/* * Copyright (C) 2009-2019 The Project Lombok Authors. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ package lombok.javac; import java.lang.reflect.Field; import java.lang.reflect.Method; import java.net.URI; import java.util.ArrayList; import java.util.Collection; import java.util.Collections; import java.util.List; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentMap; import javax.annotation.processing.Messager; import javax.tools.Diagnostic; import javax.tools.JavaFileObject; import com.sun.tools.javac.util.JCDiagnostic; import lombok.core.AST; import lombok.core.CleanupRegistry; import lombok.core.CleanupTask; import lombok.permit.Permit; import com.sun.tools.javac.code.Source; import com.sun.tools.javac.code.Symtab; import com.sun.tools.javac.model.JavacElements; import com.sun.tools.javac.model.JavacTypes; import com.sun.tools.javac.tree.JCTree; import com.sun.tools.javac.tree.JCTree.JCAnnotation; import com.sun.tools.javac.tree.JCTree.JCArrayTypeTree; import com.sun.tools.javac.tree.JCTree.JCBlock; import com.sun.tools.javac.tree.JCTree.JCCatch; import com.sun.tools.javac.tree.JCTree.JCClassDecl; import com.sun.tools.javac.tree.JCTree.JCCompilationUnit; import com.sun.tools.javac.tree.JCTree.JCExpression; import com.sun.tools.javac.tree.JCTree.JCFieldAccess; import com.sun.tools.javac.tree.JCTree.JCIdent; import com.sun.tools.javac.tree.JCTree.JCMethodDecl; import com.sun.tools.javac.tree.JCTree.JCStatement; import com.sun.tools.javac.tree.JCTree.JCTry; import com.sun.tools.javac.tree.JCTree.JCVariableDecl; import com.sun.tools.javac.tree.JCTree.JCWildcard; import com.sun.tools.javac.tree.TreeMaker; import com.sun.tools.javac.util.Context; import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition; import com.sun.tools.javac.util.Log; import com.sun.tools.javac.util.Name; /** * Wraps around javac's internal AST view to add useful features as well as the ability to visit parents from children, * something javac's own AST system does not offer. */ public class JavacAST extends AST { private final CleanupRegistry cleanup; private final JavacElements elements; private final JavacTreeMaker treeMaker; private final Symtab symtab; private final JavacTypes javacTypes; private final Log log; private final ErrorLog errorLogger; private final Context context; /** * Creates a new JavacAST of the provided Compilation Unit. * * @param messager A Messager for warning and error reporting. * @param context A Context object for interfacing with the compiler. * @param top The compilation unit, which serves as the top level node in the tree to be built. */ public JavacAST(Messager messager, Context context, JCCompilationUnit top, CleanupRegistry cleanup) { super(sourceName(top), PackageName.getPackageName(top), new JavacImportList(top), statementTypes()); setTop(buildCompilationUnit(top)); this.context = context; this.log = Log.instance(context); this.errorLogger = ErrorLog.create(messager, log); this.elements = JavacElements.instance(context); this.treeMaker = new JavacTreeMaker(TreeMaker.instance(context)); this.symtab = Symtab.instance(context); this.javacTypes = JavacTypes.instance(context); this.cleanup = cleanup; clearChanged(); } @Override public URI getAbsoluteFileLocation() { return getAbsoluteFileLocation((JCCompilationUnit) top().get()); } public static URI getAbsoluteFileLocation(JCCompilationUnit cu) { try { return cu.sourcefile.toUri(); } catch (Exception e) { return null; } } private static String sourceName(JCCompilationUnit cu) { return cu.sourcefile == null ? null : cu.sourcefile.toString(); } public Context getContext() { return context; } /** * Runs through the entire AST, starting at the compilation unit, calling the provided visitor's visit methods * for each node, depth first. */ public void traverse(JavacASTVisitor visitor) { top().traverse(visitor); } void traverseChildren(JavacASTVisitor visitor, JavacNode