private static boolean isAppMain(PsiMethod psiMethod, RefMethod refMethod) { if (!refMethod.isStatic()) return false; if (!PsiType.VOID.equals(psiMethod.getReturnType())) return false; PsiMethod appMainPattern = ((RefMethodImpl) refMethod).getRefJavaManager().getAppMainPattern(); if (MethodSignatureUtil.areSignaturesEqual(psiMethod, appMainPattern)) return true; PsiMethod appPremainPattern = ((RefMethodImpl) refMethod).getRefJavaManager().getAppPremainPattern(); if (MethodSignatureUtil.areSignaturesEqual(psiMethod, appPremainPattern)) return true; PsiMethod appAgentmainPattern = ((RefMethodImpl) refMethod).getRefJavaManager().getAppAgentmainPattern(); return MethodSignatureUtil.areSignaturesEqual(psiMethod, appAgentmainPattern); }
@NotNull private static PsiMethod[] findSuperMethodsInternal(PsiMethod method, PsiClass parentClass) { List<MethodSignatureBackedByPsiMethod> outputMethods = findSuperMethodSignatures(method, parentClass, false); return MethodSignatureUtil.convertMethodSignaturesToMethods(outputMethods); }
private static PsiSubstitutor calculateSubstitutor( PsiMethod derivedMethod, PsiMethod baseMethod) { PsiSubstitutor substitutor; if (derivedMethod.getManager().areElementsEquivalent(derivedMethod, baseMethod)) { substitutor = PsiSubstitutor.EMPTY; } else { final PsiClass baseClass = baseMethod.getContainingClass(); final PsiClass derivedClass = derivedMethod.getContainingClass(); if (baseClass != null && derivedClass != null && InheritanceUtil.isInheritorOrSelf(derivedClass, baseClass, true)) { final PsiSubstitutor superClassSubstitutor = TypeConversionUtil.getSuperClassSubstitutor( baseClass, derivedClass, PsiSubstitutor.EMPTY); final MethodSignature superMethodSignature = baseMethod.getSignature(superClassSubstitutor); final MethodSignature methodSignature = derivedMethod.getSignature(PsiSubstitutor.EMPTY); final PsiSubstitutor superMethodSubstitutor = MethodSignatureUtil.getSuperMethodSignatureSubstitutor( methodSignature, superMethodSignature); substitutor = superMethodSubstitutor != null ? superMethodSubstitutor : superClassSubstitutor; } else { substitutor = PsiSubstitutor.EMPTY; } } return substitutor; }
static boolean isInheritorOrSelf(PsiMethod inheritorCandidate, PsiMethod base) { PsiClass aClass = inheritorCandidate.getContainingClass(); PsiClass bClass = base.getContainingClass(); if (aClass == null || bClass == null) return false; PsiSubstitutor substitutor = TypeConversionUtil.getClassSubstitutor(bClass, aClass, PsiSubstitutor.EMPTY); return substitutor != null && MethodSignatureUtil.findMethodBySignature( bClass, inheritorCandidate.getSignature(substitutor), false) == base; }
private static boolean callerSignatureIsAboutToChangeToo( final PsiMethod caller, final UsageInfo[] usages) { for (UsageInfo usage : usages) { if (usage instanceof MethodCallUsageInfo && MethodSignatureUtil.isSuperMethod( ((MethodCallUsageInfo) usage).getReferencedMethod(), caller)) { return true; } } return false; }
public static boolean isMainOrPremainMethod(@NotNull PsiMethod method) { if (!PsiType.VOID.equals(method.getReturnType())) return false; String name = method.getName(); if (!("main".equals(name) || "premain".equals(name))) return false; PsiElementFactory factory = JavaPsiFacade.getInstance(method.getProject()).getElementFactory(); MethodSignature signature = method.getSignature(PsiSubstitutor.EMPTY); try { MethodSignature main = createSignatureFromText(factory, "void main(String[] args);"); if (MethodSignatureUtil.areSignaturesEqual(signature, main)) return true; MethodSignature premain = createSignatureFromText( factory, "void premain(String args, java.lang.instrument.Instrumentation i);"); if (MethodSignatureUtil.areSignaturesEqual(signature, premain)) return true; } catch (IncorrectOperationException e) { LOG.error(e); } return false; }
