private boolean isEnclosingClass(TypeBinding clazz, TypeBinding maybeEnclosingClass) { for (TypeBinding currentClass = clazz; currentClass != null; currentClass = currentClass.enclosingType()) { if (currentClass == maybeEnclosingClass) { return true; } } return false; }
public boolean checkUnsafeCast( Scope scope, TypeBinding castType, TypeBinding expressionType, TypeBinding match, boolean isNarrowing) { if (match == castType) { if (!isNarrowing && match == this.resolvedType .leafComponentType()) { // do not tag as unnecessary when recursing through upper // bounds tagAsUnnecessaryCast(scope, castType); } return true; } if (match != null) { if (isNarrowing ? match.isProvablyDistinct(expressionType) : castType.isProvablyDistinct(match)) { return false; } } switch (castType.kind()) { case Binding.PARAMETERIZED_TYPE: if (castType.isBoundParameterizedType()) { if (match == null) { // unrelated types this.bits |= ASTNode.UnsafeCast; return true; } switch (match.kind()) { case Binding.PARAMETERIZED_TYPE: if (isNarrowing) { // [JLS 5.5] T <: S if (expressionType.isRawType() || !expressionType.isEquivalentTo(match)) { this.bits |= ASTNode.UnsafeCast; return true; } // [JLS 5.5] S has no subtype X != T, such that |X| == |T| // if I2<T,U> extends I1<T>, then cast from I1<T> to I2<T,U> is unchecked ParameterizedTypeBinding paramCastType = (ParameterizedTypeBinding) castType; ParameterizedTypeBinding paramMatch = (ParameterizedTypeBinding) match; // easy case if less parameters on match TypeBinding[] castArguments = paramCastType.arguments; int length = castArguments.length; if (paramMatch.arguments == null || length > paramMatch.arguments.length) { this.bits |= ASTNode.UnsafeCast; } else if ((paramCastType.tagBits & (TagBits.HasDirectWildcard | TagBits.HasTypeVariable)) != 0) { // verify alternate cast type, substituting different type arguments nextAlternateArgument: for (int i = 0; i < length; i++) { switch (castArguments[i].kind()) { case Binding.WILDCARD_TYPE: case Binding.TYPE_PARAMETER: break; // check substituting with other default: continue nextAlternateArgument; // no alternative possible } TypeBinding[] alternateArguments; // need to clone for each iteration to avoid env paramtype cache interference System.arraycopy( paramCastType.arguments, 0, alternateArguments = new TypeBinding[length], 0, length); alternateArguments[i] = scope.getJavaLangObject(); LookupEnvironment environment = scope.environment(); ParameterizedTypeBinding alternateCastType = environment.createParameterizedType( (ReferenceBinding) castType.erasure(), alternateArguments, castType.enclosingType()); if (alternateCastType.findSuperTypeOriginatingFrom(expressionType) == match) { this.bits |= ASTNode.UnsafeCast; break; } } } return true; } else { // [JLS 5.5] T >: S if (!match.isEquivalentTo(castType)) { this.bits |= ASTNode.UnsafeCast; return true; } } break; case Binding.RAW_TYPE: this.bits |= ASTNode.UnsafeCast; // upcast since castType is known to be bound paramType return true; default: if (isNarrowing) { // match is not parameterized or raw, then any other subtype of match will erase to // |T| this.bits |= ASTNode.UnsafeCast; return true; } break; } } break; case Binding.ARRAY_TYPE: TypeBinding leafType = castType.leafComponentType(); if (isNarrowing && (leafType.isBoundParameterizedType() || leafType.isTypeVariable())) { this.bits |= ASTNode.UnsafeCast; return true; } break; case Binding.TYPE_PARAMETER: this.bits |= ASTNode.UnsafeCast; return true; } if (!isNarrowing && match == this.resolvedType .leafComponentType()) { // do not tag as unnecessary when recursing through upper // bounds tagAsUnnecessaryCast(scope, castType); } return true; }
