Пример #1
0
        public override TypeNode VisitTypeReference(TypeNode type, bool addNonNullWrapperIfNeeded)
        {
            if (type == null)
            {
                return(null);
            }

            // begin change by drunje (allow pointers to managed structures)
            if (this.AllowPointersToManagedStructures && (type.NodeType == NodeType.PointerTypeExpression))
            {
                PointerTypeExpression ptrExpr = (PointerTypeExpression)type;
                TypeNode et = this.VisitTypeReference(ptrExpr.ElementType);
                if ((et != null) && (et.Name != Looker.NotFound) && (!et.IsUnmanaged) && (et.IsValueType))
                {
                    return(et.GetPointerType());
                }
            }
            // end of change by drunje

            ClassParameter cp = this.typeParamToClassParamMap[type.UniqueKey] as ClassParameter;

            if (cp != null)
            {
                return(cp);
            }

            return(base.VisitTypeReference(type, addNonNullWrapperIfNeeded));
        }
Пример #2
0
        public override TypeNode VisitTypeReference(TypeNode type)
        { //TODO: break up this method
            if (type == null)
            {
                return(null);
            }
            TypeNodeList pars = this.pars;
            TypeNodeList args = this.args;

            switch (type.NodeType)
            {
            case NodeType.ArrayType:
                ArrayType arrType  = (ArrayType)type;
                TypeNode  elemType = this.VisitTypeReference(arrType.ElementType);
                if (elemType == arrType.ElementType || elemType == null)
                {
                    return(arrType);
                }
                if (arrType.IsSzArray())
                {
                    return(elemType.GetArrayType(1));
                }
                return(elemType.GetArrayType(arrType.Rank, arrType.Sizes, arrType.LowerBounds));

            case NodeType.DelegateNode:
            {
                FunctionType ftype = type as FunctionType;
                if (ftype == null)
                {
                    goto default;
                }
                TypeNode referringType = ftype.DeclaringType == null ? this.CurrentType : this.VisitTypeReference(ftype.DeclaringType);
                return(FunctionType.For(this.VisitTypeReference(ftype.ReturnType), this.VisitParameterList(ftype.Parameters), referringType));
            }

            case NodeType.Pointer:
                Pointer pType = (Pointer)type;
                elemType = this.VisitTypeReference(pType.ElementType);
                if (elemType == pType.ElementType || elemType == null)
                {
                    return(pType);
                }
                return(elemType.GetPointerType());

            case NodeType.Reference:
                Reference rType = (Reference)type;
                elemType = this.VisitTypeReference(rType.ElementType);
                if (elemType == rType.ElementType || elemType == null)
                {
                    return(rType);
                }
                return(elemType.GetReferenceType());

            case NodeType.ArrayTypeExpression:
                ArrayTypeExpression aExpr = (ArrayTypeExpression)type;
                aExpr.ElementType = this.VisitTypeReference(aExpr.ElementType);
                return(aExpr);

            case NodeType.BoxedTypeExpression:
                BoxedTypeExpression bExpr = (BoxedTypeExpression)type;
                bExpr.ElementType = this.VisitTypeReference(bExpr.ElementType);
                return(bExpr);

            case NodeType.ClassExpression:
            {
                ClassExpression cExpr = (ClassExpression)type;
                cExpr.Expression = this.VisitTypeExpression(cExpr.Expression);

                //Could happen if the expression is a template parameter
                if (cExpr.Expression is Literal lit)
                {
                    return(lit.Value as TypeNode);
                }

                cExpr.TemplateArguments = this.VisitTypeReferenceList(cExpr.TemplateArguments);
                return(cExpr);
            }

            case NodeType.ClassParameter:
            case NodeType.TypeParameter:
                int key = type.UniqueKey;
                for (int i = 0, n = pars == null ? 0 : pars.Count, m = args == null ? 0 : args.Count; i < n && i < m; i++)
                {
                    //^ assert pars != null && args != null;
                    TypeNode tp = pars[i];
                    if (tp == null)
                    {
                        continue;
                    }
                    if (tp.UniqueKey == key)
                    {
                        return(args[i]);
                    }
                    if (tp.Name.UniqueIdKey == type.Name.UniqueIdKey && (tp is ClassParameter && type is TypeParameter))
                    {
                        //This shouldn't really happen, but in practice it does. Hack past it.
                        return(args[i]);
                    }
                }
                return(type);

            case NodeType.FlexArrayTypeExpression:
                FlexArrayTypeExpression flExpr = (FlexArrayTypeExpression)type;
                flExpr.ElementType = this.VisitTypeReference(flExpr.ElementType);
                return(flExpr);

