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Groovy: A powerful, dynamic language for the JVM
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.codehaus.groovy.classgen;
import java.util.HashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import org.codehaus.groovy.ast.*;
import org.codehaus.groovy.ast.expr.BinaryExpression;
import org.codehaus.groovy.ast.expr.ConstantExpression;
import org.codehaus.groovy.ast.expr.DeclarationExpression;
import org.codehaus.groovy.ast.expr.Expression;
import org.codehaus.groovy.ast.expr.GStringExpression;
import org.codehaus.groovy.ast.expr.MapEntryExpression;
import org.codehaus.groovy.ast.expr.MethodCallExpression;
import org.codehaus.groovy.ast.expr.PropertyExpression;
import org.codehaus.groovy.ast.expr.TupleExpression;
import org.codehaus.groovy.ast.expr.VariableExpression;
import org.codehaus.groovy.ast.stmt.CatchStatement;
import org.codehaus.groovy.ast.tools.ClassNodeUtils;
import org.codehaus.groovy.ast.tools.GeneralUtils;
import org.codehaus.groovy.control.SourceUnit;
import org.codehaus.groovy.runtime.MetaClassHelper;
import org.codehaus.groovy.syntax.Types;
import org.codehaus.groovy.transform.trait.Traits;
import static java.lang.reflect.Modifier.*;
import static org.objectweb.asm.Opcodes.*;
/**
* ClassCompletionVerifier
*/
public class ClassCompletionVerifier extends ClassCodeVisitorSupport {
private ClassNode currentClass;
private SourceUnit source;
private boolean inConstructor = false;
private boolean inStaticConstructor = false;
public ClassCompletionVerifier(SourceUnit source) {
this.source = source;
}
public ClassNode getClassNode() {
return currentClass;
}
public void visitClass(ClassNode node) {
ClassNode oldClass = currentClass;
currentClass = node;
checkImplementsAndExtends(node);
if (source != null && !source.getErrorCollector().hasErrors()) {
checkClassForIncorrectModifiers(node);
checkInterfaceMethodVisibility(node);
checkAbstractMethodVisibility(node);
checkClassForOverwritingFinal(node);
checkMethodsForIncorrectModifiers(node);
checkMethodsForWeakerAccess(node);
checkMethodsForOverridingFinal(node);
checkNoAbstractMethodsNonabstractClass(node);
checkClassExtendsAllSelfTypes(node);
checkNoStaticMethodWithSameSignatureAsNonStatic(node);
checkGenericsUsage(node, node.getUnresolvedInterfaces());
checkGenericsUsage(node, node.getUnresolvedSuperClass());
}
super.visitClass(node);
currentClass = oldClass;
}
private void checkNoStaticMethodWithSameSignatureAsNonStatic(final ClassNode node) {
ClassNode parent = node.getSuperClass();
Map result;
// start with methods from the parent if any
if (parent != null) {
result = parent.getDeclaredMethodsMap();
} else {
result = new HashMap();
}
// add in unimplemented abstract methods from the interfaces
ClassNodeUtils.addInterfaceMethods(node, result);
for (MethodNode methodNode : node.getMethods()) {
MethodNode mn = result.get(methodNode.getTypeDescriptor());
if (mn != null && (mn.isStatic() ^ methodNode.isStatic()) && !methodNode.isStaticConstructor()) {
if (!mn.isAbstract()) continue;
ClassNode declaringClass = mn.getDeclaringClass();
ClassNode cn = declaringClass.getOuterClass();
if (cn == null && declaringClass.isResolved()) {
// in case of a precompiled class, the outerclass is unknown
Class typeClass = declaringClass.getTypeClass();
typeClass = typeClass.getEnclosingClass();
if (typeClass != null) {
cn = ClassHelper.make(typeClass);
}
}
if (cn == null || !Traits.isTrait(cn)) {
ASTNode errorNode = methodNode;
String name = mn.getName();
if (errorNode.getLineNumber() == -1) {
// try to get a better error message location based on the property
for (PropertyNode propertyNode : node.getProperties()) {
if (name.startsWith("set") || name.startsWith("get") || name.startsWith("is")) {
String propName = Verifier.capitalize(propertyNode.getField().getName());
String shortName = name.substring(name.startsWith("is") ? 2 : 3);
if (propName.equals(shortName)) {
errorNode = propertyNode;
break;
}
}
}
}
