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test
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"""
Like image_sample.py, but use a noisy image classifier to guide the sampling
process towards more realistic images.
"""

import argparse
import os

import numpy as np
import torch as th
import torch.distributed as dist
import torch.nn.functional as F
import yaml

from guided_diffusion import dist_util, logger
from guided_diffusion.script_util import (NUM_CLASSES, add_dict_to_argparser,
                                          args_to_dict, classifier_defaults,
                                          create_classifier,
                                          create_model_and_diffusion,
                                          model_and_diffusion_defaults,
                                          sag_defaults,)

import datetime

def get_datetime():
    UTC = datetime.timezone(datetime.timedelta(hours=0))
    date = datetime.datetime.now(UTC).strftime("%Y_%m_%d-%I%M%S_%p")
    return date

def main():
    args = create_argparser().parse_args()
    save_name = f"{get_datetime()}"
    dist_util.setup_dist()
    logger.configure(dir=f'RESULTS/{save_name}')

    with open(os.path.join(logger.get_dir(), 'config.yaml'), 'w') as f:
        yaml.dump(args.__dict__, f)

    logger.log("creating model and diffusion...")
    model, diffusion = create_model_and_diffusion(
        sel_attn_depth=args.sel_attn_depth,
        sel_attn_block=args.sel_attn_block,
        **args_to_dict(args, model_and_diffusion_defaults().keys())
    )

    model.load_state_dict(
        dist_util.load_state_dict(args.model_path, map_location="cpu")
    )
    model.to(dist_util.dev())
    if args.use_fp16:
        model.convert_to_fp16()
    model.eval()

    logger.log("loading classifier...")
    classifier = create_classifier(**args_to_dict(args, classifier_defaults().keys()))
    classifier.load_state_dict(
        dist_util.load_state_dict(args.classifier_path, map_location="cpu")
    )
    classifier.to(dist_util.dev())
    if args.classifier_use_fp16:
        classifier.convert_to_fp16()
    classifier.eval()

    def cond_fn(x, t, y=None):
        assert y is not None
        with th.enable_grad():
            x_in = x.detach().requires_grad_(True)
            logits = classifier(x_in, t)
            log_probs = F.log_softmax(logits, dim=-1)
            selected = log_probs[range(len(logits)), y.view(-1)]
            return th.autograd.grad(selected.sum(), x_in)[0] * args.classifier_scale

    def model_fn(x, t, y=None):
        assert y is not None
        return model(x, t, y if args.class_cond else None)

    logger.log("sampling...")
    all_images = []
    all_labels = []
    shape_str = None
    guidance_kwargs = {}
    guidance_kwargs["guide_start"] = args.guide_start
    guidance_kwargs["guide_scale"] = args.guide_scale
    guidance_kwargs["blur_sigma"] = args.blur_sigma

    while len(all_images) * args.batch_size < args.num_samples:
        model_kwargs = {}
        classes = th.randint(
            low=0, high=NUM_CLASSES, size=(args.batch_size,), device=dist_util.dev()
        )
        model_kwargs["y"] = classes
        sample_fn = (
            diffusion.p_sample_loop if not args.use_ddim else diffusion.ddim_sample_loop
        )
        sample = sample_fn(
            model_fn,
            (args.batch_size, 3, args.image_size, args.image_size),
            clip_denoised=args.clip_denoised,
            model_kwargs=model_kwargs,
            cond_fn=None if not args.classifier_guidance else cond_fn,
            device=dist_util.dev(),
            guidance_kwargs=guidance_kwargs
        )
        sample = ((sample + 1) * 127.5).clamp(0, 255).to(th.uint8)
        sample = sample.permute(0, 2, 3, 1)
        sample = sample.contiguous()

        gathered_samples = [th.zeros_like(sample) for _ in range(dist.get_world_size())]
        dist.all_gather(gathered_samples, sample)  # gather not supported with NCCL
        all_images.extend([sample.cpu().numpy() for sample in gathered_samples])
        gathered_labels = [th.zeros_like(classes) for _ in range(dist.get_world_size())]
        dist.all_gather(gathered_labels, classes)
        all_labels.extend([labels.cpu().numpy() for labels in gathered_labels])
        logger.log(f"created {len(all_images) * args.batch_size} samples")

    arr = np.concatenate(all_images, axis=0)
    arr = arr[: args.num_samples]
    label_arr = np.concatenate(all_labels, axis=0)
    label_arr = label_arr[: args.num_samples]
    if dist.get_rank() == 0:
        shape_str = "x".join([str(x) for x in arr.shape])
        out_path = os.path.join(logger.get_dir(), f"samples_{shape_str}.npz")
        logger.log(f"saving to {out_path}")
        np.savez(out_path, arr, label_arr)

    dist.barrier()
    logger.log("sampling complete")


def create_argparser():
    defaults = dict(
        clip_denoised=True,
        num_samples=10000,
        batch_size=16,
        use_ddim=False,
        model_path="",
        classifier_path="",
        classifier_scale=1.0,
    )
    defaults.update(model_and_diffusion_defaults())
    defaults.update(classifier_defaults())
    defaults.update(sag_defaults())
    parser = argparse.ArgumentParser()
    add_dict_to_argparser(parser, defaults)
    return parser


if __name__ == "__main__":
    main()