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| import os | |
| import sys | |
| import cv2 | |
| import copy | |
| import numpy as np | |
| import math | |
| import time | |
| import traceback | |
| from ppocr.utils.logging import get_logger | |
| from ppocr.utils.utility import get_image_file_list, check_and_read | |
| import tools.infer.utility as utility | |
| from ppocr.postprocess import build_post_process | |
| logger = get_logger() | |
| class TextClassifier(object): | |
| def __init__(self, args): | |
| self.cls_image_shape = [int(v) for v in args.cls_image_shape.split(",")] | |
| self.cls_batch_num = args.cls_batch_num | |
| self.cls_thresh = args.cls_thresh | |
| postprocess_params = { | |
| 'name': 'ClsPostProcess', | |
| "label_list": args.label_list, | |
| } | |
| self.postprocess_op = build_post_process(postprocess_params) | |
| self.predictor, self.input_tensor, self.output_tensors, _ = \ | |
| utility.create_predictor(args, 'cls', logger) | |
| self.use_onnx = args.use_onnx | |
| def resize_norm_img(self, img): | |
| imgC, imgH, imgW = self.cls_image_shape | |
| h = img.shape[0] | |
| w = img.shape[1] | |
| ratio = w / float(h) | |
| if math.ceil(imgH * ratio) > imgW: | |
| resized_w = imgW | |
| else: | |
| resized_w = int(math.ceil(imgH * ratio)) | |
| resized_image = cv2.resize(img, (resized_w, imgH)) | |
| resized_image = resized_image.astype('float32') | |
| if self.cls_image_shape[0] == 1: | |
| resized_image = resized_image / 255 | |
| resized_image = resized_image[np.newaxis, :] | |
| else: | |
| resized_image = resized_image.transpose((2, 0, 1)) / 255 | |
| resized_image -= 0.5 | |
| resized_image /= 0.5 | |
| padding_im = np.zeros((imgC, imgH, imgW), dtype=np.float32) | |
| padding_im[:, :, 0:resized_w] = resized_image | |
| return padding_im | |
| def __call__(self, img_list): | |
| img_list = copy.deepcopy(img_list) | |
| img_num = len(img_list) | |
| # Calculate the aspect ratio of all text bars | |
| width_list = [] | |
| for img in img_list: | |
| width_list.append(img.shape[1] / float(img.shape[0])) | |
| # Sorting can speed up the cls process | |
| indices = np.argsort(np.array(width_list)) | |
| cls_res = [['', 0.0]] * img_num | |
| batch_num = self.cls_batch_num | |
| elapse = 0 | |
| for beg_img_no in range(0, img_num, batch_num): | |
| end_img_no = min(img_num, beg_img_no + batch_num) | |
| norm_img_batch = [] | |
| max_wh_ratio = 0 | |
| starttime = time.time() | |
| for ino in range(beg_img_no, end_img_no): | |
| h, w = img_list[indices[ino]].shape[0:2] | |
| wh_ratio = w * 1.0 / h | |
| max_wh_ratio = max(max_wh_ratio, wh_ratio) | |
| for ino in range(beg_img_no, end_img_no): | |
| norm_img = self.resize_norm_img(img_list[indices[ino]]) | |
| norm_img = norm_img[np.newaxis, :] | |
| norm_img_batch.append(norm_img) | |
| norm_img_batch = np.concatenate(norm_img_batch) | |
| norm_img_batch = norm_img_batch.copy() | |
| if self.use_onnx: | |
| input_dict = {} | |
| input_dict[self.input_tensor.name] = norm_img_batch | |
| outputs = self.predictor.run(self.output_tensors, input_dict) | |
| prob_out = outputs[0] | |
| else: | |
| self.input_tensor.copy_from_cpu(norm_img_batch) | |
| self.predictor.run() | |
| prob_out = self.output_tensors[0].copy_to_cpu() | |
| self.predictor.try_shrink_memory() | |
| cls_result = self.postprocess_op(prob_out) | |
| elapse += time.time() - starttime | |
| for rno in range(len(cls_result)): | |
| label, score = cls_result[rno] | |
| cls_res[indices[beg_img_no + rno]] = [label, score] | |
| if '180' in label and score > self.cls_thresh: | |
| img_list[indices[beg_img_no + rno]] = cv2.rotate( | |
| img_list[indices[beg_img_no + rno]], 1) | |
| return img_list, cls_res, elapse | |
| def run_text_classifier(image_dir, use_gpu, cls_model_dir, draw_img_save_dir): | |
| args = utility.parse_args() | |
| args.image_dir = image_dir | |
| args.use_gpu = use_gpu | |
| args.cls_model_dir = cls_model_dir | |
| args.draw_img_save_dir = draw_img_save_dir | |
| image_file_list = get_image_file_list(args.image_dir) | |
| text_classifier = TextClassifier(args) | |
| valid_image_file_list = [] | |
| img_list = [] | |
| for image_file in image_file_list: | |
| img, flag, _ = check_and_read(image_file) | |
| if not flag: | |
| img = cv2.imread(image_file) | |
| if img is None: | |
| logger.info("error in loading image:{}".format(image_file)) | |
| continue | |
| valid_image_file_list.append(image_file) | |
| img_list.append(img) | |
| try: | |
| img_list, cls_res, predict_time = text_classifier(img_list) | |
| except Exception as e: | |
| logger.info(traceback.format_exc()) | |
| logger.info(e) | |
| exit() | |
| output_file_path = os.path.join(draw_img_save_dir, "rotate.txt") | |
| with open(output_file_path, 'w') as output_file: | |
| for ino in range(len(img_list)): | |
| # logger.info("Predicts of {}:{}".format(valid_image_file_list[ino], | |
| # cls_res[ino])) | |
| output_file.write(cls_res[ino][0] + '\n') | |
| # if __name__ == "__main__": | |
| # run_text_classifier( | |
| # image_dir="output/cut", | |
| # use_gpu=False, | |
| # cls_model_dir="ch_ppocr_mobile_v2.0_cls_infer/", | |
| # draw_img_save_dir="output/" | |
| # ) | |