public EXPRUSERDEFINEDCONVERSION CreateUserDefinedConversion(EXPR arg, EXPR call, MethWithInst mwi)
        {
            Debug.Assert(arg != null);
            Debug.Assert(call != null);
            EXPRUSERDEFINEDCONVERSION rval = new EXPRUSERDEFINEDCONVERSION();

            rval.kind                  = ExpressionKind.EK_USERDEFINEDCONVERSION;
            rval.type                  = call.type;
            rval.flags                 = 0;
            rval.Argument              = arg;
            rval.UserDefinedCall       = call;
            rval.UserDefinedCallMethod = mwi;
            if (call.HasError())
            {
                rval.SetError();
            }
            Debug.Assert(rval != null);
            return(rval);
        }
Esempio n. 2
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        protected virtual EXPR GenerateUserDefinedConversion(EXPRUSERDEFINEDCONVERSION pExpr, EXPR pArgument)
        {
            EXPR pCastCall = pExpr.UserDefinedCall;
            EXPR pCastArgument = pExpr.Argument;
            EXPR pConversionSource = null;

            if (!isEnumToDecimalConversion(pArgument.type, pExpr.type) && IsNullableValueAccess(pCastArgument, pArgument))
            {
                // We have an implicit conversion of nullable CType to the value CType, generate a convert node for it.
                pConversionSource = GenerateValueAccessConversion(pArgument);
            }
            else if (pCastCall.isCALL() && pCastCall.asCALL().pConversions != null)
            {
                EXPR pUDConversion = pCastCall.asCALL().pConversions;
                if (pUDConversion.isCALL())
                {
                    EXPR pUDConversionArgument = pUDConversion.asCALL().GetOptionalArguments();
                    if (IsNullableValueAccess(pUDConversionArgument, pArgument))
                    {
                        pConversionSource = GenerateValueAccessConversion(pArgument);
                    }
                    else
                    {
                        pConversionSource = Visit(pUDConversionArgument);
                    }
                    return GenerateConversionWithSource(pConversionSource, pCastCall.type, pCastCall.asCALL().isChecked());
                }
                else
                {
                    // This can happen if we have a UD conversion from C to, say, int, 
                    // and we have an explicit cast to decimal?. The conversion should
                    // then be bound as two chained user-defined conversions.
                    Debug.Assert(pUDConversion.isUSERDEFINEDCONVERSION());
                    // Just recurse.
                    return GenerateUserDefinedConversion(pUDConversion.asUSERDEFINEDCONVERSION(), pArgument);
                }
            }
            else
            {
                pConversionSource = Visit(pCastArgument);
            }
            return GenerateUserDefinedConversion(pCastArgument, pExpr.type, pConversionSource, pExpr.UserDefinedCallMethod);
        }
Esempio n. 3
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 protected override EXPR VisitUSERDEFINEDCONVERSION(EXPRUSERDEFINEDCONVERSION expr)
 {
     Debug.Assert(expr != null);
     Debug.Assert(alwaysRewrite || currentAnonMeth != null);
     return GenerateUserDefinedConversion(expr, expr.Argument);
 }
Esempio n. 4
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            /***************************************************************************************************
            *   Called by BindImplicitConversion when the destination type is Nullable<T>. The following
            *   conversions are handled by this method:
            *
            * For S in { object, ValueType, interfaces implemented by underlying type} there is an explicit
            *     unboxing conversion S => T?
            * System.Enum => T? there is an unboxing conversion if T is an enum type
            * null => T? implemented as default(T?)
            *
            * Implicit T?* => T?+ implemented by either wrapping or calling GetValueOrDefault the
            *     appropriate number of times.
            * If imp/exp S => T then imp/exp S => T?+ implemented by converting to T then wrapping the
            *     appropriate number of times.
            * If imp/exp S => T then imp/exp S?+ => T?+ implemented by calling GetValueOrDefault (m-1) times
            *     then calling HasValue, producing a null if it returns false, otherwise calling Value,
            *     converting to T then wrapping the appropriate number of times.
            *
            *   The 3 rules above can be summarized with the following recursive rules:
            *
            * If imp/exp S => T? then imp/exp S? => T? implemented as
            *     qs.HasValue ? (T?)(qs.Value) : default(T?)
            * If imp/exp S => T then imp/exp S => T? implemented as new T?((T)s)
            *
            *   This method also handles calling bindUserDefinedConverion. This method does NOT handle
            *   the following conversions:
            *
            * Implicit boxing conversion from S? to { object, ValueType, Enum, ifaces implemented by S }. (Handled by BindImplicitConversion.)
            * If imp/exp S => T then explicit S?+ => T implemented by calling Value the appropriate number
            *     of times. (Handled by BindExplicitConversion.)
            *
            *   The recursive equivalent is:
            *
            * If imp/exp S => T and T is not nullable then explicit S? => T implemented as qs.Value
            *
            *   Some nullable conversion are NOT standard conversions. In particular, if S => T is implicit
            *   then S? => T is not standard. Similarly if S => T is not implicit then S => T? is not standard.
            ***************************************************************************************************/
            private bool BindNubConversion(NullableType nubDst)
            {
                // This code assumes that STANDARD and ISEXPLICIT are never both set.
                // bindUserDefinedConversion should ensure this!
                Debug.Assert(0 != (~flags & (CONVERTTYPE.STANDARD | CONVERTTYPE.ISEXPLICIT)));
                Debug.Assert(exprSrc == null || exprSrc.type == typeSrc);
                Debug.Assert(!needsExprDest || exprSrc != null);
                Debug.Assert(typeSrc != nubDst); // BindImplicitConversion should have taken care of this already.
                AggregateType atsDst = nubDst.GetAts(GetErrorContext());

