import json import numpy as np import torch def convert_to_braille_unicode(str_input: str, path: str = "./braille_map.json") -> str: with open(path, "r") as fl: data = json.load(fl) if str_input in data.keys(): str_output = data[str_input] return str_output def parse_xywh_and_class(boxes: torch.Tensor) -> list: """ boxes input tensor boxes (torch.Tensor) or (numpy.ndarray): A tensor or numpy array containing the detection boxes, with shape (num_boxes, 6). orig_shape (torch.Tensor) or (numpy.ndarray): Original image size, in the format (height, width). Properties: xyxy (torch.Tensor) or (numpy.ndarray): The boxes in xyxy format. conf (torch.Tensor) or (numpy.ndarray): The confidence values of the boxes. cls (torch.Tensor) or (numpy.ndarray): The class values of the boxes. xywh (torch.Tensor) or (numpy.ndarray): The boxes in xywh format. xyxyn (torch.Tensor) or (numpy.ndarray): The boxes in xyxy format normalized by original image size. xywhn (torch.Tensor) or (numpy.ndarray): The boxes in xywh format normalized by original image size. """ # copy values from troublesome "boxes" object to numpy array new_boxes = np.zeros(boxes.shape) new_boxes[:, :4] = boxes.xywh.numpy() # first 4 channels are xywh new_boxes[:, 4] = boxes.conf.numpy() # 5th channel is confidence new_boxes[:, 5] = boxes.cls.numpy() # 6th channel is class which is last channel # sort according to y coordinate new_boxes = new_boxes[new_boxes[:, 1].argsort()] # find threshold index to break the line y_threshold = np.mean(new_boxes[:, 3]) // 2 boxes_diff = np.diff(new_boxes[:, 1]) threshold_index = np.where(boxes_diff > y_threshold)[0] # cluster according to threshold_index boxes_clustered = np.split(new_boxes, threshold_index + 1) boxes_return = [] for cluster in boxes_clustered: # sort according to x coordinate cluster = cluster[cluster[:, 0].argsort()] boxes_return.append(cluster) return boxes_return