private void extractIMethod(IMethod method, boolean annotationElement) {
try {
StringBuilder fqnBuilder = new StringBuilder(fqnStack.peek());
if (method.isConstructor()) {
fqnBuilder.append('.').append("<init>");
} else {
fqnBuilder.append('.').append(method.getElementName());
}
fqnBuilder.append('(');
boolean first = true;
for (String param : method.getParameterTypes()) {
if (first) {
first = false;
} else {
fqnBuilder.append(',');
}
String sig = typeSignatureToFqn(param);
fqnBuilder.append(sig);
}
fqnBuilder.append(')');
String fqn = fqnBuilder.toString();
// Write the entity
if (annotationElement) {
entityWriter.writeAnnotationElement(fqn, method.getFlags(), path);
} else if (method.isConstructor()) {
entityWriter.writeConstructor(fqn, method.getFlags(), path);
} else {
entityWriter.writeMethod(fqn, method.getFlags(), path);
}
// Write the inside relation
relationWriter.writeInside(fqn, fqnStack.peek(), path);
// Write the returns relation
relationWriter.writeReturns(fqn, typeSignatureToFqn(method.getReturnType()), path);
// Write the receives relation
String[] paramTypes = method.getParameterTypes();
for (int i = 0; i < paramTypes.length; i++) {
localVariableWriter.writeClassParameter(
"arg" + i, typeSignatureToFqn(paramTypes[i]), fqn, i, path);
// relationWriter.writeReceives(fqn, typeSignatureToFqn(paramTypes[i]), "arg" + i,
// i);
}
int pos = 0;
for (ITypeParameter param : method.getTypeParameters()) {
relationWriter.writeParametrizedBy(fqn, getTypeParam(param), pos++, path);
}
} catch (JavaModelException e) {
logger.log(Level.SEVERE, "Error in extracting class file", e);
}
}
@Override
public Change createChange(IProgressMonitor monitor) throws CoreException {
try {
final TextChange[] changes = fChangeManager.getAllChanges();
final List<TextChange> list = new ArrayList<>(changes.length);
list.addAll(Arrays.asList(changes));
String project = null;
IJavaProject javaProject = fMethod.getJavaProject();
if (javaProject != null) project = javaProject.getElementName();
int flags =
JavaRefactoringDescriptor.JAR_MIGRATION
| JavaRefactoringDescriptor.JAR_REFACTORING
| RefactoringDescriptor.STRUCTURAL_CHANGE;
try {
if (!Flags.isPrivate(fMethod.getFlags())) flags |= RefactoringDescriptor.MULTI_CHANGE;
} catch (JavaModelException exception) {
JavaPlugin.log(exception);
}
final IType declaring = fMethod.getDeclaringType();
try {
if (declaring.isAnonymous() || declaring.isLocal())
flags |= JavaRefactoringDescriptor.JAR_SOURCE_ATTACHMENT;
} catch (JavaModelException exception) {
JavaPlugin.log(exception);
}
final String description =
Messages.format(
RefactoringCoreMessages.RenameMethodProcessor_descriptor_description_short,
BasicElementLabels.getJavaElementName(fMethod.getElementName()));
final String header =
Messages.format(
RefactoringCoreMessages.RenameMethodProcessor_descriptor_description,
new String[] {
JavaElementLabels.getTextLabel(fMethod, JavaElementLabels.ALL_FULLY_QUALIFIED),
BasicElementLabels.getJavaElementName(getNewElementName())
});
final String comment = new JDTRefactoringDescriptorComment(project, this, header).asString();
final RenameJavaElementDescriptor descriptor =
RefactoringSignatureDescriptorFactory.createRenameJavaElementDescriptor(
IJavaRefactorings.RENAME_METHOD);
descriptor.setProject(project);
descriptor.setDescription(description);
descriptor.setComment(comment);
descriptor.setFlags(flags);
descriptor.setJavaElement(fMethod);
descriptor.setNewName(getNewElementName());
descriptor.setUpdateReferences(fUpdateReferences);
descriptor.setKeepOriginal(fDelegateUpdating);
descriptor.setDeprecateDelegate(fDelegateDeprecation);
return new DynamicValidationRefactoringChange(
descriptor,
RefactoringCoreMessages.RenameMethodProcessor_change_name,
list.toArray(new Change[list.size()]));
} finally {
monitor.done();
}
}
/**
* Create a {@link BeansJavaCompletionProposal} for the given {@link IMethod} and report it on the
* {@link ContentAssistRequest}.
