Search in sources :

Example 11 with BoundThisTypeRef

use of org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef in project n4js by eclipse.

the class InternalTypeSystem method applyRuleSubstTypeVariablesThisTypeRefStructural.

protected Result<TypeArgument> applyRuleSubstTypeVariablesThisTypeRefStructural(final RuleEnvironment G, final RuleApplicationTrace _trace_, final ThisTypeRefStructural thisTypeRef) throws RuleFailedException {
    // output parameter
    ThisTypeRef T = null;
    /* { val BoundThisTypeRef boundRefFromEnv = G.getThisType() as BoundThisTypeRef; val boundRef = TypeUtils.createBoundThisTypeRefStructural(boundRefFromEnv.actualThisTypeRef, thisTypeRef); TypeUtils.copyTypeModifiers(boundRef, thisTypeRef); T = boundRef; } or { T = thisTypeRef } */
    {
        RuleFailedException previousFailure = null;
        try {
            TypeRef _thisType = RuleEnvironmentExtensions.getThisType(G);
            final BoundThisTypeRef boundRefFromEnv = ((BoundThisTypeRef) _thisType);
            final BoundThisTypeRef boundRef = TypeUtils.createBoundThisTypeRefStructural(boundRefFromEnv.getActualThisTypeRef(), thisTypeRef);
            TypeUtils.copyTypeModifiers(boundRef, thisTypeRef);
            T = boundRef;
        } catch (Exception e) {
            previousFailure = extractRuleFailedException(e);
            T = thisTypeRef;
        }
    }
    return new Result<TypeArgument>(T);
}
Also used : ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) FunctionTypeRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeRef) ExistentialTypeRef(org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) StructuralTypeRef(org.eclipse.n4js.ts.typeRefs.StructuralTypeRef) TypeRef(org.eclipse.n4js.ts.typeRefs.TypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) ComposedTypeRef(org.eclipse.n4js.ts.typeRefs.ComposedTypeRef) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) Result(org.eclipse.xsemantics.runtime.Result) StructuralTypingResult(org.eclipse.n4js.typesystem.StructuralTypingResult)

Example 12 with BoundThisTypeRef

use of org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef in project n4js by eclipse.

the class InternalTypeSystem method applyRuleTypePropertyAccessExpression.