addError("The " + getDescription(methodNode) + " is already defined in " + getDescription(node) +
". You cannot have both a static and an instance method with the same signature", errorNode);
}
}
result.put(methodNode.getTypeDescriptor(), methodNode);
}
}
private void checkInterfaceMethodVisibility(ClassNode node) {
if (!node.isInterface()) return;
for (MethodNode method : node.getMethods()) {
if (method.isPrivate()) {
addError("Method '" + method.getName() + "' is private but should be public in " + getDescription(currentClass) + ".", method);
} else if (method.isProtected()) {
addError("Method '" + method.getName() + "' is protected but should be public in " + getDescription(currentClass) + ".", method);
}
}
}
private void checkAbstractMethodVisibility(ClassNode node) {
// we only do check abstract classes (including enums), no interfaces or non-abstract classes
if (!isAbstract(node.getModifiers()) || isInterface(node.getModifiers())) return;
List abstractMethods = node.getAbstractMethods();
if (abstractMethods == null || abstractMethods.isEmpty()) return;
for (MethodNode method : abstractMethods) {
if (method.isPrivate()) {
addError("Method '" + method.getName() + "' from " + getDescription(node) +
" must not be private as it is declared as an abstract method.", method);
}
}
}
private void checkNoAbstractMethodsNonabstractClass(ClassNode node) {
if (isAbstract(node.getModifiers())) return;
List abstractMethods = node.getAbstractMethods();
if (abstractMethods == null) return;
for (MethodNode method : abstractMethods) {
MethodNode sameArgsMethod = node.getMethod(method.getName(), method.getParameters());
if (sameArgsMethod==null || method.getReturnType().equals(sameArgsMethod.getReturnType())) {
addError("Can't have an abstract method in a non-abstract class." +
" The " + getDescription(node) + " must be declared abstract or" +
" the " + getDescription(method) + " must be implemented.", node);
} else {
addError("Abstract "+getDescription(method)+" is not implemented but a " +
"method of the same name but different return type is defined: "+
(sameArgsMethod.isStatic()?"static ":"")+
getDescription(sameArgsMethod), method
);
}
}
}
private void checkClassExtendsAllSelfTypes(ClassNode node) {
int modifiers = node.getModifiers();
if (!isInterface(modifiers)) {
for (ClassNode anInterface : GeneralUtils.getInterfacesAndSuperInterfaces(node)) {
if (Traits.isTrait(anInterface)) {
LinkedHashSet selfTypes = new LinkedHashSet();
for (ClassNode type : Traits.collectSelfTypes(anInterface, selfTypes, true, false)) {
if (type.isInterface() && !node.implementsInterface(type)) {
addError(getDescription(node)
+ " implements " + getDescription(anInterface)
+ " but does not implement self type " + getDescription(type),
anInterface);
} else if (!type.isInterface() && !node.isDerivedFrom(type)) {
addError(getDescription(node)
+ " implements " + getDescription(anInterface)
+ " but does not extend self type " + getDescription(type),
anInterface);
}
}
}
}
}
}
private void checkClassForIncorrectModifiers(ClassNode node) {
checkClassForAbstractAndFinal(node);
checkClassForOtherModifiers(node);
}
private void checkClassForAbstractAndFinal(ClassNode node) {
if (!isAbstract(node.getModifiers())) return;
if (!isFinal(node.getModifiers())) return;
if (node.isInterface()) {
addError("The " + getDescription(node) + " must not be final. It is by definition abstract.", node);
} else {
addError("The " + getDescription(node) + " must not be both final and abstract.", node);
}
}
private void checkClassForOtherModifiers(ClassNode node) {
checkClassForModifier(node, isTransient(node.getModifiers()), "transient");
checkClassForModifier(node, isVolatile(node.getModifiers()), "volatile");
checkClassForModifier(node, isNative(node.getModifiers()), "native");
if (!(node instanceof InnerClassNode)) {
checkClassForModifier(node, isStatic(node.getModifiers()), "static");
checkClassForModifier(node, isPrivate(node.getModifiers()), "private");
}
// don't check synchronized here as it overlaps with ACC_SUPER