*/
protected void createMethodProposal(IContentAssistProposalRecorder recorder, IMethod method) {
try {
String[] parameterNames = method.getParameterNames();
String[] parameterTypes = JdtUtils.getParameterTypesString(method);
String returnType = JdtUtils.getReturnTypeString(method, true);
String methodName = JdtUtils.getMethodName(method);
String replaceText = methodName;
StringBuilder buf = new StringBuilder();
// add method name
buf.append(replaceText);
// add method parameters
if (parameterTypes.length > 0 && parameterNames.length > 0) {
buf.append(" (");
for (int i = 0; i < parameterTypes.length; i++) {
buf.append(parameterTypes[i]);
buf.append(' ');
buf.append(parameterNames[i]);
if (i < (parameterTypes.length - 1)) {
buf.append(", ");
}
}
buf.append(") ");
} else {
buf.append("() ");
}
// add return type
if (returnType != null) {
buf.append(Signature.getSimpleName(returnType));
buf.append(" - ");
} else {
buf.append(" void - ");
}
// add class name
buf.append(JdtUtils.getParentName(method));
String displayText = buf.toString();
Image image =
Activator.getDefault()
.getJavaElementLabelProvider()
.getImageLabel(method, method.getFlags() | JavaElementImageProvider.SMALL_ICONS);
recorder.recordProposal(image, METHOD_RELEVANCE, displayText, replaceText, method);
} catch (JavaModelException e) {
// do nothing
}
}
/**
* Method to post process returned flags from the {@link
* org.eclipse.pde.api.tools.internal.JavadocTagManager}
*
* @param tag the tag to process
* @param element the {@link IJavaElement} the tag will appear on
* @return true if the tag should be included in completion proposals, false otherwise
*/
private boolean acceptTag(IApiJavadocTag tag, IJavaElement element) throws JavaModelException {
if (fExistingTags != null) {
Boolean fragments = fExistingTags.get(tag.getTagName());
// if the tag has a fragment don't overwrite / propose again
if (fragments != null && Boolean.FALSE.equals(fragments)) {
return false;
}
}
switch (element.getElementType()) {
case IJavaElement.TYPE:
{
IType type = (IType) element;
int flags = type.getFlags();
String tagname = tag.getTagName();
if (Flags.isAbstract(flags)) {
return !tagname.equals(JavadocTagManager.TAG_NOINSTANTIATE);
}
if (Flags.isFinal(flags)) {
return !tagname.equals(JavadocTagManager.TAG_NOEXTEND);
}
break;
}
case IJavaElement.METHOD:
{
IMethod method = (IMethod) element;
if (Flags.isFinal(method.getFlags()) || Flags.isStatic(method.getFlags())) {
return !tag.getTagName().equals(JavadocTagManager.TAG_NOOVERRIDE);
}
IType type = method.getDeclaringType();
if (type != null && Flags.isFinal(type.getFlags())) {
return !tag.getTagName().equals(JavadocTagManager.TAG_NOOVERRIDE);
}
break;
}
default:
break;
}
return true;
}
private void checkOverridden(RefactoringStatus status, IProgressMonitor pm)
throws JavaModelException {
pm.beginTask("", 9); // $NON-NLS-1$
pm.setTaskName(RefactoringCoreMessages.InlineMethodRefactoring_checking_overridden);
MethodDeclaration decl = fSourceProvider.getDeclaration();
IMethod method = (IMethod) decl.resolveBinding().getJavaElement();
if (method == null || Flags.isPrivate(method.getFlags())) {
pm.worked(8);
return;
}
IType type = method.getDeclaringType();
ITypeHierarchy hierarchy = type.newTypeHierarchy(new SubProgressMonitor(pm, 6));
checkSubTypes(status, method, hierarchy.getAllSubtypes(type), new SubProgressMonitor(pm, 1));
checkSuperClasses(
status, method, hierarchy.getAllSuperclasses(type), new SubProgressMonitor(pm, 1));
checkSuperInterfaces(
status, method, hierarchy.getAllSuperInterfaces(type), new SubProgressMonitor(pm, 1));
pm.setTaskName(""); // $NON-NLS-1$
}
/**
* Finds a method declaration in a type's hierarchy. The search is top down, so this returns the
* first declaration of the method in the hierarchy. This searches for a method with a name and
* signature. Parameter types are only compared by the simple name, no resolving for the fully
* qualified type name is done. Constructors are only compared by parameters, not the name.
