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*
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* Unless required by applicable law or agreed to in writing,
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package org.codehaus.groovy.transform.trait;
import groovy.transform.CompileStatic;
import org.codehaus.groovy.ast.AnnotationNode;
import org.codehaus.groovy.ast.ClassHelper;
import org.codehaus.groovy.ast.ClassNode;
import org.codehaus.groovy.ast.FieldNode;
import org.codehaus.groovy.ast.GenericsType;
import org.codehaus.groovy.ast.MethodNode;
import org.codehaus.groovy.ast.Parameter;
import org.codehaus.groovy.ast.PropertyNode;
import org.codehaus.groovy.ast.expr.ArgumentListExpression;
import org.codehaus.groovy.ast.expr.ArrayExpression;
import org.codehaus.groovy.ast.expr.BinaryExpression;
import org.codehaus.groovy.ast.expr.BooleanExpression;
import org.codehaus.groovy.ast.expr.CastExpression;
import org.codehaus.groovy.ast.expr.ClassExpression;
import org.codehaus.groovy.ast.expr.ConstantExpression;
import org.codehaus.groovy.ast.expr.Expression;
import org.codehaus.groovy.ast.expr.MethodCallExpression;
import org.codehaus.groovy.ast.expr.StaticMethodCallExpression;
import org.codehaus.groovy.ast.expr.VariableExpression;
import org.codehaus.groovy.ast.stmt.BlockStatement;
import org.codehaus.groovy.ast.stmt.EmptyStatement;
import org.codehaus.groovy.ast.stmt.ExpressionStatement;
import org.codehaus.groovy.ast.stmt.IfStatement;
import org.codehaus.groovy.ast.stmt.ReturnStatement;
import org.codehaus.groovy.ast.stmt.Statement;
import org.codehaus.groovy.ast.tools.GeneralUtils;
import org.codehaus.groovy.ast.tools.GenericsUtils;
import org.codehaus.groovy.classgen.asm.BytecodeHelper;
import org.codehaus.groovy.control.CompilationUnit;
import org.codehaus.groovy.control.SourceUnit;
import org.codehaus.groovy.runtime.InvokerHelper;
import org.codehaus.groovy.runtime.MetaClassHelper;
import org.codehaus.groovy.syntax.SyntaxException;
import org.codehaus.groovy.syntax.Token;
import org.codehaus.groovy.syntax.Types;
import org.codehaus.groovy.transform.ASTTransformationCollectorCodeVisitor;
import org.codehaus.groovy.transform.sc.StaticCompileTransformation;
import org.objectweb.asm.Opcodes;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import static org.codehaus.groovy.ast.tools.GeneralUtils.args;
import static org.codehaus.groovy.ast.tools.GeneralUtils.assignX;
import static org.codehaus.groovy.ast.tools.GeneralUtils.callX;
import static org.codehaus.groovy.ast.tools.GeneralUtils.classX;
import static org.codehaus.groovy.ast.tools.GeneralUtils.returnS;
import static org.codehaus.groovy.ast.tools.GeneralUtils.stmt;
import static org.codehaus.groovy.ast.tools.GeneralUtils.varX;
import static org.codehaus.groovy.ast.tools.GenericsUtils.correctToGenericsSpecRecurse;
/**
* This class contains a static utility method {@link #doExtendTraits(org.codehaus.groovy.ast.ClassNode, org.codehaus.groovy.control.SourceUnit, org.codehaus.groovy.control.CompilationUnit)}
* aimed at generating code for a classnode implementing a trait.
*
* @author Cédric Champeau
* @since 2.3.0
*/
public abstract class TraitComposer {
public static final ClassNode COMPILESTATIC_CLASSNODE = ClassHelper.make(CompileStatic.class);
/**
* Given a class node, if this class node implements a trait, then generate all the appropriate
* code which delegates calls to the trait. It is safe to call this method on a class node which
* does not implement a trait.
