mirror of
https://github.com/easydiffusion/easydiffusion.git
synced 2024-12-27 09:28:56 +01:00
65b2c056c6
This reverts commit 0dd38870e0
.
499 lines
17 KiB
Python
499 lines
17 KiB
Python
import os, re
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import traceback
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import torch
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import numpy as np
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from omegaconf import OmegaConf
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from PIL import Image
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from tqdm import tqdm, trange
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from itertools import islice
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from einops import rearrange
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import time
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from pytorch_lightning import seed_everything
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from torch import autocast
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from contextlib import nullcontext
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from einops import rearrange, repeat
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from ldm.util import instantiate_from_config
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from optimizedSD.optimUtils import split_weighted_subprompts
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from transformers import logging
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from gfpgan import GFPGANer
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from basicsr.archs.rrdbnet_arch import RRDBNet
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from realesrgan import RealESRGANer
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import uuid
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logging.set_verbosity_error()
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# consts
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config_yaml = "optimizedSD/v1-inference.yaml"
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filename_regex = re.compile('[^a-zA-Z0-9]')
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# api stuff
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from . import Request, Response, Image as ResponseImage
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import base64
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from io import BytesIO
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# local
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session_id = str(uuid.uuid4())[-8:]
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ckpt_file = None
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gfpgan_file = None
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real_esrgan_file = None
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model = None
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modelCS = None
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modelFS = None
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model_gfpgan = None
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model_real_esrgan = None
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model_is_half = False
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model_fs_is_half = False
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device = None
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unet_bs = 1
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precision = 'autocast'
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sampler_plms = None
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sampler_ddim = None
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has_valid_gpu = False
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force_full_precision = False
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try:
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gpu_name = torch.cuda.get_device_name(torch.cuda.current_device())
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has_valid_gpu = True
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force_full_precision = ('nvidia' in gpu_name.lower()) and ('1660' in gpu_name or ' 1650' in gpu_name) # otherwise these NVIDIA cards create green images
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if force_full_precision:
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print('forcing full precision on NVIDIA 16xx cards, to avoid green images. GPU detected: ', gpu_name)
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except:
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print('WARNING: No compatible GPU found. Using the CPU, but this will be very slow!')
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pass
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def load_model_ckpt(ckpt_to_use, device_to_use='cuda', turbo=False, unet_bs_to_use=1, precision_to_use='autocast', half_model_fs=False):
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global ckpt_file, model, modelCS, modelFS, model_is_half, device, unet_bs, precision, model_fs_is_half
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ckpt_file = ckpt_to_use
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device = device_to_use if has_valid_gpu else 'cpu'
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precision = precision_to_use if not force_full_precision else 'full'
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unet_bs = unet_bs_to_use
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if device == 'cpu':
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precision = 'full'
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sd = load_model_from_config(f"{ckpt_file}.ckpt")
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li, lo = [], []
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for key, value in sd.items():
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sp = key.split(".")
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if (sp[0]) == "model":
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if "input_blocks" in sp:
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li.append(key)
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elif "middle_block" in sp:
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li.append(key)
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elif "time_embed" in sp:
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li.append(key)
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else:
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lo.append(key)
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for key in li:
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sd["model1." + key[6:]] = sd.pop(key)
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for key in lo:
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sd["model2." + key[6:]] = sd.pop(key)
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config = OmegaConf.load(f"{config_yaml}")
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model = instantiate_from_config(config.modelUNet)
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_, _ = model.load_state_dict(sd, strict=False)
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model.eval()
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model.cdevice = device
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model.unet_bs = unet_bs
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model.turbo = turbo
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modelCS = instantiate_from_config(config.modelCondStage)
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_, _ = modelCS.load_state_dict(sd, strict=False)
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modelCS.eval()
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modelCS.cond_stage_model.device = device
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modelFS = instantiate_from_config(config.modelFirstStage)
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_, _ = modelFS.load_state_dict(sd, strict=False)
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modelFS.eval()
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del sd
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if device != "cpu" and precision == "autocast":
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model.half()
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modelCS.half()
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model_is_half = True
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else:
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model_is_half = False
