A Python wrapper for AHK
Project description
ahk
A fully typed Python wrapper around AHK.
Installation
pip install ahk
Requires Python 3.8+
See also Non-Python dependencies
Usage
from ahk import AHK
ahk = AHK()
ahk.mouse_move(x=100, y=100, blocking=True) # Blocks until mouse finishes moving (the default)
ahk.mouse_move(x=150, y=150, speed=10, blocking=True) # Moves the mouse to x, y taking 'speed' seconds to move
print(ahk.mouse_position) # (150, 150)
Examples
Non-exhaustive examples of some functions available with this package. Full documentation coming soon!
Hotkeys
Hotkeys can be configured to run python functions as callbacks.
For example:
from ahk import AHK
def my_callback():
print('Hello callback!')
ahk = AHK()
# when WIN + n is pressed, fire `my_callback`
ahk.add_hotkey('#n', callback=my_callback)
ahk.start_hotkeys() # start the hotkey process thread
ahk.block_forever() # not strictly needed in all scripts -- stops the script from exiting; sleep forever
Now whenever you press + n, the my_callback
callback function will be called in a background thread.
You can also add an exception handler for your callback:
from ahk import AHK
ahk = AHK()
def go_boom():
raise Exception('boom!')
def my_ex_handler(hotkey: str, exception: Exception):
print('exception with callback for hotkey', hotkey, 'Here was the error:', exception)
ahk.add_hotkey('#n', callback=go_boom, ex_handler=my_ex_handler)
Note that:
- Hotkeys run in a separate process that must be started manually (with
ahk.start_hotkeys()
) - Hotkeys can be stopped with
ahk.stop_hotkeys()
(will not stop actively running callbacks) - Hotstrings (discussed below) share the same process with hotkeys and are started/stopped in the same manner
- If hotkeys or hotstrings are added while the process is running, the underlying AHK process is restarted automatically
See also the relevant AHK documentation
Hotstrings
Hotstrings can also be added to the hotkey process thread.
In addition to Hotstrings supporting normal AHK string replacements, you can also provide Python callbacks (with optional exception handlers) in response to hotstrings triggering.
from ahk import AHK
ahk = AHK()
def my_callback():
print('hello callback!')
ahk.add_hotstring('btw', 'by the way') # string replacements
ahk.add_hotstring('btw', my_callback) # call python function in response to the hotstring
Mouse
from ahk import AHK
ahk = AHK()
ahk.mouse_position # Returns a tuple of mouse coordinates (x, y) (relative to active window)
ahk.get_mouse_position(coord_mode='Screen') # get coordinates relative to the screen
ahk.mouse_move(100, 100, speed=10, relative=True) # Moves the mouse reletave to the current position
ahk.mouse_position = (100, 100) # Moves the mouse instantly to absolute screen position
ahk.click() # Click the primary mouse button
ahk.click(200, 200) # Moves the mouse to a particular position and clicks (relative to active window)
ahk.click(100, 200, coord_mode='Screen') # click relative to the screen instead of active window
ahk.click(button='R', click_count=2) # Clicks the right mouse button twice
ahk.right_click() # Clicks the secondary mouse button
ahk.mouse_drag(100, 100, relative=True) # Holds down primary button and moves the mouse
Keyboard
from ahk import AHK
ahk = AHK()
ahk.type('hello, world!') # Send keys, as if typed (performs string escapes for you)
ahk.send_input('Hello, {U+1F30E}{!}') # Like AHK SendInput
# Unlike `type`, control sequences must be escaped manually.
# For example the characters `!^+#=` and braces (`{` `}`) must be escaped manually.
ahk.key_state('Control') # Return True or False based on whether Control key is pressed down
ahk.key_state('CapsLock', mode='T') # Check toggle state of a key (like for NumLock, CapsLock, etc)
ahk.key_press('a') # Press and release a key
ahk.key_down('Control') # Press down (but do not release) Control key
ahk.key_up('Control') # Release the key
ahk.set_capslock_state("On") # Turn CapsLock on
ahk.key_wait('a', timeout=3) # Wait up to 3 seconds for the "a" key to be pressed. NOTE: This throws
# a TimeoutError if the key isn't pressed within the timeout window
Windows
You can do stuff with windows, too.
Getting windows
from ahk import AHK
ahk = AHK()
win = ahk.active_window # Get the active window
win = ahk.win_get(title='Untitled - Notepad') # by title
all_windows = ahk.list_windows() # list of all windows
win = ahk.win_get_from_mouse_position() # the window under the mouse cursor
win = ahk.win_get(title='ahk_pid 20366') # get window from pid
# Wait for a window
try:
# wait up to 5 seconds for notepad
win = ahk.win_wait(title='Untitled - Notepad', timeout=5)
# see also: win_wait_active, win_wait_not_active
except TimeoutError:
print('Notepad was not found!')
