src/test/java/com/android/tools/r8/kotlin/AbstractR8KotlinTestBase.java - r8 - Git at Google

 // Copyright (c) 2018, 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.kotlin;

 import static org.junit.Assert.assertEquals;
 import static org.junit.Assert.assertFalse;
 import static org.junit.Assert.assertNotNull;
 import static org.junit.Assert.assertTrue;
 import static org.junit.Assert.fail;

 import com.android.tools.r8.OutputMode;
 import com.android.tools.r8.TestBase;
 import com.android.tools.r8.ToolHelper;
 import com.android.tools.r8.ToolHelper.KotlinTargetVersion;
 import com.android.tools.r8.graph.Code;
 import com.android.tools.r8.graph.DexCode;
 import com.android.tools.r8.jasmin.JasminBuilder;
 import com.android.tools.r8.jasmin.JasminBuilder.ClassBuilder;
 import com.android.tools.r8.naming.MemberNaming.MethodSignature;
 import com.android.tools.r8.utils.AndroidApp;
 import com.android.tools.r8.utils.DescriptorUtils;
 import com.android.tools.r8.utils.FileUtils;
 import com.android.tools.r8.utils.InternalOptions;
 import com.android.tools.r8.utils.codeinspector.ClassSubject;
 import com.android.tools.r8.utils.codeinspector.CodeInspector;
 import com.android.tools.r8.utils.codeinspector.FieldSubject;
 import com.android.tools.r8.utils.codeinspector.MethodSubject;
 import com.google.common.collect.ImmutableList;
 import java.nio.file.Path;
 import java.nio.file.Paths;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.Collection;
 import java.util.List;
 import java.util.Map;
 import java.util.function.Consumer;
 import org.junit.Assume;
 import org.junit.runner.RunWith;
 import org.junit.runners.Parameterized;
 import org.junit.runners.Parameterized.Parameter;
 import org.junit.runners.Parameterized.Parameters;

 @RunWith(Parameterized.class)
 public abstract class AbstractR8KotlinTestBase extends TestBase {

   // This is the name of the Jasmin-generated class which contains the "main" method which will
   // invoke the tested method.
   private static final String JASMIN_MAIN_CLASS = "TestMain";

   @Parameter(0) public boolean allowAccessModification;
   @Parameter(1) public KotlinTargetVersion targetVersion;

   private final List<Path> classpath = new ArrayList<>();
   private final List<Path> extraClasspath = new ArrayList<>();

   @Parameters(name = "allowAccessModification: {0} target: {1}")
   public static Collection<Object[]> data() {
     ImmutableList.Builder<Object[]> builder = new ImmutableList.Builder<>();
     for (KotlinTargetVersion targetVersion : KotlinTargetVersion.values()) {
       builder.add(new Object[]{Boolean.TRUE, targetVersion});
       builder.add(new Object[]{Boolean.FALSE, targetVersion});
     }
     return builder.build();
   }

   protected void addExtraClasspath(Path path) {
     extraClasspath.add(path);
   }

   protected static void checkMethodIsInvokedAtLeastOnce(DexCode dexCode,
       MethodSignature... methodSignatures) {
     for (MethodSignature methodSignature : methodSignatures) {
       checkMethodIsInvokedAtLeastOnce(dexCode, methodSignature);
     }
   }

   private static void checkMethodIsInvokedAtLeastOnce(DexCode dexCode,
       MethodSignature methodSignature) {
     assertTrue("No invoke to '" + methodSignature.toString() + "'",
         Arrays.stream(dexCode.instructions)
             .filter((instr) -> instr.getMethod() != null)
             .anyMatch((instr) -> instr.getMethod().name.toString().equals(methodSignature.name)));
   }

   protected static void checkMethodIsNeverInvoked(DexCode dexCode,
       MethodSignature... methodSignatures) {
     for (MethodSignature methodSignature : methodSignatures) {
       checkMethodIsNeverInvoked(dexCode, methodSignature);
     }
   }

