Tue, 05 Mar 2013 14:19:49 +0000
8009129: Illegal access error when calling method reference
Summary: Javac generates method handle referencing non public type
Reviewed-by: jjg, rfield
1 /*
2 * Copyright (c) 2005, 2011, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation. Oracle designates this
8 * particular file as subject to the "Classpath" exception as provided
9 * by Oracle in the LICENSE file that accompanied this code.
10 *
11 * This code is distributed in the hope that it will be useful, but WITHOUT
12 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 * version 2 for more details (a copy is included in the LICENSE file that
15 * accompanied this code).
16 *
17 * You should have received a copy of the GNU General Public License version
18 * 2 along with this work; if not, write to the Free Software Foundation,
19 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
20 *
21 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
22 * or visit www.oracle.com if you need additional information or have any
23 * questions.
24 */
26 package com.sun.tools.javac.processing;
28 import javax.annotation.processing.*;
29 import javax.lang.model.*;
30 import javax.lang.model.element.*;
31 import static javax.lang.model.element.ElementKind.*;
32 import static javax.lang.model.element.NestingKind.*;
33 import javax.lang.model.type.*;
34 import javax.lang.model.util.*;
36 import java.io.PrintWriter;
37 import java.io.Writer;
38 import java.util.*;
40 /**
41 * A processor which prints out elements. Used to implement the
42 * -Xprint option; the included visitor class is used to implement
43 * Elements.printElements.
44 *
45 * <p><b>This is NOT part of any supported API.
46 * If you write code that depends on this, you do so at your own risk.
47 * This code and its internal interfaces are subject to change or
48 * deletion without notice.</b>
49 */
50 @SupportedAnnotationTypes("*")
51 @SupportedSourceVersion(SourceVersion.RELEASE_8)
52 public class PrintingProcessor extends AbstractProcessor {
53 PrintWriter writer;
55 public PrintingProcessor() {
56 super();
57 writer = new PrintWriter(System.out);
58 }
60 public void setWriter(Writer w) {
61 writer = new PrintWriter(w);
62 }
64 @Override
65 public boolean process(Set<? extends TypeElement> tes,
66 RoundEnvironment renv) {
68 for(Element element : renv.getRootElements()) {
69 print(element);
70 }
72 // Just print the elements, nothing more to do.
73 return true;
74 }
76 void print(Element element) {
77 new PrintingElementVisitor(writer, processingEnv.getElementUtils()).
78 visit(element).flush();
79 }
81 /**
82 * Used for the -Xprint option and called by Elements.printElements
83 */
84 public static class PrintingElementVisitor
85 extends SimpleElementVisitor8<PrintingElementVisitor, Boolean> {
86 int indentation; // Indentation level;
87 final PrintWriter writer;
88 final Elements elementUtils;
90 public PrintingElementVisitor(Writer w, Elements elementUtils) {
91 super();
92 this.writer = new PrintWriter(w);
93 this.elementUtils = elementUtils;
94 indentation = 0;
95 }
97 @Override
98 protected PrintingElementVisitor defaultAction(Element e, Boolean newLine) {
99 if (newLine != null && newLine)
100 writer.println();
101 printDocComment(e);
102 printModifiers(e);
103 return this;
104 }
106 @Override
107 public PrintingElementVisitor visitExecutable(ExecutableElement e, Boolean p) {
108 ElementKind kind = e.getKind();
110 if (kind != STATIC_INIT &&
111 kind != INSTANCE_INIT) {
112 Element enclosing = e.getEnclosingElement();
114 // Don't print out the constructor of an anonymous class
115 if (kind == CONSTRUCTOR &&
116 enclosing != null &&
117 NestingKind.ANONYMOUS ==
118 // Use an anonymous class to determine anonymity!