* @param cNode a class node
* @param unit the source unit
*/
public static void doExtendTraits(final ClassNode cNode, final SourceUnit unit, final CompilationUnit cu) {
if (cNode.isInterface()) return;
boolean isItselfTrait = Traits.isTrait(cNode);
SuperCallTraitTransformer superCallTransformer = new SuperCallTraitTransformer(unit);
if (isItselfTrait) {
checkTraitAllowed(cNode, unit);
return;
}
if (!cNode.getNameWithoutPackage().endsWith(Traits.TRAIT_HELPER)) {
List traits = findTraits(cNode);
for (ClassNode trait : traits) {
TraitHelpersTuple helpers = Traits.findHelpers(trait);
applyTrait(trait, cNode, helpers);
superCallTransformer.visitClass(cNode);
if (unit!=null) {
ASTTransformationCollectorCodeVisitor collector = new ASTTransformationCollectorCodeVisitor(unit, cu.getTransformLoader());
collector.visitClass(cNode);
}
}
}
}
private static List findTraits(ClassNode cNode) {
LinkedHashSet interfaces = new LinkedHashSet();
Traits.collectAllInterfacesReverseOrder(cNode, interfaces);
List traits = new LinkedList();
for (ClassNode candidate : interfaces) {
if (Traits.isAnnotatedWithTrait(candidate)) {
traits.add(candidate);
}
}
return traits;
}
private static void checkTraitAllowed(final ClassNode bottomTrait, final SourceUnit unit) {
ClassNode superClass = bottomTrait.getSuperClass();
if (superClass==null || ClassHelper.OBJECT_TYPE.equals(superClass)) return;
if (!Traits.isTrait(superClass)) {
unit.addError(new SyntaxException("A trait can only inherit from another trait", superClass.getLineNumber(), superClass.getColumnNumber()));
}
}
private static void applyTrait(final ClassNode trait, final ClassNode cNode, final TraitHelpersTuple helpers) {
ClassNode helperClassNode = helpers.getHelper();
ClassNode fieldHelperClassNode = helpers.getFieldHelper();
Map genericsSpec = GenericsUtils.createGenericsSpec(cNode);
genericsSpec = GenericsUtils.createGenericsSpec(trait, genericsSpec);
for (MethodNode methodNode : helperClassNode.getAllDeclaredMethods()) {
String name = methodNode.getName();
Parameter[] helperMethodParams = methodNode.getParameters();
boolean isAbstract = methodNode.isAbstract();
if (!isAbstract && helperMethodParams.length > 0 && ((methodNode.getModifiers() & Opcodes.ACC_STATIC) == Opcodes.ACC_STATIC) && (!name.contains("$") || (methodNode.getModifiers() & Opcodes.ACC_SYNTHETIC) == 0)) {
ArgumentListExpression argList = new ArgumentListExpression();
argList.addExpression(new VariableExpression("this"));
Parameter[] origParams = new Parameter[helperMethodParams.length - 1];
Parameter[] params = new Parameter[helperMethodParams.length - 1];
System.arraycopy(methodNode.getParameters(), 1, params, 0, params.length);
Map methodGenericsSpec = new LinkedHashMap(genericsSpec);
MethodNode originalMethod = trait.getMethod(name, params);
// Original method may be null for the case of private or static methods
if (originalMethod!=null) {
methodGenericsSpec = GenericsUtils.addMethodGenerics(originalMethod, methodGenericsSpec);
}
for (int i = 1; i < helperMethodParams.length; i++) {
Parameter parameter = helperMethodParams[i];
ClassNode originType = parameter.getOriginType();
ClassNode fixedType = correctToGenericsSpecRecurse(methodGenericsSpec, originType);
Parameter newParam = new Parameter(fixedType, "arg" + i);
List copied = new LinkedList();
List notCopied = new LinkedList();
GeneralUtils.copyAnnotatedNodeAnnotations(parameter, copied, notCopied);
newParam.addAnnotations(copied);
params[i - 1] = newParam;
origParams[i-1] = parameter;
argList.addExpression(new VariableExpression(params[i - 1]));
}
createForwarderMethod(trait, cNode, methodNode, originalMethod, helperClassNode, methodGenericsSpec, helperMethodParams, origParams, params, argList);
}
}
cNode.addObjectInitializerStatements(new ExpressionStatement(
new MethodCallExpression(
new ClassExpression(helperClassNode),
Traits.INIT_METHOD,
