Shot is an Android project you can use to write screenshot for your apps in a simple and friendly way.

Shot is a Gradle plugin and a core android library thought to run screenshot tests for Android. This project provides a handy interface named ScreenshotTest and a ready to use ShotTestRunner you can use in order to write tests like these:

class GreetingScreenshotTest : ScreenshotTest {

    // If you are using regular Android views

    @Test
    fun theActivityIsShownProperly() {
        val mainActivity = startMainActivity();

        compareScreenshot(activity);
    }

    // If you are using Jetpack Compose

    @Test
    fun rendersGreetingMessageForTheSpecifiedPerson() {
        composeRule.setContent { Greeting(greeting) }

        compareScreenshot(composeRule)
    }
}

Since Shot 5.0.0 we provide screenshot testing support for Jetpack Compose.

Record your screenshots executing ./gradlew executeScreenshotTests -Precord

And verify your tests executing ./gradlew executeScreenshotTests

If Shot finds any error in your tests execution the Gradle plugin will show a report as follows:

You can find the complete Facebook SDK documentation here.

Setup the Gradle plugin:

  buildscript {
    // ...
    dependencies {
      // ...
      classpath 'com.karumi:shot:5.7.0'
    }
  }
  apply plugin: 'shot'

This plugin sets up a few convenience commands you can list executing ./gradlew tasks and reviewing the Shot associated tasks:

If you are using flavors the available Shot gradle tasks will be configured based on your flavors and build types configuration. You can find all the available shot tasks by executing ./gradlew tasks. For example, if your app has two flavors: green and blue the list of available Shot tasks will be:

executeScreenshotTests - Checks the user interface screenshot tests. If you execute this task using -Precord param the screenshot will be regenerated.
blueDebugDownloadScreenshots - Retrieves the screenshots stored into the Android device where the tests were executed for the build BlueDebug
blueDebugExecuteScreenshotTests - Records the user interface tests screenshots. If you execute this task using -Precord param the screenshot will be regenerated for the build BlueDebug
blueDebugRemoveScreenshots - Removes the screenshots recorded during the tests execution from the Android device where the tests were executed for the build BlueDebug
greenDebugDownloadScreenshots - Retrieves the screenshots stored into the Android device where the tests were executed for the build GreenDebug
greenDebugExecuteScreenshotTests - Records the user interface tests screenshots. If you execute this task using -Precord param the screenshot will be regenerated for the build GreenDebug
greenDebugRemoveScreenshots - Removes the screenshots recorded during the tests execution from the Android device where the tests were executed for the build GreenDebug

If for some reason you are running your tests on a different machine and you want to skip the instrumentation tests execution and just compare the sources remember you can use the following shot configuration:

  shot {
    runInstrumentation = false
  }

Keep in mind the screenshots library needs the WRITE_EXTERNAL_STORAGE permission. When testing a library, add this permission to the manifest of the instrumentation apk. If you are testing an application, add this permission to the app under test. To grant this permission you can create an AndroidManifest.xml file inside the androidTest folder. Here is an example:

<?xml version="1.0" encoding="utf-8"?>
<manifest xmlns:android="http://schemas.android.com/apk/res/android"
    package="<YOUR_APP_ID>.test"
    android:sharedUserId="<YOUR_APP_ID>.uid">

    <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE" />

</manifest>

You'll have to add the same android:sharedUserId="<YOUR_APP_ID>.uid" configuration to your app/AndroidManfiest.xml file in order to let the testing APK write into the SDCard.. If you don't do this, you can end up facing a weird error with this message while running your tests:

java.lang.RuntimeException: Failed to create the directory /sdcard/screenshots/com.example.snapshottesting.test/screenshots-default for screenshots. Is your sdcard directory read-only?

Remember to configure the instrumentation test runner in your build.gradle as follows:

android {
    // ...
    defaultConfig {
        // ...
        testInstrumentationRunner "com.karumi.shot.ShotTestRunner"
    }
    // ...

We created this test runner for you extending from the Android one.

If you want to use Shot to test your Android libraries code, you will have to configure the testApplicationId parameter as follows

android {
    // ...
    defaultConfig {
        // ...
        testApplicationId "<MY_TEST_APPLICATION_ID>"
    }
    // ...

Be careful and do not use the same id you are using for any other of the installed apps.

Now you are ready to use the ScreenshotTest interface from your tests:

class MyActivityTest: ScreenshotTest {
    @Test
    fun theActivityIsShownProperly() {
            val mainActivity = startMainActivity();
           /*
             * Take the actual screenshot. At the end of this call, the screenshot
             * is stored on the device and the gradle plugin takes care of
             * pulling it and displaying it to you in nice ways.
             */
            compareScreenshot(activity);
    }
}

Since Shot 5.0.0, if you are using Jetpack Compose your tests will look like this:

class GreetingScreenshotTest : ScreenshotTest {

    @Test
    fun rendersGreetingMessageForTheSpecifiedPerson() {
        composeRule.setContent { Greeting(greeting) }

        compareScreenshot(composeRule)
    }

This interface is full of useful methods you can use to take your screenshots with your activities, dialogs fragments, view holders or even custom views

You can find a complete example in this repository under the folder named shot-consumer or review this kata.***

Now you are ready to record and verify your screenshot tests!