*
* @param type Searches in this type's supertypes.
* @param name The name of the method to find
* @param paramTypes The type signatures of the parameters e.g. <code>{"QString;","I"}</code>
* @param isConstructor If the method is a constructor
* @return The first method found or null, if nothing found
*/
private static IMethod findMethodDeclarationInHierarchy(
ITypeHierarchy hierarchy, IType type, String name, String[] paramTypes, boolean isConstructor)
throws JavaModelException {
IType[] superTypes = hierarchy.getAllSupertypes(type);
for (int i = superTypes.length - 1; i >= 0; i--) {
IMethod first = JavaModelUtil.findMethod(name, paramTypes, isConstructor, superTypes[i]);
if (first != null && !Flags.isPrivate(first.getFlags())) {
// the order getAllSupertypes does make assumptions of the order of inner elements -> search
// recursively
IMethod res =
findMethodDeclarationInHierarchy(
hierarchy, first.getDeclaringType(), name, paramTypes, isConstructor);
if (res != null) {
return res;
}
return first;
}
}
return null;
}
private static void appendMethodReference(IMethod meth, StringBuffer buf)
throws JavaModelException {
buf.append(meth.getElementName());
/*
* The Javadoc tool for Java SE 8 changed the anchor syntax and now tries to avoid "strange" characters in URLs.
* This breaks all clients that directly create such URLs.
* We can't know what format is required, so we just guess by the project's compiler compliance.
*/
boolean is18OrHigher = JavaModelUtil.is18OrHigher(meth.getJavaProject());
buf.append(is18OrHigher ? '-' : '(');
String[] params = meth.getParameterTypes();
IType declaringType = meth.getDeclaringType();
boolean isVararg = Flags.isVarargs(meth.getFlags());
int lastParam = params.length - 1;
for (int i = 0; i <= lastParam; i++) {
if (i != 0) {
buf.append(is18OrHigher ? "-" : ", "); // $NON-NLS-1$ //$NON-NLS-2$
}
String curr = Signature.getTypeErasure(params[i]);
String fullName = JavaModelUtil.getResolvedTypeName(curr, declaringType);
if (fullName == null) { // e.g. a type parameter "QE;"
fullName = Signature.toString(Signature.getElementType(curr));
}
if (fullName != null) {
buf.append(fullName);
int dim = Signature.getArrayCount(curr);
if (i == lastParam && isVararg) {
dim--;
}
while (dim > 0) {
buf.append(is18OrHigher ? ":A" : "[]"); // $NON-NLS-1$ //$NON-NLS-2$
dim--;
}
if (i == lastParam && isVararg) {
buf.append("..."); // $NON-NLS-1$
}
}
}
buf.append(is18OrHigher ? '-' : ')');
}
/**
* We don't include nested types because structural changes of nested types should not affect
* Xtend classes which use top level types.
*
* @deprecated This method is not used anymore.
