base_channels, 3, padding=1) + ) + ch = base_channels + res = [] + self.layers = depth + for l in range(depth): + for r in range(resnet_blocks): + res.append(ResBlock(ch, dropout, do_checkpoint=False, kernel_size=kernel_size)) + res.append(Downsample(ch, use_conv=True, out_channels=ch*2, factor=downsample_factor)) + ch *= 2 + self.res = nn.Sequential(*res) + self.final = nn.Sequential( + normalization(ch), + nn.SiLU(), + nn.Conv1d(ch, embedding_dim, 1) + ) + attn = [] + for a in range(attn_blocks): + attn.append(AttentionBlock(embedding_dim, num_attn_heads, do_checkpoint=False)) + self.attn = nn.Sequential(*attn) + self.dim = embedding_dim + + def forward(self, x): + h = self.init(x) + h = self.res(h) + h = self.final(h) + for blk in self.attn: + h = blk(h) + return h[:, :, 0] + + +class AudioMiniEncoderWithClassifierHead(nn.Module): + def __init__(self, classes, distribute_zero_label=True, **kwargs): + super().__init__() + self.enc = AudioMiniEncoder(**kwargs) + self.head = nn.Linear(self.enc.dim, classes) + self.num_classes = classes + self.distribute_zero_label = distribute_zero_label + + def forward(self, x, labels=None): + h = self.enc(x) + logits = self.head(h) + if labels is None: + return logits + else: + if self.distribute_zero_label: + oh_labels = nn.functional.one_hot(labels, num_classes=self.num_classes) + zeros_indices = (labels == 0).unsqueeze(-1) + # Distribute 20% of the probability mass on all classes when zero is specified, to compensate for dataset noise. + zero_extra_mass = torch.full_like(oh_labels, dtype=torch.float, fill_value=.2/(self.num_classes-1)) + zero_extra_mass[:, 0] = -.2 + zero_extra_mass = zero_extra_mass * zeros_indices + oh_labels = oh_labels + zero_extra_mass + else: + oh_labels = labels + loss = nn.functional.cross_entropy(logits, oh_labels) + return loss diff --git a/tortoise/models/clvp.py b/tortoise/models/clvp.py new file mode 100644 index 0000000000000000000000000000000000000000..00f5011a053f28b53a363bcd696e6267c8924c3b --- /dev/null +++ b/tortoise/models/clvp.py @@ -0,0 +1,155 @@ +import torch +import torch.nn as nn +import torch.nn.functional as F +from torch import einsum + +from tortoise.models.arch_util import CheckpointedXTransformerEncoder +from tortoise.models.transformer import Transformer +from tortoise.models.xtransformers import Encoder + + +def exists(val): + return val is not None + + +def masked_mean(t, mask, dim = 1): + t = t.masked_fill(~mask[:, :, None], 0.) + return t.sum(dim = 1) / mask.sum(dim = 1)[..., None] + +class CLVP(nn.Module): + """ + CLIP model retrofitted for performing contrastive evaluation between tokenized audio data and the corresponding + transcribed text. + + Originally from https://github.com/lucidrains/DALLE-pytorch/blob/main/dalle_pytorch/dalle_pytorch.py + """ + + def __init__( + self, + *, + dim_text=512, + dim_speech=512, + dim_latent=512, + num_text_tokens=256, + text_enc_depth=6, + text_seq_len=120, + text_heads=8, + num_speech_tokens=8192, + speech_enc_depth=6, + speech_heads=8, + speech_seq_len=250, + text_mask_percentage=0, + voice_mask_percentage=0, + wav_token_compression=1024, + use_xformers=False, + ): + super().__init__() + self.text_emb = nn.Embedding(num_text_tokens, dim_text) + self.to_text_latent = nn.Linear(dim_text, dim_latent, bias=False) + + self.speech_emb = nn.Embedding(num_speech_tokens, dim_speech) + self.to_speech_latent = nn.Linear(dim_speech, dim_latent, bias=False) + + if use_xformers: + self.text_transformer = CheckpointedXTransformerEncoder( + needs_permute=False, + exit_permute=False, + max_seq_len=-1, + attn_layers=Encoder( + dim=dim_text, + depth=text_enc_depth, + heads=text_heads, + ff_dropout=.1, + ff_mult=2, + attn_dropout=.1, + use_rmsnorm=True, + ff_glu=True, + rotary_pos_emb=True, + )) + self.speech_transformer = CheckpointedXTransformerEncoder( + needs_permute=False, + exit_permute=False, + max_seq_len=-1, + attn_layers=Encoder( + dim=dim_speech, + depth=speech_enc_depth, + heads=speech_heads, + ff_dropout=.1, + ff_mult=2, + attn_dropout=.1, + use_rmsnorm=True, + ff_glu=True, + rotary_pos_emb=True, + )) + else: + self.text_transformer = Transformer(causal=False, seq_len=text_seq_len, dim=dim_text, depth=text_enc_depth, + heads=text_heads) + self.speech_transformer = Transformer(causal=False, seq_len=speech_seq_len, dim=dim_speech, + depth=speech_enc_depth, heads=speech_heads) + + self.temperature = nn.Parameter(torch.tensor(1.)) + self.text_mask_percentage = text_mask_percentage + self.voice_mask_percentage = voice_mask_percentage + self.wav_token_compression = wav_token_compression + self.xformers = use_xformers + if not use_xformers: + self.text_pos_emb = nn.Embedding(text_seq_len, dim_text) + self.speech_pos_emb = nn.Embedding(num_speech_tokens, dim_speech) + + def forward( + self, + text, + speech_tokens, + return_loss=False + ): + b, device = text.shape[0], text.device + if self.training: + text_mask = torch.rand_like(text.float()) > self.text_mask_percentage + voice_mask = torch.rand_like(speech_tokens.float()) > self.voice_mask_percentage + else: + text_mask = torch.ones_like(text.float()).bool() + voice_mask = torch.ones_like(speech_tokens.float()).bool() + + text_emb = self.text_emb(text) + speech_emb = self.speech_emb(speech_tokens) + + if not self.xformers: + text_emb += self.text_pos_emb(torch.arange(text.shape[1], device=device)) + speech_emb += self.speech_pos_emb(torch.arange(speech_emb.shape[1], device=device)) + + enc_text = self.text_transformer(text_emb, mask=text_mask) + enc_speech = self.speech_transformer(speech_emb, mask=voice_mask) + + text_latents = masked_mean(enc_text, text_mask, dim=1) + speech_latents = masked_mean(enc_speech, voice_mask, dim=1) + + text_latents = self.to_text_latent(text_latents) + speech_latents = self.to_speech_latent(speech_latents) + + text_latents, speech_latents = map(lambda t: F.normalize(t, p=2, dim=-1), (text_latents, speech_latents)) + + temp = self.temperature.exp() + + if not return_loss: + sim = einsum('n d, n d -> n', text_latents, speech_latents) * temp + return sim + + sim = einsum('i d, j d -> i j', text_latents, speech_latents) * temp + labels = torch.arange(b, device=device) + loss = (F.cross_entropy(sim, labels) + F.cross_entropy(sim.t(), labels)) / 2 + return loss + + +if __name__ == '__main__': + clip = CLVP(text_mask_percentage=.2, voice_mask_percentage=.2) + clip(torch.randint(0,256,(2,120)), + torch.tensor([50,100]), + torch.randint(0,8192,(2,250)), + torch.tensor([101,102]), + return_loss=True) + nonloss = clip(torch.randint(0,256,(2,120)), + torch.tensor([50,100]), + torch.randint(0,8192,(2,250)), + torch.tensor([101,102]), + return_loss=False) + print(nonloss.shape) \ No newline at end of file diff --git a/tortoise/models/cvvp.py b/tortoise/models/cvvp.py new file mode 100644 index 0000000000000000000000000000000000000000..544ca47b21a31c8d26d4ea407b9783e7d59e8126 --- /dev/null +++ b/tortoise/models/cvvp.py @@ -0,0 +1,142 @@ +import torch +import torch.nn as nn +import torch.nn.functional as F +from torch import einsum + +from tortoise.models.arch_util import AttentionBlock +from tortoise.models.xtransformers import ContinuousTransformerWrapper, Encoder + + +def exists(val): + return val is not None + + +def masked_mean(t, mask): + t = t.masked_fill(~mask, 0.) + return t.sum(dim=1) / mask.sum(dim=1) + + +class CollapsingTransformer(nn.Module): + def __init__(self, model_dim, output_dims, heads, dropout, depth, mask_percentage=0, **encoder_kwargs): + super().__init__() + self.transformer = ContinuousTransformerWrapper( + max_seq_len=-1, + use_pos_emb=False, + attn_layers=Encoder( + dim=model_dim, + depth=depth, + heads=heads, + ff_dropout=dropout, + ff_mult=1, + attn_dropout=dropout, + use_rmsnorm=True, + ff_glu=True, + rotary_pos_emb=True, + **encoder_kwargs, + )) + self.pre_combiner = nn.Sequential(nn.Conv1d(model_dim, output_dims, 1), + AttentionBlock( + output_dims, num_heads=heads, do_checkpoint=False), + nn.Conv1d(output_dims, output_dims, 1)) + self.mask_percentage = mask_percentage + + def forward(self, x, **transformer_kwargs): + h = self.transformer(x, **transformer_kwargs) + h = h.permute(0, 2, 1) + h = self.pre_combiner(h).permute(0, 2, 1) + if self.training: + mask = torch.rand_like(h.float()) > self.mask_percentage + else: + mask = torch.ones_like(h.float()).bool() + return masked_mean(h, mask) + + +class ConvFormatEmbedding(nn.Module): + def __init__(self, *args, **kwargs): + super().__init__() + self.emb = nn.Embedding(*args, **kwargs) + + def forward(self, x): + y = self.emb(x) + return y.permute(0, 2, 1) + + +class CVVP(nn.Module): + def __init__( + self, + model_dim=512, + transformer_heads=8, + dropout=.1, + conditioning_enc_depth=8, + cond_mask_percentage=0, + mel_channels=80, + mel_codes=None, + speech_enc_depth=8, + speech_mask_percentage=0, + latent_multiplier=1, + ): + super().__init__() + latent_dim = latent_multiplier*model_dim + self.temperature = nn.Parameter(torch.tensor(1.)) + + self.cond_emb = nn.Sequential(nn.Conv1d(mel_channels, model_dim//2, kernel_size=5, stride=2, padding=2), + nn.Conv1d(model_dim//2, model_dim, kernel_size=3, stride=2, padding=1)) + self.conditioning_transformer = CollapsingTransformer( + model_dim, model_dim, transformer_heads, dropout, conditioning_enc_depth, cond_mask_percentage) + self.to_conditioning_latent = nn.Linear( + latent_dim, latent_dim, bias=False) + + if mel_codes is None: + self.speech_emb = nn.Conv1d( + mel_channels, model_dim, kernel_size=5, padding=2) + else: + self.speech_emb = ConvFormatEmbedding(mel_codes, model_dim) + self.speech_transformer = CollapsingTransformer( + model_dim, latent_dim, transformer_heads, dropout, speech_enc_depth, speech_mask_percentage) + self.to_speech_latent = nn.Linear( + latent_dim, latent_dim, bias=False) + + def get_grad_norm_parameter_groups(self): + return { + 'conditioning': list(self.conditioning_transformer.parameters()), + 'speech': list(self.speech_transformer.parameters()), + } + + def forward( + self, + mel_cond, + mel_input, + return_loss=False + ): + cond_emb = self.cond_emb(mel_cond).permute(0, 2, 1) + enc_cond = self.conditioning_transformer(cond_emb) + cond_latents = self.to_conditioning_latent(enc_cond) + + speech_emb = self.speech_emb(mel_input).permute(0, 2, 1) + enc_speech = self.speech_transformer(speech_emb) + speech_latents = self.to_speech_latent(enc_speech) + + cond_latents, speech_latents = map(lambda t: F.normalize( + t, p=2, dim=-1), (cond_latents, speech_latents)) + temp = self.temperature.exp() + + if not return_loss: + sim = einsum('n d, n d -> n', cond_latents, + speech_latents) * temp + return sim + + sim = einsum('i d, j d -> i j', cond_latents, + speech_latents) * temp + labels = torch.arange( + cond_latents.shape[0], device=mel_input.device) + loss = (F.cross_entropy(sim, labels) + + F.cross_entropy(sim.t(), labels)) / 2 + + return loss + + +if __name__ == '__main__': + clvp = CVVP() + clvp(torch.randn(2, 80, 100), + torch.randn(2, 80, 95), + return_loss=True) diff --git a/tortoise/models/diffusion_decoder.py b/tortoise/models/diffusion_decoder.py new file mode 100644 index 0000000000000000000000000000000000000000..e969129caa2b6da30e6c364207318e5c270c5405 --- /dev/null +++ b/tortoise/models/diffusion_decoder.py @@ -0,0 +1,336 @@ +import math +import random +from abc import abstractmethod + +import torch +import torch.nn as nn +import torch.nn.functional as F +from torch import autocast + +from tortoise.models.arch_util import normalization, AttentionBlock + + +def is_latent(t): + return t.dtype == torch.float + + +def is_sequence(t): + return t.dtype == torch.long + + +def timestep_embedding(timesteps, dim, max_period=10000): + """ + Create sinusoidal timestep embeddings. + + :param timesteps: a 1-D Tensor of N indices, one per batch element. + These may be fractional. + :param dim: the dimension of the output. + :param max_period: controls the minimum frequency of the embeddings. + :return: an [N x dim] Tensor of positional embeddings. + """ + half = dim // 2 + freqs = torch.exp( + -math.log(max_period) * torch.arange(start=0, end=half, dtype=torch.float32) / half + ).to(device=timesteps.device) + args = timesteps[:, None].float() * freqs[None] + embedding = torch.cat([torch.cos(args), torch.sin(args)], dim=-1) + if dim % 2: + embedding = torch.cat([embedding, torch.zeros_like(embedding[:, :1])], dim=-1) + return embedding + + +class TimestepBlock(nn.Module): + @abstractmethod + def forward(self, x, emb): + """ + Apply the module to `x` given `emb` timestep embeddings. + """ + + +class TimestepEmbedSequential(nn.Sequential, TimestepBlock): + def forward(self, x, emb): + for layer in self: + if isinstance(layer, TimestepBlock): + x = layer(x, emb) + else: + x = layer(x) + return x + + +class ResBlock(TimestepBlock): + def __init__( + self, + channels, + emb_channels, + dropout, + out_channels=None, + dims=2, + kernel_size=3, + efficient_config=True, + use_scale_shift_norm=False, + ): + super().__init__() + self.channels = channels + self.emb_channels = emb_channels + self.dropout = dropout + self.out_channels = out_channels or channels + self.use_scale_shift_norm = use_scale_shift_norm + padding = {1: 0, 3: 1, 5: 2}[kernel_size] + eff_kernel = 1 if efficient_config else 3 + eff_padding = 0 if efficient_config else 1 + + self.in_layers = nn.Sequential( + normalization(channels), + nn.SiLU(), + nn.Conv1d(channels, self.out_channels, eff_kernel, padding=eff_padding), + ) + + self.emb_layers = nn.Sequential( + nn.SiLU(), + nn.Linear( + emb_channels, + 2 * self.out_channels if use_scale_shift_norm else self.out_channels, + ), + ) + self.out_layers = nn.Sequential( + normalization(self.out_channels), + nn.SiLU(), + nn.Dropout(p=dropout), + nn.Conv1d(self.out_channels, self.out_channels, kernel_size, padding=padding), + ) + + if self.out_channels == channels: + self.skip_connection = nn.Identity() + else: + self.skip_connection = nn.Conv1d(channels, self.out_channels, eff_kernel, padding=eff_padding) + + def forward(self, x, emb): + h = self.in_layers(x) + emb_out = self.emb_layers(emb).type(h.dtype) + while len(emb_out.shape) < len(h.shape): + emb_out = emb_out[..., None] + if self.use_scale_shift_norm: + out_norm, out_rest = self.out_layers[0], self.out_layers[1:] + scale, shift = torch.chunk(emb_out, 2, dim=1) + h = out_norm(h) * (1 + scale) + shift + h = out_rest(h) + else: + h = h + emb_out + h = self.out_layers(h) + return self.skip_connection(x) + h + + +class DiffusionLayer(TimestepBlock): + def __init__(self, model_channels, dropout, num_heads): + super().__init__() + self.resblk = ResBlock(model_channels, model_channels, dropout, model_channels, dims=1, use_scale_shift_norm=True) + self.attn = AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True) + + def forward(self, x, time_emb): + y = self.resblk(x, time_emb) + return self.attn(y) + + +class DiffusionTts(nn.Module): + def __init__( + self, + model_channels=512, + num_layers=8, + in_channels=100, + in_latent_channels=512, + in_tokens=8193, + out_channels=200, # mean and variance + dropout=0, + use_fp16=False, + num_heads=16, + # Parameters for regularization. + layer_drop=.1, + unconditioned_percentage=.1, # This implements a mechanism similar to what is used in classifier-free training. + ): + super().__init__() + + self.in_channels = in_channels + self.model_channels = model_channels + self.out_channels = out_channels + self.dropout = dropout + self.num_heads = num_heads + self.unconditioned_percentage = unconditioned_percentage + self.enable_fp16 = use_fp16 + self.layer_drop = layer_drop + + self.inp_block = nn.Conv1d(in_channels, model_channels, 3, 1, 1) + self.time_embed = nn.Sequential( + nn.Linear(model_channels, model_channels), + nn.SiLU(), + nn.Linear(model_channels, model_channels), + ) + + # Either code_converter or latent_converter is used, depending on what type of conditioning data is fed. + # This model is meant to be able to be trained on both for efficiency purposes - it is far less computationally + # complex to generate tokens, while generating latents will normally mean propagating through a deep autoregressive + # transformer network. + self.code_embedding = nn.Embedding(in_tokens, model_channels) + self.code_converter = nn.Sequential( + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + ) + self.code_norm = normalization(model_channels) + self.latent_conditioner = nn.Sequential( + nn.Conv1d(in_latent_channels, model_channels, 3, padding=1), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + AttentionBlock(model_channels, num_heads, relative_pos_embeddings=True), + ) + self.contextual_embedder = nn.Sequential(nn.Conv1d(in_channels,model_channels,3,padding=1,stride=2), + nn.Conv1d(model_channels, model_channels*2,3,padding=1,stride=2), + AttentionBlock(model_channels*2, num_heads, relative_pos_embeddings=True, do_checkpoint=False), + AttentionBlock(model_channels*2, num_heads, relative_pos_embeddings=True, do_checkpoint=False), + AttentionBlock(model_channels*2, num_heads, relative_pos_embeddings=True, do_checkpoint=False), + AttentionBlock(model_channels*2, num_heads, relative_pos_embeddings=True, do_checkpoint=False), + AttentionBlock(model_channels*2, num_heads, relative_pos_embeddings=True, do_checkpoint=False)) + self.unconditioned_embedding = nn.Parameter(torch.randn(1,model_channels,1)) + self.conditioning_timestep_integrator = TimestepEmbedSequential( + DiffusionLayer(model_channels, dropout, num_heads), + DiffusionLayer(model_channels, dropout, num_heads), + DiffusionLayer(model_channels, dropout, num_heads), + ) + + self.integrating_conv = nn.Conv1d(model_channels*2, model_channels, kernel_size=1) + self.mel_head = nn.Conv1d(model_channels, in_channels, kernel_size=3, padding=1) + + self.layers = nn.ModuleList([DiffusionLayer(model_channels, dropout, num_heads) for _ in range(num_layers)] + + [ResBlock(model_channels, model_channels, dropout, dims=1, use_scale_shift_norm=True) for _ in range(3)]) + + self.out = nn.Sequential( + normalization(model_channels), + nn.SiLU(), + nn.Conv1d(model_channels, out_channels, 3, padding=1), + ) + + def get_grad_norm_parameter_groups(self): + groups = { + 'minicoder': list(self.contextual_embedder.parameters()), + 'layers': list(self.layers.parameters()), + 'code_converters': list(self.code_embedding.parameters()) + list(self.code_converter.parameters()) + list(self.latent_conditioner.parameters()) + list(self.latent_conditioner.parameters()), + 'timestep_integrator': list(self.conditioning_timestep_integrator.parameters()) + list(self.integrating_conv.parameters()), + 'time_embed': list(self.time_embed.parameters()), + } + return groups + + def get_conditioning(self, conditioning_input): + speech_conditioning_input = conditioning_input.unsqueeze(1) if len( + conditioning_input.shape) == 3 else conditioning_input + conds = [] + for j in range(speech_conditioning_input.shape[1]): + conds.append(self.contextual_embedder(speech_conditioning_input[:, j])) + conds = torch.cat(conds, dim=-1) + conds = conds.mean(dim=-1) + return conds + + def timestep_independent(self, aligned_conditioning, conditioning_latent, expected_seq_len, return_code_pred): + # Shuffle aligned_latent to BxCxS format + if is_latent(aligned_conditioning): + aligned_conditioning = aligned_conditioning.permute(0, 2, 1) + + cond_scale, cond_shift = torch.chunk(conditioning_latent, 2, dim=1) + if is_latent(aligned_conditioning): + code_emb = self.latent_conditioner(aligned_conditioning) + else: + code_emb = self.code_embedding(aligned_conditioning).permute(0, 2, 1) + code_emb = self.code_converter(code_emb) + code_emb = self.code_norm(code_emb) * (1 + cond_scale.unsqueeze(-1)) + cond_shift.unsqueeze(-1) + + unconditioned_batches = torch.zeros((code_emb.shape[0], 1, 1), device=code_emb.device) + # Mask out the conditioning branch for whole batch elements, implementing something similar to classifier-free guidance. + if self.training and self.unconditioned_percentage > 0: + unconditioned_batches = torch.rand((code_emb.shape[0], 1, 1), + device=code_emb.device) < self.unconditioned_percentage + code_emb = torch.where(unconditioned_batches, self.unconditioned_embedding.repeat(aligned_conditioning.shape[0], 1, 1), + code_emb) + expanded_code_emb = F.interpolate(code_emb, size=expected_seq_len, mode='nearest') + + if not return_code_pred: + return expanded_code_emb + else: + mel_pred = self.mel_head(expanded_code_emb) + # Multiply mel_pred by !unconditioned_branches, which drops the gradient on unconditioned branches. This is because we don't want that gradient being used to train parameters through the codes_embedder as it unbalances contributions to that network from the MSE loss. + mel_pred = mel_pred * unconditioned_batches.logical_not() + return expanded_code_emb, mel_pred + + def forward(self, x, timesteps, aligned_conditioning=None, conditioning_latent=None, precomputed_aligned_embeddings=None, conditioning_free=False, return_code_pred=False): + """ + Apply the model to an input batch. + + :param x: an [N x C x ...] Tensor of inputs. + :param timesteps: a 1-D batch of timesteps. + :param aligned_conditioning: an aligned latent or sequence of tokens providing useful data about the sample to be produced. + :param conditioning_latent: a pre-computed conditioning latent; see get_conditioning(). + :param precomputed_aligned_embeddings: Embeddings returned from self.timestep_independent() + :param conditioning_free: When set, all conditioning inputs (including tokens and conditioning_input) will not be considered. + :return: an [N x C x ...] Tensor of outputs. + """ + assert precomputed_aligned_embeddings is not None or (aligned_conditioning is not None and conditioning_latent is not None) + assert not (return_code_pred and precomputed_aligned_embeddings is not None) # These two are mutually exclusive. + + unused_params = [] + if conditioning_free: + code_emb = self.unconditioned_embedding.repeat(x.shape[0], 1, x.shape[-1]) + unused_params.extend(list(self.code_converter.parameters()) + list(self.code_embedding.parameters())) + unused_params.extend(list(self.latent_conditioner.parameters())) + else: + if precomputed_aligned_embeddings is not None: + code_emb = precomputed_aligned_embeddings + else: + code_emb, mel_pred = self.timestep_independent(aligned_conditioning, conditioning_latent, x.shape[-1], True) + if is_latent(aligned_conditioning): + unused_params.extend(list(self.code_converter.parameters()) + list(self.code_embedding.parameters())) + else: + unused_params.extend(list(self.latent_conditioner.parameters())) + + unused_params.append(self.unconditioned_embedding) + + time_emb = self.time_embed(timestep_embedding(timesteps, self.model_channels)) + code_emb = self.conditioning_timestep_integrator(code_emb, time_emb) + x = self.inp_block(x) + x = torch.cat([x, code_emb], dim=1) + x = self.integrating_conv(x) + for i, lyr in enumerate(self.layers): + # Do layer drop where applicable. Do not drop first and last layers. + if self.training and self.layer_drop > 0 and i != 0 and i != (len(self.layers)-1) and random.random() < self.layer_drop: + unused_params.extend(list(lyr.parameters())) + else: + # First and last blocks will have autocast disabled for improved precision. + if not torch.backends.mps.is_available(): + with autocast(x.device.type, enabled=self.enable_fp16 and i != 0): + x = lyr(x, time_emb) + else: + x = lyr(x, time_emb) + + x = x.float() + out = self.out(x) + + # Involve probabilistic or possibly unused parameters in loss so we don't get DDP errors. + extraneous_addition = 0 + for p in unused_params: + extraneous_addition = extraneous_addition + p.mean() + out = out + extraneous_addition * 0 + + if return_code_pred: + return out, mel_pred + return out + + +if __name__ == '__main__': + clip = torch.randn(2, 100, 400) + aligned_latent = torch.randn(2,388,512) + aligned_sequence = torch.randint(0,8192,(2,100)) + cond = torch.randn(2, 100, 400) + ts = torch.LongTensor([600, 600]) + model = DiffusionTts(512, layer_drop=.3, unconditioned_percentage=.5) + # Test with latent aligned conditioning + #o = model(clip, ts, aligned_latent, cond) + # Test with sequence aligned conditioning + o = model(clip, ts, aligned_sequence, cond) + diff --git a/tortoise/models/hifigan_decoder.py b/tortoise/models/hifigan_decoder.py new file mode 100644 index 0000000000000000000000000000000000000000..ae2f627d87f53677135ecfb7907815bd8d48f0f5 --- /dev/null +++ b/tortoise/models/hifigan_decoder.py @@ -0,0 +1,303 @@ +# adopted from https://github.com/jik876/hifi-gan/blob/master/models.py +import torch +from torch import nn +from torch.nn import Conv1d, ConvTranspose1d +from torch.nn import functional as F +from torch.nn.utils import remove_weight_norm, weight_norm + +LRELU_SLOPE = 0.1 + + +def get_padding(k, d): + return int((k * d - d) / 2) + + +class ResBlock1(torch.nn.Module): + """Residual Block Type 1. It has 3 convolutional layers in each convolutional block. + + Network:: + + x -> lrelu -> conv1_1 -> conv1_2 -> conv1_3 -> z -> lrelu -> conv2_1 -> conv2_2 -> conv2_3 -> o -> + -> o + |--------------------------------------------------------------------------------------------------| + + + Args: + channels (int): number of hidden channels for the convolutional layers. + kernel_size (int): size of the convolution filter in each layer. + dilations (list): list of dilation value for each conv layer in a block. + """ + + def __init__(self, channels, kernel_size=3, dilation=(1, 3, 5)): + super().