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eclipse / jdt / eclipse.jdt.ui / 47109fe4de6be7a89b442c5a54b9d19c3a93a9ff / . / org.eclipse.jdt.ui.tests / ui / org / eclipse / jdt / ui / tests / quickfix / CleanUpTest10.java
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/*******************************************************************************
* Copyright (c) 2020, 2021 Fabrice TIERCELIN and others.
*
* This program and the accompanying materials
* are made available under the terms of the Eclipse Public License 2.0
* which accompanies this distribution, and is available at
* https://www.eclipse.org/legal/epl-2.0/
*
* SPDX-License-Identifier: EPL-2.0
*
* Contributors:
* Fabrice TIERCELIN - initial API and implementation
*******************************************************************************/
package org.eclipse.jdt.ui.tests.quickfix;
import org.junit.Rule;
import org.junit.Test;
import org.eclipse.core.runtime.CoreException;
import org.eclipse.jdt.core.IClasspathEntry;
import org.eclipse.jdt.core.ICompilationUnit;
import org.eclipse.jdt.core.IJavaProject;
import org.eclipse.jdt.core.IPackageFragment;
import org.eclipse.jdt.internal.corext.fix.CleanUpConstants;
import org.eclipse.jdt.ui.tests.core.rules.Java10ProjectTestSetup;
import org.eclipse.jdt.ui.tests.core.rules.ProjectTestSetup;
/**
* Tests the cleanup features related to Java 10.
*/
public class CleanUpTest10 extends CleanUpTestCase {
@Rule
public ProjectTestSetup projectSetup= new Java10ProjectTestSetup();
@Override
protected IJavaProject getProject() {
return projectSetup.getProject();
}
@Override
protected IClasspathEntry[] getDefaultClasspath() throws CoreException {
return projectSetup.getDefaultClasspath();
}
@Test
public void testUseLocalVariableTypeInferenceOnPrimitive() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " int number = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var number = 0;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceOnLongWidening() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " long number = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var number = 0L;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceOnFloatWidening() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " float number = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var number = 0F;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceOnDoubleWidening() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " double number = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var number = 0D;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceOnHexaPrimitive() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " long number = 0x0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var number = 0x0L;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceOnParameterizedType() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " ArrayList<String> parameterizedType = new ArrayList<String>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var parameterizedType = new ArrayList<String>();\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceParameterizedTypeWithDiamond() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " HashMap<Integer, String> parameterizedTypeWithDiamond = new HashMap<>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " var parameterizedTypeWithDiamond = new HashMap<Integer, String>();\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testDoNotUseVarOnUninitializedVariable() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo(int doNotRefactorParameter) {\n" //
+ " int doNotRefactorUninitializedVariable;\n" //
+ " doNotRefactorUninitializedVariable = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnLambdaType() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " private interface I1 {\n" //
+ " public void run(String s, int i, Boolean b);\n" //
+ " }\n" //
+ " public void foo(int doNotRefactorParameter) {\n" //
+ " I1 i1 = (String s, int i, Boolean b) -> { System.out.println(\"hello\"); };\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnNarrowingType() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " private int doNotRefactorField = 0;\n" //
+ "\n" //
+ " public void foo(int doNotRefactorParameter) {\n" //
+ " short doNotRefactorNarrowingType = 0;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnDifferentTypes() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "import java.util.Map;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " Map<Integer, String> doNotRefactorDifferentTypes = new HashMap<Integer, String>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnArray() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " int doNotRefactorArray[] = new int[]{0};\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnDifferentTypeArguments() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " ArrayList<? extends Integer> doNotRefactorDifferentTypeArguments = new ArrayList<Integer>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnMultiDeclarations() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " double doNot = 0, refactor = .0, multiDeclarations = 1D;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnGenericMethod() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " ArrayList<Integer> doNotRefactorGenericMethod = newInstance();\n" //
+ " }\n" //
+ "\n" //
+ " public <D> ArrayList<D> newInstance() {\n" //
