moved deepdanbooru to pure pytorch implementation
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@ -70,7 +70,7 @@ Check the [custom scripts](https://github.com/AUTOMATIC1111/stable-diffusion-web
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- separate prompts using uppercase `AND`
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- also supports weights for prompts: `a cat :1.2 AND a dog AND a penguin :2.2`
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- No token limit for prompts (original stable diffusion lets you use up to 75 tokens)
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- DeepDanbooru integration, creates danbooru style tags for anime prompts (add --deepdanbooru to commandline args)
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- DeepDanbooru integration, creates danbooru style tags for anime prompts
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- [xformers](https://github.com/AUTOMATIC1111/stable-diffusion-webui/wiki/Xformers), major speed increase for select cards: (add --xformers to commandline args)
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- via extension: [History tab](https://github.com/yfszzx/stable-diffusion-webui-images-browser): view, direct and delete images conveniently within the UI
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- Generate forever option
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@ -134,7 +134,6 @@ def prepare_enviroment():
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gfpgan_package = os.environ.get('GFPGAN_PACKAGE', "git+https://github.com/TencentARC/GFPGAN.git@8d2447a2d918f8eba5a4a01463fd48e45126a379")
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clip_package = os.environ.get('CLIP_PACKAGE', "git+https://github.com/openai/CLIP.git@d50d76daa670286dd6cacf3bcd80b5e4823fc8e1")
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deepdanbooru_package = os.environ.get('DEEPDANBOORU_PACKAGE', "git+https://github.com/KichangKim/DeepDanbooru.git@d91a2963bf87c6a770d74894667e9ffa9f6de7ff")
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xformers_windows_package = os.environ.get('XFORMERS_WINDOWS_PACKAGE', 'https://github.com/C43H66N12O12S2/stable-diffusion-webui/releases/download/f/xformers-0.0.14.dev0-cp310-cp310-win_amd64.whl')
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@ -158,7 +157,6 @@ def prepare_enviroment():
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sys.argv, update_check = extract_arg(sys.argv, '--update-check')
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sys.argv, run_tests = extract_arg(sys.argv, '--tests')
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xformers = '--xformers' in sys.argv
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deepdanbooru = '--deepdanbooru' in sys.argv
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ngrok = '--ngrok' in sys.argv
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try:
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@ -193,9 +191,6 @@ def prepare_enviroment():
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elif platform.system() == "Linux":
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run_pip("install xformers", "xformers")
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if not is_installed("deepdanbooru") and deepdanbooru:
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run_pip(f"install {deepdanbooru_package}#egg=deepdanbooru[tensorflow] tensorflow==2.10.0 tensorflow-io==0.27.0", "deepdanbooru")
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if not is_installed("pyngrok") and ngrok:
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run_pip("install pyngrok", "ngrok")
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@ -9,7 +9,7 @@ from fastapi.security import HTTPBasic, HTTPBasicCredentials
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from secrets import compare_digest
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import modules.shared as shared
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from modules import sd_samplers
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from modules import sd_samplers, deepbooru
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from modules.api.models import *
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from modules.processing import StableDiffusionProcessingTxt2Img, StableDiffusionProcessingImg2Img, process_images
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from modules.extras import run_extras, run_pnginfo
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@ -18,9 +18,6 @@ from modules.sd_models import checkpoints_list
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from modules.realesrgan_model import get_realesrgan_models
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from typing import List
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if shared.cmd_opts.deepdanbooru:
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from modules.deepbooru import get_deepbooru_tags
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def upscaler_to_index(name: str):
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try:
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return [x.name.lower() for x in shared.sd_upscalers].index(name.lower())
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@ -245,10 +242,7 @@ class Api:
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if interrogatereq.model == "clip":
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processed = shared.interrogator.interrogate(img)
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elif interrogatereq.model == "deepdanbooru":
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if shared.cmd_opts.deepdanbooru:
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processed = get_deepbooru_tags(img)
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else:
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raise HTTPException(status_code=404, detail="Model not found. Add --deepdanbooru when launching for using the model.")
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processed = deepbooru.model.tag(img)
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else:
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raise HTTPException(status_code=404, detail="Model not found")
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@ -1,173 +1,97 @@
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import os.path
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from concurrent.futures import ProcessPoolExecutor
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import multiprocessing
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import time
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import os
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import re
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import torch
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from PIL import Image
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import numpy as np
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from modules import modelloader, paths, deepbooru_model, devices, images, shared
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re_special = re.compile(r'([\\()])')
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def get_deepbooru_tags(pil_image):
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"""
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This method is for running only one image at a time for simple use. Used to the img2img interrogate.
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"""
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from modules import shared # prevents circular reference
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try:
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create_deepbooru_process(shared.opts.interrogate_deepbooru_score_threshold, create_deepbooru_opts())
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return get_tags_from_process(pil_image)
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finally:
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release_process()
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class DeepDanbooru:
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def __init__(self):
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self.model = None
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def load(self):
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if self.model is not None:
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return
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OPT_INCLUDE_RANKS = "include_ranks"
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def create_deepbooru_opts():
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from modules import shared
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return {
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"use_spaces": shared.opts.deepbooru_use_spaces,
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"use_escape": shared.opts.deepbooru_escape,
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"alpha_sort": shared.opts.deepbooru_sort_alpha,
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OPT_INCLUDE_RANKS: shared.opts.interrogate_return_ranks,
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}
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def deepbooru_process(queue, deepbooru_process_return, threshold, deepbooru_opts):
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model, tags = get_deepbooru_tags_model()
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while True: # while process is running, keep monitoring queue for new image
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pil_image = queue.get()
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if pil_image == "QUIT":
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break
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else:
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deepbooru_process_return["value"] = get_deepbooru_tags_from_model(model, tags, pil_image, threshold, deepbooru_opts)
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def create_deepbooru_process(threshold, deepbooru_opts):
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"""
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Creates deepbooru process. A queue is created to send images into the process. This enables multiple images
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to be processed in a row without reloading the model or creating a new process. To return the data, a shared
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dictionary is created to hold the tags created. To wait for tags to be returned, a value of -1 is assigned
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to the dictionary and the method adding the image to the queue should wait for this value to be updated with
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the tags.
