internal override Symbol GetSymbolForMemberRef(MemberReferenceHandle memberRef, TypeSymbol scope = null, bool methodsOnly = false)
{
TypeSymbol targetTypeSymbol = GetMemberRefTypeSymbol(memberRef);
if ((object)scope != null)
{
Debug.Assert(scope.Kind == SymbolKind.NamedType || scope.Kind == SymbolKind.ErrorType);
// We only want to consider members that are at or above "scope" in the type hierarchy.
HashSet <DiagnosticInfo> useSiteDiagnostics = null;
if (scope != targetTypeSymbol &&
!(targetTypeSymbol.IsInterfaceType()
? scope.AllInterfacesNoUseSiteDiagnostics.Contains((NamedTypeSymbol)targetTypeSymbol)
: scope.IsDerivedFrom(targetTypeSymbol, TypeCompareKind.ConsiderEverything, useSiteDiagnostics: ref useSiteDiagnostics)))
{
return(null);
}
}
// We're going to use a special decoder that can generate usable symbols for type parameters without full context.
// (We're not just using a different type - we're also changing the type context.)
var memberRefDecoder = new MemberRefMetadataDecoder(moduleSymbol, targetTypeSymbol);
return(memberRefDecoder.FindMember(targetTypeSymbol, memberRef, methodsOnly));
}
internal override Symbol GetSymbolForMemberRef(
MemberReferenceHandle memberRef,
TypeSymbol scope = null,
bool methodsOnly = false
)
{
TypeSymbol targetTypeSymbol = GetMemberRefTypeSymbol(memberRef);
if (targetTypeSymbol is null)
{
return(null);
}
Debug.Assert(!targetTypeSymbol.IsTupleType);
if ((object)scope != null)
{
Debug.Assert(
scope.Kind == SymbolKind.NamedType || scope.Kind == SymbolKind.ErrorType
);
// We only want to consider members that are at or above "scope" in the type hierarchy.
var discardedUseSiteInfo = CompoundUseSiteInfo <AssemblySymbol> .Discarded;
if (
!TypeSymbol.Equals(scope, targetTypeSymbol, TypeCompareKind.ConsiderEverything2) &&
!(
targetTypeSymbol.IsInterfaceType()
? scope.AllInterfacesNoUseSiteDiagnostics.IndexOf(
(NamedTypeSymbol)targetTypeSymbol,
0,
SymbolEqualityComparer.CLRSignature
) != -1
: scope.IsDerivedFrom(
targetTypeSymbol,
TypeCompareKind.CLRSignatureCompareOptions,
useSiteInfo: ref discardedUseSiteInfo
)
)
)
{
return(null);
}
}
if (!targetTypeSymbol.IsTupleType)
{
targetTypeSymbol = TupleTypeDecoder.DecodeTupleTypesIfApplicable(
targetTypeSymbol,
elementNames: default
);
}
// We're going to use a special decoder that can generate usable symbols for type parameters without full context.
// (We're not just using a different type - we're also changing the type context.)
var memberRefDecoder = new MemberRefMetadataDecoder(moduleSymbol, targetTypeSymbol);
return(memberRefDecoder.FindMember(targetTypeSymbol, memberRef, methodsOnly));
}