__init__() + self.convs1 = nn.ModuleList( + [ + weight_norm( + Conv1d( + channels, + channels, + kernel_size, + 1, + dilation=dilation[0], + padding=get_padding(kernel_size, dilation[0]), + ) + ), + weight_norm( + Conv1d( + channels, + channels, + kernel_size, + 1, + dilation=dilation[1], + padding=get_padding(kernel_size, dilation[1]), + ) + ), + weight_norm( + Conv1d( + channels, + channels, + kernel_size, + 1, + dilation=dilation[2], + padding=get_padding(kernel_size, dilation[2]), + ) + ), + ] + ) + + self.convs2 = nn.ModuleList( + [ + weight_norm( + Conv1d(channels, channels, kernel_size, 1, dilation=1, padding=get_padding(kernel_size, 1)) + ), + weight_norm( + Conv1d(channels, channels, kernel_size, 1, dilation=1, padding=get_padding(kernel_size, 1)) + ), + weight_norm( + Conv1d(channels, channels, kernel_size, 1, dilation=1, padding=get_padding(kernel_size, 1)) + ), + ] + ) + + def forward(self, x): + """ + Args: + x (Tensor): input tensor. + Returns: + Tensor: output tensor. + Shapes: + x: [B, C, T] + """ + for c1, c2 in zip(self.convs1, self.convs2): + xt = F.leaky_relu(x, LRELU_SLOPE) + xt = c1(xt) + xt = F.leaky_relu(xt, LRELU_SLOPE) + xt = c2(xt) + x = xt + x + return x + + def remove_weight_norm(self): + for l in self.convs1: + remove_weight_norm(l) + for l in self.convs2: + remove_weight_norm(l) + + +class ResBlock2(torch.nn.Module): + """Residual Block Type 2. It has 1 convolutional layers in each convolutional block. + + Network:: + + x -> lrelu -> conv1-> -> z -> lrelu -> conv2-> o -> + -> o + |---------------------------------------------------| + + + Args: + channels (int): number of hidden channels for the convolutional layers. + kernel_size (int): size of the convolution filter in each layer. + dilations (list): list of dilation value for each conv layer in a block. + """ + + def __init__(self, channels, kernel_size=3, dilation=(1, 3)): + super().__init__() + self.convs = nn.ModuleList( + [ + weight_norm( + Conv1d( + channels, + channels, + kernel_size, + 1, + dilation=dilation[0], + padding=get_padding(kernel_size, dilation[0]), + ) + ), + weight_norm( + Conv1d( + channels, + channels, + kernel_size, + 1, + dilation=dilation[1], + padding=get_padding(kernel_size, dilation[1]), + ) + ), + ] + ) + + def forward(self, x): + for c in self.convs: + xt = F.leaky_relu(x, LRELU_SLOPE) + xt = c(xt) + x = xt + x + return x + + def remove_weight_norm(self): + for l in self.convs: + remove_weight_norm(l) + + +class HifiganGenerator(torch.nn.Module): + def __init__( + self, + in_channels, + out_channels, + resblock_type, + resblock_dilation_sizes, + resblock_kernel_sizes, + upsample_kernel_sizes, + upsample_initial_channel, + upsample_factors, + inference_padding=5, + cond_channels=0, + conv_pre_weight_norm=True, + conv_post_weight_norm=True, + conv_post_bias=True, + ): + r"""HiFiGAN Generator with Multi-Receptive Field Fusion (MRF) + + Network: + x -> lrelu -> upsampling_layer -> resblock1_k1x1 -> z1 -> + -> z_sum / #resblocks -> lrelu -> conv_post_7x1 -> tanh -> o + .. -> zI ---| + resblockN_kNx1 -> zN ---' + + Args: + in_channels (int): number of input tensor channels. + out_channels (int): number of output tensor channels. + resblock_type (str): type of the `ResBlock`. '1' or '2'. + resblock_dilation_sizes (List[List[int]]): list of dilation values in each layer of a `ResBlock`. + resblock_kernel_sizes (List[int]): list of kernel sizes for each `ResBlock`. + upsample_kernel_sizes (List[int]): list of kernel sizes for each transposed convolution. + upsample_initial_channel (int): number of channels for the first upsampling layer. This is divided by 2 + for each consecutive upsampling layer. + upsample_factors (List[int]): upsampling factors (stride) for each upsampling layer. + inference_padding (int): constant padding applied to the input at inference time. Defaults to 5. + """ + super().__init__() + self.inference_padding = inference_padding + self.num_kernels = len(resblock_kernel_sizes) + self.num_upsamples = len(upsample_factors) + # initial upsampling layers + self.conv_pre = weight_norm(Conv1d(in_channels, upsample_initial_channel, 7, 1, padding=3)) + resblock = ResBlock1 if resblock_type == "1" else ResBlock2 + # upsampling layers + self.ups = nn.ModuleList() + for i, (u, k) in enumerate(zip(upsample_factors, upsample_kernel_sizes)): + self.ups.append( + weight_norm( + ConvTranspose1d( + upsample_initial_channel // (2**i), + upsample_initial_channel // (2 ** (i + 1)), + k, + u, + padding=(k - u) // 2, + ) + ) + ) + # MRF blocks + self.resblocks = nn.ModuleList() + for i in range(len(self.ups)): + ch = upsample_initial_channel // (2 ** (i + 1)) + for _, (k, d) in enumerate(zip(resblock_kernel_sizes, resblock_dilation_sizes)): + self.resblocks.append(resblock(ch, k, d)) + # post convolution layer + self.conv_post = weight_norm(Conv1d(ch, out_channels, 7, 1, padding=3, bias=conv_post_bias)) + if cond_channels > 0: + self.cond_layer = nn.Conv1d(cond_channels, upsample_initial_channel, 1) + + if not conv_pre_weight_norm: + remove_weight_norm(self.conv_pre) + + if not conv_post_weight_norm: + remove_weight_norm(self.conv_post) + + self.device = torch.device('cuda' if torch.cuda.is_available() else'cpu') + if torch.backends.mps.is_available(): + self.device = torch.device('mps') + + def forward(self, x, g=None): + """ + Args: + x (Tensor): feature input tensor. + g (Tensor): global conditioning input tensor. + + Returns: + Tensor: output waveform. + + Shapes: + x: [B, C, T] + Tensor: [B, 1, T] + """ + o = self.conv_pre(x) + if hasattr(self, "cond_layer"): + o = o + self.cond_layer(g) + for i in range(self.num_upsamples): + o = F.leaky_relu(o, LRELU_SLOPE) + o = self.ups[i](o) + z_sum = None + for j in range(self.num_kernels): + if z_sum is None: + z_sum = self.resblocks[i * self.num_kernels + j](o) + else: + z_sum += self.resblocks[i * self.num_kernels + j](o) + o = z_sum / self.num_kernels + o = F.leaky_relu(o) + o = self.conv_post(o) + o = torch.tanh(o) + return o + + @torch.no_grad() + def inference(self, c, g=None): + """ + Args: + x (Tensor): conditioning input tensor. + + Returns: + Tensor: output waveform. + + Shapes: + x: [B, C, T] + Tensor: [B, 1, T] + """ + # c = c.to(self.conv_pre.weight.device) + # c = torch.nn.functional.pad(c, (self.inference_padding, self.inference_padding), "replicate") + up_1 = torch.nn.functional.interpolate( + c.transpose(1,2), + scale_factor=[1024 / 256], + mode="linear", + ) + up_2 = torch.nn.functional.interpolate( + up_1, + scale_factor=[24000 / 22050], + mode="linear", + ) + g = g.unsqueeze(0) + return self.forward(up_2.to(self.device), g.transpose(1,2)) + + def remove_weight_norm(self): + print("Removing weight norm...") + for l in self.ups: + remove_weight_norm(l) + for l in self.resblocks: + l.remove_weight_norm() + remove_weight_norm(self.conv_pre) + remove_weight_norm(self.conv_post) diff --git a/tortoise/models/random_latent_generator.py b/tortoise/models/random_latent_generator.py new file mode 100644 index 0000000000000000000000000000000000000000..e90ef2130a47ec52160709877972716352e04c9c --- /dev/null +++ b/tortoise/models/random_latent_generator.py @@ -0,0 +1,55 @@ +import math + +import torch +import torch.nn as nn +import torch.nn.functional as F + + +def fused_leaky_relu(input, bias=None, negative_slope=0.2, scale=2 ** 0.5): + if bias is not None: + rest_dim = [1] * (input.ndim - bias.ndim - 1) + return ( + F.leaky_relu( + input + bias.view(1, bias.shape[0], *rest_dim), negative_slope=negative_slope + ) + * scale + ) + else: + return F.leaky_relu(input, negative_slope=0.2) * scale + + +class EqualLinear(nn.Module): + def __init__( + self, in_dim, out_dim, bias=True, bias_init=0, lr_mul=1 + ): + super().__init__() + self.weight = nn.Parameter(torch.randn(out_dim, in_dim).div_(lr_mul)) + if bias: + self.bias = nn.Parameter(torch.zeros(out_dim).fill_(bias_init)) + else: + self.bias = None + self.scale = (1 / math.sqrt(in_dim)) * lr_mul + self.lr_mul = lr_mul + + def forward(self, input): + out = F.linear(input, self.weight * self.scale) + out = fused_leaky_relu(out, self.bias * self.lr_mul) + return out + + +class RandomLatentConverter(nn.Module): + def __init__(self, channels): + super().__init__() + self.layers = nn.Sequential(*[EqualLinear(channels, channels, lr_mul=.1) for _ in range(5)], + nn.Linear(channels, channels)) + self.channels = channels + + def forward(self, ref): + r = torch.randn(ref.shape[0], self.channels, device=ref.device) + y = self.layers(r) + return y + + +if __name__ == '__main__': + model = RandomLatentConverter(512) + model(torch.randn(5,512)) \ No newline at end of file diff --git a/tortoise/models/stream_generator.py b/tortoise/models/stream_generator.py new file mode 100644 index 0000000000000000000000000000000000000000..a8dd07b1229b40daf9360e420130fa7e1b5df261 --- /dev/null +++ b/tortoise/models/stream_generator.py @@ -0,0 +1,1057 @@ +# Adapted from: https://github.com/LowinLi/transformers-stream-generator + +from transformers import ( + GenerationConfig, + GenerationMixin, + LogitsProcessorList, + StoppingCriteriaList, + DisjunctiveConstraint, + BeamSearchScorer, + PhrasalConstraint, + ConstrainedBeamSearchScorer, + PreTrainedModel, +) +import numpy as np +import random +import warnings +import inspect +from transformers.generation.utils import GenerateOutput, SampleOutput, logger +import torch +from typing import Callable, List, Optional, Union +from torch import nn +import torch.distributed as dist +import copy + + +def setup_seed(seed): + if seed == -1: + return + torch.manual_seed(seed) + if torch.cuda.is_available(): + torch.cuda.manual_seed_all(seed) + np.random.seed(seed) + random.seed(seed) + torch.backends.cudnn.deterministic = True + + +class StreamGenerationConfig(GenerationConfig): + def __init__(self, **kwargs): + super().__init__(**kwargs) + self.do_stream = kwargs.pop("do_stream", False) + + +class NewGenerationMixin(GenerationMixin): + @torch.no_grad() + def generate( + self, + inputs: Optional[torch.Tensor] = None, + generation_config: Optional[StreamGenerationConfig] = None, + logits_processor: Optional[LogitsProcessorList] = None, + stopping_criteria: Optional[StoppingCriteriaList] = None, + prefix_allowed_tokens_fn: Optional[ + Callable[[int, torch.Tensor], List[int]] + ] = None, + synced_gpus: Optional[bool] = False, + seed=0, + **kwargs, + ) -> Union[GenerateOutput, torch.LongTensor]: + r""" + + Generates sequences of token ids for models with a language modeling head. + + + + Most generation-controlling parameters are set in `generation_config` which, if not passed, will be set to the + model's default generation configuration. You can override any `generation_config` by passing the corresponding + parameters to generate(), e.g. `.generate(inputs, num_beams=4, do_sample=True)`. + + For an overview of generation strategies and code examples, check out the [following + guide](./generation_strategies). + + + + Parameters: + inputs (`torch.Tensor` of varying shape depending on the modality, *optional*): + The sequence used as a prompt for the generation or as model inputs to the encoder. If `None` the + method initializes it with `bos_token_id` and a batch size of 1. For decoder-only models `inputs` + should of in the format of `input_ids`. For encoder-decoder models *inputs* can represent any of + `input_ids`, `input_values`, `input_features`, or `pixel_values`. + generation_config (`~generation.GenerationConfig`, *optional*): + The generation configuration to be used as base parametrization for the generation call. `**kwargs` + passed to generate matching the attributes of `generation_config` will override them. If + `generation_config` is not provided, the default will be used, which had the following loading + priority: 1) from the `generation_config.json` model file, if it exists; 2) from the model + configuration. Please note that unspecified parameters will inherit [`~generation.GenerationConfig`]'s + default values, whose documentation should be checked to parameterize generation. + logits_processor (`LogitsProcessorList`, *optional*): + Custom logits processors that complement the default logits processors built from arguments and + generation config. If a logit processor is passed that is already created with the arguments or a + generation config an error is thrown. This feature is intended for advanced users. + stopping_criteria (`StoppingCriteriaList`, *optional*): + Custom stopping criteria that complement the default stopping criteria built from arguments and a + generation config. If a stopping criteria is passed that is already created with the arguments or a + generation config an error is thrown. This feature is intended for advanced users. + prefix_allowed_tokens_fn (`Callable[[int, torch.Tensor], List[int]]`, *optional*): + If provided, this function constraints the beam search to allowed tokens only at each step. If not + provided no constraint is applied. This function takes 2 arguments: the batch ID `batch_id` and + `input_ids`. It has to return a list with the allowed tokens for the next generation step conditioned + on the batch ID `batch_id` and the previously generated tokens `inputs_ids`. This argument is useful + for constrained generation conditioned on the prefix, as described in [Autoregressive Entity + Retrieval](https://arxiv.org/abs/2010.00904). + synced_gpus (`bool`, *optional*, defaults to `False`): + Whether to continue running the while loop until max_length (needed for ZeRO stage 3) + kwargs: + Ad hoc parametrization of `generate_config` and/or additional model-specific kwargs that will be + forwarded to the `forward` function of the model. If the model is an encoder-decoder model, encoder + specific kwargs should not be prefixed and decoder specific kwargs should be prefixed with *decoder_*. + + Return: + [`~utils.ModelOutput`] or `torch.LongTensor`: A [`~utils.ModelOutput`] (if `return_dict_in_generate=True` + or when `config.return_dict_in_generate=True`) or a `torch.FloatTensor`. + + If the model is *not* an encoder-decoder model (`model.config.is_encoder_decoder=False`), the possible + [`~utils.ModelOutput`] types are: + + - [`~generation.GreedySearchDecoderOnlyOutput`], + - [`~generation.SampleDecoderOnlyOutput`], + - [`~generation.BeamSearchDecoderOnlyOutput`], + - [`~generation.BeamSampleDecoderOnlyOutput`] + + If the model is an encoder-decoder model (`model.config.is_encoder_decoder=True`), the possible + [`~utils.ModelOutput`] types are: + + - [`~generation.GreedySearchEncoderDecoderOutput`], + - [`~generation.SampleEncoderDecoderOutput`], + - [`~generation.BeamSearchEncoderDecoderOutput`], + - [`~generation.BeamSampleEncoderDecoderOutput`] + """ + setup_seed(seed) + # 1. Handle `generation_config` and kwargs that might update it, and validate the `.generate()` call + self._validate_model_class() + + # priority: `generation_config` argument > `model.generation_config` (the default generation config) + if generation_config is None: + # legacy: users may modify the model configuration to control generation -- update the generation config + # model attribute accordingly, if it was created from the model config + if self.generation_config._from_model_config: + new_generation_config = StreamGenerationConfig.from_model_config( + self.config + ) + if new_generation_config != self.generation_config: + warnings.warn( + "You have modified the pretrained model configuration to control generation. This is a" + " deprecated strategy to control generation and will be removed soon, in a future version." + " Please use a generation configuration file (see" + " https://huggingface.co/docs/transformers/main_classes/text_generation)" + ) + self.generation_config = new_generation_config + generation_config = self.generation_config + + generation_config = copy.deepcopy(generation_config) + model_kwargs = generation_config.update( + **kwargs + ) # All unused kwargs must be model kwargs + # self._validate_model_kwargs(model_kwargs.copy()) + + # 2. Set generation parameters if not already defined + logits_processor = ( + logits_processor if logits_processor is not None else LogitsProcessorList() + ) + stopping_criteria = ( + stopping_criteria + if stopping_criteria is not None + else StoppingCriteriaList() + ) + + if ( + generation_config.pad_token_id is None + and generation_config.eos_token_id is not None + ): + if model_kwargs.get("attention_mask", None) is None: + logger.warning( + "The attention mask and the pad token id were not set. As a consequence, you may observe " + "unexpected behavior. Please pass your input's `attention_mask` to obtain reliable results." + ) + eos_token_id = generation_config.eos_token_id + if isinstance(eos_token_id, list): + eos_token_id = eos_token_id[0] + logger.warning( + f"Setting `pad_token_id` to `eos_token_id`:{eos_token_id} for open-end generation." + ) + generation_config.pad_token_id = eos_token_id + + # 3. Define model inputs + # inputs_tensor has to be defined + # model_input_name is defined if model-specific keyword input is passed + # otherwise model_input_name is None + # all model-specific keyword inputs are removed from `model_kwargs` + inputs_tensor, model_input_name, model_kwargs = self._prepare_model_inputs( + inputs, generation_config.bos_token_id, model_kwargs + ) + batch_size = inputs_tensor.shape[0] + + # 4. Define other model kwargs + model_kwargs["output_attentions"] = generation_config.output_attentions + model_kwargs["output_hidden_states"] = generation_config.output_hidden_states + model_kwargs["use_cache"] = generation_config.use_cache + + accepts_attention_mask = "attention_mask" in set( + inspect.signature(self.forward).parameters.keys() + ) + requires_attention_mask = "encoder_outputs" not in model_kwargs + + if ( + model_kwargs.get("attention_mask", None) is None + and requires_attention_mask + and accepts_attention_mask + ): + model_kwargs[ + "attention_mask" + ] = self._prepare_attention_mask_for_generation( + inputs_tensor, + generation_config.pad_token_id, + generation_config.eos_token_id, + ) + + # decoder-only models should use left-padding for generation + if not self.config.is_encoder_decoder: + if ( + generation_config.pad_token_id is not None + and torch.sum(inputs_tensor[:, -1] == generation_config.pad_token_id) + > 0 + ): + logger.warning( + "A decoder-only architecture is being used, but right-padding was detected! For correct " + "generation results, please set `padding_side='left'` when initializing the tokenizer." + ) + + if self.config.is_encoder_decoder and "encoder_outputs" not in model_kwargs: + # if model is encoder decoder encoder_outputs are created + # and added to `model_kwargs` + model_kwargs = self._prepare_encoder_decoder_kwargs_for_generation( + inputs_tensor, model_kwargs, model_input_name + ) + + # 5. Prepare `input_ids` which will be used for auto-regressive generation + if self.config.is_encoder_decoder: + input_ids = self._prepare_decoder_input_ids_for_generation( + batch_size, + decoder_start_token_id=generation_config.decoder_start_token_id, + bos_token_id=generation_config.bos_token_id, + model_kwargs=model_kwargs, + device=inputs_tensor.device, + ) + else: + # if decoder-only then inputs_tensor has to be `input_ids` + input_ids = inputs_tensor + + # 6. Prepare `max_length` depending on other stopping criteria. + input_ids_seq_length = input_ids.shape[-1] + has_default_max_length = ( + kwargs.get("max_length") is None + and generation_config.max_length is not None + ) + if has_default_max_length and generation_config.max_new_tokens is None: + warnings.warn( + "Neither `max_length` nor `max_new_tokens` has been set, `max_length` will default to" + f" {generation_config.max_length} (`generation_config.max_length`). Controlling `max_length` via the" + " config is deprecated and `max_length` will be removed from the config in v5 of Transformers -- we" + " recommend using `max_new_tokens` to control the maximum length of the generation.", + UserWarning, + ) + elif has_default_max_length and generation_config.max_new_tokens is not None: + generation_config.max_length = ( + generation_config.max_new_tokens + input_ids_seq_length + ) + elif ( + not has_default_max_length and generation_config.max_new_tokens is not None + ): + raise ValueError( + "Both `max_new_tokens` and `max_length` have been set but they serve the same purpose -- setting a" + " limit to the generated output length. Remove one of those arguments. Please refer to the" + " documentation for more information. " + "(https://huggingface.co/docs/transformers/main/en/main_classes/text_generation)" + ) + + if ( + generation_config.min_length is not None + and generation_config.min_length > generation_config.max_length + ): + raise ValueError( + f"Unfeasible length constraints: the minimum length ({generation_config.min_length}) is larger than" + f" the maximum length ({generation_config.max_length})" + ) + if input_ids_seq_length >= generation_config.max_length: + input_ids_string = ( + "decoder_input_ids" if self.config.is_encoder_decoder else "input_ids" + ) + logger.warning( + f"Input length of {input_ids_string} is {input_ids_seq_length}, but `max_length` is set to" + f" {generation_config.max_length}. This can lead to unexpected behavior. You should consider" + " increasing `max_new_tokens`." + ) + + # 7. determine generation mode + is_constraint_gen_mode = ( + generation_config.constraints is not None + or generation_config.force_words_ids is not None + ) + + is_contrastive_search_gen_mode = ( + generation_config.top_k is not None + and generation_config.top_k > 1 + and generation_config.do_sample is False + and generation_config.penalty_alpha is not None + and generation_config.penalty_alpha > 0 + ) + + is_greedy_gen_mode = ( + (generation_config.num_beams == 1) + and (generation_config.num_beam_groups == 1) + and generation_config.do_sample is False + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + is_sample_gen_mode = ( + (generation_config.num_beams == 1) + and (generation_config.num_beam_groups == 1) + and generation_config.do_sample is True + and generation_config.do_stream is False + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + is_sample_gen_stream_mode = ( + (generation_config.num_beams == 1) + and (generation_config.num_beam_groups == 1) + and generation_config.do_stream is True + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + is_beam_gen_mode = ( + (generation_config.num_beams > 1) + and (generation_config.num_beam_groups == 1) + and generation_config.do_sample is False + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + is_beam_sample_gen_mode = ( + (generation_config.num_beams > 1) + and (generation_config.num_beam_groups == 1) + and generation_config.do_sample is True + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + is_group_beam_gen_mode = ( + (generation_config.num_beams > 1) + and (generation_config.num_beam_groups > 1) + and not is_constraint_gen_mode + and not is_contrastive_search_gen_mode + ) + + if generation_config.num_beam_groups > generation_config.num_beams: + raise ValueError( + "`num_beam_groups` has to be smaller or equal to `num_beams`" + ) + if is_group_beam_gen_mode and generation_config.do_sample is True: + raise ValueError( + "Diverse beam search cannot be used in sampling mode. Make sure that `do_sample` is set to `False`." + ) + + if self.device.type != input_ids.device.type: + warnings.warn( + "You are calling .generate() with the `input_ids` being on a device type different" + f" than your model's device. `input_ids` is on {input_ids.device.type}, whereas the model" + f" is on {self.device.type}. You may experience unexpected behaviors or slower generation." + " Please make sure that you have put `input_ids` to the" + f" correct device by calling for example input_ids = input_ids.to('{self.device.type}') before" + " running `.generate()`.", + UserWarning, + ) + # 8. prepare distribution pre_processing samplers + logits_processor = self._get_logits_processor( + generation_config=generation_config, + input_ids_seq_length=input_ids_seq_length, + encoder_input_ids=inputs_tensor, + prefix_allowed_tokens_fn=prefix_allowed_tokens_fn, + logits_processor=logits_processor, + ) + + # 9. prepare stopping criteria + stopping_criteria = self._get_stopping_criteria( + generation_config=generation_config, stopping_criteria=stopping_criteria + ) + # 10. go into different generation modes + if is_greedy_gen_mode: + if generation_config.num_return_sequences > 1: + raise ValueError( + f"num_return_sequences has to be 1, but is {generation_config.num_return_sequences} when doing" + " greedy search." + ) + + # 11. run greedy search + return self.greedy_search( + input_ids, + logits_processor=logits_processor, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + elif is_contrastive_search_gen_mode: + if generation_config.num_return_sequences > 1: + raise ValueError( + f"num_return_sequences has to be 1, but is {generation_config.num_return_sequences} when doing" + " contrastive search." + ) + + return self.contrastive_search( + input_ids, + top_k=generation_config.top_k, + penalty_alpha=generation_config.penalty_alpha, + logits_processor=logits_processor, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + elif is_sample_gen_mode: + # 11. prepare logits warper + logits_warper = self._get_logits_warper(generation_config) + + # 12. expand input_ids with `num_return_sequences` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_return_sequences, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + + # 13. run sample + return self.sample( + input_ids, + logits_processor=logits_processor, + logits_warper=logits_warper, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + elif is_sample_gen_stream_mode: + # 11. prepare logits warper + logits_warper = self._get_logits_warper(generation_config) + + # 12. expand input_ids with `num_return_sequences` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_return_sequences, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + + # 13. run sample + return self.sample_stream( + input_ids, + logits_processor=logits_processor, + logits_warper=logits_warper, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + elif is_beam_gen_mode: + if generation_config.num_return_sequences > generation_config.num_beams: + raise ValueError( + "`num_return_sequences` has to be smaller or equal to `num_beams`." + ) + + if stopping_criteria.max_length is None: + raise ValueError( + "`max_length` needs to be a stopping_criteria for now." + ) + + # 11. prepare beam search scorer + beam_scorer = BeamSearchScorer( + batch_size=batch_size, + num_beams=generation_config.num_beams, + device=inputs_tensor.device, + length_penalty=generation_config.length_penalty, + do_early_stopping=generation_config.early_stopping, + num_beam_hyps_to_keep=generation_config.num_return_sequences, + ) + # 