private boolean isOverridden( PsiClass inheritor, PsiMethod method, PsiMethod superMethod, PsiClass superInterface) { // calculate substitutor of containingClass --> inheritor PsiSubstitutor substitutor = TypeConversionUtil.getSuperClassSubstitutor( myContainingClass, inheritor, PsiSubstitutor.EMPTY); // calculate substitutor of inheritor --> superInterface substitutor = TypeConversionUtil.getSuperClassSubstitutor(superInterface, inheritor, substitutor); return MethodSignatureUtil.isSubsignature( superMethod.getSignature(substitutor), method.getSignature(PsiSubstitutor.EMPTY)); }
@Override public boolean setupDefaultValues( ChangeInfo changeInfo, Ref<UsageInfo[]> refUsages, Project project) { if (!(changeInfo instanceof JavaChangeInfo)) return true; for (UsageInfo usageInfo : refUsages.get()) { if (usageInfo instanceof GrMethodCallUsageInfo) { GrMethodCallUsageInfo methodCallUsageInfo = (GrMethodCallUsageInfo) usageInfo; if (methodCallUsageInfo.isToChangeArguments()) { final PsiElement element = methodCallUsageInfo.getElement(); if (element == null) continue; final PsiMethod caller = RefactoringUtil.getEnclosingMethod(element); final boolean needDefaultValue = !((JavaChangeInfo) changeInfo).getMethodsToPropagateParameters().contains(caller); final PsiMethod referencedMethod = methodCallUsageInfo.getReferencedMethod(); if (needDefaultValue && (caller == null || referencedMethod == null || !MethodSignatureUtil.isSuperMethod(referencedMethod, caller))) { final ParameterInfo[] parameters = changeInfo.getNewParameters(); for (ParameterInfo parameter : parameters) { final String defaultValue = parameter.getDefaultValue(); if (defaultValue == null && parameter.getOldIndex() == -1) { ((ParameterInfoImpl) parameter).setDefaultValue(""); if (!ApplicationManager.getApplication().isUnitTestMode()) { final PsiType type = ((ParameterInfoImpl) parameter) .getTypeWrapper() .getType(element, element.getManager()); final DefaultValueChooser chooser = new DefaultValueChooser( project, parameter.getName(), PsiTypesUtil.getDefaultValueOfType(type)); chooser.show(); if (chooser.isOK()) { if (chooser.feelLucky()) { parameter.setUseAnySingleVariable(true); } else { ((ParameterInfoImpl) parameter).setDefaultValue(chooser.getDefaultValue()); } } else { return false; } } } } } } } } return true; }
private static boolean isSuperMethod( PsiClass aClass, HierarchicalMethodSignature hierarchicalMethodSignature, HierarchicalMethodSignature superSignatureHierarchical) { PsiMethod superMethod = superSignatureHierarchical.getMethod(); PsiClass superClass = superMethod.getContainingClass(); PsiClass containingClass = hierarchicalMethodSignature.getMethod().getContainingClass(); if (!superMethod.isConstructor()) { if (!aClass.equals(superClass)) { if (PsiUtil.isAccessible(aClass.getProject(), superMethod, aClass, aClass)) { if (MethodSignatureUtil.isSubsignature( superSignatureHierarchical, hierarchicalMethodSignature)) { if (superClass != null) { if (superClass.isInterface() || CommonClassNames.JAVA_LANG_OBJECT.equals(superClass.getQualifiedName())) { if (superMethod.hasModifierProperty(PsiModifier.DEFAULT) || hierarchicalMethodSignature .getMethod() .hasModifierProperty(PsiModifier.DEFAULT)) { return !InheritanceUtil.isInheritorOrSelf(superClass, containingClass, true); } return true; } if (containingClass != null) { if (containingClass.isInterface()) { return false; } if (!aClass.isInterface() && !InheritanceUtil.isInheritorOrSelf(superClass, containingClass, true)) { return true; } } } } } } } return false; }
private static void checkSuperclassMembers( PsiClass superClass, MemberInfoBase<? extends PsiMember>[] infos, MultiMap<PsiElement, String> conflictsList) { for (MemberInfoBase<? extends PsiMember> info : infos) { PsiMember member = info.getMember(); boolean isConflict = false; if (member instanceof PsiField) { String name = member.getName(); isConflict = superClass.findFieldByName(name, false) != null; } else if (member instanceof PsiMethod) { PsiSubstitutor superSubstitutor = TypeConversionUtil.getSuperClassSubstitutor( superClass, member.getContainingClass(), PsiSubstitutor.EMPTY); MethodSignature signature = ((PsiMethod) member).getSignature(superSubstitutor); final