private static boolean isImplicitConstructor(IMethodBinding meth, ICompilationUnit targetCU) { return meth.isDefaultConstructor(); }
private static boolean isImplicitConstructor(IMethodBinding meth) { return meth.isDefaultConstructor(); }
private static boolean isImplicitConstructor(IMethodBinding meth) { return meth.isDefaultConstructor(); }
private static boolean isImplicitConstructor(IMethodBinding meth) { return meth.isDefaultConstructor(); }
@Override public boolean isDefaultConstructor() { return originalBinding.isDefaultConstructor(); }
private static boolean isImplicitConstructor(IMethodBinding meth, ICompilationUnit targetCU) { return meth.isDefaultConstructor(); }
private static boolean isSignatureEquivalentConstructor(IMethodBinding overridden, IMethodBinding overridable) { if (!overridden.isConstructor() || !overridable.isConstructor()) return false; if (overridden.isDefaultConstructor()) return false; return areSubTypeCompatible(overridden, overridable); }
private static boolean isSignatureEquivalentConstructor(IMethodBinding overridden, IMethodBinding overridable) { if (!overridden.isConstructor() || !overridable.isConstructor()) return false; if (overridden.isDefaultConstructor()) return false; return areSubTypeCompatible(overridden, overridable); }
private static boolean isSignatureEquivalentConstructor(IMethodBinding overridden, IMethodBinding overridable) { if (!overridden.isConstructor() || !overridable.isConstructor()) return false; if (overridden.isDefaultConstructor()) return false; return areSubTypeCompatible(overridden, overridable); }
for (int index= 0; index < methods.length; index++) { IMethodBinding method= methods[index]; if (method.isConstructor() && !method.isDefaultConstructor()) existingConstructors.add(method);
for (int index= 0; index < methods.length; index++) { IMethodBinding method= methods[index]; if (method.isConstructor() && !method.isDefaultConstructor()) existingConstructors.add(method);
for (int index= 0; index < methods.length; index++) { IMethodBinding method= methods[index]; if (method.isConstructor() && !method.isDefaultConstructor()) existingConstructors.add(method);
if (met.isDefaultConstructor()) { if (typeBinding.isEnum()) memberEntities.add(createEnumConstructorWithParameters(met, n, context, inits, null));
if (ctor.isDefaultConstructor()) children = new CAstNode[4 + ctor.getParameterTypes().length]; // anonymous class' implicit constructors call constructors with children[3] = makeNode(context, fFactory, n, CAstNode.VAR, fFactory.makeConstant(fakeArguments[2]), fFactory.makeConstant(paramTypes.get(1))); if (ctor.isDefaultConstructor()) for (int i = 0; i < ctor.getParameterTypes().length; i++) children[i + 4] = makeNode(context, fFactory, n, CAstNode.VAR, fFactory.makeConstant(fakeArguments[i + 3]), fFactory.makeConstant(paramTypes.get(i+2)));
if (methodDecl.isDefaultConstructor()) { UnresolvedElementsSubProcessor.getConstructorProposals(context, problem, proposals); return;
if (methodDecl.isDefaultConstructor()) { UnresolvedElementsSubProcessor.getConstructorProposals(context, problem, proposals); return;
if (methodDecl.isDefaultConstructor()) { UnresolvedElementsSubProcessor.getConstructorProposals(context, problem, proposals); return;