private boolean isApplicableTo(
@NotNull PsiType[] types2AtSite,
@NotNull PsiMethod method1,
@NotNull LanguageLevel languageLevel,
boolean varargsPosition,
@NotNull PsiSubstitutor methodSubstitutor1,
PsiMethod method2) {
if (languageLevel.isAtLeast(LanguageLevel.JDK_1_8)
&& method2 != null
&& method1.getTypeParameters().length > 0
&& myArgumentsList instanceof PsiExpressionList) {
final PsiElement parent = myArgumentsList.getParent();
if (parent instanceof PsiCallExpression
&& ((PsiCallExpression) parent).getTypeArguments().length == 0) {
return InferenceSession.isMoreSpecific(
method2,
method1,
((PsiExpressionList) myArgumentsList).getExpressions(),
myArgumentsList,
varargsPosition);
}
}
final int applicabilityLevel =
PsiUtil.getApplicabilityLevel(
method1, methodSubstitutor1, types2AtSite, languageLevel, false, varargsPosition);
return applicabilityLevel > MethodCandidateInfo.ApplicabilityLevel.NOT_APPLICABLE;
}
public void testInferWithBounds1() throws Exception {
PsiReferenceExpression ref = configure();
JavaResolveResult resolveResult = ref.advancedResolve(false);
PsiSubstitutor substitutor = resolveResult.getSubstitutor();
PsiMethod method = (PsiMethod) resolveResult.getElement();
PsiType type = substitutor.substitute(method.getTypeParameters()[0]);
assertEquals("java.lang.String", type.getCanonicalText());
}
public ExtractClassProcessor(
PsiClass sourceClass,
List<PsiField> fields,
List<PsiMethod> methods,
List<PsiClass> classes,
String packageName,
MoveDestination moveDestination,
String newClassName,
String newVisibility,
boolean generateAccessors,
List<MemberInfo> enumConstants) {
super(sourceClass.getProject());
this.sourceClass = sourceClass;
this.newPackageName = packageName;
myMoveDestination = moveDestination;
myNewVisibility = newVisibility;
myGenerateAccessors = generateAccessors;
this.enumConstants = new ArrayList<PsiField>();
for (MemberInfo constant : enumConstants) {
if (constant.isChecked()) {
this.enumConstants.add((PsiField) constant.getMember());
}
}
this.fields = new ArrayList<PsiField>(fields);
this.methods = new ArrayList<PsiMethod>(methods);
this.innerClasses = new ArrayList<PsiClass>(classes);
this.newClassName = newClassName;
delegateFieldName = calculateDelegateFieldName();
requiresBackpointer =
new BackpointerUsageVisitor(fields, innerClasses, methods, sourceClass)
.backpointerRequired();
if (requiresBackpointer) {
ContainerUtil.addAll(typeParams, sourceClass.getTypeParameters());
} else {
final Set<PsiTypeParameter> typeParamSet = new HashSet<PsiTypeParameter>();
final TypeParametersVisitor visitor = new TypeParametersVisitor(typeParamSet);
for (PsiField field : fields) {
field.accept(visitor);
}
for (PsiMethod method : methods) {
method.accept(visitor);
// do not include method's type parameters in class signature
typeParamSet.removeAll(Arrays.asList(method.getTypeParameters()));
}
typeParams.addAll(typeParamSet);
}
myClass =
new WriteCommandAction<PsiClass>(myProject, getCommandName()) {
@Override
protected void run(@NotNull Result<PsiClass> result) throws Throwable {
result.setResult(buildClass());
}
}.execute().getResultObject();
myExtractEnumProcessor = new ExtractEnumProcessor(myProject, this.enumConstants, myClass);
}
private static PsiSubstitutor checkRaw(
boolean isRaw,
@NotNull PsiElementFactory factory,
@NotNull PsiMethod candidateMethod,
@NotNull PsiSubstitutor substitutor) {
if (isRaw
&& !candidateMethod.hasModifierProperty(
PsiModifier.STATIC)) { // static methods are not erased due to raw overriding
PsiTypeParameter[] methodTypeParameters = candidateMethod.getTypeParameters();
substitutor = factory.createRawSubstitutor(substitutor, methodTypeParameters);
}
return substitutor;
}
@NotNull
private Function methodToFunction(@NotNull PsiMethod method, boolean notEmpty) {
if (isOverrideObjectDirect(method)) {
dispatcher.setExpressionVisitor(new ExpressionVisitorForDirectObjectInheritors(this));
