Metadata-Version: 1.1
Name: telenium
Version: 0.4.2
Summary: Kivy automation, can be used to do GUI tests.
Home-page: http://github.com/tito/telenium
Author: Mathieu Virbel
Author-email: mat@meltingrocks.com
License: MIT
Description: # Telenium
        
        Telenium provide a framework to remote tests or control Kivy-based application:
        
        - Selector support using XPATH-like syntax (`//BoxLayout[0]/Button[@text~="Close"]`)
        - Create selector by touching the UI
        - Query or set attribute on any widgets
        - Execute remote code
        - `unittests` support
        - Integrate as a Kivy modules
        - Web IDE
        - Python 2 and 3 (since version 0.4, using json-rpc)
        
        ![Telenium IDE](https://cloud.githubusercontent.com/assets/37904/22790912/f44b8166-eee7-11e6-9a78-120f78bde220.png)
        
        ![Telenium IDE export](https://cloud.githubusercontent.com/assets/37904/22791059/70fb6988-eee8-11e6-91f4-0b87af33b5b6.png)
        
        # Installation
        
        ```
        pip install telenium
        ```
        
        # Run the Telenium IDE
        
        It will start a webserver on http://127.0.0.1:8080/ and automatically open a new
        tab in your favorite webbrowser. You'll be able to configure where your main.py
        is, and start writing tests directly:
        
        ```
        telenium
        ```
        
        You can also edit telenium-json:
        
        ```
        telenium tests/test-ui-myfeature.json
        ```
        
        # Run the application with telenium module
        
        If you don't use the IDE, in order to remote control your application,
        you need the Telenium client installed within your application.
        
        ## Method 1: Run your application with telenium client
        
        Telenium can execute your application and manually add telenium_client to it.
        Just do:
        
        ```python
        python -m telenium.execute main.py
        ```
        
        ## Method 2: Add telenium_client as a Kivy modules into your application
        
        Just copy/paste `mods/telenium_client.py` in your application, then before
        running your application, initialize it:
        
        ```python
        from os.path import dirname
        from kivy.modules import Modules
        from kivy.config import Config
        Modules.add_path(dirname(__file__))
        Config.set("modules", "telenium_client", "")
        ```
        
        You also need to add `python-jsonrpc` in your dependencies (`pip install python-jsonrpc`)
        
        # Connect to a telenium-ready application
        
        We have a command line client to play with. After the application is started,
        you can connect with::
        
            $ python -m telenium.client localhost
        
        Then play with it. `cli` is the telenium client where you can invoke remote
        commands. See the `Telenium commands` to see what you can do:
        
        ```python
        >>> id = cli.pick() # then click somewhere on the UI
        >>> cli.click_at(id)
        True
        >>> cli.setattr("//Label", "color", (0, 1, 0, 1))
        True
        ```
        
        If a command returns True, it means it has been successful, otherwise it
        returns None.
        
        # Create unit tests
        
        Telenium have a module you can use that ease unit tests: it launch the app
        and execute tests. For now, it has been tested and coded to work only
        locally using subprocess.
        
        Additionnal methods:
        - `assertExists(selector, timeout=-1)` and
          `assertNotExists(selector, timeout=-1)` to check if a selector exists or not
          in the app. They both have a `timeout` parameter that, if it reach, will fail
          the test.
        - `cli.wait_click(selector, timeout=-1)`: easy way to wait a selector to match,
          then click on the first widget.
        
        Here is a real example that launch an app (default is "main.py"):
        
        - It first go in the menu to click where it need to save a CSV (`SaveButton`, `CascadeSaveButton` then `SaveCSVButton`)
        - Then wait at maximum 2s the popup to show with a label "Export to CSV"
        - Then click on the "Close" button in the popup
        - Then ensure the popup is closed by checking the label is gone.
        
        Example:
        
        ```python
        from telenium.tests import TeleniumTestCase
        
        class UITestCase(TeleniumTestCase):
            cmd_entrypoint = ["main.py"]
        
            def test_export_csv(self):
                self.cli.wait_click("//SaveButton")
                self.cli.wait_click("//CascadeSaveButton")
                self.cli.wait_click("//SaveCSVButton")
                self.assertExists("//Label[@text~=\"Export to CSV\"]", timeout=2)
                self.cli.wait_click("//FitButton[@text=\"Close\"]", timeout=2)
                self.assertNotExists("//Label[@text~=\"Export to CSV\"]", timeout=2)
        ```
        
        Each new TeleniumTestCase will close and start the application, so you always
        run from a clean app. If you always need to do something before starting the
        test, you can overload the `init`. This will be executed once before any
        tests in the class starts:
        
