/* * Copyright (c) 2018, 2021, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ /* * @test * @bug 8205418 8207229 8207230 8230847 8245786 8247334 8248641 8240658 8246774 8274347 * @summary Test the outcomes from Trees.getScope * @modules jdk.compiler/com.sun.tools.javac.api * jdk.compiler/com.sun.tools.javac.comp * jdk.compiler/com.sun.tools.javac.tree * jdk.compiler/com.sun.tools.javac.util */ import java.io.IOException; import java.net.URI; import java.util.ArrayList; import java.util.Collections; import java.util.List; import javax.lang.model.element.Element; import javax.tools.JavaCompiler; import javax.tools.SimpleJavaFileObject; import javax.tools.StandardJavaFileManager; import javax.tools.ToolProvider; import com.sun.source.tree.AnnotationTree; import com.sun.source.tree.BlockTree; import com.sun.source.tree.ClassTree; import com.sun.source.tree.CompilationUnitTree; import com.sun.source.tree.ConditionalExpressionTree; import com.sun.source.tree.IdentifierTree; import com.sun.source.tree.LambdaExpressionTree; import com.sun.source.tree.MethodInvocationTree; import com.sun.source.tree.MethodTree; import com.sun.source.tree.Scope; import com.sun.source.tree.Tree; import com.sun.source.tree.VariableTree; import com.sun.source.util.JavacTask; import com.sun.source.util.TaskEvent; import com.sun.source.util.TaskListener; import com.sun.source.util.TreePath; import com.sun.source.util.TreePathScanner; import com.sun.source.util.Trees; import com.sun.tools.javac.api.JavacScope; import com.sun.tools.javac.api.JavacTaskImpl; import com.sun.tools.javac.api.JavacTool; import com.sun.tools.javac.comp.Analyzer; import com.sun.tools.javac.comp.AttrContext; import com.sun.tools.javac.comp.Env; import com.sun.tools.javac.tree.JCTree; import com.sun.tools.javac.tree.JCTree.JCCase; import com.sun.tools.javac.tree.JCTree.JCStatement; import com.sun.tools.javac.util.Context; import com.sun.tools.javac.util.Context.Factory; import javax.lang.model.element.TypeElement; import javax.lang.model.util.ElementFilter; import javax.tools.JavaFileObject; import static javax.tools.JavaFileObject.Kind.SOURCE; public class TestGetScopeResult { public static void main(String... args) throws IOException { new TestGetScopeResult().run(); new TestGetScopeResult().testAnalyzerDisabled(); new TestGetScopeResult().testVariablesInSwitch(); new TestGetScopeResult().testMemberRefs(); new TestGetScopeResult().testAnnotations(); new TestGetScopeResult().testAnnotationsLazy(); new TestGetScopeResult().testCircular(); new TestGetScopeResult().testRecord(); new TestGetScopeResult().testLocalRecordAnnotation(); new TestGetScopeResult().testRuleCases(); new TestGetScopeResult().testNestedSwitchExpression(); new TestGetScopeResult().testModuleImportScope(); } public void run() throws IOException { String[] simpleLambda = { "s:java.lang.String", "i:Test.I", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { I i = s -> { }; } interface I { public void test(String s); } }", simpleLambda); doTest("class Test { void test() { I i = s -> { }; } interface I { public int test(String s); } }", simpleLambda); doTest("class Test { void test() { I i = s -> { }; } interface I { public String test(String s); } }", simpleLambda); doTest("class Test { void test() { I i; inv(s -> { }); } void inv(I i) { } interface I { public void test(String s); } }", simpleLambda); doTest("class Test { void test() { I i; inv(s -> { }); } void inv(I i) { } interface I { public int test(String s); } }", simpleLambda); doTest("class Test { void test() { I i; inv(s -> { }); } void inv(I i) { } interface I { public String test(String s); } }", simpleLambda); String[] dualLambda = { "s:java.lang.String", "i:Test.I1", "super:java.lang.Object", "this:Test", "s:java.lang.CharSequence", "i:Test.I1", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { I1 i; inv(s -> { }, s -> { }); } void inv(I1 i, I2 i) { } interface I1 { public String