error-prone插件:Writing a check

Once you know what you want to check for, you can write a BugChecker to do it automatically. In this tutorial we will suppose that we want to ban the use of return null; statements.

Avoiding return null; statements

It is well known that misuse of null can cause a staggering variety of bugs. You can find more details in this document. Let us suppose that we agree with the arguments in favor of avoiding null, so as a first step we decide to avoid any return null; statements. Put plainly, we want to avoid code like this:

public Person findUser(String name) {
  if (database.contains(name)) {
      return new Person(name);
  }
  return null; // Code to avoid
}

Suppose that some of our colleagues have strong arguments against this policy. A lot of our code would break if we just decided to ban return null; statements! After much discussion, we all agree that if a developer explicitly annotates a method with @Nullable, the return null; statements will be allowed:

@Nullable
public Person findUser(String name) {
  if (database.contains(name)) {
    return new Person(name);
  }
  return null; // this is okay because of the @Nullable annotation
}

We now have a policy that we can attempt to enforce: The use of return null; is banned, except in methods annotated with @Nullable.

Create a BugChecker

How do we enforce our policy? By writing a BugChecker! Here's some skeleton code that will get us started in writing our BugChecker.

package com.google.errorprone.bugpatterns;

import static com.google.errorprone.BugPattern.Category.JDK;
import static com.google.errorprone.BugPattern.MaturityLevel.EXPERIMENTAL;
import static com.google.errorprone.BugPattern.SeverityLevel.SUGGESTION;

import com.google.errorprone.BugPattern;
import com.google.errorprone.VisitorState;
import com.google.errorprone.bugpatterns.BugChecker;
import com.google.errorprone.bugpatterns.BugChecker.MethodTreeMatcher;
import com.google.errorprone.matchers.Description;

import com.sun.source.tree.MethodTree;

/**
 * Bug checker to detect usage of {@code return null;}.
 */
@BugPattern(
  name = "DoNotReturnNull",
  summary = "Do not return null.",
  category = JDK,
  severity = SUGGESTION,
  maturity = EXPERIMENTAL)
public class DoNotReturnNull extends BugChecker implements MethodTreeMatcher {
  // your code here

  @Override
  public Description matchMethod(MethodTree tree, VisitorState state) {
    // your code here
    return Description.NO_MATCH;
  }
}

First, the annotation on the BugChecker contains the name, a short summary, the category, severity of the bug, and the maturity of the bug. We have chosen to fill these out for you; since our check is new, the maturity will be EXPERIMENTAL and since we don't want to necessarily force everyone to use this check, the severity has been listed as SUGGESTION.

Next, the BugChecker itself is an implementation of MethodTreeMatcher because we want to match methods that return null. Lastly, the logic in matchMethod should return a match if the method tree does not have a @Nullable annotation and the method body contains a return null; statement. However, nothing has been implemented! Let's fix that, making liberal use of utility methods from the Matchers class.

Exercise 1

Let's start with writing code for a matcher that will determine whether a method is annotated with @Nullable. We want to fill in the right hand side of the following statement:

...
import javax.annotation.Nullable;
...

private static final Matcher HAS_NULLABLE_ANNOTATION = //your code goes here

Write code for a matcher that will determine whether a method has a @Nullable annotation.

Exercise 1 Solution

import static com.google.errorprone.matchers.Matchers.hasAnnotation;
...
import javax.annotation.Nullable;
...
private static final Matcher HAS_NULLABLE_ANNOTATION =
    hasAnnotation(Nullable.class.getCanonicalName());

Exercise 2

Now that we can detect when a method has a @Nullable annotation, we want to write a matcher that returns true when it encounters a method with a return null; statement and returns false otherwise. Below is the definition of the matcher class that we need to implement.

private static final Matcher CONTAINS_RETURN_NULL = //your code goes here
...
private static class ReturnNullMatcher implements Matcher {
  @Override
  public boolean matches(Tree tree, VisitorState state) {
    // your code goes here
  }
}

Again, the com.google.errorprone.matchers.Matchers class will have the methods we need. Let's fill in the right hand side of the second statement, with the assumption that ReturnNullMatcher will match return null; statements once implemented:

...
private static final Matcher RETURN_NULL = new ReturnNullMatcher();
private static final Matcher CONTAINS_RETURN_NULL = //your code goes here
...

Exercise 2 Solution

import static com.google.errorprone.matchers.Matchers.contains;
...
private static final Matcher RETURN_NULL = new ReturnNullMatcher();
private static final Matcher CONTAINS_RETURN_NULL = contains(RETURN_NULL);
...

Exercise 3

Now, let's implement ReturnNullMatcher. Remember that you will need to override the matches method.

