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237 lines
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Markdown
237 lines
11 KiB
Markdown
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---
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layout: post
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title: "Android & Jacoco"
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modified: 2015-01-01 13:56:32 -0500
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tags: [jacoco,testing,code coverage]
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image:
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feature:
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credit:
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creditlink:
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comments:
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share:
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---
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Empirical Development
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---------------------
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For a while now, I've been wanting to get code coverage working with MinimalBible,
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and it's finally at a point that I'm mostly satisfied with. I certainly wouldn't argue that it's in a "good" state,
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but it's enough for now. So, I wanted to write a post outlining how this was all set up since I haven't been able to
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find many people using this style. Plus, it took a very long time to set up, so I hope I can save someone else some
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pain in the future!
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Before I get too much farther though, let me explain the concept of code coverage.
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Code coverage is intended to answer the question of "What code have I written tests for?"
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This allows you to quickly spot code that is untested by your existing suite, and let you know where is best to focus
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your time. Coverage statistics are generated line-by-line and branch-by-branch -
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if your test doesn't execute a specific branch of code during the test,
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your coverage system will let you know that not everything is "covered" by a test.
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All said, you get an easy way to see what potential problems exist and proactively solve them.
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Test Setup
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----------
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So, onward to how I set up testing in MinimalBible.
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First things first, I have to say that I really changed how I did testing in Android. Instead of using the existing
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Android build tools, I'm using pure-Java testing. Nothing Android. You can find the setup process
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[here](http://blog.blundell-apps.com/how-to-run-robolectric-junit-tests-in-android-studio/)
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(massive shoutouts to Blundell Apps, this has been incredibly useful) but I'll give a quick overview of how this is set up.
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The basic principle is that the testing support in Android is so broken as to be useless. I won't go into all my gripes,
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but suffice to say I have had issues with the JUnit API (Android uses something below 3.8), code coverage, and UI tests
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with [Espresso](https://code.google.com/p/android-test-kit/). So instead of trying to use the native Android tools for
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testing, we create a new project based on the source code of our existing project. This allows us to run everything in a
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native Java environment, without worrying about any of the platform considerations. If you're interested in what that
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setup would look like, you can find my version
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[here](https://github.com/MinimalBible/MinimalBible/tree/cb8ea71f620ac0a25c628920bfe5fa82b1d6cebe).
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There are two projects: `app` and `app-test`.
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App is where the actual source code resides, and App-test is where the test code resides.
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However, the test code includes the original code as a dependency so that we can still write tests against it.
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I've included the important bits of `app-test/build.gradle` below:
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{% highlight groovy %}
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apply plugin: 'java'
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def androidModule = project(':app')
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dependencies {
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compile androidModule
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testCompile androidModule.android.applicationVariants.toList().first().javaCompile.classpath // 1
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testCompile androidModule.android.applicationVariants.toList().first().javaCompile.outputs.files // 2
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testCompile files(androidModule.plugins.findPlugin("com.android.application").getBootClasspath()) // 3
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testCompile 'junit:junit:4.+' // 4
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testCompile 'org.robolectric:robolectric:2.2'
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}
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{% endhighlight %}
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And a quick breakdown of what's going on:
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1. Make sure to include all dependencies of the actual project in the test project
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2. Include all code for the actual project in the test project.
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3. Include all dependencies of the `android` Gradle plugin in the test project. Not sure why this is here.
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4. Finally, include all the other libraries and things we actually need for testing.
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So at this point we have a test-ready project setup. We're not quite ready for code coverage yet, but we're about to change that.
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Next steps: Enabling Code Coverage
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----------------------------------
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So, we have a test project set up to run the tests we put inside it. The next step is setting up Jacoco to report on
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what code is being tested during the test suite. I'm going to present the solution first to make it easy on anyone
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reading this - if you want a full explanation of what's going on check it out [here](#jacoco-full-explanation).
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In order to enable Jacoco testing we need to change `app-test/build.gradle` to look like
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[this](https://github.com/MinimalBible/MinimalBible/blob/c29b043d2313b3653a9671c36921f6ce8e4b9348/app-test/build.gradle):
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{% highlight groovy %}
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apply plugin: 'java'
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apply plugin: 'jacoco'
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def androidModule = project(':app')
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def firstVariant = androidModule.android.applicationVariants.toList().first()
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def testIncludes = [
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'**/*Test.class'
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]
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def jacocoExcludes = [
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'android/**',
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'org/bspeice/minimalbible/R*',
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'**/*$$*'
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]
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{% endhighlight %}
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First steps first, this is the easy part. We're defining what files we want to include in testing,
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alongside the files we want to exclude from the final report. For example, we exclude the "R" file, since
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it's all generated code. In addition, anything containing a "$$" is generated by Dagger/Butterknife, so we ignore
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those too.
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If you want to adapt the solution I'm outlining here to your own project, these should be the only sections you
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need to edit.