ScreenshotTest interface has been designed to simplify the usage of the library. These are the features you can use:

• Take a screenshot of any activity by using compareScreenshot(activity). Activity height, width, background color and screenshot name are configurable.
• Take a screenshot of any fragment by using compareScreenshot(fragment). Fragment height, width and screenshot name are configurable.
• Take a screenshot of any dialog by using compareScreenshot(dialog). Dialog height, width and screenshot name are configurable.
• Take a screenshot of any view by using compareScreenshot(view). View height, width and screenshot name are configurable.
• Take a screenshot of any view holder by using compareScreenshot(holder). View holder height, width and screenshot name are configurable.
• Take a screenshot of any Jetpack Component compareScreenshot(composeTestRule). The screenshot name is configurable.
• Take a screenshot of any SemanticInteractionNode compareScreenshot(node). The screenshot name is configurable.

Before taking the screenshot, Shot performs some tasks in order to stabilize the screenshot. You can find the detail about the tasks performed in ScreenshotTest#disableFlakyComponentsAndWaitForIdle:

• Invokes disableFlakyComponentsAndWaitForIdle method you can override if you want to add any custom task before taking the screenshot.
• Hides every EditText cursor.
• Hides every ScrollView and HorizontalScrollView scrollbars.
• Hides all the ignored views. You can specify the views you want to ignore by overriding viewToIgnore.
• Wait for animations to finish and also waits until Espresso considers the UI thread is idle. This is really interesting if you are using Espresso in your tests.

You can find examples of the usage of this interface and every feature mentioned inside the examples named shot-consumer and shot-consumer-flavors.

In case you need to override the inner dependency Shot includes in your project during the plugin configuration you can do it as follows:

dependencies {
  ....
  shotDependencies "com.karumi:shot-android:ANY_VERSION_YOU_WANT_TO_USE"
  ....
}

Keep in mind you'll need to use a compatible version or Shot won't work as expected.

ActivityTestRule has been deprecated and now the usage of ActivityScenario is recommended. However, Shot needs to be executed from the instrumentation thread to be able to extract all the test metadata needed to record and verify screenshots. That's why we've created an ActivityScenario extension method named waitForActivity. This extension is needed get the activity instance from the instrumentation thread instead of running Shot from the app target thread. Using this extension you can write tests like this:

class MainActivityTest: ScreenshotTest {
    @Test
    fun rendersTheDefaultActivityState() {
        val activity = ActivityScenario.launch(MainActivity::class.java)

        compareScreenshot(activity)
    }
}

I hope we can find a better solution for this issue in the future.

You can record your screenshot tests executing this command:

./gradlew <Flavor><BuildType>ExecuteScreenshotTests -Precord

or

./gradlew executeScreenshotTests -Precord

This will execute all your integration tests and it will pull all the generated screenshots into your repository so you can easily add them to the version control system.

Once you have a bunch of screenshot tests recorded you can easily verify if the behaviour of your app is the correct one executing this command:

./gradlew <Flavor><BuildType>ExecuteScreenshotTests

or

./gradlew executeScreenshotTests

After executing your screenshot tests using the Gradle task <Flavor><BuildType>ExecuteScreenshotTests a report with all your screenshots will be generated.

Shot is a Gradle plugin and it does not integrate with AS by default. After running your tests, Shot Gradle plugin will fetch the screenshots generated during tests' execution and use them to check if your tests are passing or not. You always can run your tests from command linke as explained above. However, if you want to run your tests from AS you can create a configuration like this:

Keep in mind the debugger may not work if use use this option. If you want to debug your tests you can run them from Android Studio as you'd do with any other instrumentation test.

If after some time writing screenshot tests your build takes too long to run our recommendation is to run your tests in multiple devices. Sharding your tests execution will split your test suite into different devices so your tests execution time will be reduced. This feature is not designed to test the UI across different platforms or screen resolutions, to do that we'd recommend you to configure the size of the screenshot taken by modifing the view height and width. To run your tests in multiple devices you can use Composer and the official Gradle Plugin they provide. Composer will take all your tests and will split the test suite execution between all the connected devices. Remember, if you are going to use more than one device all the devices should use the same Android OS and the same screen resolution and density! Keep also in mind composer needs Gradle 5.4.1 to be able to run your tests using multiple devices.

