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generative_recsys / app.py

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	DEVICE = 'cpu'

	import gradio as gr
	import numpy as np
	from sklearn.svm import LinearSVC
	from sklearn import preprocessing
	import pandas as pd
	import kornia
	import torchvision

	import random
	import time

	from diffusers import LCMScheduler
	from diffusers.models import ImageProjection
	from patch_sdxl import SDEmb
	import torch


	prompt_list = [p for p in list(set(
	pd.read_csv('./twitter_prompts.csv').iloc[:, 1].tolist())) if type(p) == str]


	model_id = "stabilityai/stable-diffusion-xl-base-1.0"
	lcm_lora_id = "latent-consistency/lcm-lora-sdxl"

	pipe = SDEmb.from_pretrained(model_id, variant="fp16")
	pipe.load_lora_weights(lcm_lora_id)
	pipe.scheduler = LCMScheduler.from_config(pipe.scheduler.config)
	pipe.to(device=DEVICE, dtype=torch.float16)

	pipe.load_ip_adapter("h94/IP-Adapter", subfolder="sdxl_models", weight_name="ip-adapter_sdxl.bin")



	calibrate_prompts = [
	"4k photo",
	'surrealist art',
	'a psychedelic, fractal view',
	'a beautiful collage',
	'an intricate portrait',
	'an impressionist painting',
	'abstract art',
	'an eldritch image',
	'a sketch',
	'a city full of darkness and graffiti',
	'a black & white photo',
	'a brilliant, timeless tarot card of the world',
	'a photo of a woman',
	'',
	]

	embs = []
	ys = []

	start_time = time.time()

	output_hidden_state = False if isinstance(pipe.unet.encoder_hid_proj, ImageProjection) else True


	transform = kornia.augmentation.RandomResizedCrop(size=(224, 224), scale=(.3, .5))
	nom = torchvision.transforms.Normalize((0.48145466, 0.4578275, 0.40821073), (0.26862954, 0.26130258, 0.27577711))
	def patch_encode_image(image):
	image = torch.tensor(torchvision.transforms.functional.pil_to_tensor(image).to(torch.float16)).repeat(16, 1, 1, 1).to(DEVICE)
	image = image / 255
	patches = nom(transform(image))
	output, _ = pipe.encode_image(
	patches, DEVICE, 1, output_hidden_state
	)
	return output.mean(0, keepdim=True)


	glob_idx = 0

	def next_image():
	global glob_idx
	glob_idx = glob_idx + 1
	with torch.no_grad():
	if len(calibrate_prompts) > 0:
	print('######### Calibrating with sample prompts #########')
	prompt = calibrate_prompts.pop(0)
	print(prompt)

	image = pipe(
	prompt=prompt,
	height=1024,
	width=1024,
	num_inference_steps=8,
	guidance_scale=0,
	ip_adapter_emb=torch.zeros(1, 1, 1280, device=DEVICE, dtype=torch.float16),
	).images


	pooled_embeds, _ = pipe.encode_image(
	image[0], DEVICE, 1, output_hidden_state
	)
	#pooled_embeds = patch_encode_image(image[0])

	embs.append(pooled_embeds)
	return image[0]
	else:
	print('######### Roaming #########')

	# sample only as many negatives as there are positives
	indices = range(len(ys))
	pos_indices = [i for i in indices if ys[i] == 1]
	neg_indices = [i for i in indices if ys[i] == 0]
	lower = min(len(pos_indices), len(neg_indices))
	neg_indices = random.sample(neg_indices, lower)
	pos_indices = random.sample(pos_indices, lower)

	cut_embs = [embs[i] for i in neg_indices] + [embs[i] for i in pos_indices]
	cut_ys = [ys[i] for i in neg_indices] + [ys[i] for i in pos_indices]

	feature_embs = torch.stack([e[0].detach().cpu() for e in cut_embs])
	scaler = preprocessing.StandardScaler().fit(feature_embs)
	feature_embs = scaler.transform(feature_embs)
	print(np.array(feature_embs).shape, np.array(ys).shape)

	lin_class = LinearSVC(max_iter=50000, dual='auto', class_weight='balanced').fit(np.array(feature_embs), np.array(cut_ys))
	lin_class.coef_ = torch.tensor(lin_class.coef_, dtype=torch.double)
	lin_class.coef_ = (lin_class.coef_.flatten() / (lin_class.coef_.flatten().norm())).unsqueeze(0)


	rng_prompt = random.choice(prompt_list)

	w = 1# if len(embs) % 2 == 0 else 0
	im_emb = w * lin_class.coef_.to(device=DEVICE, dtype=torch.float16)
	prompt= 'an image' if glob_idx % 2 == 0 else rng_prompt
	print(prompt)

	image = pipe(
	prompt=prompt,
	ip_adapter_emb=im_emb,
	height=1024,
	width=1024,
	num_inference_steps=8,
	guidance_scale=0,
	).images

	im_emb, _ = pipe.encode_image(
	image[0], DEVICE, 1, output_hidden_state
	)
	#im_emb = patch_encode_image(image[0])

	embs.append(im_emb)

	torch.save(lin_class.coef_, f'./{start_time}.pt')
	return image[0]









	def start(_):
	return [
	gr.Button(value='Like', interactive=True),
	gr.Button(value='Neither', interactive=True),
	gr.Button(value='Dislike', interactive=True),
	gr.Button(value='Start', interactive=False),
	next_image()
	]


	def choose(choice):
	if choice == 'Like':
	choice = 1
	elif choice == 'Neither':
	_ = embs.pop(-1)
	return next_image()
	else:
	choice = 0
	ys.append(choice)
	return next_image()

	css = "div#output-image {height: 768px !important; width: 768px !important; margin:auto;}"
	with gr.Blocks(css=css) as demo:
	with gr.Row():
	html = gr.HTML('''<div style='text-align:center; font-size:32'>You will callibrate for several prompts and then roam.</ div>''')
	with gr.Row(elem_id='output-image'):
	img = gr.Image(interactive=False, elem_id='output-image',)
	with gr.Row(equal_height=True):
	b3 = gr.Button(value='Dislike', interactive=False,)
	b2 = gr.Button(value='Neither', interactive=False,)
	b1 = gr.Button(value='Like', interactive=False,)
	b1.click(
	choose,
	[b1],
	[img]
	)
	b2.click(
	choose,
	[b2],
	[img]
	)
	b3.click(
	choose,
	[b3],
	[img]
	)
	with gr.Row():
	b4 = gr.Button(value='Start')
	b4.click(start,
	[b4],
	[b1, b2, b3, b4, img,])

	demo.launch() # Share your demo with just 1 extra parameter 🚀