CORBA::InterfaceDefSeq *
TAO_ComponentDef_i::supported_interfaces_i (void)
{
CORBA::InterfaceDefSeq *seq = 0;
ACE_NEW_RETURN (seq,
CORBA::InterfaceDefSeq (0),
0);
CORBA::InterfaceDefSeq_var retval = seq;
retval->length (0);
CORBA::ULong count = 0;
ACE_Configuration_Section_Key supported_key;
int status =
this->repo_->config ()->open_section (this->section_key_,
"supported",
0,
supported_key);
if (status == 0)
{
this->repo_->config ()->get_integer_value (supported_key,
"count",
count);
retval->length (count);
char *stringified = 0;
ACE_TString path;
CORBA::Object_var tmp;
for (CORBA::ULong i = 0; i < count; ++i)
{
stringified = TAO_IFR_Service_Utils::int_to_string (i);
this->repo_->config ()->get_string_value (supported_key,
stringified,
path);
tmp =
TAO_IFR_Service_Utils::path_to_ir_object (path,
this->repo_);
retval[i] = CORBA::InterfaceDef::_narrow (tmp.in ());
}
}
return retval._retn ();
}
CORBA::Boolean
TAO_InterfaceDef_i::is_a_i (const char *interface_id)
{
if (ACE_OS::strcmp (interface_id, "IDL:omg.org/CORBA/Object:1.0") == 0)
{
return 1;
}
ACE_TString id;
this->repo_->config ()->get_string_value (this->section_key_,
"id",
id);
// Is it our type?
if (ACE_OS::strcmp (id.fast_rep (), interface_id) == 0)
{
return 1;
}
// Is it one of our ancestors' types?
CORBA::InterfaceDefSeq_var bases =
this->base_interfaces_i ();
CORBA::ULong length = bases->length ();
PortableServer::ObjectId_var oid;
char *base_path = 0;
ACE_Configuration_Section_Key base_key;
for (CORBA::ULong i = 0; i < length; ++i)
{
base_path = TAO_IFR_Service_Utils::reference_to_path (bases[i]);
this->repo_->config ()->expand_path (this->repo_->root_key (),
base_path,
base_key,
0);
TAO_InterfaceDef_i impl (this->repo_);
impl.section_key (base_key);
CORBA::Boolean success = impl.is_a_i (interface_id);
if (success == 1)
{
return 1;
}
}
return 0;
}
OCI_APT::ArgList *
OCI_APT::OperationTable::add_interface (CORBA::InterfaceDef_ptr intDef,
const char * desired_op)
{
bool want_attribute = false;
if (desired_op && desired_op[0] == '_')
want_attribute = ACE_OS::strncmp(desired_op+2,"et_",3) == 0;
ACE_Write_Guard<ACE_RW_Thread_Mutex>(this->lock_);
OCI_APT::ArgList *result = 0;
CORBA::InterfaceDefSeq_var bases = intDef->base_interfaces ();
CORBA::String_var *derived = new CORBA::String_var[bases->length()];
CORBA::ULong n_bases = bases->length();
CORBA::ULong i = 0;
for (; i <= n_bases; i++)
{
CORBA::String_var rep_id = intDef->id();
if (i == 0)
{
OCI_APT::ArgList *al = this->add_is_a (rep_id.in());
if (!want_attribute && desired_op && ACE_OS::strcmp("_is_a",desired_op) == 0)
result = al;
else
al->remove_ref();
al = this->add_non_existent (rep_id.in());
if (!want_attribute && desired_op && ACE_OS::strcmp("_non_existent",desired_op) == 0)
result = al;
else
al->remove_ref();
}
CORBA::ContainedSeq_var attributes =
intDef->contents (CORBA::dk_Attribute,1);
CORBA::ULong n_ats = attributes->length();
for (CORBA::ULong at = 0; at < n_ats; ++at)
{
CORBA::String_var attr_name = attributes[at]->name();
CORBA::AttributeDef_var attr =
CORBA::AttributeDef::_narrow (attributes[at]);
CORBA::String_var attr_op =
CORBA::string_alloc(ACE_OS::strlen(attr_name.in()) + 5);
ACE_OS::strcpy(attr_op.inout(),"_get_");
ACE_OS::strcat(attr_op.inout(),attr_name.in());
OCI_APT::Operation *op_ptr = this->find_or_add(attr_op.in());
OCI_APT::ArgList *arg_list =
new OCI_APT::ArgList (0, 0, false);
arg_list->result (attr->type());
if (want_attribute && ACE_OS::strcmp (attr_op.in(),desired_op) == 0)
{
arg_list->add_ref();
result = arg_list;
}
op_ptr->add_set (new OpArgs(rep_id.in(),arg_list));
for (CORBA::ULong d = 0; d < i; d++)
op_ptr->add_set (new OpArgs(derived[d],arg_list));
arg_list->remove_ref();
if (attr->mode() == CORBA::ATTR_READONLY)
continue;
attr_op.inout()[1] = 's'; // from _get_ to _set_
op_ptr = this->find_or_add(attr_op.in());
arg_list =
new OCI_APT::ArgList (1, 0, false);
arg_list->set_arg(0, attr->type(),CORBA::ARG_IN);
arg_list->result (CORBA::_tc_void);
