if (!iter2.hasNext()) { IMemberDescriptor resolved = ref.getReferencedMember(); if (resolved != null) { addMemberDetails(telement, resolved);
member = reference.getReferencedMember(); if (member != null) { relement.setAttribute(IApiXmlConstants.ATTR_LINE_NUMBER, Integer.toString(reference.getLineNumber()));
vmap.put(type, tmap); tname = getText(references[i].getReferencedMember()); reflist = tmap.get(tname); if (reflist == null) {
@Override public void visitReference(IReferenceDescriptor reference) { IMemberDescriptor fromMember = reference.getMember(); if (!acceptReference(reference.getReferencedMember(), topatterns) || !acceptReference(fromMember, frompatterns)) { return;
@Override public void visitReference(IReferenceDescriptor reference) { IMemberDescriptor fromMember = reference.getMember(); if (!acceptReference(reference.getReferencedMember(), topatterns) || !acceptReference(fromMember, frompatterns)) { return;
Reference externalReference = null; IApiTypeRoot type = null; IMemberDescriptor referencedMember = externalDependency.getReferencedMember(); IReferenceTypeDescriptor referenceMemberType = referencedMember.getEnclosingType(); if (referenceMemberType != null) { createExternalDependenciesProblem(problems, externalDependency, referenceMemberType.getQualifiedName(), referencedMember, externalDependency.getReferencedMember().getElementType(), IApiProblem.API_USE_SCAN_DELETED); } else { externalReference.resolve(); if (externalReference.getResolvedReference() == null) { createExternalDependenciesProblem(problems, externalDependency, referenceMemberType.getQualifiedName(), referencedMember, externalDependency.getReferencedMember().getElementType(), IApiProblem.API_USE_SCAN_UNRESOLVED);