119 (new SimpleElementVisitor7<NestingKind, Void>() {
120 @Override
121 public NestingKind visitType(TypeElement e, Void p) {
122 return e.getNestingKind();
123 }
124 }).visit(enclosing))
125 return this;
127 defaultAction(e, true);
128 printFormalTypeParameters(e, true);
130 switch(kind) {
131 case CONSTRUCTOR:
132 // Print out simple name of the class
133 writer.print(e.getEnclosingElement().getSimpleName());
134 break;
136 case METHOD:
137 writer.print(e.getReturnType().toString());
138 writer.print(" ");
139 writer.print(e.getSimpleName().toString());
140 break;
141 }
143 writer.print("(");
144 printParameters(e);
145 writer.print(")");
146 AnnotationValue defaultValue = e.getDefaultValue();
147 if (defaultValue != null)
148 writer.print(" default " + defaultValue);
150 printThrows(e);
151 writer.println(";");
152 }
153 return this;
154 }
157 @Override
158 public PrintingElementVisitor visitType(TypeElement e, Boolean p) {
159 ElementKind kind = e.getKind();
160 NestingKind nestingKind = e.getNestingKind();
162 if (NestingKind.ANONYMOUS == nestingKind) {
163 // Print out an anonymous class in the style of a
164 // class instance creation expression rather than a
165 // class declaration.
166 writer.print("new ");
168 // If the anonymous class implements an interface
169 // print that name, otherwise print the superclass.
170 List<? extends TypeMirror> interfaces = e.getInterfaces();
171 if (!interfaces.isEmpty())
172 writer.print(interfaces.get(0));
173 else
174 writer.print(e.getSuperclass());
176 writer.print("(");
177 // Anonymous classes that implement an interface can't
178 // have any constructor arguments.
179 if (interfaces.isEmpty()) {
180 // Print out the parameter list from the sole
181 // constructor. For now, don't try to elide any
182 // synthetic parameters by determining if the
183 // anonymous class is in a static context, etc.
184 List<? extends ExecutableElement> constructors =
185 ElementFilter.constructorsIn(e.getEnclosedElements());
187 if (!constructors.isEmpty())
188 printParameters(constructors.get(0));
189 }
190 writer.print(")");
191 } else {
192 if (nestingKind == TOP_LEVEL) {
193 PackageElement pkg = elementUtils.getPackageOf(e);
194 if (!pkg.isUnnamed())
195 writer.print("package " + pkg.getQualifiedName() + ";\n");
196 }
198 defaultAction(e, true);
200 switch(kind) {
201 case ANNOTATION_TYPE:
202 writer.print("@interface");
203 break;
204 default:
205 writer.print(kind.toString().toLowerCase());
206 }
207 writer.print(" ");
208 writer.print(e.getSimpleName());
210 printFormalTypeParameters(e, false);
212 // Print superclass information if informative
213 if (kind == CLASS) {
214 TypeMirror supertype = e.getSuperclass();
215 if (supertype.getKind() != TypeKind.NONE) {
216 TypeElement e2 = (TypeElement)
217 ((DeclaredType) supertype).asElement();
218 if (e2.getSuperclass().getKind() != TypeKind.NONE)
219 writer.print(" extends " + supertype);
220 }
221 }
223 printInterfaces(e);
224 }
225 writer.println(" {");
226 indentation++;
228 if (kind == ENUM) {
229 List<Element> enclosedElements =
230 new ArrayList<Element>(e.getEnclosedElements());
231 // Handle any enum constants specially before other entities.
