void showDiagnostics(boolean showAll) { Set<JCDiagnostic.Kind> kinds = EnumSet.allOf(JCDiagnostic.Kind.class); if (!showAll) { // suppress errors, which are all presumed to be transient resolve errors kinds.remove(JCDiagnostic.Kind.ERROR); } log.reportDeferredDiagnostics(kinds); }
@Override public Set<TypeElement> scan(Element e, Set<TypeElement> p) { for (AnnotationMirror annotationMirror : elements.getAllAnnotationMirrors(e)) { Element e2 = annotationMirror.getAnnotationType().asElement(); p.add((TypeElement) e2); } return super.scan(e, p); }
private Set<String> initPlatformAnnotations() { Set<String> platformAnnotations = new HashSet<String>(); platformAnnotations.add("java.lang.Deprecated"); platformAnnotations.add("java.lang.Override"); platformAnnotations.add("java.lang.SuppressWarnings"); platformAnnotations.add("java.lang.annotation.Documented"); platformAnnotations.add("java.lang.annotation.Inherited"); platformAnnotations.add("java.lang.annotation.Retention"); platformAnnotations.add("java.lang.annotation.Target"); return Collections.unmodifiableSet(platformAnnotations); }
/** * Specify 'flow' and 'cast' as supported lint options for all Type checkers. * * <p>WMD: the above comment talks about 'flow', but I don't find a use of it as a lint option. I * added a new key 'flow:inferFromAsserts'. Maybe 'flow' should be used in * BasicAnnotatedTypeFactory with/instead of FLOW_BY_DEFAULT. */ @Override public Set<String> getSupportedLintOptions() { Set<String> lintSet = new HashSet<String>(super.getSupportedLintOptions()); lintSet.add("cast"); lintSet.add("cast:redundant"); lintSet.add("cast:unsafe"); lintSet.add("flow:inferFromAsserts"); // Temporary option to make array subtyping invariant, // which will be the new default soon. lintSet.add("arrays:invariant"); // Temporary option to make casts stricter, in particular when casting // to an array or generic type. This will be the new default soon. lintSet.add("cast:strict"); return Collections.unmodifiableSet(lintSet); }
private void discoverAndRunProcs( Context context, Set<TypeElement> annotationsPresent, List<ClassSymbol> topLevelClasses, List<PackageSymbol> packageInfoFiles) { Map<String, TypeElement> unmatchedAnnotations = new HashMap<String, TypeElement>(annotationsPresent.size()); for (TypeElement a : annotationsPresent) { unmatchedAnnotations.put(a.getQualifiedName().toString(), a); } // Give "*" processors a chance to match if (unmatchedAnnotations.size() == 0) unmatchedAnnotations.put("", null); DiscoveredProcessors.ProcessorStateIterator psi = discoveredProcs.iterator(); // TODO: Create proper argument values; need past round // information to fill in this constructor. Note that the 1 // st round of processing could be the last round if there // were parse errors on the initial source files; however, we // are not doing processing in that case. Set<Element> rootElements = new LinkedHashSet<Element>(); rootElements.addAll(topLevelClasses); rootElements.addAll(packageInfoFiles); rootElements = Collections.unmodifiableSet(rootElements); RoundEnvironment renv = new JavacRoundEnvironment(false, false, rootElements, JavacProcessingEnvironment.this); while (unmatchedAnnotations.size() > 0 && psi.hasNext()) { ProcessorState ps = psi.next(); Set<String> matchedNames = new HashSet<String>(); Set<TypeElement> typeElements = new LinkedHashSet<TypeElement>(); for (Map.Entry<String, TypeElement> entry : unmatchedAnnotations.entrySet()) { String unmatchedAnnotationName = entry.getKey(); if (ps.annotationSupported(unmatchedAnnotationName)) { matchedNames.add(unmatchedAnnotationName); TypeElement te = entry.getValue(); if (te != null) typeElements.add(te); } } if (matchedNames.size() > 0 || ps.contributed) { boolean processingResult = callProcessor(ps.processor, typeElements, renv); ps.contributed = true; ps.removeSupportedOptions(unmatchedProcessorOptions); if (printProcessorInfo || verbose) { log.printNoteLines( "x.print.processor.info", ps.processor.getClass().getName(), matchedNames.toString(), processingResult); } if (processingResult) { unmatchedAnnotations.keySet().removeAll(matchedNames); } } } unmatchedAnnotations.remove(""); if (lint && unmatchedAnnotations.size() > 0) { // Remove annotations processed by javac unmatchedAnnotations.keySet().removeAll(platformAnnotations); if (unmatchedAnnotations.size() > 0) { log = Log.instance(context); log.warning("proc.annotations.without.processors", unmatchedAnnotations.keySet()); } } // Run contributing processors that haven't run yet psi.runContributingProcs(renv); // Debugging if (options.isSet("displayFilerState")) filer.displayState(); }
/** Remove options that are matched by this processor. */ public void removeSupportedOptions(Set<String> unmatchedProcessorOptions) { unmatchedProcessorOptions.removeAll(supportedOptionNames); }
private Set<String> initUnmatchedProcessorOptions() { Set<String> unmatchedProcessorOptions = new HashSet<String>(); unmatchedProcessorOptions.addAll(processorOptions.keySet()); return unmatchedProcessorOptions; }
private void warnIfUnmatchedOptions() { if (!unmatchedProcessorOptions.isEmpty()) { log.warning("proc.unmatched.processor.options", unmatchedProcessorOptions.toString()); } }
// TODO: internal catch clauses?; catch and rethrow an annotation // processing error public JavaCompiler doProcessing( Context context, List<JCCompilationUnit> roots, List<ClassSymbol> classSymbols, Iterable<? extends PackageSymbol> pckSymbols) { TaskListener taskListener = context.get(TaskListener.class); log = Log.instance(context); Set<PackageSymbol> specifiedPackages = new LinkedHashSet<PackageSymbol>(); for (PackageSymbol psym : pckSymbols) specifiedPackages.add(psym); this.specifiedPackages = Collections.unmodifiableSet(specifiedPackages); Round round = new Round(context, roots, classSymbols); boolean errorStatus; boolean moreToDo; do { // Run processors for round n round.run(false, false); // Processors for round n have run to completion. // Check for errors and whether there is more work to do. errorStatus = round.unrecoverableError(); moreToDo = moreToDo(); round.showDiagnostics(errorStatus || showResolveErrors); // Set up next round. // Copy mutable collections returned from filer. round = round.next( new LinkedHashSet<JavaFileObject>(filer.getGeneratedSourceFileObjects()), new LinkedHashMap<String, JavaFileObject>(filer.getGeneratedClasses())); // Check for errors during setup. if (round.unrecoverableError()) errorStatus = true; } while (moreToDo && !errorStatus); // run last round round.run(true, errorStatus); round.showDiagnostics(true); filer.warnIfUnclosedFiles(); warnIfUnmatchedOptions(); /* * If an annotation processor raises an error in a round, * that round runs to completion and one last round occurs. * The last round may also occur because no more source or * class files have been generated. Therefore, if an error * was raised on either of the last *two* rounds, the compile * should exit with a nonzero exit code. The current value of * errorStatus holds whether or not an error was raised on the * second to last round; errorRaised() gives the error status * of the last round. */ if (messager.errorRaised() || werror && round.warningCount() > 0 && round.errorCount() > 0) errorStatus = true; Set<JavaFileObject> newSourceFiles = new LinkedHashSet<JavaFileObject>(filer.getGeneratedSourceFileObjects()); roots = cleanTrees(round.roots); JavaCompiler compiler = round.finalCompiler(errorStatus); if (newSourceFiles.size() > 0) roots = roots.appendList(compiler.parseFiles(newSourceFiles)); errorStatus = errorStatus || (compiler.errorCount() > 0); // Free resources this.close(); if (taskListener != null) taskListener.finished(new TaskEvent(TaskEvent.Kind.ANNOTATION_PROCESSING)); if (errorStatus) { if (compiler.errorCount() == 0) compiler.log.nerrors++; return compiler; } if (procOnly && !foundTypeProcessors) { compiler.todo.clear(); } else { if (procOnly && foundTypeProcessors) compiler.shouldStopPolicy = CompileState.FLOW; compiler.enterTrees(roots); } return compiler; }