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"""
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from modules import shared # prevents circular reference
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context = multiprocessing.get_context("spawn")
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shared.deepbooru_process_manager = context.Manager()
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shared.deepbooru_process_queue = shared.deepbooru_process_manager.Queue()
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shared.deepbooru_process_return = shared.deepbooru_process_manager.dict()
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shared.deepbooru_process_return["value"] = -1
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shared.deepbooru_process = context.Process(target=deepbooru_process, args=(shared.deepbooru_process_queue, shared.deepbooru_process_return, threshold, deepbooru_opts))
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shared.deepbooru_process.start()
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def get_tags_from_process(image):
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from modules import shared
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shared.deepbooru_process_return["value"] = -1
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shared.deepbooru_process_queue.put(image)
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while shared.deepbooru_process_return["value"] == -1:
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time.sleep(0.2)
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caption = shared.deepbooru_process_return["value"]
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shared.deepbooru_process_return["value"] = -1
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return caption
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def release_process():
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"""
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Stops the deepbooru process to return used memory
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"""
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from modules import shared # prevents circular reference
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shared.deepbooru_process_queue.put("QUIT")
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shared.deepbooru_process.join()
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shared.deepbooru_process_queue = None
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shared.deepbooru_process = None
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shared.deepbooru_process_return = None
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shared.deepbooru_process_manager = None
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def get_deepbooru_tags_model():
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import deepdanbooru as dd
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import tensorflow as tf
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import numpy as np
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this_folder = os.path.dirname(__file__)
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model_path = os.path.abspath(os.path.join(this_folder, '..', 'models', 'deepbooru'))
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if not os.path.exists(os.path.join(model_path, 'project.json')):
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# there is no point importing these every time
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import zipfile
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from basicsr.utils.download_util import load_file_from_url
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load_file_from_url(
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r"https://github.com/KichangKim/DeepDanbooru/releases/download/v3-20211112-sgd-e28/deepdanbooru-v3-20211112-sgd-e28.zip",
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model_path)
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with zipfile.ZipFile(os.path.join(model_path, "deepdanbooru-v3-20211112-sgd-e28.zip"), "r") as zip_ref:
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zip_ref.extractall(model_path)
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os.remove(os.path.join(model_path, "deepdanbooru-v3-20211112-sgd-e28.zip"))
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tags = dd.project.load_tags_from_project(model_path)
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model = dd.project.load_model_from_project(
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model_path, compile_model=False
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files = modelloader.load_models(
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model_path=os.path.join(paths.models_path, "torch_deepdanbooru"),
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model_url='https://github.com/AUTOMATIC1111/TorchDeepDanbooru/releases/download/v1/model-resnet_custom_v3.pt',
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ext_filter=".pt",
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download_name='model-resnet_custom_v3.pt',
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)
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return model, tags
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self.model = deepbooru_model.DeepDanbooruModel()
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self.model.load_state_dict(torch.load(files[0], map_location="cpu"))
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def get_deepbooru_tags_from_model(model, tags, pil_image, threshold, deepbooru_opts):
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import deepdanbooru as dd
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import tensorflow as tf
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import numpy as np
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self.model.eval()
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self.model.to(devices.cpu, devices.dtype)
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alpha_sort = deepbooru_opts['alpha_sort']
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use_spaces = deepbooru_opts['use_spaces']
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use_escape = deepbooru_opts['use_escape']
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include_ranks = deepbooru_opts['include_ranks']
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def start(self):
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self.load()
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self.model.to(devices.device)
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width = model.input_shape[2]
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height = model.input_shape[1]
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image = np.array(pil_image)
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image = tf.image.resize(
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image,
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size=(height, width),