PsiMethod superClassMethod = MethodSignatureUtil.findMethodBySignature(superClass, signature, false); isConflict = superClassMethod != null; } if (isConflict) { String message = RefactoringBundle.message( "0.already.contains.a.1", RefactoringUIUtil.getDescription(superClass, false), RefactoringUIUtil.getDescription(member, false)); message = CommonRefactoringUtil.capitalize(message); conflictsList.putValue(superClass, message); } if (member instanceof PsiMethod) { final PsiMethod method = (PsiMethod) member; final PsiModifierList modifierList = method.getModifierList(); if (!modifierList.hasModifierProperty(PsiModifier.PRIVATE)) { for (PsiClass subClass : ClassInheritorsSearch.search(superClass)) { if (method.getContainingClass() != subClass) { MethodSignature signature = ((PsiMethod) member) .getSignature( TypeConversionUtil.getSuperClassSubstitutor( superClass, subClass, PsiSubstitutor.EMPTY)); final PsiMethod wouldBeOverriden = MethodSignatureUtil.findMethodBySignature(subClass, signature, false); if (wouldBeOverriden != null && VisibilityUtil.compare( VisibilityUtil.getVisibilityModifier(wouldBeOverriden.getModifierList()), VisibilityUtil.getVisibilityModifier(modifierList)) > 0) { conflictsList.putValue( wouldBeOverriden, CommonRefactoringUtil.capitalize( RefactoringUIUtil.getDescription(method, true) + " in super class would clash with local method from " + RefactoringUIUtil.getDescription(subClass, true))); } } } } } } }
static void setupPatternMethods( PsiManager manager, GlobalSearchScope searchScope, List<PsiMethod> patternMethods, IntArrayList indices) { final JavaPsiFacade javaPsiFacade = JavaPsiFacade.getInstance(manager.getProject()); final PsiClass collectionClass = javaPsiFacade.findClass(CommonClassNames.JAVA_UTIL_COLLECTION, searchScope); PsiType[] javaLangObject = {PsiType.getJavaLangObject(manager, searchScope)}; MethodSignature removeSignature = MethodSignatureUtil.createMethodSignature( "remove", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); if (collectionClass != null) { PsiMethod remove = MethodSignatureUtil.findMethodBySignature(collectionClass, removeSignature, false); addMethod(remove, 0, patternMethods, indices); MethodSignature containsSignature = MethodSignatureUtil.createMethodSignature( "contains", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod contains = MethodSignatureUtil.findMethodBySignature(collectionClass, containsSignature, false); addMethod(contains, 0, patternMethods, indices); if (PsiUtil.isLanguageLevel5OrHigher(collectionClass)) { PsiClassType wildcardCollection = javaPsiFacade .getElementFactory() .createType(collectionClass, PsiWildcardType.createUnbounded(manager)); MethodSignature removeAllSignature = MethodSignatureUtil.createMethodSignature( "removeAll", new PsiType[] {wildcardCollection}, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod removeAll = MethodSignatureUtil.findMethodBySignature(collectionClass, removeAllSignature, false); addMethod(removeAll, 0, patternMethods, indices); } } final PsiClass listClass = javaPsiFacade.findClass(CommonClassNames.JAVA_UTIL_LIST, searchScope); if (listClass != null) { MethodSignature indexofSignature = MethodSignatureUtil.createMethodSignature( "indexOf", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod indexof = MethodSignatureUtil.findMethodBySignature(listClass, indexofSignature, false); addMethod(indexof, 0, patternMethods, indices); MethodSignature lastindexofSignature = MethodSignatureUtil.createMethodSignature( "lastIndexOf", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod lastindexof = MethodSignatureUtil.findMethodBySignature(listClass, lastindexofSignature, false); addMethod(lastindexof, 0, patternMethods, indices); } final PsiClass mapClass = javaPsiFacade.findClass(CommonClassNames.JAVA_UTIL_MAP, searchScope); if (mapClass != null) { PsiMethod remove = MethodSignatureUtil.findMethodBySignature(mapClass, removeSignature, false); addMethod(remove, 0, patternMethods, indices); MethodSignature getSignature = MethodSignatureUtil.createMethodSignature( "get", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod get = MethodSignatureUtil.findMethodBySignature(mapClass, getSignature, false); addMethod(get, 0, patternMethods, indices); MethodSignature containsKeySignature = MethodSignatureUtil.createMethodSignature( "containsKey", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod containsKey = MethodSignatureUtil.findMethodBySignature(mapClass, containsKeySignature, false); addMethod(containsKey, 0, patternMethods, indices); MethodSignature containsValueSignature = MethodSignatureUtil.createMethodSignature( "containsValue", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod containsValue = MethodSignatureUtil.findMethodBySignature(mapClass, containsValueSignature, false); addMethod(containsValue, 1, patternMethods, indices); } final PsiClass concurrentMapClass = javaPsiFacade.findClass(CommonClassNames.JAVA_UTIL_CONCURRENT_HASH_MAP, searchScope); if (concurrentMapClass != null) { MethodSignature containsSignature = MethodSignatureUtil.createMethodSignature( "contains", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod contains = MethodSignatureUtil.findMethodBySignature(concurrentMapClass, containsSignature, false); addMethod(contains, 1, patternMethods, indices); } }
private static void setupPatternMethods( PsiManager manager, GlobalSearchScope searchScope, List<PsiMethod> patternMethods, IntArrayList indices) { final PsiClass collectionClass = JavaPsiFacade.getInstance(manager.getProject()) .findClass("java.util.Collection", searchScope); PsiType[] javaLangObject = {PsiType.getJavaLangObject(manager, searchScope)}; MethodSignature removeSignature = MethodSignatureUtil.createMethodSignature( "remove", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); if (collectionClass != null) { PsiMethod remove = MethodSignatureUtil.findMethodBySignature(collectionClass, removeSignature, false); addMethod(remove, 0, patternMethods, indices); MethodSignature containsSignature = MethodSignatureUtil.createMethodSignature( "contains", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod contains = MethodSignatureUtil.findMethodBySignature(collectionClass, containsSignature, false); addMethod(contains, 0, patternMethods, indices); } final PsiClass listClass = JavaPsiFacade.getInstance(manager.getProject()).findClass("java.util.List", searchScope); if (listClass != null) { MethodSignature indexofSignature = MethodSignatureUtil.createMethodSignature( "indexOf", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod indexof = MethodSignatureUtil.findMethodBySignature(listClass, indexofSignature, false); addMethod(indexof, 0, patternMethods, indices); MethodSignature lastindexofSignature = MethodSignatureUtil.createMethodSignature( "lastIndexOf", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod lastindexof = MethodSignatureUtil.findMethodBySignature(listClass, lastindexofSignature, false); addMethod(lastindexof, 0, patternMethods, indices); } final PsiClass mapClass = JavaPsiFacade.getInstance(manager.getProject()).findClass("java.util.Map", searchScope); if (mapClass != null) { PsiMethod remove = MethodSignatureUtil.findMethodBySignature(mapClass, removeSignature, false); addMethod(remove, 0, patternMethods, indices); MethodSignature getSignature = MethodSignatureUtil.createMethodSignature( "get", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod get = MethodSignatureUtil.findMethodBySignature(mapClass, getSignature, false); addMethod(get, 0, patternMethods, indices); MethodSignature containsKeySignature = MethodSignatureUtil.createMethodSignature( "containsKey", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod containsKey = MethodSignatureUtil.findMethodBySignature(mapClass, containsKeySignature, false); addMethod(containsKey, 0, patternMethods, indices); MethodSignature containsValueSignature = MethodSignatureUtil.createMethodSignature( "containsValue", javaLangObject, PsiTypeParameter.EMPTY_ARRAY, PsiSubstitutor.EMPTY); PsiMethod containsValue = MethodSignatureUtil.findMethodBySignature(mapClass, containsValueSignature, false); addMethod(containsValue, 1, patternMethods, indices); } }