}
private void checkMethodForModifier(MethodNode node, boolean condition, String modifierName) {
if (!condition) return;
addError("The " + getDescription(node) + " has an incorrect modifier " + modifierName + ".", node);
}
private void checkClassForModifier(ClassNode node, boolean condition, String modifierName) {
if (!condition) return;
addError("The " + getDescription(node) + " has an incorrect modifier " + modifierName + ".", node);
}
private static String getDescription(ClassNode node) {
return (node.isInterface() ? (Traits.isTrait(node)?"trait":"interface") : "class") + " '" + node.getName() + "'";
}
private static String getDescription(MethodNode node) {
return "method '" + node.getTypeDescriptor() + "'";
}
private static String getDescription(FieldNode node) {
return "field '" + node.getName() + "'";
}
private void checkAbstractDeclaration(MethodNode methodNode) {
if (!methodNode.isAbstract()) return;
if (isAbstract(currentClass.getModifiers())) return;
addError("Can't have an abstract method in a non-abstract class." +
" The " + getDescription(currentClass) + " must be declared abstract or the method '" +
methodNode.getTypeDescriptor() + "' must not be abstract.", methodNode);
}
private void checkClassForOverwritingFinal(ClassNode cn) {
ClassNode superCN = cn.getSuperClass();
if (superCN == null) return;
if (!isFinal(superCN.getModifiers())) return;
StringBuilder msg = new StringBuilder();
msg.append("You are not allowed to overwrite the final ");
msg.append(getDescription(superCN));
msg.append(".");
addError(msg.toString(), cn);
}
private void checkImplementsAndExtends(ClassNode node) {
ClassNode cn = node.getSuperClass();
if (cn.isInterface() && !node.isInterface()) {
addError("You are not allowed to extend the " + getDescription(cn) + ", use implements instead.", node);
}
for (ClassNode anInterface : node.getInterfaces()) {
cn = anInterface;
if (!cn.isInterface()) {
addError("You are not allowed to implement the " + getDescription(cn) + ", use extends instead.", node);
}
}
}
private void checkMethodsForIncorrectModifiers(ClassNode cn) {
if (!cn.isInterface()) return;
for (MethodNode method : cn.getMethods()) {
if (method.isFinal()) {
addError("The " + getDescription(method) + " from " + getDescription(cn) +
" must not be final. It is by definition abstract.", method);
}
if (method.isStatic() && !isConstructor(method)) {
addError("The " + getDescription(method) + " from " + getDescription(cn) +
" must not be static. Only fields may be static in an interface.", method);
}
}
}
private void checkMethodsForWeakerAccess(ClassNode cn) {
for (MethodNode method : cn.getMethods()) {
checkMethodForWeakerAccessPrivileges(method, cn);
}
}
private static boolean isConstructor(MethodNode method) {
return method.getName().equals("");
}
private void checkMethodsForOverridingFinal(ClassNode cn) {
for (MethodNode method : cn.getMethods()) {
Parameter[] params = method.getParameters();
for (MethodNode superMethod : cn.getSuperClass().getMethods(method.getName())) {
Parameter[] superParams = superMethod.getParameters();
if (!hasEqualParameterTypes(params, superParams)) continue;
if (!superMethod.isFinal()) break;
addInvalidUseOfFinalError(method, params, superMethod.getDeclaringClass());
return;
}
}
}
private void addInvalidUseOfFinalError(MethodNode method, Parameter[] parameters, ClassNode superCN) {
StringBuilder msg = new StringBuilder();
msg.append("You are not allowed to override the final method ").append(method.getName());
appendParamsDescription(parameters, msg);
msg.append(" from ").append(getDescription(superCN));
msg.append(".");
addError(msg.toString(), method);
}
private void appendParamsDescription(Parameter[] parameters, StringBuilder msg) {
msg.append("(");
boolean needsComma = false;
for (Parameter parameter : parameters) {
if (needsComma) {
msg.append(",");
} else {
needsComma = true;
}
msg.append(parameter.getType());
}
msg.append(")");
}