protected Result<TypeRef> applyRuleTypePropertyAccessExpression(final RuleEnvironment G, final RuleApplicationTrace _trace_, final ParameterizedPropertyAccessExpression expr) throws RuleFailedException {
    // output parameter
    TypeRef T = null;
    /* { T = env(G, GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION -> expr, TypeRef) } or { val G2 = G.wrap G2.add(GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION -> expr, G2.anyTypeRef) G2 |- expr.target : var TypeRef receiverTypeRef typeSystemHelper.addSubstitutions(G2,receiverTypeRef) G2.addThisType(receiverTypeRef) if (! (receiverTypeRef instanceof UnknownTypeRef) && (expr.target instanceof SuperLiteral || expr.target instanceof ThisLiteral) ) { var containingClass = EcoreUtil2.getContainerOfType(expr,N4ClassDeclaration)?.definedType; if (containingClass instanceof TClass) { if (containingClass.isStaticPolyfill) { containingClass = containingClass.superClassRef?.declaredType } if (containingClass instanceof TClass) { if (containingClass?.superClassRef!==null) { typeSystemHelper.addSubstitutions(G2, containingClass.superClassRef) } } } } val prop = expr.property; var TypeRef propTypeRef; if(prop instanceof TMethod && (prop as TMethod).isConstructor) { val TypeArgument ctorTypeArg = switch(receiverTypeRef) { TypeTypeRef: G.functionTypeRef ParameterizedTypeRef, BoundThisTypeRef: { val declType = if(receiverTypeRef instanceof BoundThisTypeRef) { receiverTypeRef.actualThisTypeRef?.declaredType } else { receiverTypeRef.declaredType }; val finalCtorSig = if(declType instanceof TClassifier) N4JSLanguageUtils.hasCovariantConstructor(declType); if(finalCtorSig) { declType.ref } else if(declType!==null) { TypeUtils.createWildcardExtends(declType.ref) } else { null } } }; propTypeRef = if(ctorTypeArg!==null) { TypeUtils.createTypeTypeRef(ctorTypeArg, true) } else { TypeRefsFactory.eINSTANCE.createUnknownTypeRef }; } else if(receiverTypeRef.dynamic && prop!==null && prop.eIsProxy) { propTypeRef = G.anyTypeRefDynamic; } else { G2.wrap |- prop : propTypeRef if(expr.parameterized) { typeSystemHelper.addSubstitutions(G2,expr); } } G2 |- propTypeRef ~> T T = versionResolver.resolveVersion(T, receiverTypeRef); if (expr.target instanceof SuperLiteral && T instanceof FunctionTypeExprOrRef ) { val F = T as FunctionTypeExprOrRef; if ((T as FunctionTypeExprOrRef).returnTypeRef instanceof BoundThisTypeRef) { var TypeRef rawT; G |~ expr ~> rawT; val thisTypeRef = TypeUtils.enforceNominalTyping(rawT); if (T instanceof FunctionTypeExpression && T.eContainer===null) { val fte = T as FunctionTypeExpression fte.returnTypeRef = TypeUtils.copyIfContained(thisTypeRef); } else { T = TypeUtils.createFunctionTypeExpression(null, F.typeVars, F.fpars, thisTypeRef); } } } } */
    {
        RuleFailedException previousFailure = null;
        try {
            Pair<String, ParameterizedPropertyAccessExpression> _mappedTo = Pair.<String, ParameterizedPropertyAccessExpression>of(RuleEnvironmentExtensions.GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION, expr);
            T = this.<TypeRef>env(G, _mappedTo, TypeRef.class);
        } catch (Exception e) {
            previousFailure = extractRuleFailedException(e);
            final RuleEnvironment G2 = RuleEnvironmentExtensions.wrap(G);
            Pair<String, ParameterizedPropertyAccessExpression> _mappedTo_1 = Pair.<String, ParameterizedPropertyAccessExpression>of(RuleEnvironmentExtensions.GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION, expr);
            boolean _add = G2.add(_mappedTo_1, RuleEnvironmentExtensions.anyTypeRef(G2));
            /* G2.add(GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION -> expr, G2.anyTypeRef) */
            if (!_add) {
                sneakyThrowRuleFailedException("G2.add(GUARD_TYPE_PROPERTY_ACCESS_EXPRESSION -> expr, G2.anyTypeRef)");
            }
            /* G2 |- expr.target : var TypeRef receiverTypeRef */
            Expression _target = expr.getTarget();
            TypeRef receiverTypeRef = null;
            Result<TypeRef> result = typeInternal(G2, _trace_, _target);
            checkAssignableTo(result.getFirst(), TypeRef.class);
            receiverTypeRef = (TypeRef) result.getFirst();
            this.typeSystemHelper.addSubstitutions(G2, receiverTypeRef);
            RuleEnvironmentExtensions.addThisType(G2, receiverTypeRef);
            if (((!(receiverTypeRef instanceof UnknownTypeRef)) && ((expr.getTarget() instanceof SuperLiteral) || (expr.getTarget() instanceof ThisLiteral)))) {
                N4ClassDeclaration _containerOfType = EcoreUtil2.<N4ClassDeclaration>getContainerOfType(expr, N4ClassDeclaration.class);
                Type _definedType = null;
                if (_containerOfType != null) {
                    _definedType = _containerOfType.getDefinedType();
                }
                Type containingClass = _definedType;
                if ((containingClass instanceof TClass)) {
                    boolean _isStaticPolyfill = ((TClass) containingClass).isStaticPolyfill();
                    if (_isStaticPolyfill) {
                        ParameterizedTypeRef _superClassRef = ((TClass) containingClass).getSuperClassRef();
                        Type _declaredType = null;
                        if (_superClassRef != null) {
                            _declaredType = _superClassRef.getDeclaredType();
