ai_architecture / min_dalle /min_dalle.py
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import os
from PIL import Image
import numpy
from torch import LongTensor, FloatTensor
import torch
import torch.backends.cudnn, torch.backends.cuda
import json
import requests
from typing import Iterator
from .text_tokenizer import TextTokenizer
from .models import DalleBartEncoder, DalleBartDecoder, VQGanDetokenizer
import streamlit as st
import time
torch.set_grad_enabled(False)
torch.set_num_threads(os.cpu_count())
torch.backends.cudnn.enabled = True
torch.backends.cudnn.allow_tf32 = True
MIN_DALLE_REPO = 'https://huggingface.co/kuprel/min-dalle/resolve/main/'
IMAGE_TOKEN_COUNT = 256
class MinDalle:
def __init__(
self,
models_root: str = 'pretrained',
dtype: torch.dtype = torch.float32,
device: str = None,
is_mega: bool = True,
is_reusable: bool = True,
is_verbose = True
):
if device == None:
device = 'cuda' if torch.cuda.is_available() else 'cpu'
if is_verbose: print("using device", device)
self.device = device
self.is_mega = is_mega
self.is_reusable = is_reusable
self.dtype = dtype
self.is_verbose = is_verbose
self.text_token_count = 64
self.layer_count = 24 if is_mega else 12
self.attention_head_count = 32 if is_mega else 16
self.embed_count = 2048 if is_mega else 1024
self.glu_embed_count = 4096 if is_mega else 2730
self.text_vocab_count = 50272 if is_mega else 50264
self.image_vocab_count = 16415 if is_mega else 16384
model_name = 'dalle_bart_{}'.format('mega' if is_mega else 'mini')
dalle_path = os.path.join(models_root, model_name)
vqgan_path = os.path.join(models_root, 'vqgan')
if not os.path.exists(dalle_path): os.makedirs(dalle_path)
if not os.path.exists(vqgan_path): os.makedirs(vqgan_path)
self.vocab_path = os.path.join(dalle_path, 'vocab.json')
self.merges_path = os.path.join(dalle_path, 'merges.txt')
self.encoder_params_path = os.path.join(dalle_path, 'encoder.pt')
self.decoder_params_path = os.path.join(dalle_path, 'decoder.pt')
self.detoker_params_path = os.path.join(vqgan_path, 'detoker.pt')
self.init_tokenizer()
if is_reusable:
self.init_encoder()
self.init_decoder()
self.init_detokenizer()
def download_tokenizer(self):
if self.is_verbose: print("downloading tokenizer params")
suffix = '' if self.is_mega else '_mini'
_ = requests.get(MIN_DALLE_REPO + 'config.json') # trigger HF download
vocab = requests.get(MIN_DALLE_REPO + 'vocab{}.json'.format(suffix))
merges = requests.get(MIN_DALLE_REPO + 'merges{}.txt'.format(suffix))
with open(self.vocab_path, 'wb') as f: f.write(vocab.content)
with open(self.merges_path, 'wb') as f: f.write(merges.content)
def download_encoder(self):
if self.is_verbose: print("downloading encoder params")
suffix = '' if self.is_mega else '_mini'
params = requests.get(MIN_DALLE_REPO + 'encoder{}.pt'.format(suffix))
with open(self.encoder_params_path, 'wb') as f: f.write(params.content)
def download_decoder(self):
if self.is_verbose: print("downloading decoder params")
suffix = '' if self.is_mega else '_mini'
params = requests.get(MIN_DALLE_REPO + 'decoder{}.pt'.format(suffix))
with open(self.decoder_params_path, 'wb') as f: f.write(params.content)
def download_detokenizer(self):
if self.is_verbose: print("downloading detokenizer params")
params = requests.get(MIN_DALLE_REPO + 'detoker.pt')
with open(self.detoker_params_path, 'wb') as f: f.write(params.content)
def init_tokenizer(self):
is_downloaded = os.path.exists(self.vocab_path)
is_downloaded &= os.path.exists(self.merges_path)
if not is_downloaded: self.download_tokenizer()
if self.is_verbose: print("intializing TextTokenizer")
with open(self.vocab_path, 'r', encoding='utf8') as f:
vocab = json.load(f)
with open(self.merges_path, 'r', encoding='utf8') as f:
merges = f.read().split("\n")[1:-1]
self.tokenizer = TextTokenizer(vocab, merges)
def init_encoder(self):
is_downloaded = os.path.exists(self.encoder_params_path)
if not is_downloaded: self.download_encoder()
if self.is_verbose: print("initializing DalleBartEncoder")
self.encoder = DalleBartEncoder(
attention_head_count = self.attention_head_count,
embed_count = self.embed_count,
glu_embed_count = self.glu_embed_count,
text_token_count = self.text_token_count,
text_vocab_count = self.text_vocab_count,
layer_count = self.layer_count,
device=self.device
).to(self.dtype).eval()
params = torch.load(self.encoder_params_path)
self.encoder.load_state_dict(params, strict=False)
del params
self.encoder = self.encoder.to(device=self.device)
def init_decoder(self):
is_downloaded = os.path.exists(self.decoder_params_path)
if not is_downloaded: self.download_decoder()
if self.is_verbose: print("initializing DalleBartDecoder")
