from __future__ import annotations import math import os import sys import traceback import shutil import numpy as np from PIL import Image import torch import tqdm from typing import Callable, List, OrderedDict, Tuple from functools import partial from dataclasses import dataclass from modules import processing, shared, images, devices, sd_models, sd_samplers from modules.shared import opts import modules.gfpgan_model from modules.ui import plaintext_to_html import modules.codeformer_model import gradio as gr import safetensors.torch class LruCache(OrderedDict): @dataclass(frozen=True) class Key: image_hash: int info_hash: int args_hash: int @dataclass class Value: image: Image.Image info: str def __init__(self, max_size: int = 5, *args, **kwargs): super().__init__(*args, **kwargs) self._max_size = max_size def get(self, key: LruCache.Key) -> LruCache.Value: ret = super().get(key) if ret is not None: self.move_to_end(key) # Move to end of eviction list return ret def put(self, key: LruCache.Key, value: LruCache.Value) -> None: self[key] = value while len(self) > self._max_size: self.popitem(last=False) cached_images: LruCache = LruCache(max_size=5) def run_extras(extras_mode, resize_mode, image, image_folder, input_dir, output_dir, show_extras_results, gfpgan_visibility, codeformer_visibility, codeformer_weight, upscaling_resize, upscaling_resize_w, upscaling_resize_h, upscaling_crop, extras_upscaler_1, extras_upscaler_2, extras_upscaler_2_visibility, upscale_first: bool, save_output: bool = True): devices.torch_gc() shared.state.begin() shared.state.job = 'extras' imageArr = [] # Also keep track of original file names imageNameArr = [] outputs = [] if extras_mode == 1: #convert file to pillow image for img in image_folder: image = Image.open(img) imageArr.append(image) imageNameArr.append(os.path.splitext(img.orig_name)[0]) elif extras_mode == 2: assert not shared.cmd_opts.hide_ui_dir_config, '--hide-ui-dir-config option must be disabled' if input_dir == '': return outputs, "Please select an input directory.", '' image_list = shared.listfiles(input_dir) for img in image_list: try: image = Image.open(img) except Exception: continue imageArr.append(image) imageNameArr.append(img) else: imageArr.append(image) imageNameArr.append(None) if extras_mode == 2 and output_dir != '': outpath = output_dir else: outpath = opts.outdir_samples or opts.outdir_extras_samples # Extra operation definitions def run_gfpgan(image: Image.Image, info: str) -> Tuple[Image.Image, str]: shared.state.job = 'extras-gfpgan' restored_img = modules.gfpgan_model.gfpgan_fix_faces(np.array(image, dtype=np.uint8)) res = Image.fromarray(restored_img) if gfpgan_visibility < 1.0: res = Image.blend(image, res, gfpgan_visibility) info += f"GFPGAN visibility:{round(gfpgan_visibility, 2)}\n" return (res, info) def run_codeformer(image: Image.Image, info: str) -> Tuple[Image.Image, str]: shared.state.job = 'extras-codeformer' restored_img = modules.codeformer_model.codeformer.restore(np.array(image, dtype=np.uint8), w=codeformer_weight) res = Image.fromarray(restored_img) if codeformer_visibility < 1.0: res = Image.blend(image, res, codeformer_visibility) info += f"CodeFormer w: {round(codeformer_weight, 2)}, CodeFormer visibility:{round(codeformer_visibility, 2)}\n" return (res, info) def upscale(image, scaler_index, resize, mode, resize_w, resize_h, crop): shared.state.job = 'extras-upscale' upscaler = shared.sd_upscalers[scaler_index] res = upscaler.scaler.upscale(image, resize, upscaler.data_path) if mode == 1 and crop: cropped = Image.new("RGB", (resize_w, resize_h)) cropped.paste(res, box=(resize_w // 2 - res.width // 2, resize_h // 2 - res.height // 2)) res = cropped return res def run_prepare_crop(image: Image.Image, info: str) -> Tuple[Image.Image, str]: # Actual crop happens in run_upscalers_blend, this just sets upscaling_resize and adds info text nonlocal upscaling_resize if resize_mode == 1: upscaling_resize = max(upscaling_resize_w/image.width, upscaling_resize_h/image.height) crop_info = " (crop)" if upscaling_crop else "" info += f"Resize to: {upscaling_resize_w:g}x{upscaling_resize_h:g}{crop_info}\n" return (image, info) @dataclass class UpscaleParams: upscaler_idx: int blend_alpha: float def run_upscalers_blend(params: List[UpscaleParams], image: Image.Image, info: str) -> Tuple[Image.Image, str]: blended_result: Image.Image = None image_hash: str = hash(np.array(image.getdata()).tobytes()) for upscaler in params: upscale_args = (upscaler.upscaler_idx, upscaling_resize, resize_mode, upscaling_resize_w, upscaling_resize_h, upscaling_crop) cache_key = LruCache.Key(image_hash=image_hash, info_hash=hash(info), args_hash=hash(upscale_args)) cached_entry = cached_images.get(cache_key) if cached_entry is None: res = upscale(image, *upscale_args) info += f"Upscale: {round(upscaling_resize, 3)}, visibility: {upscaler.blend_alpha}, model:{shared.sd_upscalers[upscaler.upscaler_idx].name}\n" cached_images.put(cache_key, LruCache.Value(image=res, info=info)) else: res, info = cached_entry.image, cached_entry.info if blended_result is None: blended_result = res else: blended_result = Image.blend(blended_result, res, upscaler.blend_alpha) return (blended_result, info) # Build a list of operations to run facefix_ops: List[Callable] = [] facefix_ops += [run_gfpgan] if gfpgan_visibility > 0 else [] facefix_ops += [run_codeformer] if codeformer_visibility > 0 else [] upscale_ops: List[Callable] = [] upscale_ops += [run_prepare_crop] if resize_mode == 1 else [] if upscaling_resize != 0: step_params: List[UpscaleParams] = [] step_params.append(UpscaleParams(upscaler_idx=extras_upscaler_1, blend_alpha=1.0)) if extras_upscaler_2 != 0 and extras_upscaler_2_visibility > 0: step_params.append(UpscaleParams(upscaler_idx=extras_upscaler_2, blend_alpha=extras_upscaler_2_visibility)) upscale_ops.append(partial(run_upscalers_blend, step_params)) extras_ops: List[Callable] = (upscale_ops + facefix_ops) if upscale_first else (facefix_ops + upscale_ops) for image, image_name in zip(imageArr, imageNameArr): if image is None: return outputs, "Please select an input image.", '' shared.state.textinfo = f'Processing image {image_name}' existing_pnginfo = image.info or {} image = image.convert("RGB") info = "" # Run each operation on each image for op in extras_ops: image, info = op(image, info) if opts.use_original_name_batch and image_name is not None: basename = os.path.splitext(os.path.basename(image_name))[0] else: basename = '' if opts.enable_pnginfo: # append info before save image.info = existing_pnginfo image.info["extras"] = info if save_output: # Add upscaler name as a suffix. suffix = f"-{shared.sd_upscalers[extras_upscaler_1].name}" if shared.opts.use_upscaler_name_as_suffix else "" # Add second upscaler if applicable. if suffix and extras_upscaler_2 and extras_upscaler_2_visibility: suffix += f"-{shared.sd_upscalers[extras_upscaler_2].name}" images.save_image(image, path=outpath, basename=basename, seed=None, prompt=None, extension=opts.samples_format, info=info, short_filename=True, no_prompt=True, grid=False, pnginfo_section_name="extras", existing_info=existing_pnginfo, forced_filename=None, suffix=suffix) if extras_mode != 2 or show_extras_results : outputs.append(image) devices.torch_gc() return outputs, plaintext_to_html(info), '' def clear_cache(): cached_images.clear() def run_pnginfo(image): if image is None: return '', '', '' geninfo, items = images.read_info_from_image(image) items = {**{'parameters': geninfo}, **items} info = '' for key, text in items.items(): info += f"""