new ArgumentListExpression(new VariableExpression("this")))
));
MethodCallExpression staticInitCall = new MethodCallExpression(
new ClassExpression(helperClassNode),
Traits.STATIC_INIT_METHOD,
new ArgumentListExpression(new ClassExpression(cNode)));
MethodNode staticInitMethod = new MethodNode(
Traits.STATIC_INIT_METHOD, Opcodes.ACC_STATIC | Opcodes.ACC_PUBLIC, ClassHelper.VOID_TYPE,
new Parameter[] {new Parameter(ClassHelper.CLASS_Type,"clazz")}, ClassNode.EMPTY_ARRAY, EmptyStatement.INSTANCE);
staticInitMethod.setDeclaringClass(helperClassNode);
staticInitCall.setMethodTarget(staticInitMethod);
cNode.addStaticInitializerStatements(Collections.singletonList(new ExpressionStatement(
staticInitCall
)), false);
if (fieldHelperClassNode != null && !cNode.declaresInterface(fieldHelperClassNode)) {
// we should implement the field helper interface too
cNode.addInterface(fieldHelperClassNode);
// implementation of methods
List declaredMethods = new LinkedList();
for (MethodNode declaredMethod : fieldHelperClassNode.getAllDeclaredMethods()) {
if (declaredMethod.getName().endsWith(Traits.DIRECT_GETTER_SUFFIX)) {
declaredMethods.add(0, declaredMethod);
} else {
declaredMethods.add(declaredMethod);
}
}
for (MethodNode methodNode : declaredMethods) {
String fieldName = methodNode.getName();
if (fieldName.endsWith(Traits.DIRECT_GETTER_SUFFIX) || fieldName.endsWith(Traits.DIRECT_SETTER_SUFFIX)) {
int suffixIdx = fieldName.lastIndexOf("$");
fieldName = fieldName.substring(0, suffixIdx);
String operation = methodNode.getName().substring(suffixIdx + 1);
boolean getter = "get".equals(operation);
ClassNode returnType = correctToGenericsSpecRecurse(genericsSpec, methodNode.getReturnType());
int fieldMods = 0;
int isStatic = 0;
boolean publicField = true;
FieldNode helperField = null;
fieldMods = 0;
isStatic = 0;
// look first for field with encoded modifier information
for (Integer mod : Traits.FIELD_PREFIXES) {
helperField = fieldHelperClassNode.getField(String.format("$0x%04x", mod) + fieldName);
if (helperField != null) {
if ((mod & Opcodes.ACC_STATIC) != 0) isStatic = Opcodes.ACC_STATIC;
fieldMods = fieldMods | mod;
break;
}
}
if (helperField == null) {
// look for possible legacy fields (trait compiled pre 2.4.8)
helperField = fieldHelperClassNode.getField(Traits.FIELD_PREFIX + Traits.PUBLIC_FIELD_PREFIX + fieldName);
if (helperField==null) {
publicField = false;
helperField = fieldHelperClassNode.getField(Traits.FIELD_PREFIX + Traits.PRIVATE_FIELD_PREFIX + fieldName);
}
if (helperField==null) {
publicField = true;
// try to find a static one
helperField = fieldHelperClassNode.getField(Traits.STATIC_FIELD_PREFIX+Traits.PUBLIC_FIELD_PREFIX+fieldName);
if (helperField==null) {
publicField = false;
helperField = fieldHelperClassNode.getField(Traits.STATIC_FIELD_PREFIX+Traits.PRIVATE_FIELD_PREFIX +fieldName);
}
fieldMods = fieldMods | Opcodes.ACC_STATIC;
isStatic = Opcodes.ACC_STATIC;
}
fieldMods = fieldMods | (publicField?Opcodes.ACC_PUBLIC:Opcodes.ACC_PRIVATE);
}
if (getter) {
// add field
if (helperField!=null) {
List copied = new LinkedList();
List notCopied = new LinkedList();
GeneralUtils.copyAnnotatedNodeAnnotations(helperField, copied, notCopied);
FieldNode fieldNode = cNode.addField(fieldName, fieldMods, returnType, null);
fieldNode.addAnnotations(copied);
// getInitialExpression above will be null if not in same source unit
// so instead set within (static) initializer
if (fieldNode.isFinal()) {
String baseName = fieldNode.isStatic() ? Traits.STATIC_INIT_METHOD : Traits.INIT_METHOD;
Expression mce = callX(helperClassNode, baseName + fieldNode.getName(), args(fieldNode.isStatic() ? classX(cNode) : varX("this")));
Statement stmt = stmt(assignX(varX(fieldNode.getName(), fieldNode.getType()), mce));
if (isStatic == 0) {
cNode.addObjectInitializerStatements(stmt);
} else {