                if (atsDst == null)
                {
                    return(false);
                }

                // Check for the unboxing conversion. This takes precedence over the wrapping conversions.
                if (GetSymbolLoader().HasBaseConversion(nubDst.GetUnderlyingType(), typeSrc) && !CConversions.FWrappingConv(typeSrc, nubDst))
                {
                    // These should be different! Fix the caller if typeSrc is an AggregateType of Nullable.
                    Debug.Assert(atsDst != typeSrc);

                    // typeSrc is a base type of the destination nullable type so there is an explicit
                    // unboxing conversion.
                    if (0 == (flags & CONVERTTYPE.ISEXPLICIT))
                    {
                        return(false);
                    }

                    if (needsExprDest)
                    {
                        binder.bindSimpleCast(exprSrc, exprTypeDest, out exprDest, EXPRFLAG.EXF_UNBOX);
                    }
                    return(true);
                }

                int       cnubDst;
                int       cnubSrc;
                CType     typeDstBase     = nubDst.StripNubs(out cnubDst);
                EXPRCLASS exprTypeDstBase = GetExprFactory().MakeClass(typeDstBase);
                CType     typeSrcBase     = typeSrc.StripNubs(out cnubSrc);

                ConversionFunc pfn = (flags & CONVERTTYPE.ISEXPLICIT) != 0 ?
                                     (ConversionFunc)binder.BindExplicitConversion :
                                     (ConversionFunc)binder.BindImplicitConversion;

                if (cnubSrc == 0)
                {
                    Debug.Assert(typeSrc == typeSrcBase);

                    // The null type can be implicitly converted to T? as the default value.
                    if (typeSrc.IsNullType())
                    {
                        // If we have the constant null, generate it as a default value of T?.  If we have
                        // some crazy expression which has been determined to be always null, like (null??null)
                        // keep it in its expression form and transform it in the nullable rewrite pass.
                        if (needsExprDest)
                        {
                            if (exprSrc.isCONSTANT_OK())
                            {
                                exprDest = GetExprFactory().CreateZeroInit(nubDst);
                            }
                            else
                            {
                                exprDest = GetExprFactory().CreateCast(0x00, typeDest, exprSrc);
                            }
                        }
                        return(true);
                    }

                    EXPR exprTmp = exprSrc;

                    // If there is an implicit/explicit S => T then there is an implicit/explicit S => T?
                    if (typeSrc == typeDstBase || pfn(exprSrc, typeSrc, exprTypeDstBase, nubDst, needsExprDest, out exprTmp, flags | CONVERTTYPE.NOUDC))
                    {
                        if (needsExprDest)
                        {
                            // UNDONE: This is a premature realization of the nullable conversion as
                            // UNDONE: a constructor.  Rather than flagging this, can we simply emit it
                            // UNDONE: as a cast node and have the operator rewrite pass turn it into
                            // UNDONE: a constructor call?
                            EXPRUSERDEFINEDCONVERSION exprUDC = exprTmp.kind == ExpressionKind.EK_USERDEFINEDCONVERSION ? exprTmp.asUSERDEFINEDCONVERSION() : null;
                            if (exprUDC != null)
                            {
                                exprTmp = exprUDC.UserDefinedCall;
                            }

                            // This logic is left over from the days when T?? was legal. However there are error/LAF cases that necessitates the loop.
                            // typeSrc is not nullable so just wrap the required number of times. For legal code (cnubDst <= 0).