{plaintext_to_html(str(key))}

{plaintext_to_html(str(text))}

""".strip()+"\n" if len(info) == 0: message = "Nothing found in the image." info = f"

{message}

" return '', geninfo, info def create_config(ckpt_result, config_source, a, b, c): def config(x): return sd_models.find_checkpoint_config(x) if x else None if config_source == 0: cfg = config(a) or config(b) or config(c) elif config_source == 1: cfg = config(b) elif config_source == 2: cfg = config(c) else: cfg = None if cfg is None: return filename, _ = os.path.splitext(ckpt_result) checkpoint_filename = filename + ".yaml" print("Copying config:") print(" from:", cfg) print(" to:", checkpoint_filename) shutil.copyfile(cfg, checkpoint_filename) def run_modelmerger(primary_model_name, secondary_model_name, tertiary_model_name, interp_method, multiplier, save_as_half, custom_name, checkpoint_format, config_source): shared.state.begin() shared.state.job = 'model-merge' def weighted_sum(theta0, theta1, alpha): return ((1 - alpha) * theta0) + (alpha * theta1) def get_difference(theta1, theta2): return theta1 - theta2 def add_difference(theta0, theta1_2_diff, alpha): return theta0 + (alpha * theta1_2_diff) if not primary_model_name: shared.state.textinfo = "Failed: Merging requires a primary model." shared.state.end() return ["Failed: Merging requires a primary model."] + [gr.Dropdown.update(choices=sd_models.checkpoint_tiles()) for _ in range(4)] primary_model_info = sd_models.checkpoints_list[primary_model_name] if not secondary_model_name: shared.state.textinfo = "Failed: Merging requires a secondary model." shared.state.end() return ["Failed: Merging requires a secondary model."] + [gr.Dropdown.update(choices=sd_models.checkpoint_tiles()) for _ in range(4)] secondary_model_info = sd_models.checkpoints_list[secondary_model_name] theta_funcs = { "Weighted sum": (None, weighted_sum), "Add difference": (get_difference, add_difference), } theta_func1, theta_func2 = theta_funcs[interp_method] tertiary_model_info = None if theta_func1 and not tertiary_model_name: shared.state.textinfo = "Failed: Interpolation method requires a tertiary model." shared.state.end() return [f"Failed: Interpolation method ({interp_method}) requires a tertiary model."] + [gr.Dropdown.update(choices=sd_models.checkpoint_tiles()) for _ in range(4)] else: tertiary_model_info = sd_models.checkpoints_list.get(tertiary_model_name, None) result_is_inpainting_model = False shared.state.textinfo = f"Loading {secondary_model_info.filename}..." print(f"Loading {secondary_model_info.filename}...") theta_1 = sd_models.read_state_dict(secondary_model_info.filename, map_location='cpu') if theta_func1: print(f"Loading {tertiary_model_info.filename}...") theta_2 = sd_models.read_state_dict(tertiary_model_info.filename, map_location='cpu') for key in tqdm.tqdm(theta_1.keys()): if 'model' in key: if key in theta_2: t2 = theta_2.get(key, torch.zeros_like(theta_1[key])) theta_1[key] = theta_func1(theta_1[key], t2) else: theta_1[key] = torch.zeros_like(theta_1[key]) del theta_2 shared.state.textinfo = f"Loading {primary_model_info.filename}..." print(f"Loading {primary_model_info.filename}...") theta_0 = sd_models.read_state_dict(primary_model_info.filename, map_location='cpu') print("Merging...") chckpoint_dict_skip_on_merge = ["cond_stage_model.transformer.text_model.embeddings.position_ids"] for key in tqdm.tqdm(theta_0.keys()): if 'model' in key and key in theta_1: if key in chckpoint_dict_skip_on_merge: continue a = theta_0[key] b = theta_1[key] shared.state.textinfo = f'Merging layer {key}' # this enables merging an inpainting model (A) with another one (B); # where normal model would have 4 channels, for latenst space, inpainting model would # have another 4 channels for unmasked picture's latent space, plus one channel for mask, for a total of 9 if a.shape != b.shape and a.shape[0:1] + a.shape[2:] == b.shape[0:1] + b.shape[2:]: if a.shape[1] == 4 and b.shape[1] == 9: raise RuntimeError("When merging inpainting model with a normal one, A must be the inpainting model.") assert a.shape[1] == 9 and b.shape[1] == 4, f"Bad dimensions for merged layer {key}: A={a.shape}, B={b.shape}" theta_0[key][:, 0:4, :, :] = theta_func2(a[:, 0:4, :, :], b, multiplier) result_is_inpainting_model = True else: theta_0[key] = theta_func2(a, b, multiplier) if save_as_half: theta_0[key] = theta_0[key].half() # I believe this part should be discarded, but I'll leave it for now until I am sure for key in theta_1.keys(): if 'model' in key and key not in theta_0: if key in chckpoint_dict_skip_on_merge: continue theta_0[key] = theta_1[key] if save_as_half: theta_0[key] = theta_0[key].half() del theta_1 ckpt_dir = shared.cmd_opts.ckpt_dir or sd_models.model_path filename = \ primary_model_info.model_name + '_' + str(round(1-multiplier, 2)) + '-' + \ secondary_model_info.model_name + '_' + str(round(multiplier, 2)) + '-' + \ interp_method.replace(" ", "_") + \ '-merged.' + \ ("inpainting." if result_is_inpainting_model else "") + \ checkpoint_format filename = filename if custom_name == '' else (custom_name + '.' + checkpoint_format) output_modelname = os.path.join(ckpt_dir, filename) shared.state.textinfo = f"Saving to {output_modelname}..." print(f"Saving to {output_modelname}...") _, extension = os.path.splitext(output_modelname) if extension.lower() == ".safetensors": safetensors.torch.save_file(theta_0, output_modelname, metadata={"format": "pt"}) else: torch.save(theta_0, output_modelname) sd_models.list_models() create_config(output_modelname, config_source, primary_model_info, secondary_model_info, tertiary_model_info) print("Checkpoint saved.") shared.state.textinfo = "Checkpoint saved to " + output_modelname shared.state.end() return ["Checkpoint saved to " + output_modelname] + [gr.Dropdown.update(choices=sd_models.checkpoint_tiles()) for _ in range(4)]