} else {
dispatcher.setExpressionVisitor(new ExpressionVisitor(this));
}
methodReturnType = method.getReturnType();
IdentifierImpl identifier = new IdentifierImpl(method.getName());
Type returnType =
typeToType(
method.getReturnType(), ConverterUtil.isAnnotatedAsNotNull(method.getModifierList()));
Block body =
hasFlag(J2KConverterFlags.SKIP_BODIES)
? Block.EMPTY_BLOCK
: blockToBlock(method.getBody(), notEmpty); // #TODO
Element params = createFunctionParameters(method);
List<Element> typeParameters = elementsToElementList(method.getTypeParameters());
Set<String> modifiers = modifiersListToModifiersSet(method.getModifierList());
if (isOverrideAnyMethodExceptMethodsFromObject(method)) {
modifiers.add(Modifier.OVERRIDE);
}
if (method.getParent() instanceof PsiClass && ((PsiClass) method.getParent()).isInterface()) {
modifiers.remove(Modifier.ABSTRACT);
}
if (isNotOpenMethod(method)) {
modifiers.add(Modifier.NOT_OPEN);
}
if (method.isConstructor()) { // TODO: simplify
boolean isPrimary = isConstructorPrimary(method);
return new Constructor(
identifier,
modifiers,
returnType,
typeParameters,
params,
new Block(removeEmpty(body.getStatements()), false),
isPrimary);
}
return new Function(identifier, modifiers, returnType, typeParameters, params, body);
}
@Override
public boolean reduce(InferenceSession session, List<ConstraintFormula> constraints) {
if (!LambdaUtil.isFunctionalType(myT)) {
return false;
}
final PsiType groundTargetType =
FunctionalInterfaceParameterizationUtil.getGroundTargetType(myT);
final PsiClassType.ClassResolveResult classResolveResult =
PsiUtil.resolveGenericsClassInType(groundTargetType);
final PsiMethod interfaceMethod = LambdaUtil.getFunctionalInterfaceMethod(classResolveResult);
if (interfaceMethod == null) {
return false;
}
final PsiSubstitutor substitutor =
LambdaUtil.getSubstitutor(interfaceMethod, classResolveResult);
final PsiParameter[] targetParameters = interfaceMethod.getParameterList().getParameters();
final PsiType interfaceMethodReturnType = interfaceMethod.getReturnType();
final PsiType returnType = substitutor.substitute(interfaceMethodReturnType);
final PsiType[] typeParameters = myExpression.getTypeParameters();
final PsiMethodReferenceUtil.QualifierResolveResult qualifierResolveResult =
PsiMethodReferenceUtil.getQualifierResolveResult(myExpression);
if (!myExpression.isExact()) {
for (PsiParameter parameter : targetParameters) {
if (!session.isProperType(substitutor.substitute(parameter.getType()))) {
return false;
}
}
} else {
final PsiMember applicableMember = myExpression.getPotentiallyApplicableMember();
LOG.assertTrue(applicableMember != null);
final PsiClass applicableMemberContainingClass = applicableMember.getContainingClass();
final PsiClass containingClass = qualifierResolveResult.getContainingClass();
PsiSubstitutor psiSubstitutor = qualifierResolveResult.getSubstitutor();
psiSubstitutor =
applicableMemberContainingClass == null
|| containingClass == null
|| myExpression.isConstructor()
? psiSubstitutor
: TypeConversionUtil.getSuperClassSubstitutor(
applicableMemberContainingClass, containingClass, psiSubstitutor);
PsiType applicableMethodReturnType =
applicableMember instanceof PsiMethod
? ((PsiMethod) applicableMember).getReturnType()
: null;
int idx = 0;
for (PsiTypeParameter param :
((PsiTypeParameterListOwner) applicableMember).getTypeParameters()) {
if (idx < typeParameters.length) {
psiSubstitutor = psiSubstitutor.put(param, typeParameters[idx++]);
}
}
final PsiParameter[] parameters =
applicableMember instanceof PsiMethod
? ((PsiMethod) applicableMember).getParameterList().getParameters()
: PsiParameter.EMPTY_ARRAY;
if (targetParameters.length == parameters.length + 1) {
specialCase(session, constraints, substitutor, targetParameters, true);
for (int i = 1; i < targetParameters.length; i++) {
constraints.add(