                        }
                        containingClass = _declaredType;
                    }
                    if ((containingClass instanceof TClass)) {
                        ParameterizedTypeRef _superClassRef_1 = null;
                        if (((TClass) containingClass) != null) {
                            _superClassRef_1 = ((TClass) containingClass).getSuperClassRef();
                        }
                        boolean _tripleNotEquals = (_superClassRef_1 != null);
                        if (_tripleNotEquals) {
                            this.typeSystemHelper.addSubstitutions(G2, ((TClass) containingClass).getSuperClassRef());
                        }
                    }
                }
            }
            final IdentifiableElement prop = expr.getProperty();
            TypeRef propTypeRef = null;
            if (((prop instanceof TMethod) && ((TMethod) prop).isConstructor())) {
                TypeArgument _switchResult = null;
                boolean _matched = false;
                if (receiverTypeRef instanceof TypeTypeRef) {
                    _matched = true;
                    _switchResult = RuleEnvironmentExtensions.functionTypeRef(G);
                }
                if (!_matched) {
                    if (receiverTypeRef instanceof ParameterizedTypeRef) {
                        _matched = true;
                    }
                    if (!_matched) {
                        if (receiverTypeRef instanceof BoundThisTypeRef) {
                            _matched = true;
                        }
                    }
                    if (_matched) {
                        TypeArgument _xblockexpression = null;
                        {
                            Type _xifexpression = null;
                            if ((receiverTypeRef instanceof BoundThisTypeRef)) {
                                ParameterizedTypeRef _actualThisTypeRef = ((BoundThisTypeRef) receiverTypeRef).getActualThisTypeRef();
                                Type _declaredType_1 = null;
                                if (_actualThisTypeRef != null) {
                                    _declaredType_1 = _actualThisTypeRef.getDeclaredType();
                                }
                                _xifexpression = _declaredType_1;
                            } else {
                                _xifexpression = ((BaseTypeRef) receiverTypeRef).getDeclaredType();
                            }
                            final Type declType = _xifexpression;
                            boolean _xifexpression_1 = false;
                            if ((declType instanceof TClassifier)) {
                                _xifexpression_1 = N4JSLanguageUtils.hasCovariantConstructor(((TClassifier) declType));
                            }
                            final boolean finalCtorSig = _xifexpression_1;
                            TypeArgument _xifexpression_2 = null;
                            if (finalCtorSig) {
                                _xifexpression_2 = TypeExtensions.ref(declType);
                            } else {
                                Wildcard _xifexpression_3 = null;
                                if ((declType != null)) {
                                    _xifexpression_3 = TypeUtils.createWildcardExtends(TypeExtensions.ref(declType));
                                } else {
                                    _xifexpression_3 = null;
                                }
                                _xifexpression_2 = _xifexpression_3;
                            }
                            _xblockexpression = (_xifexpression_2);
                        }
                        _switchResult = _xblockexpression;
                    }
                }
                final TypeArgument ctorTypeArg = _switchResult;
                TypeRef _xifexpression = null;
                if ((ctorTypeArg != null)) {
                    _xifexpression = TypeUtils.createTypeTypeRef(ctorTypeArg, true);
                } else {
                    _xifexpression = TypeRefsFactory.eINSTANCE.createUnknownTypeRef();
                }
                propTypeRef = _xifexpression;
            } else {
                if (((receiverTypeRef.isDynamic() && (prop != null)) && prop.eIsProxy())) {
                    propTypeRef = RuleEnvironmentExtensions.anyTypeRefDynamic(G);
                } else {
                    /* G2.wrap |- prop : propTypeRef */
                    RuleEnvironment _wrap = RuleEnvironmentExtensions.wrap(G2);
                    Result<TypeRef> result_1 = typeInternal(_wrap, _trace_, prop);
                    checkAssignableTo(result_1.getFirst(), TypeRef.class);
                    propTypeRef = (TypeRef) result_1.getFirst();
                    boolean _isParameterized = expr.isParameterized();
                    if (_isParameterized) {
                        this.typeSystemHelper.addSubstitutions(G2, expr);
                    }
                }
            }
            /* G2 |- propTypeRef ~> T */
            Result<TypeArgument> result_2 = substTypeVariablesInternal(G2, _trace_, propTypeRef);
            checkAssignableTo(result_2.getFirst(), TypeRef.class);
            T = (TypeRef) result_2.getFirst();