   private static void checkMethodIsNeverInvoked(DexCode dexCode,
       MethodSignature methodSignature) {
     assertTrue("At least one invoke to '" + methodSignature.toString() + "'",
         Arrays.stream(dexCode.instructions)
             .filter((instr) -> instr.getMethod() != null)
             .noneMatch((instr) -> instr.getMethod().name.toString().equals(methodSignature.name)));
   }

   protected static void checkMethodsPresence(ClassSubject classSubject,
       Map<MethodSignature, Boolean> presenceMap) {
     presenceMap.forEach(((methodSignature, isPresent) -> {
       MethodSubject methodSubject = classSubject.method(methodSignature);
       String methodDesc = methodSignature.toString();
       String failureMessage = isPresent
           ? "Method '" + methodDesc + "' should be present"
           : "Method '" + methodDesc + "' should not be present";

       assertEquals(failureMessage, isPresent, methodSubject.isPresent());
     }));
   }

   protected ClassSubject checkClassIsKept(CodeInspector inspector, String className) {
     checkClassExistsInInput(className);
     ClassSubject classSubject = inspector.clazz(className);
     assertNotNull(classSubject);
     assertTrue("No class " + className, classSubject.isPresent());
     return classSubject;
   }

   protected FieldSubject checkFieldIsKept(ClassSubject classSubject, String fieldType,
       String fieldName) {
     // Field must exist in the input.
     checkFieldPresenceInInput(classSubject.getOriginalName(), fieldType, fieldName, true);
     FieldSubject fieldSubject = classSubject.field(fieldType, fieldName);
     assertTrue("No field " + fieldName + " in " + classSubject.getOriginalName(),
         fieldSubject.isPresent());
     return fieldSubject;
   }

   protected void checkFieldIsAbsent(ClassSubject classSubject, String fieldType,
       String fieldName) {
     // Field must NOT exist in the input.
     checkFieldPresenceInInput(classSubject.getOriginalName(), fieldType, fieldName, false);
     FieldSubject fieldSubject = classSubject.field(fieldType, fieldName);
     assertNotNull(fieldSubject);
     assertFalse(fieldSubject.isPresent());
   }

   protected void checkMethodIsAbsent(ClassSubject classSubject,
       MethodSignature methodSignature) {
     checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, false);
     checkMethodPresenceInOutput(classSubject, methodSignature, false);
   }

   protected MethodSubject checkMethodIsKept(ClassSubject classSubject,
       MethodSignature methodSignature) {
     checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
     return checkMethodisKeptOrRemoved(classSubject, methodSignature, true);
   }

   protected void checkMethodIsRemoved(ClassSubject classSubject,
       MethodSignature methodSignature) {
     checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
     checkMethodisKeptOrRemoved(classSubject, methodSignature, false);
   }

   protected MethodSubject checkMethodisKeptOrRemoved(ClassSubject classSubject,
       MethodSignature methodSignature, boolean isPresent) {
     checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
     return checkMethodPresenceInOutput(classSubject, methodSignature, isPresent);
   }

   private MethodSubject checkMethodPresenceInOutput(ClassSubject classSubject,
       MethodSignature methodSignature, boolean isPresent) {
     MethodSubject methodSubject = classSubject.method(methodSignature);
     assertNotNull(methodSubject);

