}
// When a host is turned off, we want to keep only the actors that should restart for when it will boot again.
// Then get rid of the others.
- auto elm = remove_if(begin(actors_at_boot_), end(actors_at_boot_), [](kernel::actor::ProcessArg* arg) {
+ auto elm = remove_if(begin(actors_at_boot_), end(actors_at_boot_), [](const kernel::actor::ProcessArg* arg) {
if (arg->auto_restart)
return false;
delete arg;
return disks;
}
-void HostImpl::add_disk(s4u::Disk* disk)
+void HostImpl::add_disk(const s4u::Disk* disk)
{
disks_.push_back(disk->get_impl());
}
virtual ~HostImpl();
std::vector<s4u::Disk*> get_disks();
- void add_disk(s4u::Disk* disk);
+ void add_disk(const s4u::Disk* disk);
void remove_disk(const std::string& disk_name);
/** @brief Get the vector of storages (by names) attached to the Host */
* Trace *
*********/
-CpuTiProfile::CpuTiProfile(profile::Profile* profile)
+CpuTiProfile::CpuTiProfile(const profile::Profile* profile)
{
double integral = 0;
double time = 0;
*********/
class CpuTiProfile {
public:
- explicit CpuTiProfile(profile::Profile* profile);
+ explicit CpuTiProfile(const profile::Profile* profile);
double integrate_simple(double a, double b);
double integrate_simple_point(double a);
((NetworkIBModel*)surf_network_model)->active_comms.erase(&action);
}
-static void IB_action_init_callback(simgrid::kernel::resource::NetworkAction& action, simgrid::s4u::Host* src,
- simgrid::s4u::Host* dst)
+static void IB_action_init_callback(simgrid::kernel::resource::NetworkAction& action, const simgrid::s4u::Host* src,
+ const simgrid::s4u::Host* dst)
{
simgrid::kernel::resource::NetworkIBModel* ibModel = (simgrid::kernel::resource::NetworkIBModel*)surf_network_model;
simgrid::kernel::resource::IBNode* act_src = &ibModel->active_nodes.at(src->get_name());
simgrid::s4u::Link::on_creation(*get_iface());
}
-void NetworkWifiLink::set_host_rate(s4u::Host* host, int rate_level)
+void NetworkWifiLink::set_host_rate(const s4u::Host* host, int rate_level)
{
auto insert_done = host_rates_.insert(std::make_pair(host->get_name(), rate_level));
if (insert_done.second == false)
insert_done.first->second = rate_level;
}
-double NetworkWifiLink::get_host_rate(sg_host_t host)
+double NetworkWifiLink::get_host_rate(const s4u::Host* host)
{
std::map<xbt::string, int>::iterator host_rates_it;
host_rates_it = host_rates_.find(host->get_name());
NetworkWifiLink(NetworkCm02Model* model, const std::string& name, std::vector<double> bandwidths,
lmm::System* system);
- void set_host_rate(s4u::Host* host, int rate_level);
+ void set_host_rate(const s4u::Host* host, int rate_level);
/** @brief Get the AP rate associated to the host (or -1 if not associated to the AP) */
- double get_host_rate(s4u::Host* host);
+ double get_host_rate(const s4u::Host* host);
s4u::Link::SharingPolicy get_sharing_policy() override;
void apply_event(kernel::profile::Event*, double) override { THROW_UNIMPLEMENTED; }
return netpoint;
}
-static void sg_platf_new_link(simgrid::kernel::routing::LinkCreationArgs* link, const std::string& link_name)
+static void sg_platf_new_link(const simgrid::kernel::routing::LinkCreationArgs* link, const std::string& link_name)
{
simgrid::kernel::resource::LinkImpl* l =
surf_network_model->create_link(link_name, link->bandwidths, link->latency, link->policy);
l->set_state_profile(link->state_trace);
}
-void sg_platf_new_link(simgrid::kernel::routing::LinkCreationArgs* link)
+void sg_platf_new_link(const simgrid::kernel::routing::LinkCreationArgs* link)
{
if (link->policy == simgrid::s4u::Link::SharingPolicy::SPLITDUPLEX) {
sg_platf_new_link(link, link->id + "_UP");
XBT_DEBUG("Add a backbone to AS '%s'", current_routing->get_cname());
}
-void sg_platf_new_cabinet(simgrid::kernel::routing::CabinetCreationArgs* cabinet)
+void sg_platf_new_cabinet(const simgrid::kernel::routing::CabinetCreationArgs* cabinet)
{
for (int const& radical : *cabinet->radicals) {
std::string hostname = cabinet->prefix + std::to_string(radical) + cabinet->suffix;
delete cabinet->radicals;
}
-simgrid::kernel::resource::DiskImpl* sg_platf_new_disk(simgrid::kernel::routing::DiskCreationArgs* disk)
+simgrid::kernel::resource::DiskImpl* sg_platf_new_disk(const simgrid::kernel::routing::DiskCreationArgs* disk)
{
simgrid::kernel::resource::DiskImpl* d = surf_disk_model->createDisk(disk->id, disk->read_bw, disk->write_bw);
if (disk->properties) {
}
}
-void sg_platf_new_storage_type(simgrid::kernel::routing::StorageTypeCreationArgs* storage_type)
+void sg_platf_new_storage_type(const simgrid::kernel::routing::StorageTypeCreationArgs* storage_type)
{
xbt_assert(storage_types.find(storage_type->id) == storage_types.end(),
"Reading a storage type, processing unit \"%s\" already exists", storage_type->id.c_str());
}
}
-void sg_platf_new_peer(simgrid::kernel::routing::PeerCreationArgs* peer)
+void sg_platf_new_peer(const simgrid::kernel::routing::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.");
*
* @param zone the parameters defining the Zone to build.