test(String s); } interface I2 { public void test(CharSequence s); } }", dualLambda); doTest("class Test { void test() { I1 i; inv(s -> { }, s -> { }); } void inv(I1 i, I2 i) { } interface I1 { public String test(String s); } interface I2 { public int test(CharSequence s); } }", dualLambda); String[] brokenType = { "s:", "u:Undefined", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { Undefined u = s -> { }; } }", brokenType); String[] multipleCandidates1 = { "s:", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand1(s -> { }); } void cand1(I1 i) { } void cand1(I2 i) { } interface I1 { public String test(String s); } interface I2 { public int test(CharSequence s); } }", multipleCandidates1); String[] multipleCandidates2 = { "s:java.lang.String", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand1(s -> { }); } void cand1(I1 i) { } void cand1(I2 i, int i) { } interface I1 { public String test(String s); } interface I2 { public int test(CharSequence s); } }", multipleCandidates2); String[] implicitExplicitConflict1 = { ":t", "s:java.lang.String", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand((var s, t) -> \"\"); } void cand(I i) { } interface I { public String test(String s); } }", implicitExplicitConflict1); String[] implicitExplicitConflict2 = { "s:none", ":t", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand((t, var s) -> \"\"); } void cand(I i) { } interface I { public String test(String s); } }", implicitExplicitConflict2); String[] noFunctionInterface = { "s:none", ":t", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand((t, var s) -> \"\"); } void cand(String s) { } }", noFunctionInterface); String[] invocationInMethodInvocation = { "d2:java.lang.Double", "d1:java.lang.Double", "super:java.lang.Object", "this:Test" }; doTest(""" class Test { void test() { test(reduce(0.0, (d1, d2) -> 0)); } void test(int i) {} T reduce(T t, BiFunction f1) {} static interface BiFunction { R apply(P p, Q q); } }""", invocationInMethodInvocation); String[] infer = { "c:java.lang.String", "super:java.lang.Object", "this:Test" }; doTest("class Test { void test() { cand(\"\", c -> { }); } void cand(T t, I i) { } interface I { public String test(T s); } }", infer); doTest("class Test { void test() { cand(\"\", c -> { }); } void cand(T t, I i, int j) { } interface I { public void test(T s); } }", infer); doTest("class Test { void test() { cand(\"\", c -> { }); } void cand(T t, I i, int j) { } interface I { public String test(T s); } }", infer); } public void doTest(String code, String... expected) throws IOException { JavaCompiler c = ToolProvider.getSystemJavaCompiler(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return code; } } JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject())); CompilationUnitTree cut = t.parse().iterator().next(); ((JavacTaskImpl)t).enter(); for (int r = 0; r < 2; r++) { List actual = new ArrayList<>(); new TreePathScanner() { @Override public Void visitLambdaExpression(LambdaExpressionTree node, Void p) { Scope scope = Trees.instance(t).getScope(new TreePath(getCurrentPath(), node.getBody())); actual.addAll(dumpScope(scope)); return super.visitLambdaExpression(node, p); } }.scan(cut, null); List expectedList = List.of(expected); if (!expectedList.equals(actual)) { throw new IllegalStateException("Unexpected scope content: " + actual + "\n" + "expected: " + expectedList); } t.analyze(); } } } void testAnalyzerDisabled() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "class Test {" + " void test() { cand(() -> { System.err.println(); }); }" + " Runnable r = new Runnable() { public void test() { System.err.println(); } };" + " void cand(Runnable r) { }" + "}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, List.of("-XDfind=lambda"), null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); TestAnalyzer analyzer = (TestAnalyzer) TestAnalyzer.instance(ctx); if (!analyzer.analyzeCalled) { throw new