                            for (int i = 0; i < cnubDst; i++)
                            {
                                exprTmp = binder.BindNubNew(exprTmp);
                                exprTmp.asCALL().nubLiftKind = NullableCallLiftKind.NullableConversionConstructor;
                            }
                            if (exprUDC != null)
                            {
                                exprUDC.UserDefinedCall = exprTmp;
                                exprUDC.setType((CType)exprTmp.type);
                                exprTmp = exprUDC;
                            }
                            Debug.Assert(exprTmp.type == nubDst);
                            exprDest = exprTmp;
                        }
                        return(true);
                    }

                    // No builtin conversion. Maybe there is a user defined conversion....
                    return(0 == (flags & CONVERTTYPE.NOUDC) && binder.bindUserDefinedConversion(exprSrc, typeSrc, nubDst, needsExprDest, out exprDest, 0 == (flags & CONVERTTYPE.ISEXPLICIT)));
                }

                // Both are Nullable so there is only a conversion if there is a conversion between the base types.
                // That is, if there is an implicit/explicit S => T then there is an implicit/explicit S?+ => T?+.
                if (typeSrcBase != typeDstBase && !pfn(null, typeSrcBase, exprTypeDstBase, nubDst, false, out exprDest, flags | CONVERTTYPE.NOUDC))
                {
                    // No builtin conversion. Maybe there is a user defined conversion....
                    return(0 == (flags & CONVERTTYPE.NOUDC) && binder.bindUserDefinedConversion(exprSrc, typeSrc, nubDst, needsExprDest, out exprDest, 0 == (flags & CONVERTTYPE.ISEXPLICIT)));
                }

                if (needsExprDest)
                {
                    MethWithInst mwi       = new MethWithInst(null, null);
                    EXPRMEMGRP   pMemGroup = GetExprFactory().CreateMemGroup(null, mwi);
                    EXPRCALL     exprDst   = GetExprFactory().CreateCall(0, nubDst, exprSrc, pMemGroup, null);

                    // Here we want to first check whether or not the conversions work on the base types.

                    EXPR      arg1 = binder.mustCast(exprSrc, typeSrcBase);
                    EXPRCLASS arg2 = GetExprFactory().MakeClass(typeDstBase);

                    bool convertible;
                    if (0 != (flags & CONVERTTYPE.ISEXPLICIT))
                    {
                        convertible = binder.BindExplicitConversion(arg1, arg1.type, arg2, typeDstBase, out arg1, flags | CONVERTTYPE.NOUDC);
                    }
                    else
                    {
                        convertible = binder.BindImplicitConversion(arg1, arg1.type, arg2, typeDstBase, out arg1, flags | CONVERTTYPE.NOUDC);
                    }
                    if (!convertible)
                    {
                        VSFAIL("bind(Im|Ex)plicitConversion failed unexpectedly");
                        return(false);
                    }

                    exprDst.castOfNonLiftedResultToLiftedType = binder.mustCast(arg1, nubDst, 0);
                    exprDst.nubLiftKind  = NullableCallLiftKind.NullableConversion;
                    exprDst.pConversions = exprDst.castOfNonLiftedResultToLiftedType;
                    exprDest             = exprDst;
                }

                return(true);
            }
Esempio n. 5
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 protected virtual EXPR VisitUSERDEFINEDCONVERSION(EXPRUSERDEFINEDCONVERSION pExpr)
 {
     return VisitEXPR(pExpr);
 }
Esempio n. 6
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 protected virtual EXPR VisitUSERDEFINEDCONVERSION(EXPRUSERDEFINEDCONVERSION pExpr)
 {
     return(VisitEXPR(pExpr));
 }
Esempio n. 7
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 public EXPRUSERDEFINEDCONVERSION CreateUserDefinedConversion(EXPR arg, EXPR call, MethWithInst mwi)
 {
     Debug.Assert(arg != null);
     Debug.Assert(call != null);
     EXPRUSERDEFINEDCONVERSION rval = new EXPRUSERDEFINEDCONVERSION();
     rval.kind = ExpressionKind.EK_USERDEFINEDCONVERSION;
     rval.type = call.type;
     rval.flags = 0;
     rval.Argument = arg;
     rval.UserDefinedCall = call;
     rval.UserDefinedCallMethod = mwi;
     if (call.HasError())
     {
         rval.SetError();
     }
     Debug.Assert(rval != null);
     return rval;
 }