Once you've configured composer to run your tests you only need to update Shot to use the composer task as the instrumentation test task as follows:

shot {
  useComposer = true
}

Take into account the instrumentationTestTask could be different if you use different flavors or build types. Remember also you should use Shot > 3.0.0 because this feature was introduced in this release!

Shot generates an HTML report you can review at the end of the recording or verification build. However, if you are running Shot in a CI environment which does not support saving the reporting files generated by the build you can verify your tests using this command ./gradlew debugExecuteScreenshotTests -PprintBase64. This will change how Shot show comparision errors displaying a command you can copy and paste on your local terminal for every screenshot test failed.

If you want to see only failing tests in output, please add showOnlyFailingTestsInReports = true as an option to your build.gradle.

You can run a single test or test class, just add the android.testInstrumentationRunnerArguments.class parameter within your gradle call. This option works for both modes, verification and recording, just remember to add the -Precord if you want to do the latter.

Running all tests in a class:

./gradlew <Flavor><BuildType>executeScreenshotTests -Pandroid.testInstrumentationRunnerArguments.class=com.your.package.YourClassTest

Running a single test:

./gradlew <Flavor><BuildType>executeScreenshotTests -Pandroid.testInstrumentationRunnerArguments.class=com.your.package.YourClassTest#yourTest

Due to the new storage system implemented on API 29 and higher, Shot has some limitations writing the screenshots on the SD. Shot can't be used when both Target SDK and device API are API 30.

If one of those values (Target SDK or Device API) is <= 29, Shot will work properly just adding the following parameter in the AndroidManifest.xml of the test app.

<application android:requestLegacyExternalStorage="true" />

The following combination should work properly using the previous flag:

Inside this repository you'll find two types of projects. The first one is all the code related to the Gradle Plugin. The second one is all the code related to the example projects we use as consumers of the Gradle Plugin and also as end to end tests. Review the following folders when developing a new feature for Shot or fixing a bug:

Plugin related folders:

• shot: Main Gradle Plugin module.
• core: Gradle Plugin independent module where all the shot business logic is placed.
• shot-android: Android library included in the project where Shot is installed automatically when the Gradle Plugin is initialized.

Consumers and end to end tests folder:

• shot-consumer: A simple project created to test Shot and show how the library works.
• shot-consumer-flavors: A simple project focused on testing how the flavors feature works.

When developing a feature or fixing a bug, plugin related folders are the place where most of the code will be. When writing end to end tests you should review the consumers' folders. Unit or integration tests should be added in the first group of folders using all the tooling already installed and configured for you.

When talking about the IDE we should use, our recommendation is simple. We should use IntelliJ Idea for the Gradle Plugin related code and Android Studio for the consumers. Keep in mind the consumers' configuration is not linked with the root Gradle file so you won't be able to build the consumers from the root of this project using Android Studio. That's why we recommend the usage of different IDEs using different root Gradle configurations when working with this repository.

• Review our CONTRIBUTING.md file. There you'll find some general development rules.
• Open an issue or drop a comment to explain what you'd like to implement or to fix. Communication is really important for us and we recommend dropping a comment or opening an issue before to avoid development issues.
• Fork this repository and create a new branch where you'll develop the new feature or fix.
• Install IntelliJ and Android Studio.
• Import the root Gradle file configuration with IntelliJ. You will have to install the Scala plugin recommended by IntelliJ, but don't worry, as soon as you start IntelliJ you'll see a pop-up with the recommended plugin.
• Develop the code you'd like to implement. Remember to add the unit/integration test coverage to the code you are working on.
• Execute the Gradle task ./gradlew uploadArchives from the root folder in order to update your plugin local installation.
• Using Android Studio import shot-android or shot-consumer-flavors and write an example of the feature or fix you coded before. The example test you write will work as an end to end test.
• Commit and push the code. Our CI configuration will ensure everything is working as expected!
• Remember to execute ./gradlew uploadArchives whenever you change the Gradle plugin code related in order to update your local repository and be able to use it from the consumers folder.
• Once you are ready, send a PR. We will review it and help you to contribute to the official repository. Once everything is ready, we will merge it and release a new version.

In case you need to start an Android emulator you have scripts inside the consumers' folder you can execute to create the emulators you'll need to run the tests 😃

This is the list of most useful Gradle tasks you might need divided by type of project:

• Plugin related tasks:

  • ./gradlew uploadArchives: Install Shot in your local gradle repository.
  • ./gradlew test: Execute all the tests related to the Gradle plugin.
  • ``./gradlew scalafmtAll`: Review the Gradle Plugin's checkstyle.

• Consumers related tasks:

  • ./gradlew executeScreenshotTests: Execute all the screenshot tests for the associated consumer in verification mode.
  • ./gradlew executeScreenshotTests -Precord: Execute all the screenshot tests for the associated consumer in record mode.

If you want to apply the same testing technique on iOS you can use Swift Snapshot Testing

Copyright 2018 Karumi

Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

   http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.