private static IConstruct ParseOthers(string module, IList <Symbol> header, Lexer lexer, ref IList <Symbol> next)
{
Symbol current = lexer.NextNonEOLSymbol;
if (current == Symbol.Sequence)
{
return(new Sequence(module, header[0].ToString(), lexer));
}
if (current == Symbol.Choice)
{
return(new Choice(module, header[0].ToString(), lexer));
}
if (current == Symbol.Integer)
{
return(new Integer(module, header[0].ToString(), lexer));
}
if (current == Symbol.TextualConvention)
{
return(new TextualConvention(module, header[0].ToString(), lexer));
}
TypeAssignment result = new TypeAssignment(module, header[0].ToString(), current, lexer);
next.Add(result.Left);
return(result);
}
private Definition CreateSelf(IEntity node)
{
ObjectType o = node as ObjectType;
if (o != null)
{
TypeAssignment syn = o.Syntax as TypeAssignment;
if (syn != null && _types.ContainsKey(syn.Value))
{
o.Syntax = _types[syn.Value];
}
}
/* algorithm 2: slower, dropped
* IDefinition parent = Find(node.Parent);
* if (parent == null)
* {
* return null;
* }
*
* return ((Definition)parent).Add(node);
* // */
// * algorithm 1
return(_root.Add(node));
// */
}
private static void CheckTypeReferrer(IModule module, ITypeReferrer typeReferringEntity)
{
TypeAssignment unknownType = typeReferringEntity.ReferredType as TypeAssignment;
if (unknownType != null)
{
typeReferringEntity.ReferredType = ResolveType(module, unknownType);
if (typeReferringEntity.ReferredType is TypeAssignment)
{
Console.WriteLine(String.Format("Could not resolve type '{0}' declared in module '{1}'", (typeReferringEntity.ReferredType as TypeAssignment).Type, typeReferringEntity.ReferredType.Module.Name));
}
}
ITypeReferrer nextTypeReferringEntity = typeReferringEntity.ReferredType as ITypeReferrer;
if (nextTypeReferringEntity != null)
{
CheckTypeReferrer(module, nextTypeReferringEntity);
}
}
private static ITypeAssignment ParseSyntax(string module, string name, IEnumerator <Symbol> enumerator, ref Symbol temp)
{
ITypeAssignment syntax;
temp.Expect(Symbol.Syntax);
temp = enumerator.NextNonEOLSymbol();
if (temp == Symbol.Bits)
{
syntax = new BitsType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Integer || temp == Symbol.Integer32)
{
syntax = new IntegerType(module, name, enumerator, ref temp);
}
else if (temp == Symbol.Octet)
{
temp = enumerator.NextNonEOLSymbol();
temp.Expect(Symbol.String);
syntax = new OctetStringType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.Opaque)
{
syntax = new OctetStringType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.IpAddress)
{
syntax = new IpAddressType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Counter64)
{
syntax = new Counter64Type(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Unsigned32 || temp == Symbol.Counter32 || temp == Symbol.Gauge32 || temp == Symbol.TimeTicks)
{
syntax = new UnsignedType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.Object)
{
temp = enumerator.NextNonEOLSymbol();
temp.Expect(Symbol.Identifier);
syntax = new ObjectIdentifierType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Sequence)
{
temp = enumerator.NextNonEOLSymbol();
if (temp == Symbol.Of)
{
temp = enumerator.NextNonEOLSymbol();
syntax = new TypeAssignment(string.Empty, string.Empty, enumerator, ref temp);
}
else
{
syntax = new Sequence(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
}
else
{
syntax = new TypeAssignment(string.Empty, string.Empty, enumerator, ref temp);
}
return(syntax);
}
public static ITypeAssignment ResolveType(IModule module, TypeAssignment type)
{
ITypeAssignment result = ResolveDeclaration(module, type.Type) as ITypeAssignment;
return((result != null) ? result : type);
}
private static IConstruct ParseOthers(string module, IList<Symbol> header, Lexer lexer, ref IList<Symbol> next)
{
Symbol current = lexer.NextNonEOLSymbol;
if (current == Symbol.Sequence)
{
return new Sequence(module, header[0].ToString(), lexer);
}
if (current == Symbol.Choice)
{
return new Choice(module, header[0].ToString(), lexer);
}
if (current == Symbol.Integer)
{
return new Integer(module, header[0].ToString(), lexer);
}
if (current == Symbol.TextualConvention)
{
return new TextualConvention(module, header[0].ToString(), lexer);
}
TypeAssignment result = new TypeAssignment(module, header[0].ToString(), current, lexer);
next.Add(result.Left);
return result;
}
private static ITypeAssignment ParseSyntax(string module, string name, IEnumerator<Symbol> enumerator, ref Symbol temp)
{
ITypeAssignment syntax;
temp.Expect(Symbol.Syntax);
temp = enumerator.NextNonEOLSymbol();
if (temp == Symbol.Bits)
{
syntax = new BitsType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Integer || temp == Symbol.Integer32)
{
syntax = new IntegerType(module, name, enumerator, ref temp);
}
else if (temp == Symbol.Octet)
{
temp = enumerator.NextNonEOLSymbol();
temp.Expect(Symbol.String);
syntax = new OctetStringType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.Opaque)
{
syntax = new OctetStringType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.IpAddress)
{
syntax = new IpAddressType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Counter64)
{
syntax = new Counter64Type(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Unsigned32 || temp == Symbol.Counter32 || temp == Symbol.Gauge32 || temp == Symbol.TimeTicks)
{
syntax = new UnsignedType(string.Empty, string.Empty, enumerator, ref temp);
}
else if (temp == Symbol.Object)
{
temp = enumerator.NextNonEOLSymbol();
temp.Expect(Symbol.Identifier);
syntax = new ObjectIdentifierType(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
else if (temp == Symbol.Sequence)
{
temp = enumerator.NextNonEOLSymbol();
if (temp == Symbol.Of)
{
temp = enumerator.NextNonEOLSymbol();
syntax = new TypeAssignment(string.Empty, string.Empty, enumerator, ref temp);
}
else
{
syntax = new Sequence(string.Empty, string.Empty, enumerator);
temp = enumerator.NextNonEOLSymbol();
}
}
else
{
syntax = new TypeAssignment(string.Empty, string.Empty, enumerator, ref temp);
}
return syntax;
}
