The one who serves a great Espresso
Barista makes developing UI tests faster, easier, and more predictable. Built on top of Espresso, it provides a simple and discoverable API, removing most of the boilerplate and verbosity of common Espresso tasks. You and your Android team will write tests with no effort.
Import Barista as a testing dependency:
androidTestImplementation('com.adevinta.android:barista:4.2.0') {
exclude group: 'org.jetbrains.kotlin' // Only if you already use Kotlin in your project
}
You might need to include the Google Maven repository, required by Espresso 3:
repositories {
google()
}
Barista already includes espresso-core
and espresso-contrib
. If you need any other Espresso package you can add them yourself.
clickOn(R.id.button);
clickOn(R.string.button_text);
clickOn("Next");
clickBack();
longClickOn(R.id.button);
longClickOn(R.string.button_text);
longClickOn("Next");
clickMenu(R.id.menu_item);
openMenu();
writeTo(R.id.edittext, "A great text"); // Ignores the EditText restrictions like maxLength and textFilter. It's blazing fast.
typeTo(R.id.edittext, "A great text"); // Honors the EditText restrictions like maxLength and textFilter. It slows down the test.
writeToAutoComplete(R.id.autocomplete, "Another great text");
clearText(R.id.edittext)
clickListItem(R.id.list, 4);
clickListItemChild(R.id.list, 3, R.id.row_button);
scrollListToPosition(R.id.list, 4);
clickSpinnerItem(R.id.spinner, 1);
clickRadioButtonItem(R.id.radiogroup, R.id.radio_item);
clickRadioButtonItem(R.id.radiogroup, "The radio text");
clickRadioButtonPosition(R.id.radiogroup, 42);
check(R.id.check_box_item_1);
uncheck(R.id.check_box_item_2);
setDateOnPicker(1986, 3, 23);
setTimeOnPicker(17, 2);
clickDialogPositiveButton();
clickDialogNeutralButton();
clickDialogNegativeButton();
scrollTo(R.id.far_away_widget);
scrollTo(R.string.text);
scrollTo("A widget with this text");
scrollTo(withTagValue(is("tagName"))) // using custom matchers
swipeViewPagerForward();
swipeViewPagerBack();
openDrawer();
openDrawerWithGravity(Gravity.RIGHT);
closeDrawer();
closeDrawerWithGravity(Gravity.RIGHT);
setProgressTo(R.id.seek_bar, 5);
setProgressToMin(R.id.seek_bar);
setProgressToMax(R.id.seek_bar);
refresh(R.id.swipe_refresh);
refresh(); // Id is optional. Barista will find it for you.
closeKeyboard()
pressImeActionButton()
sleep(2000);
sleep(2, SECONDS);
assertDisplayed("Hello world");
assertDisplayed(R.string.hello_world);
assertDisplayed(R.id.button);
assertDisplayed(R.id.button, "Hello world")
assertDisplayed(R.id.button, R.string.hello_world)
// on ListViews and RecyclerViews by position
assertDisplayedAtPosition(R.id.list, 0, "text");
assertDisplayedAtPosition(R.id.list, 0, R.id.text_field, "text");
assertDisplayedAtPosition(R.id.list, 0, R.string.hello_world);
assertDisplayedAtPosition(R.id.list, 0, R.id.text_field, R.string.hello_world);
assertDrawableDisplayedAtPosition(R.id.recycler, 0, R.id.imageview, R.drawable.ic_barista);
// you can also pass custom matchers
assertDisplayed(withTagValue(is("tagName")))
// ...or not?
assertNotDisplayed("Hello world");
assertNotDisplayed(R.string.hello_world);
assertNotDisplayed(R.id.button);
assertNotDisplayed(R.id.button, "Hello world")
assertNotDisplayed(R.id.button, R.string.hello_world)
// you can also pass custom matchers
assertNotDisplayed(withTagValue(is("tagName")))
assertEnabled("Hello world");
assertEnabled(R.string.hello_world);
assertEnabled(R.id.button);
// ...or not?
assertDisabled("Hello world");
assertDisabled(R.string.hello_world);
assertDisabled(R.id.button);
assertNotExist("Hello world");
assertNotExist(R.string.hello_world);
assertNotExist(R.id.button);
assertNotExist(allOf(withId(R.id.recycler),isDisplayed()));
assertExist("Hello world");
assertExist(R.string.hello_world);
assertExist(R.id.button);
assertExist(allOf(withId(R.id.recycler),isDisplayed()));
assertChecked("Checked checkbox");
assertChecked(R.string.checked_checkbox);
assertChecked(R.id.checkbox);
// ...or not?