            case NodeType.FunctionTypeExpression:
                FunctionTypeExpression ftExpr = (FunctionTypeExpression)type;
                ftExpr.Parameters = this.VisitParameterList(ftExpr.Parameters);
                ftExpr.ReturnType = this.VisitTypeReference(ftExpr.ReturnType);
                return(ftExpr);

            case NodeType.InvariantTypeExpression:
                InvariantTypeExpression invExpr = (InvariantTypeExpression)type;
                invExpr.ElementType = this.VisitTypeReference(invExpr.ElementType);
                return(invExpr);

            case NodeType.InterfaceExpression:
                InterfaceExpression iExpr = (InterfaceExpression)type;
                if (iExpr.Expression == null)
                {
                    goto default;
                }
                iExpr.Expression        = this.VisitTypeExpression(iExpr.Expression);
                iExpr.TemplateArguments = this.VisitTypeReferenceList(iExpr.TemplateArguments);
                return(iExpr);

            case NodeType.NonEmptyStreamTypeExpression:
                NonEmptyStreamTypeExpression neExpr = (NonEmptyStreamTypeExpression)type;
                neExpr.ElementType = this.VisitTypeReference(neExpr.ElementType);
                return(neExpr);

            case NodeType.NonNullTypeExpression:
                NonNullTypeExpression nnExpr = (NonNullTypeExpression)type;
                nnExpr.ElementType = this.VisitTypeReference(nnExpr.ElementType);
                return(nnExpr);

            case NodeType.NonNullableTypeExpression:
                NonNullableTypeExpression nbExpr = (NonNullableTypeExpression)type;
                nbExpr.ElementType = this.VisitTypeReference(nbExpr.ElementType);
                return(nbExpr);

            case NodeType.NullableTypeExpression:
                NullableTypeExpression nuExpr = (NullableTypeExpression)type;
                nuExpr.ElementType = this.VisitTypeReference(nuExpr.ElementType);
                return(nuExpr);

            case NodeType.OptionalModifier:
            {
                TypeModifier modType      = (TypeModifier)type;
                TypeNode     modifiedType = this.VisitTypeReference(modType.ModifiedType);
                TypeNode     modifierType = this.VisitTypeReference(modType.Modifier);
                if (modifiedType == null || modifierType == null)
                {
                    return(type);
                }

                return(OptionalModifier.For(modifierType, modifiedType));
            }

            case NodeType.RequiredModifier:
            {
                TypeModifier modType      = (TypeModifier)type;
                TypeNode     modifiedType = this.VisitTypeReference(modType.ModifiedType);
                TypeNode     modifierType = this.VisitTypeReference(modType.Modifier);
                if (modifiedType == null || modifierType == null)
                {
                    Debug.Fail(""); return(type);
                }
                return(RequiredModifier.For(modifierType, modifiedType));
            }

            case NodeType.OptionalModifierTypeExpression:
                OptionalModifierTypeExpression optmodType = (OptionalModifierTypeExpression)type;
                optmodType.ModifiedType = this.VisitTypeReference(optmodType.ModifiedType);
                optmodType.Modifier     = this.VisitTypeReference(optmodType.Modifier);
                return(optmodType);

            case NodeType.RequiredModifierTypeExpression:
                RequiredModifierTypeExpression reqmodType = (RequiredModifierTypeExpression)type;
                reqmodType.ModifiedType = this.VisitTypeReference(reqmodType.ModifiedType);
                reqmodType.Modifier     = this.VisitTypeReference(reqmodType.Modifier);
                return(reqmodType);

            case NodeType.PointerTypeExpression:
                PointerTypeExpression pExpr = (PointerTypeExpression)type;
                pExpr.ElementType = this.VisitTypeReference(pExpr.ElementType);
                return(pExpr);

            case NodeType.ReferenceTypeExpression:
                ReferenceTypeExpression rExpr = (ReferenceTypeExpression)type;
                rExpr.ElementType = this.VisitTypeReference(rExpr.ElementType);
                return(rExpr);

            case NodeType.StreamTypeExpression:
                StreamTypeExpression sExpr = (StreamTypeExpression)type;
                sExpr.ElementType = this.VisitTypeReference(sExpr.ElementType);
                return(sExpr);

            case NodeType.TupleTypeExpression:
                TupleTypeExpression tuExpr = (TupleTypeExpression)type;
                tuExpr.Domains = this.VisitFieldList(tuExpr.Domains);
                return(tuExpr);

            case NodeType.TypeExpression:
            {
                TypeExpression tExpr = (TypeExpression)type;
                tExpr.Expression = this.VisitTypeExpression(tExpr.Expression);
                if (tExpr.Expression is Literal)
                {
                    return(type);
                }
                tExpr.TemplateArguments = this.VisitTypeReferenceList(tExpr.TemplateArguments);
                return(tExpr);
            }

