import codecs import os import sys import time import zipfile import gradio as gr import numpy as np import cv2 import requests import yaml from paddle.inference import Config as PredictConfig from paddle.inference import create_predictor lasttime = time.time() FLUSH_INTERVAL = 0.1 def progress(str, end=False): global lasttime if end: str += "\n" lasttime = 0 if time.time() - lasttime >= FLUSH_INTERVAL: sys.stdout.write("\r%s" % str) lasttime = time.time() sys.stdout.flush() def _download_file(url, savepath, print_progress=True): if print_progress: print("Connecting to {}".format(url)) r = requests.get(url, stream=True, timeout=15) total_length = r.headers.get('content-length') if total_length is None: with open(savepath, 'wb') as f: shutil.copyfileobj(r.raw, f) else: with open(savepath, 'wb') as f: dl = 0 total_length = int(total_length) starttime = time.time() if print_progress: print("Downloading %s" % os.path.basename(savepath)) for data in r.iter_content(chunk_size=4096): dl += len(data) f.write(data) if print_progress: done = int(50 * dl / total_length) progress("[%-50s] %.2f%%" % ('=' * done, float(100 * dl) / total_length)) if print_progress: progress("[%-50s] %.2f%%" % ('=' * 50, 100), end=True) def uncompress(path): files = zipfile.ZipFile(path, 'r') filelist = files.namelist() rootpath = filelist[0] for file in filelist: files.extract(file, './') class DeployConfig: def __init__(self, path): with codecs.open(path, 'r', 'utf-8') as file: self.dic = yaml.load(file, Loader=yaml.FullLoader) self._dir = os.path.dirname(path) @property def model(self): return os.path.join(self._dir, self.dic['Deploy']['model']) @property def params(self): return os.path.join(self._dir, self.dic['Deploy']['params']) class Predictor: def __init__(self, cfg): """ Prepare for prediction. The usage and docs of paddle inference, please refer to https://paddleinference.paddlepaddle.org.cn/product_introduction/summary.html """ self.cfg = DeployConfig(cfg) self._init_base_config() self._init_cpu_config() self.predictor = create_predictor(self.pred_cfg) def _init_base_config(self): self.pred_cfg = PredictConfig(self.cfg.model, self.cfg.params) self.pred_cfg.enable_memory_optim() self.pred_cfg.switch_ir_optim(True) def _init_cpu_config(self): """ Init the config for x86 cpu. """ self.pred_cfg.disable_gpu() self.pred_cfg.set_cpu_math_library_num_threads(10) def _preprocess(self, img): # resize short edge to 512. h, w = img.shape[:2] short_edge = min(h, w) scale = 512 / short_edge h_resize = int(round(h * scale)) // 32 * 32 w_resize = int(round(w * scale)) // 32 * 32 img = cv2.resize(img, (w_resize, h_resize)) img = (img / 255 - 0.5) / 0.5 img = np.transpose(img, [2, 0, 1])[np.newaxis, :] return img def run(self, img): input_names = self.predictor.get_input_names() input_handle = {} for i in range(len(input_names)): input_handle[input_names[i]] = self.predictor.get_input_handle( input_names[i]) output_names = self.predictor.get_output_names() output_handle = self.predictor.get_output_handle(output_names[0]) img_inputs = img.astype('float32') ori_h, ori_w = img_inputs.shape[:2] img_inputs = self._preprocess(img=img_inputs) input_handle['img'].copy_from_cpu(img_inputs) self.predictor.run() results = output_handle.copy_to_cpu() alpha = results.squeeze() alpha = cv2.resize(alpha, (ori_w, ori_h)) alpha = (alpha * 255).astype('uint8') return alpha def model_inference(image): # Download inference model url = 'https://paddleseg.bj.bcebos.com/matting/models/deploy/ppmatting-hrnet_w18-human_512.zip' savepath = './ppmatting-hrnet_w18-human_512.zip' if not os.path.exists('./ppmatting-hrnet_w18-human_512'): _download_file(url=url, savepath=savepath) uncompress(savepath) # Inference predictor = Predictor(cfg='./ppmatting-hrnet_w18-human_512/deploy.yaml') alpha = predictor.run(image) return alpha def clear_all(): return None, None with gr.Blocks() as demo: gr.Markdown("Objective Detection") with gr.Column(scale=1, min_width=100): img_in = gr.Image( value="https://paddleseg.bj.bcebos.com/matting/demo/human.jpg", label="Input") with gr.Row(): btn1 = gr.Button("Clear") btn2 = gr.Button("Submit") img_out = gr.Image(label="Output").style(height=200) btn2.click(fn=model_inference, inputs=img_in, outputs=[img_out]) btn1.click(fn=clear_all, inputs=None, outputs=[img_in, img_out]) gr.Button.style(1) demo.launch(share=True)