node) { for (JavacNode child : node.down()) child.traverse(visitor); } @Override public int getSourceVersion() { try { String nm = Source.instance(context).name(); int underscoreIdx = nm.indexOf('_'); if (underscoreIdx > -1) return Integer.parseInt(nm.substring(underscoreIdx + 1)); // assume java9+ return Integer.parseInt(nm); } catch (Exception ignore) {} return 6; } @Override public int getLatestJavaSpecSupported() { return Javac.getJavaCompilerVersion(); } public void cleanupTask(String key, JCTree target, CleanupTask task) { cleanup.registerTask(key, target, task); } /** @return A Name object generated for the proper name table belonging to this AST. */ public Name toName(String name) { return elements.getName(name); } /** @return A TreeMaker instance that you can use to create new AST nodes. */ public JavacTreeMaker getTreeMaker() { treeMaker.at(-1); return treeMaker; } /** @return The symbol table used by this AST for symbols. */ public Symtab getSymbolTable() { return symtab; } /** * @return The implementation of {@link javax.lang.model.util.Types} of javac. Contains a few extra methods beyond * the ones listed in the official annotation API interface. */ public JavacTypes getTypesUtil() { return javacTypes; } /** {@inheritDoc} */ @Override protected JavacNode buildTree(JCTree node, Kind kind) { switch (kind) { case COMPILATION_UNIT: return buildCompilationUnit((JCCompilationUnit) node); case TYPE: return buildType((JCClassDecl) node); case FIELD: return buildField((JCVariableDecl) node); case INITIALIZER: return buildInitializer((JCBlock) node); case METHOD: return buildMethod((JCMethodDecl) node); case ARGUMENT: return buildLocalVar((JCVariableDecl) node, kind); case LOCAL: return buildLocalVar((JCVariableDecl) node, kind); case STATEMENT: return buildStatementOrExpression(node); case ANNOTATION: return buildAnnotation((JCAnnotation) node, false); case TYPE_USE: return buildTypeUse(node); default: throw new AssertionError("Did not expect: " + kind); } } private JavacNode buildCompilationUnit(JCCompilationUnit top) { List childNodes = new ArrayList(); for (JCTree s : top.defs) { if (s instanceof JCClassDecl) { addIfNotNull(childNodes, buildType((JCClassDecl) s)); } // else they are import statements, which we don't care about. Or Skip objects, whatever those are. } return new JavacNode(this, top, childNodes, Kind.COMPILATION_UNIT); } private JavacNode buildType(JCClassDecl type) { if (setAndGetAsHandled(type)) return null; List childNodes = new ArrayList(); for (JCAnnotation annotation : type.mods.annotations) addIfNotNull(childNodes, buildAnnotation(annotation, false)); for (JCTree def : type.defs) { /* A def can be: * JCClassDecl for inner types * JCMethodDecl for constructors and methods * JCVariableDecl for fields * JCBlock for (static) initializers */ if (def instanceof JCMethodDecl) addIfNotNull(childNodes, buildMethod((JCMethodDecl) def)); else if (def instanceof JCClassDecl) addIfNotNull(childNodes, buildType((JCClassDecl) def)); else if (def instanceof JCVariableDecl) addIfNotNull(childNodes, buildField((JCVariableDecl) def)); else if (def instanceof JCBlock) addIfNotNull(childNodes, buildInitializer((JCBlock) def)); } return putInMap(new JavacNode(this, type, childNodes, Kind.TYPE)); } private JavacNode buildField(JCVariableDecl field) { if (setAndGetAsHandled(field)) return null; List childNodes = new ArrayList(); for (JCAnnotation annotation : field.mods.annotations) addIfNotNull(childNodes, buildAnnotation(annotation, true)); addIfNotNull(childNodes, buildTypeUse(field.vartype)); addIfNotNull(childNodes, buildExpression(field.init)); return putInMap(new JavacNode(this, field, childNodes, Kind.FIELD)); } private JavacNode buildLocalVar(JCVariableDecl local, Kind kind) { if (setAndGetAsHandled(local)) return null; List childNodes = new ArrayList(); for (JCAnnotation annotation : local.mods.annotations) addIfNotNull(childNodes, buildAnnotation(annotation, true)); addIfNotNull(childNodes, buildTypeUse(local.vartype)); addIfNotNull(childNodes, buildExpression(local.init)); return putInMap(new JavacNode(this, local, childNodes, kind)); } private JavacNode buildTypeUse(JCTree typeUse) { if (setAndGetAsHandled(typeUse)) return null; if (typeUse == null) return null; if (typeUse.getClass().getName().equals("com.sun.tools.javac.tree.JCTree$JCAnnotatedType")) { initJcAnnotatedType(typeUse.getClass()); Collection anns = Permit.permissiveReadField(Collection.class, JCANNOTATEDTYPE_ANNOTATIONS, typeUse); JCExpression underlying = Permit.permissiveReadField(JCExpression.class, JCANNOTATEDTYPE_UNDERLYINGTYPE, typeUse); List childNodes = new ArrayList(); if (anns != null) for (Object annotation : anns) if (annotation instanceof JCAnnotation) addIfNotNull(childNodes, buildAnnotation((JCAnnotation) annotation, true)); addIfNotNull(childNodes, buildTypeUse(underlying)); return putInMap(new JavacNode(this, typeUse, childNodes, Kind.TYPE_USE)); } if (typeUse instanceof JCWildcard) { JCTree inner = ((JCWildcard) typeUse).inner; List childNodes = inner == null ? Collections.emptyList() : new ArrayList(); if (inner != null) addIfNotNull(childNodes, buildTypeUse(inner)); return putInMap(new JavacNode(this, typeUse, childNodes, Kind.TYPE_USE)); } if (typeUse instanceof JCArrayTypeTree) { JCTree inner = ((JCArrayTypeTree) typeUse).elemtype; List childNodes = inner == null ? Collections.emptyList() : new ArrayList(); if (inner != null) addIfNotNull(childNodes, buildTypeUse(inner)); return putInMap(new JavacNode(this, typeUse, childNodes, Kind.TYPE_USE)); } if (typeUse instanceof JCFieldAccess) { JCTree inner = ((JCFieldAccess) typeUse).selected; List childNodes = inner == null ? Collections.emptyList() : new ArrayList(); if (inner != null) addIfNotNull(childNodes, buildTypeUse(inner)); return putInMap(new JavacNode(this, typeUse, childNodes, Kind.TYPE_USE)); } if (typeUse instanceof JCIdent) { return putInMap(new JavacNode(this, typeUse, Collections.emptyList(), Kind.TYPE_USE)); } return null; } private static boolean JCTRY_RESOURCES_FIELD_INITIALIZED = false; private static Field JCTRY_RESOURCES_FIELD; @SuppressWarnings("unchecked") private static List getResourcesForTryNode(JCTry tryNode) { if (!JCTRY_RESOURCES_FIELD_INITIALIZED) { JCTRY_RESOURCES_FIELD = Permit.permissiveGetField(JCTry.class, "resources"); JCTRY_RESOURCES_FIELD_INITIALIZED = true; } if (JCTRY_RESOURCES_FIELD == null) return Collections.emptyList(); Object rv = null; try { rv = JCTRY_RESOURCES_FIELD.get(tryNode); } catch (Exception ignore) {} if (rv instanceof List) return (List) rv; return Collections.emptyList(); } private static boolean JCANNOTATEDTYPE_FIELDS_INITIALIZED = false; private static Field JCANNOTATEDTYPE_ANNOTATIONS, JCANNOTATEDTYPE_UNDERLYINGTYPE; private static void initJcAnnotatedType(Class context) { if (JCANNOTATEDTYPE_FIELDS_INITIALIZED) return; JCANNOTATEDTYPE_ANNOTATIONS = Permit.permissiveGetField(context, "annotations"); JCANNOTATEDTYPE_UNDERLYINGTYPE = Permit.permissiveGetField(context, "underlyingType"); JCANNOTATEDTYPE_FIELDS_INITIALIZED = true; } private JavacNode buildTry(JCTry tryNode) { if (setAndGetAsHandled(tryNode)) return null; List childNodes = new ArrayList(); for (JCTree varDecl : getResourcesForTryNode(tryNode)) { if (varDecl instanceof JCVariableDecl) { addIfNotNull(childNodes, buildLocalVar((JCVariableDecl) varDecl, Kind.LOCAL)); } } addIfNotNull(childNodes, buildStatement(tryNode.body)); for (JCCatch jcc : tryNode.catchers) addIfNotNull(childNodes, buildTree(jcc, Kind.STATEMENT)); addIfNotNull(childNodes, buildStatement(tryNode.finalizer)); return putInMap(new JavacNode(this, tryNode, childNodes, Kind.STATEMENT)); } private JavacNode buildInitializer(JCBlock initializer) { if (setAndGetAsHandled(initializer)) return null; List childNodes = new ArrayList(); for (JCStatement statement: