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generative_recsys / app.py

rynmurdock

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	import gradio as gr
	import random
	import time
	import torch


	import config
	from model import get_model_and_tokenizer

	model, model.prior_pipe.image_encoder = get_model_and_tokenizer(config.model_path,
	'cuda', torch.bfloat16)

	# TODO unify/merge origin and this
	# TODO save & restart from (if it exists) dataframe parquet

	device = "cuda"


	import spaces
	import matplotlib.pyplot as plt

	import os
	import gradio as gr
	import pandas as pd
	from apscheduler.schedulers.background import BackgroundScheduler

	import random
	import time
	from PIL import Image
	# from safety_checker_improved import maybe_nsfw


	torch.set_grad_enabled(False)
	torch.backends.cuda.matmul.allow_tf32 = True
	torch.backends.cudnn.allow_tf32 = True

	prevs_df = pd.DataFrame(columns=['paths', 'embeddings', 'ips', 'user:rating', 'latest_user_to_rate', 'from_user_id', 'text', 'gemb'])

	import spaces
	start_time = time.time()

	####################### Setup Model
	from diffusers import EulerDiscreteScheduler
	from PIL import Image
	import uuid


	@spaces.GPU()
	def generate_gpu(in_im_embs, prompt='the scene'):
	with torch.no_grad():
	in_im_embs = in_im_embs.to('cuda')

	negative_image_embeds = in_im_embs[0] # model.prior_pipe.get_zero_embed()
	positive_image_embeds = in_im_embs[1]

	images = model.kandinsky_pipe(
	num_inference_steps=50,
	image_embeds=positive_image_embeds,
	negative_image_embeds=negative_image_embeds,
	guidance_scale=11,
	).images[0]
	cond = (
	model.prior_pipe.image_processor(images, return_tensors="pt")
	.pixel_values[0]
	.unsqueeze(0)
	.to(dtype=model.prior_pipe.image_encoder.dtype, device=device)
	)
	im_emb = model.prior_pipe.image_encoder(cond)["image_embeds"]
	return images, im_emb


	def generate(in_im_embs, ):
	output, im_emb = generate_gpu(in_im_embs)
	nsfw = False#maybe_nsfw(output.images[0])

	name = str(uuid.uuid4()).replace("-", "")
	path = f"/tmp/{name}.png"

	if nsfw:
	gr.Warning("NSFW content detected.")
	# TODO could return an automatic dislike of auto dislike on the backend for neither as well; just would need refactoring.
	return None, im_emb

	output.save(path)
	return path, im_emb


	#######################

	@spaces.GPU()
	def sample_embs(prompt_embeds):
	latent = torch.randn(prompt_embeds.shape[0], 1, prompt_embeds.shape[-1])
	if prompt_embeds.shape[1] < 8: # TODO grab as `k` arg from config
	prompt_embeds = torch.nn.functional.pad(prompt_embeds, [0, 0, 0, 8-prompt_embeds.shape[1]])
	assert prompt_embeds.shape[1] == 8, f"The model is set to take `k`` cond image embeds but is shape {prompt_embeds.shape}"
	image_embeds = model(latent.to('cuda'), prompt_embeds.to('cuda')).predicted_image_embedding

	return image_embeds

	@spaces.GPU()
	def get_user_emb(embs, ys):
	positives = [e for e, ys in zip(embs, ys) if ys == 1]
	embs = random.sample(positives, min(8, len(positives)))
	positives = torch.stack(embs, 1)

	negs = [e for e, ys in zip(embs, ys) if ys == 0]
	negative_embs = random.sample(negs, min(8, len(negs)))
	negatives = torch.stack(negative_embs, 1)

	image_embeds = torch.stack([sample_embs(negatives), sample_embs(positives)])

	return image_embeds


	def background_next_image():
	global prevs_df
	# only let it get N (maybe 3) ahead of the user
	#not_rated_rows = prevs_df[[i[1]['user:rating'] == {' ': ' '} for i in prevs_df.iterrows()]]
	rated_rows = prevs_df[[i[1]['user:rating'] != {' ': ' '} for i in prevs_df.iterrows()]]
	if len(rated_rows) < 4:
	time.sleep(.1)
	# not_rated_rows = prevs_df[[i[1]['user:rating'] == {' ': ' '} for i in prevs_df.iterrows()]]
	return

	user_id_list = set(rated_rows['latest_user_to_rate'].to_list())
	for uid in user_id_list:
	rated_rows = prevs_df[[i[1]['user:rating'].get(uid, None) is not None for i in prevs_df.iterrows()]]
	not_rated_rows = prevs_df[[i[1]['user:rating'].get(uid, None) is None for i in prevs_df.iterrows()]]