// additional parameter strict: if true we do not tolerate incompatibly missing annotations on // type parameters (for overriding analysis) public static NullAnnotationMatching analyse( TypeBinding requiredType, TypeBinding providedType, int nullStatus, boolean strict) { int severity = 0; TypeBinding superTypeHint = null; if (requiredType instanceof ArrayBinding) { long[] requiredDimsTagBits = ((ArrayBinding) requiredType).nullTagBitsPerDimension; if (requiredDimsTagBits != null) { int dims = requiredType.dimensions(); if (requiredType.dimensions() == providedType.dimensions()) { long[] providedDimsTagBits = ((ArrayBinding) providedType).nullTagBitsPerDimension; if (providedDimsTagBits == null) { severity = 1; // required is annotated, provided not, need unchecked conversion } else { for (int i = 0; i <= dims; i++) { long requiredBits = validNullTagBits(requiredDimsTagBits[i]); long providedBits = validNullTagBits(providedDimsTagBits[i]); if (i > 0) nullStatus = -1; // don't use beyond the outermost dimension severity = Math.max( severity, computeNullProblemSeverity(requiredBits, providedBits, nullStatus, strict)); if (severity == 2) return NullAnnotationMatching.NULL_ANNOTATIONS_MISMATCH; } } } else if (providedType.id == TypeIds.T_null) { if (dims > 0 && requiredDimsTagBits[0] == TagBits.AnnotationNonNull) return NullAnnotationMatching.NULL_ANNOTATIONS_MISMATCH; } } } else if (requiredType.hasNullTypeAnnotations() || providedType.hasNullTypeAnnotations()) { long requiredBits = requiredNullTagBits(requiredType); if (requiredBits != TagBits.AnnotationNullable // nullable lhs accepts everything, ... || nullStatus == -1) // only at detail/recursion even nullable must be matched exactly { long providedBits = providedNullTagBits(providedType); severity = computeNullProblemSeverity( requiredBits, providedBits, nullStatus, strict && nullStatus == -1); } if (severity < 2) { TypeBinding providedSuper = providedType.findSuperTypeOriginatingFrom(requiredType); if (providedSuper != providedType) // $IDENTITY-COMPARISON$ superTypeHint = providedSuper; if (requiredType.isParameterizedType() && providedSuper instanceof ParameterizedTypeBinding) { // TODO(stephan): handle providedType.isRaw() TypeBinding[] requiredArguments = ((ParameterizedTypeBinding) requiredType).arguments; TypeBinding[] providedArguments = ((ParameterizedTypeBinding) providedSuper).arguments; if (requiredArguments != null && providedArguments != null && requiredArguments.length == providedArguments.length) { for (int i = 0; i < requiredArguments.length; i++) { NullAnnotationMatching status = analyse(requiredArguments[i], providedArguments[i], -1, strict); severity = Math.max(severity, status.severity); if (severity == 2) return new NullAnnotationMatching(severity, superTypeHint); } } } TypeBinding requiredEnclosing = requiredType.enclosingType(); TypeBinding providedEnclosing = providedType.enclosingType(); if (requiredEnclosing != null && providedEnclosing != null) { NullAnnotationMatching status = analyse(requiredEnclosing, providedEnclosing, -1, strict); severity = Math.max(severity, status.severity); } } } if (severity == 0) return NullAnnotationMatching.NULL_ANNOTATIONS_OK; return new NullAnnotationMatching(severity, superTypeHint); }
public TypeBinding resolveType(BlockScope scope) { // added for code assist...cannot occur with 'normal' code if (this.anonymousType == null && this.enclosingInstance == null) { return super.resolveType(scope); } // Propagate the type checking to the arguments, and checks if the constructor is defined. // ClassInstanceCreationExpression ::= Primary '.' 'new' SimpleName '(' ArgumentListopt ')' // ClassBodyopt // ClassInstanceCreationExpression ::= Name '.' 'new' SimpleName '(' ArgumentListopt ')' // ClassBodyopt this.constant = Constant.NotAConstant; TypeBinding enclosingInstanceType = null; ReferenceBinding enclosingInstanceReference = null; TypeBinding receiverType = null; boolean hasError = false; boolean enclosingInstanceContainsCast = false; boolean argsContainCast = false; if (this.enclosingInstance != null) { if (this.enclosingInstance instanceof CastExpression) { this.enclosingInstance.bits |= ASTNode.DisableUnnecessaryCastCheck; // will check later on enclosingInstanceContainsCast = true; } if ((enclosingInstanceType = this.enclosingInstance.resolveType(scope)) == null) { hasError = true; } else if (enclosingInstanceType.isBaseType() || enclosingInstanceType.isArrayType()) { scope .problemReporter() .illegalPrimitiveOrArrayTypeForEnclosingInstance( enclosingInstanceType, this.enclosingInstance); hasError = true; } else if (this.type instanceof QualifiedTypeReference) { scope .problemReporter() .illegalUsageOfQualifiedTypeReference((QualifiedTypeReference) this.type); hasError = true; } else if (!