     String methodSig = methodSignature.name + methodSignature.toDescriptor();
     if (isPresent) {
       assertTrue("No method " + methodSig + " in output", methodSubject.isPresent());
     } else {
       assertFalse("Method " + methodSig + " exists in output", methodSubject.isPresent());
     }
     return methodSubject;
   }

   protected static DexCode getDexCode(MethodSubject methodSubject) {
     Code code = methodSubject.getMethod().getCode();
     assertNotNull("No code for method " + methodSubject.getMethod().descriptor(), code);
     assertTrue(code.isDexCode());
     return code.asDexCode();
   }

   private String buildProguardRules(String mainClass) {
     ProguardRulesBuilder proguardRules = new ProguardRulesBuilder();
     proguardRules.appendWithLineSeparator(keepMainProguardConfiguration(mainClass));
     proguardRules.dontObfuscate();
     if (allowAccessModification) {
       proguardRules.allowAccessModification();
     }
     return proguardRules.toString();
   }

   protected String keepAllMembers(String className) {
     return "-keep class " + className + " {" + System.lineSeparator()
         + "  *;" + System.lineSeparator()
         + "}";
   }

   protected String keepClassMethod(String className, MethodSignature methodSignature) {
     return "-keep class " + className + " {" + System.lineSeparator()
         + methodSignature.toString() + ";" + System.lineSeparator()
         + "}";
   }

   protected void runTest(String folder, String mainClass,
       AndroidAppInspector inspector) throws Exception {
     runTest(folder, mainClass, null, null, inspector);
   }

   protected void runTest(String folder, String mainClass,
       Consumer<InternalOptions> optionsConsumer, AndroidAppInspector inspector) throws Exception {
     runTest(folder, mainClass, null, optionsConsumer, inspector);
   }

   protected void runTest(String folder, String mainClass,
       String extraProguardRules, AndroidAppInspector inspector) throws Exception {
     runTest(folder, mainClass, extraProguardRules, null, inspector);
   }

   protected void runTest(String folder, String mainClass, String extraProguardRules,
       Consumer<InternalOptions> optionsConsumer, AndroidAppInspector inspector) throws Exception {
     Assume.assumeTrue(ToolHelper.artSupported() || ToolHelper.compareAgaintsGoldenFiles());

     String proguardRules = buildProguardRules(mainClass);
     if (extraProguardRules != null) {
       proguardRules += extraProguardRules;
     }

     // Build classpath for compilation (and java execution)
     classpath.clear();
     classpath.add(getKotlinJarFile(folder));
     classpath.add(getJavaJarFile(folder));
     classpath.addAll(extraClasspath);

     // Build with R8
     AndroidApp.Builder builder = AndroidApp.builder();
     builder.addProgramFiles(classpath);
     AndroidApp app = compileWithR8(builder.build(), proguardRules, optionsConsumer);

     // Materialize file for execution.
     Path generatedDexFile = temp.getRoot().toPath().resolve("classes.jar");
     app.writeToZip(generatedDexFile, OutputMode.DexIndexed);

     // Run with ART.
     String artOutput =
         ToolHelper.runArtNoVerificationErrors(generatedDexFile.toString(), mainClass);

     // Compare with Java.
     ToolHelper.ProcessResult javaResult = ToolHelper.runJava(classpath, mainClass);
     if (javaResult.exitCode != 0) {
       System.out.println(javaResult.stdout);
       System.err.println(javaResult.stderr);
       fail("JVM failed for: " + mainClass);
     }
     assertEquals("JVM and ART output differ", javaResult.stdout, artOutput);

     inspector.inspectApp(app);
   }

   protected void checkClassExistsInInput(String className) {
     if (!AsmUtils.doesClassExist(classpath, className)) {
       throw new AssertionError("Class " + className + " does not exist in input");
     }
   }

   private void checkMethodPresenceInInput(String className, MethodSignature methodSignature,
       boolean isPresent) {
     boolean foundMethod = AsmUtils.doesMethodExist(classpath, className,
         methodSignature.name, methodSignature.toDescriptor());
     if (isPresent != foundMethod) {
       throw new AssertionError(
           "Method " + methodSignature.name + methodSignature.toDescriptor()
               + " " + (foundMethod ? "exists" : "does not exist")
               + " in input class " + className + " but is expected to be "
               + (isPresent ? "present" : "absent"));
     }
   }