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if half_model_fs:
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modelFS.half()
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model_fs_is_half = True
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else:
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model_fs_is_half = False
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print('loaded ', ckpt_file, 'to', device, 'precision', precision)
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def load_model_gfpgan(gfpgan_to_use):
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global gfpgan_file, model_gfpgan
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if gfpgan_to_use is None:
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return
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gfpgan_file = gfpgan_to_use
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model_path = gfpgan_to_use + ".pth"
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if device == 'cpu':
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model_gfpgan = GFPGANer(model_path=model_path, upscale=1, arch='clean', channel_multiplier=2, bg_upsampler=None, device=torch.device('cpu'))
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else:
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model_gfpgan = GFPGANer(model_path=model_path, upscale=1, arch='clean', channel_multiplier=2, bg_upsampler=None, device=torch.device('cuda'))
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print('loaded ', gfpgan_to_use, 'to', device, 'precision', precision)
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def load_model_real_esrgan(real_esrgan_to_use):
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global real_esrgan_file, model_real_esrgan
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if real_esrgan_to_use is None:
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return
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real_esrgan_file = real_esrgan_to_use
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model_path = real_esrgan_to_use + ".pth"
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RealESRGAN_models = {
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'RealESRGAN_x4plus': RRDBNet(num_in_ch=3, num_out_ch=3, num_feat=64, num_block=23, num_grow_ch=32, scale=4),
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'RealESRGAN_x4plus_anime_6B': RRDBNet(num_in_ch=3, num_out_ch=3, num_feat=64, num_block=6, num_grow_ch=32, scale=4)
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}
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model_to_use = RealESRGAN_models[real_esrgan_to_use]
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if device == 'cpu':
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model_real_esrgan = RealESRGANer(scale=2, model_path=model_path, model=model_to_use, pre_pad=0, half=False) # cpu does not support half
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model_real_esrgan.device = torch.device('cpu')
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model_real_esrgan.model.to('cpu')
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else:
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model_real_esrgan = RealESRGANer(scale=2, model_path=model_path, model=model_to_use, pre_pad=0, half=model_is_half)
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model_real_esrgan.model.name = real_esrgan_to_use
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print('loaded ', real_esrgan_to_use, 'to', device, 'precision', precision)
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def mk_img(req: Request):
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global modelFS, device
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global model_gfpgan, model_real_esrgan
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res = Response()
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res.images = []
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model.turbo = req.turbo
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if req.use_cpu:
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if device != 'cpu':
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device = 'cpu'
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if model_is_half:
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load_model_ckpt(ckpt_file, device)
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load_model_gfpgan(gfpgan_file)
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load_model_real_esrgan(real_esrgan_file)
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else:
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if has_valid_gpu:
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prev_device = device
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device = 'cuda'
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if (precision == 'autocast' and (req.use_full_precision or not model_is_half)) or \
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(precision == 'full' and not req.use_full_precision and not force_full_precision) or \
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(req.init_image is None and model_fs_is_half) or \
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(req.init_image is not None and not model_fs_is_half and not force_full_precision):
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load_model_ckpt(ckpt_file, device, model.turbo, unet_bs, ('full' if req.use_full_precision else 'autocast'), half_model_fs=(req.init_image is not None and not req.use_full_precision))
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if prev_device != device:
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load_model_gfpgan(gfpgan_file)
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load_model_real_esrgan(real_esrgan_file)
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if req.use_face_correction != gfpgan_file:
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load_model_gfpgan(req.use_face_correction)
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if req.use_upscale != real_esrgan_file:
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load_model_real_esrgan(req.use_upscale)
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model.cdevice = device
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modelCS.cond_stage_model.device = device
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opt_prompt = req.prompt
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opt_seed = req.seed
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opt_n_samples = req.num_outputs
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opt_n_iter = 1
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opt_scale = req.guidance_scale
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opt_C = 4
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opt_H = req.height
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opt_W = req.width
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opt_f = 8
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opt_ddim_steps = req.num_inference_steps
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opt_ddim_eta = 0.0
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opt_strength = req.prompt_strength
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opt_save_to_disk_path = req.save_to_disk_path
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opt_init_img = req.init_image
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opt_use_face_correction = req.use_face_correction
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opt_use_upscale = req.use_upscale
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opt_show_only_filtered = req.show_only_filtered_image
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opt_format = 'png'
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print(req.to_string(), '\n device', device)
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print('\n\n Using precision:', precision)
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seed_everything(opt_seed)
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batch_size = opt_n_samples
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prompt = opt_prompt
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assert prompt is not None
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data = [batch_size * [prompt]]
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if precision == "autocast" and device != "cpu":
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precision_scope = autocast
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else:
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precision_scope = nullcontext