            T = this.versionResolver.<TypeRef, TypeRef>resolveVersion(T, receiverTypeRef);
            if (((expr.getTarget() instanceof SuperLiteral) && (T instanceof FunctionTypeExprOrRef))) {
                final FunctionTypeExprOrRef F = ((FunctionTypeExprOrRef) T);
                TypeRef _returnTypeRef = ((FunctionTypeExprOrRef) T).getReturnTypeRef();
                if ((_returnTypeRef instanceof BoundThisTypeRef)) {
                    TypeRef rawT = null;
                    /* G |~ expr ~> rawT */
                    Result<TypeRef> result_3 = thisTypeRefInternal(G, _trace_, expr);
                    checkAssignableTo(result_3.getFirst(), TypeRef.class);
                    rawT = (TypeRef) result_3.getFirst();
                    final TypeRef thisTypeRef = TypeUtils.enforceNominalTyping(rawT);
                    if (((T instanceof FunctionTypeExpression) && (T.eContainer() == null))) {
                        final FunctionTypeExpression fte = ((FunctionTypeExpression) T);
                        fte.setReturnTypeRef(TypeUtils.<TypeRef>copyIfContained(thisTypeRef));
                    } else {
                        T = TypeUtils.createFunctionTypeExpression(null, F.getTypeVars(), F.getFpars(), thisTypeRef);
                    }
                }
            }
        }
    }
    return new Result<TypeRef>(T);
}
Also used : ParameterizedPropertyAccessExpression(org.eclipse.n4js.n4JS.ParameterizedPropertyAccessExpression) TClassifier(org.eclipse.n4js.ts.types.TClassifier) ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) FunctionTypeRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeRef) ExistentialTypeRef(org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) StructuralTypeRef(org.eclipse.n4js.ts.typeRefs.StructuralTypeRef) TypeRef(org.eclipse.n4js.ts.typeRefs.TypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) ComposedTypeRef(org.eclipse.n4js.ts.typeRefs.ComposedTypeRef) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) SuperLiteral(org.eclipse.n4js.n4JS.SuperLiteral) TaggedTemplateString(org.eclipse.n4js.n4JS.TaggedTemplateString) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) N4ClassDeclaration(org.eclipse.n4js.n4JS.N4ClassDeclaration) Result(org.eclipse.xsemantics.runtime.Result) StructuralTypingResult(org.eclipse.n4js.typesystem.StructuralTypingResult) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) Wildcard(org.eclipse.n4js.ts.typeRefs.Wildcard) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) RuleEnvironment(org.eclipse.xsemantics.runtime.RuleEnvironment) Pair(org.eclipse.xtext.xbase.lib.Pair) PropertyNameValuePair(org.eclipse.n4js.n4JS.PropertyNameValuePair) ThisLiteral(org.eclipse.n4js.n4JS.ThisLiteral) TMethod(org.eclipse.n4js.ts.types.TMethod) FunctionTypeExpression(org.eclipse.n4js.ts.typeRefs.FunctionTypeExpression) IdentifiableElement(org.eclipse.n4js.ts.types.IdentifiableElement) TypeArgument(org.eclipse.n4js.ts.typeRefs.TypeArgument) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) Type(org.eclipse.n4js.ts.types.Type) PrimitiveType(org.eclipse.n4js.ts.types.PrimitiveType) VoidType(org.eclipse.n4js.ts.types.VoidType) AnyType(org.eclipse.n4js.ts.types.AnyType) ModuleNamespaceVirtualType(org.eclipse.n4js.ts.types.ModuleNamespaceVirtualType) NullType(org.eclipse.n4js.ts.types.NullType) UndefinedType(org.eclipse.n4js.ts.types.UndefinedType) ContainerType(org.eclipse.n4js.ts.types.ContainerType) TStructuralType(org.eclipse.n4js.ts.types.TStructuralType) BinaryBitwiseExpression(org.eclipse.n4js.n4JS.BinaryBitwiseExpression) AssignmentExpression(org.eclipse.n4js.n4JS.AssignmentExpression) IndexedAccessExpression(org.eclipse.n4js.n4JS.IndexedAccessExpression) UnionTypeExpression(org.eclipse.n4js.ts.typeRefs.UnionTypeExpression) FunctionExpression(org.eclipse.n4js.n4JS.FunctionExpression) PromisifyExpression(org.eclipse.n4js.n4JS.PromisifyExpression) UnaryExpression(org.eclipse.n4js.n4JS.UnaryExpression) ParenExpression(org.eclipse.n4js.n4JS.ParenExpression) ParameterizedCallExpression(org.eclipse.n4js.n4JS.ParameterizedCallExpression) AdditiveExpression(org.eclipse.n4js.n4JS.AdditiveExpression) PostfixExpression(org.eclipse.n4js.n4JS.PostfixExpression) YieldExpression(org.eclipse.n4js.n4JS.YieldExpression) ConditionalExpression(org.eclipse.n4js.n4JS.ConditionalExpression) FunctionTypeExpression(org.eclipse.n4js.ts.typeRefs.FunctionTypeExpression) RelationalExpression(org.eclipse.n4js.n4JS.RelationalExpression) NewExpression(org.eclipse.n4js.n4JS.NewExpression) IntersectionTypeExpression(org.eclipse.n4js.ts.typeRefs.IntersectionTypeExpression) AwaitExpression(org.eclipse.n4js.n4JS.AwaitExpression) CommaExpression(org.eclipse.n4js.n4JS.CommaExpression) Expression(org.eclipse.n4js.n4JS.Expression) CastExpression(org.eclipse.n4js.n4JS.CastExpression) BinaryLogicalExpression(org.eclipse.n4js.n4JS.BinaryLogicalExpression) EqualityExpression(org.eclipse.n4js.n4JS.EqualityExpression) ShiftExpression(org.eclipse.n4js.n4JS.ShiftExpression) ParameterizedPropertyAccessExpression(org.eclipse.n4js.n4JS.ParameterizedPropertyAccessExpression) MultiplicativeExpression(org.eclipse.n4js.n4JS.MultiplicativeExpression) N4ClassExpression(org.eclipse.n4js.n4JS.N4ClassExpression) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) FunctionTypeExprOrRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeExprOrRef) TClass(org.eclipse.n4js.ts.types.TClass)