if (want_attribute && ACE_OS::strcmp (attr_op.in(),desired_op) == 0)
{
arg_list->add_ref();
result = arg_list;
}
op_ptr->add_set (new OpArgs(rep_id.in(),arg_list));
for (CORBA::ULong d = 0; d < i; d++)
op_ptr->add_set (new OpArgs(derived[d],arg_list));
arg_list->remove_ref();
}
CORBA::ContainedSeq_var operations =
intDef->contents (CORBA::dk_Operation,1);
CORBA::ULong n_ops = operations->length ();
for (CORBA::ULong op = 0; op < n_ops; ++op)
{
CORBA::String_var op_name = operations[op]->name();
OCI_APT::Operation *op_ptr = this->find_or_add(op_name.in());
CORBA::OperationDef_var opDef =
CORBA::OperationDef::_narrow (operations[op]);
CORBA::ParDescriptionSeq_var params = opDef->params ();
CORBA::ExceptionDefSeq_var excepts = opDef->exceptions();
int is_oneway = opDef->mode() == CORBA::OP_ONEWAY;
OCI_APT::ArgList *arg_list =
new OCI_APT::ArgList (params->length(),
excepts->length(),
is_oneway);
if (!is_oneway)
arg_list->result (opDef->result());
for (CORBA::ULong p = 0; p < params->length (); ++p)
{
CORBA::Flags mode = CORBA::ARG_IN;
if (params[p].mode == CORBA::PARAM_OUT)
mode = CORBA::ARG_OUT;
else if (params[p].mode == CORBA::PARAM_INOUT)
mode = CORBA::ARG_INOUT;
arg_list->set_arg(p, params[p].type.in(),mode);
}
for (CORBA::ULong e = 0; e < excepts->length (); ++e)
{
CORBA::TypeCode_var tc = excepts[e]->type();
arg_list->set_excep(e, tc.in());
}
if (!want_attribute && desired_op && ACE_OS::strcmp(op_name,desired_op) == 0)
{
arg_list->add_ref();
result = arg_list;
}
op_ptr->add_set (new OpArgs(rep_id.in(),arg_list));
for (CORBA::ULong d = 0; d < i; d++)
op_ptr->add_set (new OpArgs(derived[d],arg_list));
arg_list->remove_ref();
}
if (i < bases->length())
{
derived[i] = rep_id;
intDef = bases[i];
}
}
delete [] derived;
return result;
}
CORBA::Contained::Description *
TAO_InterfaceDef_i::describe_i (void)
{
CORBA::Contained::Description *desc_ptr = 0;
ACE_NEW_THROW_EX (desc_ptr,
CORBA::Contained::Description,
CORBA::NO_MEMORY ());
CORBA::Contained::Description_var retval = desc_ptr;
retval->kind = this->def_kind ();
CORBA::InterfaceDescription ifd;
ACE_TString holder;
this->repo_->config ()->get_string_value (this->section_key_,
"name",
holder);
ifd.name = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"id",
holder);
ifd.id = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"container_id",
holder);
ifd.defined_in = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"version",
holder);
ifd.version = holder.fast_rep ();
CORBA::ULong i = 0;
CORBA::InterfaceDefSeq_var bases =
this->base_interfaces_i ();
CORBA::ULong length = bases->length ();
CORBA::RepositoryIdSeq repo_ids (length);
repo_ids.length (length);
char *base_path = 0;
ACE_Configuration_Section_Key base_key;
for (i = 0; i < length; ++i)
{
base_path = TAO_IFR_Service_Utils::reference_to_path (bases[i]);
this->repo_->config ()->expand_path (this->repo_->root_key (),
base_path,
base_key,
0);
TAO_InterfaceDef_i impl (this->repo_);
impl.section_key (base_key);
repo_ids[i] = impl.id_i ();
}
ifd.base_interfaces = repo_ids;
retval->value <<= ifd;
return retval._retn ();
}
CORBA::InterfaceDef::FullInterfaceDescription *
TAO_InterfaceDef_i::describe_interface_i (void)
{
CORBA::InterfaceDef::FullInterfaceDescription *fifd = 0;
ACE_NEW_RETURN (fifd,
CORBA::InterfaceDef::FullInterfaceDescription,
0);
CORBA::InterfaceDef::FullInterfaceDescription_var retval = fifd;
ACE_TString holder;
this->repo_->config ()->get_string_value (this->section_key_,
"name",
holder);
fifd->name = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"id",
holder);
fifd->id = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"container_id",
holder);
fifd->defined_in = holder.fast_rep ();
this->repo_->config ()->get_string_value (this->section_key_,
"version",
holder);
fifd->version = holder.fast_rep ();
CORBA::ULong i = 0;
CORBA::ULong j = 0;
ACE_Unbounded_Queue<ACE_Configuration_Section_Key> key_queue;
// Store our section key for later restoration after we have
// traversed entries for inherited interfaces.