private void addWeakerAccessError(ClassNode cn, MethodNode method, Parameter[] parameters, MethodNode superMethod) {
StringBuilder msg = new StringBuilder();
msg.append(method.getName());
appendParamsDescription(parameters, msg);
msg.append(" in ");
msg.append(cn.getName());
msg.append(" cannot override ");
msg.append(superMethod.getName());
msg.append(" in ");
msg.append(superMethod.getDeclaringClass().getName());
msg.append("; attempting to assign weaker access privileges; was ");
msg.append(superMethod.isPublic() ? "public" : "protected");
addError(msg.toString(), method);
}
private static boolean hasEqualParameterTypes(Parameter[] first, Parameter[] second) {
if (first.length != second.length) return false;
for (int i = 0; i < first.length; i++) {
String ft = first[i].getType().getName();
String st = second[i].getType().getName();
if (ft.equals(st)) continue;
return false;
}
return true;
}
protected SourceUnit getSourceUnit() {
return source;
}
public void visitMethod(MethodNode node) {
inConstructor = false;
inStaticConstructor = node.isStaticConstructor();
checkAbstractDeclaration(node);
checkRepetitiveMethod(node);
checkOverloadingPrivateAndPublic(node);
checkMethodModifiers(node);
checkGenericsUsage(node, node.getParameters());
checkGenericsUsage(node, node.getReturnType());
super.visitMethod(node);
}
private void checkMethodModifiers(MethodNode node) {
// don't check volatile here as it overlaps with ACC_BRIDGE
// additional modifiers not allowed for interfaces
if ((this.currentClass.getModifiers() & ACC_INTERFACE) != 0) {
checkMethodForModifier(node, isStrict(node.getModifiers()), "strictfp");
checkMethodForModifier(node, isSynchronized(node.getModifiers()), "synchronized");
checkMethodForModifier(node, isNative(node.getModifiers()), "native");
}
}
private void checkMethodForWeakerAccessPrivileges(MethodNode mn, ClassNode cn) {
if (mn.isPublic()) return;
Parameter[] params = mn.getParameters();
for (MethodNode superMethod : cn.getSuperClass().getMethods(mn.getName())) {
Parameter[] superParams = superMethod.getParameters();
if (!hasEqualParameterTypes(params, superParams)) continue;
if ((mn.isPrivate() && !superMethod.isPrivate()) ||
(mn.isProtected() && superMethod.isPublic())) {
addWeakerAccessError(cn, mn, params, superMethod);
return;
}
}
}
private void checkOverloadingPrivateAndPublic(MethodNode node) {
if (isConstructor(node)) return;
boolean hasPrivate = node.isPrivate();
boolean hasPublic = node.isPublic();
for (MethodNode method : currentClass.getMethods(node.getName())) {
if (method == node) continue;
if (!method.getDeclaringClass().equals(node.getDeclaringClass())) continue;
if (method.isPublic() || method.isProtected()) {
hasPublic = true;
} else {
hasPrivate = true;
}
if (hasPrivate && hasPublic) break;
}
if (hasPrivate && hasPublic) {
addError("Mixing private and public/protected methods of the same name causes multimethods to be disabled and is forbidden to avoid surprising behaviour. Renaming the private methods will solve the problem.", node);
}
}
private void checkRepetitiveMethod(MethodNode node) {
if (isConstructor(node)) return;
for (MethodNode method : currentClass.getMethods(node.getName())) {
if (method == node) continue;
if (!method.getDeclaringClass().equals(node.getDeclaringClass())) continue;
Parameter[] p1 = node.getParameters();
Parameter[] p2 = method.getParameters();
if (p1.length != p2.length) continue;
addErrorIfParamsAndReturnTypeEqual(p2, p1, node, method);
}
}
private void addErrorIfParamsAndReturnTypeEqual(Parameter[] p2, Parameter[] p1,
MethodNode node, MethodNode element) {
boolean isEqual = true;
for (int i = 0; i < p2.length; i++) {
isEqual &= p1[i].getType().equals(p2[i].getType());
if (!isEqual) break;
}
isEqual &= node.getReturnType().equals(element.getReturnType());
if (isEqual) {
addError("Repetitive method name/signature for " + getDescription(node) +
" in " + getDescription(currentClass) + ".", node);
}
}
public void visitField(FieldNode node) {
if (currentClass.getDeclaredField(node.getName()) != node) {
