I am writing a simple image viewer that lets the user flip very quickly through tens of thousands of images, about 100 at a time. The images are files on disk.
In order for the viewer to function, it must continuously preload images ahead of the user's current one (or the viewer would be unusably sluggish).
The basic recipe that I'm using to display the images in a grid of Tkinter labels, is the following (this has been tested and works):
def load_image(fn): image = Image.open(fn) print "Before photoimage" img = ImageTk.PhotoImage(image) print "After photoimage" label.config(image=load_image("some_image.png")
I need the ImageTk.PhotoImage instance to display the image on a label. I have implemented two different approaches, each with an associated problem.
First approach: Launch a separate thread which pre-loads the images:
def load_ahead(): for fn in images: cache[fn] = load_image() threading.Thread(target=load_ahead).start() top.mainloop()
This works quite well on my Linux machine. However, on another machine (which happens to be running Windows, and compiled with pyinstaller), a deadlock seems to happen. "Before Photoimage" is printed, and then the program freezes, which suggests that the loader thread gets stuck at creating the ImageTk.PhotoImage object. Musst the creation of an ImageTk.PhotoImage object happen within the main (Tkinter mainloop's) thread? Is the creation of PhotoImage computationally expensive, or is negligible compared to actually loading the image from disk?
Second approach: In order to circumvent this possible requirement of PhotoImage objects being created from within Tkiner's mainloop thread, I resorted to Tk.after:
def load_some_images(): #load only 10 images. function must return quickly to prevent freezing GUI for i in xrange(10): fn = get_next_image() cache[fn] = load_image(fn) top.after_idle(load_some_images) top.after_idle(load_some_images)
The problem with this is that, appart from creating additional overhead (ie the image-loading procedure must be broken up into very small chunks since it is competing with the GUI) that it periodically freezes the GUI for the duration of the call, and it seems to consume any keyboard events that happened during its execution.
Third approach Is there a way I can detect pending user events? How can I accomplish something like this?
def load_some_images(): while True: try: top.pending_gui_events.get_nowait() except: break #user is still idle! continuing caching of images fn = get_next_image() cache[fn] = load_image(fn) top.after_idle(load_some_images) top.after(5,load_some_images)
Edit: I have tried using top.tk.call('after','info') to check pending keyboard events. This doesn't always reliably, and the interface is still sluggish/unresponsive.
Thanks in advance for any ideas