Example 26 with TClass
use of org.eclipse.n4js.ts.types.TClass in project n4js by eclipse.
the class InternalTypeSystem method applyRuleThisTypeRefEObject.
protected Result<TypeRef> applyRuleThisTypeRefEObject(final RuleEnvironment G, final RuleApplicationTrace _trace_, final EObject location) throws RuleFailedException {
// output parameter
TypeRef T = null;
final FunctionOrFieldAccessor containingFunctionOrAccessor = N4JSASTUtils.getContainingFunctionOrAccessor(location);
boolean _matched = false;
if (containingFunctionOrAccessor instanceof ArrowFunction) {
_matched = true;
/* G |~ containingFunctionOrAccessor ~> T */
Result<TypeRef> result = thisTypeRefInternal(G, _trace_, ((ArrowFunction) containingFunctionOrAccessor));
checkAssignableTo(result.getFirst(), TypeRef.class);
T = (TypeRef) result.getFirst();
}
if (!_matched) {
IdentifiableElement _definedFunctionOrAccessor = null;
if (containingFunctionOrAccessor != null) {
_definedFunctionOrAccessor = containingFunctionOrAccessor.getDefinedFunctionOrAccessor();
}
final IdentifiableElement containingTFunctionOrAccessor = _definedFunctionOrAccessor;
final TypeRef declaredThisType = TypeSystemHelper.declaredThisType(containingTFunctionOrAccessor);
if ((declaredThisType != null)) {
if ((declaredThisType instanceof ParameterizedTypeRef)) {
/* G |~ declaredThisType ~> T */
Result<TypeRef> result = thisTypeRefInternal(G, _trace_, ((ParameterizedTypeRef) declaredThisType));
checkAssignableTo(result.getFirst(), TypeRef.class);
T = (TypeRef) result.getFirst();
} else {
T = declaredThisType;
}
} else {
final ThisTarget thisTarget = N4JSASTUtils.getProbableThisTarget(location);
boolean _matched_1 = false;
if (thisTarget instanceof ObjectLiteral) {
_matched_1 = true;
/* G |- thisTarget: T */
Result<TypeRef> result_1 = typeInternal(G, _trace_, ((ObjectLiteral) thisTarget));
checkAssignableTo(result_1.getFirst(), TypeRef.class);
T = (TypeRef) result_1.getFirst();
}
if (!_matched_1) {
if (thisTarget instanceof N4ClassifierDefinition) {
_matched_1 = true;
Type thisTargetDEFTYPE = ((N4ClassifierDefinition) thisTarget).getDefinedType();
if ((thisTarget instanceof N4ClassDeclaration)) {
final TClass clazz = ((N4ClassDeclaration) thisTarget).getDefinedTypeAsClass();
if (((clazz != null) && clazz.isStaticPolyfill())) {
final Type actualClazz = clazz.getSuperClassRef().getDeclaredType();
if ((actualClazz != null)) {
thisTargetDEFTYPE = actualClazz;
}
}
}
if ((thisTargetDEFTYPE != null)) {
final FunctionDefinition containingFunction = N4JSASTUtils.getContainingFunction(location);
if (((containingFunction instanceof N4MethodDeclaration) && ((N4MemberDeclaration) containingFunction).isStatic())) {
boolean _isInReturnDeclaration_Of_StaticMethod = RuleEnvironmentExtensions.isInReturnDeclaration_Of_StaticMethod(location, ((N4MethodDeclaration) containingFunction));
if (_isInReturnDeclaration_Of_StaticMethod) {
/* G |~ thisTargetDEFTYPE.ref ~> T */
TypeRef _ref = TypeExtensions.ref(thisTargetDEFTYPE);
Result<TypeRef> result_1 = thisTypeRefInternal(G, _trace_, _ref);
checkAssignableTo(result_1.getFirst(), TypeRef.class);
T = (TypeRef) result_1.getFirst();
} else {
boolean _isInBody_Of_StaticMethod = RuleEnvironmentExtensions.isInBody_Of_StaticMethod(location, ((N4MethodDeclaration) containingFunction));
if (_isInBody_Of_StaticMethod) {
T = TypeUtils.createClassifierBoundThisTypeRef(TypeUtils.createTypeTypeRef(TypeExtensions.ref(thisTargetDEFTYPE), false));
} else {
T = TypeUtils.createConstructorTypeRef(thisTargetDEFTYPE);
}
}
} else {
