delete cabinet->radicals;
}
-void sg_platf_new_storage(sg_platf_storage_cbarg_t storage)
+void sg_platf_new_storage(StorageCreationArgs* storage)
{
xbt_assert(std::find(known_storages.begin(), known_storages.end(), storage->id) == known_storages.end(),
- "Refusing to add a second storage named \"%s\"", storage->id);
+ "Refusing to add a second storage named \"%s\"", storage->id.c_str());
- xbt_assert(storage_types.find(storage->type_id) != storage_types.end(), "No storage type '%s'", storage->type_id);
- storage_type_t stype = storage_types.at(storage->type_id);
+ storage_type_t stype;
+ try {
+ stype = storage_types.at(storage->type_id);
+ } catch (std::out_of_range& unfound) {
+ xbt_die("No storage type '%s'", storage->type_id.c_str());
+ }
- XBT_DEBUG("ROUTING Create a storage name '%s' with type_id '%s' and content '%s'", storage->id, storage->type_id,
- storage->content);
+ XBT_DEBUG("ROUTING Create a storage name '%s' with type_id '%s' and content '%s'", storage->id.c_str(),
+ storage->type_id.c_str(), storage->content.c_str());
known_storages.push_back(storage->id);
// if storage content is not specified use the content of storage_type if any
- if (not strcmp(storage->content, "") && strcmp(stype->content, "")) {
- storage->content = stype->content;
- XBT_DEBUG("For disk '%s' content is empty, inherit the content (of type %s)", storage->id, stype->type_id);
+ if (storage->content.empty() && strcmp(stype->content, "")) {
+ storage->content = std::string(stype->content);
+ XBT_DEBUG("For disk '%s' content is empty, inherit the content (of type %s)", storage->id.c_str(), stype->type_id);
}
XBT_DEBUG("SURF storage create resource\n\t\tid '%s'\n\t\ttype '%s' "
"\n\t\tmodel '%s' \n\t\tcontent '%s' "
"\n\t\tproperties '%p''\n",
- storage->id, stype->model, stype->type_id, storage->content, storage->properties);
+ storage->id.c_str(), stype->model, stype->type_id, storage->content.c_str(), storage->properties);
auto s = surf_storage_model->createStorage(storage->id, stype->type_id, storage->content, storage->attach);
stype->size = storage_type->size;
stype->model_properties = storage_type->model_properties;
- XBT_DEBUG("ROUTING Create a storage type id '%s' with model '%s', content '%s'", stype->type_id, stype->model,
+ XBT_DEBUG("Create a storage type id '%s' with model '%s', content '%s'", stype->type_id, stype->model,
storage_type->content);
storage_types.insert({std::string(stype->type_id), stype});
}
-void sg_platf_new_mount(sg_platf_mount_cbarg_t mount){
+void sg_platf_new_mount(MountCreationArgs* mount)
+{
xbt_assert(std::find(known_storages.begin(), known_storages.end(), mount->storageId) != known_storages.end(),
- "Cannot mount non-existent disk \"%s\"", mount->storageId);
+ "Cannot mount non-existent disk \"%s\"", mount->storageId.c_str());
- XBT_DEBUG("ROUTING Mount '%s' on '%s'",mount->storageId, mount->name);
+ XBT_DEBUG("Mount '%s' on '%s'", mount->storageId.c_str(), mount->name.c_str());
if (mount_list.empty())
XBT_DEBUG("Create a Mount list for %s", A_surfxml_host_id);
- mount_list.insert({std::string(mount->name), simgrid::surf::StorageImpl::byName(mount->storageId)});
+ mount_list.insert({mount->name, simgrid::surf::StorageImpl::byName(mount->storageId.c_str())});
}
void sg_platf_new_route(sg_platf_route_cbarg_t route)
current_property_set = nullptr;
}
-void sg_platf_new_peer(sg_platf_peer_cbarg_t peer)
+void sg_platf_new_peer(PeerCreationArgs* peer)
{
simgrid::kernel::routing::VivaldiZone* as = dynamic_cast<simgrid::kernel::routing::VivaldiZone*>(current_routing);
xbt_assert(as, "<peer> tag can only be used in Vivaldi netzones.");
std::vector<double> speedPerPstate;
speedPerPstate.push_back(peer->speed);
- simgrid::s4u::Host* host = as->createHost(peer->id, &speedPerPstate, 1, nullptr);
+ simgrid::s4u::Host* host = as->createHost(peer->id.c_str(), &speedPerPstate, 1, nullptr);
as->setPeerLink(host->pimpl_netpoint, peer->bw_in, peer->bw_out, peer->coord);