*/
@Deprecated
protected void traverseType(IType type, NameBasedEObjectDescriptionBuilder acceptor) {
try {
if (type.exists()) {
for (IField field : type.getFields()) {
if (!Flags.isSynthetic(field.getFlags())) {
String fieldName = field.getElementName();
acceptor.accept(fieldName);
}
}
for (IMethod method : type.getMethods()) {
if (!Flags.isSynthetic(method.getFlags())) {
String methodName = method.getElementName();
acceptor.accept(methodName);
}
}
}
} catch (JavaModelException e) {
if (LOGGER.isDebugEnabled()) LOGGER.debug(e, e);
}
}
/**
* Determines is the java element contains a specific method.
*
* <p>The syntax for the property tester is of the form: methodname, signature, modifiers.
*
* <ol>
* <li>methodname - case sensitive method name, required. For example, <code>toString</code>.
* <li>signature - JLS style method signature, required. For example, <code>(QString;)V</code>.
* <li>modifiers - optional space separated list of modifiers, for example, <code>public static
* </code>.
* </ol>
*
* @param element the element to check for the method
* @param args first arg is method name, secondary args are parameter types signatures
* @return true if the method is found in the element, false otherwise
*/
private boolean hasMethod(IJavaElement element, Object[] args) {
try {
if (args.length > 1) {
IType type = getType(element);
if (type != null && type.exists()) {
String name = (String) args[0];
String signature = (String) args[1];
String[] parms = Signature.getParameterTypes(signature);
String returnType = Signature.getReturnType(signature);
IMethod candidate = type.getMethod(name, parms);
if (candidate.exists()) {
// check return type
if (candidate.getReturnType().equals(returnType)) {
// check modifiers
if (args.length > 2) {
String modifierText = (String) args[2];
String[] modifiers = modifierText.split(" "); // $NON-NLS-1$
int flags = 0;
for (int j = 0; j < modifiers.length; j++) {
String modifier = modifiers[j];
Integer flag = (Integer) fgModifiers.get(modifier);
if (flag != null) {
flags = flags | flag.intValue();
}
}
if (candidate.getFlags() == flags) {
return true;
}
}
}
}
}
}
} catch (JavaModelException e) {
}
return false;
}
protected void setUp() throws Exception {
super.setUp();
fProject = new SWTTestProject();
IType control = fProject.getProject().findType("org.eclipse.swt.widgets.Control");
ExtractInterfaceProcessor processor =
new ExtractInterfaceProcessor(
control, JavaPreferencesSettings.getCodeGenerationSettings(fProject.getProject()));
fRefactoring = new ProcessorBasedRefactoring(processor);
IMethod[] methods = control.getMethods();
List extractedMembers = new ArrayList();
for (int i = 0; i < methods.length; i++) {
IMethod method = methods[i];
int flags = method.getFlags();
if (Flags.isPublic(flags) && !Flags.isStatic(flags) && !method.isConstructor()) {
extractedMembers.add(method);
}
}
processor.setTypeName("IControl");
processor.setExtractedMembers(
(IMember[]) extractedMembers.toArray(new IMember[extractedMembers.size()]));
processor.setReplace(true);
}
@Override
public List<ICompletionProposal> computeCompletionProposals(
final ContentAssistInvocationContext context, final IProgressMonitor monitor) {
final List<ICompletionProposal> list = new ArrayList<ICompletionProposal>();
boolean extendContext = false;
try {
if (context instanceof JavaContentAssistInvocationContext) {
final ITextViewer viewer = context.getViewer();
final List<ScriptVariable> scriptVariables = getScriptVariables(viewer);
if (scriptVariables.isEmpty()) {
return list;
}
final CompletionContext coreContext =
((JavaContentAssistInvocationContext) context).getCoreContext();
if (coreContext != null && !coreContext.isExtended()) {
// must use reflection to set the fields
ReflectionUtils.setPrivateField(
InternalCompletionContext.class, "isExtended", coreContext, true);