Example 13 with BoundThisTypeRef

use of org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef in project n4js by eclipse.

the class InternalTypeSystem method applyRuleUpperBoundTypeTypeRef.

protected Result<TypeRef> applyRuleUpperBoundTypeTypeRef(final RuleEnvironment G, final RuleApplicationTrace _trace_, final TypeTypeRef ct) throws RuleFailedException {
    // output parameter
    TypeRef T = null;
    final TypeArgument typeArg = ct.getTypeArg();
    if ((typeArg instanceof BoundThisTypeRef)) {
        final ParameterizedTypeRef typeArgNew = TypeUtils.createResolvedThisTypeRef(((BoundThisTypeRef) typeArg));
        T = TypeUtils.createTypeTypeRef(typeArgNew, ct.isConstructorRef());
    } else {
        T = ct;
    }
    return new Result<TypeRef>(T);
}
Also used : ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) FunctionTypeRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeRef) ExistentialTypeRef(org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) StructuralTypeRef(org.eclipse.n4js.ts.typeRefs.StructuralTypeRef) TypeRef(org.eclipse.n4js.ts.typeRefs.TypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) ComposedTypeRef(org.eclipse.n4js.ts.typeRefs.ComposedTypeRef) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) TypeArgument(org.eclipse.n4js.ts.typeRefs.TypeArgument) Result(org.eclipse.xsemantics.runtime.Result) StructuralTypingResult(org.eclipse.n4js.typesystem.StructuralTypingResult)

Example 14 with BoundThisTypeRef

use of org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef in project n4js by eclipse.

the class InternalTypeSystem method applyRuleTypeVariableDeclaration.