        ```python
        class UITestCase(TeleniumTestCase):
            def init(self):
                self.cli.wait_click("//PresetSelectionItem[@text!~=\"ttyUSB0 on mintel\"]",
                                   timeout=10)
                self.cli.wait_click("//Button[@text=\"Connect\"]")
                self.cli.wait("//BottomLabel[@text=\"Done\"]", timeout=10)
        ```
        
        You can also change few parameters to change/add things in your application for
        unit testing if needed:
        
        ```python
        class UITestCase(TeleniumTestCase):
            process_start_timeout = 5
            cmd_env = {"I_AM_RUNNING_TEST": 1}
        ```
        
        # Telenium commands
        
        ## `version()` (API v1)
        
        Return the current API version. You can use it to know which methods are
        available.
        
        ```python
        >>> cli.version()
        1
        ```
        
        ## `select(selector)`  (API v1)
        
        Return unique selectors for all widgets that matches the `selector`.
        
        ```python
        >>> cli.select("//Label")
        [u"/WindowSDL/GridLayout/Label[0]", u"/WindowSDL/GridLayout/Label[1]"]
        ```
        
        ## `getattr(selector, key)`  (API v1)
        
        Return the value of an attribute on the first widget found by the `selector`.
        
        ```python
        >>> cli.getattr("//Label", "text")
        u"Hello world"
        ```
        
        ## `setattr(selector, key, value)`  (API v1)
        
        Set an attribute named by `key` to `value` for all widgets that matches the
        `selector`.
        
        ```python
        >>> cli.setattr("//Label", "text", "Plop")
        True
        ```
        
        ## `element(selector)`  (API v1)
        
        Return `True` if at least one widget match the `selector`.
        
        ```python
        >>> cli.element("//Label")
        True
        >>> cli.element("//InvalidButton")
        False
        ```
        
        ## `execute(code)`  (API v1)
        
        Execute python code in the application. Only the "app" symbol that point to the
        current running application is available. Return True if the code executed, or
        False if the code failed. Exception will be print withing the application logs.
        
        ```python
        >>> cli.execute("app.call_one_app_method")
        True
        ```
        
        ## `pick(all=False)` (API v1)
        
        Return either the first widget selector you touch on the screen (`all=False`,
        the default), either it return the list of all the wigdets that are traversed
        where you touch the screen.
        
        ```python
        >>> cli.pick()
        u'/WindowSDL/Button[0]'
        >>> cli.pick(all=True)
        [u'/WindowSDL/Button[0]',u'/WindowSDL']
        ```
        
        ## `click_on(selector)` (API v1)
        
        Simulate a touch down/up on the first widget that match the `selector`. Return
        True if it worked.
        
        ```python
        >>> cli.click_on("//Button[0]")
        True
        ```
        
        # Telenium selector syntax (XPATH)
        
        Cheat sheet about telenium XPATH-based selector implementation.
        
        - Select any widget that match the widget class in the hierarchy: `//CLASS`
        - Select a widget that match the tree: `/CLASS`
        - Select a widget with attributes `/CLASS[<ATTR SELECTOR>,...]`
        - Index selector if there is multiple match: `/CLASS[INDEX]`
        - Attribute exists: `@attr`
        - Attribute equal to a value: `@attr=VALUE`
        - Attribute not equal to a value: `@attr!=VALUE`
        - Attribute contain a value: `@attr~=VALUE`
        - Attribute does not contain a value: `@attr!~=VALUE`
        - Value can be a string, but must be escaped within double quote only.
        
        Some examples:
        
        ```
        # Select all the boxlayout in the app
        //BoxLayout
        
        # Take the first boxlayout
        //BoxLayout[0]
        
        # Get the Button as a direct descendant of the BoxLayout
        //BoxLayout[0]/Button
        
        # Or get the 5th Button that are anywhere under the BoxLayout (may or may
        # not a direct descandant)
        //BoxLayout[0]//Button
        
        # Select the button that is written "Close"
        //BoxLayout[0]//Button[@text="Close"]
        
        # Select the button that contain "Close"
        //BoxLayout[0]//Button[@text~="Close"]
        ```
        
Keywords: kivy,automate,unittest,wait,condition
Platform: any
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: End Users/Desktop
Classifier: Intended Audience :: Information Technology
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: System Administrators
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: POSIX
Classifier: Operating System :: MacOS
Classifier: Operating System :: Unix
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Topic :: Software Development :: Build Tools
Classifier: Topic :: Internet
Classifier: Topic :: System :: Systems Administration
Classifier: Topic :: System :: Monitoring