extendContext = true;
}
final ICompilationUnit unit =
((JavaContentAssistInvocationContext) context).getCompilationUnit();
if (unit instanceof GroovyCompilationUnit) {
if (((GroovyCompilationUnit) unit).getModuleNode() == null) {
return Collections.emptyList();
}
final ContentAssistContext assistContext =
new GroovyCompletionProposalComputer()
.createContentAssistContext(
(GroovyCompilationUnit) unit,
context.getInvocationOffset(),
context.getDocument());
CharSequence prefix = null;
try {
prefix = context.computeIdentifierPrefix();
} catch (final BadLocationException e) {
BonitaStudioLog.error(e);
}
if (assistContext != null && assistContext.completionNode instanceof VariableExpression) {
try {
final VariableExpression expr = (VariableExpression) assistContext.completionNode;
if (scriptVariables != null) {
for (final ScriptVariable f : scriptVariables) {
if (expr.getName().equals(f.getName())) {
final IType type = javaProject.findType(f.getType());
if (type == null) {
return list;
}
for (final IMethod m : type.getMethods()) {
if (m.getElementName().startsWith(prefix.toString())) {
final GroovyCompletionProposal proposal =
new GroovyCompletionProposal(
CompletionProposal.METHOD_REF, context.getInvocationOffset());
proposal.setName(m.getElementName().toCharArray());
proposal.setCompletion(
m.getElementName().substring(prefix.length()).toCharArray());
proposal.setFlags(m.getFlags());
if (prefix.length() == m.getElementName().length()) {
proposal.setReplaceRange(
context.getInvocationOffset(), context.getInvocationOffset());
proposal.setReceiverRange(0, 0);
} else {
proposal.setReplaceRange(
context.getInvocationOffset() - prefix.length(),
context.getInvocationOffset());
proposal.setReceiverRange(prefix.length(), prefix.length());
}
final char[][] parametersArray =
new char[m.getParameterNames().length][256];
final List<Parameter> parameters = new ArrayList<Parameter>();
for (int i = 0; i < m.getParameterNames().length; i++) {
parametersArray[i] = m.getParameterNames()[i].toCharArray();
parameters.add(
new Parameter(
ClassHelper.make(
Signature.getSignatureSimpleName(m.getParameterTypes()[i])),
m.getParameterNames()[i]));
}
final ClassNode classNode =
ClassHelper.make(m.getDeclaringType().getFullyQualifiedName());
proposal.setDeclarationSignature(
ProposalUtils.createTypeSignature(classNode));
proposal.setParameterNames(parametersArray);
if (m.getDeclaringType().getFullyQualifiedName().equals(f.getType())) {
proposal.setRelevance(100);
}
final MethodNode methodNode =
new MethodNode(
m.getElementName(),
m.getFlags(),
ClassHelper.make(
Signature.getSignatureSimpleName(m.getReturnType())),
parameters.toArray(new Parameter[parameters.size()]),
new ClassNode[0],
null);
final char[] methodSignature =
ProposalUtils.createMethodSignature(methodNode);
proposal.setSignature(methodSignature);
final GroovyJavaGuessingCompletionProposal groovyProposal =
GroovyJavaGuessingCompletionProposal.createProposal(
proposal,
(JavaContentAssistInvocationContext) context,
true,
"Groovy",
ProposalFormattingOptions.newFromOptions());
if (groovyProposal != null) {
list.add(groovyProposal);
}
}
}
}
}
}
} catch (final JavaModelException e) {
BonitaStudioLog.error(e);
}
}
}
return list;
}
} finally {
final CompletionContext coreContext =
((JavaContentAssistInvocationContext) context).getCoreContext();
if (extendContext && coreContext != null && coreContext.isExtended()) {
// must use reflection to set the fields
ReflectionUtils.setPrivateField(
InternalCompletionContext.class, "isExtended", coreContext, false);
}
}
return Collections.emptyList();
}
private void extractIType(IType type) {
try {
String fqn = type.getFullyQualifiedName();
// Write the entity
if (type.isClass()) {
entityWriter.writeClass(fqn, type.getFlags(), path);
