# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from __future__ import absolute_import from __future__ import division from __future__ import print_function import logging import numpy as np import paddle.fluid as fluid __all__ = ['eval_rec_run', 'test_rec_benchmark'] import logging FORMAT = '%(asctime)s-%(levelname)s: %(message)s' logging.basicConfig(level=logging.INFO, format=FORMAT) logger = logging.getLogger(__name__) from ppocr.utils.character import cal_predicts_accuracy from ppocr.utils.character import convert_rec_label_to_lod from ppocr.utils.character import convert_rec_attention_infer_res from ppocr.utils.utility import create_module import json from copy import deepcopy import cv2 from ppocr.data.reader_main import reader_main def eval_rec_run(exe, config, eval_info_dict, mode): """ Run evaluation program, return program outputs. """ char_ops = config['Global']['char_ops'] total_loss = 0 total_sample_num = 0 total_acc_num = 0 total_batch_num = 0 if mode == "eval": is_remove_duplicate = False else: is_remove_duplicate = True for data in eval_info_dict['reader'](): img_num = len(data) img_list = [] label_list = [] for ino in range(img_num): img_list.append(data[ino][0]) label_list.append(data[ino][1]) img_list = np.concatenate(img_list, axis=0) outs = exe.run(eval_info_dict['program'], \ feed={'image': img_list}, \ fetch_list=eval_info_dict['fetch_varname_list'], \ return_numpy=False) preds = np.array(outs[0]) if preds.shape[1] != 1: preds, preds_lod = convert_rec_attention_infer_res(preds) else: preds_lod = outs[0].lod()[0] labels, labels_lod = convert_rec_label_to_lod(label_list) acc, acc_num, sample_num = cal_predicts_accuracy( char_ops, preds, preds_lod, labels, labels_lod, is_remove_duplicate) total_acc_num += acc_num total_sample_num += sample_num total_batch_num += 1 avg_acc = total_acc_num * 1.0 / total_sample_num metrics = {'avg_acc': avg_acc, "total_acc_num": total_acc_num, \ "total_sample_num": total_sample_num} return metrics def test_rec_benchmark(exe, config, eval_info_dict): " Evaluate lmdb dataset " eval_data_list = ['IIIT5k_3000', 'SVT', 'IC03_860', 'IC03_867', \ 'IC13_857', 'IC13_1015', 'IC15_1811', 'IC15_2077', 'SVTP', 'CUTE80'] eval_data_dir = config['TestReader']['lmdb_sets_dir'] total_evaluation_data_number = 0 total_correct_number = 0 eval_data_acc_info = {} for eval_data in eval_data_list: config['TestReader']['lmdb_sets_dir'] = \ eval_data_dir + "/" + eval_data eval_reader = reader_main(config=config, mode="test") eval_info_dict['reader'] = eval_reader metrics = eval_rec_run(exe, config, eval_info_dict, "test") total_evaluation_data_number += metrics['total_sample_num'] total_correct_number += metrics['total_acc_num'] eval_data_acc_info[eval_data] = metrics avg_acc = total_correct_number * 1.0 / total_evaluation_data_number logger.info('-' * 50) strs = "" for eval_data in eval_data_list: eval_acc = eval_data_acc_info[eval_data]['avg_acc'] strs += "\n {}, accuracy:{:.6f}".format(eval_data, eval_acc) strs += "\n average, accuracy:{:.6f}".format(avg_acc) logger.info(strs) logger.info('-' * 50)