   private void checkFieldPresenceInInput(String className, String fieldType, String fieldName,
       boolean isPresent) {
     boolean foundField = AsmUtils.doesFieldExist(classpath, className, fieldName, fieldType);
     if (isPresent != foundField) {
       throw new AssertionError(
           "Field " + fieldName + " " + (foundField ? "exists" : "does not exist")
               + " in input class " + className + " but is expected to be "
               + (isPresent ? "present" : "absent"));
     }
   }

   private Path getKotlinJarFile(String folder) {
     return Paths.get(ToolHelper.TESTS_BUILD_DIR, "kotlinR8TestResources",
         targetVersion.getFolderName(), folder + FileUtils.JAR_EXTENSION);
   }

   private Path getJavaJarFile(String folder) {
     return Paths.get(ToolHelper.TESTS_BUILD_DIR, "kotlinR8TestResources",
         targetVersion.getFolderName(), folder + ".java" + FileUtils.JAR_EXTENSION);
   }

   @FunctionalInterface
   interface AndroidAppInspector {

     void inspectApp(AndroidApp androidApp) throws Exception;
   }

   /**
    * Generates a "main" class which invokes the given static method (which has no argument and
    * return void type). This new class is then added to the test classpath.
    *
    * @param methodClass the class of the static method to invoke
    * @param methodName the name of the static method to invoke
    * @return the name of the generated class
    */
   protected String addMainToClasspath(String methodClass, String methodName) throws Exception {
     JasminBuilder builder = new JasminBuilder();
     ClassBuilder mainClassBuilder =
         builder.addClass(DescriptorUtils.getBinaryNameFromJavaType(JASMIN_MAIN_CLASS));
     mainClassBuilder.addMainMethod(
         "invokestatic " + methodClass + "/" + methodName + "()V",
         "return"
     );

     Path output = writeToJar(builder);
     addExtraClasspath(output);
     return JASMIN_MAIN_CLASS;
   }
 }
	// Copyright (c) 2018, 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.kotlin;

	import static org.junit.Assert.assertEquals;
	import static org.junit.Assert.assertFalse;
	import static org.junit.Assert.assertNotNull;
	import static org.junit.Assert.assertTrue;
	import static org.junit.Assert.fail;

	import com.android.tools.r8.OutputMode;
	import com.android.tools.r8.TestBase;
	import com.android.tools.r8.ToolHelper;
	import com.android.tools.r8.ToolHelper.KotlinTargetVersion;
	import com.android.tools.r8.graph.Code;
	import com.android.tools.r8.graph.DexCode;
	import com.android.tools.r8.jasmin.JasminBuilder;
	import com.android.tools.r8.jasmin.JasminBuilder.ClassBuilder;
	import com.android.tools.r8.naming.MemberNaming.MethodSignature;
	import com.android.tools.r8.utils.AndroidApp;
	import com.android.tools.r8.utils.DescriptorUtils;
	import com.android.tools.r8.utils.FileUtils;
	import com.android.tools.r8.utils.InternalOptions;
	import com.android.tools.r8.utils.codeinspector.ClassSubject;
	import com.android.tools.r8.utils.codeinspector.CodeInspector;
	import com.android.tools.r8.utils.codeinspector.FieldSubject;
	import com.android.tools.r8.utils.codeinspector.MethodSubject;
	import com.google.common.collect.ImmutableList;
	import java.nio.file.Path;
	import java.nio.file.Paths;
	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.Collection;
	import java.util.List;
	import java.util.Map;
	import java.util.function.Consumer;
	import org.junit.Assume;
	import org.junit.runner.RunWith;
	import org.junit.runners.Parameterized;
	import org.junit.runners.Parameterized.Parameter;
	import org.junit.runners.Parameterized.Parameters;

	@RunWith(Parameterized.class)
	public abstract class AbstractR8KotlinTestBase extends TestBase {