self.decoder = DalleBartDecoder(
image_vocab_count = self.image_vocab_count,
attention_head_count = self.attention_head_count,
embed_count = self.embed_count,
glu_embed_count = self.glu_embed_count,
layer_count = self.layer_count,
device=self.device
).to(self.dtype).eval()
params = torch.load(self.decoder_params_path)
self.decoder.load_state_dict(params, strict=False)
del params
self.decoder = self.decoder.to(device=self.device)
def init_detokenizer(self):
is_downloaded = os.path.exists(self.detoker_params_path)
if not is_downloaded: self.download_detokenizer()
if self.is_verbose: print("initializing VQGanDetokenizer")
self.detokenizer = VQGanDetokenizer().eval()
params = torch.load(self.detoker_params_path)
self.detokenizer.load_state_dict(params)
del params
self.detokenizer = self.detokenizer.to(device=self.device)
def image_grid_from_tokens(
self,
image_tokens: LongTensor,
is_seamless: bool,
is_verbose: bool = False
) -> FloatTensor:
if not self.is_reusable: del self.decoder
torch.cuda.empty_cache()
if not self.is_reusable: self.init_detokenizer()
if is_verbose: print("detokenizing image")
images = self.detokenizer.forward(is_seamless, image_tokens)
if not self.is_reusable: del self.detokenizer
return images
def generate_raw_image_stream(
self,
text: str,
seed: int,
grid_size: int,
progressive_outputs: bool = False,
is_seamless: bool = False,
temperature: float = 1,
top_k: int = 256,
supercondition_factor: int = 16,
is_verbose: bool = False
) -> Iterator[FloatTensor]:
image_count = grid_size ** 2
if is_verbose: print("tokenizing text")
tokens = self.tokenizer.tokenize(text, is_verbose=is_verbose)
if len(tokens) > self.text_token_count:
tokens = tokens[:self.text_token_count]
if is_verbose: print("{} text tokens".format(len(tokens)), tokens)
text_tokens = numpy.ones((2, 64), dtype=numpy.int32)
text_tokens[0, :2] = [tokens[0], tokens[-1]]
text_tokens[1, :len(tokens)] = tokens
text_tokens = torch.tensor(
text_tokens,
dtype=torch.long,
device=self.device
)
if not self.is_reusable: self.init_encoder()
if is_verbose: print("encoding text tokens")
with torch.cuda.amp.autocast(dtype=self.dtype):
encoder_state = self.encoder.forward(text_tokens)
if not self.is_reusable: del self.encoder
torch.cuda.empty_cache()
if not self.is_reusable: self.init_decoder()
with torch.cuda.amp.autocast(dtype=self.dtype):
expanded_indices = [0] * image_count + [1] * image_count
text_tokens = text_tokens[expanded_indices]
encoder_state = encoder_state[expanded_indices]
attention_mask = text_tokens.not_equal(1)
attention_state = torch.zeros(
size=(
self.layer_count,
image_count * 4,
IMAGE_TOKEN_COUNT,
self.embed_count
),
device=self.device
)
image_tokens = torch.full(
(IMAGE_TOKEN_COUNT + 1, image_count),
self.image_vocab_count,
dtype=torch.long,
device=self.device
)
if seed > 0: torch.manual_seed(seed)
token_indices = torch.arange(IMAGE_TOKEN_COUNT, device=self.device)
settings = torch.tensor(
[temperature, top_k, supercondition_factor],
dtype=torch.float32,
device=self.device
)
for i in range( IMAGE_TOKEN_COUNT ):
if(st.session_state.page != 0):
break
st.session_state.bar.progress(i/IMAGE_TOKEN_COUNT)
torch.cuda.empty_cache()
with torch.cuda.amp.autocast(dtype=self.dtype):
image_tokens[i + 1], attention_state = self.decoder.forward(
settings=settings,
attention_mask=attention_mask,
encoder_state=encoder_state,
attention_state=attention_state,
prev_tokens=image_tokens[i],
token_index=token_indices[[i]]
)
with torch.cuda.amp.autocast(dtype=torch.float16):
if ((i + 1) % 16 == 0 and progressive_outputs) or i + 1 == 256:
yield self.image_grid_from_tokens(
image_tokens=image_tokens[1:].T,
is_seamless=is_seamless,
is_verbose=is_verbose
)
def generate_image_stream(self, *args, **kwargs) -> Iterator[Image.Image]:
image_stream = self.generate_raw_image_stream(*args, **kwargs)
for image in image_stream:
image = image.to(torch.uint8).to('cpu').numpy()
yield Image.fromarray(image)
def generate_images_stream(self, *args, **kwargs) -> Iterator[FloatTensor]:
image_stream = self.generate_raw_image_stream(*args, **kwargs)
for image in image_stream:
grid_size = kwargs['grid_size']
image = image.view([grid_size * 256, grid_size, 256, 3])
image = image.transpose(1, 0)
image = image.reshape([grid_size ** 2, 2 ** 8, 2 ** 8, 3])
yield image
def generate_image(self, *args, **kwargs) -> Image.Image:
image_stream = self.generate_image_stream(
*args, **kwargs,
progressive_outputs=False
)
return next(image_stream)
def generate_images(self, *args, **kwargs) -> Image.Image:
images_stream = self.generate_images_stream(
*args, **kwargs,
progressive_outputs=False
)
return next(images_stream)