	# we need to intersect not_rated_rows from this user's embed > 7. Just add a new column on which user_id spawned the
	# media.

	unrated_from_user = not_rated_rows[[i[1]['from_user_id'] == uid for i in not_rated_rows.iterrows()]]

	# we don't compute more after n are in the queue for them
	if len(unrated_from_user) >= 10:
	continue

	if len(rated_rows) < 5:
	continue

	global glob_idx
	glob_idx += 1

	ems = rated_rows['embeddings'].to_list()
	ys = [i[uid][0] for i in rated_rows['user:rating'].to_list()]

	emz = get_user_emb(ems, ys)
	img, embs = generate(emz)

	if img:
	tmp_df = pd.DataFrame(columns=['paths', 'embeddings', 'ips', 'user:rating', 'latest_user_to_rate', 'text', 'gemb'])
	tmp_df['paths'] = [img]
	tmp_df['embeddings'] = [embs.to(torch.float32).to('cpu')]
	tmp_df['user:rating'] = [{' ': ' '}]
	tmp_df['from_user_id'] = [uid]
	tmp_df['text'] = ['']
	prevs_df = pd.concat((prevs_df, tmp_df))
	# we can free up storage by deleting the image
	if len(prevs_df) > 500:
	oldest_path = prevs_df.iloc[6]['paths']
	if os.path.isfile(oldest_path):
	os.remove(oldest_path)
	else:
	# If it fails, inform the user.
	print("Error: %s file not found" % oldest_path)
	# only keep 50 images & embeddings & ips, then remove oldest besides calibrating
	prevs_df = pd.concat((prevs_df.iloc[:6], prevs_df.iloc[7:]))

	def pluck_img(user_id):
	rated_rows = prevs_df[[i[1]['user:rating'].get(user_id, None) is not None for i in prevs_df.iterrows()]]
	ems = rated_rows['embeddings'].to_list()
	ys = [i[user_id][0] for i in rated_rows['user:rating'].to_list()]
	user_emb = get_user_emb(ems, ys)

	not_rated_rows = prevs_df[[i[1]['user:rating'].get(user_id, 'gone') == 'gone' for i in prevs_df.iterrows()]]
	while len(not_rated_rows) == 0:
	not_rated_rows = prevs_df[[i[1]['user:rating'].get(user_id, 'gone') == 'gone' for i in prevs_df.iterrows()]]
	time.sleep(.1)
	# TODO optimize this lol
	best_sim = -10000000
	for i in not_rated_rows.iterrows():
	# TODO sloppy .to but it is 3am.
	sim = torch.cosine_similarity(i[1]['embeddings'].detach().to('cpu'), user_emb.detach().to('cpu'), -1)
	if len(sim) > 1: sim = sim[1]
	if sim.squeeze() > best_sim:
	best_sim = sim
	best_row = i[1]
	img = best_row['paths']
	return img

	def next_image(calibrate_prompts, user_id):
	with torch.no_grad():
	if len(calibrate_prompts) > 0:
	cal_video = calibrate_prompts.pop(0)
	image = prevs_df[prevs_df['paths'] == cal_video]['paths'].to_list()[0]
	return image, calibrate_prompts,
	else:
	image = pluck_img(user_id)
	return image, calibrate_prompts









	def start(_, calibrate_prompts, user_id, request: gr.Request):
	user_id = int(str(time.time())[-7:].replace('.', ''))
	image, calibrate_prompts = next_image(calibrate_prompts, user_id)
	return [
	gr.Button(value='👍', interactive=True),
	gr.Button(value='Neither (Space)', interactive=True, visible=False),
	gr.Button(value='👎', interactive=True),
	gr.Button(value='Start', interactive=False),
	gr.Button(value='👍 Content', interactive=True, visible=False),
	gr.Button(value='👍 Style', interactive=True, visible=False),
	image,
	calibrate_prompts,
	user_id,