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method=tf.image.ResizeMethod.AREA,
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preserve_aspect_ratio=True,
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)
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image = image.numpy() # EagerTensor to np.array
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image = dd.image.transform_and_pad_image(image, width, height)
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image = image / 255.0
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image_shape = image.shape
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image = image.reshape((1, image_shape[0], image_shape[1], image_shape[2]))
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def stop(self):
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if not shared.opts.interrogate_keep_models_in_memory:
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self.model.to(devices.cpu)
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devices.torch_gc()
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y = model.predict(image)[0]
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def tag(self, pil_image):
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self.start()
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res = self.tag_multi(pil_image)
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self.stop()
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result_dict = {}
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return res
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for i, tag in enumerate(tags):
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result_dict[tag] = y[i]
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def tag_multi(self, pil_image, force_disable_ranks=False):
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threshold = shared.opts.interrogate_deepbooru_score_threshold
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use_spaces = shared.opts.deepbooru_use_spaces
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use_escape = shared.opts.deepbooru_escape
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alpha_sort = shared.opts.deepbooru_sort_alpha
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include_ranks = shared.opts.interrogate_return_ranks and not force_disable_ranks
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pic = images.resize_image(2, pil_image.convert("RGB"), 512, 512)
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a = np.expand_dims(np.array(pic, dtype=np.float32), 0) / 255
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with torch.no_grad(), devices.autocast():
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x = torch.from_numpy(a).cuda()
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y = self.model(x)[0].detach().cpu().numpy()
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probability_dict = {}
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for tag, probability in zip(self.model.tags, y):
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if probability < threshold:
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continue
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unsorted_tags_in_theshold = []
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result_tags_print = []
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for tag in tags:
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if result_dict[tag] >= threshold:
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if tag.startswith("rating:"):
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continue
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unsorted_tags_in_theshold.append((result_dict[tag], tag))
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result_tags_print.append(f'{result_dict[tag]} {tag}')
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# sort tags
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result_tags_out = []
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sort_ndx = 0
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probability_dict[tag] = probability
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if alpha_sort:
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sort_ndx = 1
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tags = sorted(probability_dict)
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else:
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tags = [tag for tag, _ in sorted(probability_dict.items(), key=lambda x: -x[1])]
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# sort by reverse by likelihood and normal for alpha, and format tag text as requested
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unsorted_tags_in_theshold.sort(key=lambda y: y[sort_ndx], reverse=(not alpha_sort))
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for weight, tag in unsorted_tags_in_theshold:
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res = []
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for tag in tags:
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probability = probability_dict[tag]
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tag_outformat = tag
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if use_spaces:
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tag_outformat = tag_outformat.replace('_', ' ')
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if use_escape:
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tag_outformat = re.sub(re_special, r'\\\1', tag_outformat)
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if include_ranks:
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tag_outformat = f"({tag_outformat}:{weight:.3f})"
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tag_outformat = f"({tag_outformat}:{probability:.3f})"
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result_tags_out.append(tag_outformat)
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res.append(tag_outformat)
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print('\n'.join(sorted(result_tags_print, reverse=True)))
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return ", ".join(res)
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return ', '.join(result_tags_out)
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model = DeepDanbooru()
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modules/deepbooru_model.py
Normal file
676
modules/deepbooru_model.py
Normal file
@ -0,0 +1,676 @@
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import torch
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import torch.nn as nn
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import torch.nn.functional as F
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# see https://github.com/AUTOMATIC1111/TorchDeepDanbooru for more
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class DeepDanbooruModel(nn.Module):
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def __init__(self):
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super(DeepDanbooruModel, self).__init__()