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if req.init_image is None:
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handler = _txt2img
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init_latent = None
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t_enc = None
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else:
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handler = _img2img
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init_image = load_img(req.init_image)
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init_image = init_image.to(device)
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if device != "cpu" and precision == "autocast":
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init_image = init_image.half()
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modelFS.to(device)
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init_image = repeat(init_image, '1 ... -> b ...', b=batch_size)
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init_latent = modelFS.get_first_stage_encoding(modelFS.encode_first_stage(init_image)) # move to latent space
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if device != "cpu":
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mem = torch.cuda.memory_allocated() / 1e6
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modelFS.to("cpu")
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while torch.cuda.memory_allocated() / 1e6 >= mem:
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time.sleep(1)
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assert 0. <= opt_strength <= 1., 'can only work with strength in [0.0, 1.0]'
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t_enc = int(opt_strength * opt_ddim_steps)
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print(f"target t_enc is {t_enc} steps")
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if opt_save_to_disk_path is not None:
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session_out_path = os.path.join(opt_save_to_disk_path, session_id)
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os.makedirs(session_out_path, exist_ok=True)
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else:
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session_out_path = None
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seeds = ""
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with torch.no_grad():
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for n in trange(opt_n_iter, desc="Sampling"):
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for prompts in tqdm(data, desc="data"):
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with precision_scope("cuda"):
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modelCS.to(device)
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uc = None
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if opt_scale != 1.0:
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uc = modelCS.get_learned_conditioning(batch_size * [""])
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if isinstance(prompts, tuple):
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prompts = list(prompts)
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subprompts, weights = split_weighted_subprompts(prompts[0])
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if len(subprompts) > 1:
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c = torch.zeros_like(uc)
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totalWeight = sum(weights)
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# normalize each "sub prompt" and add it
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for i in range(len(subprompts)):
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weight = weights[i]
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# if not skip_normalize:
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weight = weight / totalWeight
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c = torch.add(c, modelCS.get_learned_conditioning(subprompts[i]), alpha=weight)
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else:
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c = modelCS.get_learned_conditioning(prompts)
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# run the handler
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if handler == _txt2img:
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x_samples = _txt2img(opt_W, opt_H, opt_n_samples, opt_ddim_steps, opt_scale, None, opt_C, opt_f, opt_ddim_eta, c, uc, opt_seed)
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else:
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x_samples = _img2img(init_latent, t_enc, batch_size, opt_scale, c, uc, opt_ddim_steps, opt_ddim_eta, opt_seed)
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modelFS.to(device)
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print("saving images")
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for i in range(batch_size):
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x_samples_ddim = modelFS.decode_first_stage(x_samples[i].unsqueeze(0))
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x_sample = torch.clamp((x_samples_ddim + 1.0) / 2.0, min=0.0, max=1.0)
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x_sample = 255.0 * rearrange(x_sample[0].cpu().numpy(), "c h w -> h w c")
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x_sample = x_sample.astype(np.uint8)
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img = Image.fromarray(x_sample)
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if opt_save_to_disk_path is not None:
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prompt_flattened = filename_regex.sub('_', prompts[0])
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prompt_flattened = prompt_flattened[:50]
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img_id = str(uuid.uuid4())[-8:]
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file_path = f"{prompt_flattened}_{img_id}"
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img_out_path = os.path.join(session_out_path, f"{file_path}.{opt_format}")
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meta_out_path = os.path.join(session_out_path, f"{file_path}.txt")
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if not opt_show_only_filtered:
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save_image(img, img_out_path)
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save_metadata(meta_out_path, prompts, opt_seed, opt_W, opt_H, opt_ddim_steps, opt_scale, opt_strength, opt_use_face_correction, opt_use_upscale)
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if not opt_show_only_filtered:
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img_data = img_to_base64_str(img)
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res.images.append(ResponseImage(data=img_data, seed=opt_seed))
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if (opt_use_face_correction is not None and opt_use_face_correction.startswith('GFPGAN')) or \
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(opt_use_upscale is not None and opt_use_upscale.startswith('RealESRGAN')):
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gc()
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filters_applied = []
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if opt_use_face_correction:
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_, _, output = model_gfpgan.enhance(x_sample[:,:,::-1], has_aligned=False, only_center_face=False, paste_back=True)
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x_sample = output[:,:,::-1]
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filters_applied.append(opt_use_face_correction)
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if opt_use_upscale:
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output, _ = model_real_esrgan.enhance(x_sample[:,:,::-1])
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x_sample = output[:,:,::-1]
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filters_applied.append(opt_use_upscale)
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filtered_image = Image.fromarray(x_sample)
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filtered_img_data = img_to_base64_str(filtered_image)
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res.images.append(ResponseImage(data=filtered_img_data, seed=opt_seed))
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filters_applied = "_".join(filters_applied)
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if opt_save_to_disk_path is not None:
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filtered_img_out_path = os.path.join(session_out_path, f"{file_path}_{filters_applied}.{opt_format}")