(enclosingInstanceReference = (ReferenceBinding) enclosingInstanceType) .canBeSeenBy(scope)) { // https://bugs.eclipse.org/bugs/show_bug.cgi?id=317212 enclosingInstanceType = new ProblemReferenceBinding( enclosingInstanceReference.compoundName, enclosingInstanceReference, ProblemReasons.NotVisible); scope.problemReporter().invalidType(this.enclosingInstance, enclosingInstanceType); hasError = true; } else { receiverType = ((SingleTypeReference) this.type) .resolveTypeEnclosing(scope, (ReferenceBinding) enclosingInstanceType); if (receiverType != null && enclosingInstanceContainsCast) { CastExpression.checkNeedForEnclosingInstanceCast( scope, this.enclosingInstance, enclosingInstanceType, receiverType); } } } else { if (this.type == null) { // initialization of an enum constant receiverType = scope.enclosingSourceType(); } else { receiverType = this.type.resolveType(scope, true /* check bounds*/); checkParameterizedAllocation: { if (receiverType == null || !receiverType.isValidBinding()) break checkParameterizedAllocation; if (this.type instanceof ParameterizedQualifiedTypeReference) { // disallow new X<String>.Y<Integer>() ReferenceBinding currentType = (ReferenceBinding) receiverType; do { // isStatic() is answering true for toplevel types if ((currentType.modifiers & ClassFileConstants.AccStatic) != 0) break checkParameterizedAllocation; if (currentType.isRawType()) break checkParameterizedAllocation; } while ((currentType = currentType.enclosingType()) != null); ParameterizedQualifiedTypeReference qRef = (ParameterizedQualifiedTypeReference) this.type; for (int i = qRef.typeArguments.length - 2; i >= 0; i--) { if (qRef.typeArguments[i] != null) { scope .problemReporter() .illegalQualifiedParameterizedTypeAllocation(this.type, receiverType); break; } } } } } } if (receiverType == null || !receiverType.isValidBinding()) { hasError = true; } // resolve type arguments (for generic constructor call) final boolean isDiamond = this.type != null && (this.type.bits & ASTNode.IsDiamond) != 0; if (this.typeArguments != null) { int length = this.typeArguments.length; boolean argHasError = scope.compilerOptions().sourceLevel < ClassFileConstants.JDK1_5; this.genericTypeArguments = new TypeBinding[length]; for (int i = 0; i < length; i++) { TypeReference typeReference = this.typeArguments[i]; if ((this.genericTypeArguments[i] = typeReference.resolveType(scope, true /* check bounds*/)) == null) { argHasError = true; } if (argHasError && typeReference instanceof Wildcard) { scope.problemReporter().illegalUsageOfWildcard(typeReference); } } if (isDiamond) { scope.problemReporter().diamondNotWithExplicitTypeArguments(this.typeArguments); return null; } if (argHasError) { if (this.arguments != null) { // still attempt to resolve arguments for (int i = 0, max = this.arguments.length; i < max; i++) { this.arguments[i].resolveType(scope); } } return null; } } // will check for null after args are resolved TypeBinding[] argumentTypes = Binding.NO_PARAMETERS; if (this.arguments != null) { int length = this.arguments.length; argumentTypes = new TypeBinding[length]; for (int i = 0; i < length; i++) { Expression argument = this.arguments[i]; if (argument instanceof CastExpression) { argument.bits |= ASTNode.DisableUnnecessaryCastCheck; // will check later on argsContainCast = true; } if ((argumentTypes[i] = argument.resolveType(scope)) == null) { hasError = true; } } } // limit of fault-tolerance if (hasError) { /* https://bugs.eclipse.org/bugs/show_bug.cgi?id=345359, if arguments have errors, completely bail out in the <> case. No meaningful type resolution is possible since inference of the elided types is fully tied to argument types. Do not return the partially resolved type. */ if (isDiamond) { return null; // not the partially cooked this.resolvedType } if (receiverType instanceof ReferenceBinding) { ReferenceBinding referenceReceiver = (ReferenceBinding) receiverType; if (receiverType.isValidBinding()) { // record a best guess, for clients who need hint about possible contructor match int length = this.arguments == null ? 