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CLIP_prefix_captioning / app.py

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	import os
	from huggingface_hub import hf_hub_download
	conceptual_weight = hf_hub_download(repo_id="akhaliq/CLIP-prefix-captioning-conceptual-weights", filename="conceptual_weights.pt")
	coco_weight = hf_hub_download(repo_id="akhaliq/CLIP-prefix-captioning-COCO-weights", filename="coco_weights.pt")
	import clip
	import os
	from torch import nn
	import numpy as np
	import torch
	import torch.nn.functional as nnf
	import sys
	from typing import Tuple, List, Union, Optional
	from transformers import GPT2Tokenizer, GPT2LMHeadModel, AdamW, get_linear_schedule_with_warmup
	from tqdm import tqdm, trange
	import skimage.io as io
	import PIL.Image
	import gradio as gr

	N = type(None)
	V = np.array
	ARRAY = np.ndarray
	ARRAYS = Union[Tuple[ARRAY, ...], List[ARRAY]]
	VS = Union[Tuple[V, ...], List[V]]
	VN = Union[V, N]
	VNS = Union[VS, N]
	T = torch.Tensor
	TS = Union[Tuple[T, ...], List[T]]
	TN = Optional[T]
	TNS = Union[Tuple[TN, ...], List[TN]]
	TSN = Optional[TS]
	TA = Union[T, ARRAY]


	D = torch.device
	CPU = torch.device('cpu')


	def get_device(device_id: int) -> D:
	if not torch.cuda.is_available():
	return CPU
	device_id = min(torch.cuda.device_count() - 1, device_id)
	return torch.device(f'cuda:{device_id}')


	CUDA = get_device

	class MLP(nn.Module):

	def forward(self, x: T) -> T:
	return self.model(x)

	def __init__(self, sizes: Tuple[int, ...], bias=True, act=nn.Tanh):
	super(MLP, self).__init__()
	layers = []
	for i in range(len(sizes) -1):
	layers.append(nn.Linear(sizes[i], sizes[i + 1], bias=bias))
	if i < len(sizes) - 2:
	layers.append(act())
	self.model = nn.Sequential(*layers)


	class ClipCaptionModel(nn.Module):

	#@functools.lru_cache #FIXME
	def get_dummy_token(self, batch_size: int, device: D) -> T:
	return torch.zeros(batch_size, self.prefix_length, dtype=torch.int64, device=device)

	def forward(self, tokens: T, prefix: T, mask: Optional[T] = None, labels: Optional[T] = None):
	embedding_text = self.gpt.transformer.wte(tokens)
	prefix_projections = self.clip_project(prefix).view(-1, self.prefix_length, self.gpt_embedding_size)
	#print(embedding_text.size()) #torch.Size([5, 67, 768])
	#print(prefix_projections.size()) #torch.Size([5, 1, 768])
	embedding_cat = torch.cat((prefix_projections, embedding_text), dim=1)
	if labels is not None:
	dummy_token = self.get_dummy_token(tokens.shape[0], tokens.device)
	labels = torch.cat((dummy_token, tokens), dim=1)
	out = self.gpt(inputs_embeds=embedding_cat, labels=labels, attention_mask=mask)
	return out

	def __init__(self, prefix_length: int, prefix_size: int = 512):
	super(ClipCaptionModel, self).__init__()
	self.prefix_length = prefix_length
	self.gpt = GPT2LMHeadModel.from_pretrained('gpt2')
	self.gpt_embedding_size = self.gpt.transformer.wte.weight.shape[1]
	if prefix_length > 10: # not enough memory
	self.clip_project = nn.Linear(prefix_size, self.gpt_embedding_size * prefix_length)
	else:
	self.clip_project = MLP((prefix_size, (self.gpt_embedding_size * prefix_length) // 2, self.gpt_embedding_size * prefix_length))


	class ClipCaptionPrefix(ClipCaptionModel):

	def parameters(self, recurse: bool = True):
	return self.clip_project.parameters()

	def train(self, mode: bool = True):
	super(ClipCaptionPrefix, self).train(mode)
	self.gpt.eval()
	return self


	#@title Caption prediction

	def generate_beam(model, tokenizer, beam_size: int = 5, prompt=None, embed=None,
	entry_length=67, temperature=1., stop_token: str = '.'):