232 List<Element> enumConstants = new ArrayList<Element>();
233 for(Element element : enclosedElements) {
234 if (element.getKind() == ENUM_CONSTANT)
235 enumConstants.add(element);
236 }
237 if (!enumConstants.isEmpty()) {
238 int i;
239 for(i = 0; i < enumConstants.size()-1; i++) {
240 this.visit(enumConstants.get(i), true);
241 writer.print(",");
242 }
243 this.visit(enumConstants.get(i), true);
244 writer.println(";\n");
246 enclosedElements.removeAll(enumConstants);
247 }
249 for(Element element : enclosedElements)
250 this.visit(element);
251 } else {
252 for(Element element : e.getEnclosedElements())
253 this.visit(element);
254 }
256 indentation--;
257 indent();
258 writer.println("}");
259 return this;
260 }
262 @Override
263 public PrintingElementVisitor visitVariable(VariableElement e, Boolean newLine) {
264 ElementKind kind = e.getKind();
265 defaultAction(e, newLine);
267 if (kind == ENUM_CONSTANT)
268 writer.print(e.getSimpleName());
269 else {
270 writer.print(e.asType().toString() + " " + e.getSimpleName() );
271 Object constantValue = e.getConstantValue();
272 if (constantValue != null) {
273 writer.print(" = ");
274 writer.print(elementUtils.getConstantExpression(constantValue));
275 }
276 writer.println(";");
277 }
278 return this;
279 }
281 @Override
282 public PrintingElementVisitor visitTypeParameter(TypeParameterElement e, Boolean p) {
283 writer.print(e.getSimpleName());
284 return this;
285 }
287 // Should we do more here?
288 @Override
289 public PrintingElementVisitor visitPackage(PackageElement e, Boolean p) {
290 defaultAction(e, false);
291 if (!e.isUnnamed())
292 writer.println("package " + e.getQualifiedName() + ";");
293 else
294 writer.println("// Unnamed package");
295 return this;
296 }
298 public void flush() {
299 writer.flush();
300 }
302 private void printDocComment(Element e) {
303 String docComment = elementUtils.getDocComment(e);
305 if (docComment != null) {
306 // Break comment into lines
307 java.util.StringTokenizer st = new StringTokenizer(docComment,
308 "\n\r");
309 indent();
310 writer.println("/**");
312 while(st.hasMoreTokens()) {
313 indent();
314 writer.print(" *");
315 writer.println(st.nextToken());
316 }
318 indent();
319 writer.println(" */");
320 }
321 }
323 private void printModifiers(Element e) {
324 ElementKind kind = e.getKind();
325 if (kind == PARAMETER) {
326 printAnnotationsInline(e);
327 } else {
328 printAnnotations(e);
329 indent();
330 }
332 if (kind == ENUM_CONSTANT)
333 return;
335 Set<Modifier> modifiers = new LinkedHashSet<Modifier>();
336 modifiers.addAll(e.getModifiers());
338 switch (kind) {
339 case ANNOTATION_TYPE:
340 case INTERFACE:
341 modifiers.remove(Modifier.ABSTRACT);
342 break;
344 case ENUM:
345 modifiers.remove(Modifier.FINAL);
346 modifiers.remove(Modifier.ABSTRACT);
347 break;
349 case METHOD:
350 case FIELD:
351 Element enclosingElement = e.getEnclosingElement();
352 if (enclosingElement != null &&
353 enclosingElement.getKind().isInterface()) {
354 modifiers.remove(Modifier.PUBLIC);
355 modifiers.remove(Modifier.ABSTRACT); // only for methods
356 modifiers.remove(Modifier.STATIC); // only for fields
357 modifiers.remove(Modifier.FINAL); // only for fields
358 }
359 break;
361 }
363 for(Modifier m: modifiers) {
364 writer.print(m.toString() + " ");
365 }
366 }
368 private void printFormalTypeParameters(Parameterizable e,
369 boolean pad) {
370 List<? extends TypeParameterElement> typeParams = e.getTypeParameters();
371 if (typeParams.size() > 0) {
372 writer.print("<");
374 boolean first = true;
375 for(TypeParameterElement tpe: typeParams) {
