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import os

os.system("git clone --recursive https://github.com/JD-P/cloob-latent-diffusion")
os.system("cd cloob-latent-diffusion;pip install omegaconf pillow pytorch-lightning==1.6.5 einops wandb ftfy regex ./CLIP")

import argparse
from functools import partial
from pathlib import Path
import sys
sys.path.append('./cloob-latent-diffusion')
sys.path.append('./cloob-latent-diffusion/cloob-training')
sys.path.append('./cloob-latent-diffusion/latent-diffusion')
sys.path.append('./cloob-latent-diffusion/taming-transformers')
sys.path.append('./cloob-latent-diffusion/v-diffusion-pytorch')
from omegaconf import OmegaConf
from PIL import Image
import torch
from torch import nn
from torch.nn import functional as F
from torchvision import transforms
from torchvision.transforms import functional as TF
from tqdm import trange
from CLIP import clip
from cloob_training import model_pt, pretrained
import ldm.models.autoencoder
from diffusion import sampling, utils
import train_latent_diffusion as train
from huggingface_hub import hf_hub_url, hf_hub_download
import random

# Download the model files
checkpoint = hf_hub_download("huggan/distill-ccld-wa", filename="model_student.ckpt")
ae_model_path = hf_hub_download("huggan/ccld_wa", filename="ae_model.ckpt")
ae_config_path = hf_hub_download("huggan/ccld_wa", filename="ae_model.yaml")

# Define a few utility functions

def parse_prompt(prompt, default_weight=3.):
    if prompt.startswith('http://') or prompt.startswith('https://'):
        vals = prompt.rsplit(':', 2)
        vals = [vals[0] + ':' + vals[1], *vals[2:]]
    else:
        vals = prompt.rsplit(':', 1)
    vals = vals + ['', default_weight][len(vals):]
    return vals[0], float(vals[1])


def resize_and_center_crop(image, size):
    fac = max(size[0] / image.size[0], size[1] / image.size[1])
    image = image.resize((int(fac * image.size[0]), int(fac * image.size[1])), Image.LANCZOS)
    return TF.center_crop(image, size[::-1])


# Load the models
device = torch.device('cuda:0' if torch.cuda.is_available() else 'cpu')
print('Using device:', device)
print('loading models')
# autoencoder
ae_config = OmegaConf.load(ae_config_path)
ae_model = ldm.models.autoencoder.AutoencoderKL(**ae_config.model.params)
ae_model.eval().requires_grad_(False).to(device)
ae_model.load_state_dict(torch.load(ae_model_path, weights_only=True))
n_ch, side_y, side_x = 4, 32, 32

# diffusion model
model = train.DiffusionModel(192, [1,1,2,2], autoencoder_scale=torch.tensor(4.3084))
model.load_state_dict(torch.load(checkpoint, map_location='cpu', weights_only=True))
model = model.to(device).eval().requires_grad_(False)

# CLOOB
cloob_config = pretrained.get_config('cloob_laion_400m_vit_b_16_16_epochs')
cloob = model_pt.get_pt_model(cloob_config)
checkpoint = pretrained.download_checkpoint(cloob_config)
cloob.load_state_dict(model_pt.get_pt_params(cloob_config, checkpoint))
cloob.eval().requires_grad_(False).to(device)


# The key function: returns a list of n PIL images
def generate(n=1, prompts=['a red circle'], images=[], seed=42, steps=15,
             method='plms', eta=None):
  zero_embed = torch.zeros([1, cloob.config['d_embed']], device=device)
  target_embeds, weights = [zero_embed], []

  for prompt in prompts:
      txt, weight = parse_prompt(prompt)
      target_embeds.append(cloob.text_encoder(cloob.tokenize(txt).to(device)).float())
      weights.append(weight)

  for prompt in images:
      path, weight = parse_prompt(prompt)
      img = Image.open(utils.fetch(path)).convert('RGB')
      clip_size = cloob.config['image_encoder']['image_size']
      img = resize_and_center_crop(img, (clip_size, clip_size))
      batch = TF.to_tensor(img)[None].to(device)
      embed = F.normalize(cloob.image_encoder(cloob.normalize(batch)).float(), dim=-1)
      target_embeds.append(embed)
      weights.append(weight)

