import os import os.path import sys import torch import torch.utils.data as data import cv2 import numpy as np class WiderFaceDetection(data.Dataset): def __init__(self, txt_path, preproc=None): self.preproc = preproc self.imgs_path = [] self.words = [] f = open(txt_path,'r') lines = f.readlines() isFirst = True labels = [] for line in lines: line = line.rstrip() if line.startswith('#'): if isFirst==True: isFirst = False else: labels_copy = labels.copy() self.words.append(labels_copy) labels.clear() path = line[2:] path = txt_path.replace('label.txt','images/') + path self.imgs_path.append(path) else: line = line.split(' ') label = [float(x) for x in line] labels.append(label) self.words.append(labels) def __len__(self): return len(self.imgs_path) def __getitem__(self, index): img = cv2.imread(self.imgs_path[index]) height, width, _ = img.shape labels = self.words[index] annotations = np.zeros((0, 15)) if len(labels) == 0: return annotations for idx, label in enumerate(labels): annotation = np.zeros((1, 15)) # bbox annotation[0, 0] = label[0] # x1 annotation[0, 1] = label[1] # y1 annotation[0, 2] = label[0] + label[2] # x2 annotation[0, 3] = label[1] + label[3] # y2 # landmarks annotation[0, 4] = label[4] # l0_x annotation[0, 5] = label[5] # l0_y annotation[0, 6] = label[7] # l1_x annotation[0, 7] = label[8] # l1_y annotation[0, 8] = label[10] # l2_x annotation[0, 9] = label[11] # l2_y annotation[0, 10] = label[13] # l3_x annotation[0, 11] = label[14] # l3_y annotation[0, 12] = label[16] # l4_x annotation[0, 13] = label[17] # l4_y if (annotation[0, 4]<0): annotation[0, 14] = -1 else: annotation[0, 14] = 1 annotations = np.append(annotations, annotation, axis=0) target = np.array(annotations) if self.preproc is not None: img, target = self.preproc(img, target) return torch.from_numpy(img), target def detection_collate(batch): """Custom collate fn for dealing with batches of images that have a different number of associated object annotations (bounding boxes). Arguments: batch: (tuple) A tuple of tensor images and lists of annotations Return: A tuple containing: 1) (tensor) batch of images stacked on their 0 dim 2) (list of tensors) annotations for a given image are stacked on 0 dim """ targets = [] imgs = [] for _, sample in enumerate(batch): for _, tup in enumerate(sample): if torch.is_tensor(tup): imgs.append(tup) elif isinstance(tup, type(np.empty(0))): annos = torch.from_numpy(tup).float() targets.append(annos) return (torch.stack(imgs, 0), targets)