376 if (!first)
377 writer.print(", ");
378 printAnnotationsInline(tpe);
379 writer.print(tpe.toString());
380 first = false;
381 }
383 writer.print(">");
384 if (pad)
385 writer.print(" ");
386 }
387 }
389 private void printAnnotationsInline(Element e) {
390 List<? extends AnnotationMirror> annots = e.getAnnotationMirrors();
391 for(AnnotationMirror annotationMirror : annots) {
392 writer.print(annotationMirror);
393 writer.print(" ");
394 }
395 }
397 private void printAnnotations(Element e) {
398 List<? extends AnnotationMirror> annots = e.getAnnotationMirrors();
399 for(AnnotationMirror annotationMirror : annots) {
400 indent();
401 writer.println(annotationMirror);
402 }
403 }
405 // TODO: Refactor
406 private void printParameters(ExecutableElement e) {
407 List<? extends VariableElement> parameters = e.getParameters();
408 int size = parameters.size();
410 switch (size) {
411 case 0:
412 break;
414 case 1:
415 for(VariableElement parameter: parameters) {
416 printModifiers(parameter);
418 if (e.isVarArgs() ) {
419 TypeMirror tm = parameter.asType();
420 if (tm.getKind() != TypeKind.ARRAY)
421 throw new AssertionError("Var-args parameter is not an array type: " + tm);
422 writer.print((ArrayType.class.cast(tm)).getComponentType() );
423 writer.print("...");
424 } else
425 writer.print(parameter.asType());
426 writer.print(" " + parameter.getSimpleName());
427 }
428 break;
430 default:
431 {
432 int i = 1;
433 for(VariableElement parameter: parameters) {
434 if (i == 2)
435 indentation++;
437 if (i > 1)
438 indent();
440 printModifiers(parameter);
442 if (i == size && e.isVarArgs() ) {
443 TypeMirror tm = parameter.asType();
444 if (tm.getKind() != TypeKind.ARRAY)
445 throw new AssertionError("Var-args parameter is not an array type: " + tm);
446 writer.print((ArrayType.class.cast(tm)).getComponentType() );
448 writer.print("...");
449 } else
450 writer.print(parameter.asType());
451 writer.print(" " + parameter.getSimpleName());
453 if (i < size)
454 writer.println(",");
456 i++;
457 }
459 if (parameters.size() >= 2)
460 indentation--;
461 }
462 break;
463 }
464 }
466 private void printInterfaces(TypeElement e) {
467 ElementKind kind = e.getKind();
469 if(kind != ANNOTATION_TYPE) {
470 List<? extends TypeMirror> interfaces = e.getInterfaces();
471 if (interfaces.size() > 0) {
472 writer.print((kind.isClass() ? " implements" : " extends"));
474 boolean first = true;
475 for(TypeMirror interf: interfaces) {
476 if (!first)
477 writer.print(",");
478 writer.print(" ");
479 writer.print(interf.toString());
480 first = false;
481 }
482 }
483 }
484 }
486 private void printThrows(ExecutableElement e) {
487 List<? extends TypeMirror> thrownTypes = e.getThrownTypes();
488 final int size = thrownTypes.size();
489 if (size != 0) {
490 writer.print(" throws");
492 int i = 1;
493 for(TypeMirror thrownType: thrownTypes) {
494 if (i == 1)
495 writer.print(" ");
497 if (i == 2)
498 indentation++;
500 if (i >= 2)
501 indent();
503 writer.print(thrownType);
505 if (i != size)
506 writer.println(", ");
508 i++;
509 }
511 if (size >= 2)
512 indentation--;
513 }
514 }
516 private static final String [] spaces = {
517 "",
518 " ",
519 " ",
520 " ",
521 " ",
522 " ",
523 " ",
524 " ",
525 " ",
526 " ",
527 " "
528 };
530 private void indent() {
531 int indentation = this.indentation;
532 if (indentation < 0)
533 return;
534 final int maxIndex = spaces.length - 1;
536 while (indentation > maxIndex) {
537 writer.print(spaces[maxIndex]);
538 indentation -= maxIndex;
539 }
540 writer.print(spaces[indentation]);
541 }
543 }
544 }