	// This is the name of the Jasmin-generated class which contains the "main" method which will
	// invoke the tested method.
	private static final String JASMIN_MAIN_CLASS = "TestMain";

	@Parameter(0) public boolean allowAccessModification;
	@Parameter(1) public KotlinTargetVersion targetVersion;

	private final List<Path> classpath = new ArrayList<>();
	private final List<Path> extraClasspath = new ArrayList<>();

	@Parameters(name = "allowAccessModification: {0} target: {1}")
	public static Collection<Object[]> data() {
	ImmutableList.Builder<Object[]> builder = new ImmutableList.Builder<>();
	for (KotlinTargetVersion targetVersion : KotlinTargetVersion.values()) {
	builder.add(new Object[]{Boolean.TRUE, targetVersion});
	builder.add(new Object[]{Boolean.FALSE, targetVersion});
	}
	return builder.build();
	}

	protected void addExtraClasspath(Path path) {
	extraClasspath.add(path);
	}

	protected static void checkMethodIsInvokedAtLeastOnce(DexCode dexCode,
	MethodSignature... methodSignatures) {
	for (MethodSignature methodSignature : methodSignatures) {
	checkMethodIsInvokedAtLeastOnce(dexCode, methodSignature);
	}
	}

	private static void checkMethodIsInvokedAtLeastOnce(DexCode dexCode,
	MethodSignature methodSignature) {
	assertTrue("No invoke to '" + methodSignature.toString() + "'",
	Arrays.stream(dexCode.instructions)
	.filter((instr) -> instr.getMethod() != null)
	.anyMatch((instr) -> instr.getMethod().name.toString().equals(methodSignature.name)));
	}

	protected static void checkMethodIsNeverInvoked(DexCode dexCode,
	MethodSignature... methodSignatures) {
	for (MethodSignature methodSignature : methodSignatures) {
	checkMethodIsNeverInvoked(dexCode, methodSignature);
	}
	}

	private static void checkMethodIsNeverInvoked(DexCode dexCode,
	MethodSignature methodSignature) {
	assertTrue("At least one invoke to '" + methodSignature.toString() + "'",
	Arrays.stream(dexCode.instructions)
	.filter((instr) -> instr.getMethod() != null)
	.noneMatch((instr) -> instr.getMethod().name.toString().equals(methodSignature.name)));
	}

	protected static void checkMethodsPresence(ClassSubject classSubject,
	Map<MethodSignature, Boolean> presenceMap) {
	presenceMap.forEach(((methodSignature, isPresent) -> {
	MethodSubject methodSubject = classSubject.method(methodSignature);
	String methodDesc = methodSignature.toString();
	String failureMessage = isPresent
	? "Method '" + methodDesc + "' should be present"
	: "Method '" + methodDesc + "' should not be present";

	assertEquals(failureMessage, isPresent, methodSubject.isPresent());
	}));
	}

	protected ClassSubject checkClassIsKept(CodeInspector inspector, String className) {
	checkClassExistsInInput(className);
	ClassSubject classSubject = inspector.clazz(className);
	assertNotNull(classSubject);
	assertTrue("No class " + className, classSubject.isPresent());
	return classSubject;
	}

	protected FieldSubject checkFieldIsKept(ClassSubject classSubject, String fieldType,
	String fieldName) {
	// Field must exist in the input.
	checkFieldPresenceInInput(classSubject.getOriginalName(), fieldType, fieldName, true);
	FieldSubject fieldSubject = classSubject.field(fieldType, fieldName);
	assertTrue("No field " + fieldName + " in " + classSubject.getOriginalName(),
	fieldSubject.isPresent());
	return fieldSubject;
	}

	protected void checkFieldIsAbsent(ClassSubject classSubject, String fieldType,
	String fieldName) {
	// Field must NOT exist in the input.
	checkFieldPresenceInInput(classSubject.getOriginalName(), fieldType, fieldName, false);
	FieldSubject fieldSubject = classSubject.field(fieldType, fieldName);
	assertNotNull(fieldSubject);
	assertFalse(fieldSubject.isPresent());
	}