	]


	def choose(img, choice, calibrate_prompts, user_id, request: gr.Request):
	global prevs_df


	if choice == '👍':
	choice = [1, 1]
	elif choice == 'Neither (Space)':
	img, calibrate_prompts, = next_image(calibrate_prompts, user_id)
	return img, calibrate_prompts,
	elif choice == '👎':
	choice = [0, 0]
	elif choice == '👍 Style':
	choice = [0, 1]
	elif choice == '👍 Content':
	choice = [1, 0]
	else:
	assert False, f'choice is {choice}'

	# if we detected NSFW, leave that area of latent space regardless of how they rated chosen.
	# TODO skip allowing rating & just continue

	if img is None:
	print('NSFW -- choice is disliked')
	choice = [0, 0]

	row_mask = [p.split('/')[-1] in img for p in prevs_df['paths'].to_list()]
	# if it's still in the dataframe, add the choice
	if len(prevs_df.loc[row_mask, 'user:rating']) > 0:
	prevs_df.loc[row_mask, 'user:rating'][0][user_id] = choice
	print(row_mask, prevs_df.loc[row_mask, 'latest_user_to_rate'], [user_id])
	prevs_df.loc[row_mask, 'latest_user_to_rate'] = [user_id]
	img, calibrate_prompts = next_image(calibrate_prompts, user_id)
	return img, calibrate_prompts

	css = '''.gradio-container{max-width: 700px !important}
	#description{text-align: center}
	#description h1, #description h3{display: block}
	#description p{margin-top: 0}
	.fade-in-out {animation: fadeInOut 3s forwards}
	@keyframes fadeInOut {
	0% {
	background: var(--bg-color);
	}
	100% {
	background: var(--button-secondary-background-fill);
	}
	}
	'''
	js_head = '''
	<script>
	document.addEventListener('keydown', function(event) {
	if (event.key === 'a' \|\| event.key === 'A') {
	// Trigger click on 'dislike' if 'A' is pressed
	document.getElementById('dislike').click();
	} else if (event.key === ' ' \|\| event.keyCode === 32) {
	// Trigger click on 'neither' if Spacebar is pressed
	document.getElementById('neither').click();
	} else if (event.key === 'l' \|\| event.key === 'L') {
	// Trigger click on 'like' if 'L' is pressed
	document.getElementById('like').click();
	}
	});
	function fadeInOut(button, color) {
	button.style.setProperty('--bg-color', color);
	button.classList.remove('fade-in-out');
	void button.offsetWidth; // This line forces a repaint by accessing a DOM property

	button.classList.add('fade-in-out');
	button.addEventListener('animationend', () => {
	button.classList.remove('fade-in-out'); // Reset the animation state
	}, {once: true});
	}
	document.body.addEventListener('click', function(event) {
	const target = event.target;
	if (target.id === 'dislike') {
	fadeInOut(target, '#ff1717');
	} else if (target.id === 'like') {
	fadeInOut(target, '#006500');
	} else if (target.id === 'neither') {
	fadeInOut(target, '#cccccc');
	}
	});

	</script>
	'''

	with gr.Blocks(css=css, head=js_head) as demo:
	gr.Markdown('''# Zahir
	### Generative Recommenders for Exporation of Possible Images