+ " return new ArrayList<D>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testUseVarOnParameterizedMethod() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " ArrayList<Integer> list = newParameterizedInstance();\n" //
+ " }\n" //
+ "\n" //
+ " public ArrayList<Integer> newParameterizedInstance() {\n" //
+ " return new ArrayList<Integer>();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.ArrayList;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " var list = newParameterizedInstance();\n" //
+ " }\n" //
+ "\n" //
+ " public ArrayList<Integer> newParameterizedInstance() {\n" //
+ " return new ArrayList<Integer>();\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testDoNotUseVarOnInferedMethod() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.Collections;\n" //
+ "import java.util.List;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " List<Integer> doNotRefactorInferedMethod = Collections.emptyList();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testUseLocalVariableTypeInferenceParameterizedTypeFromCastExpression() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(Object o) {\n" //
+ " HashMap<Integer, String> parameterizedTypeFromCastExpression = (HashMap<Integer, String>) o;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(Object o) {\n" //
+ " var parameterizedTypeFromCastExpression = (HashMap<Integer, String>) o;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceParameterizedTypeFromMethod() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.Collection;\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(HashMap<Integer, String> m) {\n" //
+ " Collection<String> parameterizedTypeFromMethod = m.values();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.Collection;\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(HashMap<Integer, String> m) {\n" //
+ " var parameterizedTypeFromMethod = m.values();\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceParameterizedTypeFromSuperMethod() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.Collection;\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E extends HashMap<Integer, String> {\n" //
+ " public void foo() {\n" //
+ " Collection<String> parameterizedTypeFromMethod = super.values();\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.Collection;\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E extends HashMap<Integer, String> {\n" //
+ " public void foo() {\n" //
+ " var parameterizedTypeFromMethod = super.values();\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceParameterizedTypeFromVariable() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(HashMap<Integer, String> m) {\n" //
+ " HashMap<Integer, String> parameterizedTypeFromVariable = m;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.HashMap;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(HashMap<Integer, String> m) {\n" //
+ " var parameterizedTypeFromVariable = m;\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testUseLocalVariableTypeInferenceIntoStatement() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(String[] array) {\n" //
+ " for (int i= 0; i < array.length; i++) {\n" //
+ " String arrayElement= array[i];\n" //
+ " }\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(String[] array) {\n" //
+ " for (var i= 0; i < array.length; i++) {\n" //
+ " var arrayElement= array[i];\n" //
+ " }\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testDoNotUseVarOnFromLambdaExpression() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.function.Function;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " public void foo() {\n" //
+ " Function<Integer, String> doNotUseVarOnFromLambdaExpression = i -> String.valueOf(i);\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testDoNotUseVarOnFromLambdaMethodReference() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "import java.util.function.Function;\n" //
+ "\n" //
+ "public class E1 {\n" //
+ " Function<String, Integer> field = String::length;\n" //
+ " public void foo() {\n" //
+ " Function<String, Integer> doNotUseVarOnFromLambdaMethodReference = String::length;\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E1.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
@Test
public void testUseLocalVariableTypeForArrays() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(String[] array) {\n" //
+ " String[] a = array;\n" //
+ " String[] b = new String[] {\"a\", \"b\", \"c\"};\n" //
+ " String[][] c = new String[][] { {\"a\", \"b\", \"c\"}, {\"d\", \"e\", \"f\"} };\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
String expected= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo(String[] array) {\n" //
+ " var a = array;\n" //
+ " var b = new String[] {\"a\", \"b\", \"c\"};\n" //
+ " var c = new String[][] { {\"a\", \"b\", \"c\"}, {\"d\", \"e\", \"f\"} };\n" //
+ " }\n" //
+ "}\n";
assertRefactoringResultAsExpected(new ICompilationUnit[] { cu1 }, new String[] { expected }, null);
}
@Test
public void testDoNotUseLocalVariableTypeForArrayInitialization() throws Exception {
IPackageFragment pack1= fSourceFolder.createPackageFragment("test1", false, null);
String sample= "" //
+ "package test1;\n" //
+ "\n" //
+ "public class E {\n" //
+ " public void foo() {\n" //
+ " String[] a = {\"a\", \"b\", \"c\"};\n" //
+ " String[][] b = { {\"a\", \"b\", \"c\"}, {\"d\", \"e\", \"f\"} };\n" //
+ " }\n" //
+ "}\n";
ICompilationUnit cu1= pack1.createCompilationUnit("E.java", sample, false, null);
enable(CleanUpConstants.USE_VAR);
assertRefactoringHasNoChange(new ICompilationUnit[] { cu1 });
}
}