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self.tags = []
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self.n_Conv_0 = nn.Conv2d(kernel_size=(7, 7), in_channels=3, out_channels=64, stride=(2, 2))
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self.n_MaxPool_0 = nn.MaxPool2d(kernel_size=(3, 3), stride=(2, 2))
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self.n_Conv_1 = nn.Conv2d(kernel_size=(1, 1), in_channels=64, out_channels=256)
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self.n_Conv_2 = nn.Conv2d(kernel_size=(1, 1), in_channels=64, out_channels=64)
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self.n_Conv_3 = nn.Conv2d(kernel_size=(3, 3), in_channels=64, out_channels=64)
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self.n_Conv_4 = nn.Conv2d(kernel_size=(1, 1), in_channels=64, out_channels=256)
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self.n_Conv_5 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=64)
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self.n_Conv_6 = nn.Conv2d(kernel_size=(3, 3), in_channels=64, out_channels=64)
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self.n_Conv_7 = nn.Conv2d(kernel_size=(1, 1), in_channels=64, out_channels=256)
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self.n_Conv_8 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=64)
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self.n_Conv_9 = nn.Conv2d(kernel_size=(3, 3), in_channels=64, out_channels=64)
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self.n_Conv_10 = nn.Conv2d(kernel_size=(1, 1), in_channels=64, out_channels=256)
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self.n_Conv_11 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=512, stride=(2, 2))
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self.n_Conv_12 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=128)
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self.n_Conv_13 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128, stride=(2, 2))
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self.n_Conv_14 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_15 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_16 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_17 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_18 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_19 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_20 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_21 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_22 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_23 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_24 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_25 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_26 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_27 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_28 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_29 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_30 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_31 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_32 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
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self.n_Conv_33 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=128)
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self.n_Conv_34 = nn.Conv2d(kernel_size=(3, 3), in_channels=128, out_channels=128)
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self.n_Conv_35 = nn.Conv2d(kernel_size=(1, 1), in_channels=128, out_channels=512)
|
||||
self.n_Conv_36 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=1024, stride=(2, 2))
|
||||
self.n_Conv_37 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=256)
|
||||
self.n_Conv_38 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256, stride=(2, 2))
|
||||
self.n_Conv_39 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_40 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_41 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_42 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_43 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_44 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_45 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_46 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_47 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_48 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_49 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_50 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_51 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_52 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_53 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_54 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_55 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_56 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_57 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_58 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_59 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_60 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_61 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_62 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_63 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_64 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_65 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_66 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_67 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_68 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_69 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_70 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_71 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_72 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_73 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_74 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_75 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_76 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_77 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_78 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_79 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_80 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_81 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_82 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_83 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_84 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_85 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_86 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_87 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_88 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_89 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_90 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_91 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_92 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_93 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_94 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_95 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_96 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_97 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_98 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256, stride=(2, 2))