new TypeCompatibilityConstraint(
session.substituteWithInferenceVariables(
psiSubstitutor.substitute(parameters[i - 1].getType())),
substitutor.substitute(targetParameters[i].getType())));
}
} else if (targetParameters.length == parameters.length) {
for (int i = 0; i < targetParameters.length; i++) {
constraints.add(
new TypeCompatibilityConstraint(
session.substituteWithInferenceVariables(
psiSubstitutor.substitute(parameters[i].getType())),
substitutor.substitute(targetParameters[i].getType())));
}
} else {
return false;
}
if (returnType != PsiType.VOID && returnType != null) {
if (applicableMethodReturnType == PsiType.VOID) {
return false;
}
if (applicableMethodReturnType != null) {
constraints.add(
new TypeCompatibilityConstraint(
returnType,
session.substituteWithInferenceVariables(
psiSubstitutor.substitute(applicableMethodReturnType))));
} else if (applicableMember instanceof PsiClass
|| applicableMember instanceof PsiMethod
&& ((PsiMethod) applicableMember).isConstructor()) {
final PsiElementFactory elementFactory =
JavaPsiFacade.getElementFactory(applicableMember.getProject());
if (containingClass != null) {
final PsiType classType =
session.substituteWithInferenceVariables(
elementFactory.createType(containingClass, psiSubstitutor));
constraints.add(new TypeCompatibilityConstraint(returnType, classType));
}
}
}
return true;
}
final Map<PsiElement, PsiType> map = LambdaUtil.getFunctionalTypeMap();
final PsiType added = map.put(myExpression, session.startWithFreshVars(groundTargetType));
final JavaResolveResult resolve;
try {
resolve = myExpression.advancedResolve(true);
} finally {
if (added == null) {
map.remove(myExpression);
}
}
final PsiElement element = resolve.getElement();
if (element == null) {
return false;
}
if (PsiType.VOID.equals(returnType) || returnType == null) {
return true;
}
if (element instanceof PsiMethod) {
final PsiMethod method = (PsiMethod) element;
final PsiType referencedMethodReturnType;
final PsiClass containingClass = method.getContainingClass();
LOG.assertTrue(containingClass != null, method);
PsiClass qContainingClass = qualifierResolveResult.getContainingClass();
PsiSubstitutor psiSubstitutor = qualifierResolveResult.getSubstitutor();
if (qContainingClass != null) {
if (PsiUtil.isRawSubstitutor(qContainingClass, psiSubstitutor)) {
psiSubstitutor = PsiSubstitutor.EMPTY;
}
if (qContainingClass.isInheritor(containingClass, true)) {
psiSubstitutor =
TypeConversionUtil.getClassSubstitutor(
containingClass, qContainingClass, PsiSubstitutor.EMPTY);
LOG.assertTrue(psiSubstitutor != null);
}
}
if (method.isConstructor()) {
referencedMethodReturnType =
JavaPsiFacade.getElementFactory(method.getProject())
.createType(containingClass, PsiSubstitutor.EMPTY);
} else {
referencedMethodReturnType = method.getReturnType();
}
LOG.assertTrue(referencedMethodReturnType != null, method);
if (!PsiTreeUtil.isContextAncestor(containingClass, myExpression, false)
|| PsiUtil.getEnclosingStaticElement(myExpression, containingClass) != null) {
session.initBounds(myExpression, containingClass.getTypeParameters());
}
session.initBounds(myExpression, method.getTypeParameters());
// if i) the method reference elides NonWildTypeArguments,
// ii) the compile-time declaration is a generic method, and
// iii) the return type of the compile-time declaration mentions at least one of the method's
// type parameters;
if (typeParameters.length == 0 && method.getTypeParameters().length > 0) {
final PsiClass interfaceClass = classResolveResult.getElement();
LOG.assertTrue(interfaceClass != null);
if (PsiPolyExpressionUtil.mentionsTypeParameters(
referencedMethodReturnType, ContainerUtil.newHashSet(method.getTypeParameters()))) {
// the constraint reduces to the bound set B3 which would be used to determine the method
// reference's invocation type
// when targeting the return type of the function type, as defined in 18.5.2.