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save_image(filtered_image, filtered_img_out_path)
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seeds += str(opt_seed) + ","
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opt_seed += 1
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if device != "cpu":
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mem = torch.cuda.memory_allocated() / 1e6
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modelFS.to("cpu")
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while torch.cuda.memory_allocated() / 1e6 >= mem:
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time.sleep(1)
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del x_samples
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print("memory_final = ", torch.cuda.memory_allocated() / 1e6)
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return res
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def save_image(img, img_out_path):
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try:
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img.save(img_out_path)
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except:
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print('could not save the file', traceback.format_exc())
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def save_metadata(meta_out_path, prompts, opt_seed, opt_W, opt_H, opt_ddim_steps, opt_scale, opt_prompt_strength, opt_correct_face, opt_upscale):
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metadata = f"{prompts[0]}\nWidth: {opt_W}\nHeight: {opt_H}\nSeed: {opt_seed}\nSteps: {opt_ddim_steps}\nGuidance Scale: {opt_scale}\nPrompt Strength: {opt_prompt_strength}\nUse Face Correction: {opt_correct_face}\nUse Upscaling: {opt_upscale}"
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try:
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with open(meta_out_path, 'w') as f:
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f.write(metadata)
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except:
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print('could not save the file', traceback.format_exc())
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def _txt2img(opt_W, opt_H, opt_n_samples, opt_ddim_steps, opt_scale, start_code, opt_C, opt_f, opt_ddim_eta, c, uc, opt_seed):
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shape = [opt_n_samples, opt_C, opt_H // opt_f, opt_W // opt_f]
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if device != "cpu":
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mem = torch.cuda.memory_allocated() / 1e6
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modelCS.to("cpu")
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while torch.cuda.memory_allocated() / 1e6 >= mem:
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time.sleep(1)
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samples_ddim = model.sample(
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S=opt_ddim_steps,
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conditioning=c,
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seed=opt_seed,
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shape=shape,
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verbose=False,
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unconditional_guidance_scale=opt_scale,
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unconditional_conditioning=uc,
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eta=opt_ddim_eta,
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x_T=start_code,
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sampler = 'plms',
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)
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return samples_ddim
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def _img2img(init_latent, t_enc, batch_size, opt_scale, c, uc, opt_ddim_steps, opt_ddim_eta, opt_seed):
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# encode (scaled latent)
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z_enc = model.stochastic_encode(
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init_latent,
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torch.tensor([t_enc] * batch_size).to(device),
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opt_seed,
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opt_ddim_eta,
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opt_ddim_steps,
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)
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# decode it
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samples_ddim = model.sample(
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t_enc,
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c,
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z_enc,
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unconditional_guidance_scale=opt_scale,
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unconditional_conditioning=uc,
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sampler = 'ddim'
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)
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return samples_ddim
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def gc():
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if device == 'cpu':
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return
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torch.cuda.empty_cache()
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torch.cuda.ipc_collect()
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# internal
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def chunk(it, size):
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it = iter(it)
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return iter(lambda: tuple(islice(it, size)), ())
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def load_model_from_config(ckpt, verbose=False):
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print(f"Loading model from {ckpt}")
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pl_sd = torch.load(ckpt, map_location="cpu")
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if "global_step" in pl_sd:
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print(f"Global Step: {pl_sd['global_step']}")
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sd = pl_sd["state_dict"]
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return sd
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# utils
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|
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def load_img(img_str):
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image = base64_str_to_img(img_str).convert("RGB")
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w, h = image.size
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print(f"loaded input image of size ({w}, {h}) from base64")
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w, h = map(lambda x: x - x % 64, (w, h)) # resize to integer multiple of 64
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image = image.resize((w, h), resample=Image.LANCZOS)
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image = np.array(image).astype(np.float32) / 255.0
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image = image[None].transpose(0, 3, 1, 2)
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|
image = torch.from_numpy(image)
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|
return 2.*image - 1.
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|
|
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# https://stackoverflow.com/a/61114178
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|
def img_to_base64_str(img):
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|
buffered = BytesIO()
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|
img.save(buffered, format="PNG")
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|
buffered.seek(0)
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|
img_byte = buffered.getvalue()
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|
img_str = "data:image/png;base64," + base64.b64encode(img_byte).decode()
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|
return img_str
|
|
|
|
def base64_str_to_img(img_str):
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|
img_str = img_str[len("data:image/png;base64,"):]
|
|
data = base64.b64decode(img_str)
|
|
buffered = BytesIO(data)
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|
img = Image.open(buffered)
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|
return img
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