	protected void checkMethodIsAbsent(ClassSubject classSubject,
	MethodSignature methodSignature) {
	checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, false);
	checkMethodPresenceInOutput(classSubject, methodSignature, false);
	}

	protected MethodSubject checkMethodIsKept(ClassSubject classSubject,
	MethodSignature methodSignature) {
	checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
	return checkMethodisKeptOrRemoved(classSubject, methodSignature, true);
	}

	protected void checkMethodIsRemoved(ClassSubject classSubject,
	MethodSignature methodSignature) {
	checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
	checkMethodisKeptOrRemoved(classSubject, methodSignature, false);
	}

	protected MethodSubject checkMethodisKeptOrRemoved(ClassSubject classSubject,
	MethodSignature methodSignature, boolean isPresent) {
	checkMethodPresenceInInput(classSubject.getOriginalName(), methodSignature, true);
	return checkMethodPresenceInOutput(classSubject, methodSignature, isPresent);
	}

	private MethodSubject checkMethodPresenceInOutput(ClassSubject classSubject,
	MethodSignature methodSignature, boolean isPresent) {
	MethodSubject methodSubject = classSubject.method(methodSignature);
	assertNotNull(methodSubject);

	String methodSig = methodSignature.name + methodSignature.toDescriptor();
	if (isPresent) {
	assertTrue("No method " + methodSig + " in output", methodSubject.isPresent());
	} else {
	assertFalse("Method " + methodSig + " exists in output", methodSubject.isPresent());
	}
	return methodSubject;
	}

	protected static DexCode getDexCode(MethodSubject methodSubject) {
	Code code = methodSubject.getMethod().getCode();
	assertNotNull("No code for method " + methodSubject.getMethod().descriptor(), code);
	assertTrue(code.isDexCode());
	return code.asDexCode();
	}

	private String buildProguardRules(String mainClass) {
	ProguardRulesBuilder proguardRules = new ProguardRulesBuilder();
	proguardRules.appendWithLineSeparator(keepMainProguardConfiguration(mainClass));
	proguardRules.dontObfuscate();
	if (allowAccessModification) {
	proguardRules.allowAccessModification();
	}
	return proguardRules.toString();
	}

	protected String keepAllMembers(String className) {
	return "-keep class " + className + " {" + System.lineSeparator()
	+ " *;" + System.lineSeparator()
	+ "}";
	}

	protected String keepClassMethod(String className, MethodSignature methodSignature) {
	return "-keep class " + className + " {" + System.lineSeparator()
	+ methodSignature.toString() + ";" + System.lineSeparator()
	+ "}";
	}

	protected void runTest(String folder, String mainClass,
	AndroidAppInspector inspector) throws Exception {
	runTest(folder, mainClass, null, null, inspector);
	}

	protected void runTest(String folder, String mainClass,
	Consumer<InternalOptions> optionsConsumer, AndroidAppInspector inspector) throws Exception {
	runTest(folder, mainClass, null, optionsConsumer, inspector);
	}

	protected void runTest(String folder, String mainClass,
	String extraProguardRules, AndroidAppInspector inspector) throws Exception {
	runTest(folder, mainClass, extraProguardRules, null, inspector);
	}

	protected void runTest(String folder, String mainClass, String extraProguardRules,
	Consumer<InternalOptions> optionsConsumer, AndroidAppInspector inspector) throws Exception {
	Assume.assumeTrue(ToolHelper.artSupported() \|\| ToolHelper.compareAgaintsGoldenFiles());

	String proguardRules = buildProguardRules(mainClass);
	if (extraProguardRules != null) {
	proguardRules += extraProguardRules;
	}