session.collectApplicabilityConstraints(
myExpression, ((MethodCandidateInfo) resolve), groundTargetType);
session.registerReturnTypeConstraints(referencedMethodReturnType, returnType);
return true;
}
}
if (PsiType.VOID.equals(referencedMethodReturnType)) {
return false;
}
int idx = 0;
for (PsiTypeParameter param : method.getTypeParameters()) {
if (idx < typeParameters.length) {
psiSubstitutor = psiSubstitutor.put(param, typeParameters[idx++]);
}
}
final PsiParameter[] parameters = method.getParameterList().getParameters();
if (targetParameters.length == parameters.length + 1
&& !method.isVarArgs()
&& PsiPolyExpressionUtil.mentionsTypeParameters(
referencedMethodReturnType,
ContainerUtil.newHashSet(
containingClass.getTypeParameters()))) { // todo specification bug?
specialCase(session, constraints, substitutor, targetParameters, false);
}
constraints.add(
new TypeCompatibilityConstraint(
returnType,
session.substituteWithInferenceVariables(
psiSubstitutor.substitute(referencedMethodReturnType))));
}
return true;
}
@NotNull
private List<PsiMethod> getMethodsToImport() {
PsiShortNamesCache cache = PsiShortNamesCache.getInstance(myMethodCall.getProject());
PsiMethodCallExpression element = myMethodCall.getElement();
PsiReferenceExpression reference = element.getMethodExpression();
PsiExpressionList argumentList = element.getArgumentList();
String name = reference.getReferenceName();
List<PsiMethod> list = new ArrayList<PsiMethod>();
if (name == null) return list;
GlobalSearchScope scope = element.getResolveScope();
PsiMethod[] methods = cache.getMethodsByNameIfNotMoreThan(name, scope, 20);
List<PsiMethod> applicableList = new ArrayList<PsiMethod>();
final PsiResolveHelper resolveHelper =
JavaPsiFacade.getInstance(element.getProject()).getResolveHelper();
for (PsiMethod method : methods) {
ProgressManager.checkCanceled();
if (JavaCompletionUtil.isInExcludedPackage(method)) continue;
if (!method.hasModifierProperty(PsiModifier.STATIC)) continue;
PsiFile file = method.getContainingFile();
if (file instanceof PsiJavaFile
// do not show methods from default package
&& ((PsiJavaFile) file).getPackageName().length() != 0
&& PsiUtil.isAccessible(method, element, method.getContainingClass())) {
list.add(method);
PsiSubstitutor substitutorForMethod =
resolveHelper.inferTypeArguments(
method.getTypeParameters(),
method.getParameterList().getParameters(),
argumentList.getExpressions(),
PsiSubstitutor.EMPTY,
element.getParent(),
DefaultParameterTypeInferencePolicy.INSTANCE);
if (PsiUtil.isApplicable(method, substitutorForMethod, argumentList)) {
applicableList.add(method);
}
}
}
List<PsiMethod> result = applicableList.isEmpty() ? list : applicableList;
for (int i = result.size() - 1; i >= 0; i--) {
ProgressManager.checkCanceled();
PsiMethod method = result.get(i);
PsiClass containingClass = method.getContainingClass();
for (int j = i + 1; j < result.size(); j++) {
PsiMethod exMethod = result.get(j);
if (!Comparing.strEqual(exMethod.getName(), method.getName())) continue;
PsiClass exContainingClass = exMethod.getContainingClass();
if (containingClass != null
&& exContainingClass != null
&& !Comparing.equal(
containingClass.getQualifiedName(), exContainingClass.getQualifiedName())) continue;
// same named methods, drop one
result.remove(i);
break;
}
// check for manually excluded
if (isExcluded(method)) {
result.remove(i);
}
}
Collections.sort(result, new PsiProximityComparator(argumentList));
return result;
}
private Specifics isMoreSpecific(
@NotNull MethodCandidateInfo info1,
@NotNull MethodCandidateInfo info2,
@MethodCandidateInfo.ApplicabilityLevelConstant int applicabilityLevel,
@NotNull LanguageLevel languageLevel) {
