src/test/java/com/android/tools/r8/bridgeremoval/hoisting/PositiveBridgeHoistingTest.java - r8 - Git at Google

 // Copyright (c) 2020, the R8 project authors. Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.
 package com.android.tools.r8.bridgeremoval.hoisting;

 import static com.android.tools.r8.utils.codeinspector.Matchers.isPresent;
 import static org.hamcrest.CoreMatchers.not;
 import static org.hamcrest.MatcherAssert.assertThat;

 import com.android.tools.r8.NeverClassInline;
 import com.android.tools.r8.NeverInline;
 import com.android.tools.r8.TestBase;
 import com.android.tools.r8.TestParameters;
 import com.android.tools.r8.TestParametersCollection;
 import com.android.tools.r8.utils.codeinspector.ClassSubject;
 import com.android.tools.r8.utils.codeinspector.CodeInspector;
 import org.junit.Test;
 import org.junit.runner.RunWith;
 import org.junit.runners.Parameterized;

 @RunWith(Parameterized.class)
 public class PositiveBridgeHoistingTest extends TestBase {

   private final TestParameters parameters;

   @Parameterized.Parameters(name = "{0}")
   public static TestParametersCollection data() {
     return getTestParameters().withAllRuntimesAndApiLevels().build();
   }

   public PositiveBridgeHoistingTest(TestParameters parameters) {
     this.parameters = parameters;
   }

   @Test
   public void test() throws Exception {
     expectThrowsWithHorizontalClassMerging();
     testForR8(parameters.getBackend())
         .addProgramClasses(TestClass.class, A.class, B3.class, B4.class)
         .addProgramClassFileData(
             transformer(B1.class)
                 .setBridge(B1.class.getDeclaredMethod("superBridge", Object.class))
                 .setBridge(B1.class.getDeclaredMethod("virtualBridge", Object.class))
                 .transform(),
             transformer(B2.class)
                 .setBridge(B2.class.getDeclaredMethod("superBridge", Object.class))
                 .setBridge(B2.class.getDeclaredMethod("virtualBridge", Object.class))
                 .transform(),
             transformer(B5.class)
                 .setBridge(B5.class.getDeclaredMethod("superBridge", Object.class))
                 .setBridge(B5.class.getDeclaredMethod("virtualBridge", Object.class))
                 .transform())
         .addKeepMainRule(TestClass.class)
         .enableInliningAnnotations()
         .enableNeverClassInliningAnnotations()
         .setMinApi(parameters.getApiLevel())
         .compile()
         .inspect(this::inspect)
         .run(parameters.getRuntime(), TestClass.class)
         .assertSuccessWithOutputLines("Hello world!");
   }

   private void inspect(CodeInspector inspector) {
     ClassSubject aClassSubject = inspector.clazz(A.class);
     assertThat(aClassSubject, isPresent());
     assertThat(aClassSubject.uniqueMethodWithName("m"), isPresent());
     assertThat(aClassSubject.uniqueMethodWithName("superBridge"), isPresent());
     assertThat(aClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());

     ClassSubject b1ClassSubject = inspector.clazz(B1.class);
     assertThat(b1ClassSubject, isPresent());
     assertThat(b1ClassSubject.uniqueMethodWithName("superBridge"), not(isPresent()));
     assertThat(b1ClassSubject.uniqueMethodWithName("virtualBridge"), not(isPresent()));

     ClassSubject b2ClassSubject = inspector.clazz(B2.class);
     assertThat(b2ClassSubject, isPresent());
     assertThat(b2ClassSubject.uniqueMethodWithName("superBridge"), not(isPresent()));
     assertThat(b2ClassSubject.uniqueMethodWithName("virtualBridge"), not(isPresent()));

     ClassSubject b4ClassSubject = inspector.clazz(B4.class);
     assertThat(b4ClassSubject, isPresent());
     assertThat(b4ClassSubject.uniqueMethodWithName("superBridge"), isPresent());
     assertThat(b4ClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());

     ClassSubject b5ClassSubject = inspector.clazz(B5.class);
     assertThat(b5ClassSubject, isPresent());
     assertThat(b5ClassSubject.uniqueMethodWithName("superBridge"), isPresent());
     assertThat(b5ClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());
   }

   static class TestClass {

     public static void main(String[] args) {
       System.out.print(new B1().superBridge("Hel"));
       System.out.print(new B1().virtualBridge("lo"));
       System.out.print(new B2().superBridge(" "));
       System.out.print(new B2().virtualBridge("w"));
       System.out.print(new B3().m("o"));
       System.out.print(new B4().superBridge("r"));
       System.out.print(new B4().virtualBridge("l"));
       System.out.print(new B5().superBridge("d"));
       System.out.println(new B5().virtualBridge("!"));
     }
   }

   static class A {

     @NeverInline
     public Object m(String arg) {
       return System.currentTimeMillis() >= 0 ? arg : null;
     }

     @NeverInline
     public Object m2(String arg) {
       return System.currentTimeMillis() >= 0 ? arg : null;
     }
   }