Note: There is more than one way to complete this exercise, but in search of the simplest solution, you can take a look at com.sun.source.tree.Tree.Kind.NULL_LITERAL, as that will allow you to directly match a null literal expression instead of having to match using LiteralTree.

public class DoNotReturnNull extends BugChecker implements MethodTreeMatcher {
...

  private static class ReturnNullMatcher implements Matcher {
    @Override
    public boolean matches(Tree tree, VisitorState state) {
    // your code goes here
    }
  }
}

Exercise 3 Solution

...
import static com.sun.source.tree.Tree.Kind.NULL_LITERAL;
...
import com.sun.source.tree.ReturnTree;
...
private static class ReturnNullMatcher implements Matcher {
  @Override
  public boolean matches(Tree tree, VisitorState state) {
    if (tree instanceof ReturnTree) {
      return ((ReturnTree) tree).getExpression().getKind() == NULL_LITERAL;
    }
    return false;
  }
}

Exercise 4

We're almost there! Now that we have both the ability to check if a method has a @Nullable annotation as well as the ability to check whether a method contains areturn null; statement, all that's left is to put the two together to create a matcher that will match methods that satisfy both of our criteria. Our code should now look something like this:

...
import static com.google.errorprone.matchers.Matchers.contains;
import static com.google.errorprone.matchers.Matchers.hasAnnotation;
...
import static com.sun.source.tree.Tree.Kind.NULL_LITERAL;
...
import com.sun.source.tree.ReturnTree;
...
import javax.annotation.Nullable;
...

@BugPattern(...)
public class DoNotReturnNull extends BugChecker implements MethodTreeMatcher {
  private static final Matcher HAS_NULLABLE_ANNOTATION =
      hasAnnotation(Nullable.class.getCanonicalName());
  private static final Matcher RETURN_NULL = new ReturnNullMatcher();
  private static final Matcher CONTAINS_RETURN_NULL = contains(RETURN_NULL);

  @Override
  public Description matchMethod(MethodTree tree, VisitorState state) {
    ...
  }

  /**
   * Matches any Tree that represents return of a null.
   */
  private static class ReturnNullMatcher implements Matcher {

    @Override
    public boolean matches(Tree tree, VisitorState state) {
      if (tree instanceof ReturnTree) {
        return ((ReturnTree) tree).getExpression().getKind() == NULL_LITERAL;
      }
      return false;
    }
  }
}

Let's now fill in matchMethod that will complete our BugChecker. If the method does not have the @Nullable annotation and the method body contains return null;, we want to return describeMatch(tree), but in all other cases we want to return Description.NO_MATCH.

Exercise 4 Solution

@Override
public Description matchMethod(MethodTree tree, VisitorState state) {
   if (HAS_NULLABLE_ANNOTATION.matches(tree, state)
       || !CONTAINS_RETURN_NULL.matches(tree.getBody(), state)) {
     return Description.NO_MATCH;
   }
   return describeMatch(tree);
}

Once you've completed your BugChecker, it's time to move on to testing it.

Testing a BugChecker

When writing tests for a BugChecker, you should check for both positive and negative cases. Positive cases are those that will trigger the check. In our example, any method that includes a return null; statement is a positive case. Negative cases are those that will not trigger the check.

To check for positive cases, create a valid java file that contains violations of the policy being checked and place the file in a testdata subdirectory. In our case this means that the file should include at least one return null; statement. As in the example that follows, add a comment before each AST node that should be identified by a BugChecker as a match.

Note: Remember that the BugChecker will match a method that returns null. Thus, the diagnostic comment should immediately precede the method definition, not the return expression.

public class DoNotReturnNullPositiveCases {
  // BUG: Diagnostic contains: Do not return null.
  public Object returnsNull() {
    return null;
  }
}

For negative cases, you just need to create a valid java file that does not contain a violation of the policy being checked, and again place it in a testdata subdirectory.

Now, you can use com.google.errorprone.CompilationTestHelper to test your BugChecker by creating an ordinary JUnit suite and adding a test for each positive and negative case you want to check.

Note: As per the example, the helper expects a comment in the following format: // BUG: Diagnostic contains:

, where  is the value of the summary parameter of the BugChecker's BugPattern annotation.

The whole JUnit test then looks like this:

package com.google.errorprone.bugpatterns;

import com.google.errorprone.CompilationTestHelper;
import com.google.testing.testsize.MediumTest;
import com.google.testing.testsize.MediumTestAttribute;

import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.JUnit4;

/** Unit tests for {@link DoNotReturnNull}. */
@RunWith(JUnit4.class)
@MediumTest(MediumTestAttribute.FILE)
public class DoNotReturnNullTest {

  private CompilationTestHelper compilationHelper;

  @Before
  public void setup() {
    compilationHelper = CompilationTestHelper.newInstance(DoNotReturnNull.class, getClass());
  }

  @Test
  public void doNotReturnNullPositiveCases() {
    compilationHelper.addSourceFile("DoNotReturnNullPositiveCases.java").doTest();
  }

  @Test
  public void doNotReturnNullNegativeCases() {
    compilationHelper.addSourceFile("DoNotReturnNullNegativeCases.java").doTest();
  }
}

Exercise 5.

Write tests in DoNotReturnNullPositiveCases.java and DoNotReturnNullNegativeCases.java.

Exercise 5 Positive Cases Example Solution

package com.google.errorprone.bugpatterns.testdata;

public class DoNotReturnNullPositiveCases {

  // BUG: Diagnostic contains: Do not return null.
  public Object returnsNull() {
    return null;
  }

  // BUG: Diagnostic contains: Do not return null.
  public Object sometimesReturnsNull(boolean random) {
    if (random) {
      return null;
    }
    return new Object();
  }
}

Exercise 5 Negative Cases Example Solution

package com.google.errorprone.bugpatterns.testdata;

import javax.annotation.Nullable;

public class DoNotReturnNullNegativeCases {

  public Object doesNotReturnNull() {
    return new Object();
  }

  @Nullable
  public Object returnsNullButAnnotatedWithNullable() {
    return null;
  }
}

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