initializer.stats) addIfNotNull(childNodes, buildStatement(statement)); return putInMap(new JavacNode(this, initializer, childNodes, Kind.INITIALIZER)); } private JavacNode buildMethod(JCMethodDecl method) { if (setAndGetAsHandled(method)) return null; List childNodes = new ArrayList(); for (JCAnnotation annotation : method.mods.annotations) addIfNotNull(childNodes, buildAnnotation(annotation, false)); for (JCVariableDecl param : method.params) addIfNotNull(childNodes, buildLocalVar(param, Kind.ARGUMENT)); if (method.body != null && method.body.stats != null) { for (JCStatement statement : method.body.stats) addIfNotNull(childNodes, buildStatement(statement)); } return putInMap(new JavacNode(this, method, childNodes, Kind.METHOD)); } private JavacNode buildAnnotation(JCAnnotation annotation, boolean varDecl) { boolean handled = setAndGetAsHandled(annotation); if (!varDecl && handled) { // @Foo int x, y; is handled in javac by putting the same annotation node on 2 JCVariableDecls. return null; } return putInMap(new JavacNode(this, annotation, null, Kind.ANNOTATION)); } private JavacNode buildExpression(JCExpression expression) { return buildStatementOrExpression(expression); } private JavacNode buildStatement(JCStatement statement) { return buildStatementOrExpression(statement); } private JavacNode buildStatementOrExpression(JCTree statement) { if (statement == null) return null; if (statement instanceof JCAnnotation) return null; if (statement instanceof JCClassDecl) return buildType((JCClassDecl) statement); if (statement instanceof JCVariableDecl) return buildLocalVar((JCVariableDecl) statement, Kind.LOCAL); if (statement instanceof JCTry) return buildTry((JCTry) statement); if (statement.getClass().getName().equals("com.sun.tools.javac.tree.JCTree$JCLambda")) return buildLambda(statement); if (setAndGetAsHandled(statement)) return null; return drill(statement); } private JavacNode buildLambda(JCTree jcTree) { return buildStatementOrExpression(getBody(jcTree)); } private JCTree getBody(JCTree jcTree) { try { return (JCTree) getBodyMethod(jcTree.getClass()).invoke(jcTree); } catch (Exception e) { throw Javac.sneakyThrow(e); } } private final static ConcurrentMap, Method> getBodyMethods = new ConcurrentHashMap, Method>(); private Method getBodyMethod(Class c) { Method m = getBodyMethods.get(c); if (m != null) { return m; } try { m = Permit.getMethod(c, "getBody"); } catch (NoSuchMethodException e) { throw Javac.sneakyThrow(e); } getBodyMethods.putIfAbsent(c, m); return getBodyMethods.get(c); } private JavacNode drill(JCTree statement) { try { List childNodes = new ArrayList(); for (FieldAccess fa : fieldsOf(statement.getClass())) childNodes.addAll(buildWithField(JavacNode.class, statement, fa)); return putInMap(new JavacNode(this, statement, childNodes, Kind.STATEMENT)); } catch (OutOfMemoryError oome) { String msg = oome.getMessage(); if (msg == null) msg = "(no original message)"; OutOfMemoryError newError = new OutOfMemoryError(getFileName() + "@pos" + statement.getPreferredPosition() + ": " + msg); // We could try to set the stack trace of the new exception to the same one as the old exception, but this costs memory, // and we're already in an extremely fragile situation in regards to remaining heap space, so let's not do that. throw newError; } } /* For javac, both JCExpression and JCStatement are considered as valid children types. */ private static Collection> statementTypes() { Collection> collection = new ArrayList>(3); collection.add(JCStatement.class); collection.add(JCExpression.class); collection.add(JCCatch.class); return collection; } private static void addIfNotNull(Collection nodes, JavacNode node) { if (node != null) nodes.add(node); } /** * Attempts to remove any compiler errors generated by java whose reporting position is located anywhere between the start and end of the supplied node. */ void removeDeferredErrors(JavacNode