addError("The " + getDescription(node) + " is declared multiple times.", node);
}
checkInterfaceFieldModifiers(node);
checkGenericsUsage(node, node.getType());
super.visitField(node);
}
public void visitProperty(PropertyNode node) {
checkDuplicateProperties(node);
checkGenericsUsage(node, node.getType());
super.visitProperty(node);
}
private void checkDuplicateProperties(PropertyNode node) {
ClassNode cn = node.getDeclaringClass();
String name = node.getName();
String getterName = "get" + MetaClassHelper.capitalize(name);
if (Character.isUpperCase(name.charAt(0))) {
for (PropertyNode propNode : cn.getProperties()) {
String otherName = propNode.getField().getName();
String otherGetterName = "get" + MetaClassHelper.capitalize(otherName);
if (node != propNode && getterName.equals(otherGetterName)) {
String msg = "The field " + name + " and " + otherName + " on the class " +
cn.getName() + " will result in duplicate JavaBean properties, which is not allowed";
addError(msg, node);
}
}
}
}
private void checkInterfaceFieldModifiers(FieldNode node) {
if (!currentClass.isInterface()) return;
if ((node.getModifiers() & (ACC_PUBLIC | ACC_STATIC | ACC_FINAL)) == 0 ||
(node.getModifiers() & (ACC_PRIVATE | ACC_PROTECTED)) != 0) {
addError("The " + getDescription(node) + " is not 'public static final' but is defined in " +
getDescription(currentClass) + ".", node);
}
}
public void visitBinaryExpression(BinaryExpression expression) {
if (expression.getOperation().getType() == Types.LEFT_SQUARE_BRACKET &&
expression.getRightExpression() instanceof MapEntryExpression) {
addError("You tried to use a map entry for an index operation, this is not allowed. " +
"Maybe something should be set in parentheses or a comma is missing?",
expression.getRightExpression());
}
super.visitBinaryExpression(expression);
switch (expression.getOperation().getType()) {
case Types.EQUAL: // = assignment
case Types.BITWISE_AND_EQUAL:
case Types.BITWISE_OR_EQUAL:
case Types.BITWISE_XOR_EQUAL:
case Types.PLUS_EQUAL:
case Types.MINUS_EQUAL:
case Types.MULTIPLY_EQUAL:
case Types.DIVIDE_EQUAL:
case Types.INTDIV_EQUAL:
case Types.MOD_EQUAL:
case Types.POWER_EQUAL:
case Types.LEFT_SHIFT_EQUAL:
case Types.RIGHT_SHIFT_EQUAL:
case Types.RIGHT_SHIFT_UNSIGNED_EQUAL:
checkFinalFieldAccess(expression.getLeftExpression());
break;
default:
break;
}
}
private void checkFinalFieldAccess(Expression expression) {
if (!(expression instanceof VariableExpression) && !(expression instanceof PropertyExpression)) return;
Variable v = null;
if (expression instanceof VariableExpression) {
VariableExpression ve = (VariableExpression) expression;
v = ve.getAccessedVariable();
} else {
PropertyExpression propExp = ((PropertyExpression) expression);
Expression objectExpression = propExp.getObjectExpression();
if (objectExpression instanceof VariableExpression) {
VariableExpression varExp = (VariableExpression) objectExpression;
if (varExp.isThisExpression()) {
v = currentClass.getDeclaredField(propExp.getPropertyAsString());
}
}
}
if (v instanceof FieldNode) {
FieldNode fn = (FieldNode) v;
/*
* if it is static final but not accessed inside a static constructor, or,
* if it is an instance final but not accessed inside a instance constructor, it is an error
*/
boolean isFinal = fn.isFinal();
boolean isStatic = fn.isStatic();
boolean error = isFinal && ((isStatic && !inStaticConstructor) || (!isStatic && !inConstructor));
if (error) addError("cannot modify" + (isStatic ? " static" : "") + " final field '" + fn.getName() +
"' outside of " + (isStatic ? "static initialization block." : "constructor."), expression);
}
}
public void visitConstructor(ConstructorNode node) {
inConstructor = true;
inStaticConstructor = node.isStaticConstructor();
checkGenericsUsage(node, node.getParameters());
super.visitConstructor(node);
}
public void visitCatchStatement(CatchStatement cs) {
if (!(cs.getExceptionType().isDerivedFrom(ClassHelper.make(Throwable.class)))) {
addError("Catch statement parameter type is not a subclass of Throwable.", cs);