protected Result<TypeRef> applyRuleTypeVariableDeclaration(final RuleEnvironment G, final RuleApplicationTrace _trace_, final VariableDeclaration vdecl) throws RuleFailedException {
    // output parameter
    TypeRef T = null;
    TypeRef _declaredTypeRef = vdecl.getDeclaredTypeRef();
    boolean _tripleNotEquals = (_declaredTypeRef != null);
    if (_tripleNotEquals) {
        T = vdecl.getDeclaredTypeRef();
    } else {
        EObject _eContainer = vdecl.eContainer();
        if ((_eContainer instanceof BindingElement)) {
            Expression _expression = vdecl.getExpression();
            Pair<String, Expression> _mappedTo = Pair.<String, Expression>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _expression);
            Object _get = G.get(_mappedTo);
            boolean _tripleEquals = (_get == null);
            if (_tripleEquals) {
                final RuleEnvironment G2 = RuleEnvironmentExtensions.wrap(G);
                Expression _expression_1 = vdecl.getExpression();
                Pair<String, Expression> _mappedTo_1 = Pair.<String, Expression>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _expression_1);
                boolean _add = G2.add(_mappedTo_1, Boolean.TRUE);
                /* G2.add(GUARD_VARIABLE_DECLARATION->vdecl.expression,Boolean.TRUE) */
                if (!_add) {
                    sneakyThrowRuleFailedException("G2.add(GUARD_VARIABLE_DECLARATION->vdecl.expression,Boolean.TRUE)");
                }
                TypeRef _elvis = null;
                TypeRef _typeOfVariableDeclarationInDestructuringPattern = this.destructureHelper.getTypeOfVariableDeclarationInDestructuringPattern(G2, vdecl);
                if (_typeOfVariableDeclarationInDestructuringPattern != null) {
                    _elvis = _typeOfVariableDeclarationInDestructuringPattern;
                } else {
                    ParameterizedTypeRef _anyTypeRef = RuleEnvironmentExtensions.anyTypeRef(G);
                    _elvis = _anyTypeRef;
                }
                T = _elvis;
            } else {
                T = RuleEnvironmentExtensions.anyTypeRef(G);
            }
        } else {
            if (((vdecl.eContainer() instanceof ForStatement) && ((ForStatement) vdecl.eContainer()).isForOf())) {
                EObject _eContainer_1 = vdecl.eContainer();
                final ForStatement forOfStmnt = ((ForStatement) _eContainer_1);
                EObject _eContainer_2 = vdecl.eContainer();
                Pair<String, EObject> _mappedTo_2 = Pair.<String, EObject>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _eContainer_2);
                Object _get_1 = G.get(_mappedTo_2);
                boolean _tripleEquals_1 = (_get_1 == null);
                if (_tripleEquals_1) {
                    final RuleEnvironment G2_1 = RuleEnvironmentExtensions.wrap(G);
                    EObject _eContainer_3 = vdecl.eContainer();
                    Pair<String, EObject> _mappedTo_3 = Pair.<String, EObject>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _eContainer_3);
                    boolean _add_1 = G2_1.add(_mappedTo_3, Boolean.TRUE);
                    /* G2.add(GUARD_VARIABLE_DECLARATION->vdecl.eContainer,Boolean.TRUE) */
                    if (!_add_1) {
                        sneakyThrowRuleFailedException("G2.add(GUARD_VARIABLE_DECLARATION->vdecl.eContainer,Boolean.TRUE)");
                    }
                    /* { G2 |- forOfStmnt.expression : var TypeRef ofPartTypeRef val elemType = destructureHelper.extractIterableElementType(G2, ofPartTypeRef) elemType!==null G2 |~ elemType /\ T } or { T = TypeRefsFactory.eINSTANCE.createUnknownTypeRef } */
                    {
                        RuleFailedException previousFailure = null;
                        try {
                            /* G2 |- forOfStmnt.expression : var TypeRef ofPartTypeRef */
                            Expression _expression_2 = forOfStmnt.getExpression();
                            TypeRef ofPartTypeRef = null;
                            Result<TypeRef> result = typeInternal(G2_1, _trace_, _expression_2);
                            checkAssignableTo(result.getFirst(), TypeRef.class);
                            ofPartTypeRef = (TypeRef) result.getFirst();
                            final TypeArgument elemType = this.destructureHelper.extractIterableElementType(G2_1, ofPartTypeRef);
                            /* elemType!==null */
                            if (!(elemType != null)) {
                                sneakyThrowRuleFailedException("elemType!==null");
                            }
                            /* G2 |~ elemType /\ T */
                            Result<TypeRef> result_1 = upperBoundInternal(G2_1, _trace_, elemType);
                            checkAssignableTo(result_1.getFirst(), TypeRef.class);
                            T = (TypeRef) result_1.getFirst();
                        } catch (Exception e) {
                            previousFailure = extractRuleFailedException(e);
                            T = TypeRefsFactory.eINSTANCE.createUnknownTypeRef();
                        }
                    }
                } else {
                    T = RuleEnvironmentExtensions.anyTypeRef(G);
                }
            } else {
                if (((vdecl.eContainer() instanceof ForStatement) && ((ForStatement) vdecl.eContainer()).isForIn())) {
                    T = RuleEnvironmentExtensions.stringTypeRef(G);
                } else {
                    Expression _expression_3 = vdecl.getExpression();
                    boolean _tripleNotEquals_1 = (_expression_3 != null);
                    if (_tripleNotEquals_1) {
                        Expression _expression_4 = vdecl.getExpression();