IllegalStateException("Analyzer didn't run!"); } new TreePathScanner() { @Override public Void visitLambdaExpression(LambdaExpressionTree node, Void p) { analyzer.analyzeCalled = false; Trees.instance(t).getScope(new TreePath(getCurrentPath(), node.getBody())); if (analyzer.analyzeCalled) { throw new IllegalStateException("Analyzer was run during getScope!"); } return super.visitLambdaExpression(node, p); } @Override public Void visitVariable(VariableTree node, Void p) { if (node.getInitializer() != null) { analyzer.analyzeCalled = false; TreePath tp = new TreePath(getCurrentPath(), node.getInitializer()); Trees.instance(t).getScope(tp); if (analyzer.analyzeCalled) { throw new IllegalStateException("Analyzer was run during getScope!"); } } return super.visitVariable(node, p); } }.scan(cut, null); } } private static final class TestAnalyzer extends Analyzer { public static void preRegister(Context context) { context.put(analyzerKey, (Factory) ctx -> new TestAnalyzer(ctx)); } private boolean analyzeCalled; public TestAnalyzer(Context context) { super(context); } @Override protected void analyze(JCStatement statement, Env env) { analyzeCalled = true; super.analyze(statement, env); } } void testVariablesInSwitch() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "class Test {" + " void test() {\n" + " E e = E.A;\n" + " Object o = E.A;\n" + " switch (e) {\n" + " case A:\n" + " return;\n" + " case B:\n" + " test();\n" + " E ee = null;\n" + " break;\n" + " }\n" + " }\n" + " enum E {A, B}\n" + "}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); new TreePathScanner() { @Override public Void visitMethodInvocation(MethodInvocationTree node, Void p) { Trees.instance(t).getScope(getCurrentPath()); return super.visitMethodInvocation(node, p); } }.scan(cut, null); } } void testMemberRefs() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "class Test {" + " void test() {\n" + " Test t = this;\n" + " Runnable r1 = t::test;\n" + " Runnable r2 = true ? t::test : t::test;\n" + " c(t::test);\n" + " c(true ? t::test : t::test);\n" + " }\n" + " void c(Runnable r) {}\n" + "}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); new TreePathScanner() { @Override public Void visitConditionalExpression(ConditionalExpressionTree node, Void p) { Trees.instance(t).getScope(new TreePath(getCurrentPath(), node.getCondition())); return super.visitConditionalExpression(node, p); } @Override public Void visitBlock(BlockTree node, Void p) { Trees.instance(t).getScope(getCurrentPath()); return super.visitBlock(node, p); } }.scan(cut, null); } } void testAnnotations() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "class Test {" + " void test() {\n" + " new Object() {\n" + " @A\n" + " public String t() { return null; }\n" + " };\n" + " }\n" + " @interface A {}\n" + "}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); new TreePathScanner() { @Override public Void visitIdentifier(IdentifierTree node, Void p) { if (node.getName().contentEquals("A")) { Trees.instance(t).getScope(getCurrentPath()); } return super.visitIdentifier(node, p); } @Override public Void visitMethod(MethodTree node, Void p) { super.visitMethod(node, p); if (node.getReturnType() != null) { Trees.instance(t).getScope(new TreePath(getCurrentPath(), node.getReturnType())); } return null; } }.scan(cut, null); } } void testAnnotationsLazy() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "import java.lang.annotation.