12. interleave input_ids with `num_beams` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_beams, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + # 13. run beam search + return self.beam_search( + input_ids, + beam_scorer, + logits_processor=logits_processor, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + elif is_beam_sample_gen_mode: + # 11. prepare logits warper + logits_warper = self._get_logits_warper(generation_config) + + if stopping_criteria.max_length is None: + raise ValueError( + "`max_length` needs to be a stopping_criteria for now." + ) + # 12. prepare beam search scorer + beam_scorer = BeamSearchScorer( + batch_size=batch_size * generation_config.num_return_sequences, + num_beams=generation_config.num_beams, + device=inputs_tensor.device, + length_penalty=generation_config.length_penalty, + do_early_stopping=generation_config.early_stopping, + ) + + # 13. interleave input_ids with `num_beams` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_beams + * generation_config.num_return_sequences, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + + # 14. run beam sample + return self.beam_sample( + input_ids, + beam_scorer, + logits_processor=logits_processor, + logits_warper=logits_warper, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + elif is_group_beam_gen_mode: + if generation_config.num_return_sequences > generation_config.num_beams: + raise ValueError( + "`num_return_sequences` has to be smaller or equal to `num_beams`." + ) + + if generation_config.num_beams % generation_config.num_beam_groups != 0: + raise ValueError( + "`num_beams` should be divisible by `num_beam_groups` for group beam search." + ) + + if stopping_criteria.max_length is None: + raise ValueError( + "`max_length` needs to be a stopping_criteria for now." + ) + + has_default_typical_p = ( + kwargs.get("typical_p") is None and generation_config.typical_p == 1.0 + ) + if not has_default_typical_p: + raise ValueError( + "Decoder argument `typical_p` is not supported with beam groups." + ) + + # 11. prepare beam search scorer + beam_scorer = BeamSearchScorer( + batch_size=batch_size, + num_beams=generation_config.num_beams, + max_length=stopping_criteria.max_length, + device=inputs_tensor.device, + length_penalty=generation_config.length_penalty, + do_early_stopping=generation_config.early_stopping, + num_beam_hyps_to_keep=generation_config.num_return_sequences, + num_beam_groups=generation_config.num_beam_groups, + ) + # 12. interleave input_ids with `num_beams` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_beams, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + # 13. run beam search + return self.group_beam_search( + input_ids, + beam_scorer, + logits_processor=logits_processor, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + elif is_constraint_gen_mode: + if generation_config.num_return_sequences > generation_config.num_beams: + raise ValueError( + "`num_return_sequences` has to be smaller or equal to `num_beams`." + ) + + if stopping_criteria.max_length is None: + raise ValueError( + "`max_length` needs to be a stopping_criteria for now." + ) + + if generation_config.num_beams <= 1: + raise ValueError( + "`num_beams` needs to be greater than 1 for constrained generation." + ) + + if generation_config.do_sample: + raise ValueError( + "`do_sample` needs to be false for constrained generation." + ) + + if ( + generation_config.num_beam_groups is not None + and generation_config.num_beam_groups > 1 + ): + raise ValueError( + "`num_beam_groups` not supported yet for constrained generation." + ) + + final_constraints = [] + if generation_config.constraints is not None: + final_constraints = generation_config.constraints + + if generation_config.force_words_ids is not None: + + def typeerror(): + raise ValueError( + "`force_words_ids` has to either be a `List[List[List[int]]]` or `List[List[int]]`" + f"of positive integers, but is {generation_config.force_words_ids}." + ) + + if ( + not isinstance(generation_config.force_words_ids, list) + or len(generation_config.force_words_ids) == 0 + ): + typeerror() + + for word_ids in generation_config.force_words_ids: + if isinstance(word_ids[0], list): + if not isinstance(word_ids, list) or len(word_ids) == 0: + typeerror() + if any( + not isinstance(token_ids, list) for token_ids in word_ids + ): + typeerror() + if any( + any( + (not isinstance(token_id, int) or token_id < 0) + for token_id in token_ids + ) + for token_ids in word_ids + ): + typeerror() + + constraint = DisjunctiveConstraint(word_ids) + else: + if not isinstance(word_ids, list) or len(word_ids) == 0: + typeerror() + if any( + (not isinstance(token_id, int) or token_id < 0) + for token_id in word_ids + ): + typeerror() + + constraint = PhrasalConstraint(word_ids) + final_constraints.append(constraint) + + # 11. prepare beam search scorer + constrained_beam_scorer = ConstrainedBeamSearchScorer( + constraints=final_constraints, + batch_size=batch_size, + num_beams=generation_config.num_beams, + device=inputs_tensor.device, + length_penalty=generation_config.length_penalty, + do_early_stopping=generation_config.early_stopping, + num_beam_hyps_to_keep=generation_config.num_return_sequences, + ) + # 12. interleave input_ids with `num_beams` additional sequences per batch + input_ids, model_kwargs = self._expand_inputs_for_generation( + input_ids=input_ids, + expand_size=generation_config.num_beams, + is_encoder_decoder=self.config.is_encoder_decoder, + **model_kwargs, + ) + # 13. run beam search + return self.constrained_beam_search( + input_ids, + constrained_beam_scorer=constrained_beam_scorer, + logits_processor=logits_processor, + stopping_criteria=stopping_criteria, + pad_token_id=generation_config.pad_token_id, + eos_token_id=generation_config.eos_token_id, + output_scores=generation_config.output_scores, + return_dict_in_generate=generation_config.return_dict_in_generate, + synced_gpus=synced_gpus, + **model_kwargs, + ) + + @torch.no_grad() + def sample_stream( + self, + input_ids: torch.LongTensor, + logits_processor: Optional[LogitsProcessorList] = None, + stopping_criteria: Optional[StoppingCriteriaList] = None, + logits_warper: Optional[LogitsProcessorList] = None, + max_length: Optional[int] = None, + pad_token_id: Optional[int] = None, + eos_token_id: Optional[Union[int, List[int]]] = None, + output_attentions: Optional[bool] = None, + output_hidden_states: Optional[bool] = None, + output_scores: Optional[bool] = None, + return_dict_in_generate: Optional[bool] = None, + synced_gpus: Optional[bool] = False, + **model_kwargs, + ) -> Union[SampleOutput, torch.LongTensor]: + r""" + Generates sequences of token ids for models with a language modeling head using **multinomial sampling** and + can be used for text-decoder, text-to-text, speech-to-text, and vision-to-text models. + + + + In most cases, you do not need to call [`~generation.GenerationMixin.sample`] directly. Use generate() instead. + For an overview of generation strategies and code examples, check the [following + guide](./generation_strategies). + + + + Parameters: + input_ids (`torch.LongTensor` of shape `(batch_size, sequence_length)`): + The sequence used as a prompt for the generation. + logits_processor (`LogitsProcessorList`, *optional*): + An instance of [`LogitsProcessorList`]. List of instances of class derived from [`LogitsProcessor`] + used to modify the prediction scores of the language modeling head applied at each generation step. + stopping_criteria (`StoppingCriteriaList`, *optional*): + An instance of [`StoppingCriteriaList`]. List of instances of class derived from [`StoppingCriteria`] + used to tell if the generation loop should stop. + logits_warper (`LogitsProcessorList`, *optional*): + An instance of [`LogitsProcessorList`]. List of instances of class derived from [`LogitsWarper`] used + to warp the prediction score distribution of the language modeling head applied before multinomial + sampling at each generation step. + max_length (`int`, *optional*, defaults to 20): + **DEPRECATED**. Use `logits_processor` or `stopping_criteria` directly to cap the number of generated + tokens. The maximum length of the sequence to be generated. + pad_token_id (`int`, *optional*): + The id of the *padding* token. + eos_token_id (`int`, *optional*): + The id of the *end-of-sequence* token. + output_attentions (`bool`, *optional*, defaults to `False`): + Whether or not to return the attentions tensors of all attention layers. See `attentions` under + returned tensors for more details. + output_hidden_states (`bool`, *optional*, defaults to `False`): + Whether or not to return the hidden states of all layers. See `hidden_states` under returned tensors + for more details. + output_scores (`bool`, *optional*, defaults to `False`): + Whether or not to return the prediction scores. See `scores` under returned tensors for more details. + return_dict_in_generate (`bool`, *optional*, defaults to `False`): + Whether or not to return a [`~utils.ModelOutput`] instead of a plain tuple. + synced_gpus (`bool`, *optional*, defaults to `False`): + Whether to continue running the while loop until max_length (needed for ZeRO stage 3) + model_kwargs: + Additional model specific kwargs will be forwarded to the `forward` function of the model. If model is + an encoder-decoder model the kwargs should include `encoder_outputs`. + + Return: + [`~generation.SampleDecoderOnlyOutput`], [`~generation.SampleEncoderDecoderOutput`] or `torch.LongTensor`: + A `torch.LongTensor` containing the generated tokens (default behaviour) or a + [`~generation.SampleDecoderOnlyOutput`] if `model.config.is_encoder_decoder=False` and + `return_dict_in_generate=True` or a [`~generation.SampleEncoderDecoderOutput`] if + `model.config.is_encoder_decoder=True`. + + Examples: + + ```python + >>> from transformers import ( + ... AutoTokenizer, + ... AutoModelForCausalLM, + ... LogitsProcessorList, + ... MinLengthLogitsProcessor, + ... TopKLogitsWarper, + ... TemperatureLogitsWarper, + ... StoppingCriteriaList, + ... MaxLengthCriteria, + ... ) + >>> import torch + + >>> tokenizer = AutoTokenizer.from_pretrained("gpt2") + >>> model = AutoModelForCausalLM.from_pretrained("gpt2") + + >>> # set pad_token_id to eos_token_id because GPT2 does not have a EOS token + >>> model.config.pad_token_id = model.config.eos_token_id + >>> model.generation_config.pad_token_id = model.config.eos_token_id + + >>> input_prompt = "Today is a beautiful day, and" + >>> input_ids = tokenizer(input_prompt, return_tensors="pt").input_ids + + >>> # instantiate logits processors + >>> logits_processor = LogitsProcessorList( + ... [ + ... MinLengthLogitsProcessor(15, eos_token_id=model.generation_config.eos_token_id), + ... ] + ... ) + >>> # instantiate logits processors + >>> logits_warper = LogitsProcessorList( + ... [ + ... TopKLogitsWarper(50), + ... TemperatureLogitsWarper(0.7), + ... ] + ... ) + + >>> stopping_criteria = StoppingCriteriaList([MaxLengthCriteria(max_length=20)]) + + >>> torch.manual_seed(0) # doctest: +IGNORE_RESULT + >>> outputs = model.sample( + ... input_ids, + ... logits_processor=logits_processor, + ... logits_warper=logits_warper, + ... stopping_criteria=stopping_criteria, + ... ) + + >>> tokenizer.batch_decode(outputs, skip_special_tokens=True) + ['Today is a beautiful day, and a wonderful day.\n\nI was lucky enough to meet the'] + ```""" + # init values + logits_processor = ( + logits_processor if logits_processor is not None else LogitsProcessorList() + ) + stopping_criteria = ( + stopping_criteria + if stopping_criteria is not None + else StoppingCriteriaList() + ) + if max_length is not None: + warnings.warn( + "`max_length` is deprecated in this function, use" + " `stopping_criteria=StoppingCriteriaList(MaxLengthCriteria(max_length=max_length))` instead.", + UserWarning, + ) + stopping_criteria = validate_stopping_criteria( + stopping_criteria, max_length + ) + logits_warper = ( + logits_warper if logits_warper is not None else LogitsProcessorList() + ) + pad_token_id = ( + pad_token_id + if pad_token_id is not None + else self.generation_config.pad_token_id + ) + eos_token_id = ( + eos_token_id + if eos_token_id is not None + else self.generation_config.eos_token_id + ) + if isinstance(eos_token_id, int): + eos_token_id = [eos_token_id] + output_scores = ( + output_scores + if output_scores is not None + else self.generation_config.output_scores + ) + output_attentions = ( + output_attentions + if output_attentions is not None + else self.generation_config.output_attentions + ) + output_hidden_states = ( + output_hidden_states + if output_hidden_states is not None + else self.generation_config.output_hidden_states + ) + return_dict_in_generate = ( + return_dict_in_generate + if return_dict_in_generate is not None + else self.generation_config.return_dict_in_generate + ) + + # init attention / hidden states / scores tuples + scores = () if (return_dict_in_generate and output_scores) else None + decoder_attentions = ( + () if (return_dict_in_generate and output_attentions) else None + ) + cross_attentions = ( + () if (return_dict_in_generate and output_attentions) else None + ) + decoder_hidden_states = ( + () if (return_dict_in_generate and output_hidden_states) else None + ) + + # keep track of which sequences are already finished + unfinished_sequences = input_ids.new(input_ids.shape[0]).fill_(1) + + this_peer_finished = False # used by synced_gpus only + # auto-regressive generation + while True: + if synced_gpus: + # Under synced_gpus the `forward` call must continue until all gpus complete their sequence. + # The following logic allows an early break if all peers finished generating their sequence + this_peer_finished_flag = torch.tensor( + 0.0 if this_peer_finished else 1.0 + ).to(input_ids.device) + # send 0.0 if we finished, 1.0 otherwise + dist.all_reduce(this_peer_finished_flag, op=dist.ReduceOp.SUM) + # did all peers finish? the reduced sum will be 0.0 then + if this_peer_finished_flag.item() == 0.0: + break + + # prepare model inputs + model_inputs = self.prepare_inputs_for_generation(input_ids, **model_kwargs) + + # forward pass to get next token + outputs = self( + **model_inputs, + return_dict=True, + output_attentions=output_attentions, + output_hidden_states=output_hidden_states, + ) + + if synced_gpus and this_peer_finished: + continue # don't waste resources running the code we don't need + + next_token_logits = outputs.logits[:, -1, :] + + # pre-process distribution + next_token_scores = logits_processor(input_ids, next_token_logits) + next_token_scores = logits_warper(input_ids, next_token_scores) + + # Store scores, attentions and hidden_states when required + if return_dict_in_generate: + if output_scores: + scores += (next_token_scores,) + if output_attentions: + decoder_attentions += ( + (outputs.decoder_attentions,) + if self.config.is_encoder_decoder + else (outputs.attentions,) + ) + if self.config.is_encoder_decoder: + cross_attentions += (outputs.cross_attentions,) + + if output_hidden_states: + decoder_hidden_states += ( + (outputs.decoder_hidden_states,) + if self.config.is_encoder_decoder + else (outputs.hidden_states,) + ) + + # sample + probs = nn.functional.softmax(next_token_scores, dim=-1) + next_tokens = torch.multinomial(probs, num_samples=1).squeeze(1) + + # finished sentences should have their next token be a padding token + if eos_token_id is not None: + if pad_token_id is None: + raise ValueError( + "If `eos_token_id` is defined, make sure that `pad_token_id` is defined." + ) + next_tokens = next_tokens * unfinished_sequences + pad_token_id * ( + 1 - unfinished_sequences + ) + yield next_tokens, self.final_norm(outputs.hidden_states[-1][:, -1]) + # update generated ids, model inputs, and length for next step + input_ids = torch.cat([input_ids, next_tokens[:, None]], dim=-1) + model_kwargs = self._update_model_kwargs_for_generation( + outputs, model_kwargs, is_encoder_decoder=self.config.is_encoder_decoder + ) + + # if eos_token was found in one sentence, set sentence to finished + if eos_token_id is not None: + unfinished_sequences = unfinished_sequences.mul( + (sum(next_tokens != i for i in eos_token_id)).long() + ) + + # stop when each sentence is finished, or if we exceed the maximum length + if unfinished_sequences.max() == 0 or stopping_criteria(input_ids, scores): + if not synced_gpus: + break + else: + this_peer_finished = True + + +def init_stream_support(): + """Overload PreTrainedModel for streaming.""" + PreTrainedModel.generate_stream = NewGenerationMixin.generate + PreTrainedModel.sample_stream = NewGenerationMixin.sample_stream + + +if __name__ == "__main__": + from transformers import PreTrainedModel + from transformers import AutoTokenizer, AutoModelForCausalLM + + PreTrainedModel.generate = NewGenerationMixin.generate + PreTrainedModel.sample_stream = NewGenerationMixin.sample_stream + model = AutoModelForCausalLM.from_pretrained( + "bigscience/bloom-560m", torch_dtype=torch.float16 + ) + + tokenizer = AutoTokenizer.from_pretrained("bigscience/bloom-560m") + model = model.to("cuda:0") + model = model.eval() + prompt_text = "hello? \n" + input_ids = tokenizer( + prompt_text, return_tensors="pt", add_special_tokens=False + ).input_ids + input_ids = input_ids.to("cuda:0") + + with torch.no_grad(): + result = model.generate( + input_ids, + max_new_tokens=200, + do_sample=True, + top_k=30, + top_p=0.85, + temperature=0.35, + repetition_penalty=1.2, + early_stopping=True, + seed=0, + ) + print(tokenizer.decode(result, skip_special_tokens=True)) + generator = model.generate( + input_ids, + max_new_tokens=200, + do_sample=True, + top_k=30, + top_p=0.85, + temperature=0.35, + repetition_penalty=1.2, + early_stopping=True, + seed=0, + do_stream=True, + ) + stream_result = "" + for x in generator: + chunk = tokenizer.decode(x, skip_special_tokens=True) + stream_result += chunk + print(stream_result) diff --git a/tortoise/models/transformer.py b/tortoise/models/transformer.py new file mode 100644 index 0000000000000000000000000000000000000000..707e9ebaea2be706427b8eb663e75ef9d46c5de7 --- /dev/null +++ b/tortoise/models/transformer.py @@ -0,0 +1,219 @@ +from functools import partial + +import torch +import torch.nn.functional as F +from einops import rearrange +from rotary_embedding_torch import RotaryEmbedding, broadcat +from torch import nn + + +# helpers + + +def exists(val): + return val is not None + + +def default(val, d): + return val if exists(val) else d + + +def cast_tuple(val, depth = 1): + if isinstance(val, list): + val = tuple(val) + return val if isinstance(val, tuple) else (val,) * depth + + +def max_neg_value(t): + return -torch.finfo(t.dtype).max + + +def stable_softmax(t, dim = -1, alpha = 32 ** 2): + t = t / alpha + t = t - torch.amax(t, dim = dim, keepdim = True).detach() + return (t * alpha).softmax(dim = dim) + + +def route_args(router, args, depth): + routed_args = [(dict(), dict()) for _ in range(depth)] + matched_keys = [key for key in args.keys() if key in router] + + for key in matched_keys: + val = args[key] + for depth, ((f_args, g_args), routes) in enumerate(zip(routed_args, router[key])): + new_f_args, new_g_args = map(lambda route: ({key: val} if route else {}), routes) + routed_args[depth] = ({**f_args, **new_f_args}, {**g_args, **new_g_args}) + return routed_args + + +# classes +class SequentialSequence(nn.Module): + def __init__(self, layers, args_route = {}, layer_dropout = 0.): + super().__init__() + assert all(len(route) == len(layers) for route in args_route.values()), 'each argument route map must have the same depth as the number of sequential layers' + self.layers = layers + self.args_route = args_route + self.layer_dropout = layer_dropout + + def forward(self, x, **kwargs): + args = route_args(self.args_route, kwargs, len(self.layers)) + layers_and_args = list(zip(self.layers, args)) + + for (f, g), (f_args, g_args) in layers_and_args: + x = x + f(x, **f_args) + x = x + g(x, **g_args) + return x + + +class DivideMax(nn.Module): + def __init__(self, dim): + super().__init__() + self.dim = dim + + def forward(self, x): + maxes = x.amax(dim = self.dim, keepdim = True).detach() + return x / maxes + + +# https://arxiv.org/abs/2103.17239 +class LayerScale(nn.Module): + def __init__(self, dim, depth, fn): + super().__init__() + if depth <= 18: + init_eps = 0.1 + elif depth > 18 and depth <= 24: + init_eps = 1e-5 + else: + init_eps = 1e-6 + + scale = torch.zeros(1, 1, dim).fill_(init_eps) + self.scale = nn.Parameter(scale) + self.fn = fn + def forward(self, x, **kwargs): + return self.fn(x, **kwargs) * self.scale + +# layer norm + + +class PreNorm(nn.Module): + def __init__(self, dim, fn, sandwich = False): + super().__init__() + self.norm = nn.LayerNorm(dim) + self.norm_out = nn.LayerNorm(dim) if sandwich else nn.Identity() + self.fn = fn + + def forward(self, x, **kwargs): + x = self.norm(x) + x = self.fn(x, **kwargs) + return self.norm_out(x) + +# feed forward + + +class GEGLU(nn.Module): + def forward(self, x): + x, gates = x.chunk(2, dim = -1) + return x * F.gelu(gates) + + +class FeedForward(nn.Module): + def __init__(self, dim, dropout = 0., mult = 4.): + super().__init__() + self.net = nn.Sequential( + nn.Linear(dim, dim * mult * 2), + GEGLU(), + nn.Dropout(dropout), + nn.Linear(dim * mult, dim) + ) + + def forward(self, x): + return self.net(x) + +# Attention + + +class Attention(nn.Module): + def __init__(self, dim, seq_len, causal = True, heads = 8, dim_head = 64, dropout = 0.): + super().__init__() + inner_dim = dim_head * heads + self.heads = heads + self.seq_len = seq_len + self.scale = dim_head ** -0.5 + + self.causal = causal + + self.to_qkv = nn.Linear(dim, inner_dim * 3, bias = False) + self.to_out = nn.Sequential( + nn.Linear(inner_dim, dim), + nn.Dropout(dropout) + ) + + def forward(self, x, mask = None): + b, n, _, h, device = *x.shape, self.heads, x.device + softmax = torch.softmax + + qkv = self.to_qkv(x).chunk(3, dim = -1) + q, k, v = map(lambda t: rearrange(t, 'b n (h d) -> b h n d', h = h), qkv) + + q = q * self.scale + + dots = torch.einsum('b h i d, b h j d -> b h i j', q, k) + mask_value = max_neg_value(dots) + + if exists(mask): + mask = rearrange(mask, 'b j -> b () () j') + dots.masked_fill_(~mask, mask_value) + del mask + + if self.causal: + i, j = dots.shape[-2:] + mask = torch.ones(i, j, device = device).triu_(j - i + 1).bool() + dots.masked_fill_(mask, mask_value) + + attn = softmax(dots, dim=-1) + + out = torch.einsum('b h i j, b h j d -> b h i d', attn, v) + out = rearrange(out, 'b h n d -> b n (h d)') + out = self.to_out(out) + return out + + +# main transformer class +class Transformer(nn.Module): + def __init__( + self, + *, + dim, + depth, + seq_len, + causal = True, + heads = 8, + dim_head = 64, + ff_mult = 4, + attn_dropout = 0., + ff_dropout = 0., + sparse_attn = False, + sandwich_norm = False, + ): + super().__init__() + layers = nn.ModuleList([]) + sparse_layer = cast_tuple(sparse_attn, depth) + + for ind, sparse_attn in zip(range(depth), sparse_layer): + attn = Attention(dim, causal = causal, seq_len = seq_len, heads = heads, dim_head = dim_head, dropout = attn_dropout) + + ff = FeedForward(dim, mult = ff_mult, dropout = ff_dropout) + + layers.append(nn.ModuleList([ + LayerScale(dim, ind + 1, PreNorm(dim, attn, sandwich = sandwich_norm)), + LayerScale(dim, ind + 1, PreNorm(dim, ff, sandwich = sandwich_norm)) + ])) + + execute_type = SequentialSequence + route_attn = ((True, False),) * depth + attn_route_map = {'mask': route_attn} + + self.layers = execute_type(layers, args_route = attn_route_map) + + def forward(self, x, **kwargs): + return self.layers(x, **kwargs) diff --git a/tortoise/models/vocoder.py b/tortoise/models/vocoder.py new file mode 100644 index 0000000000000000000000000000000000000000..8b60dbda152c04e3ca3f0eb649fa617860b9f35b --- /dev/null +++ b/tortoise/models/vocoder.py @@ -0,0 +1,327 @@ +import torch +import torch.nn as nn +import torch.nn.functional as F + +MAX_WAV_VALUE = 32768.0 + +class KernelPredictor(torch.nn.Module): + ''' Kernel predictor for the location-variable convolutions''' + + def __init__( + self, + cond_channels, + conv_in_channels, + conv_out_channels, + conv_layers, + conv_kernel_size=3, + kpnet_hidden_channels=64, + kpnet_conv_size=3, + kpnet_dropout=0.0, + kpnet_nonlinear_activation="LeakyReLU", + kpnet_nonlinear_activation_params={"negative_slope": 0.1}, + ): + ''' + Args: + cond_channels (int): number of channel for the conditioning sequence, + conv_in_channels (int): number of channel for the input sequence, + conv_out_channels (int): number of channel for the output sequence, + conv_layers (int): number of layers + ''' + super().