                        Pair<String, Expression> _mappedTo_4 = Pair.<String, Expression>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _expression_4);
                        Object _get_2 = G.get(_mappedTo_4);
                        boolean _tripleEquals_2 = (_get_2 == null);
                        if (_tripleEquals_2) {
                            final RuleEnvironment G2_2 = RuleEnvironmentExtensions.wrap(G);
                            Expression _expression_5 = vdecl.getExpression();
                            Pair<String, Expression> _mappedTo_5 = Pair.<String, Expression>of(RuleEnvironmentExtensions.GUARD_VARIABLE_DECLARATION, _expression_5);
                            boolean _add_2 = G2_2.add(_mappedTo_5, Boolean.TRUE);
                            /* G2.add(GUARD_VARIABLE_DECLARATION->vdecl.expression,Boolean.TRUE) */
                            if (!_add_2) {
                                sneakyThrowRuleFailedException("G2.add(GUARD_VARIABLE_DECLARATION->vdecl.expression,Boolean.TRUE)");
                            }
                            /* G2 |- vdecl.expression: var TypeRef E */
                            Expression _expression_6 = vdecl.getExpression();
                            TypeRef E = null;
                            Result<TypeRef> result_2 = typeInternal(G2_2, _trace_, _expression_6);
                            checkAssignableTo(result_2.getFirst(), TypeRef.class);
                            E = (TypeRef) result_2.getFirst();
                            if (((E instanceof BoundThisTypeRef) || ((E instanceof TypeTypeRef) && (((TypeTypeRef) E).getTypeArg() instanceof BoundThisTypeRef)))) {
                            } else {
                                /* G2 |~ E /\ E */
                                Result<TypeRef> result_3 = upperBoundInternal(G2_2, _trace_, E);
                                checkAssignableTo(result_3.getFirst(), TypeRef.class);
                                E = (TypeRef) result_3.getFirst();
                            }
                            if ((((E.getDeclaredType() == RuleEnvironmentExtensions.undefinedType(G)) || (E.getDeclaredType() == RuleEnvironmentExtensions.nullType(G))) || (E.getDeclaredType() == RuleEnvironmentExtensions.voidType(G)))) {
                                T = RuleEnvironmentExtensions.anyTypeRef(G);
                            } else {
                                T = E;
                            }
                        } else {
                            T = RuleEnvironmentExtensions.anyTypeRef(G);
                        }
                    } else {
                        T = RuleEnvironmentExtensions.anyTypeRef(G);
                    }
                }
            }
        }
    }
    boolean _enforceDynamicTypes = this.jsVariantHelper.enforceDynamicTypes(vdecl);
    if (_enforceDynamicTypes) {
        T = this.typeSystemHelper.makeDynamic(T);
    }
    return new Result<TypeRef>(T);
}
Also used : BindingElement(org.eclipse.n4js.n4JS.BindingElement) ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) FunctionTypeRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeRef) ExistentialTypeRef(org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) StructuralTypeRef(org.eclipse.n4js.ts.typeRefs.StructuralTypeRef) TypeRef(org.eclipse.n4js.ts.typeRefs.TypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) ComposedTypeRef(org.eclipse.n4js.ts.typeRefs.ComposedTypeRef) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) TypeArgument(org.eclipse.n4js.ts.typeRefs.TypeArgument) TaggedTemplateString(org.eclipse.n4js.n4JS.TaggedTemplateString) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException) Result(org.eclipse.xsemantics.runtime.Result) StructuralTypingResult(org.eclipse.n4js.typesystem.StructuralTypingResult) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BinaryBitwiseExpression(org.eclipse.n4js.n4JS.BinaryBitwiseExpression) AssignmentExpression(org.eclipse.n4js.n4JS.AssignmentExpression) IndexedAccessExpression(org.eclipse.n4js.n4JS.IndexedAccessExpression) UnionTypeExpression(org.eclipse.n4js.ts.typeRefs.UnionTypeExpression) FunctionExpression(org.eclipse.n4js.n4JS.FunctionExpression) PromisifyExpression(org.eclipse.n4js.n4JS.PromisifyExpression) UnaryExpression(org.eclipse.n4js.n4JS.UnaryExpression) ParenExpression(org.eclipse.n4js.n4JS.ParenExpression) ParameterizedCallExpression(org.eclipse.n4js.n4JS.ParameterizedCallExpression) AdditiveExpression(org.eclipse.n4js.n4JS.AdditiveExpression) PostfixExpression(org.eclipse.n4js.n4JS.PostfixExpression) YieldExpression(org.eclipse.n4js.n4JS.YieldExpression) ConditionalExpression(org.eclipse.n4js.n4JS.ConditionalExpression) FunctionTypeExpression(org.eclipse.n4js.ts.typeRefs.FunctionTypeExpression) RelationalExpression(org.eclipse.n4js.n4JS.RelationalExpression) NewExpression(org.eclipse.n4js.n4JS.NewExpression) IntersectionTypeExpression(org.eclipse.n4js.ts.typeRefs.IntersectionTypeExpression) AwaitExpression(org.eclipse.n4js.n4JS.AwaitExpression) CommaExpression(org.eclipse.n4js.n4JS.CommaExpression) Expression(org.eclipse.n4js.n4JS.Expression) CastExpression(org.eclipse.n4js.n4JS.CastExpression) BinaryLogicalExpression(org.eclipse.n4js.n4JS.BinaryLogicalExpression) EqualityExpression(org.eclipse.n4js.n4JS.EqualityExpression) ShiftExpression(org.eclipse.n4js.n4JS.ShiftExpression) ParameterizedPropertyAccessExpression(org.eclipse.n4js.n4JS.ParameterizedPropertyAccessExpression) MultiplicativeExpression(org.eclipse.n4js.n4JS.MultiplicativeExpression) N4ClassExpression(org.eclipse.n4js.n4JS.N4ClassExpression) EObject(org.eclipse.emf.ecore.EObject) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) EObject(org.eclipse.emf.ecore.EObject) RuleEnvironment(org.eclipse.xsemantics.runtime.RuleEnvironment) ForStatement(org.eclipse.n4js.n4JS.ForStatement)

