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appium-gesture-actions
Advanced tools
This library is to provide a number gesture/interaction functions for Appium mobile automation.
The gestures are platform agnostic, which allows the user to provide a WebElement - or locators for both Android and iOS in the same function call.
appium driver install uiautomator2
appium driver install xcuitest
pip install appium-gesture-actions
# or
uv add appium-gesture-actions
## 0.2.1 (2024-11-21) 🥳
- Renamed package
- Complete re-write of functionality
- Added platform-specific code
- Added a number of new gestures
- Drag and Drop
- Pinch/Zoom In
- Pinch/Zoom Out
- Added safe inserts for Swipe On Element
- Added error handling
- Added API docs
- Changed to uv for packaging
See full list of changes: CHANGES.md
element_into_view()
_max_attempts
or CROP_FACTOR_
in SwipeGestures
)ActionBuilder
- or not..from appium.gesture.actions import GestureActions
from appium.gesture.enums import Direction, SeekDirection, UiSelector
class TestDemo(TestCore):
def test_cool_stuff(self):
# Initialise class object
action = GestureActions(self.driver, self.options["platformName"])
# Drag and Drop
image_element = driver.find_element(
by=AppiumBy.XPATH,
value='//android.widget.ImageView[0]',
)
delete_element = driver.find_element(
by=AppiumBy.XPATH,
value='//android.widget.ImageView[1]',
)
action.drag_drop.drag_and_drop(image_element, delete_element)
# Swipe
action.swipe.up()
action.swipe.next()
# Pinch
action.pinch.open(image_element)
# Swipe on Element
action.swipe.on_element(
image_element,
Direction.LEFT,
)
# Scroll to Element (Android - UiAutomator)
action.swipe.element_into_view(
value_a='new UiSelector().description("Save")',
locator_method_a=AppiumBy.ANDROID_UIAUTOMATOR,
)
# Scroll to Element (Android - XPATH)
action.swipe.element_into_view(
value_a="//android.widget.ImageView",
locator_method_a=AppiumBy.XPATH,
direction=SeekDirection.UP,
)
# Scroll to Element (Multi-platform, single code base)
action.swipe.element_into_view(
value_a='//android.widget.Button[@content-desc="Save"]',
value_i="label == 'Save'"
locator_method_a=AppiumBy.XPATH,
locator_method_i=AppiumBy.IOS_PREDICATE,
direction=SeekDirection.DOWN,
)
This function (part of the SwipeGestures class) has cross-platform support.
It is achieved by using parameters with different suffixes (_a
and _i
for Android and iOS respectively).
This will allow you to use a single function call for use on both platforms.
Additionally, it includes a fallback method (which is less efficient) if the element cannot be located initially.
This is achieved by scrolling the viewport until the element is located, or the maximum number of swipes is achieved (default: 5).
An example situation would be if an element is not yet present in the viewport and is loaded after scrolling.
If this situation applies to you, the direction
parameter will need to be specified.
The fallback method will calculate the viewport size, and then define a scrollable region based on crop factors to avoid triggering the notification shade/center or multi-tasking view.
If it cannot locate the element, it will call _perform_navigation_partial_
until it does - or it exceeds the max attempts.
In the event that the element is present but not in the viewport, it will calculate the distance to the element.
Then, it will determine the correct number of full (and if necessary) partial swipes to bring the element into the center of the viewport.
Additionally, the if actions_partial > SWIPE_ACTION_THRESHOLD
check ensures the pixel distance is large enough to warrant an action.
When this value is less than 50px, the swipe action will be interpreted by the OS as a double-tap.
Please look at _fallback_scroll_to_element
if you would like to learn more.
https://github.com/tanakrit-d/appium-gesture-actions/blob/ae1d229d14ced2a20169982d6284fcf7ed92c22b/src/appium/gesture/swipe.py#L176
This library divides the viewport into four bounds: upper, lower, left, and right. The default values cannot be overwritten (this will change in a future release).
Using these bounds, we then define a 'scrollable region'. We can then perform our scroll/swipe actions within this space.
The impetus for this is to recreate scrolling/swiping behaviour more similar to a user and avoid hardcoding coordinates.
Additionally, it avoids the automation attempting to perform actions on top of elements (such as headers or footers).
The importance of dynamically generating 'points' of an element to interact with allows us to account for re-sizing under a number of conditions (such as different devices/resolutions).
For the purpose of this library, we are only concerned with two attributes of an element: position and size.
The element's coordinates within the viewport is considered the top-left-point.
We can then use the element size to determine where it occupies relative to the view-port position.
top_left_point = element.location["x"], element.location["y"]
top_mid_point = element.location["x"] + (element.size["width"] // 2), element.location["y"]
top_right_point = element.location["x"] + element.size["width"], element.location["y"]
left_mid_point = element.location["x"], element.location["y"] + (element.size["height"] // 2)
mid_point = element.location["x"] + (element.size["width"] // 2), element.location["y"] + (element.size["height"] // 2)
right_mid_point = element.location["x"] + element.size["width"], element.location["y"] + (element.size["height"] // 2)
bottom_left_point = element.location["x"], element.location["y"] + element.size["height"]
bottom_mid_point = element.location["x"] + (element.size["width"] // 2), element.location["y"] + element.size["height"]
bottom_right_point = element.location["x"] + element.size["width"], element.location["y"] + element.size["height"]
Using the example element from the image, the above calculations would output as follows:
Top-Left-Point: (20, 20)
Top-Mid-Point: (40, 20)
Top-Right-Point: (60, 20)
Left-Mid-Point: (20, 30)
Mid-Point: (40, 30)
Right-Mid-Point: (60, 30)
Bottom-Left-Point: (20, 40)
Bottom-Mid-Point: (40, 40)
Bottom-Right-Point: (60, 40)
An example of this is available here: demo/calc_coordinates.py
I wrote this library based on issues I had with automating scroll-to-element functionality in my testing.
The majority of the tutorials or documentation I have found on the subject is either sparse, low quality and SEO orientated, or relies on hardcoding coordinates for the scroll actions.
Additionally, I did not find these to be robust enough or support different screen sizes when using the same code for different devices.
The Appium Python Client implementation relies on ActionChains
, and the .swipe()
and .scroll()
functions require either both elements to be directly provided - or the x and y coordinates to be specified.
In this library, Drag and Drop
and Pinch
call the Selenium JavaScript .execute_script()
function - which is more reliable and robust than using ActionChains
.
Initially, a prototype implementation using ActionChains
was attempted, however the performance was poor and buggy since Selenium implements a number of logical checks when executing it.
I found it threw numerous exceptions due to some form of built-in element detection.
Swipe
contains a combination of .execute_script()
and ActionChains
.
For Android, the preferred method is AppiumBy.ANDROID_UIAUTOMATOR
which uses new UiScrollable()
as it is incredibly quick and reliable.
It will use ActionChains
if any other locator method is called.
For iOS, it will initially attempt to use .execute_script()
, and then fallback to ActionChains
if the element cannot be located.
I would recommend reading the following documentation which helped inform the design and implementation.
If you would like to see the pointer interactions and coordinates, this can be enabled on a device level in Settings > Developer Options > Pointer location
Contributions or feedback is welcome! Please feel free to submit a Pull Request.
As this is my first Python package I am open to any and all suggestions :^)
If you encounter any issues or have questions, please file an issue on the GitHub repository.
FAQs
Gesture actions library for Appium
We found that appium-gesture-actions demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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