@@ -1009,6 +1009,16 @@
else
package_name = this->package_->package_name();
+ // Note that this will be misleading if this is an unexported
+ // method generated for an embedded imported type. In that case
+ // the unexported method should have the package name of the
+ // package from which it is imported, but we are going to give
+ // it our package name. Fixing this would require knowing the
+ // package name, but we only know the package path. It might be
+ // better to use package paths here anyhow. This doesn't affect
+ // the assembler code, because we always set that name in
+ // Function::get_or_make_decl anyhow. FIXME.
+
decl_name = package_name + '.' + Gogo::unpack_hidden_name(this->name_);
Function_type* fntype;
@@ -1317,7 +1327,21 @@
|| this->type_->is_method())
{
TREE_PUBLIC(decl) = 1;
- std::string asm_name = gogo->pkgpath_symbol();
+ std::string pkgpath = gogo->pkgpath_symbol();
+ if (this->type_->is_method()
+ && Gogo::is_hidden_name(no->name())
+ && Gogo::hidden_name_pkgpath(no->name()) != gogo->pkgpath())
+ {
+ // This is a method we created for an unexported
+ // method of an imported embedded type. We need to
+ // use the pkgpath of the imported package to avoid
+ // a possible name collision. See bug478 for a test
+ // case.
+ pkgpath = Gogo::hidden_name_pkgpath(no->name());
+ pkgpath = Gogo::pkgpath_for_symbol(pkgpath);
+ }
+
+ std::string asm_name = pkgpath;
asm_name.append(1, '.');
asm_name.append(Gogo::unpack_hidden_name(no->name()));
if (this->type_->is_method())