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The next section is a whole lot more complicated:
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{% highlight groovy %}
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dependencies {
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compile androidModule
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testCompile 'junit:junit:4.+'
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testCompile 'org.robolectric:robolectric:+'
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testCompile 'org.mockito:mockito-core:+'
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testCompile 'com.jayway.awaitility:awaitility:+'
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testCompile 'org.jetbrains.spek:spek:+'
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testCompile firstVariant.javaCompile.classpath
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testCompile firstVariant.javaCompile.outputs.files
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testCompile files(androidModule.plugins.findPlugin("com.android.application").getBootClasspath())
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}
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def buildExcludeTree(path, excludes) {
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fileTree(path).exclude(excludes)
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} // 1
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jacocoTestReport {
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doFirst {
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// First we build a list of our base directories
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def fileList = new ArrayList<String>()
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def outputsList = firstVariant.javaCompile.outputs.files
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outputsList.each { fileList.add(it.absolutePath.toString()) }
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// And build a fileTree from those
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def outputTree = fileList.inject { tree1, tree2 ->
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buildExcludeTree(tree1, jacocoExcludes) +
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buildExcludeTree(tree2, jacocoExcludes)
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}
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// And finally tell Jacoco to only include said files in the report
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classDirectories = outputTree
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} // 3
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}
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tasks.withType(Test) {
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scanForTestClasses = false
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includes = testIncludes
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} // 2
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{% endhighlight %}
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1. Define a quick function that will exclude a *list* of file paths from a given path.
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2. Set up Gradle to run the tests we defined earlier
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3. Set up Jacoco to exclude the paths we specified earlier from the report. This step is so complicated
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because we have to get the outputs paths from the Android project, and exclude our paths from each of those.
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Wrapping Up
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-----------
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So given the above build.gradle file, we now have a project capable of testing your actual application code and
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producing coverage statistics on it. While I haven't outlined it above, because the testing code is separate from the
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Android project, you're free to write your tests in JUnit, [Spock](https://code.google.com/p/spock/),
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or [Spek](http://jetbrains.github.io/spek/). I'm going to be using Spek moving forward.
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We can include tests using the `testIncludes` list, and make sure that classes don't get reported using the
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`jacocoExcludes` list. All said, that's what we were out for in the first place, so I'll call it a success.
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If you want to take this solution further, the next step would be to add Robolectric tests into the suite,
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but [I've been having issues](https://github.com/robolectric/robolectric/issues/1385) with that too.
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Appendix: <a name="jacoco-full-explanation">Jacoco Full Explanation</a>
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=============================================================
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In order to fully understand what's going on with how Jacoco excludes things from reporting, we have to step back and
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take a visit to Gradle first to understand your build lifecycle.
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Gradle: Configure, Run
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----------------------
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Gradle is an incredibly powerful tool, but it is massively confusing if you don't already know what you're doing.
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In my opinion, the documentation is still missing many examples that would be super-helpful,
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and is generally dense to try and get through.
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That aside, to understand what's going on, you must understand that the Gradle build process happens in two phases:
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**Configuration**, and then **Build**.
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For our purposes, you don't need to understand what each one does, but understanding the semantics is crucial.
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Because there's a two phase build, we can't write a `build.gradle` that tries to exclude files from Jacoco like this:
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{% highlight groovy %}
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jacocoTestReport {
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// First we build a list of our base directories
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def fileList = new ArrayList<String>()
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def outputsList = firstVariant.javaCompile.outputs.files
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outputsList.each { fileList.add(it.absolutePath.toString()) }
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// And build a fileTree from those
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def outputTree = fileList.inject { tree1, tree2 ->
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buildExcludeTree(tree1, jacocoExcludes) +
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buildExcludeTree(tree2, jacocoExcludes)
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}
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// And finally tell Jacoco to only include said files in the report
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classDirectories = outputTree
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}
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{% endhighlight %}
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Did you notice the difference? In the second example, we're missing the `doFirst` closure.
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Keep this in mind during the next sections.
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Under the hood, Jacoco reports on all classes specified in the `classDirectories` variable. So, all we need to do is
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make sure that we include all the classes to report on in `classDirectories`, and exclude the ones we don't want to see.
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However, if you skip the `doFirst` closure, you'll be in deep trouble. Without that closure, Groovy will run the code
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in the `jacocoTestReport` closure before testing is actually run, since it will be in the **configuration** build phase.
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What the code actually does is exclude everything in `jacocoExcludes` from the global class path. This isn't a great
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solution, but I'm not sure how else to do it.
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The problem comes when you exclude files like the `android` package that we don't want to report on, but are needed for
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testing. When things in `android` aren't loaded during the tests, you'll get lots of nasty `NoClassDefFoundException`
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exceptions, because Java can't find the code it needs for testing.
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The solution? We need to modify the class path **only right before Jacoco runs**. This way, the tests are allowed to
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run successfully, and Jacoco never knows about those classes.
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To do this, we need to move the class path configuration into the **build** phase instead of **configure**.
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The way to do that? You guessed it, surround the code in a `doFirst` closure.
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So the end result is that we can exclude specific classes from reporting without interfering in the test setup process.
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It took me forever to figure out how exactly to implement this, but I hope this can help someone avoid the same issues
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in the future.
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Side note: Much of the above solution was adapting the procedures outlined
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[here](https://issues.gradle.org/browse/GRADLE-2955) to the world of Android. Thanks to everyone for putting in the
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effort to make it easier for me!
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