            case NodeType.TypeIntersectionExpression:
                TypeIntersectionExpression tiExpr = (TypeIntersectionExpression)type;
                tiExpr.Types = this.VisitTypeReferenceList(tiExpr.Types);
                return(tiExpr);

            case NodeType.TypeUnionExpression:
                TypeUnionExpression tyuExpr = (TypeUnionExpression)type;
                tyuExpr.Types = this.VisitTypeReferenceList(tyuExpr.Types);
                return(tyuExpr);

            default:
                TypeNode declaringType = this.VisitTypeReference(type.DeclaringType);
                if (declaringType != null)
                {
                    Identifier tname = type.Name;
                    if (type.Template != null && type.IsGeneric)
                    {
                        tname = type.Template.Name;
                    }
                    TypeNode nt = declaringType.GetNestedType(tname);
                    if (nt != null)
                    {
                        TypeNodeList arguments = type.TemplateArguments;
                        type = nt;
                        if (TargetPlatform.UseGenerics)
                        {
                            if (arguments != null && arguments.Count > 0 && nt.ConsolidatedTemplateParameters != null && nt.ConsolidatedTemplateParameters.Count > 0)
                            {
                                type = nt.GetTemplateInstance(this.TargetModule, this.CurrentType, declaringType, arguments);
                            }
                        }
                    }
                }

                if (type.Template != null && (type.ConsolidatedTemplateParameters == null || type.ConsolidatedTemplateParameters.Count == 0))
                {
                    if (!type.IsNotFullySpecialized && (!type.IsNormalized ||
                                                        (this.CurrentType != null && type.DeclaringModule == this.CurrentType.DeclaringModule)))
                    {
                        return(type);
                    }

                    // Type is a template instance, but some of its arguments were themselves parameters.
                    // See if any of these parameters are to be specialized by this specializer.
                    bool         mustSpecializeFurther = false;
                    TypeNodeList targs   = type.TemplateArguments;
                    int          numArgs = targs == null ? 0 : targs.Count;

                    if (targs != null)
                    {
                        targs = new TypeNodeList(targs);

                        for (int i = 0; i < numArgs; i++)
                        {
                            TypeNode targ = targs[i];

                            if (targ is ITypeParameter tparg)
                            {
                                for (int j = 0, np = pars == null ? 0 : pars.Count, m = args == null ? 0 : args.Count; j < np && j < m; j++)
                                {
                                    //^ assert pars != null && args != null;
                                    if (TargetPlatform.UseGenerics)
                                    {
                                        if (!(pars[j] is ITypeParameter par))
                                        {
                                            continue;
                                        }

                                        if (tparg == par || (tparg.ParameterListIndex == par.ParameterListIndex && tparg.DeclaringMember == par.DeclaringMember))
                                        {
                                            targ = this.args[j];
                                            break;
                                        }
                                    }
                                    else
                                    {
                                        if (targ == pars[j])
                                        {
                                            targ = this.args[j];
                                            break;
                                        }
                                    }
                                }
                            }
                            else
                            {
                                if (targ != type)
                                {
                                    targ = this.VisitTypeReference(targ);
                                }

                                if (targ == type)
                                {
                                    continue;
                                }
                            }

                            mustSpecializeFurther |= targs[i] != targ;
                            targs[i] = targ;
                        }
                    }

                    if (targs == null || !mustSpecializeFurther)
                    {
                        return(type);
                    }

                    return(type.Template.GetTemplateInstance(this.TargetModule, this.CurrentType, declaringType, targs));
                }

