public void replaceDotToken(PsiElement newDot) {
if (newDot == null) return;
if (!TokenSets.DOTS.contains(newDot.getNode().getElementType())) return;
final PsiElement oldDot = getDotToken();
if (oldDot == null) return;
getNode().replaceChild(oldDot.getNode(), newDot.getNode());
}
private static PsiType doFun(GrReferenceExpression refExpr) {
if (ResolveUtil.isClassReference(refExpr)) {
GrExpression qualifier = refExpr.getQualifier();
LOG.assertTrue(qualifier != null);
return TypesUtil.createJavaLangClassType(
qualifier.getType(), refExpr.getProject(), refExpr.getResolveScope());
}
if (PsiUtil.isCompileStatic(refExpr)) {
final GroovyResolveResult resolveResult = refExpr.advancedResolve();
final PsiElement resolvedF = resolveResult.getElement();
final PsiType type;
if (resolvedF instanceof GrField) {
type = ((GrField) resolvedF).getType();
} else if (resolvedF instanceof GrAccessorMethod) {
type = ((GrAccessorMethod) resolvedF).getProperty().getType();
} else {
type = null;
}
if (type != null) {
return resolveResult.getSubstitutor().substitute(type);
}
}
final PsiElement resolved = refExpr.resolve();
final PsiType nominal = refExpr.getNominalType();
Boolean reassigned = GrReassignedLocalVarsChecker.isReassignedVar(refExpr);
if (reassigned != null && reassigned.booleanValue()) {
return GrReassignedLocalVarsChecker.getReassignedVarType(refExpr, true);
}
final PsiType inferred = getInferredTypes(refExpr, resolved);
if (inferred == null) {
if (nominal == null) {
// inside nested closure we could still try to infer from variable initializer. Not sound,
// but makes sense
if (resolved instanceof GrVariable) {
LOG.assertTrue(resolved.isValid());
return ((GrVariable) resolved).getTypeGroovy();
}
}
return nominal;
}
if (nominal == null) return inferred;
if (!TypeConversionUtil.isAssignable(TypeConversionUtil.erasure(nominal), inferred, false)) {
if (resolved instanceof GrVariable
&& ((GrVariable) resolved).getTypeElementGroovy() != null) {
return nominal;
}
}
return inferred;
}
public PsiElement handleElementRenameSimple(String newElementName)
throws IncorrectOperationException {
if (!PsiUtil.isValidReferenceName(newElementName)) {
final PsiElement old = getReferenceNameElement();
if (old == null) throw new IncorrectOperationException("ref has no name element");
PsiElement element =
GroovyPsiElementFactory.getInstance(getProject())
.createStringLiteralForReference(newElementName);
old.replace(element);
return this;
}
return super.handleElementRenameSimple(newElementName);
}
public String getReferenceName() {
PsiElement nameElement = getReferenceNameElement();
if (nameElement != null) {
IElementType nodeType = nameElement.getNode().getElementType();
if (TokenSets.STRING_LITERAL_SET.contains(nodeType)) {
final Object value = GrLiteralImpl.getLiteralValue(nameElement);
if (value instanceof String) {
return (String) value;
}
}
return nameElement.getText();
}
return null;
}
private void processMethods(final MethodResolverProcessor methodResolver) {
GrReferenceResolveUtil.resolveImpl(methodResolver, this);
if (methodResolver.hasApplicableCandidates()) {
return;
}
// Search in ClosureMissingMethodContributor
if (!isQualified() && getContext() instanceof GrMethodCall) {
for (PsiElement e = this.getContext(); e != null; e = e.getContext()) {
if (e instanceof GrClosableBlock) {
ResolveState state = ResolveState.initial().put(ResolverProcessor.RESOLVE_CONTEXT, e);
for (ClosureMissingMethodContributor contributor :
ClosureMissingMethodContributor.EP_NAME.getExtensions()) {
if (!contributor.processMembers((GrClosableBlock) e, methodResolver, this, state)) {
return;
}
}
}
}
}
}
@Nullable
public PsiType fun(GrReferenceExpressionImpl refExpr) {
PsiType result = GrReassignedLocalVarsChecker.checkReassignedVar(refExpr, true);
if (result != null) return result;
if (GrUnresolvedAccessInspection.isClassReference(refExpr)) {