// Write the superclass
String superSig = type.getSuperclassTypeSignature();
if (superSig != null) {
relationWriter.writeExtends(fqn, typeSignatureToFqn(superSig), path);
}
} else if (type.isAnnotation()) {
entityWriter.writeAnnotation(fqn, type.getFlags(), path);
} else if (type.isInterface()) {
entityWriter.writeInterface(fqn, type.getFlags(), path);
} else if (type.isEnum()) {
entityWriter.writeEnum(fqn, type.getFlags(), path);
}
// Write the superinterfaces
for (String superIntSig : type.getSuperInterfaceTypeSignatures()) {
relationWriter.writeImplements(fqn, typeSignatureToFqn(superIntSig), path);
}
if (!fqnStack.isEmpty()) {
relationWriter.writeInside(type.getFullyQualifiedName(), fqnStack.peek(), path);
}
fqnStack.push(type.getFullyQualifiedName());
for (IType child : type.getTypes()) {
extractIType(child);
}
for (IField field : type.getFields()) {
if (!Flags.isSynthetic(field.getFlags())) {
extractIField(field);
}
}
for (IMethod method : type.getMethods()) {
if (!Flags.isSynthetic(method.getFlags())
|| (Flags.isSynthetic(method.getFlags())
&& method.isConstructor()
&& method.getParameterTypes().length == 0)) {
extractIMethod(method, type.isAnnotation());
}
}
int pos = 0;
for (ITypeParameter param : type.getTypeParameters()) {
relationWriter.writeParametrizedBy(fqn, getTypeParam(param), pos++, path);
}
fqnStack.pop();
} catch (Exception e) {
logger.log(Level.SEVERE, "Error in extracting class file", e);
}
}
/**
* Determines is the java element contains a method with a specific annotation.
*
* <p>The syntax for the property tester is of the form: qualified or unqualified annotation name,
* modifiers
* <li>qualified or unqualified annotation name, required. For example, <code>org.junit.JUnit
* </code>.
* <li>modifiers - optional space separated list of modifiers, for example, <code>public static
* </code>.
* </ol>
*
* @param element the element to check for the method
* @param annotationName the qualified or unqualified name of the annotation to look for
* @return true if the method is found in the element, false otherwise
*/
private boolean hasMethodWithAnnotation(IJavaElement element, Object[] args) {
try {
String annotationType = (String) args[0];
int flags = 0;
if (args.length > 1) {
String[] modifiers = ((String) args[1]).split(" "); // $NON-NLS-1$
for (int j = 0; j < modifiers.length; j++) {
String modifier = modifiers[j];
Integer flag = (Integer) fgModifiers.get(modifier);
if (flag != null) {
flags = flags | flag.intValue();
}
}
} else {
flags = -1;
}
IType type = getType(element);
if (type == null || !type.exists()) {
return false;
}
IMethod[] methods = type.getMethods();
if (methods.length == 0) {
return false;
}
IBuffer buffer = null;
IOpenable openable = type.getOpenable();
if (openable instanceof ICompilationUnit) {
buffer = ((ICompilationUnit) openable).getBuffer();
} else if (openable instanceof IClassFile) {
buffer = ((IClassFile) openable).getBuffer();
}
if (buffer == null) {
return false;
}
IScanner scanner = null; // delay initialization
for (int i = 0; i < methods.length; i++) {
IMethod curr = methods[i];
if (curr.isConstructor() || (flags != -1 && flags != (curr.getFlags() & FLAGS_MASK))) {
continue;
}
ISourceRange sourceRange = curr.getSourceRange();
ISourceRange nameRange = curr.getNameRange();
if (sourceRange != null && nameRange != null) {
if (scanner == null) {
scanner = ToolFactory.createScanner(false, false, true, false);
scanner.setSource(buffer.getCharacters());
}
scanner.resetTo(sourceRange.getOffset(), nameRange.getOffset());
if (findAnnotation(scanner, annotationType)) {
return true;
}
}
}
} catch (JavaModelException e) {
} catch (InvalidInputException e) {
}
return false;
}
private boolean isPrivate(IMethod method) throws JavaModelException {
return (method.getFlags() & Flags.AccPrivate) != 0;
}