Example 15 with BoundThisTypeRef

use of org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef in project n4js by eclipse.

the class InternalTypeSystem method thisTypeRefImpl.

protected Result<TypeRef> thisTypeRefImpl(final RuleEnvironment G, final RuleApplicationTrace _trace_, final ParameterizedTypeRef type) throws RuleFailedException {
    try {
        final RuleApplicationTrace _subtrace_ = newTrace(_trace_);
        final Result<TypeRef> _result_ = applyRuleThisTypeRefParameterizedTypeRef(G, _subtrace_, type);
        addToTrace(_trace_, new Provider<Object>() {

            public Object get() {
                return ruleName("thisTypeRefParameterizedTypeRef") + stringRepForEnv(G) + " |~ " + stringRep(type) + " ~> " + stringRep(_result_.getFirst());
            }
        });
        addAsSubtrace(_trace_, _subtrace_);
        return _result_;
    } catch (Exception e_applyRuleThisTypeRefParameterizedTypeRef) {
        thisTypeRefThrowException(ruleName("thisTypeRefParameterizedTypeRef") + stringRepForEnv(G) + " |~ " + stringRep(type) + " ~> " + "BoundThisTypeRef", THISTYPEREFPARAMETERIZEDTYPEREF, e_applyRuleThisTypeRefParameterizedTypeRef, type, new ErrorInformation[] { new ErrorInformation(type) });
        return null;
    }
}
Also used : ErrorInformation(org.eclipse.xsemantics.runtime.ErrorInformation) ThisTypeRef(org.eclipse.n4js.ts.typeRefs.ThisTypeRef) ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef) BaseTypeRef(org.eclipse.n4js.ts.typeRefs.BaseTypeRef) FunctionTypeRef(org.eclipse.n4js.ts.typeRefs.FunctionTypeRef) ExistentialTypeRef(org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef) BoundThisTypeRef(org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef) StructuralTypeRef(org.eclipse.n4js.ts.typeRefs.StructuralTypeRef) TypeRef(org.eclipse.n4js.ts.typeRefs.TypeRef) TypeTypeRef(org.eclipse.n4js.ts.typeRefs.TypeTypeRef) StaticBaseTypeRef(org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef) ComposedTypeRef(org.eclipse.n4js.ts.typeRefs.ComposedTypeRef) UnknownTypeRef(org.eclipse.n4js.ts.typeRefs.UnknownTypeRef) RuleApplicationTrace(org.eclipse.xsemantics.runtime.RuleApplicationTrace) EObject(org.eclipse.emf.ecore.EObject) RuleFailedException(org.eclipse.xsemantics.runtime.RuleFailedException)

Aggregations

BoundThisTypeRef (org.eclipse.n4js.ts.typeRefs.BoundThisTypeRef)16 ParameterizedTypeRef (org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef)15 TypeTypeRef (org.eclipse.n4js.ts.typeRefs.TypeTypeRef)14 ComposedTypeRef (org.eclipse.n4js.ts.typeRefs.ComposedTypeRef)13 ExistentialTypeRef (org.eclipse.n4js.ts.typeRefs.ExistentialTypeRef)13 StructuralTypeRef (org.eclipse.n4js.ts.typeRefs.StructuralTypeRef)13 TypeRef (org.eclipse.n4js.ts.typeRefs.TypeRef)13 BaseTypeRef (org.eclipse.n4js.ts.typeRefs.BaseTypeRef)12 FunctionTypeRef (org.eclipse.n4js.ts.typeRefs.FunctionTypeRef)12 StaticBaseTypeRef (org.eclipse.n4js.ts.typeRefs.StaticBaseTypeRef)12 ThisTypeRef (org.eclipse.n4js.ts.typeRefs.ThisTypeRef)12 UnknownTypeRef (org.eclipse.n4js.ts.typeRefs.UnknownTypeRef)12 StructuralTypingResult (org.eclipse.n4js.typesystem.StructuralTypingResult)9 Result (org.eclipse.xsemantics.runtime.Result)9 RuleFailedException (org.eclipse.xsemantics.runtime.RuleFailedException)9 TypeArgument (org.eclipse.n4js.ts.typeRefs.TypeArgument)5 EObject (org.eclipse.emf.ecore.EObject)4 AdditiveExpression (org.eclipse.n4js.n4JS.AdditiveExpression)3 AssignmentExpression (org.eclipse.n4js.n4JS.AssignmentExpression)3 AwaitExpression (org.eclipse.n4js.n4JS.AwaitExpression)3