|
||||
self.n_Conv_99 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_100 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=1024, stride=(2, 2))
|
||||
self.n_Conv_101 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_102 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_103 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_104 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_105 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_106 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_107 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_108 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_109 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_110 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_111 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_112 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_113 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_114 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_115 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_116 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_117 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_118 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_119 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_120 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_121 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_122 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_123 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_124 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_125 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_126 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_127 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_128 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_129 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_130 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_131 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_132 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_133 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_134 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_135 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_136 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_137 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_138 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_139 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_140 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_141 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_142 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_143 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_144 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_145 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_146 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_147 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_148 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_149 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_150 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_151 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_152 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_153 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_154 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_155 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=256)
|
||||
self.n_Conv_156 = nn.Conv2d(kernel_size=(3, 3), in_channels=256, out_channels=256)
|
||||
self.n_Conv_157 = nn.Conv2d(kernel_size=(1, 1), in_channels=256, out_channels=1024)
|
||||
self.n_Conv_158 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=2048, stride=(2, 2))
|
||||
self.n_Conv_159 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=512)
|
||||
self.n_Conv_160 = nn.Conv2d(kernel_size=(3, 3), in_channels=512, out_channels=512, stride=(2, 2))
|
||||
self.n_Conv_161 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=2048)
|
||||
self.n_Conv_162 = nn.Conv2d(kernel_size=(1, 1), in_channels=2048, out_channels=512)
|
||||
self.n_Conv_163 = nn.Conv2d(kernel_size=(3, 3), in_channels=512, out_channels=512)
|
||||
self.n_Conv_164 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=2048)
|
||||
self.n_Conv_165 = nn.Conv2d(kernel_size=(1, 1), in_channels=2048, out_channels=512)
|
||||
self.n_Conv_166 = nn.Conv2d(kernel_size=(3, 3), in_channels=512, out_channels=512)
|
||||
self.n_Conv_167 = nn.Conv2d(kernel_size=(1, 1), in_channels=512, out_channels=2048)
|
||||
self.n_Conv_168 = nn.Conv2d(kernel_size=(1, 1), in_channels=2048, out_channels=4096, stride=(2, 2))
|
||||
self.n_Conv_169 = nn.Conv2d(kernel_size=(1, 1), in_channels=2048, out_channels=1024)
|
||||
self.n_Conv_170 = nn.Conv2d(kernel_size=(3, 3), in_channels=1024, out_channels=1024, stride=(2, 2))
|
||||
self.n_Conv_171 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=4096)
|
||||
self.n_Conv_172 = nn.Conv2d(kernel_size=(1, 1), in_channels=4096, out_channels=1024)
|
||||
self.n_Conv_173 = nn.Conv2d(kernel_size=(3, 3), in_channels=1024, out_channels=1024)
|
||||
self.n_Conv_174 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=4096)
|
||||
self.n_Conv_175 = nn.Conv2d(kernel_size=(1, 1), in_channels=4096, out_channels=1024)
|
||||
self.n_Conv_176 = nn.Conv2d(kernel_size=(3, 3), in_channels=1024, out_channels=1024)
|
||||
self.n_Conv_177 = nn.Conv2d(kernel_size=(1, 1), in_channels=1024, out_channels=4096)
|
||||
self.n_Conv_178 = nn.Conv2d(kernel_size=(1, 1), in_channels=4096, out_channels=9176, bias=False)
|
||||
|
||||
def forward(self, *inputs):
|
||||
t_358, = inputs
|
||||
t_359 = t_358.permute(*[0, 3, 1, 2])
|
||||
t_359_padded = F.pad(t_359, [2, 3, 2, 3], value=0)
|
||||
t_360 = self.n_Conv_0(t_359_padded)
|
||||
t_361 = F.relu(t_360)
|
||||
t_361 = F.pad(t_361, [0, 1, 0, 1], value=float('-inf'))
|
||||
t_362 = self.n_MaxPool_0(t_361)
|
||||
t_363 = self.n_Conv_1(t_362)
|
||||
t_364 = self.n_Conv_2(t_362)
|
||||
t_365 = F.relu(t_364)
|
||||
t_365_padded = F.pad(t_365, [1, 1, 1, 1], value=0)
|
||||
t_366 = self.n_Conv_3(t_365_padded)
|
||||
t_367 = F.relu(t_366)
|
||||
t_368 = self.n_Conv_4(t_367)
|
||||
t_369 = torch.add(t_368, t_363)
|
||||
t_370 = F.relu(t_369)
|
||||
t_371 = self.n_Conv_5(t_370)
|
||||
t_372 = F.relu(t_371)
|
||||
t_372_padded = F.pad(t_372, [1, 1, 1, 1], value=0)
|
||||
t_373 = self.n_Conv_6(t_372_padded)
|
||||
t_374 = F.relu(t_373)
|
||||
t_375 = self.n_Conv_7(t_374)
|
||||
t_376 = torch.add(t_375, t_370)
|
||||
t_377 = F.relu(t_376)
|
||||
t_378 = self.n_Conv_8(t_377)
|
||||
t_379 = F.relu(t_378)
|
||||
t_379_padded = F.pad(t_379, [1, 1, 1, 1], value=0)
|
||||
t_380 = self.n_Conv_9(t_379_padded)
|
||||
t_381 = F.relu(t_380)
|
||||
t_382 = self.n_Conv_10(t_381)
|
||||
t_383 = torch.add(t_382, t_377)
|
||||
t_384 = F.relu(t_383)
|
||||
t_385 = self.n_Conv_11(t_384)
|
||||
t_386 = self.n_Conv_12(t_384)
|
||||
t_387 = F.relu(t_386)
|
||||
t_387_padded = F.pad(t_387, [0, 1, 0, 1], value=0)
|
||||
t_388 = self.n_Conv_13(t_387_padded)