PsiMethod method1 = info1.getElement();
PsiMethod method2 = info2.getElement();
final PsiClass class1 = method1.getContainingClass();
final PsiClass class2 = method2.getContainingClass();
final PsiParameter[] params1 = method1.getParameterList().getParameters();
final PsiParameter[] params2 = method2.getParameterList().getParameters();
final PsiTypeParameter[] typeParameters1 = method1.getTypeParameters();
final PsiTypeParameter[] typeParameters2 = method2.getTypeParameters();
final PsiSubstitutor classSubstitutor1 =
info1.getSubstitutor(false); // substitutions for method type parameters will be ignored
final PsiSubstitutor classSubstitutor2 = info2.getSubstitutor(false);
final int max = Math.max(params1.length, params2.length);
PsiType[] types1 = PsiType.createArray(max);
PsiType[] types2 = PsiType.createArray(max);
final boolean varargsPosition =
applicabilityLevel == MethodCandidateInfo.ApplicabilityLevel.VARARGS;
for (int i = 0; i < max; i++) {
ProgressManager.checkCanceled();
PsiType type1 =
params1.length > 0 ? params1[Math.min(i, params1.length - 1)].getType() : null;
PsiType type2 =
params2.length > 0 ? params2[Math.min(i, params2.length - 1)].getType() : null;
if (varargsPosition) {
if (type1 instanceof PsiEllipsisType
&& type2 instanceof PsiEllipsisType
&& params1.length == params2.length
&& class1 != null
&& (!JavaVersionService.getInstance().isAtLeast(class1, JavaSdkVersion.JDK_1_7)
|| ((PsiArrayType) type1)
.getComponentType()
.equalsToText(CommonClassNames.JAVA_LANG_OBJECT)
|| ((PsiArrayType) type2)
.getComponentType()
.equalsToText(CommonClassNames.JAVA_LANG_OBJECT))) {
type1 = ((PsiEllipsisType) type1).toArrayType();
type2 = ((PsiEllipsisType) type2).toArrayType();
} else {
type1 =
type1 instanceof PsiEllipsisType ? ((PsiArrayType) type1).getComponentType() : type1;
type2 =
type2 instanceof PsiEllipsisType ? ((PsiArrayType) type2).getComponentType() : type2;
}
}
types1[i] = type1;
types2[i] = type2;
}
boolean sameBoxing = true;
int[] boxingHappened = new int[2];
for (int i = 0; i < types1.length; i++) {
ProgressManager.checkCanceled();
PsiType type1 = classSubstitutor1.substitute(types1[i]);
PsiType type2 = classSubstitutor2.substitute(types2[i]);
PsiType argType = i < getActualParameterTypes().length ? getActualParameterTypes()[i] : null;
boolean boxingInFirst = false;
if (isBoxingHappened(argType, type1, languageLevel)) {
boxingHappened[0] += 1;
boxingInFirst = true;
}
boolean boxingInSecond = false;
if (isBoxingHappened(argType, type2, languageLevel)) {
boxingHappened[1] += 1;
boxingInSecond = true;
}
sameBoxing &= boxingInFirst == boxingInSecond;
}
if (boxingHappened[0] == 0 && boxingHappened[1] > 0) return Specifics.FIRST;
if (boxingHappened[0] > 0 && boxingHappened[1] == 0) return Specifics.SECOND;
if (sameBoxing) {
final PsiSubstitutor siteSubstitutor1 = info1.getSiteSubstitutor();
final PsiSubstitutor siteSubstitutor2 = info2.getSiteSubstitutor();
final PsiType[] types2AtSite = typesAtSite(types2, siteSubstitutor2);
final PsiType[] types1AtSite = typesAtSite(types1, siteSubstitutor1);
final PsiSubstitutor methodSubstitutor1 =
calculateMethodSubstitutor(
typeParameters1, method1, siteSubstitutor1, types1, types2AtSite, languageLevel);
boolean applicable12 =
isApplicableTo(
types2AtSite, method1, languageLevel, varargsPosition, methodSubstitutor1, method2);
final PsiSubstitutor methodSubstitutor2 =
calculateMethodSubstitutor(
typeParameters2, method2, siteSubstitutor2, types2, types1AtSite, languageLevel);
boolean applicable21 =
isApplicableTo(
types1AtSite, method2, languageLevel, varargsPosition, methodSubstitutor2, method1);
