public void AddMethod(ClassMethod method)
{
if (method.Type == ClassMethod.MethodType.Regular)
{
Methods.Add(method);
}
else if (method.Type == ClassMethod.MethodType.Constructor)
{
Constructors.Add(method);
}
else
{
Destructors.Add(method);
}
}
public void Add(TLDefinition tld, Stream srcStm)
{
TLFunction tlf = tld as TLFunction;
if (tlf != null)
{
if (IsConstructor(tlf.Signature, tlf.Class))
{
Constructors.Add(tlf, srcStm);
}
else if (tlf.Signature is SwiftClassConstructorType)
{
if (ClassConstructor.Values.Count() == 0)
{
ClassConstructor.Add(tlf, srcStm);
}
else
{
throw ErrorHelper.CreateError(ReflectorError.kInventoryBase + 12, $"multiple type metadata accessors for {tlf.Class.ClassName.ToFullyQualifiedName ()}");
}
}
else if (IsDestructor(tlf.Signature, tlf.Class))
{
Destructors.Add(tlf, srcStm);
}
else if (IsProperty(tlf.Signature, tlf.Class))
{
if (IsSubscript(tlf.Signature, tlf.Class))
{
if (IsPrivateProperty(tlf.Signature, tlf.Class))
{
PrivateSubscripts.Add(tlf);
}
else
{
Subscripts.Add(tlf);
}
}
else
{
if (IsStaticProperty(tlf.Signature, tlf.Class))
{
if (IsPrivateProperty(tlf.Signature, tlf.Class))
{
StaticPrivateProperties.Add(tlf, srcStm);
}
else
{
StaticProperties.Add(tlf, srcStm);
}
}
else
{
if (IsPrivateProperty(tlf.Signature, tlf.Class))
{
PrivateProperties.Add(tlf, srcStm);
}
else
{
Properties.Add(tlf, srcStm);
}
}
}
}
else if (IsMethodOnClass(tlf.Signature, tlf.Class))
{
if (tlf is TLMethodDescriptor)
{
MethodDescriptors.Add(tlf, srcStm);
}
else
{
Methods.Add(tlf, srcStm);
}
}
else if (IsStaticMethod(tlf.Signature, tlf.Class))
{
StaticFunctions.Add(tlf, srcStm);
}
else if (IsWitnessTable(tlf.Signature, tlf.Class))
{
WitnessTable.Add(tlf, srcStm);
}
else if (IsInitializer(tlf.Signature, tlf.Class))
{
Initializers.Add(tlf, srcStm);
}
else
{
FunctionsOfUnknownDestination.Add(tlf);
}
return;
}
var meta = tld as TLDirectMetadata;
if (meta != null)
{
if (DirectMetadata != null)
{
throw ErrorHelper.CreateError(ReflectorError.kInventoryBase + 13, $"duplicate direct metadata in class {DirectMetadata.Class.ClassName.ToFullyQualifiedName ()}");
}
DirectMetadata = meta;
return;
}
var lazy = tld as TLLazyCacheVariable;
if (lazy != null)
{
if (LazyCacheVariable != null)
{
throw ErrorHelper.CreateError(ReflectorError.kInventoryBase + 14, $"duplicate lazy cache variable in class {LazyCacheVariable.Class.ClassName.ToFullyQualifiedName ()}");
}
LazyCacheVariable = lazy;
return;
}
var mc = tld as TLMetaclass;
if (mc != null)
{
if (Metaclass != null)
{
throw ErrorHelper.CreateError(ReflectorError.kInventoryBase + 15, $"duplicate type meta data descriptor in class {Metaclass.Class.ClassName.ToFullyQualifiedName ()}");
}
Metaclass = mc;
return;
}
var nom = tld as TLNominalTypeDescriptor;
if (nom != null)
{
if (TypeDescriptor != null)
{
throw ErrorHelper.CreateError(ReflectorError.kInventoryBase + 16, $"duplicate nominal type descriptor in class {TypeDescriptor.Class.ClassName.ToFullyQualifiedName ()}");
}
TypeDescriptor = nom;
return;
}
var tlvar = tld as TLVariable;
if (tlvar != null)
{
if (tlvar is TLPropertyDescriptor tlpropDesc)
{
PropertyDescriptors.Add(tlpropDesc);
}
else
{
Variables.Add(tlvar, srcStm);
}
return;
}
var tlprot = tld as TLProtocolConformanceDescriptor;
if (tlprot != null)
{
ProtocolConformanceDescriptors.Add(tlprot);
return;
}
DefinitionsOfUnknownDestination.Add(tld);
}