  weights = torch.tensor([1 - sum(weights), *weights], device=device)

  torch.manual_seed(seed)

  def cfg_model_fn(x, t):
      n = x.shape[0]
      n_conds = len(target_embeds)
      x_in = x.repeat([n_conds, 1, 1, 1])
      t_in = t.repeat([n_conds])
      clip_embed_in = torch.cat([*target_embeds]).repeat_interleave(n, 0)
      vs = model(x_in, t_in, clip_embed_in).view([n_conds, n, *x.shape[1:]])
      v = vs.mul(weights[:, None, None, None, None]).sum(0)
      return v

  def run(x, steps):
      if method == 'ddpm':
          return sampling.sample(cfg_model_fn, x, steps, 1., {})
      if method == 'ddim':
          return sampling.sample(cfg_model_fn, x, steps, eta, {})
      if method == 'prk':
          return sampling.prk_sample(cfg_model_fn, x, steps, {})
      if method == 'plms':
          return sampling.plms_sample(cfg_model_fn, x, steps, {})
      if method == 'pie':
          return sampling.pie_sample(cfg_model_fn, x, steps, {})
      if method == 'plms2':
          return sampling.plms2_sample(cfg_model_fn, x, steps, {})
      assert False

  batch_size = n
  x = torch.randn([n, n_ch, side_y, side_x], device=device)
  t = torch.linspace(1, 0, steps + 1, device=device)[:-1]
  steps = utils.get_spliced_ddpm_cosine_schedule(t)
  pil_ims = []
  for i in trange(0, n, batch_size):
      cur_batch_size = min(n - i, batch_size)
      out_latents = run(x[i:i+cur_batch_size], steps)
      outs = ae_model.decode(out_latents * torch.tensor(2.55).to(device))
      for j, out in enumerate(outs):
          pil_ims.append(utils.to_pil_image(out))

  return pil_ims
  
  
import gradio as gr

def gen_ims(prompt, im_prompt=None, seed=None, n_steps=10, method='plms'):
  if seed == None :
    seed = random.randint(0, 10000)
  print( prompt, im_prompt, seed, n_steps)
  prompts = [prompt]
  im_prompts = []
  if im_prompt != None:
    im_prompts = [im_prompt]
  pil_ims = generate(n=1, prompts=prompts, images=im_prompts, seed=seed, steps=n_steps, method=method)
  return pil_ims[0]

iface = gr.Interface(fn=gen_ims, 
  inputs=[#gr.inputs.Slider(minimum=1, maximum=1, step=1, default=1,label="Number of images"),
          #gr.inputs.Slider(minimum=0, maximum=200, step=1, label='Random seed', default=0),
          gr.Textbox(label="Text prompt"),
          gr.Image(label="Image prompt", type='filepath'),
          #gr.inputs.Slider(minimum=10, maximum=35, step=1, default=15,label="Number of steps")
          ], 
  outputs=[gr.Image(type="pil", label="Generated Image")],
  examples=[["An iceberg, oil on canvas"],["A martian landscape, in the style of Monet"], ['A peaceful meadow, pastel crayons'], ["A painting of a vase of flowers"], ["A ship leaving the port in the summer, oil on canvas"]],
  title='Generate art from text prompts :',
  description="By typing a text prompt or providing an image prompt, and pressing submit you can generate images based on this prompt. The model was trained on images from the [WikiArt](https://huggingface.co/datasets/huggan/wikiart) dataset, comprised mostly of paintings.",
  article = 'The model is a distilled version of a cloob-conditioned latent diffusion model fine-tuned on the WikiArt dataset. You can find more information on this model on the [model card](https://huggingface.co/huggan/distill-ccld-wa). The student model training and this demo were done by [@gigant](https://huggingface.co/gigant). The teacher model was trained by [@johnowhitaker](https://huggingface.co/johnowhitaker)'

)
iface.launch() # , debug=True for colab debugging enable_queue=True