	model.eval()
	stop_token_index = tokenizer.encode(stop_token)[0]
	tokens = None
	scores = None
	device = next(model.parameters()).device
	seq_lengths = torch.ones(beam_size, device=device)
	is_stopped = torch.zeros(beam_size, device=device, dtype=torch.bool)
	with torch.no_grad():
	if embed is not None:
	generated = embed
	else:
	if tokens is None:
	tokens = torch.tensor(tokenizer.encode(prompt))
	tokens = tokens.unsqueeze(0).to(device)
	generated = model.gpt.transformer.wte(tokens)
	for i in range(entry_length):
	outputs = model.gpt(inputs_embeds=generated)
	logits = outputs.logits
	logits = logits[:, -1, :] / (temperature if temperature > 0 else 1.0)
	logits = logits.softmax(-1).log()
	if scores is None:
	scores, next_tokens = logits.topk(beam_size, -1)
	generated = generated.expand(beam_size, *generated.shape[1:])
	next_tokens, scores = next_tokens.permute(1, 0), scores.squeeze(0)
	if tokens is None:
	tokens = next_tokens
	else:
	tokens = tokens.expand(beam_size, *tokens.shape[1:])
	tokens = torch.cat((tokens, next_tokens), dim=1)
	else:
	logits[is_stopped] = -float(np.inf)
	logits[is_stopped, 0] = 0
	scores_sum = scores[:, None] + logits
	seq_lengths[~is_stopped] += 1
	scores_sum_average = scores_sum / seq_lengths[:, None]
	scores_sum_average, next_tokens = scores_sum_average.view(-1).topk(beam_size, -1)
	next_tokens_source = next_tokens // scores_sum.shape[1]
	seq_lengths = seq_lengths[next_tokens_source]
	next_tokens = next_tokens % scores_sum.shape[1]
	next_tokens = next_tokens.unsqueeze(1)
	tokens = tokens[next_tokens_source]
	tokens = torch.cat((tokens, next_tokens), dim=1)
	generated = generated[next_tokens_source]
	scores = scores_sum_average * seq_lengths
	is_stopped = is_stopped[next_tokens_source]
	next_token_embed = model.gpt.transformer.wte(next_tokens.squeeze()).view(generated.shape[0], 1, -1)
	generated = torch.cat((generated, next_token_embed), dim=1)
	is_stopped = is_stopped + next_tokens.eq(stop_token_index).squeeze()
	if is_stopped.all():
	break
	scores = scores / seq_lengths
	output_list = tokens.cpu().numpy()
	output_texts = [tokenizer.decode(output[:int(length)]) for output, length in zip(output_list, seq_lengths)]
	order = scores.argsort(descending=True)
	output_texts = [output_texts[i] for i in order]
	return output_texts


	def generate2(
	model,
	tokenizer,
	tokens=None,
	prompt=None,
	embed=None,
	entry_count=1,
	entry_length=67, # maximum number of words
	top_p=0.8,
	temperature=1.,
	stop_token: str = '.',
	):
	model.eval()
	generated_num = 0
	generated_list = []
	stop_token_index = tokenizer.encode(stop_token)[0]
	filter_value = -float("Inf")
	device = next(model.parameters()).device

	with torch.no_grad():

	for entry_idx in trange(entry_count):
	if embed is not None:
	generated = embed
	else:
	if tokens is None:
	tokens = torch.tensor(tokenizer.encode(prompt))
	tokens = tokens.unsqueeze(0).to(device)

	generated = model.gpt.transformer.wte(tokens)

	for i in range(entry_length):

	outputs = model.gpt(inputs_embeds=generated)
	logits = outputs.logits
	logits = logits[:, -1, :] / (temperature if temperature > 0 else 1.0)
	sorted_logits, sorted_indices = torch.sort(logits, descending=True)
	cumulative_probs = torch.cumsum(nnf.softmax(sorted_logits, dim=-1), dim=-1)
	sorted_indices_to_remove = cumulative_probs > top_p
	sorted_indices_to_remove[..., 1:] = sorted_indices_to_remove[
	..., :-1
	].clone()
	sorted_indices_to_remove[..., 0] = 0

	indices_to_remove = sorted_indices[sorted_indices_to_remove]
	logits[:, indices_to_remove] = filter_value
	next_token = torch.argmax(logits, -1).unsqueeze(0)
	next_token_embed = model.gpt.transformer.wte(next_token)
	if tokens is None:
	tokens = next_token
	else:
	tokens = torch.cat((tokens, next_token), dim=1)
	generated = torch.cat((generated, next_token_embed), dim=1)
	if stop_token_index == next_token.item():
	break

	output_list = list(tokens.squeeze().cpu().numpy())
	output_text = tokenizer.decode(output_list)
	generated_list.append(output_text)

	return generated_list[0]

	is_gpu = False
	device = CUDA(0) if is_gpu else "cpu"
	clip_model, preprocess = clip.load("ViT-B/32", device=device, jit=False)
	tokenizer = GPT2Tokenizer.from_pretrained("gpt2")

	def inference(img,model_name):
	prefix_length = 10

	model = ClipCaptionModel(prefix_length)

	if model_name == "COCO":
	model_path = coco_weight
	else:
	model_path = conceptual_weight
	model.load_state_dict(torch.load(model_path, map_location=CPU))
	model = model.eval()
	device = CUDA(0) if is_gpu else "cpu"
	model = model.to(device)

	use_beam_search = False
	image = io.imread(img.name)
	pil_image = PIL.Image.fromarray(image)
	image = preprocess(pil_image).unsqueeze(0).to(device)
	with torch.no_grad():
	prefix = clip_model.encode_image(image).to(device, dtype=torch.float32)
	prefix_embed = model.clip_project(prefix).reshape(1, prefix_length, -1)
	if use_beam_search:
	generated_text_prefix = generate_beam(model, tokenizer, embed=prefix_embed)[0]
	else:
	generated_text_prefix = generate2(model, tokenizer, embed=prefix_embed)
	return generated_text_prefix

	title = "CLIP prefix captioning"
	description = "Gradio demo for CLIP prefix captioning: a simple image captioning model. To use it, simply upload your image, or click one of the examples to load them. Read more at the links below."
	article = "<p style='text-align: center'><a href='https://github.com/rmokady/CLIP_prefix_caption' target='_blank'>Github Repo</a></p>"

	examples=[['water.jpeg',"COCO"]]
	gr.Interface(
	inference,
	[gr.inputs.Image(type="file", label="Input"),gr.inputs.Radio(choices=["COCO","Conceptual captions"], type="value", default="COCO", label="Model")],
	gr.outputs.Textbox(label="Output"),
	title=title,
	description=description,
	article=article,
	enable_queue=True,
	examples=examples
	).launch(debug=True)