   @NeverClassInline
   static class B1 extends A {

     // This bridge can be hoisted to A if the invoke-super instruction is rewritten to an
     // invoke-virtual instruction.
     @NeverInline
     public /*bridge*/ String superBridge(Object o) {
       return (String) super.m((String) o);
     }

     // This bridge can be hoisted to A.
     @NeverInline
     public /*bridge*/ String virtualBridge(Object o) {
       return (String) m((String) o);
     }
   }

   @NeverClassInline
   static class B2 extends A {

     // By hoisting B1.superBridge() to A this method bridge redundant.
     @NeverInline
     public /*bridge*/ String superBridge(Object o) {
       return (String) super.m((String) o);
     }

     // By hoisting B1.virtualBridge() to A this method bridge redundant.
     @NeverInline
     public /*bridge*/ String virtualBridge(Object o) {
       return (String) m((String) o);
     }
   }

   // The fact that this class does not declare superBridge() or virtualBridge() should not prevent
   // us from hoisting these bridges from B1/B2 to A.
   //
   // Strictly speaking, there could be an invoke-virtual instruction that targets B3.virtualBridge()
   // and fails with a NoSuchMethodError in the input program. After hoisting B1.virtualBridge() to A
   // such an instruction would no longer fail with a NoSuchMethodError in the generated program.
   //
   // If this ever turns out be an issue, it would be possible to track if there is an invoke
   // instruction targeting B3.virtualBridge() that fails with a NoSuchMethodError in the Enqueuer,
   // but this should never be the case in practice.
   @NeverClassInline
   static class B3 extends A {}

   // The fact that this class declares superBridge() and virtualBridge() should not prevent
   // us from hoisting other bridges to A.
   @NeverClassInline
   static class B4 extends A {

     @NeverInline
     public String superBridge(Object o) {
       return System.currentTimeMillis() >= 0 ? ((String) o) : null;
     }

     @NeverInline
     public String virtualBridge(Object o) {
       return System.currentTimeMillis() >= 0 ? ((String) o) : null;
     }
   }

   // This class declares the same bridges, but with different (bridge) behavior. They are candidates
   // for hoisting, but will not be hoisted because it is better to hoist the bridges declared on B1.
   @NeverClassInline
   static class B5 extends A {

     @NeverInline
     public /*bridge*/ String superBridge(Object o) {
       return (String) super.m2((String) o);
     }

     @NeverInline
     public /*bridge*/ String virtualBridge(Object o) {
       return (String) m2((String) o);
     }
   }
 }
	// Copyright (c) 2020, the R8 project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.
	package com.android.tools.r8.bridgeremoval.hoisting;

	import static com.android.tools.r8.utils.codeinspector.Matchers.isPresent;
	import static org.hamcrest.CoreMatchers.not;
	import static org.hamcrest.MatcherAssert.assertThat;

	import com.android.tools.r8.NeverClassInline;
	import com.android.tools.r8.NeverInline;
	import com.android.tools.r8.TestBase;
	import com.android.tools.r8.TestParameters;
	import com.android.tools.r8.TestParametersCollection;
	import com.android.tools.r8.utils.codeinspector.ClassSubject;
	import com.android.tools.r8.utils.codeinspector.CodeInspector;
	import org.junit.Test;
	import org.junit.runner.RunWith;
	import org.junit.runners.Parameterized;

	@RunWith(Parameterized.class)
	public class PositiveBridgeHoistingTest extends TestBase {

	private final TestParameters parameters;

	@Parameterized.Parameters(name = "{0}")
	public static TestParametersCollection data() {
	return getTestParameters().withAllRuntimesAndApiLevels().build();
	}

	public PositiveBridgeHoistingTest(TestParameters parameters) {
	this.parameters = parameters;
	}

	@Test
	public void test() throws Exception {
	expectThrowsWithHorizontalClassMerging();
	testForR8(parameters.getBackend())
	.addProgramClasses(TestClass.class, A.class, B3.class, B4.class)
	.addProgramClassFileData(
	transformer(B1.class)
	.setBridge(B1.class.getDeclaredMethod("superBridge", Object.class))
	.setBridge(B1.class.getDeclaredMethod("virtualBridge", Object.class))
	.transform(),
	transformer(B2.class)
	.setBridge(B2.class.getDeclaredMethod("superBridge", Object.class))
	.setBridge(B2.class.getDeclaredMethod("virtualBridge", Object.class))
	.transform(),
	transformer(B5.class)
	.setBridge(B5.class.getDeclaredMethod("superBridge", Object.class))
	.setBridge(B5.class.getDeclaredMethod("virtualBridge", Object.class))
	.transform())
	.addKeepMainRule(TestClass.class)
	.enableInliningAnnotations()
	.enableNeverClassInliningAnnotations()
	.setMinApi(parameters.getApiLevel())
	.compile()
	.inspect(this::inspect)
	.run(parameters.getRuntime(), TestClass.class)
	.assertSuccessWithOutputLines("Hello world!");
	}

	private void inspect(CodeInspector inspector) {
	ClassSubject aClassSubject = inspector.clazz(A.class);
	assertThat(aClassSubject, isPresent());
	assertThat(aClassSubject.uniqueMethodWithName("m"), isPresent());
	assertThat(aClassSubject.uniqueMethodWithName("superBridge"), isPresent());
	assertThat(aClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());

