# Copyright (c) 2024 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 typing import Any, Dict, List, Optional, Tuple, Union import numpy as np from ....utils import logging from ....utils.deps import pipeline_requires_extra from ...common.batch_sampler import ImageBatchSampler from ...common.reader import ReadImage from ...models.formula_recognition.result import ( FormulaRecResult as SingleFormulaRecognitionResult, ) from ...models.object_detection.result import DetResult from ...utils.hpi import HPIConfig from ...utils.pp_option import PaddlePredictorOption from ..base import BasePipeline from ..components import CropByBoxes from .result import FormulaRecognitionResult @pipeline_requires_extra("ocr") class FormulaRecognitionPipeline(BasePipeline): """Formula Recognition Pipeline""" entities = ["formula_recognition"] def __init__( self, config: Dict, device: str = None, pp_option: PaddlePredictorOption = None, use_hpip: bool = False, hpi_config: Optional[Union[Dict[str, Any], HPIConfig]] = None, ) -> None: """Initializes the formula recognition pipeline. Args: config (Dict): Configuration dictionary containing various settings. device (str, optional): Device to run the predictions on. Defaults to None. pp_option (PaddlePredictorOption, optional): PaddlePredictor options. Defaults to None. use_hpip (bool, optional): Whether to use the high-performance inference plugin (HPIP) by default. Defaults to False. hpi_config (Optional[Union[Dict[str, Any], HPIConfig]], optional): The default high-performance inference configuration dictionary. Defaults to None. """ super().__init__( device=device, pp_option=pp_option, use_hpip=use_hpip, hpi_config=hpi_config ) self.use_doc_preprocessor = config.get("use_doc_preprocessor", True) if self.use_doc_preprocessor: doc_preprocessor_config = config.get("SubPipelines", {}).get( "DocPreprocessor", { "pipeline_config_error": "config error for doc_preprocessor_pipeline!" }, ) self.doc_preprocessor_pipeline = self.create_pipeline( doc_preprocessor_config ) self.use_layout_detection = config.get("use_layout_detection", True) if self.use_layout_detection: layout_det_config = config.get("SubModules", {}).get( "LayoutDetection", {"model_config_error": "config error for layout_det_model!"}, ) layout_kwargs = {} if (threshold := layout_det_config.get("threshold", None)) is not None: layout_kwargs["threshold"] = threshold if (layout_nms := layout_det_config.get("layout_nms", None)) is not None: layout_kwargs["layout_nms"] = layout_nms if ( layout_unclip_ratio := layout_det_config.get( "layout_unclip_ratio", None ) ) is not None: layout_kwargs["layout_unclip_ratio"] = layout_unclip_ratio if ( layout_merge_bboxes_mode := layout_det_config.get( "layout_merge_bboxes_mode", None ) ) is not None: layout_kwargs["layout_merge_bboxes_mode"] = layout_merge_bboxes_mode self.layout_det_model = self.create_model( layout_det_config, **layout_kwargs ) formula_recognition_config = config.get("SubModules", {}).get( "FormulaRecognition", {"model_config_error": "config error for formula_rec_model!"}, ) self.formula_recognition_model = self.create_model(formula_recognition_config) self._crop_by_boxes = CropByBoxes() self.batch_sampler = ImageBatchSampler(batch_size=1) self.img_reader = ReadImage(format="BGR") def get_model_settings( self, use_doc_orientation_classify: Optional[bool], use_doc_unwarping: Optional[bool], use_layout_detection: Optional[bool], ) -> dict: """ Get the model settings based on the provided parameters or default values. Args: use_doc_orientation_classify (Optional[bool]): Whether to use document orientation classification. use_doc_unwarping (Optional[bool]): Whether to use document unwarping. use_layout_detection (Optional[bool]): Whether to use layout detection. Returns: dict: A dictionary containing the model settings. """ if use_doc_orientation_classify is None and use_doc_unwarping is None: use_doc_preprocessor = self.use_doc_preprocessor else: if use_doc_orientation_classify is True or use_doc_unwarping is True: use_doc_preprocessor = True else: use_doc_preprocessor = False if use_layout_detection is None: use_layout_detection = self.use_layout_detection return dict( use_doc_preprocessor=use_doc_preprocessor, use_layout_detection=use_layout_detection, ) def check_model_settings_valid( self, model_settings: Dict, layout_det_res: DetResult ) -> bool: """ Check if the input parameters are valid based on the initialized models. Args: model_settings (Dict): A dictionary containing input parameters. layout_det_res (DetResult): The layout detection result. Returns: bool: True if all required models are initialized according to input parameters, False otherwise. """ if model_settings["use_doc_preprocessor"] and not self.use_doc_preprocessor: logging.error( "Set use_doc_preprocessor, but the models for doc preprocessor are not initialized." ) return False if model_settings["use_layout_detection"]: if layout_det_res is not None: logging.error( "The layout detection model has already been initialized, please set use_layout_detection=False" ) return False if not self.use_layout_detection: logging.error( "Set use_layout_detection, but the models for layout detection are not initialized." ) return False return True def predict_single_formula_recognition_res( self, image_array: np.ndarray, ) -> SingleFormulaRecognitionResult: """ Predict formula recognition results from an image array, layout detection results. Args: image_array (np.ndarray): The input image represented as a numpy array. formula_box (list): The formula box coordinates. flag_find_nei_text (bool): Whether to find neighboring text. Returns: SingleFormulaRecognitionResult: single formula recognition result. """ formula_recognition_pred = next(self.formula_recognition_model(image_array)) return formula_recognition_pred def predict( self, input: Union[str, List[str], np.ndarray, List[np.ndarray]], use_layout_detection: Optional[bool] = None, use_doc_orientation_classify: Optional[bool] = None, use_doc_unwarping: Optional[bool] = None, layout_det_res: Optional[DetResult] = None, layout_threshold: Optional[Union[float, dict]] = None, layout_nms: Optional[bool] = None, layout_unclip_ratio: Optional[Union[float, Tuple[float, float]]] = None, layout_merge_bboxes_mode: Optional[str] = None, **kwargs, ) -> FormulaRecognitionResult: """ This function predicts the layout parsing result for the given input. Args: input (Union[str, list[str], np.ndarray, list[np.ndarray]]): The input image(s) of pdf(s) to be processed. use_layout_detection (Optional[bool]): Whether to use layout detection. use_doc_orientation_classify (Optional[bool]): Whether to use document orientation classification. use_doc_unwarping (Optional[bool]): Whether to use document unwarping. layout_det_res (Optional[DetResult]): The layout detection result. It will be used if it is not None and use_layout_detection is False. **kwargs: Additional keyword arguments. Returns: formulaRecognitionResult: The predicted formula recognition result. """ model_settings = self.get_model_settings( use_doc_orientation_classify, use_doc_unwarping, use_layout_detection, ) if not self.check_model_settings_valid(model_settings, layout_det_res): yield {"error": "the input params for model settings are invalid!"} for img_id, batch_data in enumerate(self.batch_sampler(input)): image_array = self.img_reader(batch_data.instances)[0] if model_settings["use_doc_preprocessor"]: doc_preprocessor_res = next( self.doc_preprocessor_pipeline( image_array, use_doc_orientation_classify=use_doc_orientation_classify, use_doc_unwarping=use_doc_unwarping, ) ) else: doc_preprocessor_res = {"output_img": image_array} doc_preprocessor_image = doc_preprocessor_res["output_img"] formula_res_list = [] formula_region_id = 1 if not model_settings["use_layout_detection"] and layout_det_res is None: layout_det_res = {} img_height, img_width = doc_preprocessor_image.shape[:2] single_formula_rec_res = self.predict_single_formula_recognition_res( doc_preprocessor_image, ) single_formula_rec_res["formula_region_id"] = formula_region_id formula_res_list.append(single_formula_rec_res) formula_region_id += 1 else: if model_settings["use_layout_detection"]: layout_det_res = next( self.layout_det_model( doc_preprocessor_image, threshold=layout_threshold, layout_nms=layout_nms, layout_unclip_ratio=layout_unclip_ratio, layout_merge_bboxes_mode=layout_merge_bboxes_mode, ) ) formula_crop_img = [] for box_info in layout_det_res["boxes"]: if box_info["label"].lower() in ["formula"]: crop_img_info = self._crop_by_boxes( doc_preprocessor_image, [box_info] ) crop_img_info = crop_img_info[0] formula_crop_img.append(crop_img_info["img"]) single_formula_rec_res = {} single_formula_rec_res["formula_region_id"] = formula_region_id single_formula_rec_res["dt_polys"] = box_info["coordinate"] formula_res_list.append(single_formula_rec_res) formula_region_id += 1 for idx, formula_rec_res in enumerate( self.formula_recognition_model(formula_crop_img) ): formula_region_id = formula_res_list[idx]["formula_region_id"] dt_polys = formula_res_list[idx]["dt_polys"] formula_rec_res["formula_region_id"] = formula_region_id formula_rec_res["dt_polys"] = dt_polys formula_res_list[idx] = formula_rec_res single_img_res = { "input_path": batch_data.input_paths[0], "page_index": batch_data.page_indexes[0], "layout_det_res": layout_det_res, "doc_preprocessor_res": doc_preprocessor_res, "formula_res_list": formula_res_list, "model_settings": model_settings, } yield FormulaRecognitionResult(single_img_res)