ACE_Configuration_Section_Key key_holder = this->section_key_;
// Operations
this->inherited_operations (key_queue);
// Restore our original section key.
// I am not sure this is needed but it will not hurt.
this->section_key (key_holder);
ACE_Configuration_Section_Key ops_key, op_key;
int status =
this->repo_->config ()->open_section (this->section_key_,
"ops",
0,
ops_key);
CORBA::ULong count = 0;
if (status == 0)
{
this->repo_->config ()->get_integer_value (ops_key,
"count",
count);
for (j = 0; j < count; ++j)
{
char *stringified = TAO_IFR_Service_Utils::int_to_string (j);
status =
this->repo_->config ()->open_section (ops_key,
stringified,
0,
op_key);
if (status == 0)
{
key_queue.enqueue_tail (op_key);
}
}
}
CORBA::ULong size = static_cast<CORBA::ULong> (key_queue.size ());
fifd->operations.length (size);
for (i = 0; i < size; ++i)
{
ACE_Configuration_Section_Key key;
key_queue.dequeue_head (key);
TAO_OperationDef_i op (this->repo_);
op.section_key (key);
op.make_description (fifd->operations[i]);
}
// Restore our original section key.
// It may have been overwritten by a superclass key as part of the
// make_description() call.
this->section_key (key_holder);
// Attributes
this->inherited_attributes (key_queue);
// Restore our original section key.
// I am not sure this is needed but it will not hurt.
this->section_key (key_holder);
ACE_Configuration_Section_Key attrs_key;
status =
this->repo_->config ()->open_section (this->section_key_,
"attrs",
0,
attrs_key);
count = 0;
if (status == 0)
{
this->repo_->config ()->get_integer_value (attrs_key,
"count",
count);
for (j = 0; j < count; ++j)
{
ACE_Configuration_Section_Key attr_key;
char *stringified = TAO_IFR_Service_Utils::int_to_string (j);
status =
this->repo_->config ()->open_section (attrs_key,
stringified,
0,
attr_key);
if (status == 0)
{
key_queue.enqueue_tail (attr_key);
}
}
}
size = static_cast<CORBA::ULong> (key_queue.size ());
fifd->attributes.length (size);
for (i = 0; i < size; ++i)
{
ACE_Configuration_Section_Key key;
key_queue.dequeue_head (key);
TAO_AttributeDef_i attr (this->repo_);
attr.section_key (key);
attr.make_description (fifd->attributes[i]);
}
// Restore our original section key.
// It may have been overwritten by a superclass key as part of the
// make_description() call.
this->section_key (key_holder);
CORBA::InterfaceDefSeq_var bases =
this->base_interfaces_i ();
CORBA::ULong length = bases->length ();
CORBA::RepositoryIdSeq repo_ids (length);
repo_ids.length (length);
PortableServer::ObjectId_var oid;
char *base_path = 0;
ACE_Configuration_Section_Key base_key;
for (i = 0; i < length; ++i)
{
base_path = TAO_IFR_Service_Utils::reference_to_path (bases[i]);
this->repo_->config ()->expand_path (this->repo_->root_key (),
base_path,
base_key,
0);
TAO_InterfaceDef_i impl (this->repo_);
impl.section_key (base_key);
repo_ids[i] = impl.id_i ();
}
fifd->base_interfaces = repo_ids;
fifd->type = this->type_i ();
return retval._retn ();
}