Working with windows
from ahk import AHK
ahk = AHK()
ahk.run_script('Run Notepad') # Open notepad
win = ahk.find_window(title='Untitled - Notepad') # Find the opened window
win.send('hello') # Send keys directly to the window (does not need focus!)
win.move(x=200, y=300, width=500, height=800)
win.activate() # Give the window focus
win.close() # Close the window
win.hide() # Hide the windwow
win.kill() # Kill the window
win.maximize() # Maximize the window
win.minimize() # Minimize the window
win.restore() # Restore the window
win.show() # Show the window
win.disable() # Make the window non-interactable
win.enable() # Enable it again
win.to_top() # Move the window on top of other windows
win.to_bottom() # Move the window to the bottom of the other windows
win.always_on_top = 'On' # Make the window always on top
# or
win.set_always_on_top('On')
for window in ahk.list_windows():
print(window.title)
# Some more attributes
print(window.text) # window text -- or .get_text()
print(window.get_position()) # (x, y, width, height)
print(window.id) # the ahk_id of the window
print(window.pid) # process ID -- or .get_pid()
print(window.process_path) # or .get_process_path()
if win.active: # or win.is_active()
...
if win.exist: # or win.exists()
...
Screen
from ahk import AHK
ahk = AHK()
ahk.image_search('C:\\path\\to\\image.jpg') # Find an image on screen
# Find an image within a boundary on screen
ahk.image_search('C:\\path\\to\\image.jpg', upper_bound=(100, 100), # upper-left corner of search area
lower_bound=(400, 400)) # lower-right corner of search area
ahk.pixel_get_color(100, 100) # Get color of pixel located at coords (100, 100)
ahk.pixel_search(color='0x9d6346', search_region_start=(0, 0), search_region_end=(500, 500)) # Get coords of the first pixel with specified color
Clipboard
Get/set Clipboard
data
from ahk import AHK
ahk = AHK()
ahk.set_clipboard('hello \N{EARTH GLOBE AMERICAS}') # set clipboard text contents
ahk.get_clipboard() # get clipboard text contents
# 'hello 🌎'
You may also get/set ClipboardAll
-- however, you should never try to call set_clipboard_all
with any other
data than as exactly as returned by get_clipboard_all
or unexpected problems may occur.
from ahk import AHK
ahk = AHK()
# save all clipboard contents in all formats
saved_clipboard = ahk.get_clipboard_all()
ahk.set_clipboard('something else')
...
ahk.set_clipboard_all(saved_clipboard) # restore saved content from earlier
Sound
from ahk import AHK
ahk = AHK()
ahk.sound_play('C:\\path\\to\\sound.wav') # Play an audio file
ahk.sound_beep(frequency=440, duration=1000) # Play a beep for 1 second (duration in microseconds)
ahk.get_volume(device_number=1) # Get volume of a device
ahk.set_volume(50, device_number=1) # Set volume of a device
ahk.sound_get(device_number=1, component_type='MASTER', control_type='VOLUME') # Get sound device property
ahk.sound_set(50, device_number=1, component_type='MASTER', control_type='VOLUME') # Set sound device property
GUI
import time
from ahk import AHK
ahk = AHK()
ahk.show_tooltip("hello4", x=10, y=10)
time.sleep(2)
ahk.hide_tooltip() # hide the tooltip
ahk.show_info_traytip("Info", "It's also info", silent=False, blocking=True) # Default info traytip
ahk.show_warning_traytip("Warning", "It's a warning") # Warning traytip
ahk.show_error_traytip("Error", "It's an error") # Error trytip
Global state changes
You can change various global states such as CoordMode
, DetectHiddenWindows
, etc. so you don't have to pass
these parameters directly to function calls
from ahk import AHK
ahk = AHK()
ahk.set_coord_mode('Mouse', 'Screen') # set default Mouse CoordMode to be relative to Screen
ahk.set_detect_hidden_windows(True) # Turn on detect hidden windows by default
ahk.set_send_level(5) # Change send https://www.autohotkey.com/docs/v1/lib/SendLevel.htm
ahk.set_title_match_mode('Slow') # change title match speed and/or mode
ahk.set_title_match_mode('RegEx')
ahk.set_title_match_mode(('RegEx', 'Slow')) # or both at the same time
Add directives
You can add directives that will be added to all generated scripts. For example, to prevent the AHK trayicon from appearing, you can add the NoTrayIcon directive.
from ahk import AHK
from ahk.directives import NoTrayIcon
ahk = AHK(directives=[NoTrayIcon])
By default, some directives are automatically added to ensure functionality and are merged with any user-provided directives.