	ClassSubject b1ClassSubject = inspector.clazz(B1.class);
	assertThat(b1ClassSubject, isPresent());
	assertThat(b1ClassSubject.uniqueMethodWithName("superBridge"), not(isPresent()));
	assertThat(b1ClassSubject.uniqueMethodWithName("virtualBridge"), not(isPresent()));

	ClassSubject b2ClassSubject = inspector.clazz(B2.class);
	assertThat(b2ClassSubject, isPresent());
	assertThat(b2ClassSubject.uniqueMethodWithName("superBridge"), not(isPresent()));
	assertThat(b2ClassSubject.uniqueMethodWithName("virtualBridge"), not(isPresent()));

	ClassSubject b4ClassSubject = inspector.clazz(B4.class);
	assertThat(b4ClassSubject, isPresent());
	assertThat(b4ClassSubject.uniqueMethodWithName("superBridge"), isPresent());
	assertThat(b4ClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());

	ClassSubject b5ClassSubject = inspector.clazz(B5.class);
	assertThat(b5ClassSubject, isPresent());
	assertThat(b5ClassSubject.uniqueMethodWithName("superBridge"), isPresent());
	assertThat(b5ClassSubject.uniqueMethodWithName("virtualBridge"), isPresent());
	}

	static class TestClass {

	public static void main(String[] args) {
	System.out.print(new B1().superBridge("Hel"));
	System.out.print(new B1().virtualBridge("lo"));
	System.out.print(new B2().superBridge(" "));
	System.out.print(new B2().virtualBridge("w"));
	System.out.print(new B3().m("o"));
	System.out.print(new B4().superBridge("r"));
	System.out.print(new B4().virtualBridge("l"));
	System.out.print(new B5().superBridge("d"));
	System.out.println(new B5().virtualBridge("!"));
	}
	}

	static class A {

	@NeverInline
	public Object m(String arg) {
	return System.currentTimeMillis() >= 0 ? arg : null;
	}

	@NeverInline
	public Object m2(String arg) {
	return System.currentTimeMillis() >= 0 ? arg : null;
	}
	}

	@NeverClassInline
	static class B1 extends A {

	// This bridge can be hoisted to A if the invoke-super instruction is rewritten to an
	// invoke-virtual instruction.
	@NeverInline
	public /bridge/ String superBridge(Object o) {
	return (String) super.m((String) o);
	}

	// This bridge can be hoisted to A.
	@NeverInline
	public /bridge/ String virtualBridge(Object o) {
	return (String) m((String) o);
	}
	}

	@NeverClassInline
	static class B2 extends A {

	// By hoisting B1.superBridge() to A this method bridge redundant.
	@NeverInline
	public /bridge/ String superBridge(Object o) {
	return (String) super.m((String) o);
	}

	// By hoisting B1.virtualBridge() to A this method bridge redundant.
	@NeverInline
	public /bridge/ String virtualBridge(Object o) {
	return (String) m((String) o);
	}
	}

	// The fact that this class does not declare superBridge() or virtualBridge() should not prevent
	// us from hoisting these bridges from B1/B2 to A.
	//
	// Strictly speaking, there could be an invoke-virtual instruction that targets B3.virtualBridge()
	// and fails with a NoSuchMethodError in the input program. After hoisting B1.virtualBridge() to A
	// such an instruction would no longer fail with a NoSuchMethodError in the generated program.
	//
	// If this ever turns out be an issue, it would be possible to track if there is an invoke
	// instruction targeting B3.virtualBridge() that fails with a NoSuchMethodError in the Enqueuer,
	// but this should never be the case in practice.
	@NeverClassInline
	static class B3 extends A {}

	// The fact that this class declares superBridge() and virtualBridge() should not prevent
	// us from hoisting other bridges to A.
	@NeverClassInline
	static class B4 extends A {

	@NeverInline
	public String superBridge(Object o) {
	return System.currentTimeMillis() >= 0 ? ((String) o) : null;
	}

	@NeverInline
	public String virtualBridge(Object o) {
	return System.currentTimeMillis() >= 0 ? ((String) o) : null;
	}
	}

	// This class declares the same bridges, but with different (bridge) behavior. They are candidates
	// for hoisting, but will not be hoisted because it is better to hoist the bridges declared on B1.
	@NeverClassInline
	static class B5 extends A {

	@NeverInline
	public /bridge/ String superBridge(Object o) {
	return (String) super.m2((String) o);
	}

	@NeverInline
	public /bridge/ String virtualBridge(Object o) {
	return (String) m2((String) o);
	}
	}
	}