__init__() + + self.conv_in_channels = conv_in_channels + self.conv_out_channels = conv_out_channels + self.conv_kernel_size = conv_kernel_size + self.conv_layers = conv_layers + + kpnet_kernel_channels = conv_in_channels * conv_out_channels * conv_kernel_size * conv_layers # l_w + kpnet_bias_channels = conv_out_channels * conv_layers # l_b + + self.input_conv = nn.Sequential( + nn.utils.weight_norm(nn.Conv1d(cond_channels, kpnet_hidden_channels, 5, padding=2, bias=True)), + getattr(nn, kpnet_nonlinear_activation)(**kpnet_nonlinear_activation_params), + ) + + self.residual_convs = nn.ModuleList() + padding = (kpnet_conv_size - 1) // 2 + for _ in range(3): + self.residual_convs.append( + nn.Sequential( + nn.Dropout(kpnet_dropout), + nn.utils.weight_norm( + nn.Conv1d(kpnet_hidden_channels, kpnet_hidden_channels, kpnet_conv_size, padding=padding, + bias=True)), + getattr(nn, kpnet_nonlinear_activation)(**kpnet_nonlinear_activation_params), + nn.utils.weight_norm( + nn.Conv1d(kpnet_hidden_channels, kpnet_hidden_channels, kpnet_conv_size, padding=padding, + bias=True)), + getattr(nn, kpnet_nonlinear_activation)(**kpnet_nonlinear_activation_params), + ) + ) + self.kernel_conv = nn.utils.weight_norm( + nn.Conv1d(kpnet_hidden_channels, kpnet_kernel_channels, kpnet_conv_size, padding=padding, bias=True)) + self.bias_conv = nn.utils.weight_norm( + nn.Conv1d(kpnet_hidden_channels, kpnet_bias_channels, kpnet_conv_size, padding=padding, bias=True)) + + def forward(self, c): + ''' + Args: + c (Tensor): the conditioning sequence (batch, cond_channels, cond_length) + ''' + batch, _, cond_length = c.shape + c = self.input_conv(c) + for residual_conv in self.residual_convs: + residual_conv.to(c.device) + c = c + residual_conv(c) + k = self.kernel_conv(c) + b = self.bias_conv(c) + kernels = k.contiguous().view( + batch, + self.conv_layers, + self.conv_in_channels, + self.conv_out_channels, + self.conv_kernel_size, + cond_length, + ) + bias = b.contiguous().view( + batch, + self.conv_layers, + self.conv_out_channels, + cond_length, + ) + + return kernels, bias + + def remove_weight_norm(self): + nn.utils.remove_weight_norm(self.input_conv[0]) + nn.utils.remove_weight_norm(self.kernel_conv) + nn.utils.remove_weight_norm(self.bias_conv) + for block in self.residual_convs: + nn.utils.remove_weight_norm(block[1]) + nn.utils.remove_weight_norm(block[3]) + + +class LVCBlock(torch.nn.Module): + '''the location-variable convolutions''' + + def __init__( + self, + in_channels, + cond_channels, + stride, + dilations=[1, 3, 9, 27], + lReLU_slope=0.2, + conv_kernel_size=3, + cond_hop_length=256, + kpnet_hidden_channels=64, + kpnet_conv_size=3, + kpnet_dropout=0.0, + ): + super().__init__() + + self.cond_hop_length = cond_hop_length + self.conv_layers = len(dilations) + self.conv_kernel_size = conv_kernel_size + + self.kernel_predictor = KernelPredictor( + cond_channels=cond_channels, + conv_in_channels=in_channels, + conv_out_channels=2 * in_channels, + conv_layers=len(dilations), + conv_kernel_size=conv_kernel_size, + kpnet_hidden_channels=kpnet_hidden_channels, + kpnet_conv_size=kpnet_conv_size, + kpnet_dropout=kpnet_dropout, + kpnet_nonlinear_activation_params={"negative_slope": lReLU_slope} + ) + + self.convt_pre = nn.Sequential( + nn.LeakyReLU(lReLU_slope), + nn.utils.weight_norm(nn.ConvTranspose1d(in_channels, in_channels, 2 * stride, stride=stride, + padding=stride // 2 + stride % 2, output_padding=stride % 2)), + ) + + self.conv_blocks = nn.ModuleList() + for dilation in dilations: + self.conv_blocks.append( + nn.Sequential( + nn.LeakyReLU(lReLU_slope), + nn.utils.weight_norm(nn.Conv1d(in_channels, in_channels, conv_kernel_size, + padding=dilation * (conv_kernel_size - 1) // 2, dilation=dilation)), + nn.LeakyReLU(lReLU_slope), + ) + ) + + def forward(self, x, c): + ''' forward propagation of the location-variable convolutions. + Args: + x (Tensor): the input sequence (batch, in_channels, in_length) + c (Tensor): the conditioning sequence (batch, cond_channels, cond_length) + + Returns: + Tensor: the output sequence (batch, in_channels, in_length) + ''' + _, in_channels, _ = x.shape # (B, c_g, L') + + x = self.convt_pre(x) # (B, c_g, stride * L') + kernels, bias = self.kernel_predictor(c) + + for i, conv in enumerate(self.conv_blocks): + output = conv(x) # (B, c_g, stride * L') + + k = kernels[:, i, :, :, :, :] # (B, 2 * c_g, c_g, kernel_size, cond_length) + b = bias[:, i, :, :] # (B, 2 * c_g, cond_length) + + output = self.location_variable_convolution(output, k, b, + hop_size=self.cond_hop_length) # (B, 2 * c_g, stride * L'): LVC + x = x + torch.sigmoid(output[:, :in_channels, :]) * torch.tanh( + output[:, in_channels:, :]) # (B, c_g, stride * L'): GAU + + return x + + def location_variable_convolution(self, x, kernel, bias, dilation=1, hop_size=256): + ''' perform location-variable convolution operation on the input sequence (x) using the local convolution kernl. + Time: 414 μs ± 309 ns per loop (mean ± std. dev. of 7 runs, 1000 loops each), test on NVIDIA V100. + Args: + x (Tensor): the input sequence (batch, in_channels, in_length). + kernel (Tensor): the local convolution kernel (batch, in_channel, out_channels, kernel_size, kernel_length) + bias (Tensor): the bias for the local convolution (batch, out_channels, kernel_length) + dilation (int): the dilation of convolution. + hop_size (int): the hop_size of the conditioning sequence. + Returns: + (Tensor): the output sequence after performing local convolution. (batch, out_channels, in_length). + ''' + batch, _, in_length = x.shape + batch, _, out_channels, kernel_size, kernel_length = kernel.shape + assert in_length == (kernel_length * hop_size), "length of (x, kernel) is not matched" + + padding = dilation * int((kernel_size - 1) / 2) + x = F.pad(x, (padding, padding), 'constant', 0) # (batch, in_channels, in_length + 2*padding) + x = x.unfold(2, hop_size + 2 * padding, hop_size) # (batch, in_channels, kernel_length, hop_size + 2*padding) + + if hop_size < dilation: + x = F.pad(x, (0, dilation), 'constant', 0) + x = x.unfold(3, dilation, + dilation) # (batch, in_channels, kernel_length, (hop_size + 2*padding)/dilation, dilation) + x = x[:, :, :, :, :hop_size] + x = x.transpose(3, 4) # (batch, in_channels, kernel_length, dilation, (hop_size + 2*padding)/dilation) + x = x.unfold(4, kernel_size, 1) # (batch, in_channels, kernel_length, dilation, _, kernel_size) + + o = torch.einsum('bildsk,biokl->bolsd', x, kernel) + o = o.to(memory_format=torch.channels_last_3d) + bias = bias.unsqueeze(-1).unsqueeze(-1).to(memory_format=torch.channels_last_3d) + o = o + bias + o = o.contiguous().view(batch, out_channels, -1) + + return o + + def remove_weight_norm(self): + self.kernel_predictor.remove_weight_norm() + nn.utils.remove_weight_norm(self.convt_pre[1]) + for block in self.conv_blocks: + nn.utils.remove_weight_norm(block[1]) + + +class UnivNetGenerator(nn.Module): + """ + UnivNet Generator + + Originally from https://github.com/mindslab-ai/univnet/blob/master/model/generator.py. + """ + + def __init__(self, noise_dim=64, channel_size=32, dilations=[1,3,9,27], strides=[8,8,4], lReLU_slope=.2, kpnet_conv_size=3, + # Below are MEL configurations options that this generator requires. + hop_length=256, n_mel_channels=100): + super(UnivNetGenerator, self).__init__() + self.mel_channel = n_mel_channels + self.noise_dim = noise_dim + self.hop_length = hop_length + channel_size = channel_size + kpnet_conv_size = kpnet_conv_size + + self.res_stack = nn.ModuleList() + hop_length = 1 + for stride in strides: + hop_length = stride * hop_length + self.res_stack.append( + LVCBlock( + channel_size, + n_mel_channels, + stride=stride, + dilations=dilations, + lReLU_slope=lReLU_slope, + cond_hop_length=hop_length, + kpnet_conv_size=kpnet_conv_size + ) + ) + + self.conv_pre = \ + nn.utils.weight_norm(nn.Conv1d(noise_dim, channel_size, 7, padding=3, padding_mode='reflect')) + + self.conv_post = nn.Sequential( + nn.LeakyReLU(lReLU_slope), + nn.utils.weight_norm(nn.Conv1d(channel_size, 1, 7, padding=3, padding_mode='reflect')), + nn.Tanh(), + ) + + def forward(self, c, z): + ''' + Args: + c (Tensor): the conditioning sequence of mel-spectrogram (batch, mel_channels, in_length) + z (Tensor): the noise sequence (batch, noise_dim, in_length) + + ''' + z = self.conv_pre(z) # (B, c_g, L) + + for res_block in self.res_stack: + res_block.to(z.device) + z = res_block(z, c) # (B, c_g, L * s_0 * ... * s_i) + + z = self.conv_post(z) # (B, 1, L * 256) + + return z + + def eval(self, inference=False): + super(UnivNetGenerator, self).eval() + # don't remove weight norm while validation in training loop + if inference: + self.remove_weight_norm() + + def remove_weight_norm(self): + nn.utils.remove_weight_norm(self.conv_pre) + + for layer in self.conv_post: + if len(layer.state_dict()) != 0: + nn.utils.remove_weight_norm(layer) + + for res_block in self.res_stack: + res_block.remove_weight_norm() + + def inference(self, c, z=None): + # pad input mel with zeros to cut artifact + # see https://github.com/seungwonpark/melgan/issues/8 + zero = torch.full((c.shape[0], self.mel_channel, 10), -11.5129).to(c.device) + mel = torch.cat((c, zero), dim=2) + + if z is None: + z = torch.randn(c.shape[0], self.noise_dim, mel.size(2)).to(mel.device) + + audio = self.forward(mel, z) + audio = audio[:, :, :-(self.hop_length * 10)] + audio = audio.clamp(min=-1, max=1) + return audio + + +if __name__ == '__main__': + model = UnivNetGenerator() + + c = torch.randn(3, 100, 10) + z = torch.randn(3, 64, 10) + print(c.shape) + + y = model(c, z) + print(y.shape) + assert y.shape == torch.Size([3, 1, 2560]) + + pytorch_total_params = sum(p.numel() for p in model.parameters() if p.requires_grad) + print(pytorch_total_params) diff --git a/tortoise/models/xtransformers.py b/tortoise/models/xtransformers.py new file mode 100644 index 0000000000000000000000000000000000000000..8be2df455c46bf8c89efb0d5fdbb704a9fb622f6 --- /dev/null +++ b/tortoise/models/xtransformers.py @@ -0,0 +1,1248 @@ +import math +from collections import namedtuple +from functools import partial +from inspect import isfunction + +import torch +import torch.nn.functional as F +from einops import rearrange, repeat +from torch import nn, einsum + +DEFAULT_DIM_HEAD = 64 + +Intermediates = namedtuple('Intermediates', [ + 'pre_softmax_attn', + 'post_softmax_attn' +]) + +LayerIntermediates = namedtuple('Intermediates', [ + 'hiddens', + 'attn_intermediates', + 'past_key_values', +]) + + +# helpers + +def exists(val): + return val is not None + + +def default(val, d): + if exists(val): + return val + return d() if isfunction(d) else d + + +def cast_tuple(val, depth): + return val if isinstance(val, tuple) else (val,) * depth + + +class always(): + def __init__(self, val): + self.val = val + + def __call__(self, *args, **kwargs): + return self.val + + +class not_equals(): + def __init__(self, val): + self.val = val + + def __call__(self, x, *args, **kwargs): + return x != self.val + + +class equals(): + def __init__(self, val): + self.val = val + + def __call__(self, x, *args, **kwargs): + return x == self.val + + +def max_neg_value(tensor): + return -torch.finfo(tensor.dtype).max + + +def l2norm(t): + return F.normalize(t, p=2, dim=-1) + + +# init helpers + +def init_zero_(layer): + nn.init.constant_(layer.weight, 0.) + if exists(layer.bias): + nn.init.constant_(layer.bias, 0.) + + +# keyword argument helpers + +def pick_and_pop(keys, d): + values = list(map(lambda key: d.pop(key), keys)) + return dict(zip(keys, values)) + + +def group_dict_by_key(cond, d): + return_val = [dict(), dict()] + for key in d.keys(): + match = bool(cond(key)) + ind = int(not match) + return_val[ind][key] = d[key] + return (*return_val,) + + +def string_begins_with(prefix, str): + return str.startswith(prefix) + + +def group_by_key_prefix(prefix, d): + return group_dict_by_key(partial(string_begins_with, prefix), d) + + +def groupby_prefix_and_trim(prefix, d): + kwargs_with_prefix, kwargs = group_dict_by_key(partial(string_begins_with, prefix), d) + kwargs_without_prefix = dict(map(lambda x: (x[0][len(prefix):], x[1]), tuple(kwargs_with_prefix.items()))) + return kwargs_without_prefix, kwargs + + +# activations + +class ReluSquared(nn.Module): + def forward(self, x): + return F.relu(x) ** 2 + + +# positional embeddings + +class AbsolutePositionalEmbedding(nn.Module): + def __init__(self, dim, max_seq_len): + super().__init__() + self.scale = dim ** -0.5 + self.emb = nn.Embedding(max_seq_len, dim) + + def forward(self, x): + n = torch.arange(x.shape[1], device=x.device) + pos_emb = self.emb(n) + pos_emb = rearrange(pos_emb, 'n d -> () n d') + return pos_emb * self.scale + + +class FixedPositionalEmbedding(nn.Module): + def __init__(self, dim): + super().__init__() + inv_freq = 1. / (10000 ** (torch.arange(0, dim, 2).float() / dim)) + self.register_buffer('inv_freq', inv_freq) + + def forward(self, x, seq_dim=1, offset=0): + t = torch.arange(x.shape[seq_dim], device=x.device).type_as(self.inv_freq) + offset + sinusoid_inp = torch.einsum('i , j -> i j', t, self.inv_freq) + emb = torch.cat((sinusoid_inp.sin(), sinusoid_inp.cos()), dim=-1) + return rearrange(emb, 'n d -> () n d') + + +class RelativePositionBias(nn.Module): + def __init__(self, scale, causal=False, num_buckets=32, max_distance=128, heads=8): + super().__init__() + self.scale = scale + self.causal = causal + self.num_buckets = num_buckets + self.max_distance = max_distance + self.relative_attention_bias = nn.Embedding(num_buckets, heads) + + @staticmethod + def _relative_position_bucket(relative_position, causal=True, num_buckets=32, max_distance=128): + ret = 0 + n = -relative_position + if not causal: + num_buckets //= 2 + ret += (n < 0).long() * num_buckets + n = torch.abs(n) + else: + n = torch.max(n, torch.zeros_like(n)) + + max_exact = num_buckets // 2 + is_small = n < max_exact + + val_if_large = max_exact + ( + torch.log(n.float() / max_exact) / math.log(max_distance / max_exact) * (num_buckets - max_exact) + ).long() + val_if_large = torch.min(val_if_large, torch.full_like(val_if_large, num_buckets - 1)) + + ret += torch.where(is_small, n, val_if_large) + return ret + + def forward(self, qk_dots): + i, j, device = *qk_dots.shape[-2:], qk_dots.device + q_pos = torch.arange(i, dtype=torch.long, device=device) + k_pos = torch.arange(j, dtype=torch.long, device=device) + rel_pos = k_pos[None, :] - q_pos[:, None] + rp_bucket = self._relative_position_bucket(rel_pos, causal=self.causal, num_buckets=self.num_buckets, + max_distance=self.max_distance) + values = self.relative_attention_bias(rp_bucket) + bias = rearrange(values, 'i j h -> () h i j') + return qk_dots + (bias * self.scale) + + +class AlibiPositionalBias(nn.Module): + def __init__(self, heads, **kwargs): + super().__init__() + self.heads = heads + slopes = torch.Tensor(self._get_slopes(heads)) + slopes = rearrange(slopes, 'h -> () h () ()') + self.register_buffer('slopes', slopes, persistent=False) + self.register_buffer('bias', None, persistent=False) + + @staticmethod + def _get_slopes(heads): + def get_slopes_power_of_2(n): + start = (2 ** (-2 ** -(math.log2(n) - 3))) + ratio = start + return [start * ratio ** i for i in range(n)] + + if math.log2(heads).is_integer(): + return get_slopes_power_of_2(heads) + + closest_power_of_2 = 2 ** math.floor(math.log2(heads)) + return get_slopes_power_of_2(closest_power_of_2) + get_slopes_power_of_2(2 * closest_power_of_2)[0::2][ + :heads - closest_power_of_2] + + def forward(self, qk_dots): + h, i, j, device = *qk_dots.shape[-3:], qk_dots.device + + if exists(self.bias) and self.bias.shape[-1] >= j: + return qk_dots + self.bias[..., :j] + + bias = torch.arange(j, device=device) + bias = rearrange(bias, 'j -> () () () j') + bias = bias * self.slopes + + num_heads_unalibied = h - bias.shape[1] + bias = F.pad(bias, (0, 0, 0, 0, 0, num_heads_unalibied)) + + self.register_buffer('bias', bias, persistent=False) + return qk_dots + self.bias + + +class LearnedAlibiPositionalBias(AlibiPositionalBias): + def __init__(self, heads, bidirectional=False): + super().__init__(heads) + los_slopes = torch.log(self.slopes) + self.learned_logslopes = nn.Parameter(los_slopes) + + self.bidirectional = bidirectional + if self.bidirectional: + self.learned_logslopes_future = nn.Parameter(los_slopes) + + def forward(self, qk_dots): + h, i, j, device = *qk_dots.shape[-3:], qk_dots.device + + def get_slopes(param): + return F.pad(param.exp(), (0, 0, 0, 0, 0, h - param.shape[1])) + + if exists(self.bias) and self.bias.shape[-1] >= j: + bias = self.bias[..., :i, :j] + else: + i_arange = torch.arange(i, device=device) + j_arange = torch.arange(j, device=device) + bias = rearrange(j_arange, 'j -> 1 1 1 j') - rearrange(i_arange, 'i -> 1 1 i 1') + self.register_buffer('bias', bias, persistent=False) + + if self.bidirectional: + past_slopes = get_slopes(self.learned_logslopes) + future_slopes = get_slopes(self.learned_logslopes_future) + bias = torch.tril(bias * past_slopes) + torch.triu(bias * future_slopes) + else: + slopes = get_slopes(self.learned_logslopes) + bias = bias * slopes + + return qk_dots + bias + + +class RotaryEmbedding(nn.Module): + def __init__(self, dim): + super().__init__() + inv_freq = 1. / (10000 ** (torch.arange(0, dim, 2).float() / dim)) + self.register_buffer('inv_freq', inv_freq) + + def forward(self, max_seq_len, device): + t = torch.arange(max_seq_len, device=device).type_as(self.inv_freq) + freqs = torch.einsum('i , j -> i j', t, self.inv_freq) + emb = torch.cat((freqs, freqs), dim=-1) + return rearrange(emb, 'n d -> () () n d') + + +def rotate_half(x): + x = rearrange(x, '... (j d) -> ... j d', j=2) + x1, x2 = x.unbind(dim=-2) + return torch.cat((-x2, x1), dim=-1) + + +def apply_rotary_pos_emb(t, freqs): + seq_len = t.shape[-2] + freqs = freqs[:, :, -seq_len:] + return (t * freqs.cos()) + (rotate_half(t) * freqs.sin()) + + +# norms + +class Scale(nn.Module): + def __init__(self, value, fn): + super().__init__() + self.value = value + self.fn = fn + + def forward(self, x, **kwargs): + out = self.fn(x, **kwargs) + scale_fn = lambda t: t * self.value + + if not isinstance(out, tuple): + return scale_fn(out) + + return (scale_fn(out[0]), *out[1:]) + + +class Rezero(nn.Module): + def __init__(self, fn): + super().__init__() + self.fn = fn + self.g = nn.Parameter(torch.zeros(1)) + + def forward(self, x, **kwargs): + out = self.fn(x, **kwargs) + rezero_fn = lambda t: t * self.g + + if not isinstance(out, tuple): + return rezero_fn(out) + + return (rezero_fn(out[0]), *out[1:]) + + +class ScaleNorm(nn.Module): + def __init__(self, dim, eps=1e-5): + super().__init__() + self.scale = dim ** -0.5 + self.eps = eps + self.g = nn.Parameter(torch.ones(1)) + + def forward(self, x): + norm = torch.norm(x, dim=-1, keepdim=True) * self.scale + return x / norm.clamp(min=self.eps) * self.g + + +class RMSNorm(nn.Module): + def __init__(self, dim, eps=1e-8): + super().__init__() + self.scale = dim ** -0.5 + self.eps = eps + self.g = nn.Parameter(torch.ones(dim)) + + def forward(self, x): + norm = torch.norm(x, dim=-1, keepdim=True) * self.scale + return x / norm.clamp(min=self.eps) * self.g + + +class RMSScaleShiftNorm(nn.Module): + def __init__(self, dim, eps=1e-8): + super().__init__() + self.scale = dim ** -0.5 + self.eps = eps + self.g = nn.Parameter(torch.ones(dim)) + self.scale_shift_process = nn.Linear(dim * 2, dim * 2) + + def forward(self, x, norm_scale_shift_inp): + norm = torch.norm(x, dim=-1, keepdim=True) * self.scale + norm = x / norm.clamp(min=self.eps) * self.g + + ss_emb = self.scale_shift_process(norm_scale_shift_inp) + scale, shift = torch.chunk(ss_emb, 2, dim=1) + h = norm * (1 + scale.unsqueeze(1)) + shift.unsqueeze(1) + return h + + +# residual and residual gates + +class Residual(nn.Module): + def __init__(self, dim, scale_residual=False): + super().__init__() + self.residual_scale = nn.Parameter(torch.ones(dim)) if scale_residual else None + + def forward(self, x, residual): + if exists(self.residual_scale): + residual = residual * self.residual_scale + + return x + residual + + +class GRUGating(nn.Module): + def __init__(self, dim, scale_residual=False): + super().__init__() + self.gru = nn.GRUCell(dim, dim) + self.residual_scale = nn.Parameter(torch.ones(dim)) if scale_residual else None + + def forward(self, x, residual): + if exists(self.residual_scale): + residual = residual * self.residual_scale + + gated_output = self.gru( + rearrange(x, 'b n d -> (b n) d'), + rearrange(residual, 'b n d -> (b n) d') + ) + + return gated_output.reshape_as(x) + + +# token shifting + +def shift(t, amount, mask=None): + if amount == 0: + return t + + if exists(mask): + t = t.masked_fill(~mask[..., None], 0.) + + return F.pad(t, (0, 0, amount, -amount), value=0.) + + +class ShiftTokens(nn.Module): + def __init__(self, shifts, fn): + super().__init__() + self.fn = fn + self.shifts = tuple(shifts) + + def forward(self, x, **kwargs): + mask = kwargs.get('mask', None) + shifts = self.shifts + segments = len(shifts) + feats_per_shift = x.shape[-1] // segments + splitted = x.split(feats_per_shift, dim=-1) + segments_to_shift, rest = splitted[:segments], splitted[segments:] + segments_to_shift = list(map(lambda args: shift(*args, mask=mask), zip(segments_to_shift, shifts))) + x = torch.cat((*segments_to_shift, *rest), dim=-1) + return self.fn(x, **kwargs) + + +# feedforward + +class GLU(nn.Module): + def __init__(self, dim_in, dim_out, activation): + super().__init__() + self.act = activation + self.proj = nn.Linear(dim_in, dim_out * 2) + + def forward(self, x): + x, gate = self.proj(x).chunk(2, dim=-1) + return x * self.act(gate) + + +class FeedForward(nn.Module): + def __init__( + self, + dim, + dim_out=None, + mult=4, + glu=False, + relu_squared=False, + post_act_ln=False, + dropout=0., + zero_init_output=False + ): + super().__init__() + inner_dim = int(dim * mult) + dim_out = default(dim_out, dim) + activation = ReluSquared() if relu_squared else nn.GELU() + + project_in = nn.Sequential( + nn.Linear(dim, inner_dim), + activation + ) if not glu else GLU(dim, inner_dim, activation) + + self.net = nn.Sequential( + project_in, + nn.LayerNorm(inner_dim) if post_act_ln else nn.Identity(), + nn.Dropout(dropout), + nn.Linear(inner_dim, dim_out) + ) + + # init last linear layer to 0 + if zero_init_output: + init_zero_(self.net[-1]) + + def forward(self, x): + return self.net(x) + + +# attention. + +class Attention(nn.Module): + def __init__( + self, + dim, + dim_head=DEFAULT_DIM_HEAD, + heads=8, + causal=False, + talking_heads=False, + head_scale=False, + collab_heads=False, + collab_compression=.3, + sparse_topk=None, + use_entmax15=False, + num_mem_kv=0, + dropout=0., + on_attn=False, + gate_values=False, + zero_init_output=False, + max_attend_past=None, + qk_norm=False, + scale_init_value=None, + rel_pos_bias=False, + rel_pos_num_buckets=32, + rel_pos_max_distance=128, + ): + super().__init__() + self.scale = dim_head ** -0.5 + + self.heads = heads + self.causal = causal + self.max_attend_past = max_attend_past + + qk_dim = v_dim = dim_head * heads + + # collaborative heads + self.collab_heads = collab_heads + if self.collab_heads: + qk_dim = int(collab_compression * qk_dim) + self.collab_mixing = nn.Parameter(torch.randn(heads, qk_dim)) + + self.to_q = nn.Linear(dim, qk_dim, bias=False) + self.to_k = nn.Linear(dim, qk_dim, bias=False) + self.to_v = nn.Linear(dim, v_dim, bias=False) + + self.dropout = nn.Dropout(dropout) + + # add GLU gating for aggregated values, from alphafold2 + self.to_v_gate = None + if gate_values: + self.to_v_gate = nn.Linear(dim, v_dim) + nn.init.constant_(self.to_v_gate.weight, 0) + nn.init.constant_(self.to_v_gate.bias, 1) + + # cosine sim attention + self.qk_norm = qk_norm + if qk_norm: + scale_init_value = default(scale_init_value, + -3) # if not provided, initialize as though it were sequence length of 1024 + self.scale = nn.Parameter(torch.ones(1, heads, 1, 1) * scale_init_value) + + # talking heads + self.talking_heads = talking_heads + if talking_heads: + self.pre_softmax_proj = nn.Parameter(torch.randn(heads, heads)) + self.post_softmax_proj = nn.Parameter(torch.randn(heads, heads)) + + # head scaling + self.head_scale = head_scale + if head_scale: + self.head_scale_params = nn.Parameter(torch.ones(1, heads, 1, 1)) + + # explicit topk sparse attention + self.sparse_topk = sparse_topk + + # entmax + self.attn_fn = F.softmax + + # add memory key / values + self.num_mem_kv = num_mem_kv + if num_mem_kv > 0: + self.mem_k = nn.Parameter(torch.randn(heads, num_mem_kv, dim_head)) + self.mem_v = nn.Parameter(torch.randn(heads, num_mem_kv, dim_head)) + + # attention on attention + self.attn_on_attn = on_attn + self.to_out = nn.Sequential(nn.Linear(v_dim, dim * 2), nn.GLU()) if on_attn else nn.Linear(v_dim, dim) + + self.rel_pos_bias = rel_pos_bias + if rel_pos_bias: + assert rel_pos_num_buckets <= rel_pos_max_distance, 'number of relative position buckets must be less than the relative position max distance' + self.rel_pos = RelativePositionBias(scale=dim_head ** 0.5, causal=causal, heads=heads, + num_buckets=rel_pos_num_buckets, max_distance=rel_pos_max_distance) + + # init output projection 0 + if zero_init_output: + init_zero_(self.to_out) + + def forward( + self, + x, + context=None, + mask=None, + context_mask=None, + attn_mask=None, + sinusoidal_emb=None, + rotary_pos_emb=None, + prev_attn=None, + mem=None, + layer_past=None, + ): + b, n, _, h, talking_heads, collab_heads, head_scale, scale, device, has_context = *x.shape, self.heads, self.talking_heads, self.collab_heads, self.head_scale, self.scale, x.device, exists( + context) + kv_input = default(context, x) + + q_input = x + k_input = kv_input + v_input = kv_input + + if exists(mem): + k_input = torch.cat((mem, k_input), dim=-2) + v_input = torch.cat((mem, v_input), dim=-2) + + if exists(sinusoidal_emb): + # in shortformer, the query would start at a position offset depending on the past cached memory + offset = k_input.shape[-2] - q_input.shape[-2] + q_input = q_input + sinusoidal_emb(q_input, offset=offset) + k_input = k_input + sinusoidal_emb(k_input) + + q = self.to_q(q_input) + k = self.to_k(k_input) + v = self.to_v(v_input) + + if not collab_heads: + q, k, v = map(lambda t: rearrange(t, 'b n (h d) -> b h n d', h=h), (q, k, v)) + else: + q = einsum('b i d, h d -> b h i d', q, self.collab_mixing) + k = rearrange(k, 'b n d -> b () n d') + v = rearrange(v, 'b n (h d) -> b h n d', h=h) + + if layer_past is not None: + past_key, past_value = layer_past + k = torch.cat([past_key, k], dim=-2) + v = torch.cat([past_value, v], dim=-2) + k_cache = k + v_cache = v + + if exists(rotary_pos_emb) and not has_context: + l = rotary_pos_emb.shape[-1] + (ql, qr), (kl, kr), (vl, vr) = map(lambda t: (t[..., :l], t[..., l:]), (q, k, v)) + ql, kl, vl = map(lambda t: apply_rotary_pos_emb(t, rotary_pos_emb), (ql, kl, vl)) + q, k, v = map(lambda t: torch.cat(t, dim=-1), ((ql, qr), (kl, kr), (vl, vr))) + + input_mask = None + if any(map(exists, (mask, context_mask))): + q_mask = default(mask, lambda: torch.ones((b, n), device=device).bool()) + k_mask = q_mask if not exists(context) else context_mask + k_mask = default(k_mask, lambda: torch.ones((b, k.shape[-2]), device=device).bool()) + q_mask = rearrange(q_mask, 'b i -> b () i ()') + k_mask = rearrange(k_mask, 'b j -> b () () j') + input_mask = q_mask * k_mask + + if self.num_mem_kv > 0: + mem_k, mem_v = map(lambda t: repeat(t, 'h n d -> b h n d', b=b), (self.mem_k, self.mem_v)) + k = torch.cat((mem_k, k), dim=-2) + v = torch.cat((mem_v, v), dim=-2) + if exists(input_mask): + input_mask = F.pad(input_mask, (self.num_mem_kv, 0), value=True) + + if collab_heads: + k = k.expand(-1, h, -1, -1) + + if self.qk_norm: + q, k = map(l2norm, (q, k)) + scale = 1 / (self.scale.exp().clamp(min=1e-2)) + + dots = einsum('b h i d, b h j d -> b h i j', q, k) * scale + mask_value = max_neg_value(dots) + + if exists(prev_attn): + dots = dots + prev_attn + + pre_softmax_attn = dots.clone() + + if talking_heads: + dots = einsum('b h i j, h k -> b k i j', dots, self.pre_softmax_proj).contiguous() + + if self.rel_pos_bias: + dots = self.rel_pos(dots) + + if exists(input_mask): + dots.masked_fill_(~input_mask, mask_value) + del input_mask + + if exists(attn_mask): + assert 2 <= attn_mask.ndim <= 4, 'attention mask must have greater than 2 dimensions but less than or equal to 4' + if attn_mask.ndim == 2: + attn_mask = rearrange(attn_mask, 'i j -> () () i j') + elif attn_mask.ndim == 3: + attn_mask = rearrange(attn_mask, 'h i j -> () h i j') + dots.masked_fill_(~attn_mask, mask_value) + + if exists(self.max_attend_past): + i, j = dots.shape[-2:] + range_q = torch.arange(j - i, j, device=device) + range_k = torch.arange(j, device=device) + dist = rearrange(range_q, 'i -> () () i ()') - rearrange(range_k, 'j -> () () () j') + mask = dist > self.max_attend_past + dots.masked_fill_(mask, mask_value) + del mask + + if self.causal: + i, j = dots.shape[-2:] + r = torch.arange(i, device=device) + mask = rearrange(r, 'i -> () () i ()') < rearrange(r, 'j -> () () () j') + mask = F.pad(mask, (j - i, 0), value=False) + dots.masked_fill_(mask, mask_value) + del mask + + if exists(self.sparse_topk) and self.sparse_topk < dots.shape[-1]: + top, _ = dots.topk(self.sparse_topk, dim=-1) + vk = top[..., -1].unsqueeze(-1).expand_as(dots) + mask = dots < vk + dots.masked_fill_(mask, mask_value) + del mask + + attn = self.attn_fn(dots, dim=-1) + post_softmax_attn = attn.clone() + + attn = self.dropout(attn) + + if talking_heads: + attn = einsum('b h i j, h k -> b k i j', attn, self.post_softmax_proj).contiguous() + + out = einsum('b h i j, b h j d -> b h i d', attn, v) + + if head_scale: + out = out * self.head_scale_params + + out = rearrange(out, 'b h n d -> b n (h d)') + + if exists(self.to_v_gate): + gates = self.to_v_gate(x) + out = out * gates.sigmoid() + + intermediates = Intermediates( + pre_softmax_attn=pre_softmax_attn, + post_softmax_attn=post_softmax_attn + ) + + return self.to_out(out), intermediates, k_cache, v_cache + + +class AttentionLayers(nn.Module): + def __init__( + self, + dim, + depth, + heads=8, + causal=False, + cross_attend=False, + only_cross=False, + use_scalenorm=False, + use_rms_scaleshift_norm=False, + use_rmsnorm=False, + use_rezero=False, + alibi_pos_bias=False, + alibi_num_heads=None, + alibi_learned=False, + position_infused_attn=False, + rotary_pos_emb=False, + rotary_emb_dim=None, + custom_layers=None, + sandwich_coef=None, + par_ratio=None, + residual_attn=False, + cross_residual_attn=False, + macaron=False, + pre_norm=True, + gate_residual=False, + scale_residual=False, + shift_tokens=0, + sandwich_norm=False, + use_qk_norm_attn=False, + qk_norm_attn_seq_len=None, + zero_init_branch_output=False, + **kwargs + ): + super().