1

I am creating a program (to test a theory), and to get the data I need, I need a program to run as fast as possible.

Here's the problem - I have made it as fast as I could manage and it is still to slow. It is using a very small amount of my computer's RAM and CPU capacity. I am running the program with PyCharm 2017 Community Edition.

The code is below; How would I further optimize or change this to make it run faster?

Main:

from functions import *
from graphics import *
import time

Alpha = True

x = timestamp()

while Alpha:
    master = GraphWin(title="Image", width=512, height=512)

    build_image(master)

    getter(master, x)

    x = timestamp()

    time.sleep(3)

    master.close()

Module "Functions":

from graphics import *
import random
from PIL import ImageGrab


def build_image(window):
    for i in range(513):
        for j in range(513):
            fig = Rectangle(Point(j, i), Point(j + 1, i + 1))
            color = random.randrange(256)
            fig.setFill(color_rgb(color, color, color))
            fig.setOutline(color_rgb(color, color, color))
            fig.draw(window)


def getter(widget, counter):
    x = widget.winfo_rootx()+widget.winfo_x()
    y = widget.winfo_rooty()+widget.winfo_y()
    x1 = x+widget.winfo_width()
    y1 = y+widget.winfo_height()
    ImageGrab.grab().crop((x, y, x1, y1)).save("{}.png".format(str(counter)))


def timestamp():
    timelist = time.gmtime()
    filename = ("Image" + "_" + str(timelist[0]) + "_" + str(timelist[1]) + "_" + str(timelist[2]) + "_" +
                str(timelist[3]) + "_" + str(timelist[4]) + "_" + str(timelist[5]) + "_UTC")
    return filename

Note: Module "Graphics" is a module that allows for easy manipulation of Tkinter.

5
  • PyCharm is just going to be using w/e Python interpreter it's configured to use. It's not going to have much, if any, influence on how your program runs. This is a very vague question. Use a profiler to figure out what is taking the most time and optimize that. Depending on your constraints, you might need a faster (non-interpreted) language.
    – conner.xyz
    Mar 31, 2017 at 20:32
  • Looking at the documentation I found that you can pass a bbox parameter to PIL.ImageGrab.grab. This could save some time. You could also consider using PIL to create your image in the first place instead of taking a screenshot of a window as Austin Hastings suggested. Mar 31, 2017 at 20:36
  • @CDspace Rolled back your edit. The question has been solved, please do not change it from current.
    – Ryan Witek
    Apr 6, 2017 at 14:17
  • Please don't add "solved" or something similar to your post. Since you've accepted an answer, people will see anyway that your problem was solved.
    – FelixSFD
    Apr 6, 2017 at 14:20
  • 1
    Thank you @FelixSFD. I was about to roll that back, and FWIW adding SOLVED to the title is not okay. The system itself lets us know it's solved if the OP accepted an answer
    – CDspace
    Apr 6, 2017 at 14:30

4 Answers 4

3

Your slowness is probably from treating the pixels as rectangles in your window.

If all you want to do is generate random images, you can skip the window part. I found this code laying about, after not too much ducking:

from PIL import Image
import random

def drawImage():
    testImage = Image.new("RGB", (600,600), (255,255,255))
    pixel = testImage.load()

    for x in range(600):
        for y in range(600):
            red = random.randrange(0,255)
            blue = random.randrange(0,255)
            green = random.randrange(0,255)
            pixel[x,y]=(red,blue,green)
    return testImage

def main():
    finalImage = drawImage()
    finalImage.save("finalImage.jpg")
3
  • It works - Exactly what I needed! Thank you so much!
    – Ryan Witek
    Mar 31, 2017 at 20:48
  • That could be a LOT faster if you used putdata to put all the pixels in at once rather than using that loop. For instance: testImage.putdata([random.randrange(16777215) for _ in range(360000)])
    – Novel
    Mar 31, 2017 at 20:58
  • or: Image.fromarray(np.random.randint(255, size=(600, 600, 3)).astype(np.uint8)) as per my answer below. Mar 31, 2017 at 21:00
2

Use a profiler to see where your program is fast/slow. Here is a profile wrapper you can use on your functions to see what is taking too long in your program.

def line_profiler(view=None, extra_view=None):
import line_profiler

def wrapper(view):
    def wrapped(*args, **kwargs):
        prof = line_profiler.LineProfiler()
        prof.add_function(view)
        if extra_view:
            [prof.add_function(v) for v in extra_view]
        with prof:
            resp = view(*args, **kwargs)
        prof.print_stats()
        return resp
    return wrapped
if view:
    return wrapper(view)
return wrapper

Now how to use it

@line_profiler
def simple():
    print("Hello")
    print("World")

Now when you run your function, you will get a printout of how long everything takes.

You might need to do pip install line_profiler

0
2

this may be a bit faster if you use numpy. loops inside loops will kill your speed.

from PIL import Image
import numpy as np

def drawImage():
    return Image.fromarray(np.random.randint(255, size=(600, 600, 3)).astype(np.uint8))
1

Since you do a lot of independent tasks, you could benefit from parallelism. Something like:

from concurrent.futures import ThreadPoolExecutor

def build_image(window, start, end, step):
    for i in range(start, end, step):
        for j in range(end):
            fig = Rectangle(Point(j, i), Point(j + 1, i + 1))
            color = random.randrange(256)
            fig.setFill(color_rgb(color, color, color))
            fig.setOutline(color_rgb(color, color, color))
            fig.draw(window)

max_workers = 8
with ThreadPoolExecutor(max_workers=max_workers) as executor:
    for id in range(max_workers):
        executor.submit(build_image, window, id, 513, max_workers)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.