}
super.visitCatchStatement(cs);
}
public void visitMethodCallExpression(MethodCallExpression mce) {
super.visitMethodCallExpression(mce);
Expression aexp = mce.getArguments();
if (aexp instanceof TupleExpression) {
TupleExpression arguments = (TupleExpression) aexp;
for (Expression e : arguments.getExpressions()) {
checkForInvalidDeclaration(e);
}
} else {
checkForInvalidDeclaration(aexp);
}
}
@Override
public void visitDeclarationExpression(DeclarationExpression expression) {
super.visitDeclarationExpression(expression);
if (expression.isMultipleAssignmentDeclaration()) return;
checkInvalidDeclarationModifier(expression, ACC_ABSTRACT, "abstract");
checkInvalidDeclarationModifier(expression, ACC_NATIVE, "native");
checkInvalidDeclarationModifier(expression, ACC_PRIVATE, "private");
checkInvalidDeclarationModifier(expression, ACC_PROTECTED, "protected");
checkInvalidDeclarationModifier(expression, ACC_PUBLIC, "public");
checkInvalidDeclarationModifier(expression, ACC_STATIC, "static");
checkInvalidDeclarationModifier(expression, ACC_STRICT, "strictfp");
checkInvalidDeclarationModifier(expression, ACC_SYNCHRONIZED, "synchronized");
checkInvalidDeclarationModifier(expression, ACC_TRANSIENT, "transient");
checkInvalidDeclarationModifier(expression, ACC_VOLATILE, "volatile");
}
private void checkInvalidDeclarationModifier(DeclarationExpression expression, int modifier, String modName) {
if ((expression.getVariableExpression().getModifiers() & modifier) != 0) {
addError("Modifier '" + modName + "' not allowed here.", expression);
}
}
private void checkForInvalidDeclaration(Expression exp) {
if (!(exp instanceof DeclarationExpression)) return;
addError("Invalid use of declaration inside method call.", exp);
}
public void visitConstantExpression(ConstantExpression expression) {
super.visitConstantExpression(expression);
checkStringExceedingMaximumLength(expression);
}
public void visitGStringExpression(GStringExpression expression) {
super.visitGStringExpression(expression);
for (ConstantExpression ce : expression.getStrings()) {
checkStringExceedingMaximumLength(ce);
}
}
private void checkStringExceedingMaximumLength(ConstantExpression expression) {
Object value = expression.getValue();
if (value instanceof String) {
String s = (String) value;
if (s.length() > 65535) {
addError("String too long. The given string is " + s.length() + " Unicode code units long, but only a maximum of 65535 is allowed.", expression);
}
}
}
private void checkGenericsUsage(ASTNode ref, ClassNode[] nodes) {
for (ClassNode node : nodes) {
checkGenericsUsage(ref, node);
}
}
private void checkGenericsUsage(ASTNode ref, Parameter[] params) {
for (Parameter p : params) {
checkGenericsUsage(ref, p.getType());
}
}
private void checkGenericsUsage(ASTNode ref, ClassNode node) {
if (node.isArray()) {
checkGenericsUsage(ref, node.getComponentType());
} else if (!node.isRedirectNode() && node.isUsingGenerics()) {
addError(
"A transform used a generics containing ClassNode "+ node + " " +
"for "+getRefDescriptor(ref) +
"directly. You are not supposed to do this. " +
"Please create a new ClassNode referring to the old ClassNode " +
"and use the new ClassNode instead of the old one. Otherwise " +
"the compiler will create wrong descriptors and a potential " +
"NullPointerException in TypeResolver in the OpenJDK. If this is " +
"not your own doing, please report this bug to the writer of the " +
"transform.",
ref);
}
}
private static String getRefDescriptor(ASTNode ref) {
if (ref instanceof FieldNode) {
FieldNode f = (FieldNode) ref;
return "the field "+f.getName()+" ";
} else if (ref instanceof PropertyNode) {
PropertyNode p = (PropertyNode) ref;
return "the property "+p.getName()+" ";
} else if (ref instanceof ConstructorNode) {
return "the constructor "+ref.getText()+" ";
} else if (ref instanceof MethodNode) {
return "the method "+ref.getText()+" ";
} else if (ref instanceof ClassNode) {
return "the super class "+ref+" ";
}
return " ";
}
}