cNode.addStaticInitializerStatements(Collections.singletonList(stmt), false);
}
}
}
}
Parameter[] newParams;
if (getter) {
newParams = Parameter.EMPTY_ARRAY;
} else {
ClassNode originType = methodNode.getParameters()[0].getOriginType();
ClassNode fixedType = originType.isGenericsPlaceHolder()?ClassHelper.OBJECT_TYPE:correctToGenericsSpecRecurse(genericsSpec, originType);
newParams = new Parameter[]{new Parameter(fixedType, "val")};
}
Expression fieldExpr = varX(cNode.getField(fieldName));
boolean finalSetter = !getter && (fieldMods & Opcodes.ACC_FINAL) != 0;
Statement body =
getter ? returnS(fieldExpr) :
(finalSetter ? null : stmt(
new BinaryExpression(
fieldExpr,
Token.newSymbol(Types.EQUAL, 0, 0),
varX(newParams[0])
)
));
// add getter/setter even though setter not strictly needed for final fields
// but add empty body for setter for legacy compatibility
MethodNode impl = new MethodNode(
methodNode.getName(),
Opcodes.ACC_PUBLIC | isStatic,
returnType,
newParams,
ClassNode.EMPTY_ARRAY,
body
);
AnnotationNode an = new AnnotationNode(COMPILESTATIC_CLASSNODE);
impl.addAnnotation(an);
cNode.addTransform(StaticCompileTransformation.class, an);
cNode.addMethod(impl);
}
}
}
}
private static void createForwarderMethod(
ClassNode trait,
ClassNode targetNode,
MethodNode helperMethod,
MethodNode originalMethod,
ClassNode helperClassNode,
Map genericsSpec,
Parameter[] helperMethodParams,
Parameter[] traitMethodParams,
Parameter[] forwarderParams,
ArgumentListExpression helperMethodArgList) {
MethodCallExpression mce = new MethodCallExpression(
new ClassExpression(helperClassNode),
helperMethod.getName(),
helperMethodArgList
);
mce.setImplicitThis(false);
genericsSpec = GenericsUtils.addMethodGenerics(helperMethod,genericsSpec);
ClassNode[] exceptionNodes = correctToGenericsSpecRecurse(genericsSpec, copyExceptions(helperMethod.getExceptions()));
ClassNode fixedReturnType = correctToGenericsSpecRecurse(genericsSpec, helperMethod.getReturnType());
boolean noCastRequired = genericsSpec.isEmpty() || fixedReturnType.getName().equals(ClassHelper.VOID_TYPE.getName());
Expression forwardExpression = noCastRequired ? mce : new CastExpression(fixedReturnType,mce);
int access = helperMethod.getModifiers();
// we could rely on the first parameter name ($static$self) but that information is not
// guaranteed to be always present
boolean isHelperForStaticMethod = helperMethodParams[0].getOriginType().equals(ClassHelper.CLASS_Type);
if (Modifier.isPrivate(access) && !isHelperForStaticMethod) {
// do not create forwarder for private methods
// see GROOVY-7213
return;
}
if (!isHelperForStaticMethod) {
access = access ^ Opcodes.ACC_STATIC;
}
MethodNode forwarder = new MethodNode(
helperMethod.getName(),
access,
fixedReturnType,
forwarderParams,
exceptionNodes,
new ExpressionStatement(forwardExpression)
);
List copied = new LinkedList();
List notCopied = Collections.emptyList(); // at this point, should *always* stay empty
GeneralUtils.copyAnnotatedNodeAnnotations(helperMethod, copied, notCopied);
if (!copied.isEmpty()) {
forwarder.addAnnotations(copied);
}
if (originalMethod != null) {
GenericsType[] newGt = GenericsUtils.applyGenericsContextToPlaceHolders(genericsSpec, originalMethod.getGenericsTypes());
newGt = removeNonPlaceHolders(newGt);
forwarder.setGenericsTypes(newGt);
} else {
// null indicates a static method which may still need generics correction
GenericsType[] genericsTypes = helperMethod.getGenericsTypes();
if (genericsTypes != null) {
Map methodSpec = new HashMap();
methodSpec = GenericsUtils.addMethodGenerics(helperMethod,methodSpec);
GenericsType[] newGt = GenericsUtils.applyGenericsContextToPlaceHolders(methodSpec, helperMethod.getGenericsTypes());
forwarder.setGenericsTypes(newGt);
}
}
// add a helper annotation indicating that it is a bridge method
AnnotationNode bridgeAnnotation = new AnnotationNode(Traits.TRAITBRIDGE_CLASSNODE);
