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xroop / roop /processors /Frame_Masking.py

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	import cv2
	import numpy as np
	import onnxruntime
	import roop.globals

	from roop.utilities import resolve_relative_path
	from roop.typing import Frame

	class Frame_Masking():
	plugin_options:dict = None
	model_masking = None
	devicename = None
	name = None

	processorname = 'removebg'
	type = 'frame_masking'


	def Initialize(self, plugin_options:dict):
	if self.plugin_options is not None:
	if self.plugin_options["devicename"] != plugin_options["devicename"]:
	self.Release()

	self.plugin_options = plugin_options
	if self.model_masking is None:
	# replace Mac mps with cpu for the moment
	self.devicename = self.plugin_options["devicename"]
	self.devicename = self.devicename.replace('mps', 'cpu')
	model_path = resolve_relative_path('../models/Frame/isnet-general-use.onnx')
	self.model_masking = onnxruntime.InferenceSession(model_path, None, providers=roop.globals.execution_providers)
	self.model_inputs = self.model_masking.get_inputs()
	model_outputs = self.model_masking.get_outputs()
	self.io_binding = self.model_masking.io_binding()
	self.io_binding.bind_output(model_outputs[0].name, self.devicename)

	def Run(self, temp_frame: Frame) -> Frame:
	# Pre process:Resize, BGR->RGB, float32 cast
	input_image = cv2.resize(temp_frame, (1024, 1024))
	input_image = cv2.cvtColor(input_image, cv2.COLOR_BGR2RGB)
	mean = [0.5, 0.5, 0.5]
	std = [1.0, 1.0, 1.0]
	input_image = (input_image / 255.0 - mean) / std
	input_image = input_image.transpose(2, 0, 1)
	input_image = np.expand_dims(input_image, axis=0)
	input_image = input_image.astype('float32')

	self.io_binding.bind_cpu_input(self.model_inputs[0].name, input_image)
	self.model_masking.run_with_iobinding(self.io_binding)
	ort_outs = self.io_binding.copy_outputs_to_cpu()
	result = ort_outs[0][0]
	del ort_outs
	# Post process:squeeze, Sigmoid, Normarize, uint8 cast
	mask = np.squeeze(result[0])
	min_value = np.min(mask)
	max_value = np.max(mask)
	mask = (mask - min_value) / (max_value - min_value)
	#mask = np.where(mask < score_th, 0, 1)
	#mask *= 255
	mask = cv2.resize(mask, (temp_frame.shape[1], temp_frame.shape[0]), interpolation=cv2.INTER_LINEAR)
	mask = np.reshape(mask, [mask.shape[0],mask.shape[1],1])
	result = mask * temp_frame.astype(np.float32)
	return result.astype(np.uint8)



	def Release(self):
	del self.model_masking
	self.model_masking = None
	del self.io_binding
	self.io_binding = None