GrExpression qualifier = refExpr.getQualifier();
LOG.assertTrue(qualifier != null);
return TypesUtil.createJavaLangClassType(
qualifier.getType(), refExpr.getProject(), refExpr.getResolveScope());
}
final PsiElement resolved = refExpr.resolve();
final PsiType inferred = getInferredTypes(refExpr, resolved);
final PsiType nominal = refExpr.getNominalType();
if (inferred == null || PsiType.NULL.equals(inferred)) {
if (nominal == null) {
// inside nested closure we could still try to infer from variable initializer. Not sound,
// but makes sense
if (resolved instanceof GrVariable) {
LOG.assertTrue(resolved.isValid());
return ((GrVariable) resolved).getTypeGroovy();
}
}
return nominal;
}
if (nominal == null) return inferred;
if (!TypeConversionUtil.isAssignable(TypeConversionUtil.erasure(nominal), inferred, false)) {
if (resolved instanceof GrVariable
&& ((GrVariable) resolved).getTypeElementGroovy() != null) {
return nominal;
}
}
return inferred;
}
@Nullable
public IElementType getDotTokenType() {
PsiElement dot = getDotToken();
return dot == null ? null : dot.getNode().getElementType();
}
@Nullable
private PsiType getNominalTypeInner(PsiElement resolved) {
if (resolved == null && !"class".equals(getReferenceName())) {
resolved = resolve();
}
if (resolved instanceof PsiClass) {
final PsiElementFactory factory = JavaPsiFacade.getInstance(getProject()).getElementFactory();
if (PsiUtil.isInstanceThisRef(this)) {
final PsiClassType categoryType = GdkMethodUtil.getCategoryType((PsiClass) resolved);
if (categoryType != null) {
return categoryType;
} else {
return factory.createType((PsiClass) resolved);
}
}
if (getParent() instanceof GrReferenceExpression || PsiUtil.isSuperReference(this)) {
return factory.createType((PsiClass) resolved);
} else {
return TypesUtil.createJavaLangClassType(
factory.createType((PsiClass) resolved), getProject(), getResolveScope());
}
}
if (resolved instanceof GrVariable) {
return ((GrVariable) resolved).getDeclaredType();
}
if (resolved instanceof PsiVariable) {
return ((PsiVariable) resolved).getType();
}
if (resolved instanceof PsiMethod) {
PsiMethod method = (PsiMethod) resolved;
if (PropertyUtil.isSimplePropertySetter(method)
&& !method.getName().equals(getReferenceName())) {
return method.getParameterList().getParameters()[0].getType();
}
// 'class' property with explicit generic
PsiClass containingClass = method.getContainingClass();
if (containingClass != null
&& CommonClassNames.JAVA_LANG_OBJECT.equals(containingClass.getQualifiedName())
&& "getClass".equals(method.getName())) {
return TypesUtil.createJavaLangClassType(
GrReferenceResolveUtil.getQualifierType(this), getProject(), getResolveScope());
}
return PsiUtil.getSmartReturnType(method);
}
if (resolved instanceof GrReferenceExpression) {
PsiElement parent = resolved.getParent();
if (parent instanceof GrAssignmentExpression) {
GrAssignmentExpression assignment = (GrAssignmentExpression) parent;
if (resolved.equals(assignment.getLValue())) {
GrExpression rValue = assignment.getRValue();
if (rValue != null) {
PsiType rType = rValue.getType();
if (rType != null) {
return rType;
}
}
}
}
}
if (resolved == null) {
final PsiType fromClassRef = getTypeFromClassRef(this);
if (fromClassRef != null) {
return fromClassRef;
}
final PsiType fromMapAccess = getTypeFromMapAccess(this);
if (fromMapAccess != null) {
return fromMapAccess;
}
final PsiType fromSpreadOperator = getTypeFromSpreadOperator(this);
if (fromSpreadOperator != null) {
return fromSpreadOperator;
}
}
return null;
}
private static void assertAllAreValid(GroovyResolveResult[] candidates) {
for (GroovyResolveResult candidate : candidates) {
final PsiElement element = candidate.getElement();
LOG.assertTrue(element == null || element.isValid());
}
}
private GroovyResolveResult[] resolveTypeOrPropertyInner() {