|
||||
t_389 = F.relu(t_388)
|
||||
t_390 = self.n_Conv_14(t_389)
|
||||
t_391 = torch.add(t_390, t_385)
|
||||
t_392 = F.relu(t_391)
|
||||
t_393 = self.n_Conv_15(t_392)
|
||||
t_394 = F.relu(t_393)
|
||||
t_394_padded = F.pad(t_394, [1, 1, 1, 1], value=0)
|
||||
t_395 = self.n_Conv_16(t_394_padded)
|
||||
t_396 = F.relu(t_395)
|
||||
t_397 = self.n_Conv_17(t_396)
|
||||
t_398 = torch.add(t_397, t_392)
|
||||
t_399 = F.relu(t_398)
|
||||
t_400 = self.n_Conv_18(t_399)
|
||||
t_401 = F.relu(t_400)
|
||||
t_401_padded = F.pad(t_401, [1, 1, 1, 1], value=0)
|
||||
t_402 = self.n_Conv_19(t_401_padded)
|
||||
t_403 = F.relu(t_402)
|
||||
t_404 = self.n_Conv_20(t_403)
|
||||
t_405 = torch.add(t_404, t_399)
|
||||
t_406 = F.relu(t_405)
|
||||
t_407 = self.n_Conv_21(t_406)
|
||||
t_408 = F.relu(t_407)
|
||||
t_408_padded = F.pad(t_408, [1, 1, 1, 1], value=0)
|
||||
t_409 = self.n_Conv_22(t_408_padded)
|
||||
t_410 = F.relu(t_409)
|
||||
t_411 = self.n_Conv_23(t_410)
|
||||
t_412 = torch.add(t_411, t_406)
|
||||
t_413 = F.relu(t_412)
|
||||
t_414 = self.n_Conv_24(t_413)
|
||||
t_415 = F.relu(t_414)
|
||||
t_415_padded = F.pad(t_415, [1, 1, 1, 1], value=0)
|
||||
t_416 = self.n_Conv_25(t_415_padded)
|
||||
t_417 = F.relu(t_416)
|
||||
t_418 = self.n_Conv_26(t_417)
|
||||
t_419 = torch.add(t_418, t_413)
|
||||
t_420 = F.relu(t_419)
|
||||
t_421 = self.n_Conv_27(t_420)
|
||||
t_422 = F.relu(t_421)
|
||||
t_422_padded = F.pad(t_422, [1, 1, 1, 1], value=0)
|
||||
t_423 = self.n_Conv_28(t_422_padded)
|
||||
t_424 = F.relu(t_423)
|
||||
t_425 = self.n_Conv_29(t_424)
|
||||
t_426 = torch.add(t_425, t_420)
|
||||
t_427 = F.relu(t_426)
|
||||
t_428 = self.n_Conv_30(t_427)
|
||||
t_429 = F.relu(t_428)
|
||||
t_429_padded = F.pad(t_429, [1, 1, 1, 1], value=0)
|
||||
t_430 = self.n_Conv_31(t_429_padded)
|
||||
t_431 = F.relu(t_430)
|
||||
t_432 = self.n_Conv_32(t_431)
|
||||
t_433 = torch.add(t_432, t_427)
|
||||
t_434 = F.relu(t_433)
|
||||
t_435 = self.n_Conv_33(t_434)
|
||||
t_436 = F.relu(t_435)
|
||||
t_436_padded = F.pad(t_436, [1, 1, 1, 1], value=0)
|
||||
t_437 = self.n_Conv_34(t_436_padded)
|
||||
t_438 = F.relu(t_437)
|
||||
t_439 = self.n_Conv_35(t_438)
|
||||
t_440 = torch.add(t_439, t_434)
|
||||
t_441 = F.relu(t_440)
|
||||
t_442 = self.n_Conv_36(t_441)
|
||||
t_443 = self.n_Conv_37(t_441)
|
||||
t_444 = F.relu(t_443)
|
||||
t_444_padded = F.pad(t_444, [0, 1, 0, 1], value=0)
|
||||
t_445 = self.n_Conv_38(t_444_padded)
|
||||
t_446 = F.relu(t_445)
|
||||
t_447 = self.n_Conv_39(t_446)
|
||||
t_448 = torch.add(t_447, t_442)
|
||||
t_449 = F.relu(t_448)
|
||||
t_450 = self.n_Conv_40(t_449)
|
||||
t_451 = F.relu(t_450)
|
||||
t_451_padded = F.pad(t_451, [1, 1, 1, 1], value=0)
|
||||
t_452 = self.n_Conv_41(t_451_padded)
|
||||
t_453 = F.relu(t_452)
|
||||
t_454 = self.n_Conv_42(t_453)
|
||||
t_455 = torch.add(t_454, t_449)
|
||||
t_456 = F.relu(t_455)
|
||||
t_457 = self.n_Conv_43(t_456)
|
||||
t_458 = F.relu(t_457)
|
||||
t_458_padded = F.pad(t_458, [1, 1, 1, 1], value=0)
|
||||
t_459 = self.n_Conv_44(t_458_padded)
|
||||
t_460 = F.relu(t_459)
|
||||
t_461 = self.n_Conv_45(t_460)
|
||||
t_462 = torch.add(t_461, t_456)
|
||||
t_463 = F.relu(t_462)
|
||||
t_464 = self.n_Conv_46(t_463)
|
||||
t_465 = F.relu(t_464)
|
||||
t_465_padded = F.pad(t_465, [1, 1, 1, 1], value=0)
|
||||
t_466 = self.n_Conv_47(t_465_padded)
|
||||
t_467 = F.relu(t_466)
|
||||
t_468 = self.n_Conv_48(t_467)
|
||||
t_469 = torch.add(t_468, t_463)
|
||||
t_470 = F.relu(t_469)
|
||||
t_471 = self.n_Conv_49(t_470)
|
||||
t_472 = F.relu(t_471)
|
||||
t_472_padded = F.pad(t_472, [1, 1, 1, 1], value=0)
|
||||
t_473 = self.n_Conv_50(t_472_padded)
|
||||
t_474 = F.relu(t_473)
|
||||
t_475 = self.n_Conv_51(t_474)
|
||||
t_476 = torch.add(t_475, t_470)
|
||||
t_477 = F.relu(t_476)
|
||||
t_478 = self.n_Conv_52(t_477)
|
||||
t_479 = F.relu(t_478)
|
||||
t_479_padded = F.pad(t_479, [1, 1, 1, 1], value=0)
|
||||
t_480 = self.n_Conv_53(t_479_padded)
|
||||
t_481 = F.relu(t_480)
|
||||
t_482 = self.n_Conv_54(t_481)
|
||||
t_483 = torch.add(t_482, t_477)
|
||||
t_484 = F.relu(t_483)
|
||||
t_485 = self.n_Conv_55(t_484)
|
||||
t_486 = F.relu(t_485)
|
||||
t_486_padded = F.pad(t_486, [1, 1, 1, 1], value=0)
|
||||
t_487 = self.n_Conv_56(t_486_padded)
|
||||
t_488 = F.relu(t_487)
|
||||
t_489 = self.n_Conv_57(t_488)
|
||||
t_490 = torch.add(t_489, t_484)
|
||||
t_491 = F.relu(t_490)
|
||||
t_492 = self.n_Conv_58(t_491)
|
||||
t_493 = F.relu(t_492)
|
||||
t_493_padded = F.pad(t_493, [1, 1, 1, 1], value=0)
|
||||
t_494 = self.n_Conv_59(t_493_padded)
|
||||
t_495 = F.relu(t_494)
|
||||
t_496 = self.n_Conv_60(t_495)
|
||||
t_497 = torch.add(t_496, t_491)
|
||||
t_498 = F.relu(t_497)
|
||||
t_499 = self.n_Conv_61(t_498)
|
||||
t_500 = F.relu(t_499)
|
||||
t_500_padded = F.pad(t_500, [1, 1, 1, 1], value=0)
|
||||
t_501 = self.n_Conv_62(t_500_padded)
|
||||
t_502 = F.relu(t_501)
|
||||
t_503 = self.n_Conv_63(t_502)
|
||||
t_504 = torch.add(t_503, t_498)
|
||||
t_505 = F.relu(t_504)
|
||||
t_506 = self.n_Conv_64(t_505)
|
||||
t_507 = F.relu(t_506)
|
||||
t_507_padded = F.pad(t_507, [1, 1, 1, 1], value=0)
|
||||
t_508 = self.n_Conv_65(t_507_padded)
|
||||
t_509 = F.relu(t_508)
|
||||
t_510 = self.n_Conv_66(t_509)
|
||||
t_511 = torch.add(t_510, t_505)
|
||||
t_512 = F.relu(t_511)
|
||||
t_513 = self.n_Conv_67(t_512)
|
||||
t_514 = F.relu(t_513)
|
||||
t_514_padded = F.pad(t_514, [1, 1, 1, 1], value=0)
|
||||
t_515 = self.n_Conv_68(t_514_padded)
|
||||
t_516 = F.relu(t_515)
|
||||
t_517 = self.n_Conv_69(t_516)
|
||||
t_518 = torch.add(t_517, t_512)
|
||||
t_519 = F.relu(t_518)
|
||||
t_520 = self.n_Conv_70(t_519)
|
||||
t_521 = F.relu(t_520)
|
||||
t_521_padded = F.pad(t_521, [1, 1, 1, 1], value=0)
|
||||
t_522 = self.n_Conv_71(t_521_padded)
|
||||
t_523 = F.relu(t_522)
|
||||
t_524 = self.n_Conv_72(t_523)
|
||||
t_525 = torch.add(t_524, t_519)
|
||||
t_526 = F.relu(t_525)
|
||||
t_527 = self.n_Conv_73(t_526)
|
||||
t_528 = F.relu(t_527)
|
||||
t_528_padded = F.pad(t_528, [1, 1, 1, 1], value=0)
|
||||
t_529 = self.n_Conv_74(t_528_padded)
|
||||
t_530 = F.relu(t_529)
|
||||
t_531 = self.n_Conv_75(t_530)
|
||||
t_532 = torch.add(t_531, t_526)
|
||||
t_533 = F.relu(t_532)
|
||||
t_534 = self.n_Conv_76(t_533)
|
||||
t_535 = F.relu(t_534)
|
||||
t_535_padded = F.pad(t_535, [1, 1, 1, 1], value=0)
|
||||
t_536 = self.n_Conv_77(t_535_padded)
|
||||
t_537 = F.relu(t_536)
|
||||
t_538 = self.n_Conv_78(t_537)
|
||||
t_539 = torch.add(t_538, t_533)
|
||||
t_540 = F.relu(t_539)
|
||||
t_541 = self.n_Conv_79(t_540)
|
||||
t_542 = F.relu(t_541)
|
||||
t_542_padded = F.pad(t_542, [1, 1, 1, 1], value=0)
|
||||
t_543 = self.n_Conv_80(t_542_padded)
|
||||
t_544 = F.relu(t_543)
|
||||
t_545 = self.n_Conv_81(t_544)
|
||||
t_546 = torch.add(t_545, t_540)
|
||||
t_547 = F.relu(t_546)
|
||||
t_548 = self.n_Conv_82(t_547)
|
||||
t_549 = F.relu(t_548)
|
||||
t_549_padded = F.pad(t_549, [1, 1, 1, 1], value=0)
|
||||
t_550 = self.n_Conv_83(t_549_padded)
|
||||
t_551 = F.relu(t_550)
|
||||
t_552 = self.n_Conv_84(t_551)
|
||||
t_553 = torch.add(t_552, t_547)
|
||||
t_554 = F.relu(t_553)
|
||||
t_555 = self.n_Conv_85(t_554)