assertUnchecked("Unchecked checkbox");
assertUnchecked(R.string.unchecked_checkbox);
assertUnchecked(R.id.checkbox);
assertClickable("Hello world")
assertClickable(R.string.hello_world)
assertClickable(R.id.button)
// ...or not?
assertNotClickable("Hello world")
assertNotClickable(R.string.hello_world)
assertNotClickable(R.id.button)
assertFocused(R.id.focused_view)
assertFocused("Button")
// ...or not?
assertNotFocused(R.id.focused_view)
assertNotFocused("Button")
assertHasAnyDrawable(R.id.image_view);
assertHasDrawable(R.id.image_view, R.drawable.ic_barista);
// ...or not?
assertHasNoDrawable(R.id.image_view);
assertHasAnyBackground(R.id.view);
assertHasBackground(R.id.view, R.drawable.ic_barista);
// ...or not?
assertHasNoBackground(R.id.view);
assertHasContentDescription(R.id.anyView);
assertContentDescription(R.id.anyView, R.string.content_description);
assertContentDescription(R.id.anyView, "Some text");
// Works with both ListView and RecyclerView
assertListNotEmpty(R.id.list)
assertListItemCount(R.id.list, 5)
// You can also pass custom assertions
assertCustomAssertionAtPosition(R.id.list, 0, customViewAssertion);
assertDrawerIsOpen();
assertDrawerIsOpenWithGravity(Gravity.RIGHT);
assertDrawerIsClosed();
assertDrawerIsClosedWithGravity(Gravity.RIGHT);
assertHint(R.id.edittext, R.string.hint);
assertHint(R.id.edittext, "Hint");
assertErrorDisplayed(R.id.edittext, R.string.error);
assertErrorDisplayed(R.id.edittext, "Error message");
assertNoErrorDisplayed(R.id.edittext, R.string.error);
assertNoErrorDisplayed(R.id.edittext, "Error message");
assertAssistiveText(R.id.textinputlayout, R.string.helper_text);
assertAssistiveText(R.id.textinputlayout, "Helper text");
assertContains("text");
assertContains(R.string.text);
assertContains(R.id.textview, "text");
assertContains(R.id.textview, R.string.text);
// ...or not?
assertNotContains("text");
assertNotContains(R.string.text);
assertNotContains(R.id.textview, "text");
assertNotContains(R.id.textview, R.string.text);
assertTextColorIs(R.id.some_red_text, R.color.red);
assertTextColorIs(R.id.some_color_list_text, R.color.state_list);
// ...or not?
assertTextColorIsNot(R.id.some_red_text, R.color.blue);
assertTextColorIsNot(R.id.some_color_list_text, R.color.another_state_list);
assertTextColorIs
and its variant assertTextColorIsNot
work with:
- Color int:
Color.parse("#ff00ff")
- Color resource:
R.color.green
- Color attribute:
R.attr.colorPrimary
Also Barista can check colors parsed from declarable-style
custom attribute:
assertTextColorIs(R.id.customTextView, R.styleable.SampleCustomView, R.style.SampleCustomStyle, R.styleable.SampleCustomView_customColor);
// ...or not?
assertTextColorIsNot(R.id.customTextView, R.styleable.SampleCustomView, R.style.SampleCustomStyle_Green, R.styleable.SampleCustomView_customColor);
assertRecyclerViewItemCount(R.id.recycler, 10);
assertProgress(R.id.seek_bar, 5)
assertProgressIsMin(R.id.seek_bar)
assertProgressIsMax(R.id.seek_bar)
assertThatBackButtonClosesTheApp();
If you have a special case not covered by the given assertions API, we encourage you to assert these special cases with our custom assertions API. It's a convenient way to replace plain Matcher
s with complex assertions. With Barista, you can match any kind of view by knowing its type and passing its viewId
, text
, or a Matcher<View>
. Once you matched it, you will be able to assert all its properties without adding any complex Matcher
to your project.
// Matching a Button by text
assertAny<Button>("Save") {
it.enabled == true
}
// Matching a RadioGroup by id
assertAny<RadioGroup>(R.id.radioGroup) {
it.checkedRadioButtonId == R.id.option1
}
// Matching a Progressbar by a Matcher
assertAny<Progressbar>(withId(R.id.progressBar)) {
it.progress == 42
}
// You can also define the assertion description that will be shown if the assertion fails
assertAny<RadioGroup>(R.id.radioGroup, "selected option is the second one") {
it.checkedRadioButtonId == R.id.option1
}
Mocking the Android Camera Intent is a tricky thing to do. To accomplish it in no time, Barista gives a way to do it in one line: the method mockAndroidCamera()
. This method does all the magic to mock the result of the camera. One more thing to do: you have to call Intents.init()
before calling mockAndroidCamera()
, and Intents.release()
after doing the action that launches the camera. You could also use IntentsTestRule
instead of the common ActivityTestRule
to skip it, but as we recommend the use of BaristaRule
, it's easier to just call both methods manually when needed.
