A simple, cross-platform screenshot module for Python 2 and 3.
PyScreeze is a simple, cross-platform screenshot module for Python 3.
PyScreeze can take screenshots, save them to files, and locates images within the screen. This is useful if you have a small image of, say, a button that needs to be clicked and want to locate it on the screen.
NOTE - PyScreeze depends on Pillow for screenshots, whose older versions have security issues. The only secure versions of Pillow are 8.3.2 and later. However, Pillow 8.3.2 only supports Python as far back as Python 3.6. If you are installing PyScreeze for Python 3.5 or earlier, be aware that there may be security issues with the version of Pillow it uses.
If Pillow is unavailable, there are fallback methods for each OS (screencapture for macOS, gnome-screenshot for Linux, etc.)
If your Ubuntu system uses the older X11 window system, you must install Xlib by running sudo apt install python3-xlib
. This will require the admin password for your computer.
Calling screenshot()
will return an Image object (see the Pillow or PIL module documentation for details). Passing a string of a filename will save the screenshot to a file as well as return it as an Image object.
>>> import pyscreeze
>>> im1 = pyscreeze.screenshot()
>>> im2 = pyscreeze.screenshot('my_screenshot.png')
On a 1920 x 1080 screen, the screenshot()
function takes roughly 100 milliseconds - it's not fast but it's not slow.
There is also an optional region
keyword argument, if you do not want a screenshot of the entire screen. You can pass a four-integer tuple of the left, top, width, and height of the region to capture:
>>> import pyscreeze
>>> im = pyscreeze.screenshot(region=(0,0, 300, 400))
You can visually locate something on the screen if you have an image file of it. You can call the locateOnScreen('calc7key.png')
function to get the screen coordinates of the 7 button for a calculator app. The return value is a 4-integer tuple: (left, top, width, height). This tuple can be passed to center()
to get the X and Y coordinates at the center of this region. If the image can't be found on the screen, locateOnScreen()
returns None
. (PyAutoGUI is a module that simulates mouse clicks.)
>>> import pyscreeze, pyautogui
>>> button7location = pyscreeze.locateOnScreen('calc7key.png')
>>> button7location
(1416, 562, 50, 41)
>>> button7x, button7y = pyscreeze.center(button7location)
>>> button7x, button7y
(1441, 582)
>>> pyautogui.click(button7x, button7y) # clicks the center of where the 7 button was found
The locateCenterOnScreen()
function is probably the one you want to use most often:
>>> import pyscreeze, pyautogui
>>> x, y = pyscreeze.locateCenterOnScreen('calc7key.png')
>>> pyautogui.click(x, y)
On a 1920 x 1080 screen, the locate function calls take about 1 or 2 seconds. This may be too slow for action video games, but works for most purposes and applications.
If speed is important, install the optional opencv library (pip install cv2
). The locateAll
computation will use it if available, and take less than 1 millisecond to find all matches in a full-screen search. (This does not include the time required to capture a screenshot.)
There are several "locate" functions. They all start looking at the top-left corner of the screen (or image) and look to the left and then down. The arguments can either be a
locateOnScreen(image, grayscale=False)
- Returns (left, top, width, height) coordinate of first found instance of the image
on the screen. Returns None if not found on the screen.
locateCenterOnScreen(image, grayscale=False)
- Returns (x, y) coordinates of the center of the first found instance of the image
on the screen. Returns None if not found on the screen.
locateAllOnScreen(image, grayscale=False)
- Returns a generator that yields (left, top, width, height) tuples for where the image is found on the screen.
locate(needleImage, haystackImage, grayscale=False)
- Returns (left, top, width, height) coordinate of first found instance of needleImage
in haystackImage
. Returns None if not found on the screen.
locateAll(needleImage, haystackImage, grayscale=False)
- Returns a generator that yields (left, top, width, height) tuples for where needleImage
is found in haystackImage
.
The "locate all" functions can be used in for loops or passed to list()
:
>>> import pyscreeze
>>> for pos in pyscreeze.locateAllOnScreen('someButton.png')
... print(pos)
...
(1101, 252, 50, 50)
(59, 481, 50, 50)
(1395, 640, 50, 50)
(1838, 676, 50, 50)
>>> list(pyscreeze.locateAllOnScreen('someButton.png'))
[(1101, 252, 50, 50), (59, 481, 50, 50), (1395, 640, 50, 50), (1838, 676, 50, 50)]
Optionally, you can pass grayscale=True
to the locate functions to give a slight speedup (about 30%-ish). This desaturates the color from the images and screenshots, speeding up the locating but potentially causing false-positive matches.
>>> import pyscreeze
>>> button7location = pyscreeze.locateOnScreen('calc7key.png', grayscale=True)
>>> button7location
(1416, 562, 50, 41)
To obtain the RGB color of a pixel in a screenshot, use the Image object's getpixel()
method:
>>> import pyscreeze
>>> im = pyscreeze.screenshot()
>>> im.getpixel((100, 200))
(130, 135, 144)
Or as a single function, call the pixel()
PyScreeze function, which is a wrapper for the previous calls:
>>> import pyscreeze
>>> pyscreeze.pixel(100, 200)
(130, 135, 144)
If you just need to verify that a single pixel matches a given pixel, call the pixelMatchesColor()
function, passing it the X coordinate, Y coordinate, and RGB tuple of the color it represents:
>>> import pyscreeze
>>> pyscreeze.pixelMatchesColor(100, 200, (130, 135, 144))
True
>>> pyscreeze.pixelMatchesColor(100, 200, (0, 0, 0))
False
The optional tolerance
keyword argument specifies how much each of the red, green, and blue values can vary while still matching:
>>> import pyscreeze
>>> pyscreeze.pixelMatchesColor(100, 200, (130, 135, 144))
True
>>> pyscreeze.pixelMatchesColor(100, 200, (140, 125, 134))
False
>>> pyscreeze.pixelMatchesColor(100, 200, (140, 125, 134), tolerance=10)
True
If you find this project helpful and would like to support its development, consider donating to its creator on Patreon.