0 : this.arguments.length; TypeBinding[] pseudoArgs = new TypeBinding[length]; for (int i = length; --i >= 0; ) { pseudoArgs[i] = argumentTypes[i] == null ? TypeBinding.NULL : argumentTypes[i]; // replace args with errors with null type } this.binding = scope.findMethod(referenceReceiver, TypeConstants.INIT, pseudoArgs, this); if (this.binding != null && !this.binding.isValidBinding()) { MethodBinding closestMatch = ((ProblemMethodBinding) this.binding).closestMatch; // record the closest match, for clients who may still need hint about possible method // match if (closestMatch != null) { if (closestMatch.original().typeVariables != Binding.NO_TYPE_VARIABLES) { // generic method // shouldn't return generic method outside its context, rather convert it to raw // method (175409) closestMatch = scope .environment() .createParameterizedGenericMethod( closestMatch.original(), (RawTypeBinding) null); } this.binding = closestMatch; MethodBinding closestMatchOriginal = closestMatch.original(); if (closestMatchOriginal.isOrEnclosedByPrivateType() && !scope.isDefinedInMethod(closestMatchOriginal)) { // ignore cases where method is used from within inside itself (e.g. direct // recursions) closestMatchOriginal.modifiers |= ExtraCompilerModifiers.AccLocallyUsed; } } } } if (this.anonymousType != null) { // insert anonymous type in scope (see // https://bugs.eclipse.org/bugs/show_bug.cgi?id=210070) scope.addAnonymousType(this.anonymousType, referenceReceiver); this.anonymousType.resolve(scope); return this.resolvedType = this.anonymousType.binding; } } return this.resolvedType = receiverType; } if (this.anonymousType == null) { // qualified allocation with no anonymous type if (!receiverType.canBeInstantiated()) { scope.problemReporter().cannotInstantiate(this.type, receiverType); return this.resolvedType = receiverType; } if (isDiamond) { TypeBinding[] inferredTypes = inferElidedTypes( ((ParameterizedTypeBinding) receiverType).genericType(), receiverType.enclosingType(), argumentTypes, scope); if (inferredTypes == null) { scope.problemReporter().cannotInferElidedTypes(this); return this.resolvedType = null; } receiverType = this.type.resolvedType = scope .environment() .createParameterizedType( ((ParameterizedTypeBinding) receiverType).genericType(), inferredTypes, ((ParameterizedTypeBinding) receiverType).enclosingType()); } ReferenceBinding allocationType = (ReferenceBinding) receiverType; if ((this.binding = scope.getConstructor(allocationType, argumentTypes, this)) .isValidBinding()) { if (isMethodUseDeprecated(this.binding, scope, true)) { scope.problemReporter().deprecatedMethod(this.binding, this); } if (checkInvocationArguments( scope, null, allocationType, this.binding, this.arguments, argumentTypes, argsContainCast, this)) { this.bits |= ASTNode.Unchecked; } if (this.typeArguments != null && this.binding.original().typeVariables == Binding.NO_TYPE_VARIABLES) { scope .problemReporter() .unnecessaryTypeArgumentsForMethodInvocation( this.binding, this.genericTypeArguments, this.typeArguments); } } else { if (this.binding.declaringClass == null) { this.binding.declaringClass = allocationType; } if (this.type != null && !this.type.resolvedType.isValidBinding()) { // problem already got signaled on type reference, do not report secondary problem return null; } scope.problemReporter().invalidConstructor(this, this.binding); return this.resolvedType = receiverType; } if ((this.binding.tagBits & TagBits.HasMissingType) != 0) { scope.problemReporter().missingTypeInConstructor(this, this.binding); } if (!isDiamond && receiverType.isParameterizedTypeWithActualArguments()) { checkTypeArgumentRedundancy( (ParameterizedTypeBinding) receiverType, receiverType.enclosingType(), argumentTypes, scope); } // The enclosing instance must be compatible with the innermost enclosing type ReferenceBinding expectedType = this.binding.declaringClass.enclosingType(); if (expectedType != enclosingInstanceType) // must call before computeConversion() and typeMismatchError() scope.compilationUnitScope().recordTypeConversion(expectedType, enclosingInstanceType); if (enclosingInstanceType.isCompatibleWith(expectedType) || scope.isBoxingCompatibleWith(enclosingInstanceType, expectedType)) { this.enclosingInstance.computeConversion(scope, expectedType, enclosingInstanceType); return this.resolvedType = receiverType; } scope .problemReporter() .typeMismatchError(enclosingInstanceType, expectedType, this.enclosingInstance, null); return this.resolvedType = receiverType; } else { if (isDiamond) { scope.problemReporter().diamondNotWithAnoymousClasses(this.type); return null; } } ReferenceBinding superType = (ReferenceBinding) receiverType; if (superType.isTypeVariable()) { superType = new ProblemReferenceBinding( new char[][] {superType.sourceName()}, superType, ProblemReasons.IllegalSuperTypeVariable); scope.problemReporter().invalidType(this, superType); return null; } else if (this.type != null && superType.isEnum()) { // tolerate enum constant body scope.problemReporter().cannotInstantiate(this.type, superType); return this.resolvedType = superType; } // anonymous type scenario // an anonymous class inherits from java.lang.Object when declared "after" an interface ReferenceBinding anonymousSuperclass = superType.isInterface() ? scope.getJavaLangObject() : superType; // insert anonymous type in scope scope.addAnonymousType(this.anonymousType, superType); this.anonymousType.resolve(scope); // find anonymous super constructor this.resolvedType = this.anonymousType.binding; // 1.2 change if ((this.resolvedType.tagBits & TagBits.HierarchyHasProblems) != 0) { return null; // stop secondary errors } MethodBinding inheritedBinding = scope.getConstructor(anonymousSuperclass, argumentTypes, this); if (!inheritedBinding.isValidBinding()) { if (inheritedBinding.declaringClass == null) { inheritedBinding.declaringClass = anonymousSuperclass; } if (this.type != null && !this.type.resolvedType.isValidBinding()) { // problem already got signaled on type reference, do not report secondary problem return null; } scope.problemReporter().invalidConstructor(this, inheritedBinding); return this.resolvedType; } if ((inheritedBinding.tagBits & TagBits.HasMissingType) != 0) { scope.problemReporter().missingTypeInConstructor(this, inheritedBinding); } if (this.enclosingInstance != null) { ReferenceBinding targetEnclosing = inheritedBinding.declaringClass.enclosingType(); if (targetEnclosing == null) { scope .problemReporter() .unnecessaryEnclosingInstanceSpecification(this.enclosingInstance, superType); return this.resolvedType; } else if (!enclosingInstanceType.isCompatibleWith(targetEnclosing) && !scope.isBoxingCompatibleWith(enclosingInstanceType, targetEnclosing)) { scope .problemReporter() .typeMismatchError( enclosingInstanceType, targetEnclosing, this.enclosingInstance, null); return this.resolvedType; } this.enclosingInstance.computeConversion(scope, targetEnclosing, enclosingInstanceType); } if (this.arguments != null) { if (checkInvocationArguments( scope, null, anonymousSuperclass, inheritedBinding, this.arguments, argumentTypes, argsContainCast, this)) { this.bits |= ASTNode.Unchecked; } } if (this.typeArguments != null && inheritedBinding.original().typeVariables == Binding.NO_TYPE_VARIABLES) { scope .problemReporter() .unnecessaryTypeArgumentsForMethodInvocation( inheritedBinding, this.genericTypeArguments, this.typeArguments); } // Update the anonymous inner class : superclass, interface this.binding = this.anonymousType.createDefaultConstructorWithBinding( inheritedBinding, (this.bits & ASTNode.Unchecked) != 0 && this.genericTypeArguments == null); return this.resolvedType; }