# 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, Union import numpy as np from ....utils.deps import pipeline_requires_extra from ...models.object_detection.result import DetResult from ...utils.benchmark import benchmark from ...utils.hpi import HPIConfig from ...utils.pp_option import PaddlePredictorOption from .._parallel import AutoParallelImageSimpleInferencePipeline from ..base import BasePipeline @benchmark.time_methods class _SmallObjectDetectionPipeline(BasePipeline): """Small Object Detection Pipeline""" 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 class with given configurations and options. Args: config (Dict): Configuration dictionary containing model and other parameters. device (str): The device to run the prediction on. Default is None. pp_option (PaddlePredictorOption): Options for PaddlePaddle predictor. Default is 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 ) small_object_detection_model_config = config["SubModules"][ "SmallObjectDetection" ] self.small_object_detection_model = self.create_model( small_object_detection_model_config ) self.threshold = small_object_detection_model_config["threshold"] def predict( self, input: Union[str, List[str], np.ndarray, List[np.ndarray]], threshold: Union[None, Dict[int, float], float] = None, **kwargs ) -> DetResult: """Predicts small object detection results for the given input. Args: input (str | list[str] | np.ndarray | list[np.ndarray]): The input image(s) or path(s) to the images. threshold (Optional[float]): The threshold value to filter out low-confidence predictions. Default is None. If None, it will use the default threshold specified during initialization. If a dictionary is provided, it should have integer keys corresponding to the class IDs and float values representing the respective thresholds for each class. If a single float value is provided, it will be used as the threshold for all classes. **kwargs: Additional keyword arguments that can be passed to the function. Returns: DetResult: The predicted small object detection results. """ yield from self.small_object_detection_model(input, threshold=threshold) @pipeline_requires_extra("cv") class SmallObjectDetectionPipeline(AutoParallelImageSimpleInferencePipeline): entities = "small_object_detection" @property def _pipeline_cls(self): return _SmallObjectDetectionPipeline def _get_batch_size(self, config): return config["SubModules"]["SmallObjectDetection"].get("batch_size", 1)