__init__() + ff_kwargs, kwargs = groupby_prefix_and_trim('ff_', kwargs) + attn_kwargs, _ = groupby_prefix_and_trim('attn_', kwargs) + + dim_head = attn_kwargs.get('dim_head', DEFAULT_DIM_HEAD) + + self.dim = dim + self.depth = depth + self.layers = nn.ModuleList([]) + self.causal = causal + + rel_pos_bias = 'rel_pos_bias' in attn_kwargs + self.has_pos_emb = position_infused_attn or rel_pos_bias or rotary_pos_emb + self.pia_pos_emb = FixedPositionalEmbedding(dim) if position_infused_attn else None + + rotary_emb_dim = max(default(rotary_emb_dim, dim_head // 2), 32) + self.rotary_pos_emb = RotaryEmbedding(rotary_emb_dim) if rotary_pos_emb else None + + assert not ( + alibi_pos_bias and rel_pos_bias), 'you can only choose Alibi positional bias or T5 relative positional bias, not both' + + if alibi_pos_bias: + alibi_num_heads = default(alibi_num_heads, heads) + assert alibi_num_heads <= heads, 'number of ALiBi heads must be less than the total number of heads' + alibi_pos_klass = LearnedAlibiPositionalBias if alibi_learned or not causal else AlibiPositionalBias + self.rel_pos = alibi_pos_klass(heads=alibi_num_heads, bidirectional=not causal) + else: + self.rel_pos = None + + assert not (not pre_norm and sandwich_norm), 'sandwich norm cannot be used when not using prenorm' + self.pre_norm = pre_norm + self.sandwich_norm = sandwich_norm + + self.residual_attn = residual_attn + self.cross_residual_attn = cross_residual_attn + self.cross_attend = cross_attend + + norm_class = ScaleNorm if use_scalenorm else nn.LayerNorm + norm_class = RMSNorm if use_rmsnorm else norm_class + norm_class = RMSScaleShiftNorm if use_rms_scaleshift_norm else norm_class + norm_fn = partial(norm_class, dim) + + norm_fn = nn.Identity if use_rezero else norm_fn + branch_fn = Rezero if use_rezero else None + + if cross_attend and not only_cross: + default_block = ('a', 'c', 'f') + elif cross_attend and only_cross: + default_block = ('c', 'f') + else: + default_block = ('a', 'f') + + if macaron: + default_block = ('f',) + default_block + + # qk normalization + + if use_qk_norm_attn: + attn_scale_init_value = -math.log(math.log2(qk_norm_attn_seq_len ** 2 - qk_norm_attn_seq_len)) if exists( + qk_norm_attn_seq_len) else None + attn_kwargs = {**attn_kwargs, 'qk_norm': True, 'scale_init_value': attn_scale_init_value} + + # zero init + + if zero_init_branch_output: + attn_kwargs = {**attn_kwargs, 'zero_init_output': True} + ff_kwargs = {**ff_kwargs, 'zero_init_output': True} + + # calculate layer block order + + if exists(custom_layers): + layer_types = custom_layers + elif exists(par_ratio): + par_depth = depth * len(default_block) + assert 1 < par_ratio <= par_depth, 'par ratio out of range' + default_block = tuple(filter(not_equals('f'), default_block)) + par_attn = par_depth // par_ratio + depth_cut = par_depth * 2 // 3 # 2 / 3 attention layer cutoff suggested by PAR paper + par_width = (depth_cut + depth_cut // par_attn) // par_attn + assert len(default_block) <= par_width, 'default block is too large for par_ratio' + par_block = default_block + ('f',) * (par_width - len(default_block)) + par_head = par_block * par_attn + layer_types = par_head + ('f',) * (par_depth - len(par_head)) + elif exists(sandwich_coef): + assert sandwich_coef > 0 and sandwich_coef <= depth, 'sandwich coefficient should be less than the depth' + layer_types = ('a',) * sandwich_coef + default_block * (depth - sandwich_coef) + ('f',) * sandwich_coef + else: + layer_types = default_block * depth + + self.layer_types = layer_types + self.num_attn_layers = len(list(filter(equals('a'), layer_types))) + + # calculate token shifting + + shift_tokens = cast_tuple(shift_tokens, len(layer_types)) + + # iterate and construct layers + + for ind, (layer_type, layer_shift_tokens) in enumerate(zip(self.layer_types, shift_tokens)): + is_last_layer = ind == (len(self.layer_types) - 1) + + if layer_type == 'a': + layer = Attention(dim, heads=heads, causal=causal, **attn_kwargs) + elif layer_type == 'c': + layer = Attention(dim, heads=heads, **attn_kwargs) + elif layer_type == 'f': + layer = FeedForward(dim, **ff_kwargs) + layer = layer if not macaron else Scale(0.5, layer) + else: + raise Exception(f'invalid layer type {layer_type}') + + if layer_shift_tokens > 0: + shift_range_upper = layer_shift_tokens + 1 + shift_range_lower = -layer_shift_tokens if not causal else 0 + layer = ShiftTokens(range(shift_range_lower, shift_range_upper), layer) + + if exists(branch_fn): + layer = branch_fn(layer) + + residual_fn = GRUGating if gate_residual else Residual + residual = residual_fn(dim, scale_residual=scale_residual) + + layer_uses_qk_norm = use_qk_norm_attn and layer_type in ('a', 'c') + + pre_branch_norm = norm_fn() if pre_norm and not layer_uses_qk_norm else None + post_branch_norm = norm_fn() if sandwich_norm or layer_uses_qk_norm else None + post_main_norm = norm_fn() if not pre_norm and not is_last_layer else None + + norms = nn.ModuleList([ + pre_branch_norm, + post_branch_norm, + post_main_norm + ]) + + self.layers.append(nn.ModuleList([ + norms, + layer, + residual + ])) + + def forward( + self, + x, + context=None, + full_context=None, # for passing a list of hidden states from an encoder + mask=None, + context_mask=None, + attn_mask=None, + mems=None, + return_hiddens=False, + norm_scale_shift_inp=None, + past_key_values=None, + expected_seq_len=None, + ): + + assert not (self.cross_attend ^ (exists(context) or exists( + full_context))), 'context must be passed in if cross_attend is set to True' + assert context is None or full_context is None, 'only one of full_context or context can be provided' + + hiddens = [] + intermediates = [] + prev_attn = None + prev_cross_attn = None + + mems = mems.copy() if exists(mems) else [None] * self.num_attn_layers + norm_args = {} + if exists(norm_scale_shift_inp): + norm_args['norm_scale_shift_inp'] = norm_scale_shift_inp + + rotary_pos_emb = None + if exists(self.rotary_pos_emb): + if not self.training and self.causal: + assert expected_seq_len is not None, "To decode a transformer with rotary embeddings, you must specify an `expected_seq_len`" + elif expected_seq_len is None: + expected_seq_len = 0 + seq_len = x.shape[1] + if past_key_values is not None: + seq_len += past_key_values[0][0].shape[-2] + max_rotary_emb_length = max(list(map(lambda m: (m.shape[1] if exists(m) else 0) + seq_len, mems)) + [expected_seq_len]) + rotary_pos_emb = self.rotary_pos_emb(max_rotary_emb_length, x.device) + + present_key_values = [] + cross_attn_count = 0 + for ind, (layer_type, (norm, block, residual_fn)) in enumerate(zip(self.layer_types, self.layers)): + if layer_type == 'a': + layer_mem = mems.pop(0) if mems else None + + residual = x + + pre_branch_norm, post_branch_norm, post_main_norm = norm + + if exists(pre_branch_norm): + x = pre_branch_norm(x, **norm_args) + + if layer_type == 'a' or layer_type == 'c': + if past_key_values is not None: + layer_kv = past_key_values.pop(0) + layer_past = tuple(s.to(x.device) for s in layer_kv) + else: + layer_past = None + + if layer_type == 'a': + out, inter, k, v = block(x, None, mask, None, attn_mask, self.pia_pos_emb, rotary_pos_emb, + prev_attn, layer_mem, layer_past) + elif layer_type == 'c': + if exists(full_context): + out, inter, k, v = block(x, full_context[cross_attn_count], mask, context_mask, None, None, + None, prev_attn, None, layer_past) + else: + out, inter, k, v = block(x, context, mask, context_mask, None, None, None, prev_attn, None, layer_past) + elif layer_type == 'f': + out = block(x) + + if layer_type == 'a' or layer_type == 'c' and present_key_values is not None: + present_key_values.append((k.detach(), v.detach())) + + if exists(post_branch_norm): + out = post_branch_norm(out, **norm_args) + + x = residual_fn(out, residual) + + if layer_type in ('a', 'c'): + intermediates.append(inter) + + if layer_type == 'a' and self.residual_attn: + prev_attn = inter.pre_softmax_attn + elif layer_type == 'c' and self.cross_residual_attn: + prev_cross_attn = inter.pre_softmax_attn + + if exists(post_main_norm): + x = post_main_norm(x, **norm_args) + + if layer_type == 'c': + cross_attn_count += 1 + + if layer_type == 'f': + hiddens.append(x) + + if return_hiddens: + intermediates = LayerIntermediates( + hiddens=hiddens, + attn_intermediates=intermediates, + past_key_values=present_key_values + ) + + return x, intermediates + + return x + + +class Encoder(AttentionLayers): + def __init__(self, **kwargs): + assert 'causal' not in kwargs, 'cannot set causality on encoder' + super().__init__(causal=False, **kwargs) + + +class Decoder(AttentionLayers): + def __init__(self, **kwargs): + assert 'causal' not in kwargs, 'cannot set causality on decoder' + super().__init__(causal=True, **kwargs) + + +class CrossAttender(AttentionLayers): + def __init__(self, **kwargs): + super().__init__(cross_attend=True, only_cross=True, **kwargs) + + +class ViTransformerWrapper(nn.Module): + def __init__( + self, + *, + image_size, + patch_size, + attn_layers, + num_classes=None, + dropout=0., + emb_dropout=0. + ): + super().__init__() + assert isinstance(attn_layers, Encoder), 'attention layers must be an Encoder' + assert image_size % patch_size == 0, 'image dimensions must be divisible by the patch size' + dim = attn_layers.dim + num_patches = (image_size // patch_size) ** 2 + patch_dim = 3 * patch_size ** 2 + + self.patch_size = patch_size + + self.pos_embedding = nn.Parameter(torch.randn(1, num_patches + 1, dim)) + self.patch_to_embedding = nn.Linear(patch_dim, dim) + self.cls_token = nn.Parameter(torch.randn(1, 1, dim)) + self.dropout = nn.Dropout(emb_dropout) + + self.attn_layers = attn_layers + self.norm = nn.LayerNorm(dim) + self.mlp_head = FeedForward(dim, dim_out=num_classes, dropout=dropout) if exists(num_classes) else None + + def forward( + self, + img, + return_embeddings=False + ): + p = self.patch_size + + x = rearrange(img, 'b c (h p1) (w p2) -> b (h w) (p1 p2 c)', p1=p, p2=p) + x = self.patch_to_embedding(x) + b, n, _ = x.shape + + cls_tokens = repeat(self.cls_token, '() n d -> b n d', b=b) + x = torch.cat((cls_tokens, x), dim=1) + x = x + self.pos_embedding[:, :(n + 1)] + x = self.dropout(x) + + x = self.attn_layers(x) + x = self.norm(x) + + if not exists(self.mlp_head) or return_embeddings: + return x + + return self.mlp_head(x[:, 0]) + + +class TransformerWrapper(nn.Module): + def __init__( + self, + *, + num_tokens, + max_seq_len, + attn_layers, + emb_dim=None, + max_mem_len=0., + shift_mem_down=0, + emb_dropout=0., + num_memory_tokens=None, + tie_embedding=False, + use_pos_emb=True + ): + super().__init__() + assert isinstance(attn_layers, AttentionLayers), 'attention layers must be one of Encoder or Decoder' + + dim = attn_layers.dim + emb_dim = default(emb_dim, dim) + + self.max_seq_len = max_seq_len + self.max_mem_len = max_mem_len + self.shift_mem_down = shift_mem_down + + self.token_emb = nn.Embedding(num_tokens, emb_dim) + self.pos_emb = AbsolutePositionalEmbedding(emb_dim, max_seq_len) if ( + use_pos_emb and not attn_layers.has_pos_emb) else always(0) + self.emb_dropout = nn.Dropout(emb_dropout) + + self.project_emb = nn.Linear(emb_dim, dim) if emb_dim != dim else nn.Identity() + self.attn_layers = attn_layers + self.norm = nn.LayerNorm(dim) + + self.init_() + + self.to_logits = nn.Linear(dim, num_tokens) if not tie_embedding else lambda t: t @ self.token_emb.weight.t() + + # memory tokens (like [cls]) from Memory Transformers paper + num_memory_tokens = default(num_memory_tokens, 0) + self.num_memory_tokens = num_memory_tokens + if num_memory_tokens > 0: + self.memory_tokens = nn.Parameter(torch.randn(num_memory_tokens, dim)) + + def init_(self): + nn.init.kaiming_normal_(self.token_emb.weight) + + def forward( + self, + x, + return_embeddings=False, + mask=None, + return_hiddens=False, + return_attn=False, + mems=None, + use_cache=False, + **kwargs + ): + b, n, device, num_mem = *x.shape, x.device, self.num_memory_tokens + x = self.token_emb(x) + x = x + self.pos_emb(x) + x = self.emb_dropout(x) + + x = self.project_emb(x) + + if num_mem > 0: + mem = repeat(self.memory_tokens, 'n d -> b n d', b=b) + x = torch.cat((mem, x), dim=1) + + # auto-handle masking after appending memory tokens + if exists(mask): + mask = F.pad(mask, (num_mem, 0), value=True) + + if self.shift_mem_down and exists(mems): + mems_l, mems_r = mems[:self.shift_mem_down], mems[self.shift_mem_down:] + mems = [*mems_r, *mems_l] + + x, intermediates = self.attn_layers(x, mask=mask, mems=mems, return_hiddens=True, **kwargs) + x = self.norm(x) + + mem, x = x[:, :num_mem], x[:, num_mem:] + + out = self.to_logits(x) if not return_embeddings else x + + if return_hiddens: + hiddens = intermediates.hiddens + return out, hiddens + + res = [out] + if return_attn: + attn_maps = list(map(lambda t: t.post_softmax_attn, intermediates.attn_intermediates)) + res.append(attn_maps) + if use_cache: + res.append(intermediates.past_key_values) + + if len(res) > 1: + return tuple(res) + return res[0] + + +class ContinuousTransformerWrapper(nn.Module): + def __init__( + self, + *, + max_seq_len, + attn_layers, + dim_in=None, + dim_out=None, + emb_dim=None, + emb_dropout=0., + use_pos_emb=True + ): + super().__init__() + assert isinstance(attn_layers, AttentionLayers), 'attention layers must be one of Encoder or Decoder' + + dim = attn_layers.dim + + self.max_seq_len = max_seq_len + + self.pos_emb = AbsolutePositionalEmbedding(dim, max_seq_len) if ( + use_pos_emb and not attn_layers.has_pos_emb) else always(0) + self.emb_dropout = nn.Dropout(emb_dropout) + + self.project_in = nn.Linear(dim_in, dim) if exists(dim_in) else nn.Identity() + + self.attn_layers = attn_layers + self.norm = nn.LayerNorm(dim) + + self.project_out = nn.Linear(dim, dim_out) if exists(dim_out) else nn.Identity() + + def forward( + self, + x, + return_embeddings=False, + mask=None, + return_attn=False, + mems=None, + use_cache=False, + **kwargs + ): + b, n, _, device = *x.shape, x.device + + x = self.project_in(x) + x = x + self.pos_emb(x) + x = self.emb_dropout(x) + + x, intermediates = self.attn_layers(x, mask=mask, mems=mems, return_hiddens=True, **kwargs) + x = self.norm(x) + + out = self.project_out(x) if not return_embeddings else x + + res = [out] + if return_attn: + attn_maps = list(map(lambda t: t.post_softmax_attn, intermediates.attn_intermediates)) + res.append(attn_maps) + if use_cache: + res.append(intermediates.past_key_values) + + if len(res) > 1: + return tuple(res) + return res[0] + diff --git a/tortoise/read.py b/tortoise/read.py new file mode 100644 index 0000000000000000000000000000000000000000..e5839aa89522d4770ab3f53ef2aca5b7eb7eac84 --- /dev/null +++ b/tortoise/read.py @@ -0,0 +1,101 @@ +import argparse +import os +from time import time + +import torch +import torchaudio + +from api import TextToSpeech, MODELS_DIR +from utils.audio import load_audio, load_voices +from utils.text import split_and_recombine_text + + +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--textfile', type=str, help='A file containing the text to read.', default="tortoise/data/riding_hood.txt") + parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) ' + 'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='pat') + parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/longform/') + parser.add_argument('--output_name', type=str, help='How to name the output file', default='combined.wav') + parser.add_argument('--preset', type=str, help='Which voice preset to use.', default='standard') + parser.add_argument('--regenerate', type=str, help='Comma-separated list of clip numbers to re-generate, or nothing.', default=None) + parser.add_argument('--candidates', type=int, help='How many output candidates to produce per-voice. Only the first candidate is actually used in the final product, the others can be used manually.', default=1) + parser.add_argument('--model_dir', type=str, help='Where to find pretrained model checkpoints. Tortoise automatically downloads these to .models, so this' + 'should only be specified if you have custom checkpoints.', default=MODELS_DIR) + parser.add_argument('--seed', type=int, help='Random seed which can be used to reproduce results.', default=None) + parser.add_argument('--produce_debug_state', type=bool, help='Whether or not to produce debug_state.pth, which can aid in reproducing problems. Defaults to true.', default=True) + parser.add_argument('--use_deepspeed', type=bool, help='Use deepspeed for speed bump.', default=False) + parser.add_argument('--kv_cache', type=bool, help='If you disable this please wait for a long a time to get the output', default=True) + parser.add_argument('--half', type=bool, help="float16(half) precision inference if True it's faster and take less vram and ram", default=True) + + + args = parser.parse_args() + if torch.backends.mps.is_available(): + args.use_deepspeed = False + tts = TextToSpeech(models_dir=args.model_dir, use_deepspeed=args.use_deepspeed, kv_cache=args.kv_cache, half=args.half) + + outpath = args.output_path + outname = args.output_name + selected_voices = args.voice.split(',') + regenerate = args.regenerate + if regenerate is not None: + regenerate = [int(e) for e in regenerate.split(',')] + + # Process text + with open(args.textfile, 'r', encoding='utf-8') as f: + text = ' '.join([l for l in f.readlines()]) + if '|' in text: + print("Found the '|' character in your text, which I will use as a cue for where to split it up. If this was not" + "your intent, please remove all '|' characters from the input.") + texts = text.split('|') + else: + texts = split_and_recombine_text(text) + + seed = int(time()) if args.seed is None else args.seed + for selected_voice in selected_voices: + voice_outpath = os.path.join(outpath, selected_voice) + os.makedirs(voice_outpath, exist_ok=True) + + if '&' in selected_voice: + voice_sel = selected_voice.split('&') + else: + voice_sel = [selected_voice] + + voice_samples, conditioning_latents = load_voices(voice_sel) + all_parts = [] + for j, text in enumerate(texts): + if regenerate is not None and j not in regenerate: + all_parts.append(load_audio(os.path.join(voice_outpath, f'{j}.wav'), 24000)) + continue + gen = tts.tts_with_preset(text, voice_samples=voice_samples, conditioning_latents=conditioning_latents, + preset=args.preset, k=args.candidates, use_deterministic_seed=seed) + if args.candidates == 1: + audio_ = gen.squeeze(0).cpu() + torchaudio.save(os.path.join(voice_outpath, f'{j}.wav'), audio_, 24000) + else: + candidate_dir = os.path.join(voice_outpath, str(j)) + os.makedirs(candidate_dir, exist_ok=True) + for k, g in enumerate(gen): + torchaudio.save(os.path.join(candidate_dir, f'{k}.wav'), g.squeeze(0).cpu(), 24000) + audio_ = gen[0].squeeze(0).cpu() + all_parts.append(audio_) + + if args.candidates == 1: + full_audio = torch.cat(all_parts, dim=-1) + torchaudio.save(os.path.join(voice_outpath, f"{outname}.wav"), full_audio, 24000) + + if args.produce_debug_state: + os.makedirs('debug_states', exist_ok=True) + dbg_state = (seed, texts, voice_samples, conditioning_latents) + torch.save(dbg_state, f'debug_states/read_debug_{selected_voice}.pth') + + # Combine each candidate's audio clips. + if args.candidates > 1: + audio_clips = [] + for candidate in range(args.candidates): + for line in range(len(texts)): + wav_file = os.path.join(voice_outpath, str(line), f"{candidate}.wav") + audio_clips.append(load_audio(wav_file, 24000)) + audio_clips = torch.cat(audio_clips, dim=-1) + torchaudio.save(os.path.join(voice_outpath, f"{outname}_{candidate:02d}.wav"), audio_clips, 24000) + audio_clips = [] diff --git a/tortoise/read_fast.py b/tortoise/read_fast.py new file mode 100644 index 0000000000000000000000000000000000000000..f2778d4a9a1a020487afee7e8dbf92834e210fbc --- /dev/null +++ b/tortoise/read_fast.py @@ -0,0 +1,77 @@ +import argparse +import os +from time import time + +import torch +import torchaudio + +from api_fast import TextToSpeech, MODELS_DIR +from utils.audio import load_audio, load_voices +from utils.text import split_and_recombine_text + + +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--textfile', type=str, help='A file containing the text to read.', default="tortoise/data/riding_hood.txt") + parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) ' + 'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='lj') + parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/longform/') + parser.add_argument('--output_name', type=str, help='How to name the output file', default='combined.wav') + parser.add_argument('--preset', type=str, help='Which voice preset to use.', default='standard') + parser.add_argument('--regenerate', type=str, help='Comma-separated list of clip numbers to re-generate, or nothing.', default=None) + parser.add_argument('--model_dir', type=str, help='Where to find pretrained model checkpoints. Tortoise automatically downloads these to .models, so this' + 'should only be specified if you have custom checkpoints.', default=MODELS_DIR) + parser.add_argument('--seed', type=int, help='Random seed which can be used to reproduce results.', default=None) + parser.add_argument('--use_deepspeed', type=bool, help='Use deepspeed for speed bump.', default=False) + parser.add_argument('--kv_cache', type=bool, help='If you disable this please wait for a long a time to get the output', default=True) + parser.add_argument('--half', type=bool, help="float16(half) precision inference if True it's faster and take less vram and ram", default=True) + + + args = parser.parse_args() + if torch.backends.mps.is_available(): + args.use_deepspeed = False + tts = TextToSpeech(models_dir=args.model_dir, use_deepspeed=args.use_deepspeed, kv_cache=args.kv_cache, half=args.half) + + outpath = args.output_path + outname = args.output_name + selected_voices = args.voice.split(',') + regenerate = args.regenerate + if regenerate is not None: + regenerate = [int(e) for e in regenerate.split(',')] + + # Process text + with open(args.textfile, 'r', encoding='utf-8') as f: + text = ' '.join([l for l in f.readlines()]) + if '|' in text: + print("Found the '|' character in your text, which I will use as a cue for where to split it up. If this was not" + "your intent, please remove all '|' characters from the input.") + texts = text.split('|') + else: + texts = split_and_recombine_text(text) + + seed = int(time()) if args.seed is None else args.seed + for selected_voice in selected_voices: + voice_outpath = os.path.join(outpath, selected_voice) + os.makedirs(voice_outpath, exist_ok=True) + + if '&' in selected_voice: + voice_sel = selected_voice.split('&') + else: + voice_sel = [selected_voice] + + voice_samples, conditioning_latents = load_voices(voice_sel) + all_parts = [] + for j, text in