*;\n" + "\n" + "class ClassA {\n" + " Object o = ClassB.lcv;\n" + "}\n" + "\n" + "class ClassB {\n" + " static final String[] lcv = new @TA String[0];\n" + "}\n" + "\n" + "class ClassC {\n" + " static final Object o = (@TA Object) null;\n" + "}\n" + "\n" + "@Target({ElementType.TYPE_USE, ElementType.TYPE_PARAMETER})\n" + "@interface TA {}\n"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); t.addTaskListener(new TaskListener() { @Override public void finished(TaskEvent e) { if (e.getKind() == TaskEvent.Kind.ANALYZE) { new TreePathScanner() { @Override public Void scan(Tree tree, Void p) { if (tree != null) { Trees.instance(t).getScope(new TreePath(getCurrentPath(), tree)); } return super.scan(tree, p); } }.scan(Trees.instance(t).getPath(e.getTypeElement()), null); } } }); t.call(); } } void testCircular() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "class Test extends Test {" + " {\n" + " int i;\n" + " }\n" + "}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); new TreePathScanner() { @Override public Void visitBlock(BlockTree node, Void p) { Trees.instance(t).getScope(getCurrentPath()); return super.visitBlock(node, p); } }.scan(cut, null); } } void testRecord() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return "record Test(int mark) {}"; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); List actual = new ArrayList<>(); new TreePathScanner() { @Override public Void visitClass(ClassTree node, Void p) { Scope scope = Trees.instance(t).getScope(getCurrentPath()); actual.addAll(dumpScope(scope)); return super.visitClass(node, p); } }.scan(cut, null); List expected = List.of( "super:java.lang.Record", "this:Test", "T:T" ); if (!expected.equals(actual)) { throw new AssertionError("Unexpected Scope content: " + actual); } } } void testLocalRecordAnnotation() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { class Variant { final String code; final List> expectedScopeContent; public Variant(String code, List> expectedScopeContent) { this.code = code; this.expectedScopeContent = expectedScopeContent; } } Variant[] variants = new Variant[] { new Variant(""" class Test { void t() { record R(@Annotation int i) { void stop () {} } } } @interface Annotation {} """, List.of( List.of("super:java.lang.Object", "this:Test"), List.of("super:java.lang.Object", "this:Test") )), new Variant(""" record Test(@Annotation int i) {} @interface Annotation {} """, List.of( List.of("i:int", "super:java.lang.Record", "this:Test"), List.of("super:java.lang.Record", "this:Test") )) }; for (Variant currentVariant : variants) { class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return currentVariant.code; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); List> actual = new ArrayList<>(); new TreePathScanner() { @Override public Void visitAnnotation(AnnotationTree node, Void p) { Scope scope = Trees.instance(t).getScope(getCurrentPath()); actual.add(dumpScope(scope)); return super.visitAnnotation(node, p); } }.scan(cut, null); if (!currentVariant.expectedScopeContent.equals(actual)) { throw new AssertionError("Unexpected Scope content: " + actual); } } } } void testRuleCases() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { String code = """ class Test { void t(int i) { long local; System.err.println(switch (i) { case 0 -> { String var; int scopeHere; yield ""; } default -> { String var; int scopeHere; yield ""; } }); switch (i) { case 0 -> { String var; int scopeHere; } default -> { String var; int scopeHere; } }; switch (i) { case 0: { int checkTree; } } } } """; class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return code; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); List> actual = new ArrayList<>(); new TreePathScanner() { @Override public Void visitVariable(VariableTree node, Void p) { if (node.getName().contentEquals("scopeHere")) { Scope scope = Trees.instance(t).getScope(getCurrentPath()); actual.add(dumpScope(scope)); JCTree body = getCaseBody(scope); if (body == null) { throw new AssertionError("Unexpected null body."); } } else if (node.getName().contentEquals("checkTree")) { Scope scope = Trees.instance(t).getScope(getCurrentPath()); JCTree body = getCaseBody(scope); if (body != null) { throw new AssertionError("Unexpected body tree: " + body); } } return super.visitVariable(node, p); } JCTree getCaseBody(Scope scope) { return ((JCCase) ((JavacScope) scope).getEnv().next.next.tree).body; } }.scan(cut, null); List> expected = Collections.nCopies(4, List.of("scopeHere:int", "var:java.lang.String", "local:long", "i:int", "super:java.lang.Object", "this:Test" )); if (!expected.equals(actual)) { throw new AssertionError("Unexpected Scope content: " + actual); } } } void testNestedSwitchExpression() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { String code = """ class Test { void t(Object o1, Object o2) { System.err.println(switch (o1) { case String s -> switch (j) { case Integer i -> { int scopeHere; yield ""; } default -> ""; }; default -> ""; }); } } """; class MyFileObject extends SimpleJavaFileObject { MyFileObject() { super(URI.create("myfo:///Test.java"), SOURCE); } @Override public String getCharContent(boolean ignoreEncodingErrors) { return code; } } Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(new MyFileObject()), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); List> actual = new ArrayList<>(); new TreePathScanner() { @Override public Void visitVariable(VariableTree node, Void p) { if (node.getName().contentEquals("scopeHere")) { Scope scope = Trees.instance(t).getScope(getCurrentPath()); actual.add(dumpScope(scope)); JCTree body = getCaseBody(scope); if (body == null) { throw new AssertionError("Unexpected null body."); } } return super.visitVariable(node, p); } JCTree getCaseBody(Scope scope) { return ((JCCase) ((JavacScope) scope).getEnv().next.next.tree).body; } }.scan(cut, null); List> expected = List.of(List.of("scopeHere:int", "i:java.lang.Integer", "s:java.lang.String", "o2:java.lang.Object", "o1:java.lang.Object", "super:java.lang.Object", "this:Test" )); if (!expected.equals(actual)) { throw new AssertionError("Unexpected Scope content: " + actual); } } } void testModuleImportScope() throws IOException { JavacTool c = JavacTool.create(); try (StandardJavaFileManager fm = c.getStandardFileManager(null, null, null)) { String code = """ import module java.compiler; import java.util.*; import java.lang.System; class Test { } """; Context ctx = new Context(); TestAnalyzer.preRegister(ctx); JavaFileObject input = SimpleJavaFileObject.forSource(URI.create("myfo:///Test.java"), code); JavacTask t = (JavacTask) c.getTask(null, fm, null, null, null, List.of(input), ctx); CompilationUnitTree cut = t.parse().iterator().next(); t.analyze(); TreePath topLevelClass = new TreePath(new TreePath(cut), cut.getTypeDecls().get(0)); Scope scope = Trees.instance(t).getScope(topLevelClass); if (scope.getEnclosingClass() == null) { throw new AssertionError("Expected an enclosing class."); } scope = scope.getEnclosingScope(); if (scope.getEnclosingClass() != null) { throw new AssertionError("Did not expect an enclosing class."); } asssertScopeContainsTypeWithFQN(scope, "java.lang.System"); asssertScopeContainsTypeWithFQN(scope, "Test"); scope = scope.getEnclosingScope(); if (scope.getEnclosingClass() != null) { throw new AssertionError("Did not expect an enclosing class."); } asssertScopeContainsTypeWithFQN(scope, "java.util.List"); scope = scope.getEnclosingScope(); if (scope.getEnclosingClass() != null) { throw new AssertionError("Did not expect an enclosing class."); } asssertScopeContainsTypeWithFQN(scope, "javax.tools.ToolProvider"); if (scope.getEnclosingScope() != null) { throw new AssertionError("Did not expect an enclosing scope."); } } } private List dumpScope(Scope scope) { List content = new ArrayList<>(); while (scope.getEnclosingClass() != null) { for (Element el : scope.getLocalElements()) { content.add(el.getSimpleName() + ":" +el.asType().toString()); } scope = scope.getEnclosingScope(); } return content; } private void asssertScopeContainsTypeWithFQN(Scope scope, String fqn) { for (TypeElement type : ElementFilter.typesIn(scope.getLocalElements())) { if (type.getQualifiedName().contentEquals(fqn)) { return ; } } throw new AssertionError("Expected to find: " + fqn + " in: " + scope.getLocalElements() + ", but it is missing."); } }