Registry methods
You can read/write/delete registry keys:
from ahk import AHK
ahk = AHK()
ahk.reg_write('REG_SZ', r'HKEY_CURRENT_USER\SOFTWARE\my-software', value='test')
ahk.reg_write('REG_SZ', r'HKEY_CURRENT_USER\SOFTWARE\my-software', value_name='foo', value='bar')
ahk.reg_read(r'HKEY_CURRENT_USER\SOFTWARE\my-software') # 'test'
ahk.reg_delete(r'HKEY_CURRENT_USER\SOFTWARE\my-software')
If a key does not exist or some other problem occurs, an exception is raised.
non-blocking modes
Most methods in this library supply a non-blocking interface, so your Python scripts can continue executing while your AHK scripts run.
By default, all calls are blocking -- each function will execute completely before the next function is ran.
However, sometimes you may want to run other code while AHK executes some code. When the blocking
keyword
argument is supplied with False
, function calls will return immediately while the AHK function is carried out
in the background.
As an example, you can move the mouse slowly and report its position as it moves:
import time
from ahk import AHK
ahk = AHK()
ahk.mouse_position = (200, 200) # Moves the mouse instantly to the start position
start = time.time()
# move the mouse very slowly
ahk.mouse_move(x=100, y=100, speed=30, blocking=False)
# This code begins executing right away, even though the mouse is still moving
while True:
t = round(time.time() - start, 4)
position = ahk.mouse_position
print(t, position) # report mouse position while it moves
if position == (100, 100):
break
When you specify blocking=False
you will always receive a special FutureResult
object (or AsyncFutureResult
object in the async API, discussed below)
which allows you to wait on the function to complete and retrieve return value through a get_result
function. Even
when a function normally returns None
, this can be useful to ensure AHK has finished executing the function.
nonblocking calls:
- Are isolated in a new AHK process that will terminate after the call is complete
- Always start immediately
- Do not inherit previous global state changes (e.g., from
set_coord_mode
calls or similar) -- this may change in a future version. - will not block other calls from starting
- will always return a special
FutureResult
object (orAsyncFutureResult
object in the async API, discussed below) which allows you to wait on the function to complete and retrieve return value through theresult
function. Even when a function normally returnsNone
, this can be useful to ensure AHK has finished executing the function.
from ahk import AHK
ahk = AHK()
future_result = ahk.mouse_move(100, 100, speed=40, blocking=False)
...
# wait on the mouse_move to finish
future_result.result(timeout=10) # timeout keyword is optional
Async API (asyncio)
An async API is provided so functions can be called using async
/await
.
All the same methods from the synchronous API are available in the async API.
from ahk import AsyncAHK
import asyncio
ahk = AsyncAHK()
async def main():
await ahk.mouse_move(100, 100)
x, y = await ahk.get_mouse_position()
print(x, y)
asyncio.run(main())
The async API is identical to that of the normal API, with a few notable differences:
- While properties (like
.mouse_position
or.title
for windows) can beawait
ed, additional methods (likeget_mouse_position()
andget_title()
) have been added for a more intuitive API and are recommended over the use of properties. - Property setters (e.g.,
ahk.mouse_postion = (200, 200)
) are not allowed in the async API (a RunTimeError is raised). Property setters remain available in the sync API. AsyncFutureResult
objects (returned when specifyingblocking=False
) work the same as theFutureResult
objects in the sync API, except thetimeout
keyword is not supported for theresult
method).
Note also that:
- by default, awaited tasks on a single
AsyncAHK
instance will not run concurrently. You must either useblocking=False
, as in the sync API, or use multiple instances ofAsyncAHK
. - There is no difference in working with hotkeys (and their callbacks) in the async vs sync API.
type-hints and mypy
This library is fully type-hinted, allowing you to leverage tools like mypy
to help validate the type-correctness
of your code. IDEs that implement type-checking features are also able to leverage type hints to help ensure your
code is safe.
Run arbitrary AutoHotkey scripts
You can also run arbitrary AutoHotkey code either as a .ahk
script file or as a string containing AHK code.
from ahk import AHK
ahk = AHK()
my_script = '''\
MouseMove, 100, 100
; etc...
'''
ahk.run_script(my_script)
from ahk import AHK
ahk = AHK()
script_path = r'C:\Path\To\myscript.ahk'
ahk.run_script(script_path)
Non-Python dependencies
To use this package, you need the AutoHotkey executable. It's expected to be on PATH by default.
Note: this should be AutoHotkey V1. AutoHotkey V2 is not yet supported.
A convenient way to do this is to install the binary
extra
pip install "ahk[binary]"
You can also use the AHK_PATH
environment variable to specify the executable location.
set AHK_PATH=C:\Path\To\AutoHotkey.exe
Alternatively, you may provide the path in code
from ahk import AHK
ahk = AHK(executable_path='C:\\path\\to\\AutoHotkey.exe')
Contributing
All contributions are welcomed and appreciated.
Please feel free to open a GitHub issue or PR for feedback, ideas, feature requests or questions.
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