enumerate(texts): + if regenerate is not None and j not in regenerate: + all_parts.append(load_audio(os.path.join(voice_outpath, f'{j}.wav'), 24000)) + continue + start_time = time() + gen = tts.tts(text, voice_samples=voice_samples, use_deterministic_seed=seed) + end_time = time() + audio_ = gen.squeeze(0).cpu() + print("Time taken to generate the audio: ", end_time - start_time, "seconds") + print("RTF: ", (end_time - start_time) / (audio_.shape[1] / 24000)) + torchaudio.save(os.path.join(voice_outpath, f'{j}.wav'), audio_, 24000) + all_parts.append(audio_) + full_audio = torch.cat(all_parts, dim=-1) + torchaudio.save(os.path.join(voice_outpath, f"{outname}.wav"), full_audio, 24000) diff --git a/tortoise/requirements.txt b/tortoise/requirements.txt new file mode 100644 index 0000000000000000000000000000000000000000..3a7bf67661a05e180cce26f46b05a656b4899075 --- /dev/null +++ b/tortoise/requirements.txt @@ -0,0 +1,25 @@ +tqdm +rotary_embedding_torch +transformers==4.31.0 +tokenizers +inflect +progressbar +einops==0.4.1 +unidecode +scipy +librosa==0.9.1 +ffmpeg +numpy +numba +torchaudio +threadpoolctl +llvmlite +appdirs +nbconvert==5.3.1 +tornado==4.2 +pydantic==1.9.1 +deepspeed==0.8.3 +py-cpuinfo +hjson +psutil +sounddevice diff --git a/tortoise/tts_stream.py b/tortoise/tts_stream.py new file mode 100644 index 0000000000000000000000000000000000000000..94eaff573493e7842bdad47145429f049fec2693 --- /dev/null +++ b/tortoise/tts_stream.py @@ -0,0 +1,85 @@ +import argparse +import os +from time import time + +import torch +import torchaudio + +from api_fast import TextToSpeech, MODELS_DIR +from utils.audio import load_audio, load_voices +from utils.text import split_and_recombine_text +import sounddevice as sd +import queue +import threading +def play_audio(audio_queue): + while True: + chunk = audio_queue.get() + if chunk is None: + break + sd.play(chunk.cpu().numpy(), samplerate=24000) + sd.wait() + +if __name__ == '__main__': + parser = argparse.ArgumentParser() + parser.add_argument('--textfile', type=str, help='A file containing the text to read.', default="tortoise/data/riding_hood.txt") + parser.add_argument('--voice', type=str, help='Selects the voice to use for generation. See options in voices/ directory (and add your own!) ' + 'Use the & character to join two voices together. Use a comma to perform inference on multiple voices.', default='lj') + parser.add_argument('--output_path', type=str, help='Where to store outputs.', default='results/longform/') + parser.add_argument('--output_name', type=str, help='How to name the output file', default='combined.wav') + parser.add_argument('--preset', type=str, help='Which voice preset to use.', default='standard') + parser.add_argument('--regenerate', type=str, help='Comma-separated list of clip numbers to re-generate, or nothing.', default=None) + parser.add_argument('--model_dir', type=str, help='Where to find pretrained model checkpoints. Tortoise automatically downloads these to .models, so this' + 'should only be specified if you have custom checkpoints.', default=MODELS_DIR) + parser.add_argument('--seed', type=int, help='Random seed which can be used to reproduce results.', default=None) + parser.add_argument('--use_deepspeed', type=bool, help='Use deepspeed for speed bump.', default=False) + parser.add_argument('--kv_cache', type=bool, help='If you disable this please wait for a long a time to get the output', default=True) + parser.add_argument('--half', type=bool, help="float16(half) precision inference if True it's faster and take less vram and ram", default=True) + + + args = parser.parse_args() + if torch.backends.mps.is_available(): + args.use_deepspeed = False + tts = TextToSpeech(models_dir=args.model_dir, use_deepspeed=args.use_deepspeed, kv_cache=args.kv_cache, half=args.half) + + outpath = args.output_path + outname = args.output_name + selected_voices = args.voice.split(',') + regenerate = args.regenerate + if regenerate is not None: + regenerate = [int(e) for e in regenerate.split(',')] + + # Process text + with open(args.textfile, 'r', encoding='utf-8') as f: + text = ' '.join([l for l in f.readlines()]) + if '|' in text: + print("Found the '|' character in your text, which I will use as a cue for where to split it up. If this was not" + "your intent, please remove all '|' characters from the input.") + texts = text.split('|') + else: + texts = split_and_recombine_text(text) + audio_queue = queue.Queue() + playback_thread = threading.Thread(target=play_audio, args=(audio_queue,)) + playback_thread.start() + + seed = int(time()) if args.seed is None else args.seed + for selected_voice in selected_voices: + voice_outpath = os.path.join(outpath, selected_voice) + os.makedirs(voice_outpath, exist_ok=True) + + if '&' in selected_voice: + voice_sel = selected_voice.split('&') + else: + voice_sel = [selected_voice] + + voice_samples, conditioning_latents = load_voices(voice_sel) + all_parts = [] + for j, text in enumerate(texts): + if regenerate is not None and j not in regenerate: + all_parts.append(load_audio(os.path.join(voice_outpath, f'{j}.wav'), 24000)) + continue + start_time = time() + audio_generator = tts.tts_stream(text, voice_samples=voice_samples, use_deterministic_seed=seed) + for wav_chunk in audio_generator: + audio_queue.put(wav_chunk) + audio_queue.put(None) + playback_thread.join() \ No newline at end of file diff --git a/tortoise/utils/__init__.py b/tortoise/utils/__init__.py new file mode 100644 index 0000000000000000000000000000000000000000..e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 diff --git a/tortoise/utils/audio.py b/tortoise/utils/audio.py new file mode 100644 index 0000000000000000000000000000000000000000..e2634357b970e5b129d416abe7325a9ce5b5826f --- /dev/null +++ b/tortoise/utils/audio.py @@ -0,0 +1,190 @@ +import os +from glob import glob + +import librosa +import torch +import torchaudio +import numpy as np +from scipy.io.wavfile import read + +from tortoise.utils.stft import STFT + + +BUILTIN_VOICES_DIR = os.path.join(os.path.dirname(os.path.realpath(__file__)), '../voices') + + +def load_wav_to_torch(full_path): + sampling_rate, data = read(full_path) + if data.dtype == np.int32: + norm_fix = 2 ** 31 + elif data.dtype == np.int16: + norm_fix = 2 ** 15 + elif data.dtype == np.float16 or data.dtype == np.float32: + norm_fix = 1. + else: + raise NotImplemented(f"Provided data dtype not supported: {data.dtype}") + return (torch.FloatTensor(data.astype(np.float32)) / norm_fix, sampling_rate) + + +def load_audio(audiopath, sampling_rate): + extension = os.path.splitext(audiopath)[1].casefold() + if extension == '.wav': + audio, lsr = load_wav_to_torch(audiopath) + elif extension == '.mp3': + audio, lsr = librosa.load(audiopath, sr=sampling_rate) + audio = torch.FloatTensor(audio) + else: + assert False, f"Unsupported audio format provided: {audiopath[-4:]}" + + # Remove any channel data. + if len(audio.shape) > 1: + if audio.shape[0] < 5: + audio = audio[0] + else: + assert audio.shape[1] < 5 + audio = audio[:, 0] + + if lsr != sampling_rate: + audio = torchaudio.functional.resample(audio, lsr, sampling_rate) + + # Check some assumptions about audio range. This should be automatically fixed in load_wav_to_torch, but might not be in some edge cases, where we should squawk. + # '2' is arbitrarily chosen since it seems like audio will often "overdrive" the [-1,1] bounds. + if torch.any(audio > 2) or not torch.any(audio < 0): + print(f"Error with {audiopath}. Max={audio.max()} min={audio.min()}") + audio.clip_(-1, 1) + + return audio.unsqueeze(0) + + +TACOTRON_MEL_MAX = 2.3143386840820312 +TACOTRON_MEL_MIN = -11.512925148010254 + + +def denormalize_tacotron_mel(norm_mel): + return ((norm_mel+1)/2)*(TACOTRON_MEL_MAX-TACOTRON_MEL_MIN)+TACOTRON_MEL_MIN + + +def normalize_tacotron_mel(mel): + return 2 * ((mel - TACOTRON_MEL_MIN) / (TACOTRON_MEL_MAX - TACOTRON_MEL_MIN)) - 1 + + +def dynamic_range_compression(x, C=1, clip_val=1e-5): + """ + PARAMS + ------ + C: compression factor + """ + return torch.log(torch.clamp(x, min=clip_val) * C) + + +def dynamic_range_decompression(x, C=1): + """ + PARAMS + ------ + C: compression factor used to compress + """ + return torch.exp(x) / C + + +def get_voices(extra_voice_dirs=[]): + dirs = [BUILTIN_VOICES_DIR] + extra_voice_dirs + voices = {} + for d in dirs: + subs = os.listdir(d) + for sub in subs: + subj = os.path.join(d, sub) + if os.path.isdir(subj): + voices[sub] = list(glob(f'{subj}/*.wav')) + list(glob(f'{subj}/*.mp3')) + list(glob(f'{subj}/*.pth')) + return voices + + +def load_voice(voice, extra_voice_dirs=[]): + if voice == 'random': + return None, None + + voices = get_voices(extra_voice_dirs) + paths = voices[voice] + if len(paths) == 1 and paths[0].endswith('.pth'): + return None, torch.load(paths[0]) + else: + conds = [] + for cond_path in paths: + c = load_audio(cond_path, 22050) + conds.append(c) + return conds, None + + +def load_voices(voices, extra_voice_dirs=[]): + latents = [] + clips = [] + for voice in voices: + if voice == 'random': + if len(voices) > 1: + print("Cannot combine a random voice with a non-random voice. Just using a random voice.") + return None, None + clip, latent = load_voice(voice, extra_voice_dirs) + if latent is None: + assert len(latents) == 0, "Can only combine raw audio voices or latent voices, not both. Do it yourself if you want this." + clips.extend(clip) + elif clip is None: + assert len(clips) == 0, "Can only combine raw audio voices or latent voices, not both. Do it yourself if you want this." + latents.append(latent) + if len(latents) == 0: + return clips, None + else: + latents_0 = torch.stack([l[0] for l in latents], dim=0).mean(dim=0) + latents_1 = torch.stack([l[1] for l in latents], dim=0).mean(dim=0) + latents = (latents_0,latents_1) + return None, latents + + +class TacotronSTFT(torch.nn.Module): + def __init__(self, filter_length=1024, hop_length=256, win_length=1024, + n_mel_channels=80, sampling_rate=22050, mel_fmin=0.0, + mel_fmax=8000.0): + super(TacotronSTFT, self).__init__() + self.n_mel_channels = n_mel_channels + self.sampling_rate = sampling_rate + self.stft_fn = STFT(filter_length, hop_length, win_length) + from librosa.filters import mel as librosa_mel_fn + mel_basis = librosa_mel_fn( + sr=sampling_rate, n_fft=filter_length, n_mels=n_mel_channels, fmin=mel_fmin, fmax=mel_fmax) + mel_basis = torch.from_numpy(mel_basis).float() + self.register_buffer('mel_basis', mel_basis) + + def spectral_normalize(self, magnitudes): + output = dynamic_range_compression(magnitudes) + return output + + def spectral_de_normalize(self, magnitudes): + output = dynamic_range_decompression(magnitudes) + return output + + def mel_spectrogram(self, y): + """Computes mel-spectrograms from a batch of waves + PARAMS + ------ + y: Variable(torch.FloatTensor) with shape (B, T) in range [-1, 1] + + RETURNS + ------- + mel_output: torch.FloatTensor of shape (B, n_mel_channels, T) + """ + assert(torch.min(y.data) >= -10) + assert(torch.max(y.data) <= 10) + y = torch.clip(y, min=-1, max=1) + + magnitudes, phases = self.stft_fn.transform(y) + magnitudes = magnitudes.data + mel_output = torch.matmul(self.mel_basis, magnitudes) + mel_output = self.spectral_normalize(mel_output) + return mel_output + + +def wav_to_univnet_mel(wav, do_normalization=False, device='cuda' if not torch.backends.mps.is_available() else 'mps'): + stft = TacotronSTFT(1024, 256, 1024, 100, 24000, 0, 12000) + stft = stft.to(device) + mel = stft.mel_spectrogram(wav) + if do_normalization: + mel = normalize_tacotron_mel(mel) + return mel diff --git a/tortoise/utils/diffusion.py b/tortoise/utils/diffusion.py new file mode 100644 index 0000000000000000000000000000000000000000..6d4d594d9fd68511e42c52afd271f1688f3f83f2 --- /dev/null +++ b/tortoise/utils/diffusion.py @@ -0,0 +1,1250 @@ +""" +This is an almost carbon copy of gaussian_diffusion.py from OpenAI's ImprovedDiffusion repo, which itself: + +This code started out as a PyTorch port of Ho et al's diffusion models: +https://github.com/hojonathanho/diffusion/blob/1e0dceb3b3495bbe19116a5e1b3596cd0706c543/diffusion_tf/diffusion_utils_2.py + +Docstrings have been added, as well as DDIM sampling and a new collection of beta schedules. +""" + +import enum +import math + +import numpy as np +import torch +import torch as th +from tqdm import tqdm + + +def normal_kl(mean1, logvar1, mean2, logvar2): + """ + Compute the KL divergence between two gaussians. + + Shapes are automatically broadcasted, so batches can be compared to + scalars, among other use cases. + """ + tensor = None + for obj in (mean1, logvar1, mean2, logvar2): + if isinstance(obj, th.Tensor): + tensor = obj + break + assert tensor is not None, "at least one argument must be a Tensor" + + # Force variances to be Tensors. Broadcasting helps convert scalars to + # Tensors, but it does not work for th.exp(). + logvar1, logvar2 = [ + x if isinstance(x, th.Tensor) else th.tensor(x).to(tensor) + for x in (logvar1, logvar2) + ] + + return 0.5 * ( + -1.0 + + logvar2 + - logvar1 + + th.exp(logvar1 - logvar2) + + ((mean1 - mean2) ** 2) * th.exp(-logvar2) + ) + + +def approx_standard_normal_cdf(x): + """ + A fast approximation of the cumulative distribution function of the + standard normal. + """ + return 0.5 * (1.0 + th.tanh(np.sqrt(2.0 / np.pi) * (x + 0.044715 * th.pow(x, 3)))) + + +def discretized_gaussian_log_likelihood(x, *, means, log_scales): + """ + Compute the log-likelihood of a Gaussian distribution discretizing to a + given image. + + :param x: the target images. It is assumed that this was uint8 values, + rescaled to the range [-1, 1]. + :param means: the Gaussian mean Tensor. + :param log_scales: the Gaussian log stddev Tensor. + :return: a tensor like x of log probabilities (in nats). + """ + assert x.shape == means.shape == log_scales.shape + centered_x = x - means + inv_stdv = th.exp(-log_scales) + plus_in = inv_stdv * (centered_x + 1.0 / 255.0) + cdf_plus = approx_standard_normal_cdf(plus_in) + min_in = inv_stdv * (centered_x - 1.0 / 255.0) + cdf_min = approx_standard_normal_cdf(min_in) + log_cdf_plus = th.log(cdf_plus.clamp(min=1e-12)) + log_one_minus_cdf_min = th.log((1.0 - cdf_min).clamp(min=1e-12)) + cdf_delta = cdf_plus - cdf_min + log_probs = th.where( + x < -0.999, + log_cdf_plus, + th.where(x > 0.999, log_one_minus_cdf_min, th.log(cdf_delta.clamp(min=1e-12))), + ) + assert log_probs.shape == x.shape + return log_probs + + +def mean_flat(tensor): + """ + Take the mean over all non-batch dimensions. + """ + return tensor.mean(dim=list(range(1, len(tensor.shape)))) + + +def get_named_beta_schedule(schedule_name, num_diffusion_timesteps): + """ + Get a pre-defined beta schedule for the given name. + + The beta schedule library consists of beta schedules which remain similar + in the limit of num_diffusion_timesteps. + Beta schedules may be added, but should not be removed or changed once + they are committed to maintain backwards compatibility. + """ + if schedule_name == "linear": + # Linear schedule from Ho et al, extended to work for any number of + # diffusion steps. + scale = 1000 / num_diffusion_timesteps + beta_start = scale * 0.0001 + beta_end = scale * 0.02 + return np.linspace( + beta_start, beta_end, num_diffusion_timesteps, dtype=np.float64 + ) + elif schedule_name == "cosine": + return betas_for_alpha_bar( + num_diffusion_timesteps, + lambda t: math.cos((t + 0.008) / 1.008 * math.pi / 2) ** 2, + ) + else: + raise NotImplementedError(f"unknown beta schedule: {schedule_name}") + + +def betas_for_alpha_bar(num_diffusion_timesteps, alpha_bar, max_beta=0.999): + """ + Create a beta schedule that discretizes the given alpha_t_bar function, + which defines the cumulative product of (1-beta) over time from t = [0,1]. + + :param num_diffusion_timesteps: the number of betas to produce. + :param alpha_bar: a lambda that takes an argument t from 0 to 1 and + produces the cumulative product of (1-beta) up to that + part of the diffusion process. + :param max_beta: the maximum beta to use; use values lower than 1 to + prevent singularities. + """ + betas = [] + for i in range(num_diffusion_timesteps): + t1 = i / num_diffusion_timesteps + t2 = (i + 1) / num_diffusion_timesteps + betas.append(min(1 - alpha_bar(t2) / alpha_bar(t1), max_beta)) + return np.array(betas) + + +class ModelMeanType(enum.Enum): + """ + Which type of output the model predicts. + """ + + PREVIOUS_X = 'previous_x' # the model predicts x_{t-1} + START_X = 'start_x' # the model predicts x_0 + EPSILON = 'epsilon' # the model predicts epsilon + + +class ModelVarType(enum.Enum): + """ + What is used as the model's output variance. + + The LEARNED_RANGE option has been added to allow the model to predict + values between FIXED_SMALL and FIXED_LARGE, making its job easier. + """ + + LEARNED = 'learned' + FIXED_SMALL = 'fixed_small' + FIXED_LARGE = 'fixed_large' + LEARNED_RANGE = 'learned_range' + + +class LossType(enum.Enum): + MSE = 'mse' # use raw MSE loss (and KL when learning variances) + RESCALED_MSE = 'rescaled_mse' # use raw MSE loss (with RESCALED_KL when learning variances) + KL = 'kl' # use the variational lower-bound + RESCALED_KL = 'rescaled_kl' # like KL, but rescale to estimate the full VLB + + def is_vb(self): + return self == LossType.KL or self == LossType.RESCALED_KL + + +class GaussianDiffusion: + """ + Utilities for training and sampling diffusion models. + + Ported directly from here, and then adapted over time to further experimentation. + https://github.com/hojonathanho/diffusion/blob/1e0dceb3b3495bbe19116a5e1b3596cd0706c543/diffusion_tf/diffusion_utils_2.py#L42 + + :param betas: a 1-D numpy array of betas for each diffusion timestep, + starting at T and going to 1. + :param model_mean_type: a ModelMeanType determining what the model outputs. + :param model_var_type: a ModelVarType determining how variance is output. + :param loss_type: a LossType determining the loss function to use. + :param rescale_timesteps: if True, pass floating point timesteps into the + model so that they are always scaled like in the + original paper (0 to 1000). + """ + + def __init__( + self, + *, + betas, + model_mean_type, + model_var_type, + loss_type, + rescale_timesteps=False, + conditioning_free=False, + conditioning_free_k=1, + ramp_conditioning_free=True, + ): + self.model_mean_type = ModelMeanType(model_mean_type) + self.model_var_type = ModelVarType(model_var_type) + self.loss_type = LossType(loss_type) + self.rescale_timesteps = rescale_timesteps + self.conditioning_free = conditioning_free + self.conditioning_free_k = conditioning_free_k + self.ramp_conditioning_free = ramp_conditioning_free + + # Use float64 for accuracy. + betas = np.array(betas, dtype=np.float64) + self.betas = betas + assert len(betas.shape) == 1, "betas must be 1-D" + assert (betas > 0).all() and (betas <= 1).all() + + self.num_timesteps = int(betas.shape[0]) + + alphas = 1.0 - betas + self.alphas_cumprod = np.cumprod(alphas, axis=0) + self.alphas_cumprod_prev = np.append(1.0, self.alphas_cumprod[:-1]) + self.alphas_cumprod_next = np.append(self.alphas_cumprod[1:], 0.0) + assert self.alphas_cumprod_prev.shape == (self.num_timesteps,) + + # calculations for diffusion q(x_t | x_{t-1}) and others + self.sqrt_alphas_cumprod = np.sqrt(self.alphas_cumprod) + self.sqrt_one_minus_alphas_cumprod = np.sqrt(1.0 - self.alphas_cumprod) + self.log_one_minus_alphas_cumprod = np.log(1.0 - self.alphas_cumprod) + self.sqrt_recip_alphas_cumprod = np.sqrt(1.0 / self.alphas_cumprod) + self.sqrt_recipm1_alphas_cumprod = np.sqrt(1.0 / self.alphas_cumprod - 1) + + # calculations for posterior q(x_{t-1} | x_t, x_0) + self.posterior_variance = ( + betas * (1.0 - self.alphas_cumprod_prev) / (1.0 - self.alphas_cumprod) + ) + # log calculation clipped because the posterior variance is 0 at the + # beginning of the diffusion chain. + self.posterior_log_variance_clipped = np.log( + np.append(self.posterior_variance[1], self.posterior_variance[1:]) + ) + self.posterior_mean_coef1 = ( + betas * np.sqrt(self.alphas_cumprod_prev) / (1.0 - self.alphas_cumprod) + ) + self.posterior_mean_coef2 = ( + (1.0 - self.alphas_cumprod_prev) + * np.sqrt(alphas) + / (1.0 - self.alphas_cumprod) + ) + + def q_mean_variance(self, x_start, t): + """ + Get the distribution q(x_t | x_0). + + :param x_start: the [N x C x ...] tensor of noiseless inputs. + :param t: the number of diffusion steps (minus 1). Here, 0 means one step. + :return: A tuple (mean, variance, log_variance), all of x_start's shape. + """ + mean = ( + _extract_into_tensor(self.sqrt_alphas_cumprod, t, x_start.shape) * x_start + ) + variance = _extract_into_tensor(1.0 - self.alphas_cumprod, t, x_start.shape) + log_variance = _extract_into_tensor( + self.log_one_minus_alphas_cumprod, t, x_start.shape + ) + return mean, variance, log_variance + + def q_sample(self, x_start, t, noise=None): + """ + Diffuse the data for a given number of diffusion steps. + + In other words, sample from q(x_t | x_0). + + :param x_start: the initial data batch. + :param t: the number of diffusion steps (minus 1). Here, 0 means one step. + :param noise: if specified, the split-out normal noise. + :return: A noisy version of x_start. + """ + if noise is None: + noise = th.randn_like(x_start) + assert noise.shape == x_start.shape + return ( + _extract_into_tensor(self.sqrt_alphas_cumprod, t, x_start.shape) * x_start + + _extract_into_tensor(self.sqrt_one_minus_alphas_cumprod, t, x_start.shape) + * noise + ) + + def q_posterior_mean_variance(self, x_start, x_t, t): + """ + Compute the mean and variance of the diffusion posterior: + + q(x_{t-1} | x_t, x_0) + + """ + assert x_start.shape == x_t.shape + posterior_mean = ( + _extract_into_tensor(self.posterior_mean_coef1, t, x_t.shape) * x_start + + _extract_into_tensor(self.posterior_mean_coef2, t, x_t.shape) * x_t + ) + posterior_variance = _extract_into_tensor(self.posterior_variance, t, x_t.shape) + posterior_log_variance_clipped = _extract_into_tensor( + self.posterior_log_variance_clipped, t, x_t.shape + ) + assert ( + posterior_mean.shape[0] + == posterior_variance.shape[0] + == posterior_log_variance_clipped.shape[0] + == x_start.shape[0] + ) + return posterior_mean, posterior_variance, posterior_log_variance_clipped + + def p_mean_variance( + self, model, x, t, clip_denoised=True, denoised_fn=None, model_kwargs=None + ): + """ + Apply the model to get p(x_{t-1} | x_t), as well as a prediction of + the initial x, x_0. + + :param model: the model, which takes a signal and a batch of timesteps + as input. + :param x: the [N x C x ...] tensor at time t. + :param t: a 1-D Tensor of timesteps. + :param clip_denoised: if True, clip the denoised signal into [-1, 1]. + :param denoised_fn: if not None, a function which applies to the + x_start prediction before it is used to sample. Applies before + clip_denoised. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + :return: a dict with the following keys: + - 'mean': the model mean output. + - 'variance': the model variance output. + - 'log_variance': the log of 'variance'. + - 'pred_xstart': the prediction for x_0. + """ + if model_kwargs is None: + model_kwargs = {} + + B, C = x.shape[:2] + assert t.shape == (B,) + model_output = model(x, self._scale_timesteps(t), **model_kwargs) + if self.conditioning_free: + model_output_no_conditioning = model(x, self._scale_timesteps(t), conditioning_free=True, **model_kwargs) + + if self.model_var_type in [ModelVarType.LEARNED, ModelVarType.LEARNED_RANGE]: + assert model_output.shape == (B, C * 2, *x.shape[2:]) + model_output, model_var_values = th.split(model_output, C, dim=1) + if self.conditioning_free: + model_output_no_conditioning, _ = th.split(model_output_no_conditioning, C, dim=1) + if self.model_var_type == ModelVarType.LEARNED: + model_log_variance = model_var_values + model_variance = th.exp(model_log_variance) + else: + min_log = _extract_into_tensor( + self.posterior_log_variance_clipped, t, x.shape + ) + max_log = _extract_into_tensor(np.log(self.betas), t, x.shape) + # The model_var_values is [-1, 1] for [min_var, max_var]. + frac = (model_var_values + 1) / 2 + model_log_variance = frac * max_log + (1 - frac) * min_log + model_variance = th.exp(model_log_variance) + else: + model_variance, model_log_variance = { + # for fixedlarge, we set the initial (log-)variance like so + # to get a better decoder log likelihood. + ModelVarType.FIXED_LARGE: ( + np.append(self.posterior_variance[1], self.betas[1:]), + np.log(np.append(self.posterior_variance[1], self.betas[1:])), + ), + ModelVarType.FIXED_SMALL: ( + self.posterior_variance, + self.posterior_log_variance_clipped, + ), + }[self.model_var_type] + model_variance = _extract_into_tensor(model_variance, t, x.shape) + model_log_variance = _extract_into_tensor(model_log_variance, t, x.shape) + + if self.conditioning_free: + if self.ramp_conditioning_free: + assert t.shape[0] == 1 # This should only be used in inference. + cfk = self.conditioning_free_k * (1 - self._scale_timesteps(t)[0].item() / self.num_timesteps) + else: + cfk = self.conditioning_free_k + model_output = (1 + cfk) * model_output - cfk * model_output_no_conditioning + + def process_xstart(x): + if denoised_fn is not None: + x = denoised_fn(x) + if clip_denoised: + return x.clamp(-1, 1) + return x + + if self.model_mean_type == ModelMeanType.PREVIOUS_X: + pred_xstart = process_xstart( + self._predict_xstart_from_xprev(x_t=x, t=t, xprev=model_output) + ) + model_mean = model_output + elif self.model_mean_type in [ModelMeanType.START_X, ModelMeanType.EPSILON]: + if self.model_mean_type == ModelMeanType.START_X: + pred_xstart = process_xstart(model_output) + else: + pred_xstart = process_xstart( + self._predict_xstart_from_eps(x_t=x, t=t, eps=model_output) + ) + model_mean, _, _ = self.q_posterior_mean_variance( + x_start=pred_xstart, x_t=x, t=t + ) + else: + raise NotImplementedError(self.model_mean_type) + + assert ( + model_mean.shape == model_log_variance.shape == pred_xstart.shape == x.shape + ) + return { + "mean": model_mean, + "variance": model_variance, + "log_variance": model_log_variance, + "pred_xstart": pred_xstart, + } + + def _predict_xstart_from_eps(self, x_t, t, eps): + assert x_t.shape == eps.shape + return ( + _extract_into_tensor(self.sqrt_recip_alphas_cumprod, t, x_t.shape) * x_t + - _extract_into_tensor(self.sqrt_recipm1_alphas_cumprod, t, x_t.shape) * eps + ) + + def _predict_xstart_from_xprev(self, x_t, t, xprev): + assert x_t.shape == xprev.shape + return ( # (xprev - coef2*x_t) / coef1 + _extract_into_tensor(1.0 / self.posterior_mean_coef1, t, x_t.shape) * xprev + - _extract_into_tensor( + self.posterior_mean_coef2 / self.posterior_mean_coef1, t, x_t.shape + ) + * x_t + ) + + def _predict_eps_from_xstart(self, x_t, t, pred_xstart): + return ( + _extract_into_tensor(self.sqrt_recip_alphas_cumprod, t, x_t.shape) * x_t + - pred_xstart + ) / _extract_into_tensor(self.sqrt_recipm1_alphas_cumprod, t, x_t.shape) + + def _scale_timesteps(self, t): + if self.rescale_timesteps: + return t.float() * (1000.0 / self.num_timesteps) + return t + + def condition_mean(self, cond_fn, p_mean_var, x, t, model_kwargs=None): + """ + Compute the mean for the previous step, given a function cond_fn that + computes the gradient of a conditional log probability with respect to + x. In particular, cond_fn computes grad(log(p(y|x))), and we want to + condition on y. + + This uses the conditioning strategy from Sohl-Dickstein et al. (2015). + """ + gradient = cond_fn(x, self._scale_timesteps(t), **model_kwargs) + new_mean = ( + p_mean_var["mean"].float() + p_mean_var["variance"] * gradient.float() + ) + return new_mean + + def condition_score(self, cond_fn, p_mean_var, x, t, model_kwargs=None): + """ + Compute what the p_mean_variance output would have been, should the + model's score function be conditioned by cond_fn. + + See condition_mean() for details on cond_fn. + + Unlike condition_mean(), this instead uses the conditioning strategy + from Song et al (2020). + """ + alpha_bar = _extract_into_tensor(self.alphas_cumprod, t, x.shape) + + eps = self._predict_eps_from_xstart(x, t, p_mean_var["pred_xstart"]) + eps = eps - (1 - alpha_bar).sqrt() * cond_fn( + x, self._scale_timesteps(t), **model_kwargs + ) + + out = p_mean_var.copy() + out["pred_xstart"] = self._predict_xstart_from_eps(x, t, eps) + out["mean"], _, _ = self.q_posterior_mean_variance( + x_start=out["pred_xstart"], x_t=x, t=t + ) + return out + + def p_sample( + self, + model, + x, + t, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + ): + """ + Sample x_{t-1} from the model at the given timestep. + + :param model: the model to sample from. + :param x: the current tensor at x_{t-1}. + :param t: the value of t, starting at 0 for the first diffusion step. + :param clip_denoised: if True, clip the x_start prediction to [-1, 1]. + :param denoised_fn: if not None, a function which applies to the + x_start prediction before it is used to sample. + :param cond_fn: if not None, this is a gradient function that acts + similarly to the model. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + :return: a dict containing the following keys: + - 'sample': a random sample from the model. + - 'pred_xstart': a prediction of x_0. + """ + out = self.p_mean_variance( + model, + x, + t, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + model_kwargs=model_kwargs, + ) + noise = th.randn_like(x) + nonzero_mask = ( + (t != 0).float().view(-1, *([1] * (len(x.shape) - 1))) + ) # no noise when t == 0 + if cond_fn is not None: + out["mean"] = self.condition_mean( + cond_fn, out, x, t, model_kwargs=model_kwargs + ) + sample = out["mean"] + nonzero_mask * th.exp(0.5 * out["log_variance"]) * noise + return {"sample": sample, "pred_xstart": out["pred_xstart"]} + + def p_sample_loop( + self, + model, + shape, + noise=None, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + device=None, + progress=False, + ): + """ + Generate samples from the model. + + :param model: the model module. + :param shape: the shape of the samples, (N, C, H, W). + :param noise: if specified, the noise from the encoder to sample. + Should be of the same shape as `shape`. + :param clip_denoised: if True, clip x_start predictions to [-1, 1]. + :param denoised_fn: if not None, a function which applies to the + x_start prediction before it is used to sample. + :param cond_fn: if not None, this is a gradient function that acts + similarly to the model. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + :param device: if specified, the device to create the samples on. + If not specified, use a model parameter's device. + :param progress: if True, show a tqdm progress bar. + :return: a non-differentiable batch of samples. + """ + final = None + for sample in self.p_sample_loop_progressive( + model, + shape, + noise=noise, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + cond_fn=cond_fn, + model_kwargs=model_kwargs, + device=device, + progress=progress, + ): + final = sample + return final["sample"] + + def p_sample_loop_progressive( + self, + model, + shape, + noise=None, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + device=None, + progress=False, + ): + """ + Generate samples from the model and yield intermediate samples from + each timestep of diffusion. + + Arguments are the same as p_sample_loop(). + Returns a generator over dicts, where each dict is the return value of + p_sample(). + """ + if device is None: + device = next(model.parameters()).device + assert isinstance(shape, (tuple, list)) + if noise is not None: + img = noise + else: + img = th.randn(*shape, device=device) + indices = list(range(self.num_timesteps))[::-1] + + for i in tqdm(indices, disable=not progress): + t = th.tensor([i] * shape[0], device=device) + with th.no_grad(): + out = self.p_sample( + model, + img, + t, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + cond_fn=cond_fn, + model_kwargs=model_kwargs, + ) + yield out + img = out["sample"] + + def ddim_sample( + self, + model, + x, + t, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + eta=0.0, + ): + """ + Sample x_{t-1} from the model using DDIM. + + Same usage as p_sample(). + """ + out = self.p_mean_variance( + model, + x, + t, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + model_kwargs=model_kwargs, + ) + if cond_fn is not None: + out = self.condition_score(cond_fn, out, x, t, model_kwargs=model_kwargs) + + # Usually our model outputs epsilon, but we re-derive it + # in case we used x_start or x_prev prediction. + eps = self._predict_eps_from_xstart(x, t, out["pred_xstart"]) + + alpha_bar = _extract_into_tensor(self.alphas_cumprod, t, x.shape) + alpha_bar_prev = _extract_into_tensor(self.alphas_cumprod_prev, t, x.shape) + sigma = ( + eta + * th.sqrt((1 - alpha_bar_prev) / (1 - alpha_bar)) + * th.sqrt(1 - alpha_bar / alpha_bar_prev) + ) + # Equation 12. + noise = th.randn_like(x) + mean_pred = ( + out["pred_xstart"] * th.sqrt(alpha_bar_prev) + + th.sqrt(1 - alpha_bar_prev - sigma ** 2) * eps + ) + nonzero_mask = ( + (t != 0).float().view(-1, *([1] * (len(x.shape) - 1))) + ) # no noise when t == 0 + sample = mean_pred + nonzero_mask * sigma * noise + return {"sample": sample, "pred_xstart": out["pred_xstart"]} + + def ddim_reverse_sample( + self, + model, + x, + t, + clip_denoised=True, + denoised_fn=None, + model_kwargs=None, + eta=0.0, + ): + """ + Sample x_{t+1} from the model using DDIM reverse ODE. + """ + assert eta == 0.0, "Reverse ODE only for deterministic path" + out = self.p_mean_variance( + model, + x, + t, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + model_kwargs=model_kwargs, + ) + # Usually our model outputs epsilon, but we re-derive it + # in case we used x_start or x_prev prediction. + eps = ( + _extract_into_tensor(self.sqrt_recip_alphas_cumprod, t, x.shape) * x + - out["pred_xstart"] + ) / _extract_into_tensor(self.sqrt_recipm1_alphas_cumprod, t, x.shape) + alpha_bar_next = _extract_into_tensor(self.alphas_cumprod_next, t, x.shape) + + # Equation 12. reversed + mean_pred = ( + out["pred_xstart"] * th.sqrt(alpha_bar_next) + + th.sqrt(1 - alpha_bar_next) * eps + ) + + return {"sample": mean_pred, "pred_xstart": out["pred_xstart"]} + + def ddim_sample_loop( + self, + model, + shape, + noise=None, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + device=None, + progress=False, + eta=0.0, + ): + """ + Generate samples from the model using DDIM. + + Same usage as p_sample_loop(). + """ + final = None + for sample in self.ddim_sample_loop_progressive( + model, + shape, + noise=noise, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + cond_fn=cond_fn, + model_kwargs=model_kwargs, + device=device, + progress=progress, + eta=eta, + ): + final = sample + return final["sample"] + + def ddim_sample_loop_progressive( + self, + model, + shape, + noise=None, + clip_denoised=True, + denoised_fn=None, + cond_fn=None, + model_kwargs=None, + device=None, + progress=False, + eta=0.0, + ): + """ + Use DDIM to sample from the model and yield intermediate samples from + each timestep of DDIM. + + Same usage as p_sample_loop_progressive(). + """ + if device is None: + device = next(model.parameters()).device + assert isinstance(shape, (tuple, list)) + if noise is not None: + img = noise + else: + img = th.randn(*shape, device=device) + indices = list(range(self.num_timesteps))[::-1] + + if progress: + # Lazy import so that we don't depend on tqdm. + from tqdm.auto import tqdm + + indices = tqdm(indices, disable=not progress) + + for i in indices: + t = th.tensor([i] * shape[0], device=device) + with th.no_grad(): + out = self.ddim_sample( + model, + img, + t, + clip_denoised=clip_denoised, + denoised_fn=denoised_fn, + cond_fn=cond_fn, + model_kwargs=model_kwargs, + eta=eta, + ) + yield out + img = out["sample"] + + def _vb_terms_bpd( + self, model, x_start, x_t, t, clip_denoised=True, model_kwargs=None + ): + """ + Get a term for the variational lower-bound. + + The resulting units are bits (rather than nats, as one might expect). + This allows for comparison to other papers. + + :return: a dict with the following keys: + - 'output': a shape [N] tensor of NLLs or KLs. + - 'pred_xstart': the x_0 predictions. + """ + true_mean, _, true_log_variance_clipped = self.q_posterior_mean_variance( + x_start=x_start, x_t=x_t, t=t + ) + out = self.p_mean_variance( + model, x_t, t, clip_denoised=clip_denoised, model_kwargs=model_kwargs + ) + kl = normal_kl( + true_mean, true_log_variance_clipped, out["mean"], out["log_variance"] + ) + kl = mean_flat(kl) / np.log(2.0) + + decoder_nll = -discretized_gaussian_log_likelihood( + x_start, means=out["mean"], log_scales=0.5 * out["log_variance"] + ) + assert decoder_nll.shape == x_start.shape + decoder_nll = mean_flat(decoder_nll) / np.log(2.0) + + # At the first timestep return the decoder NLL, + # otherwise return KL(q(x_{t-1}|x_t,x_0) || p(x_{t-1}|x_t)) + output = th.where((t == 0), decoder_nll, kl) + return {"output": output, "pred_xstart": out["pred_xstart"]} + + def training_losses(self, model, x_start, t, model_kwargs=None, noise=None): + """ + Compute training losses for a single timestep. + + :param model: the model to evaluate loss on. + :param x_start: the [N x C x ...] tensor of inputs. + :param t: a batch of timestep indices. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + :param noise: if specified, the specific Gaussian noise to try to remove. + :return: a dict with the key "loss" containing a tensor of shape [N]. + Some mean or variance settings may also have other keys. + """ + if model_kwargs is None: + model_kwargs = {} + if noise is None: + noise = th.randn_like(x_start) + x_t = self.q_sample(x_start, t, noise=noise) + + terms = {} + + if self.loss_type == LossType.KL or self.loss_type == LossType.RESCALED_KL: + # TODO: support multiple model outputs for this mode. + terms["loss"] = self._vb_terms_bpd( + model=model, + x_start=x_start, + x_t=x_t, + t=t, + clip_denoised=False, + model_kwargs=model_kwargs, + )["output"] + if self.loss_type == LossType.RESCALED_KL: + terms["loss"] *= self.num_timesteps + elif self.loss_type == LossType.MSE or self.loss_type == LossType.RESCALED_MSE: + model_outputs = model(x_t, self._scale_timesteps(t), **model_kwargs) + if isinstance(model_outputs, tuple): + model_output = model_outputs[0] + terms['extra_outputs'] = model_outputs[1:] + else: + model_output = model_outputs + + if self.model_var_type in [ + ModelVarType.LEARNED, + ModelVarType.LEARNED_RANGE, + ]: + B, C = x_t.shape[:2] + assert model_output.shape == (B, C * 2, *x_t.shape[2:]) + model_output, model_var_values = th.split(model_output, C, dim=1) + # Learn the variance using the variational bound, but don't let + # it affect our mean prediction. + frozen_out = th.cat([model_output.detach(), model_var_values], dim=1) + terms["vb"] = self._vb_terms_bpd( + model=lambda *args, r=frozen_out: r, + x_start=x_start, + x_t=x_t, + t=t, + clip_denoised=False, + )["output"] + if self.loss_type == LossType.RESCALED_MSE: + # Divide by 1000 for equivalence with initial implementation. + # Without a factor of 1/1000, the VB term hurts the MSE term. + terms["vb"] *= self.num_timesteps / 1000.0 + + if self.model_mean_type == ModelMeanType.PREVIOUS_X: + target = self.q_posterior_mean_variance( + x_start=x_start, x_t=x_t, t=t + )[0] + x_start_pred = torch.zeros(x_start) # Not supported. + elif self.model_mean_type == ModelMeanType.START_X: + target = x_start + x_start_pred = model_output + elif self.model_mean_type == ModelMeanType.EPSILON: + target = noise + x_start_pred = self._predict_xstart_from_eps(x_t, t, model_output) + else: + raise NotImplementedError(self.model_mean_type) + assert model_output.shape == target.shape == x_start.shape + terms["mse"] = mean_flat((target - model_output) ** 2) + terms["x_start_predicted"] = x_start_pred + if "vb" in terms: + terms["loss"] = terms["mse"] + terms["vb"] + else: + terms["loss"] = terms["mse"] + else: + raise NotImplementedError(self.loss_type) + + return terms + + def autoregressive_training_losses(self, model, x_start, t, model_output_keys, gd_out_key, model_kwargs=None, noise=None): + """ + Compute training losses for a single timestep. + + :param model: the model to evaluate loss on. + :param x_start: the [N x C x ...] tensor of inputs. + :param t: a batch of timestep indices. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + :param noise: if specified, the specific Gaussian noise to try to remove. + :return: a dict with the key "loss" containing a tensor of shape [N]. + Some mean or variance settings may also have other keys. + """ + if model_kwargs is None: + model_kwargs = {} + if noise is None: + noise = th.randn_like(x_start) + x_t = self.q_sample(x_start, t, noise=noise) + terms = {} + if self.loss_type == LossType.KL or self.loss_type == LossType.RESCALED_KL: + assert False # not currently supported for this type of diffusion. + elif self.loss_type == LossType.MSE or self.loss_type == LossType.RESCALED_MSE: + model_outputs = model(x_t, x_start, self._scale_timesteps(t), **model_kwargs) + terms.update({k: o for k, o in zip(model_output_keys, model_outputs)}) + model_output = terms[gd_out_key] + if self.model_var_type in [ + ModelVarType.LEARNED, + ModelVarType.LEARNED_RANGE, + ]: + B, C = x_t.shape[:2] + assert model_output.shape == (B, C, 2, *x_t.shape[2:]) + model_output, model_var_values = model_output[:, :, 0], model_output[:, :, 1] + # Learn the variance using the variational bound, but don't let + # it affect our mean prediction. + frozen_out = th.cat([model_output.detach(), model_var_values], dim=1) + terms["vb"] = self._vb_terms_bpd( + model=lambda *args, r=frozen_out: r, + x_start=x_start, + x_t=x_t, + t=t, + clip_denoised=False, + )["output"] + if self.loss_type == LossType.RESCALED_MSE: + # Divide by 1000 for equivalence with initial implementation. + # Without a factor of 1/1000, the VB term hurts the MSE term. + terms["vb"] *= self.num_timesteps / 1000.0 + + if self.model_mean_type == ModelMeanType.PREVIOUS_X: + target = self.q_posterior_mean_variance( + x_start=x_start, x_t=x_t, t=t + )[0] + x_start_pred = torch.zeros(x_start) # Not supported. + elif self.model_mean_type == ModelMeanType.START_X: + target = x_start + x_start_pred = model_output + elif self.model_mean_type == ModelMeanType.EPSILON: + target = noise + x_start_pred = self._predict_xstart_from_eps(x_t, t, model_output) + else: + raise NotImplementedError(self.model_mean_type) + assert model_output.shape == target.shape == x_start.shape + terms["mse"] = mean_flat((target - model_output) ** 2) + terms["x_start_predicted"] = x_start_pred + if "vb" in terms: + terms["loss"] = terms["mse"] + terms["vb"] + else: + terms["loss"] = terms["mse"] + else: + raise NotImplementedError(self.loss_type) + + return terms + + def _prior_bpd(self, x_start): + """ + Get the prior KL term for the variational lower-bound, measured in + bits-per-dim. + + This term can't be optimized, as it only depends on the encoder. + + :param x_start: the [N x C x ...] tensor of inputs. + :return: a batch of [N] KL values (in bits), one per batch element. + """ + batch_size = x_start.shape[0] + t = th.tensor([self.num_timesteps - 1] * batch_size, device=x_start.device) + qt_mean, _, qt_log_variance = self.q_mean_variance(x_start, t) + kl_prior = normal_kl( + mean1=qt_mean, logvar1=qt_log_variance, mean2=0.0, logvar2=0.0 + ) + return mean_flat(kl_prior) / np.log(2.0) + + def calc_bpd_loop(self, model, x_start, clip_denoised=True, model_kwargs=None): + """ + Compute the entire variational lower-bound, measured in bits-per-dim, + as well as other related quantities. + + :param model: the model to evaluate loss on. + :param x_start: the [N x C x ...] tensor of inputs. + :param clip_denoised: if True, clip denoised samples. + :param model_kwargs: if not None, a dict of extra keyword arguments to + pass to the model. This can be used for conditioning. + + :return: a dict containing the following keys: + - total_bpd: the total variational lower-bound, per batch element. + - prior_bpd: the prior term in the lower-bound. + - vb: an [N x T] tensor of terms in the lower-bound. + - xstart_mse: an [N x T] tensor of x_0 MSEs for each timestep. + - mse: an [N x T] tensor of epsilon MSEs for each timestep. + """ + device = x_start.device + batch_size = x_start.shape[0] + + vb = [] + xstart_mse = [] + mse = [] + for t in list(range(self.num_timesteps))[::-1]: + t_batch = th.tensor([t] * batch_size, device=device) + noise = th.randn_like(x_start) + x_t = self.q_sample(x_start=x_start, t=t_batch, noise=noise) + # Calculate VLB term at the current timestep + with th.no_grad(): + out = self._vb_terms_bpd( + model, + x_start=x_start, + x_t=x_t, + t=t_batch, + clip_denoised=clip_denoised, + model_kwargs=model_kwargs, + ) + vb.append(out["output"]) + xstart_mse.append(mean_flat((out["pred_xstart"] - x_start) ** 2)) + eps = self._predict_eps_from_xstart(x_t, t_batch, out["pred_xstart"]) + mse.append(mean_flat((eps - noise) ** 2)) + + vb = th.stack(vb, dim=1) + xstart_mse = th.stack(xstart_mse, dim=1) + mse = th.stack(mse, dim=1) + + prior_bpd = self._prior_bpd(x_start) + total_bpd = vb.sum(dim=1) + prior_bpd + return { + "total_bpd": total_bpd, + "prior_bpd": prior_bpd, + "vb": vb, + "xstart_mse": xstart_mse, + "mse": mse, + } + + +def get_named_beta_schedule(schedule_name, num_diffusion_timesteps): + """ + Get a pre-defined beta schedule for the given name. + + The beta schedule library consists of beta schedules which remain similar + in the limit of num_diffusion_timesteps. + Beta schedules may be added, but should not be removed or changed once + they are committed to maintain backwards compatibility. + """ + if schedule_name == "linear": + # Linear schedule from Ho et al, extended to work for any number of + # diffusion steps. + scale = 1000 / num_diffusion_timesteps + beta_start = scale * 0.0001 + beta_end = scale * 0.02 + return np.linspace( + beta_start, beta_end, num_diffusion_timesteps, dtype=np.float64 + ) + elif schedule_name == "cosine": + return betas_for_alpha_bar( + num_diffusion_timesteps, + lambda t: math.cos((t + 0.008) / 1.008 * math.pi / 2) ** 2, + ) + else: + raise NotImplementedError(f"unknown beta schedule: {schedule_name}") + + +class SpacedDiffusion(GaussianDiffusion): + """ + A diffusion process which can skip steps in a base diffusion process. + + :param use_timesteps: a collection (sequence or set) of timesteps from the + original diffusion process to retain. + :param kwargs: the kwargs to create the base diffusion process. + """ + + def __init__(self, use_timesteps, **kwargs): + self.use_timesteps = set(use_timesteps) + self.timestep_map = [] + self.original_num_steps = len(kwargs["betas"]) + + base_diffusion = GaussianDiffusion(**kwargs) # pylint: disable=missing-kwoa + last_alpha_cumprod = 1.0 + new_betas = [] + for i, alpha_cumprod in enumerate(base_diffusion.alphas_cumprod): + if i in self.use_timesteps: + new_betas.append(1 - alpha_cumprod / last_alpha_cumprod) + last_alpha_cumprod = alpha_cumprod + self.timestep_map.append(i) + kwargs["betas"] = np.array(new_betas) + super().__init__(**kwargs) + + def p_mean_variance( + self, model, *args, **kwargs + ): # pylint: disable=signature-differs + return super().p_mean_variance(self._wrap_model(model), *args, **kwargs) + + def training_losses( + self, model, *args, **kwargs + ): # pylint: disable=signature-differs + return super().training_losses(self._wrap_model(model), *args, **kwargs) + + def autoregressive_training_losses( + self, model, *args, **kwargs + ): # pylint: disable=signature-differs + return super().autoregressive_training_losses(self._wrap_model(model, True), *args, **kwargs) + + def condition_mean(self, cond_fn, *args, **kwargs): + return super().condition_mean(self._wrap_model(cond_fn), *args, **kwargs) + + def condition_score(self, cond_fn, *args, **kwargs): + return super().condition_score(self._wrap_model(cond_fn), *args, **kwargs) + + def _wrap_model(self, model, autoregressive=False): + if isinstance(model, _WrappedModel) or isinstance(model, _WrappedAutoregressiveModel): + return model + mod = _WrappedAutoregressiveModel if autoregressive else _WrappedModel + return mod( + model, self.timestep_map, self.rescale_timesteps, self.original_num_steps + ) + + def _scale_timesteps(self, t): + # Scaling is done by the wrapped model. + return t + + +def space_timesteps(num_timesteps, section_counts): + """ + Create a list of timesteps to use from an original diffusion process, + given the number of timesteps we want to take from equally-sized portions + of the original process. + + For example, if there's 300 timesteps and the section counts are [10,15,20] + then the first 100 timesteps are strided to be 10 timesteps, the second 100 + are strided to be 15 timesteps, and the final 100 are strided to be 20. + + If the stride is a string starting with "ddim", then the fixed striding + from the DDIM paper is used, and only one section is allowed. + + :param num_timesteps: the number of diffusion steps in the original + process to divide up. + :param section_counts: either a list of numbers, or a string containing + comma-separated numbers, indicating the step count + per section. As a special case, use "ddimN" where N + is a number of steps to use the striding from the + DDIM paper. + :return: a set of diffusion steps from the original process to use. + """ + if isinstance(section_counts, str): + if section_counts.startswith("ddim"): + desired_count = int(section_counts[len("ddim") :]) + for i in range(1, num_timesteps): + if len(range(0, num_timesteps, i)) == desired_count: + return set(range(0, num_timesteps, i)) + raise ValueError( + f"cannot create exactly {num_timesteps} steps with an integer stride" + ) + section_counts = [int(x) for x in section_counts.split(",")] + size_per = num_timesteps // len(section_counts) + extra = num_timesteps % len(section_counts) + start_idx = 0 + all_steps = [] + for i, section_count in enumerate(section_counts): + size = size_per + (1 if i < extra else 0) + if size < section_count: + raise ValueError( + f"cannot divide section of {size} steps into {section_count}" + ) + if section_count <= 1: + frac_stride = 1 + else: + frac_stride = (size - 1) / (section_count - 1) + cur_idx = 0.0 + taken_steps = [] + for _ in range(section_count): + taken_steps.append(start_idx + round(cur_idx)) + cur_idx += frac_stride + all_steps += taken_steps + start_idx += size + return set(all_steps) + + +class _WrappedModel: + def __init__(self, model, timestep_map, rescale_timesteps, original_num_steps): + self.model = model + self.timestep_map = timestep_map + self.rescale_timesteps = rescale_timesteps + self.original_num_steps = original_num_steps + + def __call__(self, x, ts, **kwargs): + map_tensor = th.tensor(self.timestep_map, device=ts.device, dtype=ts.dtype) + new_ts = map_tensor[ts] + if self.rescale_timesteps: + new_ts = new_ts.float() * (1000.0 / self.original_num_steps) + return self.model(x, new_ts, **kwargs) + + +class _WrappedAutoregressiveModel: + def __init__(self, model, timestep_map, rescale_timesteps, original_num_steps): + self.model = model + self.timestep_map = timestep_map + self.rescale_timesteps = rescale_timesteps + self.original_num_steps = original_num_steps + + def __call__(self, x, x0, ts, **kwargs): + map_tensor = th.tensor(self.timestep_map, device=ts.device, dtype=ts.dtype) + new_ts = map_tensor[ts] + if self.rescale_timesteps: + new_ts = new_ts.float() * (1000.0 / self.original_num_steps) + return self.model(x, x0, new_ts, **kwargs) + +def _extract_into_tensor(arr, timesteps, broadcast_shape): + """ + Extract values from a 1-D numpy array for a batch of indices. + + :param arr: the 1-D numpy array. + :param timesteps: a tensor of indices into the array to extract. + :param broadcast_shape: a larger shape of K dimensions with the batch + dimension equal to the length of timesteps. + :return: a tensor of shape [batch_size, 1, ...] where the shape has K dims. + """ + res = th.from_numpy(arr.astype(np.float32)).to(device=timesteps.device)[timesteps] + while len(res.shape) < len(broadcast_shape): + res = res[..., None] + return res.expand(broadcast_shape) \ No newline at end of file diff --git a/tortoise/utils/stft.py b/tortoise/utils/stft.py new file mode 100644 index 0000000000000000000000000000000000000000..f54eb968225cfe5928cca6d7686abbcc3728a674 --- /dev/null +++ b/tortoise/utils/stft.py @@ -0,0 +1,193 @@ +""" +BSD 3-Clause License + +Copyright (c) 2017, Prem Seetharaman +All rights reserved. + +* Redistribution and use in source and binary forms, with or without + modification, are permitted provided that the following conditions are met: + +* Redistributions of source code must retain the above copyright notice, + this list of conditions and the following disclaimer. + +* Redistributions in binary form must reproduce the above copyright notice, this + list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. + +* Neither the name of the copyright holder nor the names of its + contributors may be used to endorse or promote products derived from this + software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR +ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON +ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. +""" + +import torch +import numpy as np +import torch.nn.functional as F +from torch.autograd import Variable +from scipy.signal import get_window +from librosa.util import pad_center, tiny +import librosa.util as librosa_util + + +def window_sumsquare(window, n_frames, hop_length=200, win_length=800, + n_fft=800, dtype=np.float32, norm=None): + """ + # from librosa 0.6 + Compute the sum-square envelope of a window function at a given hop length. + + This is used to estimate modulation effects induced by windowing + observations in short-time fourier transforms. + + Parameters + ---------- + window : string, tuple, number, callable, or list-like + Window specification, as in `get_window` + + n_frames : int > 0 + The number of analysis frames + + hop_length : int > 0 + The number of samples to advance between frames + + win_length : [optional] + The length of the window function. By default, this matches `n_fft`. + + n_fft : int > 0 + The length of each analysis frame. + + dtype : np.dtype + The data type of the output + + Returns + ------- + wss : np.ndarray, shape=`(n_fft + hop_length * (n_frames - 1))` + The sum-squared envelope of the window function + """ + if win_length is None: + win_length = n_fft + + n = n_fft + hop_length * (n_frames - 1) + x = np.zeros(n, dtype=dtype) + + # Compute the squared window at the desired length + win_sq = get_window(window, win_length, fftbins=True) + win_sq = librosa_util.normalize(win_sq, norm=norm)**2 + win_sq = librosa_util.pad_center(win_sq, n_fft) + + # Fill the envelope + for i in range(n_frames): + sample = i * hop_length + x[sample:min(n, sample + n_fft)] += win_sq[:max(0, min(n_fft, n - sample))] + return x + + +class STFT(torch.nn.Module): + """adapted from Prem Seetharaman's https://github.com/pseeth/pytorch-stft""" + def __init__(self, filter_length=800, hop_length=200, win_length=800, + window='hann'): + super(STFT, self).