|
||||
t_556 = F.relu(t_555)
|
||||
t_556_padded = F.pad(t_556, [1, 1, 1, 1], value=0)
|
||||
t_557 = self.n_Conv_86(t_556_padded)
|
||||
t_558 = F.relu(t_557)
|
||||
t_559 = self.n_Conv_87(t_558)
|
||||
t_560 = torch.add(t_559, t_554)
|
||||
t_561 = F.relu(t_560)
|
||||
t_562 = self.n_Conv_88(t_561)
|
||||
t_563 = F.relu(t_562)
|
||||
t_563_padded = F.pad(t_563, [1, 1, 1, 1], value=0)
|
||||
t_564 = self.n_Conv_89(t_563_padded)
|
||||
t_565 = F.relu(t_564)
|
||||
t_566 = self.n_Conv_90(t_565)
|
||||
t_567 = torch.add(t_566, t_561)
|
||||
t_568 = F.relu(t_567)
|
||||
t_569 = self.n_Conv_91(t_568)
|
||||
t_570 = F.relu(t_569)
|
||||
t_570_padded = F.pad(t_570, [1, 1, 1, 1], value=0)
|
||||
t_571 = self.n_Conv_92(t_570_padded)
|
||||
t_572 = F.relu(t_571)
|
||||
t_573 = self.n_Conv_93(t_572)
|
||||
t_574 = torch.add(t_573, t_568)
|
||||
t_575 = F.relu(t_574)
|
||||
t_576 = self.n_Conv_94(t_575)
|
||||
t_577 = F.relu(t_576)
|
||||
t_577_padded = F.pad(t_577, [1, 1, 1, 1], value=0)
|
||||
t_578 = self.n_Conv_95(t_577_padded)
|
||||
t_579 = F.relu(t_578)
|
||||
t_580 = self.n_Conv_96(t_579)
|
||||
t_581 = torch.add(t_580, t_575)
|
||||
t_582 = F.relu(t_581)
|
||||
t_583 = self.n_Conv_97(t_582)
|
||||
t_584 = F.relu(t_583)
|
||||
t_584_padded = F.pad(t_584, [0, 1, 0, 1], value=0)
|
||||
t_585 = self.n_Conv_98(t_584_padded)
|
||||
t_586 = F.relu(t_585)
|
||||
t_587 = self.n_Conv_99(t_586)
|
||||
t_588 = self.n_Conv_100(t_582)
|
||||
t_589 = torch.add(t_587, t_588)
|
||||
t_590 = F.relu(t_589)
|
||||
t_591 = self.n_Conv_101(t_590)
|
||||
t_592 = F.relu(t_591)
|
||||
t_592_padded = F.pad(t_592, [1, 1, 1, 1], value=0)
|
||||
t_593 = self.n_Conv_102(t_592_padded)
|
||||
t_594 = F.relu(t_593)
|
||||
t_595 = self.n_Conv_103(t_594)
|
||||
t_596 = torch.add(t_595, t_590)
|
||||
t_597 = F.relu(t_596)
|
||||
t_598 = self.n_Conv_104(t_597)
|
||||
t_599 = F.relu(t_598)
|
||||
t_599_padded = F.pad(t_599, [1, 1, 1, 1], value=0)
|
||||
t_600 = self.n_Conv_105(t_599_padded)
|
||||
t_601 = F.relu(t_600)
|
||||
t_602 = self.n_Conv_106(t_601)
|
||||
t_603 = torch.add(t_602, t_597)
|
||||
t_604 = F.relu(t_603)
|
||||
t_605 = self.n_Conv_107(t_604)
|
||||
t_606 = F.relu(t_605)
|
||||
t_606_padded = F.pad(t_606, [1, 1, 1, 1], value=0)
|
||||
t_607 = self.n_Conv_108(t_606_padded)
|
||||
t_608 = F.relu(t_607)
|
||||
t_609 = self.n_Conv_109(t_608)
|
||||
t_610 = torch.add(t_609, t_604)
|
||||
t_611 = F.relu(t_610)
|
||||
t_612 = self.n_Conv_110(t_611)
|
||||
t_613 = F.relu(t_612)
|
||||
t_613_padded = F.pad(t_613, [1, 1, 1, 1], value=0)
|
||||
t_614 = self.n_Conv_111(t_613_padded)
|
||||
t_615 = F.relu(t_614)
|
||||
t_616 = self.n_Conv_112(t_615)
|
||||
t_617 = torch.add(t_616, t_611)
|
||||
t_618 = F.relu(t_617)
|
||||
t_619 = self.n_Conv_113(t_618)
|
||||
t_620 = F.relu(t_619)
|
||||
t_620_padded = F.pad(t_620, [1, 1, 1, 1], value=0)
|
||||
t_621 = self.n_Conv_114(t_620_padded)
|
||||
t_622 = F.relu(t_621)
|
||||
t_623 = self.n_Conv_115(t_622)
|
||||
t_624 = torch.add(t_623, t_618)
|
||||
t_625 = F.relu(t_624)
|
||||
t_626 = self.n_Conv_116(t_625)
|
||||
t_627 = F.relu(t_626)
|
||||
t_627_padded = F.pad(t_627, [1, 1, 1, 1], value=0)
|
||||
t_628 = self.n_Conv_117(t_627_padded)
|
||||
t_629 = F.relu(t_628)
|
||||
t_630 = self.n_Conv_118(t_629)
|
||||
t_631 = torch.add(t_630, t_625)
|
||||
t_632 = F.relu(t_631)
|
||||
t_633 = self.n_Conv_119(t_632)
|
||||
t_634 = F.relu(t_633)
|
||||
t_634_padded = F.pad(t_634, [1, 1, 1, 1], value=0)
|
||||
t_635 = self.n_Conv_120(t_634_padded)
|
||||
t_636 = F.relu(t_635)
|
||||
t_637 = self.n_Conv_121(t_636)
|
||||
t_638 = torch.add(t_637, t_632)
|
||||
t_639 = F.relu(t_638)
|
||||
t_640 = self.n_Conv_122(t_639)
|
||||
t_641 = F.relu(t_640)
|
||||
t_641_padded = F.pad(t_641, [1, 1, 1, 1], value=0)
|
||||
t_642 = self.n_Conv_123(t_641_padded)
|
||||
t_643 = F.relu(t_642)
|
||||
t_644 = self.n_Conv_124(t_643)
|
||||
t_645 = torch.add(t_644, t_639)
|
||||
t_646 = F.relu(t_645)
|
||||
t_647 = self.n_Conv_125(t_646)
|
||||
t_648 = F.relu(t_647)
|
||||
t_648_padded = F.pad(t_648, [1, 1, 1, 1], value=0)
|
||||
t_649 = self.n_Conv_126(t_648_padded)
|
||||
t_650 = F.relu(t_649)
|
||||
t_651 = self.n_Conv_127(t_650)
|
||||
t_652 = torch.add(t_651, t_646)
|
||||
t_653 = F.relu(t_652)
|
||||
t_654 = self.n_Conv_128(t_653)
|
||||
t_655 = F.relu(t_654)
|
||||
t_655_padded = F.pad(t_655, [1, 1, 1, 1], value=0)
|
||||
t_656 = self.n_Conv_129(t_655_padded)
|
||||
t_657 = F.relu(t_656)
|
||||
t_658 = self.n_Conv_130(t_657)
|
||||
t_659 = torch.add(t_658, t_653)
|
||||
t_660 = F.relu(t_659)
|
||||
t_661 = self.n_Conv_131(t_660)
|
||||
t_662 = F.relu(t_661)
|
||||
t_662_padded = F.pad(t_662, [1, 1, 1, 1], value=0)
|
||||
t_663 = self.n_Conv_132(t_662_padded)
|
||||
t_664 = F.relu(t_663)
|
||||
t_665 = self.n_Conv_133(t_664)
|
||||
t_666 = torch.add(t_665, t_660)
|
||||
t_667 = F.relu(t_666)
|
||||
t_668 = self.n_Conv_134(t_667)
|
||||
t_669 = F.relu(t_668)
|
||||
t_669_padded = F.pad(t_669, [1, 1, 1, 1], value=0)
|
||||
t_670 = self.n_Conv_135(t_669_padded)
|
||||
t_671 = F.relu(t_670)
|
||||
t_672 = self.n_Conv_136(t_671)
|
||||
t_673 = torch.add(t_672, t_667)
|
||||
t_674 = F.relu(t_673)
|
||||
t_675 = self.n_Conv_137(t_674)
|
||||
t_676 = F.relu(t_675)
|
||||
t_676_padded = F.pad(t_676, [1, 1, 1, 1], value=0)
|
||||
t_677 = self.n_Conv_138(t_676_padded)
|
||||
t_678 = F.relu(t_677)
|
||||
t_679 = self.n_Conv_139(t_678)
|
||||
t_680 = torch.add(t_679, t_674)
|
||||
t_681 = F.relu(t_680)
|
||||
t_682 = self.n_Conv_140(t_681)
|
||||
t_683 = F.relu(t_682)
|
||||
t_683_padded = F.pad(t_683, [1, 1, 1, 1], value=0)
|
||||
t_684 = self.n_Conv_141(t_683_padded)
|
||||
t_685 = F.relu(t_684)
|
||||
t_686 = self.n_Conv_142(t_685)
|
||||
t_687 = torch.add(t_686, t_681)
|
||||
t_688 = F.relu(t_687)
|
||||
t_689 = self.n_Conv_143(t_688)
|
||||
t_690 = F.relu(t_689)
|
||||
t_690_padded = F.pad(t_690, [1, 1, 1, 1], value=0)
|
||||
t_691 = self.n_Conv_144(t_690_padded)
|
||||
t_692 = F.relu(t_691)
|
||||
t_693 = self.n_Conv_145(t_692)
|
||||
t_694 = torch.add(t_693, t_688)
|
||||
t_695 = F.relu(t_694)
|
||||
t_696 = self.n_Conv_146(t_695)
|
||||
t_697 = F.relu(t_696)
|
||||
t_697_padded = F.pad(t_697, [1, 1, 1, 1], value=0)
|
||||
t_698 = self.n_Conv_147(t_697_padded)
|
||||
t_699 = F.relu(t_698)
|
||||
t_700 = self.n_Conv_148(t_699)
|
||||
t_701 = torch.add(t_700, t_695)
|
||||
t_702 = F.relu(t_701)
|
||||
t_703 = self.n_Conv_149(t_702)
|
||||
t_704 = F.relu(t_703)
|
||||
t_704_padded = F.pad(t_704, [1, 1, 1, 1], value=0)
|
||||
t_705 = self.n_Conv_150(t_704_padded)
|
||||
t_706 = F.relu(t_705)
|
||||
t_707 = self.n_Conv_151(t_706)
|
||||
t_708 = torch.add(t_707, t_702)
|
||||
t_709 = F.relu(t_708)
|
||||
t_710 = self.n_Conv_152(t_709)
|
||||
t_711 = F.relu(t_710)
|
||||
t_711_padded = F.pad(t_711, [1, 1, 1, 1], value=0)
|
||||
t_712 = self.n_Conv_153(t_711_padded)
|
||||
t_713 = F.relu(t_712)
|
||||
t_714 = self.n_Conv_154(t_713)
|
||||
t_715 = torch.add(t_714, t_709)
|
||||
t_716 = F.relu(t_715)
|
||||
t_717 = self.n_Conv_155(t_716)
|
||||
t_718 = F.relu(t_717)
|
||||
t_718_padded = F.pad(t_718, [1, 1, 1, 1], value=0)
|
||||