Here's an example to copy paste:
try {
Intents.init();
BaristaIntents.mockAndroidCamera();
clickOn(R.id.launch_camera);
} finally {
Intents.release();
}
The new Marshmallow permissions system requires checking for permissions at runtime. As Espresso can't interact with the system dialog, Barista offers a way to allow permissions when needed.
PermissionGranter.allowPermissionsIfNeeded(Manifest.permission.GET_ACCOUNTS);
PermissionGranter.allowPermissionOneTime(Manifest.permission.GET_ACCOUNTS);
Barista includes a set of useful test rules to help you:
As tests should be isolated, they need to set the environment before running. Espresso doesn't help achieving it but Barista offers a set of rules to clear the app's data before running each test.
// Clear all app's SharedPreferences
@Rule public ClearPreferencesRule clearPreferencesRule = new ClearPreferencesRule();
// Delete all tables from all the app's SQLite Databases
@Rule public ClearDatabaseRule clearDatabaseRule = new ClearDatabaseRule();
// Delete all files in getFilesDir() and getCacheDir()
@Rule public ClearFilesRule clearFilesRule = new ClearFilesRule();
We should try to write deterministic tests, but when everything else fails Barista helps you deal with flaky tests using a specific ActivityTestRule and a couple of annotations that repeat your tests multiple times.
// Use a RuleChain to wrap your ActivityTestRule with a FlakyTestRule
private ActivityTestRule<FlakyActivity> activityRule = new ActivityTestRule<>(FlakyActivity.class);
private FlakyTestRule flakyRule = new FlakyTestRule();
@Rule
public RuleChain chain = RuleChain.outerRule(flakyRule)
.around(activityRule);
// Use @AllowFlaky to let flaky tests pass if they pass any time.
@Test
@AllowFlaky(attempts = 5)
public void some_flaky_test() throws Exception {
// ...
}
// Use @Repeat to avoid flaky tests from passing if any repetition fails.
@Test
@Repeat(times = 5)
public void some_important_test() throws Exception {
// ...
}
All previous rules can be added at the same time by just adding the BaristaRule.
@Rule
public BaristaRule<MyActivity> baristaRule = BaristaRule.create(MyActivity.class);
//...
baristaRule.launchActivity();
The rule assumes some sane defaults:
- Retry flaky tests: 10 attempts
- Launch activity automatically: false
- Initial touch mode enabled: true
- Clear preferences
- Clear databases
- Clear files
Check this link to know how to use @Rule
in Kotlin.
In order to speed up testing, Barista keeps in mind some considerations.
- Scrolls when needed: Interacting with Espresso in a
ScrollView
requires you to scroll to each view, which sometimes doesn't work the first time. Also trying to scroll outside aScrollView
produces anException
, forcing you to change the test depending on the layout. To keep tests simpler, Barista scrolls automatically before interacting with anyView
, and only does it if needed. - Scrolls on all views: Barista scrolls on all scrollable views, including
NestedScrollView
. Espresso only handlesScrollView
andHorizontalScrollView
, so people need to open questions on StackOverflow like this. Or... just use Barista. - Just interacts with displayed Views: Interacting with
View
s inside aViewPager
throwsAmbiguousViewMatcherException
, because the views you interact with will be potentially repeated on different pages. Barista only interacts with displayed widgets, so you can focus on the behavior instead of wasting time on details.
We welcome contributions! If you found a bug or have a feature request, feel free to open an issue to discuss it. Remember that bugs reported with a reproducible test are more likely to be investigated and fixed. You can also submit a Pull Request.
We use our company's IntelliJ code style for the project, which is very similar to the official Kotlin Android code style. When submitting code please make sure you use the proper format. You can install the code style into Android Studio by running the script in ./config/androidstudio/install-codestyle.sh
. Then restart Android Studio and pick the "BaristaAndroid" schema in preferences.
As most parts of Barista are Java-compatible, please do write Java tests when possible. Writing them in Kotlin might lead to using Kotlin-only shortcuts, breaking the Java compatibility Barista aims for.