node) { DiagnosticPosition pos = node.get().pos(); JCCompilationUnit top = (JCCompilationUnit) top().get(); removeFromDeferredDiagnostics(pos.getStartPosition(), Javac.getEndPosition(pos, top)); } /** Supply either a position or a node (in that case, position of the node is used) */ void printMessage(Diagnostic.Kind kind, String message, JavacNode node, DiagnosticPosition pos, boolean attemptToRemoveErrorsInRange) { JavaFileObject oldSource = null; JavaFileObject newSource = null; JCTree astObject = node == null ? null : node.get(); JCCompilationUnit top = (JCCompilationUnit) top().get(); newSource = top.sourcefile; if (newSource != null) { oldSource = log.useSource(newSource); if (pos == null) pos = astObject.pos(); } if (pos != null && node != null && attemptToRemoveErrorsInRange) { removeFromDeferredDiagnostics(pos.getStartPosition(), node.getEndPosition(pos)); } try { switch (kind) { case ERROR: errorLogger.error(pos, message); break; case MANDATORY_WARNING: errorLogger.mandatoryWarning(pos, message); break; case WARNING: errorLogger.warning(pos, message); break; default: case NOTE: errorLogger.note(pos, message); break; } } finally { if (newSource != null) log.useSource(oldSource); } } public void removeFromDeferredDiagnostics(int startPos, int endPos) { JCCompilationUnit self = (JCCompilationUnit) top().get(); new CompilerMessageSuppressor(getContext()).removeAllBetween(self.sourcefile, startPos, endPos); } /** {@inheritDoc} */ @Override protected void setElementInASTCollection(Field field, Object refField, List> chain, Collection collection, int idx, JCTree newN) throws IllegalAccessException { com.sun.tools.javac.util.List list = setElementInConsList(chain, collection, ((List)collection).get(idx), newN); field.set(refField, list); } private com.sun.tools.javac.util.List setElementInConsList(List> chain, Collection current, Object oldO, Object newO) { com.sun.tools.javac.util.List oldL = (com.sun.tools.javac.util.List) current; com.sun.tools.javac.util.List newL = replaceInConsList(oldL, oldO, newO); if (chain.isEmpty()) return newL; List> reducedChain = new ArrayList>(chain); Collection newCurrent = reducedChain.remove(reducedChain.size() -1); return setElementInConsList(reducedChain, newCurrent, oldL, newL); } private com.sun.tools.javac.util.List replaceInConsList(com.sun.tools.javac.util.List oldL, Object oldO, Object newO) { boolean repl = false; Object[] a = oldL.toArray(); for (int i = 0; i < a.length; i++) { if (a[i] == oldO) { a[i] = newO; repl = true; } } if (repl) return com.sun.tools.javac.util.List.from(a); return oldL; } abstract static class ErrorLog { final Log log; private final Messager messager; private final Field errorCount; private final Field warningCount; private ErrorLog(Log log, Messager messager, Field errorCount, Field warningCount) { this.log = log; this.messager = messager; this.errorCount = errorCount; this.warningCount = warningCount; } final void error(DiagnosticPosition pos, String message) { increment(errorCount); error1(pos, message); } final void warning(DiagnosticPosition pos, String message) { increment(warningCount); warning1(pos, message); } final void mandatoryWarning(DiagnosticPosition pos, String message) { increment(warningCount); mandatoryWarning1(pos, message); } abstract void error1(DiagnosticPosition pos, String message); abstract void warning1(DiagnosticPosition pos, String message); abstract void mandatoryWarning1(DiagnosticPosition pos, String message); abstract void note(DiagnosticPosition pos, String message); private void increment(Field field) { if (field == null) return; try { int val = ((Number)field.get(messager)).intValue(); field.set(messager, val +1); } catch (Throwable t) { //Very unfortunate, but in most cases it still works fine, so we'll silently swallow it. } } static ErrorLog create(Messager messager, Log log) { Field errorCount; try { errorCount = Permit.getField(messager.getClass(), "errorCount"); } catch (Throwable t) { errorCount = null; } boolean hasMultipleErrors = false; for (Field field : log.getClass().getFields()) { if (field.getName().equals("multipleErrors")) { hasMultipleErrors = true; break; } } if (hasMultipleErrors) return new JdkBefore9(log, messager, errorCount); Field warningCount; try { warningCount = Permit.getField(messager.getClass(), "warningCount"); } catch (Throwable t) { warningCount = null; } return new Jdk9Plus(log, messager, errorCount, warningCount); } } static class JdkBefore9 extends ErrorLog { private JdkBefore9(Log log, Messager messager, Field errorCount) { super(log, messager, errorCount, null); } @Override void error1(DiagnosticPosition pos, String message) { boolean prev = log.multipleErrors; log.multipleErrors = true; try { log.error(pos, "proc.messager", message); } finally { log.multipleErrors = prev; } } @Override void warning1(DiagnosticPosition pos, String message) { log.warning(pos, "proc.messager", message); } @Override void mandatoryWarning1(DiagnosticPosition pos, String message) { log.mandatoryWarning(pos, "proc.messager", message); } @Override void note(DiagnosticPosition pos, String message) { log.note(pos, "proc.messager", message); } } static class Jdk9Plus extends ErrorLog { private static final String PROC_MESSAGER = "proc.messager"; private Object multiple; private Method errorMethod, warningMethod, mandatoryWarningMethod, noteMethod; private Method errorKey, warningKey, noteKey; private JCDiagnostic.Factory diags; private Jdk9Plus(Log log, Messager messager, Field errorCount, Field warningCount) { super(log, messager, errorCount, warningCount); try { final String jcd = "com.sun.tools.javac.util.JCDiagnostic"; Class df = Class.forName(jcd + "$DiagnosticFlag"); for (Object constant : df.getEnumConstants()) { if (constant.toString().equals("MULTIPLE")) this.multiple = constant; } Class errorCls = Class.forName(jcd + "$Error"); Class warningCls = Class.forName(jcd + "$Warning"); Class noteCls = Class.forName(jcd + "$Note"); Class lc = log.getClass(); this.errorMethod = Permit.getMethod(lc, "error", df, DiagnosticPosition.class, errorCls); this.warningMethod = Permit.getMethod(lc, "warning", DiagnosticPosition.class, warningCls); this.mandatoryWarningMethod = Permit.getMethod(lc, "mandatoryWarning", DiagnosticPosition.class, warningCls); this.noteMethod = Permit.getMethod(lc, "note", DiagnosticPosition.class, noteCls); Field diagsField = Permit.getField(lc.getSuperclass(), "diags"); this.diags = (JCDiagnostic.Factory) diagsField.get(log); Class dc = this.diags.getClass(); this.errorKey = Permit.getMethod(dc, "errorKey", String.class, Object[].class); this.warningKey = Permit.getMethod(dc, "warningKey", String.class, Object[].class); this.noteKey = Permit.getMethod(dc, "noteKey", String.class, Object[].class); } catch (Throwable t) { //t.printStackTrace(); } } @Override void error1(DiagnosticPosition pos, String message) { try { Object error = this.errorKey.invoke(diags, PROC_MESSAGER, new Object[] { message }); errorMethod.invoke(log, multiple, pos, error); } catch (Throwable t) { //t.printStackTrace(); } } @Override void warning1(DiagnosticPosition pos, String message) { try { Object warning = this.warningKey.invoke(diags, PROC_MESSAGER, new Object[] { message }); warningMethod.invoke(log, pos, warning); } catch (Throwable t) { //t.printStackTrace(); } } @Override void mandatoryWarning1(DiagnosticPosition pos, String message) { try { Object warning = this.warningKey.invoke(diags, PROC_MESSAGER, new Object[] { message }); mandatoryWarningMethod.invoke(log, pos, warning); } catch (Throwable t) { //t.printStackTrace(); } } @Override void note(DiagnosticPosition pos, String message) { try { Object note = this.noteKey.invoke(diags, PROC_MESSAGER, new Object[] { message }); noteMethod.invoke(log, pos, note); } catch (Throwable t) { //t.printStackTrace(); } } } }