                TypeNodeList tPars = type.TemplateParameters;
                if (tPars == null || tPars.Count == 0)
                {
                    return(type);                                       //Not a parameterized type. No need to get an instance.
                }
                TypeNodeList tArgs = new TypeNodeList();
                for (int i = 0, n = tPars.Count; i < n; i++)
                {
                    TypeNode tPar = tPars[i];
                    tArgs.Add(tPar);     //Leave parameter in place if there is no match
                    if (tPar == null || tPar.Name == null)
                    {
                        continue;
                    }
                    int idKey = tPar.Name.UniqueIdKey;
                    for (int j = 0, m = pars == null ? 0 : pars.Count, k = args == null ? 0 : args.Count; j < m && j < k; j++)
                    {
                        //^ assert pars != null && args != null;
                        TypeNode par = pars[j];
                        if (par == null || par.Name == null)
                        {
                            continue;
                        }
                        if (par.Name.UniqueIdKey == idKey)
                        {
                            tArgs[i] = args[j];
                            break;
                        }
                    }
                }
                return(type.GetTemplateInstance(this.TargetModule, this.CurrentType, this.VisitTypeReference(type.DeclaringType), tArgs));
            }
        }
Пример #3
0
 public virtual TypeNode InferTypeOfUnaryExpression(TypeNode origType, UnaryExpression unaryExpression){
   if (unaryExpression == null) return origType;
   TypeNode t = this.typeSystem.Unwrap(origType);
   if (this.typeSystem.IsNullableType(t)) return this.typeSystem.CreateNullableWrapper(this.currentType, InferTypeOfUnaryExpression(this.typeSystem.RemoveNullableWrapper(t), unaryExpression));
   switch (unaryExpression.NodeType){
     case NodeType.AddressOf: return origType.GetPointerType();
     case NodeType.OutAddress: 
     case NodeType.RefAddress: return origType.GetReferenceType();
     case NodeType.Ldftn: return SystemTypes.IntPtr;
     case NodeType.LogicalNot: return SystemTypes.Boolean;
     case NodeType.UnaryPlus:
     case NodeType.Neg:
     case NodeType.Not:
       switch(t.TypeCode){
         case TypeCode.SByte:
         case TypeCode.Byte:
         case TypeCode.Int16:
         case TypeCode.UInt16:
         case TypeCode.Char:
           return SystemTypes.Int32;
         case TypeCode.UInt32:
           if (unaryExpression.NodeType == NodeType.Neg)
             return SystemTypes.Int64;
           break;
       }
       break;
     case NodeType.Parentheses:
     case NodeType.SkipCheck:
     case NodeType.Ckfinite:
       if (unaryExpression.Operand == null){
         unaryExpression.IsErroneous = true;
         return t;
       }
       return unaryExpression.Operand.Type;
     case NodeType.DefaultValue:
       Literal lit = unaryExpression.Operand as Literal;
       if (lit == null){
         unaryExpression.IsErroneous = true;
         return SystemTypes.Object;
       }
       TypeNode lt = lit.Value as TypeNode;
       if (lt == null){
         unaryExpression.IsErroneous = true;
         return SystemTypes.Object;
       }
       return lt;
     case NodeType.Sizeof:
       return SystemTypes.Int32;
     case NodeType.Typeof:
       return !this.NonNullChecking ? SystemTypes.Type : (TypeNode)OptionalModifier.For(SystemTypes.NonNullType, SystemTypes.Type);
   }
   return t;
 }
Пример #4
0
	void PType(out TypeNode c) {
		c = null; TypeNode modifier=null, modified=null; 
		switch (la.kind) {
		case 6: {
			Get();
			c = SystemTypes.Object; 
			break;
		}
		case 7: {
			Get();
			c = SystemTypes.String; 
			break;
		}
		case 8: {
			Get();
			c = SystemTypes.Char; 
			break;
		}
		case 9: {
			Get();
			c = SystemTypes.Void; 
			break;
		}
		case 10: {
			Get();
			c = SystemTypes.Boolean; 
			break;
		}
		case 11: {
			Get();
			c = SystemTypes.Int8; 
			break;
		}
		case 12: {
			Get();
			c = SystemTypes.Int16; 
			break;
		}
		case 13: {
			Get();
			c = SystemTypes.Int32; 
			break;
		}
		case 14: {
			Get();
			c = SystemTypes.Int64; 
			break;
		}
		case 15: {
			Get();
			c = SystemTypes.UInt8; 
			break;
		}
		case 16: {
			Get();
			c = SystemTypes.UInt16; 
			break;
		}
		case 17: {
			Get();
			c = SystemTypes.UInt32; 
			break;
		}
		case 18: {
			Get();
			c = SystemTypes.UInt64; 
			break;
		}
		case 19: {
			Get();
			c = SystemTypes.Single; 
			break;
		}
		case 20: {
			Get();
			c = SystemTypes.Double; 
			break;
		}
		case 21: {
			Get();
			Expect(22);
			PType(out modifier);
			Expect(23);
			PType(out modified);
			Expect(24);
			c = OptionalModifier.For(modifier,modified); 
			break;
		}
		case 25: {
			Get();
			Expect(22);
			string id; 
			Ident(out id);
			Expect(24);
			c = LookupTypeParameter(id); 
			break;
		}
		case 26: {
			Get();
			Expect(22);
			string id; 
			Ident(out id);
			Expect(24);
			c = LookupMethodTypeParameter(id); 
			break;
		}
		case 1: case 28: case 35: {
			PTypeRef(out c);
			break;
		}
		default: SynErr(109); break;
		}
		if (StartOf(1)) {
			if (la.kind == 27) {
				Get();
				c = c.GetReferenceType(); 
			} else if (la.kind == 28) {
				Get();
				Expect(29);
				c = c.GetArrayType(1); 
				while (la.kind == 28) {
					Get();
					Expect(29);
					c = c.GetArrayType(1); 
				}
			} else if (la.kind == 22) {
				Get();
				PType(out c);
				while (la.kind == 23) {
					Get();
					PType(out c);
				}
				Expect(24);
			} else {
				Get();
				c = c.GetPointerType(); 
			}
		}
	}