final N4FieldDeclaration n4Field = EcoreUtil2.<N4FieldDeclaration>getContainerOfType(location, N4FieldDeclaration.class);
if (((n4Field != null) && n4Field.isStatic())) {
T = TypeRefsFactory.eINSTANCE.createUnknownTypeRef();
} else {
final N4GetterDeclaration n4Getter = EcoreUtil2.<N4GetterDeclaration>getContainerOfType(location, N4GetterDeclaration.class);
if (((n4Getter != null) && n4Getter.isStatic())) {
T = TypeUtils.createConstructorTypeRef(thisTargetDEFTYPE);
} else {
final N4SetterDeclaration n4Setter = EcoreUtil2.<N4SetterDeclaration>getContainerOfType(location, N4SetterDeclaration.class);
if (((n4Setter != null) && n4Setter.isStatic())) {
T = TypeUtils.createConstructorTypeRef(thisTargetDEFTYPE);
} else {
/* G |~ thisTargetDEFTYPE.ref ~> T */
TypeRef _ref_1 = TypeExtensions.ref(thisTargetDEFTYPE);
Result<TypeRef> result_2 = thisTypeRefInternal(G, _trace_, _ref_1);
checkAssignableTo(result_2.getFirst(), TypeRef.class);
T = (TypeRef) result_2.getFirst();
}
}
}
}
} else {
T = RuleEnvironmentExtensions.anyTypeRefDynamic(G);
}
}
}
if (!_matched_1) {
boolean _hasGlobalObject = this.jsVariantHelper.hasGlobalObject(location);
if (_hasGlobalObject) {
T = RuleEnvironmentExtensions.globalObjectTypeRef(G);
} else {
T = RuleEnvironmentExtensions.undefinedTypeRef(G);
}
}
}
}
return new Result<TypeRef>(T);
}
Also used :
ObjectLiteral(org.eclipse.n4js.n4JS.ObjectLiteral)
FunctionOrFieldAccessor(org.eclipse.n4js.n4JS.FunctionOrFieldAccessor)
N4FieldDeclaration(org.eclipse.n4js.n4JS.N4FieldDeclaration)
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)
N4GetterDeclaration(org.eclipse.n4js.n4JS.N4GetterDeclaration)
ArrowFunction(org.eclipse.n4js.n4JS.ArrowFunction)
IdentifiableElement(org.eclipse.n4js.ts.types.IdentifiableElement)
N4MemberDeclaration(org.eclipse.n4js.n4JS.N4MemberDeclaration)
N4ClassDeclaration(org.eclipse.n4js.n4JS.N4ClassDeclaration)
Result(org.eclipse.xsemantics.runtime.Result)
StructuralTypingResult(org.eclipse.n4js.typesystem.StructuralTypingResult)
ParameterizedTypeRef(org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef)
N4SetterDeclaration(org.eclipse.n4js.n4JS.N4SetterDeclaration)
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)
N4ClassifierDefinition(org.eclipse.n4js.n4JS.N4ClassifierDefinition)
N4MethodDeclaration(org.eclipse.n4js.n4JS.N4MethodDeclaration)
FunctionDefinition(org.eclipse.n4js.n4JS.FunctionDefinition)
TClass(org.eclipse.n4js.ts.types.TClass)
ThisTarget(org.eclipse.n4js.n4JS.ThisTarget)
Example 27 with TClass
use of org.eclipse.n4js.ts.types.TClass 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)
Aggregations
TClass (org.eclipse.n4js.ts.types.TClass)27
ParameterizedTypeRef (org.eclipse.n4js.ts.typeRefs.ParameterizedTypeRef)16
Type (org.eclipse.n4js.ts.types.Type)15
TMember (org.eclipse.n4js.ts.types.TMember)11
TClassifier (org.eclipse.n4js.ts.types.TClassifier)10
TInterface (org.eclipse.n4js.ts.types.TInterface)9
TMethod (org.eclipse.n4js.ts.types.TMethod)8
ArrayList (java.util.ArrayList)5
HashSet (java.util.HashSet)5
List (java.util.List)5
Collectors (java.util.stream.Collectors)5
EObject (org.eclipse.emf.ecore.EObject)5
PrimitiveType (org.eclipse.n4js.ts.types.PrimitiveType)5
TField (org.eclipse.n4js.ts.types.TField)5
MemberList (org.eclipse.n4js.ts.types.util.MemberList)5
Collections.emptyList (java.util.Collections.emptyList)4
HashMap (java.util.HashMap)4
Stream (java.util.stream.Stream)4
N4InterfaceDeclaration (org.eclipse.n4js.n4JS.N4InterfaceDeclaration)4
Script (org.eclipse.n4js.n4JS.Script)4