	Explore the latent space without text prompts based on your preferences. Learn more on [the write-up](https://rynmurdock.github.io/posts/2024/3/generative_recomenders/).
	''', elem_id="description")
	user_id = gr.State()
	# calibration videos -- this is a misnomer now :D
	calibrate_prompts = [
	'./5o.png',
	'./2o.png',
	'./6o.png',
	'./7o.png',
	'./1o.png',
	'./8o.png',
	'./3o.png',
	'./4o.png',
	'./10o.png',
	'./9o.png',
	]
	calibrate_prompts = gr.State(['image_init/'+c for c in calibrate_prompts])
	def l():
	return None

	with gr.Row(elem_id='output-image'):
	img = gr.Image(
	label='Lightning',
	interactive=False,
	elem_id="output_im",
	type='filepath',
	)



	with gr.Row(equal_height=True):
	b3 = gr.Button(value='👎', interactive=False, elem_id="dislike")

	b2 = gr.Button(value='Neither (Space)', interactive=False, elem_id="neither", visible=False)

	b1 = gr.Button(value='👍', interactive=False, elem_id="like")
	with gr.Row(equal_height=True):
	b6 = gr.Button(value='👍 Style', interactive=False, elem_id="dislike like", visible=False)

	b5 = gr.Button(value='👍 Content', interactive=False, elem_id="like dislike", visible=False)

	b1.click(
	choose,
	[img, b1, calibrate_prompts, user_id],
	[img, calibrate_prompts, ],
	)
	b2.click(
	choose,
	[img, b2, calibrate_prompts, user_id],
	[img, calibrate_prompts, ],
	)
	b3.click(
	choose,
	[img, b3, calibrate_prompts, user_id],
	[img, calibrate_prompts, ],
	)
	b5.click(
	choose,
	[img, b5, calibrate_prompts, user_id],
	[img, calibrate_prompts, ],
	)
	b6.click(
	choose,
	[img, b6, calibrate_prompts, user_id],
	[img, calibrate_prompts, ],
	)
	with gr.Row():
	b4 = gr.Button(value='Start')
	b4.click(start,
	[b4, calibrate_prompts, user_id],
	[b1, b2, b3, b4, b5, b6, img, calibrate_prompts, user_id, ]
	)
	with gr.Row():
	html = gr.HTML('''<div style='text-align:center; font-size:20px'>You will calibrate for several images and then roam. </ div><br><br><br>

	<br><br>
	<div style='text-align:center; font-size:14px'>Thanks to @multimodalart for their contributions to the demo, esp. the interface and @maxbittker for feedback.
	</ div>''')

	# TODO quiet logging
	scheduler = BackgroundScheduler()
	scheduler.add_job(func=background_next_image, trigger="interval", seconds=.2)
	scheduler.start()

	# TODO shouldn't call this before gradio launch, yeah?
	@spaces.GPU()
	def encode_space(x):
	im = (
	model.prior_pipe.image_processor(x, return_tensors="pt")
	.pixel_values[0]
	.unsqueeze(0)
	.to(dtype=model.prior_pipe.image_encoder.dtype, device=device)
	)
	im_emb = model.prior_pipe.image_encoder(im)["image_embeds"]
	return im_emb.detach().to('cpu').to(torch.float32)

	# prep our calibration videos
	m_calibrate = [ # DO NOT NAME THESE PNGs JUST NUMBERS! apparently we assign images by number
	('./1o.png', 'describe the scene: omens in the suburbs'),
	('./2o.png', 'describe the scene: geometric abstract art of a windmill'),
	('./3o.png', 'describe the scene: memento mori'),
	('./4o.png', 'describe the scene: a green plate with anespresso'),
	('./5o.png', '5 '),
	('./6o.png', '6 '),
	('./7o.png', '7 '),
	('./8o.png', '8 '),
	('./9o.png', '9 '),
	('./10o.png', '10 '),
	]
	m_calibrate = [('image_init/'+c[0], c[1]) for c in m_calibrate]
	for im, txt in m_calibrate:
	tmp_df = pd.DataFrame(columns=['paths', 'embeddings', 'ips', 'user:rating', 'text', 'gemb'])
	tmp_df['paths'] = [im]
	image = Image.open(im).convert('RGB')
	im_emb = encode_space(image)

	tmp_df['embeddings'] = [im_emb.detach().to('cpu')]
	tmp_df['user:rating'] = [{' ': ' '}]
	tmp_df['text'] = [txt]
	prevs_df = pd.concat((prevs_df, tmp_df))

	glob_idx = 0
	demo.launch(share=True,)