t_719 = self.n_Conv_156(t_718_padded)
|
||||
t_720 = F.relu(t_719)
|
||||
t_721 = self.n_Conv_157(t_720)
|
||||
t_722 = torch.add(t_721, t_716)
|
||||
t_723 = F.relu(t_722)
|
||||
t_724 = self.n_Conv_158(t_723)
|
||||
t_725 = self.n_Conv_159(t_723)
|
||||
t_726 = F.relu(t_725)
|
||||
t_726_padded = F.pad(t_726, [0, 1, 0, 1], value=0)
|
||||
t_727 = self.n_Conv_160(t_726_padded)
|
||||
t_728 = F.relu(t_727)
|
||||
t_729 = self.n_Conv_161(t_728)
|
||||
t_730 = torch.add(t_729, t_724)
|
||||
t_731 = F.relu(t_730)
|
||||
t_732 = self.n_Conv_162(t_731)
|
||||
t_733 = F.relu(t_732)
|
||||
t_733_padded = F.pad(t_733, [1, 1, 1, 1], value=0)
|
||||
t_734 = self.n_Conv_163(t_733_padded)
|
||||
t_735 = F.relu(t_734)
|
||||
t_736 = self.n_Conv_164(t_735)
|
||||
t_737 = torch.add(t_736, t_731)
|
||||
t_738 = F.relu(t_737)
|
||||
t_739 = self.n_Conv_165(t_738)
|
||||
t_740 = F.relu(t_739)
|
||||
t_740_padded = F.pad(t_740, [1, 1, 1, 1], value=0)
|
||||
t_741 = self.n_Conv_166(t_740_padded)
|
||||
t_742 = F.relu(t_741)
|
||||
t_743 = self.n_Conv_167(t_742)
|
||||
t_744 = torch.add(t_743, t_738)
|
||||
t_745 = F.relu(t_744)
|
||||
t_746 = self.n_Conv_168(t_745)
|
||||
t_747 = self.n_Conv_169(t_745)
|
||||
t_748 = F.relu(t_747)
|
||||
t_748_padded = F.pad(t_748, [0, 1, 0, 1], value=0)
|
||||
t_749 = self.n_Conv_170(t_748_padded)
|
||||
t_750 = F.relu(t_749)
|
||||
t_751 = self.n_Conv_171(t_750)
|
||||
t_752 = torch.add(t_751, t_746)
|
||||
t_753 = F.relu(t_752)
|
||||
t_754 = self.n_Conv_172(t_753)
|
||||
t_755 = F.relu(t_754)
|
||||
t_755_padded = F.pad(t_755, [1, 1, 1, 1], value=0)
|
||||
t_756 = self.n_Conv_173(t_755_padded)
|
||||
t_757 = F.relu(t_756)
|
||||
t_758 = self.n_Conv_174(t_757)
|
||||
t_759 = torch.add(t_758, t_753)
|
||||
t_760 = F.relu(t_759)
|
||||
t_761 = self.n_Conv_175(t_760)
|
||||
t_762 = F.relu(t_761)
|
||||
t_762_padded = F.pad(t_762, [1, 1, 1, 1], value=0)
|
||||
t_763 = self.n_Conv_176(t_762_padded)
|
||||
t_764 = F.relu(t_763)
|
||||
t_765 = self.n_Conv_177(t_764)
|
||||
t_766 = torch.add(t_765, t_760)
|
||||
t_767 = F.relu(t_766)
|
||||
t_768 = self.n_Conv_178(t_767)
|
||||
t_769 = F.avg_pool2d(t_768, kernel_size=t_768.shape[-2:])
|
||||
t_770 = torch.squeeze(t_769, 3)
|
||||
t_770 = torch.squeeze(t_770, 2)
|
||||
t_771 = torch.sigmoid(t_770)
|
||||
return t_771
|
||||
|
||||
def load_state_dict(self, state_dict, **kwargs):
|
||||
self.tags = state_dict.get('tags', [])
|
||||
|
||||
super(DeepDanbooruModel, self).load_state_dict({k: v for k, v in state_dict.items() if k != 'tags'})
|
||||
|
@ -55,7 +55,7 @@ parser.add_argument("--ldsr-models-path", type=str, help="Path to directory with
|
||||
parser.add_argument("--clip-models-path", type=str, help="Path to directory with CLIP model file(s).", default=None)
|
||||
parser.add_argument("--xformers", action='store_true', help="enable xformers for cross attention layers")
|
||||
parser.add_argument("--force-enable-xformers", action='store_true', help="enable xformers for cross attention layers regardless of whether the checking code thinks you can run it; do not make bug reports if this fails to work")
|
||||
parser.add_argument("--deepdanbooru", action='store_true', help="enable deepdanbooru interrogator")
|
||||
parser.add_argument("--deepdanbooru", action='store_true', help="does not do anything")
|
||||
parser.add_argument("--opt-split-attention", action='store_true', help="force-enables Doggettx's cross-attention layer optimization. By default, it's on for torch cuda.")
|
||||
parser.add_argument("--opt-split-attention-invokeai", action='store_true', help="force-enables InvokeAI's cross-attention layer optimization. By default, it's on when cuda is unavailable.")
|
||||
parser.add_argument("--opt-split-attention-v1", action='store_true', help="enable older version of split attention optimization that does not consume all the VRAM it can find")
|
||||
|
@ -6,12 +6,10 @@ import sys
|
||||
import tqdm
|
||||
import time
|
||||
|
||||
from modules import shared, images
|
||||
from modules import shared, images, deepbooru
|
||||
from modules.paths import models_path
|
||||
from modules.shared import opts, cmd_opts
|
||||
from modules.textual_inversion import autocrop
|
||||
if cmd_opts.deepdanbooru:
|
||||
import modules.deepbooru as deepbooru
|
||||
|
||||
|
||||
def preprocess(process_src, process_dst, process_width, process_height, preprocess_txt_action, process_flip, process_split, process_caption, process_caption_deepbooru=False, split_threshold=0.5, overlap_ratio=0.2, process_focal_crop=False, process_focal_crop_face_weight=0.9, process_focal_crop_entropy_weight=0.3, process_focal_crop_edges_weight=0.5, process_focal_crop_debug=False):
|
||||
@ -20,9 +18,7 @@ def preprocess(process_src, process_dst, process_width, process_height, preproce
|
||||
shared.interrogator.load()
|
||||
|
||||
if process_caption_deepbooru:
|
||||
db_opts = deepbooru.create_deepbooru_opts()
|
||||
db_opts[deepbooru.OPT_INCLUDE_RANKS] = False
|
||||
deepbooru.create_deepbooru_process(opts.interrogate_deepbooru_score_threshold, db_opts)
|
||||
deepbooru.model.start()
|
||||
|
||||
preprocess_work(process_src, process_dst, process_width, process_height, preprocess_txt_action, process_flip, process_split, process_caption, process_caption_deepbooru, split_threshold, overlap_ratio, process_focal_crop, process_focal_crop_face_weight, process_focal_crop_entropy_weight, process_focal_crop_edges_weight, process_focal_crop_debug)
|
||||
|
||||
@ -32,7 +28,7 @@ def preprocess(process_src, process_dst, process_width, process_height, preproce
|
||||
shared.interrogator.send_blip_to_ram()
|
||||
|
||||
if process_caption_deepbooru:
|
||||
deepbooru.release_process()
|
||||
deepbooru.model.stop()
|
||||
|
||||
|
||||
def listfiles(dirname):
|
||||
@ -58,7 +54,7 @@ def save_pic_with_caption(image, index, params: PreprocessParams, existing_capti
|
||||
if params.process_caption_deepbooru:
|
||||
if len(caption) > 0:
|
||||
caption += ", "
|
||||
caption += deepbooru.get_tags_from_process(image)
|
||||
caption += deepbooru.model.tag_multi(image)
|
||||
|
||||
filename_part = params.src
|
||||
filename_part = os.path.splitext(filename_part)[0]
|
||||
|
@ -19,14 +19,11 @@ import numpy as np
|
||||
from PIL import Image, PngImagePlugin
|
||||
|
||||
|
||||
from modules import sd_hijack, sd_models, localization, script_callbacks, ui_extensions
|
||||
from modules import sd_hijack, sd_models, localization, script_callbacks, ui_extensions, deepbooru
|
||||
from modules.paths import script_path
|
||||
|
||||
from modules.shared import opts, cmd_opts, restricted_opts
|
||||
|
||||
if cmd_opts.deepdanbooru:
|
||||
from modules.deepbooru import get_deepbooru_tags
|
||||
|
||||
import modules.codeformer_model
|
||||
import modules.generation_parameters_copypaste as parameters_copypaste
|
||||
import modules.gfpgan_model
|
||||
@ -352,7 +349,7 @@ def interrogate(image):
|
||||
|
||||
|
||||
def interrogate_deepbooru(image):
|
||||
prompt = get_deepbooru_tags(image)
|
||||
prompt = deepbooru.model.tag(image)
|
||||
return gr_show(True) if prompt is None else prompt
|
||||
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user