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# -*- coding: utf-8 -*-
"""Copy of compose_glide.ipynb
Automatically generated by Colaboratory.
Original file is located at
https://colab.research.google.com/drive/19xx6Nu4FeiGj-TzTUFxBf-15IkeuFx_F
"""
import streamlit as st
import gradio as gr
import torch as th
from composable_diffusion.download import download_model
from composable_diffusion.model_creation import create_model_and_diffusion as create_model_and_diffusion_for_clevr
from composable_diffusion.model_creation import model_and_diffusion_defaults as model_and_diffusion_defaults_for_clevr
from torch import autocast
from composable_stable_diffusion_pipeline import ComposableStableDiffusionPipeline
# This notebook supports both CPU and GPU.
# On CPU, generating one sample may take on the order of 20 minutes.
# On a GPU, it should be under a minute.
has_cuda = th.cuda.is_available()
device = th.device('cpu' if not th.cuda.is_available() else 'cuda')
print(device)
# init stable diffusion model
pipe = ComposableStableDiffusionPipeline.from_pretrained(
"CompVis/stable-diffusion-v1-4",
use_auth_token=st.secrets["USER_TOKEN"]
).to(device)
# create model for CLEVR Objects
clevr_options = model_and_diffusion_defaults_for_clevr()
flags = {
"image_size": 128,
"num_channels": 192,
"num_res_blocks": 2,
"learn_sigma": True,
"use_scale_shift_norm": False,
"raw_unet": True,
"noise_schedule": "squaredcos_cap_v2",
"rescale_learned_sigmas": False,
"rescale_timesteps": False,
"num_classes": '2',
"dataset": "clevr_pos",
"use_fp16": has_cuda,
"timestep_respacing": '100'
}
for key, val in flags.items():
clevr_options[key] = val
clevr_model, clevr_diffusion = create_model_and_diffusion_for_clevr(**clevr_options)
clevr_model.eval()
if has_cuda:
clevr_model.convert_to_fp16()
clevr_model.to(device)
clevr_model.load_state_dict(th.load(download_model('clevr_pos'), device))
print('total clevr_pos parameters', sum(x.numel() for x in clevr_model.parameters()))
def compose_clevr_objects(prompt, guidance_scale, steps):
coordinates = [[float(x.split(',')[0].strip()), float(x.split(',')[1].strip())]
for x in prompt.split('|')]
coordinates += [[-1, -1]] # add unconditional score label
batch_size = 1
clevr_options['timestep_respacing'] = str(int(steps))
_, clevr_diffusion = create_model_and_diffusion_for_clevr(**clevr_options)
def model_fn(x_t, ts, **kwargs):
half = x_t[:1]
combined = th.cat([half] * kwargs['y'].size(0), dim=0)
model_out = clevr_model(combined, ts, **kwargs)
eps, rest = model_out[:, :3], model_out[:, 3:]
masks = kwargs.get('masks')
cond_eps = eps[masks].mean(dim=0, keepdim=True)
uncond_eps = eps[~masks].mean(dim=0, keepdim=True)
half_eps = uncond_eps + guidance_scale * (cond_eps - uncond_eps)
eps = th.cat([half_eps] * x_t.size(0), dim=0)
return th.cat([eps, rest], dim=1)
def sample(coordinates):
masks = [True] * (len(coordinates) - 1) + [False]
model_kwargs = dict(
y=th.tensor(coordinates, dtype=th.float, device=device),
masks=th.tensor(masks, dtype=th.bool, device=device)
)
samples = clevr_diffusion.p_sample_loop(
model_fn,
(len(coordinates), 3, clevr_options["image_size"], clevr_options["image_size"]),
device=device,
clip_denoised=True,
progress=True,
model_kwargs=model_kwargs,
cond_fn=None,
)[:batch_size]
return samples
samples = sample(coordinates)
out_img = samples[0].permute(1, 2, 0)
out_img = (out_img + 1) / 2
out_img = (out_img.detach().cpu() * 255.).to(th.uint8)
out_img = out_img.numpy()
return out_img
def stable_diffusion_compose(prompt, scale, steps):
with autocast('cpu' if not th.cuda.is_available() else 'cuda'):
image = pipe(prompt, guidance_scale=scale, num_inference_steps=steps)["sample"][0]
return image
def compose(prompt, version, guidance_scale, steps):
try:
with th.no_grad():
if version == 'Stable_Diffusion_1v_4':
return stable_diffusion_compose(prompt, guidance_scale, steps)
else:
return compose_clevr_objects(prompt, guidance_scale, steps)
except Exception as e:
print(e)
return None
examples_1 = 'a camel | a forest'
examples_2 = 'A blue sky | A mountain in the horizon | Cherry Blossoms in front of the mountain'
examples_3 = '0.1, 0.5 | 0.3, 0.5 | 0.5, 0.5 | 0.7, 0.5 | 0.9, 0.5'
examples_4 = 'a blue house | a desert'
examples_5 = 'a white church | lightning in the background'
examples_6 = 'a camel | arctic'
examples_7 = 'A lake | A mountain | Cherry Blossoms next to the lake'
examples = [
[examples_7, 'Stable_Diffusion_1v_4', 15, 50],
[examples_5, 'Stable_Diffusion_1v_4', 15, 50],
[examples_4, 'Stable_Diffusion_1v_4', 15, 50],
[examples_6, 'Stable_Diffusion_1v_4', 15, 50],
[examples_3, 'CLEVR Objects', 10, 100]
]
title = 'Compositional Visual Generation with Composable Diffusion Models'
description = '<p>Demo for Composable Diffusion<ul><li>~30s per Stable-Diffusion example</li><li>~10s per CLEVR Object example</li>(<b>Note</b>: time is varied depending on what gpu is used.)</ul></p><p>See more information from our <a href="https://energy-based-model.github.io/Compositional-Visual-Generation-with-Composable-Diffusion-Models/">Project Page</a>.</p><ul><li>One version is based on the released <a href="https://github.com/openai/glide-text2im">GLIDE</a> and <a href="https://github.com/CompVis/stable-diffusion/">Stable Diffusion</a> for composing natural language description.</li><li>Another is based on our pre-trained CLEVR Object Model for composing objects. <br>(<b>Note</b>: We recommend using <b><i>x</i></b> in range <b><i>[0.1, 0.9]</i></b> and <b><i>y</i></b> in range <b><i>[0.25, 0.7]</i></b>, since the training dataset labels are in given ranges.)</li></ul><p>When composing multiple sentences, use `|` as the delimiter, see given examples below.</p><p><b>Note: When using Stable Diffusion, black images will be returned if the given prompt is detected as problematic. For composing GLIDE model, we recommend using the Colab demo in our <a href="https://energy-based-model.github.io/Compositional-Visual-Generation-with-Composable-Diffusion-Models/">Project Page</a>.</b></p>'
iface = gr.Interface(compose,
inputs=[
"text",
gr.Radio(['Stable_Diffusion_1v_4', 'CLEVR Objects'], type="value", label='version'),
gr.Slider(2, 30),
gr.Slider(10, 200)
],
outputs='image', cache_examples=False,
title=title, description=description, examples=examples)
iface.launch()
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