	// Build classpath for compilation (and java execution)
	classpath.clear();
	classpath.add(getKotlinJarFile(folder));
	classpath.add(getJavaJarFile(folder));
	classpath.addAll(extraClasspath);

	// Build with R8
	AndroidApp.Builder builder = AndroidApp.builder();
	builder.addProgramFiles(classpath);
	AndroidApp app = compileWithR8(builder.build(), proguardRules, optionsConsumer);

	// Materialize file for execution.
	Path generatedDexFile = temp.getRoot().toPath().resolve("classes.jar");
	app.writeToZip(generatedDexFile, OutputMode.DexIndexed);

	// Run with ART.
	String artOutput =
	ToolHelper.runArtNoVerificationErrors(generatedDexFile.toString(), mainClass);

	// Compare with Java.
	ToolHelper.ProcessResult javaResult = ToolHelper.runJava(classpath, mainClass);
	if (javaResult.exitCode != 0) {
	System.out.println(javaResult.stdout);
	System.err.println(javaResult.stderr);
	fail("JVM failed for: " + mainClass);
	}
	assertEquals("JVM and ART output differ", javaResult.stdout, artOutput);

	inspector.inspectApp(app);
	}

	protected void checkClassExistsInInput(String className) {
	if (!AsmUtils.doesClassExist(classpath, className)) {
	throw new AssertionError("Class " + className + " does not exist in input");
	}
	}

	private void checkMethodPresenceInInput(String className, MethodSignature methodSignature,
	boolean isPresent) {
	boolean foundMethod = AsmUtils.doesMethodExist(classpath, className,
	methodSignature.name, methodSignature.toDescriptor());
	if (isPresent != foundMethod) {
	throw new AssertionError(
	"Method " + methodSignature.name + methodSignature.toDescriptor()
	+ " " + (foundMethod ? "exists" : "does not exist")
	+ " in input class " + className + " but is expected to be "
	+ (isPresent ? "present" : "absent"));
	}
	}

	private void checkFieldPresenceInInput(String className, String fieldType, String fieldName,
	boolean isPresent) {
	boolean foundField = AsmUtils.doesFieldExist(classpath, className, fieldName, fieldType);
	if (isPresent != foundField) {
	throw new AssertionError(
	"Field " + fieldName + " " + (foundField ? "exists" : "does not exist")
	+ " in input class " + className + " but is expected to be "
	+ (isPresent ? "present" : "absent"));
	}
	}

	private Path getKotlinJarFile(String folder) {
	return Paths.get(ToolHelper.TESTS_BUILD_DIR, "kotlinR8TestResources",
	targetVersion.getFolderName(), folder + FileUtils.JAR_EXTENSION);
	}

	private Path getJavaJarFile(String folder) {
	return Paths.get(ToolHelper.TESTS_BUILD_DIR, "kotlinR8TestResources",
	targetVersion.getFolderName(), folder + ".java" + FileUtils.JAR_EXTENSION);
	}

	@FunctionalInterface
	interface AndroidAppInspector {

	void inspectApp(AndroidApp androidApp) throws Exception;
	}

	/**
	* Generates a "main" class which invokes the given static method (which has no argument and
	* return void type). This new class is then added to the test classpath.
	*
	* @param methodClass the class of the static method to invoke
	* @param methodName the name of the static method to invoke
	* @return the name of the generated class
	*/
	protected String addMainToClasspath(String methodClass, String methodName) throws Exception {
	JasminBuilder builder = new JasminBuilder();
	ClassBuilder mainClassBuilder =
	builder.addClass(DescriptorUtils.getBinaryNameFromJavaType(JASMIN_MAIN_CLASS));
	mainClassBuilder.addMainMethod(
	"invokestatic " + methodClass + "/" + methodName + "()V",
	"return"
	);

	Path output = writeToJar(builder);
	addExtraClasspath(output);
	return JASMIN_MAIN_CLASS;
	}
	}