// uses hierarchy signature tree if available, traverses class structure by itself otherwise public static boolean isSuperMethodSmart( @NotNull PsiMethod method, @NotNull PsiMethod superMethod) { // boolean old = PsiSuperMethodUtil.isSuperMethod(method, superMethod); if (method == superMethod) return false; PsiClass aClass = method.getContainingClass(); PsiClass superClass = superMethod.getContainingClass(); if (aClass == null || superClass == null || superClass == aClass) return false; if (!canHaveSuperMethod(method, true, false)) return false; PsiMethod[] superMethods = null; Map<MethodSignature, HierarchicalMethodSignature> cachedMap = SIGNATURES_KEY.getCachedValueOrNull(aClass); if (cachedMap != null) { HierarchicalMethodSignature signature = cachedMap.get(method.getSignature(PsiSubstitutor.EMPTY)); if (signature != null) { superMethods = MethodSignatureUtil.convertMethodSignaturesToMethods(signature.getSuperSignatures()); } } if (superMethods == null) { PsiClassType[] directSupers = aClass.getSuperTypes(); List<PsiMethod> found = null; boolean canceled = false; for (PsiClassType directSuper : directSupers) { PsiClassType.ClassResolveResult resolveResult = directSuper.resolveGenerics(); if (resolveResult.getSubstitutor() != PsiSubstitutor.EMPTY) { // generics canceled = true; break; } PsiClass directSuperClass = resolveResult.getElement(); if (directSuperClass == null) continue; PsiMethod[] candidates = directSuperClass.findMethodsBySignature(method, false); if (candidates.length != 0) { if (found == null) found = new ArrayList<PsiMethod>(); for (PsiMethod candidate : candidates) { if (PsiUtil.canBeOverriden(candidate)) found.add(candidate); } } } superMethods = canceled ? null : found == null ? PsiMethod.EMPTY_ARRAY : found.toArray(new PsiMethod[found.size()]); } if (superMethods == null) { superMethods = MethodSignatureUtil.convertMethodSignaturesToMethods( method.getHierarchicalMethodSignature().getSuperSignatures()); } for (PsiMethod superCandidate : superMethods) { if (superMethod.equals(superCandidate) || isSuperMethodSmart(superCandidate, superMethod)) return true; } return false; }
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; }
protected void checkSameSignatures(@NotNull List<CandidateInfo> conflicts) { // candidates should go in order of class hierarchy traversal // in order for this to work Map<MethodSignature, CandidateInfo> signatures = new THashMap<MethodSignature, CandidateInfo>(conflicts.size()); Set<PsiMethod> superMethods = new HashSet<PsiMethod>(); for (CandidateInfo conflict : conflicts) { final PsiMethod method = ((MethodCandidateInfo) conflict).getElement(); for (HierarchicalMethodSignature methodSignature : method.getHierarchicalMethodSignature().getSuperSignatures()) { final PsiMethod superMethod = methodSignature.getMethod(); final PsiClass aClass = superMethod.getContainingClass(); if (aClass != null && !CommonClassNames.JAVA_LANG_OBJECT.equals(aClass.getQualifiedName())) { superMethods.add(superMethod); } } } nextConflict: for (int i = 0; i < conflicts.size(); i++) { ProgressManager.checkCanceled(); CandidateInfo info = conflicts.get(i); PsiMethod method = (PsiMethod) info.getElement(); if (!method.hasModifierProperty(PsiModifier.STATIC) && superMethods.contains(method)) { conflicts.remove(i); i--; continue; } PsiClass class1 = method.getContainingClass(); PsiSubstitutor infoSubstitutor = ((MethodCandidateInfo) info).getSubstitutor(false); MethodSignature signature = method.getSignature(infoSubstitutor); CandidateInfo existing = signatures.get(signature); if (existing == null) { signatures.put(signature, info); continue; } PsiMethod existingMethod = (PsiMethod) existing.getElement(); PsiClass existingClass = existingMethod.getContainingClass(); if (class1 != null && existingClass != null) { // prefer interface methods to methods from Object if (class1.isInterface() && CommonClassNames.JAVA_LANG_OBJECT.equals(existingClass.getQualifiedName())) { signatures.put(signature, info); continue; } else if (existingClass.isInterface() && CommonClassNames.JAVA_LANG_OBJECT.equals(class1.getQualifiedName())) { conflicts.remove(info); i--; continue; } } if (method == existingMethod) { PsiElement scope1 = info.getCurrentFileResolveScope(); PsiElement scope2 = existing.getCurrentFileResolveScope(); if (scope1 instanceof PsiClass && scope2 instanceof PsiClass && PsiTreeUtil.isAncestor(scope1, scope2, true) && !existing .isAccessible()) { // prefer methods from outer class to inaccessible base class // methods signatures.put(signature, info); continue; } } // filter out methods with incorrect inferred bounds (for unrelated methods only) boolean existingTypeParamAgree = areTypeParametersAgree(existing); boolean infoTypeParamAgree = areTypeParametersAgree(info); if (existingTypeParamAgree && !infoTypeParamAgree && !PsiSuperMethodImplUtil.isSuperMethodSmart(method, existingMethod)) { conflicts.remove(i); i--; continue; } if (!existingTypeParamAgree && infoTypeParamAgree && !PsiSuperMethodImplUtil.isSuperMethodSmart(existingMethod, method)) { signatures.put(signature, info); int index = conflicts.indexOf(existing); conflicts.remove(index); i--; continue; } if (InheritanceUtil.isInheritorOrSelf(class1, existingClass, true) || InheritanceUtil.isInheritorOrSelf(existingClass, class1, true)) { PsiParameter[] parameters = method.getParameterList().getParameters(); final PsiParameter[] existingParameters = existingMethod.getParameterList().getParameters(); for (int i1 = 0, parametersLength = parameters.length; i1 < parametersLength; i1++) { if (parameters[i1].getType() instanceof PsiArrayType && !(existingParameters[i1].getType() instanceof PsiArrayType)) { // prefer more specific type signatures.put(signature, info); continue nextConflict; } } PsiType returnType1 = method.getReturnType(); PsiType returnType2 = existingMethod.getReturnType(); if (returnType1 != null && returnType2 != null) { returnType1 = infoSubstitutor.substitute(returnType1); returnType2 = ((MethodCandidateInfo) existing).getSubstitutor(false).substitute(returnType2); if (!returnType1.equals(returnType2) && returnType1.isAssignableFrom(returnType2)) { conflicts.remove(i); i--; continue; } } // prefer derived class signatures.put(signature, info); } else { final PsiMethodCallExpression methodCallExpression = PsiTreeUtil.getParentOfType(myArgumentsList, PsiMethodCallExpression.class); if (methodCallExpression != null) { final PsiReferenceExpression expression = methodCallExpression.getMethodExpression(); final PsiExpression qualifierExpression = expression.getQualifierExpression(); PsiClass currentClass; if (qualifierExpression != null) { currentClass = PsiUtil.resolveClassInClassTypeOnly(qualifierExpression.getType()); } else { currentClass = PsiTreeUtil.getParentOfType(expression, PsiClass.class); } if (currentClass != null && existingClass != null && class1 != null) { final PsiSubstitutor eSubstitutor = TypeConversionUtil.getMaybeSuperClassSubstitutor( existingClass, currentClass, PsiSubstitutor.EMPTY, null); final PsiSubstitutor cSubstitutor = TypeConversionUtil.getMaybeSuperClassSubstitutor( class1, currentClass, PsiSubstitutor.EMPTY, null); if (eSubstitutor != null && cSubstitutor != null && MethodSignatureUtil.areSignaturesEqual( existingMethod.getSignature(eSubstitutor), method.getSignature(cSubstitutor))) { final PsiType returnType = eSubstitutor.substitute(existingMethod.getReturnType()); final PsiType returnType1 = cSubstitutor.substitute(method.getReturnType()); if (returnType != null && returnType1 != null && !returnType1.equals(returnType)) { if (TypeConversionUtil.isAssignable(returnType, returnType1, false)) { if (class1.isInterface() && !existingClass.isInterface()) continue; conflicts.remove(existing); } else { if (!TypeConversionUtil.isAssignable(returnType1, returnType, false)) continue; conflicts.remove(i); } i--; break; } } } } } } }