bridgeAnnotation.addMember("traitClass", new ClassExpression(trait));
bridgeAnnotation.addMember("desc", new ConstantExpression(BytecodeHelper.getMethodDescriptor(helperMethod.getReturnType(), traitMethodParams)));
forwarder.addAnnotation(
bridgeAnnotation
);
if (!shouldSkipMethod(targetNode, forwarder.getName(), forwarderParams)) {
targetNode.addMethod(forwarder);
}
createSuperForwarder(targetNode, forwarder, genericsSpec);
}
private static GenericsType[] removeNonPlaceHolders(GenericsType[] oldTypes) {
if (oldTypes==null || oldTypes.length==0) return oldTypes;
ArrayList l = new ArrayList(Arrays.asList(oldTypes));
Iterator it = l.iterator();
boolean modified = false;
while (it.hasNext()) {
GenericsType gt = it.next();
if (!gt.isPlaceholder()) {
it.remove();
modified = true;
}
}
if (!modified) return oldTypes;
if (l.isEmpty()) return null;
return l.toArray(new GenericsType[l.size()]);
}
/**
* Creates, if necessary, a super forwarder method, for stackable traits.
* @param forwarder a forwarder method
* @param genericsSpec
*/
private static void createSuperForwarder(ClassNode targetNode, MethodNode forwarder, final Map genericsSpec) {
List interfaces = new ArrayList(Traits.collectAllInterfacesReverseOrder(targetNode, new LinkedHashSet()));
String name = forwarder.getName();
Parameter[] forwarderParameters = forwarder.getParameters();
LinkedHashSet traits = new LinkedHashSet();
List superForwarders = new LinkedList();
for (ClassNode node : interfaces) {
if (Traits.isTrait(node)) {
MethodNode method = node.getDeclaredMethod(name, forwarderParameters);
if (method!=null) {
// a similar method exists, we need a super bridge
// trait$super$foo(Class currentTrait, ...)
traits.add(node);
superForwarders.add(method);
}
}
}
for (MethodNode superForwarder : superForwarders) {
doCreateSuperForwarder(targetNode, superForwarder, traits.toArray(new ClassNode[traits.size()]), genericsSpec);
}
}
/**
* Creates a method to dispatch to "super traits" in a "stackable" fashion. The generated method looks like this:
*
* ReturnType trait$super$method(Class clazz, Arg1 arg1, Arg2 arg2, ...) {
* if (SomeTrait.is(A) { return SomeOtherTrait$Trait$Helper.method(this, arg1, arg2) }
* super.method(arg1,arg2)
* }
*
* @param targetNode
* @param forwarderMethod
* @param interfacesToGenerateForwarderFor
* @param genericsSpec
*/
private static void doCreateSuperForwarder(ClassNode targetNode, MethodNode forwarderMethod, ClassNode[] interfacesToGenerateForwarderFor, Map genericsSpec) {
Parameter[] parameters = forwarderMethod.getParameters();
Parameter[] superForwarderParams = new Parameter[parameters.length];
for (int i = 0; i < parameters.length; i++) {
Parameter parameter = parameters[i];
ClassNode originType = parameter.getOriginType();
superForwarderParams[i] = new Parameter(correctToGenericsSpecRecurse(genericsSpec, originType), parameter.getName());
}
for (int i = 0; i < interfacesToGenerateForwarderFor.length; i++) {
final ClassNode current = interfacesToGenerateForwarderFor[i];
final ClassNode next = i < interfacesToGenerateForwarderFor.length - 1 ? interfacesToGenerateForwarderFor[i + 1] : null;
String forwarderName = Traits.getSuperTraitMethodName(current, forwarderMethod.getName());
if (targetNode.getDeclaredMethod(forwarderName, superForwarderParams) == null) {
ClassNode returnType = correctToGenericsSpecRecurse(genericsSpec, forwarderMethod.getReturnType());
Statement delegate = next == null ? createSuperFallback(forwarderMethod, returnType) : createDelegatingForwarder(forwarderMethod, next);
MethodNode methodNode = targetNode.addMethod(forwarderName, Opcodes.ACC_PUBLIC | Opcodes.ACC_SYNTHETIC, returnType, superForwarderParams, ClassNode.EMPTY_ARRAY, delegate);
methodNode.setGenericsTypes(forwarderMethod.getGenericsTypes());
}
}
}
private static Statement createSuperFallback(MethodNode forwarderMethod, ClassNode returnType) {