PsiElement nameElement = getReferenceNameElement();
String name = getReferenceName();
if (name == null || nameElement == null) return GroovyResolveResult.EMPTY_ARRAY;
IElementType nameType = nameElement.getNode().getElementType();
if (nameType == GroovyTokenTypes.kTHIS) {
ArrayList<GroovyResolveResult> results = new ArrayList<GroovyResolveResult>();
if (GrReferenceResolveUtil.resolveThisExpression(this, results)) {
return results.toArray(new GroovyResolveResult[results.size()]);
}
} else if (nameType == GroovyTokenTypes.kSUPER) {
ArrayList<GroovyResolveResult> results = new ArrayList<GroovyResolveResult>();
if (GrReferenceResolveUtil.resolveSuperExpression(this, results)) {
return results.toArray(new GroovyResolveResult[results.size()]);
}
}
EnumSet<ClassHint.ResolveKind> kinds =
getParent() instanceof GrReferenceExpression
? ResolverProcessor.RESOLVE_KINDS_CLASS_PACKAGE
: ResolverProcessor.RESOLVE_KINDS_CLASS;
GroovyResolveResult[] classCandidates = null;
ResolverProcessor processor = new PropertyResolverProcessor(name, this);
GrReferenceResolveUtil.resolveImpl(processor, this);
final GroovyResolveResult[] fieldCandidates = processor.getCandidates();
if (hasAt()) {
return fieldCandidates;
}
boolean canBeClassOrPackage = ResolveUtil.canBeClassOrPackage(this);
if (canBeClassOrPackage && findClassOrPackageAtFirst()) {
boolean preferVar = containsLocalVar(fieldCandidates);
if (!preferVar) {
ResolverProcessor classProcessor = new ClassResolverProcessor(name, this, kinds);
GrReferenceResolveUtil.resolveImpl(classProcessor, this);
classCandidates = classProcessor.getCandidates();
if (classCandidates.length > 0) return classCandidates;
}
}
// if reference expression is in class we need to return field instead of accessor method
for (GroovyResolveResult candidate : fieldCandidates) {
final PsiElement element = candidate.getElement();
if (element instanceof PsiField) {
final PsiClass containingClass = ((PsiField) element).getContainingClass();
if (containingClass != null && PsiTreeUtil.isContextAncestor(containingClass, this, true))
return fieldCandidates;
} else {
return fieldCandidates;
}
}
final boolean isLValue = PsiUtil.isLValue(this);
String[] accessorNames =
isLValue
? GroovyPropertyUtils.suggestSettersName(name)
: GroovyPropertyUtils.suggestGettersName(name);
List<GroovyResolveResult> accessorResults = new ArrayList<GroovyResolveResult>();
for (String accessorName : accessorNames) {
AccessorResolverProcessor accessorResolver =
new AccessorResolverProcessor(
accessorName,
name,
this,
!isLValue,
false,
GrReferenceResolveUtil.getQualifierType(this),
getTypeArguments());
GrReferenceResolveUtil.resolveImpl(accessorResolver, this);
final GroovyResolveResult[] candidates = accessorResolver.getCandidates();
// can be only one correct candidate or some incorrect
if (candidates.length == 1 && candidates[0].isStaticsOK() && candidates[0].isAccessible()) {
return candidates;
} else {
ContainerUtil.addAll(accessorResults, candidates);
}
}
if (fieldCandidates.length > 0) return fieldCandidates;
if (classCandidates == null && canBeClassOrPackage) {
ResolverProcessor classProcessor = new ClassResolverProcessor(name, this, kinds);
GrReferenceResolveUtil.resolveImpl(classProcessor, this);
classCandidates = classProcessor.getCandidates();
}
if (classCandidates != null && classCandidates.length > 0) return classCandidates;
if (accessorResults.size() > 0) return new GroovyResolveResult[] {accessorResults.get(0)};
return GroovyResolveResult.EMPTY_ARRAY;
}
@NotNull
private GroovyResolveResult[] resolveTypeOrPropertyInner() {
PsiElement nameElement = getReferenceNameElement();
String name = getReferenceName();
if (name == null || nameElement == null) return GroovyResolveResult.EMPTY_ARRAY;
IElementType nameType = nameElement.getNode().getElementType();
if (nameType == GroovyTokenTypes.kTHIS) {
