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removebg / app.py

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Update app.py

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	import gradio as gr
	import cv2
	import gradio as gr
	import os
	from pathlib import Path
	from PIL import Image
	import numpy as np
	import torch
	from torch.autograd import Variable
	from torchvision import transforms
	import torch.nn.functional as F
	import matplotlib.pyplot as plt
	import warnings
	import tempfile
	from zipfile import ZipFile

	warnings.filterwarnings("ignore")


	# project imports
	from data_loader_cache import normalize, im_reader, im_preprocess
	from models import *

	#Helpers
	device = 'cuda' if torch.cuda.is_available() else 'cpu'


	class GOSNormalize(object):
	'''
	Normalize the Image using torch.transforms
	'''
	def __init__(self, mean=[0.485,0.456,0.406], std=[0.229,0.224,0.225]):
	self.mean = mean
	self.std = std

	def __call__(self,image):
	image = normalize(image,self.mean,self.std)
	return image


	transform = transforms.Compose([GOSNormalize([0.5,0.5,0.5],[1.0,1.0,1.0])])

	def load_image(im_path, hypar):
	im = im_reader(im_path)
	im, im_shp = im_preprocess(im, hypar["cache_size"])
	im = torch.divide(im,255.0)
	shape = torch.from_numpy(np.array(im_shp))
	return transform(im).unsqueeze(0), shape.unsqueeze(0) # make a batch of image, shape


	def build_model(hypar,device):
	net = hypar["model"]#GOSNETINC(3,1)

	# convert to half precision
	if(hypar["model_digit"]=="half"):
	net.half()
	for layer in net.modules():
	if isinstance(layer, nn.BatchNorm2d):
	layer.float()

	net.to(device)

	if(hypar["restore_model"]!=""):
	net.load_state_dict(torch.load(hypar["model_path"]+"/"+hypar["restore_model"], map_location=device))
	net.to(device)
	net.eval()
	return net


	def predict(net, inputs_val, shapes_val, hypar, device):
	'''
	Given an Image, predict the mask
	'''
	net.eval()

	if(hypar["model_digit"]=="full"):
	inputs_val = inputs_val.type(torch.FloatTensor)
	else:
	inputs_val = inputs_val.type(torch.HalfTensor)


	inputs_val_v = Variable(inputs_val, requires_grad=False).to(device) # wrap inputs in Variable

	ds_val = net(inputs_val_v)[0] # list of 6 results

	pred_val = ds_val[0][0,:,:,:] # B x 1 x H x W # we want the first one which is the most accurate prediction

	## recover the prediction spatial size to the orignal image size
	pred_val = torch.squeeze(F.upsample(torch.unsqueeze(pred_val,0),(shapes_val[0][0],shapes_val[0][1]),mode='bilinear'))

	ma = torch.max(pred_val)
	mi = torch.min(pred_val)
	pred_val = (pred_val-mi)/(ma-mi) # max = 1

	if device == 'cuda': torch.cuda.empty_cache()
	return (pred_val.detach().cpu().numpy()*255).astype(np.uint8) # it is the mask we need

	# Set Parameters
	hypar = {} # paramters for inferencing


	hypar["model_path"] ="./saved_models" ## load trained weights from this path
	hypar["restore_model"] = "isnet.pth" ## name of the to-be-loaded weights
	hypar["interm_sup"] = False ## indicate if activate intermediate feature supervision

	## choose floating point accuracy --
	hypar["model_digit"] = "full" ## indicates "half" or "full" accuracy of float number
	hypar["seed"] = 0

	hypar["cache_size"] = [1024, 1024] ## cached input spatial resolution, can be configured into different size

	## data augmentation parameters ---
	hypar["input_size"] = [1024, 1024] ## mdoel input spatial size, usually use the same value hypar["cache_size"], which means we don't further resize the images
	hypar["crop_size"] = [1024, 1024] ## random crop size from the input, it is usually set as smaller than hypar["cache_size"], e.g., [920,920] for data augmentation

	hypar["model"] = ISNetDIS()

	# Build Model
	net = build_model(hypar, device)


	def inference(image_path):

	image_tensor, orig_size = load_image(image_path, hypar)
	mask = predict(net, image_tensor, orig_size, hypar, device)

	pil_mask = Image.fromarray(mask).convert('L')
	im_rgb = Image.open(image_path).convert("RGB")

	im_rgba = im_rgb.copy()
	im_rgba.putalpha(pil_mask)
	file_name = Path(image_path).stem+"_nobg.png"
	file_path = Path(Path(image_path).parent,file_name)
	im_rgba.save(file_path)
	return str(file_path.resolve())

	def bw(image_files):
	print(image_files)
	output = []
	for idx, file in enumerate(image_files):
	print(file.name)
	img = Image.open(file.name)
	img = img.convert("L")
	output.append(img)
	print(output)
	return output

	def bw_single(image_file):
	img = Image.open(image_file)
	img = img.convert("L")
	return img

	def batch(image_files):
	output = []
	for idx, file in enumerate(image_files):
	file = inference(file.name)
	output.append(file)

	with ZipFile("tmp.zip", "w") as zipObj:
	for idx, file in enumerate(output):
	zipObj.write(file, file.split("/")[-1])
	return output,"tmp.zip"

	with gr.Blocks() as iface:
	gr.Markdown("# Removedor de Fundo💚")
	gr.HTML("Usa <a href='https://github.com/xuebinqin/DIS'>DIS</a> para remover o plano de fundo")
	with gr.Tab("Uma Imagem"):
	with gr.Row():
	with gr.Column():
	image = gr.Image(type='filepath')
	with gr.Column():
	image_output = gr.Image(interactive=False)
	with gr.Row():
	with gr.Column():
	single_removebg = gr.Button("Remover Fundo")
	with gr.Column():
	single_clear = gr.Button("Limpar")


	with gr.Tab("Lote de Imagens"):
	with gr.Row():
	with gr.Column():
	images = gr.File(file_count="multiple", file_types=["image"])
	with gr.Column():
	gallery = gr.Gallery()
	file_list = gr.Files(interactive=False)

	with gr.Row():
	with gr.Column():
	batch_removebg = gr.Button("Processar Lote")
	with gr.Column():
	batch_clear = gr.Button("Limpar")

	with gr.Tab("Sobre"):
	with gr.Row():
	gr.HTML("Usa Estamos testando esse código usando o <a href='https://github.com/xuebinqin/DIS'>DIS</a> para remover o plano de fundo. Envie sua imagem para que o nosso removedor faça sua parte.")



	#Events
	single_removebg.click(inference, inputs=image, outputs=image_output)
	batch_removebg.click(batch, inputs=images, outputs=[gallery,file_list])
	single_clear.click(lambda: None, None, image, queue=False)
	batch_clear.click(lambda: None, None, images, queue=False)

	iface.launch()