import time import cv2 import torch from loguru import logger from magic_pdf.config.constants import MODEL_NAME from magic_pdf.model.pdf_extract_kit import CustomPEKModel from magic_pdf.model.sub_modules.model_utils import ( clean_vram, crop_img, get_res_list_from_layout_res) from magic_pdf.model.sub_modules.ocr.paddleocr.ocr_utils import ( get_adjusted_mfdetrec_res, get_ocr_result_list) YOLO_LAYOUT_BASE_BATCH_SIZE = 1 MFD_BASE_BATCH_SIZE = 1 MFR_BASE_BATCH_SIZE = 16 class BatchAnalyze: def __init__(self, model_manager, batch_ratio: int, show_log, layout_model, formula_enable, table_enable): self.model_manager = model_manager self.batch_ratio = batch_ratio self.show_log = show_log self.layout_model = layout_model self.formula_enable = formula_enable self.table_enable = table_enable def __call__(self, images_with_extra_info: list) -> list: if len(images_with_extra_info) == 0: return [] images_layout_res = [] layout_start_time = time.time() _, fst_ocr, fst_lang = images_with_extra_info[0] self.model = self.model_manager.get_model(fst_ocr, self.show_log, fst_lang, self.layout_model, self.formula_enable, self.table_enable) images = [image for image, _, _ in images_with_extra_info] if self.model.layout_model_name == MODEL_NAME.LAYOUTLMv3: # layoutlmv3 for image in images: layout_res = self.model.layout_model(image, ignore_catids=[]) images_layout_res.append(layout_res) elif self.model.layout_model_name == MODEL_NAME.DocLayout_YOLO: # doclayout_yolo layout_images = [] for image_index, image in enumerate(images): layout_images.append(image) images_layout_res += self.model.layout_model.batch_predict( # layout_images, self.batch_ratio * YOLO_LAYOUT_BASE_BATCH_SIZE layout_images, YOLO_LAYOUT_BASE_BATCH_SIZE ) logger.info( f'layout time: {round(time.time() - layout_start_time, 2)}, image num: {len(images)}' ) if self.model.apply_formula: # 公式检测 mfd_start_time = time.time() images_mfd_res = self.model.mfd_model.batch_predict( # images, self.batch_ratio * MFD_BASE_BATCH_SIZE images, MFD_BASE_BATCH_SIZE ) logger.info( f'mfd time: {round(time.time() - mfd_start_time, 2)}, image num: {len(images)}' ) # 公式识别 mfr_start_time = time.time() images_formula_list = self.model.mfr_model.batch_predict( images_mfd_res, images, batch_size=self.batch_ratio * MFR_BASE_BATCH_SIZE, ) mfr_count = 0 for image_index in range(len(images)): images_layout_res[image_index] += images_formula_list[image_index] mfr_count += len(images_formula_list[image_index]) logger.info( f'mfr time: {round(time.time() - mfr_start_time, 2)}, image num: {mfr_count}' ) # 清理显存 clean_vram(self.model.device, vram_threshold=8) ocr_time = 0 ocr_count = 0 table_time = 0 table_count = 0 # reference: magic_pdf/model/doc_analyze_by_custom_model.py:doc_analyze for index in range(len(images)): _, ocr_enable, _lang = images_with_extra_info[index] self.model = self.model_manager.get_model(ocr_enable, self.show_log, _lang, self.layout_model, self.formula_enable, self.table_enable) layout_res = images_layout_res[index] np_array_img = images[index] ocr_res_list, table_res_list, single_page_mfdetrec_res = ( get_res_list_from_layout_res(layout_res) ) # ocr识别 ocr_start = time.time() # Process each area that requires OCR processing for res in ocr_res_list: new_image, useful_list = crop_img( res, np_array_img, crop_paste_x=50, crop_paste_y=50 ) adjusted_mfdetrec_res = get_adjusted_mfdetrec_res( single_page_mfdetrec_res, useful_list ) # OCR recognition new_image = cv2.cvtColor(new_image, cv2.COLOR_RGB2BGR) if ocr_enable: ocr_res = self.model.ocr_model.ocr( new_image, mfd_res=adjusted_mfdetrec_res )[0] else: ocr_res = self.model.ocr_model.ocr( new_image, mfd_res=adjusted_mfdetrec_res, rec=False )[0] # Integration results if ocr_res: ocr_result_list = get_ocr_result_list(ocr_res, useful_list) layout_res.extend(ocr_result_list) ocr_time += time.time() - ocr_start ocr_count += len(ocr_res_list) # 表格识别 table recognition if self.model.apply_table: table_start = time.time() for res in table_res_list: new_image, _ = crop_img(res, np_array_img) single_table_start_time = time.time() html_code = None if self.model.table_model_name == MODEL_NAME.STRUCT_EQTABLE: with torch.no_grad(): table_result = self.model.table_model.predict( new_image, 'html' ) if len(table_result) > 0: html_code = table_result[0] elif self.model.table_model_name == MODEL_NAME.TABLE_MASTER: html_code = self.model.table_model.img2html(new_image) elif self.model.table_model_name == MODEL_NAME.RAPID_TABLE: html_code, table_cell_bboxes, logic_points, elapse = ( self.model.table_model.predict(new_image) ) run_time = time.time() - single_table_start_time if run_time > self.model.table_max_time: logger.warning( f'table recognition processing exceeds max time {self.model.table_max_time}s' ) # 判断是否返回正常 if html_code: expected_ending = html_code.strip().endswith( '' ) or html_code.strip().endswith('') if expected_ending: res['html'] = html_code else: logger.warning( 'table recognition processing fails, not found expected HTML table end' ) else: logger.warning( 'table recognition processing fails, not get html return' ) table_time += time.time() - table_start table_count += len(table_res_list) if self.model.apply_ocr: logger.info(f'det or det time costs: {round(ocr_time, 2)}, image num: {ocr_count}') if self.model.apply_table: logger.info(f'table time: {round(table_time, 2)}, image num: {table_count}') return images_layout_res