if (!myLanguageLevel.isAtLeast(LanguageLevel.JDK_1_8)) {
final boolean typeArgsApplicable12 =
GenericsUtil.isTypeArgumentsApplicable(
typeParameters1, methodSubstitutor1, myArgumentsList, !applicable21);
final boolean typeArgsApplicable21 =
GenericsUtil.isTypeArgumentsApplicable(
typeParameters2, methodSubstitutor2, myArgumentsList, !applicable12);
if (!typeArgsApplicable12) {
applicable12 = false;
}
if (!typeArgsApplicable21) {
applicable21 = false;
}
}
if (applicable12 || applicable21) {
if (applicable12 && !applicable21) return Specifics.SECOND;
if (applicable21 && !applicable12) return Specifics.FIRST;
final boolean abstract1 = method1.hasModifierProperty(PsiModifier.ABSTRACT);
final boolean abstract2 = method2.hasModifierProperty(PsiModifier.ABSTRACT);
if (abstract1 && !abstract2) {
return Specifics.SECOND;
}
if (abstract2 && !abstract1) {
return Specifics.FIRST;
}
}
if (languageLevel.isAtLeast(LanguageLevel.JDK_1_8)
&& myArgumentsList instanceof PsiExpressionList
&& (typeParameters1.length == 0 || typeParameters2.length == 0)) {
boolean toCompareFunctional = false;
if (types1.length > 0 && types2.length > 0) {
for (int i = 0; i < getActualParametersLength(); i++) {
final PsiType type1 = types1[Math.min(i, types1.length - 1)];
final PsiType type2 = types2[Math.min(i, types2.length - 1)];
// from 15.12.2.5 Choosing the Most Specific Method
// In addition, a functional interface type S is more specific than a functional
// interface type T for an expression exp
// if T is not a subtype of S and one of the following conditions apply.
if (LambdaUtil.isFunctionalType(type1)
&& !TypeConversionUtil.erasure(type1).isAssignableFrom(type2)
&& LambdaUtil.isFunctionalType(type2)
&& !TypeConversionUtil.erasure(type2).isAssignableFrom(type1)) {
types1AtSite[Math.min(i, types1.length - 1)] = PsiType.NULL;
types2AtSite[Math.min(i, types2.length - 1)] = PsiType.NULL;
toCompareFunctional = true;
}
}
}
if (toCompareFunctional) {
final boolean applicable12ignoreFunctionalType =
isApplicableTo(
types2AtSite,
method1,
languageLevel,
varargsPosition,
calculateMethodSubstitutor(
typeParameters1,
method1,
siteSubstitutor1,
types1,
types2AtSite,
languageLevel),
null);
final boolean applicable21ignoreFunctionalType =
isApplicableTo(
types1AtSite,
method2,
languageLevel,
varargsPosition,
calculateMethodSubstitutor(
typeParameters2,
method2,
siteSubstitutor2,
types2,
types1AtSite,
languageLevel),
null);
if (applicable12ignoreFunctionalType || applicable21ignoreFunctionalType) {
Specifics specifics = null;
for (int i = 0; i < getActualParametersLength(); i++) {
if (types1AtSite[Math.min(i, types1.length - 1)] == PsiType.NULL
&& types2AtSite[Math.min(i, types2.length - 1)] == PsiType.NULL) {
Specifics specific =
isFunctionalTypeMoreSpecific(
info1, info2, ((PsiExpressionList) myArgumentsList).getExpressions()[i], i);
if (specific == Specifics.NEITHER) {
specifics = Specifics.NEITHER;
break;
}
if (specifics == null) {
specifics = specific;
} else if (specifics != specific) {
specifics = Specifics.NEITHER;
break;
}
}
}
if (!applicable12ignoreFunctionalType && applicable21ignoreFunctionalType) {
return specifics == Specifics.FIRST ? Specifics.FIRST : Specifics.NEITHER;
}
if (!applicable21ignoreFunctionalType && applicable12ignoreFunctionalType) {
return specifics == Specifics.SECOND ? Specifics.SECOND : Specifics.NEITHER;
}
return specifics;
}
}
}
} else if (varargsPosition) {
final PsiType lastParamType1 = classSubstitutor1.substitute(types1[types1.length - 1]);
final PsiType lastParamType2 = classSubstitutor2.substitute(types2[types1.length - 1]);
final boolean assignable1 = TypeConversionUtil.isAssignable(lastParamType2, lastParamType1);
