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IMAGDressing-v1 / controlnet_aux /leres /__init__.py

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	import os

	import cv2
	import numpy as np
	import torch
	from huggingface_hub import hf_hub_download
	from PIL import Image

	from ..util import HWC3, resize_image
	from .leres.depthmap import estimateboost, estimateleres
	from .leres.multi_depth_model_woauxi import RelDepthModel
	from .leres.net_tools import strip_prefix_if_present
	from .pix2pix.models.pix2pix4depth_model import Pix2Pix4DepthModel
	from .pix2pix.options.test_options import TestOptions


	class LeresDetector:
	def __init__(self, model, pix2pixmodel):
	self.model = model
	self.pix2pixmodel = pix2pixmodel

	@classmethod
	def from_pretrained(cls, pretrained_model_or_path, filename=None, pix2pix_filename=None, cache_dir=None, local_files_only=False):
	filename = filename or "res101.pth"
	pix2pix_filename = pix2pix_filename or "latest_net_G.pth"

	if os.path.isdir(pretrained_model_or_path):
	model_path = os.path.join(pretrained_model_or_path, filename)
	else:
	model_path = hf_hub_download(pretrained_model_or_path, filename, cache_dir=cache_dir, local_files_only=local_files_only)

	checkpoint = torch.load(model_path, map_location=torch.device('cpu'))

	model = RelDepthModel(backbone='resnext101')
	model.load_state_dict(strip_prefix_if_present(checkpoint['depth_model'], "module."), strict=True)
	del checkpoint

	if os.path.isdir(pretrained_model_or_path):
	model_path = os.path.join(pretrained_model_or_path, pix2pix_filename)
	else:
	model_path = hf_hub_download(pretrained_model_or_path, pix2pix_filename, cache_dir=cache_dir, local_files_only=local_files_only)

	opt = TestOptions().parse()
	if not torch.cuda.is_available():
	opt.gpu_ids = [] # cpu mode
	pix2pixmodel = Pix2Pix4DepthModel(opt)
	pix2pixmodel.save_dir = os.path.dirname(model_path)
	pix2pixmodel.load_networks('latest')
	pix2pixmodel.eval()

	return cls(model, pix2pixmodel)

	def to(self, device):
	self.model.to(device)
	# TODO - refactor pix2pix implementation to support device migration
	# self.pix2pixmodel.to(device)
	return self

	def __call__(self, input_image, thr_a=0, thr_b=0, boost=False, detect_resolution=512, image_resolution=512, output_type="pil"):
	device = next(iter(self.model.parameters())).device
	if not isinstance(input_image, np.ndarray):
	input_image = np.array(input_image, dtype=np.uint8)

	input_image = HWC3(input_image)
	input_image = resize_image(input_image, detect_resolution)

	assert input_image.ndim == 3
	height, width, dim = input_image.shape

	with torch.no_grad():

	if boost:
	depth = estimateboost(input_image, self.model, 0, self.pix2pixmodel, max(width, height))
	else:
	depth = estimateleres(input_image, self.model, width, height)

	numbytes=2
	depth_min = depth.min()
	depth_max = depth.max()
	max_val = (2*(8numbytes))-1

	# check output before normalizing and mapping to 16 bit
	if depth_max - depth_min > np.finfo("float").eps:
	out = max_val * (depth - depth_min) / (depth_max - depth_min)
	else:
	out = np.zeros(depth.shape)

	# single channel, 16 bit image
	depth_image = out.astype("uint16")

	# convert to uint8
	depth_image = cv2.convertScaleAbs(depth_image, alpha=(255.0/65535.0))

	# remove near
	if thr_a != 0:
	thr_a = ((thr_a/100)*255)
	depth_image = cv2.threshold(depth_image, thr_a, 255, cv2.THRESH_TOZERO)[1]

	# invert image
	depth_image = cv2.bitwise_not(depth_image)

	# remove bg
	if thr_b != 0:
	thr_b = ((thr_b/100)*255)
	depth_image = cv2.threshold(depth_image, thr_b, 255, cv2.THRESH_TOZERO)[1]

	detected_map = depth_image
	detected_map = HWC3(detected_map)

	img = resize_image(input_image, image_resolution)
	H, W, C = img.shape

	detected_map = cv2.resize(detected_map, (W, H), interpolation=cv2.INTER_LINEAR)

	if output_type == "pil":
	detected_map = Image.fromarray(detected_map)

	return detected_map