GroovyResolveResult[] results = GrThisReferenceResolver.resolveThisExpression(this);
if (results != null) {
return results;
}
} else if (nameType == GroovyTokenTypes.kSUPER) {
GroovyResolveResult[] results = GrSuperReferenceResolver.resolveSuperExpression(this);
if (results != null) {
return results;
}
}
EnumSet<ClassHint.ResolveKind> kinds =
getParent() instanceof GrReferenceExpression
? ClassHint.RESOLVE_KINDS_CLASS_PACKAGE
: ClassHint.RESOLVE_KINDS_CLASS;
GroovyResolveResult[] classCandidates = null;
GrReferenceResolveRunner resolveRunner = new GrReferenceResolveRunner(this);
ResolverProcessor processor = new PropertyResolverProcessor(name, this);
resolveRunner.resolveImpl(processor);
final GroovyResolveResult[] fieldCandidates = processor.getCandidates();
if (hasAt()) {
return fieldCandidates;
}
boolean canBeClassOrPackage = ResolveUtil.canBeClassOrPackage(this);
if (canBeClassOrPackage && findClassOrPackageAtFirst()) {
ResolverProcessor classProcessor = new ClassResolverProcessor(name, this, kinds);
resolveRunner.resolveImpl(classProcessor);
classCandidates = classProcessor.getCandidates();
if (classCandidates.length > 0 && containsPackage(classCandidates)) {
final PsiElement firstNonReferenceExprParent =
PsiTreeUtil.skipParentsOfType(this, GrReferenceExpressionImpl.class);
final GrReferenceExpressionImpl topRef =
(GrReferenceExpressionImpl)
PsiTreeUtil.findFirstParent(
this,
new Condition<PsiElement>() {
@Override
public boolean value(PsiElement parent) {
return parent.getParent() == firstNonReferenceExprParent
&& parent instanceof GrReferenceExpressionImpl;
}
});
if (topRef != null) {
final String fqn = topRef.getTextSkipWhiteSpaceAndComments();
if (JavaPsiFacade.getInstance(getProject()).findClass(fqn, getResolveScope()) != null) {
return classCandidates;
}
}
}
}
// if reference expression is in class we need to return field instead of accessor method
for (GroovyResolveResult candidate : fieldCandidates) {
final PsiElement element = candidate.getElement();
if (element instanceof PsiField) {
final PsiClass containingClass = ((PsiField) element).getContainingClass();
if (containingClass != null && PsiUtil.getContextClass(this) == containingClass)
return fieldCandidates;
} else if (!(element instanceof GrBindingVariable)) {
return fieldCandidates;
}
}
if (classCandidates != null && classCandidates.length > 0) return classCandidates;
final boolean isLValue = PsiUtil.isLValue(this);
String[] accessorNames =
isLValue
? GroovyPropertyUtils.suggestSettersName(name)
: GroovyPropertyUtils.suggestGettersName(name);
List<GroovyResolveResult> accessorResults = new ArrayList<GroovyResolveResult>();
for (String accessorName : accessorNames) {
AccessorResolverProcessor accessorResolver =
new AccessorResolverProcessor(
accessorName,
name,
this,
!isLValue,
false,
PsiImplUtil.getQualifierType(this),
getTypeArguments());
resolveRunner.resolveImpl(accessorResolver);
final GroovyResolveResult[] candidates = accessorResolver.getCandidates();
// can be only one correct candidate or some incorrect
if (candidates.length == 1 && candidates[0].isStaticsOK() && candidates[0].isAccessible()) {
return candidates;
} else {
ContainerUtil.addAll(accessorResults, candidates);
}
}
final ArrayList<GroovyResolveResult> fieldList = ContainerUtil.newArrayList(fieldCandidates);
filterOutBindings(fieldList);
if (!fieldList.isEmpty()) {
return fieldList.toArray(new GroovyResolveResult[fieldList.size()]);
}
if (classCandidates == null && canBeClassOrPackage) {
ResolverProcessor classProcessor = new ClassResolverProcessor(name, this, kinds);
resolveRunner.resolveImpl(classProcessor);
classCandidates = classProcessor.getCandidates();
}
if (classCandidates != null && classCandidates.length > 0) return classCandidates;
if (!accessorResults.isEmpty()) return new GroovyResolveResult[] {accessorResults.get(0)};
return GroovyResolveResult.EMPTY_ARRAY;
}
