private Dictionary <string, ImmutableArray <NamespaceOrTypeSymbol> > MakeNameToMembersMap(DiagnosticBag diagnostics)
{
var builder = new NameToSymbolMapBuilder(_declaration.Children.Length);
foreach (var declaration in _declaration.Children)
{
MergedNamespaceOrTypeDeclaration mergedDeclaration = null;
if (declaration is SingleTypeDeclaration typeDeclaration)
{
mergedDeclaration = new MergedTypeDeclaration(ImmutableArray.Create((SingleTypeDeclaration)declaration));
}
if (mergedDeclaration != null)
{
builder.Add(BuildSymbol(mergedDeclaration, diagnostics));
}
else
{
throw ExceptionUtilities.UnexpectedValue(declaration.Kind);
}
}
return(builder.CreateMap());
}
private Dictionary<string, ImmutableArray<NamespaceOrTypeSymbol>> MakeNameToMembersMap(DiagnosticBag diagnostics)
{
// NOTE: Even though the resulting map stores ImmutableArray<NamespaceOrTypeSymbol> as
// NOTE: values if the name is mapped into an array of named types, which is frequently
// NOTE: the case, we actually create an array of NamedTypeSymbol[] and wrap it in
// NOTE: ImmutableArray<NamespaceOrTypeSymbol>
// NOTE:
// NOTE: This way we can save time and memory in GetNameToTypeMembersMap() -- when we see that
// NOTE: a name maps into values collection containing types only instead of allocating another
// NOTE: array of NamedTypeSymbol[] we downcast the array to ImmutableArray<NamedTypeSymbol>
var builder = new NameToSymbolMapBuilder(_mergedDeclaration.Children.Length);
foreach (var declaration in _mergedDeclaration.Children)
{
builder.Add(BuildSymbol(declaration, diagnostics));
}
var result = builder.CreateMap();
var memberOfArity = new Symbol[10];
MergedNamespaceSymbol mergedAssemblyNamespace = null;
if (this.ContainingAssembly.Modules.Length > 1)
{
mergedAssemblyNamespace = this.ContainingAssembly.GetAssemblyNamespace(this) as MergedNamespaceSymbol;
}
foreach (var name in result.Keys)
{
Array.Clear(memberOfArity, 0, memberOfArity.Length);
foreach (var symbol in result[name])
{
var nts = symbol as NamedTypeSymbol;
var arity = ((object)nts != null) ? nts.Arity : 0;
if (arity >= memberOfArity.Length)
{
Array.Resize(ref memberOfArity, arity + 1);
}
var other = memberOfArity[arity];
if ((object)other == null && (object)mergedAssemblyNamespace != null)
{
// Check for collision with declarations from added modules.
foreach (NamespaceSymbol constituent in mergedAssemblyNamespace.ConstituentNamespaces)
{
if ((object)constituent != (object)this)
{
// For whatever reason native compiler only detects conflicts agains types.
// It doesn't complain when source declares a type with the same name as
// a namespace in added module, but complains when source declares a namespace
// with the same name as a type in added module.
var types = constituent.GetTypeMembers(symbol.Name, arity);
if (types.Length > 0)
{
other = types[0];
// Since the error doesn't specify what added module this type belongs to, we can stop searching
// at the first match.
break;
}
}
}
}
if ((object)other != null)
{
if (nts is SourceNamedTypeSymbol && other is SourceNamedTypeSymbol &&
(nts as SourceNamedTypeSymbol).IsPartial && (other as SourceNamedTypeSymbol).IsPartial)
{
diagnostics.Add(ErrorCode.ERR_PartialTypeKindConflict, symbol.Locations[0], symbol);
}
else
{
diagnostics.Add(ErrorCode.ERR_DuplicateNameInNS, symbol.Locations[0], name, this);
}
}
memberOfArity[arity] = symbol;
if ((object)nts != null)
{
//types declared at the namespace level may only have declared accessibility of public or internal (Section 3.5.1)
Accessibility declaredAccessibility = nts.DeclaredAccessibility;
if ((declaredAccessibility & (Accessibility.Public | Accessibility.Internal)) != declaredAccessibility)
{
diagnostics.Add(ErrorCode.ERR_NoNamespacePrivate, symbol.Locations[0]);
}
}
}
}
return result;
}
private Dictionary <string, ImmutableArray <NamespaceOrTypeSymbol> > MakeNameToMembersMap(DiagnosticBag diagnostics)
{
// NOTE: Even though the resulting map stores ImmutableArray<NamespaceOrTypeSymbol> as
// NOTE: values if the name is mapped into an array of named types, which is frequently
// NOTE: the case, we actually create an array of NamedTypeSymbol[] and wrap it in
// NOTE: ImmutableArray<NamespaceOrTypeSymbol>
// NOTE:
// NOTE: This way we can save time and memory in GetNameToTypeMembersMap() -- when we see that
// NOTE: a name maps into values collection containing types only instead of allocating another
// NOTE: array of NamedTypeSymbol[] we downcast the array to ImmutableArray<NamedTypeSymbol>
var builder = new NameToSymbolMapBuilder(_mergedDeclaration.Children.Length);
foreach (var declaration in _mergedDeclaration.Children)
{
builder.Add(BuildSymbol(declaration, diagnostics));
}
var result = builder.CreateMap();
var memberOfArity = new Symbol[10];
MergedNamespaceSymbol mergedAssemblyNamespace = null;
if (this.ContainingAssembly.Modules.Length > 1)
{
mergedAssemblyNamespace = this.ContainingAssembly.GetAssemblyNamespace(this) as MergedNamespaceSymbol;
}
foreach (var name in result.Keys)
{
Array.Clear(memberOfArity, 0, memberOfArity.Length);
foreach (var symbol in result[name])
{
var nts = symbol as NamedTypeSymbol;
var arity = ((object)nts != null) ? nts.Arity : 0;
if (arity >= memberOfArity.Length)
{
Array.Resize(ref memberOfArity, arity + 1);
}
var other = memberOfArity[arity];
if ((object)other == null && (object)mergedAssemblyNamespace != null)
{
// Check for collision with declarations from added modules.
foreach (NamespaceSymbol constituent in mergedAssemblyNamespace.ConstituentNamespaces)
{
if ((object)constituent != (object)this)
{
// For whatever reason native compiler only detects conflicts against types.
// It doesn't complain when source declares a type with the same name as
// a namespace in added module, but complains when source declares a namespace
// with the same name as a type in added module.
var types = constituent.GetTypeMembers(symbol.Name, arity);
if (types.Length > 0)
{
other = types[0];
// Since the error doesn't specify what added module this type belongs to, we can stop searching
// at the first match.
break;
}
}
}
}
if ((object)other != null)
{
if ((nts as SourceNamedTypeSymbol)?.IsPartial == true && (other as SourceNamedTypeSymbol)?.IsPartial == true)
{
diagnostics.Add(ErrorCode.ERR_PartialTypeKindConflict, symbol.Locations[0], symbol);
}
else
{
diagnostics.Add(ErrorCode.ERR_DuplicateNameInNS, symbol.Locations[0], name, this);
}
}
memberOfArity[arity] = symbol;
if ((object)nts != null)
{
//types declared at the namespace level may only have declared accessibility of public or internal (Section 3.5.1)
Accessibility declaredAccessibility = nts.DeclaredAccessibility;
if (declaredAccessibility != Accessibility.Public && declaredAccessibility != Accessibility.Internal)
{
diagnostics.Add(ErrorCode.ERR_NoNamespacePrivate, symbol.Locations[0]);
}
}
}
}
return(result);
}
