d.load(file_name='trajectory_average_example/raw_trajectories/02.data', frames=0, coord=(1, 2), f=3, comment_char='%', weather='clear and sunny') print(d) # note that the coord_unit is left empty as none was specified # in the attributes when calling load d.annotations('coord_unit', 'pxl') d.time(0.1045, 's') # print some elements of the trajectory print(d.t(0, 1, len(d) - 1)) print(d.start()) print(d.end()) print(d.coord(range(0, 10))) # the trajectory lifetime print(d.lifetime()) #fill the missing frames print(max([d.frames(i) - d.frames(i - 1) for i in range(1, len(d))])) # there are some missing frames, let's fill them: d.fill() print(max([d.frames(i) - d.frames(i - 1) for i in range(1, len(d))])) d.save('my_first_trajectory') #save our trajectory, as a .txt file:
#plot the average saved in 'median.txt' and all the trajectories #saved in 'median' folder. trj = Traj() trj.load('median.txt') files = os.listdir('median') plt.figure(1, figsize=(10, 8)) for f in files: t = Traj() t.load('median/' + f) plt.plot(t.t() - trj.start(), t.coord()[0], '-') plt.plot(trj.t() - trj.start(), trj.coord()[0], 'w-', linewidth=5.5) plt.plot(trj.t() - trj.start(), trj.coord()[0], 'k-', linewidth=3, label='Average trajectory') plt.xlim([-0.5, trj.end() - trj.start() + 0.5]) plt.ylim([-1, 3.2]) plt.ylabel('Inward movement (' + trj.annotations('coord_unit') + ')', fontsize=24) plt.xlabel('Time (' + trj.annotations('t_unit') + ')', fontsize=24) plt.title(str(len(files)) +