ArgumentListExpression args = new ArgumentListExpression();
Parameter[] forwarderMethodParameters = forwarderMethod.getParameters();
for (final Parameter forwarderMethodParameter : forwarderMethodParameters) {
args.addExpression(new VariableExpression(forwarderMethodParameter));
}
BinaryExpression instanceOfExpr = new BinaryExpression(new VariableExpression("this"), Token.newSymbol(Types.KEYWORD_INSTANCEOF, -1, -1), new ClassExpression(Traits.GENERATED_PROXY_CLASSNODE));
MethodCallExpression superCall = new MethodCallExpression(
new VariableExpression("super"),
forwarderMethod.getName(),
args
);
superCall.setImplicitThis(false);
CastExpression proxyReceiver = new CastExpression(Traits.GENERATED_PROXY_CLASSNODE, new VariableExpression("this"));
MethodCallExpression getProxy = new MethodCallExpression(proxyReceiver, "getProxyTarget", ArgumentListExpression.EMPTY_ARGUMENTS);
getProxy.setImplicitThis(true);
StaticMethodCallExpression proxyCall = new StaticMethodCallExpression(
ClassHelper.make(InvokerHelper.class),
"invokeMethod",
new ArgumentListExpression(getProxy, new ConstantExpression(forwarderMethod.getName()), new ArrayExpression(ClassHelper.OBJECT_TYPE, args.getExpressions()))
);
IfStatement stmt = new IfStatement(
new BooleanExpression(instanceOfExpr),
new ExpressionStatement(new CastExpression(returnType,proxyCall)),
new ExpressionStatement(superCall)
);
return stmt;
}
private static Statement createDelegatingForwarder(final MethodNode forwarderMethod, final ClassNode next) {
// generates --> next$Trait$Helper.method(this, arg1, arg2)
TraitHelpersTuple helpers = Traits.findHelpers(next);
ArgumentListExpression args = new ArgumentListExpression();
args.addExpression(new VariableExpression("this"));
Parameter[] forwarderMethodParameters = forwarderMethod.getParameters();
for (final Parameter forwarderMethodParameter : forwarderMethodParameters) {
args.addExpression(new VariableExpression(forwarderMethodParameter));
}
StaticMethodCallExpression delegateCall = new StaticMethodCallExpression(
helpers.getHelper(),
forwarderMethod.getName(),
args
);
Statement result;
if (ClassHelper.VOID_TYPE.equals(forwarderMethod.getReturnType())) {
BlockStatement stmt = new BlockStatement();
stmt.addStatement(new ExpressionStatement(delegateCall));
stmt.addStatement(new ReturnStatement(new ConstantExpression(null)));
result = stmt;
} else {
result = new ReturnStatement(delegateCall);
}
return result;
}
private static ClassNode[] copyExceptions(final ClassNode[] sourceExceptions) {
ClassNode[] exceptionNodes = new ClassNode[sourceExceptions == null ? 0 : sourceExceptions.length];
System.arraycopy(sourceExceptions, 0, exceptionNodes, 0, exceptionNodes.length);
return exceptionNodes;
}
private static boolean shouldSkipMethod(final ClassNode cNode, final String name, final Parameter[] params) {
if (isExistingProperty(name, cNode, params) || cNode.getDeclaredMethod(name, params)!=null) {
// override exists in the weaved class itself
return true;
}
return false;
}
private static boolean isExistingProperty(final String methodName, final ClassNode cNode, final Parameter[] params) {
String propertyName = methodName;
boolean getter = false;
if (methodName.startsWith("get")) {
propertyName = propertyName.substring(3);
getter = true;
} else if (methodName.startsWith("is")) {
propertyName = propertyName.substring(2);
getter = true;
} else if (methodName.startsWith("set")) {
propertyName = propertyName.substring(3);
} else {
return false;
}
if (getter && params.length>0) {
return false;
}
if (!getter && params.length!=1) {
return false;
}
if (propertyName.length()==0) {
return false;
}
propertyName = MetaClassHelper.convertPropertyName(propertyName);
PropertyNode pNode = cNode.getProperty(propertyName);
return pNode != null;
}
}
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