__init__() + self.filter_length = filter_length + self.hop_length = hop_length + self.win_length = win_length + self.window = window + self.forward_transform = None + scale = self.filter_length / self.hop_length + fourier_basis = np.fft.fft(np.eye(self.filter_length)) + + cutoff = int((self.filter_length / 2 + 1)) + fourier_basis = np.vstack([np.real(fourier_basis[:cutoff, :]), + np.imag(fourier_basis[:cutoff, :])]) + + forward_basis = torch.FloatTensor(fourier_basis[:, None, :]) + inverse_basis = torch.FloatTensor( + np.linalg.pinv(scale * fourier_basis).T[:, None, :]) + + if window is not None: + assert(filter_length >= win_length) + # get window and zero center pad it to filter_length + fft_window = get_window(window, win_length, fftbins=True) + fft_window = pad_center(fft_window, size=filter_length) + fft_window = torch.from_numpy(fft_window).float() + + # window the bases + forward_basis *= fft_window + inverse_basis *= fft_window + + self.register_buffer('forward_basis', forward_basis.float()) + self.register_buffer('inverse_basis', inverse_basis.float()) + + def transform(self, input_data): + num_batches = input_data.size(0) + num_samples = input_data.size(1) + + self.num_samples = num_samples + + # similar to librosa, reflect-pad the input + input_data = input_data.view(num_batches, 1, num_samples) + input_data = F.pad( + input_data.unsqueeze(1), + (int(self.filter_length / 2), int(self.filter_length / 2), 0, 0), + mode='reflect') + input_data = input_data.squeeze(1) + + forward_transform = F.conv1d( + input_data, + Variable(self.forward_basis, requires_grad=False), + stride=self.hop_length, + padding=0) + + cutoff = int((self.filter_length / 2) + 1) + real_part = forward_transform[:, :cutoff, :] + imag_part = forward_transform[:, cutoff:, :] + + magnitude = torch.sqrt(real_part**2 + imag_part**2) + phase = torch.autograd.Variable( + torch.atan2(imag_part.data, real_part.data)) + + return magnitude, phase + + def inverse(self, magnitude, phase): + recombine_magnitude_phase = torch.cat( + [magnitude*torch.cos(phase), magnitude*torch.sin(phase)], dim=1) + + inverse_transform = F.conv_transpose1d( + recombine_magnitude_phase, + Variable(self.inverse_basis, requires_grad=False), + stride=self.hop_length, + padding=0) + + if self.window is not None: + window_sum = window_sumsquare( + self.window, magnitude.size(-1), hop_length=self.hop_length, + win_length=self.win_length, n_fft=self.filter_length, + dtype=np.float32) + # remove modulation effects + approx_nonzero_indices = torch.from_numpy( + np.where(window_sum > tiny(window_sum))[0]) + window_sum = torch.autograd.Variable( + torch.from_numpy(window_sum), requires_grad=False) + window_sum = window_sum.cuda() if magnitude.is_cuda else window_sum + inverse_transform[:, :, approx_nonzero_indices] /= window_sum[approx_nonzero_indices] + + # scale by hop ratio + inverse_transform *= float(self.filter_length) / self.hop_length + + inverse_transform = inverse_transform[:, :, int(self.filter_length/2):] + inverse_transform = inverse_transform[:, :, :-int(self.filter_length/2):] + + return inverse_transform + + def forward(self, input_data): + self.magnitude, self.phase = self.transform(input_data) + reconstruction = self.inverse(self.magnitude, self.phase) + return reconstruction \ No newline at end of file diff --git a/tortoise/utils/text.py b/tortoise/utils/text.py new file mode 100644 index 0000000000000000000000000000000000000000..e28c86786b2ca47823a25f3f251f9bc85bb3facd --- /dev/null +++ b/tortoise/utils/text.py @@ -0,0 +1,132 @@ +import re + + +def split_and_recombine_text(text, desired_length=200, max_length=300): + """Split text it into chunks of a desired length trying to keep sentences intact.""" + # normalize text, remove redundant whitespace and convert non-ascii quotes to ascii + text = re.sub(r'\n\n+', '\n', text) + text = re.sub(r'\s+', ' ', text) + text = re.sub(r'[“”]', '"', text) + + rv = [] + in_quote = False + current = "" + split_pos = [] + pos = -1 + end_pos = len(text) - 1 + + def seek(delta): + nonlocal pos, in_quote, current + is_neg = delta < 0 + for _ in range(abs(delta)): + if is_neg: + pos -= 1 + current = current[:-1] + else: + pos += 1 + current += text[pos] + if text[pos] == '"': + in_quote = not in_quote + return text[pos] + + def peek(delta): + p = pos + delta + return text[p] if p < end_pos and p >= 0 else "" + + def commit(): + nonlocal rv, current, split_pos + rv.append(current) + current = "" + split_pos = [] + + while pos < end_pos: + c = seek(1) + # do we need to force a split? + if len(current) >= max_length: + if len(split_pos) > 0 and len(current) > (desired_length / 2): + # we have at least one sentence and we are over half the desired length, seek back to the last split + d = pos - split_pos[-1] + seek(-d) + else: + # no full sentences, seek back until we are not in the middle of a word and split there + while c not in '!?.\n ' and pos > 0 and len(current) > desired_length: + c = seek(-1) + commit() + # check for sentence boundaries + elif not in_quote and (c in '!?\n' or (c == '.' and peek(1) in '\n ')): + # seek forward if we have consecutive boundary markers but still within the max length + while pos < len(text) - 1 and len(current) < max_length and peek(1) in '!?.': + c = seek(1) + split_pos.append(pos) + if len(current) >= desired_length: + commit() + # treat end of quote as a boundary if its followed by a space or newline + elif in_quote and peek(1) == '"' and peek(2) in '\n ': + seek(2) + split_pos.append(pos) + rv.append(current) + + # clean up, remove lines with only whitespace or punctuation + rv = [s.strip() for s in rv] + rv = [s for s in rv if len(s) > 0 and not re.match(r'^[\s\.,;:!?]*$', s)] + + return rv + + +if __name__ == '__main__': + import os + import unittest + + class Test(unittest.TestCase): + def test_split_and_recombine_text(self): + text = """ + This is a sample sentence. + This is another sample sentence. + This is a longer sample sentence that should force a split inthemiddlebutinotinthislongword. + "Don't split my quote... please" + """ + self.assertEqual(split_and_recombine_text(text, desired_length=20, max_length=40), + ['This is a sample sentence.', + 'This is another sample sentence.', + 'This is a longer sample sentence that', + 'should force a split', + 'inthemiddlebutinotinthislongword.', + '"Don\'t split my quote... please"']) + + def test_split_and_recombine_text_2(self): + text = """ + When you are really angry sometimes you use consecutive exclamation marks!!!!!! Is this a good thing to do?!?!?! + I don't know but we should handle this situation.......................... + """ + self.assertEqual(split_and_recombine_text(text, desired_length=30, max_length=50), + ['When you are really angry sometimes you use', + 'consecutive exclamation marks!!!!!!', + 'Is this a good thing to do?!?!?!', + 'I don\'t know but we should handle this situation.']) + + def test_split_and_recombine_text_3(self): + text_src = os.path.join(os.path.dirname(__file__), '../data/riding_hood.txt') + with open(text_src, 'r') as f: + text = f.read() + self.assertEqual( + split_and_recombine_text(text), + [ + 'Once upon a time there lived in a certain village a little country girl, the prettiest creature who was ever seen. Her mother was excessively fond of her; and her grandmother doted on her still more. This good woman had a little red riding hood made for her.', + 'It suited the girl so extremely well that everybody called her Little Red Riding Hood. One day her mother, having made some cakes, said to her, "Go, my dear, and see how your grandmother is doing, for I hear she has been very ill. Take her a cake, and this little pot of butter."', + 'Little Red Riding Hood set out immediately to go to her grandmother, who lived in another village. As she was going through the wood, she met with a wolf, who had a very great mind to eat her up, but he dared not, because of some woodcutters working nearby in the forest.', + 'He asked her where she was going. The poor child, who did not know that it was dangerous to stay and talk to a wolf, said to him, "I am going to see my grandmother and carry her a cake and a little pot of butter from my mother." "Does she live far off?" said the wolf "Oh I say,"', + 'answered Little Red Riding Hood; "it is beyond that mill you see there, at the first house in the village." "Well," said the wolf, "and I\'ll go and see her too. I\'ll go this way and go you that, and we shall see who will be there first."', + 'The wolf ran as fast as he could, taking the shortest path, and the little girl took a roundabout way, entertaining herself by gathering nuts, running after butterflies, and gathering bouquets of little flowers.', + 'It was not long before the wolf arrived at the old woman\'s house. He knocked at the door: tap, tap. "Who\'s there?" "Your grandchild, Little Red Riding Hood," replied the wolf, counterfeiting her voice; "who has brought you a cake and a little pot of butter sent you by mother."', + 'The good grandmother, who was in bed, because she was somewhat ill, cried out, "Pull the bobbin, and the latch will go up."', + 'The wolf pulled the bobbin, and the door opened, and then he immediately fell upon the good woman and ate her up in a moment, for it been more than three days since he had eaten.', + 'He then shut the door and got into the grandmother\'s bed, expecting Little Red Riding Hood, who came some time afterwards and knocked at the door: tap, tap. "Who\'s there?"', + 'Little Red Riding Hood, hearing the big voice of the wolf, was at first afraid; but believing her grandmother had a cold and was hoarse, answered, "It is your grandchild Little Red Riding Hood, who has brought you a cake and a little pot of butter mother sends you."', + 'The wolf cried out to her, softening his voice as much as he could, "Pull the bobbin, and the latch will go up." Little Red Riding Hood pulled the bobbin, and the door opened.', + 'The wolf, seeing her come in, said to her, hiding himself under the bedclothes, "Put the cake and the little pot of butter upon the stool, and come get into bed with me." Little Red Riding Hood took off her clothes and got into bed.', + 'She was greatly amazed to see how her grandmother looked in her nightclothes, and said to her, "Grandmother, what big arms you have!" "All the better to hug you with, my dear." "Grandmother, what big legs you have!" "All the better to run with, my child." "Grandmother, what big ears you have!"', + '"All the better to hear with, my child." "Grandmother, what big eyes you have!" "All the better to see with, my child." "Grandmother, what big teeth you have got!" "All the better to eat you up with." And, saying these words, this wicked wolf fell upon Little Red Riding Hood, and ate her all up.', + ] + ) + + unittest.main() diff --git a/tortoise/utils/tokenizer.py b/tortoise/utils/tokenizer.py new file mode 100644 index 0000000000000000000000000000000000000000..922f23ec2ae383abb653ca01d5b6c008a3b0b5fe --- /dev/null +++ b/tortoise/utils/tokenizer.py @@ -0,0 +1,194 @@ +import os +import re + +import inflect +import torch +from tokenizers import Tokenizer + + +# Regular expression matching whitespace: +from unidecode import unidecode + +_whitespace_re = re.compile(r'\s+') + + +# List of (regular expression, replacement) pairs for abbreviations: +_abbreviations = [(re.compile('\\b%s\\.' % x[0], re.IGNORECASE), x[1]) for x in [ + ('mrs', 'misess'), + ('mr', 'mister'), + ('dr', 'doctor'), + ('st', 'saint'), + ('co', 'company'), + ('jr', 'junior'), + ('maj', 'major'), + ('gen', 'general'), + ('drs', 'doctors'), + ('rev', 'reverend'), + ('lt', 'lieutenant'), + ('hon', 'honorable'), + ('sgt', 'sergeant'), + ('capt', 'captain'), + ('esq', 'esquire'), + ('ltd', 'limited'), + ('col', 'colonel'), + ('ft', 'fort'), +]] + + +def expand_abbreviations(text): + for regex, replacement in _abbreviations: + text = re.sub(regex, replacement, text) + return text + + +_inflect = inflect.engine() +_comma_number_re = re.compile(r'([0-9][0-9\,]+[0-9])') +_decimal_number_re = re.compile(r'([0-9]+\.[0-9]+)') +_pounds_re = re.compile(r'£([0-9\,]*[0-9]+)') +_dollars_re = re.compile(r'\$([0-9\.\,]*[0-9]+)') +_ordinal_re = re.compile(r'[0-9]+(st|nd|rd|th)') +_number_re = re.compile(r'[0-9]+') + + +def _remove_commas(m): + return m.group(1).replace(',', '') + + +def _expand_decimal_point(m): + return m.group(1).replace('.', ' point ') + + +def _expand_dollars(m): + match = m.group(1) + parts = match.split('.') + if len(parts) > 2: + return match + ' dollars' # Unexpected format + dollars = int(parts[0]) if parts[0] else 0 + cents = int(parts[1]) if len(parts) > 1 and parts[1] else 0 + if dollars and cents: + dollar_unit = 'dollar' if dollars == 1 else 'dollars' + cent_unit = 'cent' if cents == 1 else 'cents' + return '%s %s, %s %s' % (dollars, dollar_unit, cents, cent_unit) + elif dollars: + dollar_unit = 'dollar' if dollars == 1 else 'dollars' + return '%s %s' % (dollars, dollar_unit) + elif cents: + cent_unit = 'cent' if cents == 1 else 'cents' + return '%s %s' % (cents, cent_unit) + else: + return 'zero dollars' + + +def _expand_ordinal(m): + return _inflect.number_to_words(m.group(0)) + + +def _expand_number(m): + num = int(m.group(0)) + if num > 1000 and num < 3000: + if num == 2000: + return 'two thousand' + elif num > 2000 and num < 2010: + return 'two thousand ' + _inflect.number_to_words(num % 100) + elif num % 100 == 0: + return _inflect.number_to_words(num // 100) + ' hundred' + else: + return _inflect.number_to_words(num, andword='', zero='oh', group=2).replace(', ', ' ') + else: + return _inflect.number_to_words(num, andword='') + + +def normalize_numbers(text): + text = re.sub(_comma_number_re, _remove_commas, text) + text = re.sub(_pounds_re, r'\1 pounds', text) + text = re.sub(_dollars_re, _expand_dollars, text) + text = re.sub(_decimal_number_re, _expand_decimal_point, text) + text = re.sub(_ordinal_re, _expand_ordinal, text) + text = re.sub(_number_re, _expand_number, text) + return text + + +def expand_numbers(text): + return normalize_numbers(text) + + +def lowercase(text): + return text.lower() + + +def collapse_whitespace(text): + return re.sub(_whitespace_re, ' ', text) + + +def convert_to_ascii(text): + return unidecode(text) + + +def basic_cleaners(text): + '''Basic pipeline that lowercases and collapses whitespace without transliteration.''' + text = lowercase(text) + text = collapse_whitespace(text) + return text + + +def transliteration_cleaners(text): + '''Pipeline for non-English text that transliterate to ASCII.''' + text = convert_to_ascii(text) + text = lowercase(text) + text = collapse_whitespace(text) + return text + + +def english_cleaners(text): + '''Pipeline for English text, including number and abbreviation expansion.''' + text = convert_to_ascii(text) + text = lowercase(text) + text = expand_numbers(text) + text = expand_abbreviations(text) + text = collapse_whitespace(text) + text = text.replace('"', '') + return text + + +def lev_distance(s1, s2): + if len(s1) > len(s2): + s1, s2 = s2, s1 + + distances = range(len(s1) + 1) + for i2, c2 in enumerate(s2): + distances_ = [i2 + 1] + for i1, c1 in enumerate(s1): + if c1 == c2: + distances_.append(distances[i1]) + else: + distances_.append(1 + min((distances[i1], distances[i1 + 1], distances_[-1]))) + distances = distances_ + return distances[-1] + + +DEFAULT_VOCAB_FILE = os.path.join(os.path.dirname(os.path.realpath(__file__)), '../data/tokenizer.json') + + +class VoiceBpeTokenizer: + def __init__(self, vocab_file=None, use_basic_cleaners=False): + self.tokenizer = Tokenizer.from_file( + DEFAULT_VOCAB_FILE if vocab_file is None else vocab_file + ) + if use_basic_cleaners: + self.preprocess_text = basic_cleaners + else: + self.preprocess_text = english_cleaners + + def encode(self, txt): + txt = self.preprocess_text(txt) + txt = txt.replace(' ', '[SPACE]') + return self.tokenizer.encode(txt).ids + + def decode(self, seq): + if isinstance(seq, torch.Tensor): + seq = seq.cpu().numpy() + txt = self.tokenizer.decode(seq, skip_special_tokens=False).replace(' ', '') + txt = txt.replace('[SPACE]', ' ') + txt = txt.replace('[STOP]', '') + txt = txt.replace('[UNK]', '') + return txt diff --git a/tortoise/utils/typical_sampling.py b/tortoise/utils/typical_sampling.py new file mode 100644 index 0000000000000000000000000000000000000000..ff6bf487947e88a55fa45f2ffec1b9540df1d4fd --- /dev/null +++ b/tortoise/utils/typical_sampling.py @@ -0,0 +1,33 @@ +import torch +from transformers import LogitsWarper + + +class TypicalLogitsWarper(LogitsWarper): + def __init__(self, mass: float = 0.9, filter_value: float = -float("Inf"), min_tokens_to_keep: int = 1): + self.filter_value = filter_value + self.mass = mass + self.min_tokens_to_keep = min_tokens_to_keep + + def __call__(self, input_ids: torch.LongTensor, scores: torch.FloatTensor) -> torch.FloatTensor: + # calculate entropy + normalized = torch.nn.functional.log_softmax(scores, dim=-1) + p = torch.exp(normalized) + ent = -(normalized * p).nansum(-1, keepdim=True) + + # shift and sort + shifted_scores = torch.abs((-normalized) - ent) + sorted_scores, sorted_indices = torch.sort(shifted_scores, descending=False) + sorted_logits = scores.gather(-1, sorted_indices) + cumulative_probs = sorted_logits.softmax(dim=-1).cumsum(dim=-1) + + # Remove tokens with cumulative mass above the threshold + last_ind = (cumulative_probs < self.mass).sum(dim=1) + last_ind[last_ind < 0] = 0 + sorted_indices_to_remove = sorted_scores > sorted_scores.gather(1, last_ind.view(-1, 1)) + if self.min_tokens_to_keep > 1: + # Keep at least min_tokens_to_keep (set to min_tokens_to_keep-1 because we add the first one below) + sorted_indices_to_remove[..., : self.min_tokens_to_keep] = 0 + indices_to_remove = sorted_indices_to_remove.scatter(1, sorted_indices, sorted_indices_to_remove) + + scores = scores.masked_fill(indices_to_remove, self.filter_value) + return scores \ No newline at end of file diff --git a/tortoise/utils/wav2vec_alignment.py b/tortoise/utils/wav2vec_alignment.py new file mode 100644 index 0000000000000000000000000000000000000000..adc39e35e906d3a1bea8655be2aa3c8d13ce2ebb --- /dev/null +++ b/tortoise/utils/wav2vec_alignment.py @@ -0,0 +1,150 @@ +import re + +import torch +import torchaudio +from transformers import Wav2Vec2ForCTC, Wav2Vec2FeatureExtractor, Wav2Vec2CTCTokenizer, Wav2Vec2Processor + +from tortoise.utils.audio import load_audio + + +def max_alignment(s1, s2, skip_character='~', record=None): + """ + A clever function that aligns s1 to s2 as best it can. Wherever a character from s1 is not found in s2, a '~' is + used to replace that character. + + Finally got to use my DP skills! + """ + if record is None: + record = {} + assert skip_character not in s1, f"Found the skip character {skip_character} in the provided string, {s1}" + if len(s1) == 0: + return '' + if len(s2) == 0: + return skip_character * len(s1) + if s1 == s2: + return s1 + if s1[0] == s2[0]: + return s1[0] + max_alignment(s1[1:], s2[1:], skip_character, record) + + take_s1_key = (len(s1), len(s2) - 1) + if take_s1_key in record: + take_s1, take_s1_score = record[take_s1_key] + else: + take_s1 = max_alignment(s1, s2[1:], skip_character, record) + take_s1_score = len(take_s1.replace(skip_character, '')) + record[take_s1_key] = (take_s1, take_s1_score) + + take_s2_key = (len(s1) - 1, len(s2)) + if take_s2_key in record: + take_s2, take_s2_score = record[take_s2_key] + else: + take_s2 = max_alignment(s1[1:], s2, skip_character, record) + take_s2_score = len(take_s2.replace(skip_character, '')) + record[take_s2_key] = (take_s2, take_s2_score) + + return take_s1 if take_s1_score > take_s2_score else skip_character + take_s2 + + +class Wav2VecAlignment: + """ + Uses wav2vec2 to perform audio<->text alignment. + """ + def __init__(self, device='cuda' if not torch.backends.mps.is_available() else 'mps'): + self.model = Wav2Vec2ForCTC.from_pretrained("jbetker/wav2vec2-large-robust-ft-libritts-voxpopuli").cpu() + self.feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained(f"facebook/wav2vec2-large-960h") + self.tokenizer = Wav2Vec2CTCTokenizer.from_pretrained('jbetker/tacotron-symbols') + self.device = device + + def align(self, audio, expected_text, audio_sample_rate=24000): + orig_len = audio.shape[-1] + + with torch.no_grad(): + self.model = self.model.to(self.device) + audio = audio.to(self.device) + audio = torchaudio.functional.resample(audio, audio_sample_rate, 16000) + clip_norm = (audio - audio.mean()) / torch.sqrt(audio.var() + 1e-7) + logits = self.model(clip_norm).logits + self.model = self.model.cpu() + + logits = logits[0] + pred_string = self.tokenizer.decode(logits.argmax(-1).tolist()) + + fixed_expectation = max_alignment(expected_text.lower(), pred_string) + w2v_compression = orig_len // logits.shape[0] + expected_tokens = self.tokenizer.encode(fixed_expectation) + expected_chars = list(fixed_expectation) + if len(expected_tokens) == 1: + return [0] # The alignment is simple; there is only one token. + expected_tokens.pop(0) # The first token is a given. + expected_chars.pop(0) + + alignments = [0] + def pop_till_you_win(): + if len(expected_tokens) == 0: + return None + popped = expected_tokens.pop(0) + popped_char = expected_chars.pop(0) + while popped_char == '~': + alignments.append(-1) + if len(expected_tokens) == 0: + return None + popped = expected_tokens.pop(0) + popped_char = expected_chars.pop(0) + return popped + + next_expected_token = pop_till_you_win() + for i, logit in enumerate(logits): + top = logit.argmax() + if next_expected_token == top: + alignments.append(i * w2v_compression) + if len(expected_tokens) > 0: + next_expected_token = pop_till_you_win() + else: + break + + pop_till_you_win() + if not (len(expected_tokens) == 0 and len(alignments) == len(expected_text)): + torch.save([audio, expected_text], 'alignment_debug.pth') + assert False, "Something went wrong with the alignment algorithm. I've dumped a file, 'alignment_debug.pth' to" \ + "your current working directory. Please report this along with the file so it can get fixed." + + # Now fix up alignments. Anything with -1 should be interpolated. + alignments.append(orig_len) # This'll get removed but makes the algorithm below more readable. + for i in range(len(alignments)): + if alignments[i] == -1: + for j in range(i+1, len(alignments)): + if alignments[j] != -1: + next_found_token = j + break + for j in range(i, next_found_token): + gap = alignments[next_found_token] - alignments[i-1] + alignments[j] = (j-i+1) * gap // (next_found_token-i+1) + alignments[i-1] + + return alignments[:-1] + + def redact(self, audio, expected_text, audio_sample_rate=24000): + if '[' not in expected_text: + return audio + splitted = expected_text.split('[') + fully_split = [splitted[0]] + for spl in splitted[1:]: + assert ']' in spl, 'Every "[" character must be paired with a "]" with no nesting.' + fully_split.extend(spl.split(']')) + + # At this point, fully_split is a list of strings, with every other string being something that should be redacted. + non_redacted_intervals = [] + last_point = 0 + for i 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