protected override Expr VisitCAST(ExprCast pExpr)
{
Debug.Assert(pExpr != null);
Expr pArgument = pExpr.Argument;
// If we have generated an identity cast or reference cast to a base class
// we can omit the cast.
if (pArgument.Type == pExpr.Type ||
SymbolLoader.IsBaseClassOfClass(pArgument.Type, pExpr.Type) ||
CConversions.FImpRefConv(GetSymbolLoader(), pArgument.Type, pExpr.Type))
{
return(Visit(pArgument));
}
// If we have a cast to PredefinedType.PT_G_EXPRESSION and the thing that we're casting is
// a EXPRBOUNDLAMBDA that is an expression tree, then just visit the expression tree.
if (pExpr.Type != null &&
pExpr.Type.isPredefType(PredefinedType.PT_G_EXPRESSION) &&
pArgument is ExprBoundLambda)
{
return(Visit(pArgument));
}
Expr result = GenerateConversion(pArgument, pExpr.Type, pExpr.isChecked());
if ((pExpr.Flags & EXPRFLAG.EXF_UNBOXRUNTIME) != 0)
{
// Propagate the unbox flag to the call for the ExpressionTreeCallRewriter.
result.Flags |= EXPRFLAG.EXF_UNBOXRUNTIME;
}
return(result);
}
public ExprCast CreateCast(EXPRFLAG nFlags, ExprClass pType, Expr pArg)
{
Debug.Assert(pArg != null);
Debug.Assert(pType != null);
Debug.Assert(0 == (nFlags & ~(EXPRFLAG.EXF_CAST_ALL | EXPRFLAG.EXF_MASK_ANY)));
ExprCast rval = new ExprCast();
rval.Argument = pArg;
rval.Flags = nFlags;
rval.DestinationType = pType;
return(rval);
}
public ExprCast CreateCast(EXPRFLAG nFlags, ExprTypeOrNamespace pType, Expr pArg)
{
Debug.Assert(pArg != null);
Debug.Assert(pType != null);
Debug.Assert(0 == (nFlags & ~(EXPRFLAG.EXF_CAST_ALL | EXPRFLAG.EXF_MASK_ANY)));
ExprCast rval = new ExprCast();
rval.Type = pType.TypeOrNamespace as CType;
rval.Kind = ExpressionKind.EK_CAST;
rval.Argument = pArg;
rval.Flags = nFlags;
rval.DestinationType = pType;
Debug.Assert(rval != null);
return(rval);
}
private Expr GenerateConstant(Expr expr)
{
EXPRFLAG flags = 0;
AggregateType pObject = GetSymbolLoader().GetPredefindType(PredefinedType.PT_OBJECT);
if (expr.Type is NullType)
{
ExprTypeOf pTypeOf = CreateTypeOf(pObject);
return(GenerateCall(PREDEFMETH.PM_EXPRESSION_CONSTANT_OBJECT_TYPE, expr, pTypeOf));
}
AggregateType stringType = GetSymbolLoader().GetPredefindType(PredefinedType.PT_STRING);
if (expr.Type != stringType)
{
flags = EXPRFLAG.EXF_BOX;
}
ExprCast cast = GetExprFactory().CreateCast(flags, pObject, expr);
ExprTypeOf pTypeOf2 = CreateTypeOf(expr.Type);
return(GenerateCall(PREDEFMETH.PM_EXPRESSION_CONSTANT_OBJECT_TYPE, cast, pTypeOf2));
}
protected virtual Expr VisitCAST(ExprCast pExpr)
{
return(VisitEXPR(pExpr));
}
private Expr CreateZeroInit(ExprTypeOrNamespace pTypeExpr, Expr pOptionalOriginalConstructorCall, bool isConstructor)
{
Debug.Assert(pTypeExpr != null);
CType pType = pTypeExpr.TypeOrNamespace.AsType();
bool bIsError = false;
if (pType.isEnumType())
{
// For enum types, we create a constant that has the default value
// as an object pointer.
ExprConstant expr = CreateConstant(pType, ConstVal.Get(Activator.CreateInstance(pType.AssociatedSystemType)));
return(expr);
}
switch (pType.fundType())
{
default:
bIsError = true;
break;
case FUNDTYPE.FT_PTR:
{
CType nullType = GetTypes().GetNullType();
// It looks like this if is always false ...
if (nullType.fundType() == pType.fundType())
{
// Create a constant here.
ExprConstant expr = CreateConstant(pType, ConstVal.GetDefaultValue(ConstValKind.IntPtr));
return(expr);
}
// Just allocate a new node and fill it in.
ExprCast cast = CreateCast(0, pTypeExpr, CreateNull());
return(cast);
}
case FUNDTYPE.FT_REF:
case FUNDTYPE.FT_I1:
case FUNDTYPE.FT_U1:
case FUNDTYPE.FT_I2:
case FUNDTYPE.FT_U2:
case FUNDTYPE.FT_I4:
case FUNDTYPE.FT_U4:
case FUNDTYPE.FT_I8:
case FUNDTYPE.FT_U8:
case FUNDTYPE.FT_R4:
case FUNDTYPE.FT_R8:
{
ExprConstant expr = CreateConstant(pType, ConstVal.GetDefaultValue(pType.constValKind()));
ExprConstant exprInOriginal = CreateConstant(pType, ConstVal.GetDefaultValue(pType.constValKind()));
exprInOriginal.OptionalConstructorCall = pOptionalOriginalConstructorCall;
return(expr);
}
case FUNDTYPE.FT_STRUCT:
if (pType.isPredefType(PredefinedType.PT_DECIMAL))
{
ExprConstant expr = CreateConstant(pType, ConstVal.GetDefaultValue(pType.constValKind()));
ExprConstant exprOriginal = CreateConstant(pType, ConstVal.GetDefaultValue(pType.constValKind()));
exprOriginal.OptionalConstructorCall = pOptionalOriginalConstructorCall;
return(expr);
}
break;
case FUNDTYPE.FT_VAR:
break;
}
ExprZeroInit rval = new ExprZeroInit();
rval.Kind = ExpressionKind.EK_ZEROINIT;
rval.Type = pType;
rval.Flags = 0;
rval.OptionalConstructorCall = pOptionalOriginalConstructorCall;
rval.IsConstructor = isConstructor;
if (bIsError)
{
rval.SetError();
}
Debug.Assert(rval != null);
return(rval);
}