final boolean assignable2 = TypeConversionUtil.isAssignable(lastParamType1, lastParamType2);
if (assignable1 && !assignable2) {
return Specifics.FIRST;
}
if (assignable2 && !assignable1) {
return Specifics.SECOND;
}
}
if (class1 != class2) {
if (class2.isInheritor(class1, true) || class1.isInterface() && !class2.isInterface()) {
if (MethodSignatureUtil.isSubsignature(
method1.getSignature(info1.getSubstitutor(false)),
method2.getSignature(info2.getSubstitutor(false)))) {
return Specifics.SECOND;
} else if (method1.hasModifierProperty(PsiModifier.STATIC)
&& method2.hasModifierProperty(PsiModifier.STATIC)
&& boxingHappened[0] == 0) {
return Specifics.SECOND;
}
} else if (MethodSignatureUtil.areErasedParametersEqual(
method1.getSignature(PsiSubstitutor.EMPTY),
method2.getSignature(PsiSubstitutor.EMPTY))
&& MethodSignatureUtil.isSubsignature(
method2.getSignature(info2.getSubstitutor(false)),
method1.getSignature(info1.getSubstitutor(false)))) {
return Specifics.FIRST;
} else if (class1.isInheritor(class2, true) || class2.isInterface()) {
if (method1.hasModifierProperty(PsiModifier.STATIC)
&& method2.hasModifierProperty(PsiModifier.STATIC)
&& boxingHappened[0] == 0) {
return Specifics.FIRST;
}
}
}
final boolean raw1 = PsiUtil.isRawSubstitutor(method1, classSubstitutor1);
final boolean raw2 = PsiUtil.isRawSubstitutor(method2, classSubstitutor2);
if (raw1 ^ raw2) {
return raw1 ? Specifics.SECOND : Specifics.FIRST;
}
final boolean varargs1 = info1.isVarargs();
final boolean varargs2 = info2.isVarargs();
if (varargs1 ^ varargs2) {
return varargs1 ? Specifics.SECOND : Specifics.FIRST;
}
return Specifics.NEITHER;
}
private static PsiMethod generateDelegateMethod(
PsiMethod method,
PsiClass superClass,
PsiSubstitutor substitutor,
boolean keepParameterAnnotations) {
final LightMethodBuilder builder =
new LightMethodBuilder(
superClass.getManager(), GroovyFileType.GROOVY_LANGUAGE, method.getName());
builder.setContainingClass(superClass);
builder.setMethodReturnType(substitutor.substitute(method.getReturnType()));
builder.setNavigationElement(method);
builder.addModifier(PsiModifier.PUBLIC);
final PsiTypeParameter[] typeParameters = method.getTypeParameters();
final PsiClass containingClass = method.getContainingClass();
boolean isRaw =
containingClass != null && PsiUtil.isRawSubstitutor(containingClass, substitutor);
if (isRaw) {
substitutor =
JavaPsiFacade.getInstance(method.getProject())
.getElementFactory()
.createRawSubstitutor(substitutor, typeParameters);
}
if (!isRaw) {
for (PsiTypeParameter typeParameter : typeParameters) {
builder.addTypeParameter(typeParameter);
}
}
final PsiParameter[] originalParameters = method.getParameterList().getParameters();
for (int i = 0; i < originalParameters.length; i++) {
PsiParameter originalParameter = originalParameters[i];
PsiType type;
if (isRaw) {
type = TypeConversionUtil.erasure(substitutor.substitute(originalParameter.getType()));
} else {
type = substitutor.substitute(originalParameter.getType());
}
if (type == null) {
type = PsiType.getJavaLangObject(superClass.getManager(), superClass.getResolveScope());
}
final LightParameter lightParameter =
new LightParameter(
StringUtil.notNullize(originalParameter.getName(), "p" + i),
type,
builder,
JavaLanguage.INSTANCE);
if (keepParameterAnnotations) {
final PsiCompositeModifierList delegatingModifierList =
new PsiCompositeModifierList(
method.getManager(),
Collections.singletonList(originalParameter.getModifierList()));
lightParameter.setModifierList(delegatingModifierList);
}
builder.addParameter(lightParameter);
}
builder.setBaseIcon(JetgroovyIcons.Groovy.Method);
return new DelegatedMethod(builder, method);
}
