def __init__(self, sequence=5): self.scene = glob(PATH) self.scene.sort() self.sequence = sequence self.list = [] self.list_coordinate = [] self.all_data = [] for i, j in zip(self.scene, list(range(len(self.scene)))): self.out = [] data_split = [] print(i, "----------------------------") print(j) sub_path = os.path.join(i, "annotations4.txt") # change _ to 4 data = np.genfromtxt(sub_path, delimiter=' ') # Center coordinates from Bounding Box x_lim1, y_lim1 = data[:, 1], data[:, 2] x_lim2, y_lim2 = data[:, 3], data[:, 4] x = (x_lim1 + x_lim2) // 2 y = (y_lim1 + y_lim2) // 2 # Normalization x, y = train(x, y, j) data[:, 1], data[:, 2] = x, y # all target in the scene ID = np.unique(data[:, 0][-1]) for j in range(0, int(ID[0])): trajectory = data[data[:, 0] == j, :] # ID,x,y,frame,attribute trajectory = trajectory[:, [0, 1, 2, 5, 9]] # extract attribute trajectory = Attribute(trajectory) if len(trajectory) > 0: data_split.append(trajectory) for split in range(len(data_split)): data_split_coor = data_split[split] if data_split_coor.shape[0] > self.sequence + 1: self.out.append(data_split_coor[:, [1, 2, 4, 5, 6, 7, 8, 9]]) self.all_data.append( data_split_coor[:, [1, 2, 4, 5, 6, 7, 8, 9]]) self.list_coordinate.append(self.out) self.list.append(len(self.out))
def __init__(self, sequence=10): self.path = glob(PATH) self.path.sort() self.sequence = sequence self.list = [] self.list_coordinate = [] self.all_data = [] for i, j in zip(self.path, range(len(self.path))): print i, "----------------------------" print j self.out = [] trajectory_split = [] sub_path = os.path.join(i, "annotations_.txt") data = np.genfromtxt(sub_path, delimiter=' ') # Center coordinates from Bounding Box x_lim1, y_lim1 = data[:, 1], data[:, 2] x_lim2, y_lim2 = data[:, 3], data[:, 4] x = (x_lim1 + x_lim2) / 2 y = (y_lim1 + y_lim2) / 2 # Normalization x, y = train(x, y, j) data[:, 1], data[:, 2] = x, y # all target in the scene ID = np.unique(data[:, 0][-1]) for j in range(0, int(ID[0])): trajectory = data[data[:, 0] == j, :] # ID,x,y,frame trajectory = trajectory[:, [0, 1, 2, 5]] if len(trajectory) > 0: trajectory_split.append(trajectory) for split in xrange(len(trajectory_split)): data_split = trajectory_split[split] if data_split.shape[0] > self.sequence + 1: self.out.append(data_split[:, [1, 2]]) self.all_data.append(data_split[:, [1, 2]]) self.list_coordinate.append(self.out) self.list.append(len(self.out))