*/
-simgrid::kernel::routing::NetZoneImpl* sg_platf_new_Zone_begin(simgrid::kernel::routing::ZoneCreationArgs* zone)
+simgrid::kernel::routing::NetZoneImpl* sg_platf_new_Zone_begin(const simgrid::kernel::routing::ZoneCreationArgs* zone)
{
if (not surf_parse_models_setup_already_called) {
simgrid::s4u::Engine::on_platform_creation();
return new_zone;
}
-void sg_platf_new_Zone_set_properties(std::unordered_map<std::string, std::string>* props)
+void sg_platf_new_Zone_set_properties(const std::unordered_map<std::string, std::string>* props)
{
xbt_assert(current_routing, "Cannot set properties of the current Zone: none under construction");
}
/** @brief Add a link connecting a host to the rest of its AS (which must be cluster or vivaldi) */
-void sg_platf_new_hostlink(simgrid::kernel::routing::HostLinkCreationArgs* hostlink)
+void sg_platf_new_hostlink(const simgrid::kernel::routing::HostLinkCreationArgs* hostlink)
{
simgrid::kernel::routing::NetPoint* netpoint = simgrid::s4u::Host::by_name(hostlink->id)->get_netpoint();
xbt_assert(netpoint, "Host '%s' not found!", hostlink->id.c_str());
/*** END of the parsing cruft ***/
XBT_PUBLIC simgrid::kernel::routing::NetZoneImpl*
-sg_platf_new_Zone_begin(simgrid::kernel::routing::ZoneCreationArgs* zone); // Begin description of new Zone
-XBT_PUBLIC void sg_platf_new_Zone_set_properties(std::unordered_map<std::string, std::string>* props);
+sg_platf_new_Zone_begin(const simgrid::kernel::routing::ZoneCreationArgs* zone); // Begin description of new Zone
+XBT_PUBLIC void sg_platf_new_Zone_set_properties(const std::unordered_map<std::string, std::string>* props);
XBT_PUBLIC void sg_platf_new_Zone_seal(); // That Zone is fully described
XBT_PUBLIC void sg_platf_new_host(simgrid::kernel::routing::HostCreationArgs* host); // Add a host to the current Zone
-XBT_PUBLIC void sg_platf_new_hostlink(simgrid::kernel::routing::HostLinkCreationArgs* h); // Add a host_link to the current Zone
-XBT_PUBLIC void sg_platf_new_link(simgrid::kernel::routing::LinkCreationArgs* link); // Add a link to the current Zone
-XBT_PUBLIC void sg_platf_new_peer(simgrid::kernel::routing::PeerCreationArgs* peer); // Add a peer to the current Zone
+XBT_PUBLIC void
+sg_platf_new_hostlink(const simgrid::kernel::routing::HostLinkCreationArgs* h); // Add a host_link to the current Zone
+XBT_PUBLIC void
+sg_platf_new_link(const simgrid::kernel::routing::LinkCreationArgs* link); // Add a link to the current Zone
+XBT_PUBLIC void
+sg_platf_new_peer(const simgrid::kernel::routing::PeerCreationArgs* peer); // Add a peer to the current Zone
XBT_PUBLIC void sg_platf_new_cluster(simgrid::kernel::routing::ClusterCreationArgs* clust); // Add a cluster to the current Zone
-XBT_PUBLIC void sg_platf_new_cabinet(simgrid::kernel::routing::CabinetCreationArgs* cabinet); // Add a cabinet to the current Zone
+XBT_PUBLIC void
+sg_platf_new_cabinet(const simgrid::kernel::routing::CabinetCreationArgs* cabinet); // Add a cabinet to the current Zone
XBT_PUBLIC simgrid::kernel::routing::NetPoint* // Add a router to the current Zone
sg_platf_new_router(const std::string&, const char* coords);
XBT_PUBLIC void sg_platf_new_trace(simgrid::kernel::routing::ProfileCreationArgs* trace);
XBT_PUBLIC simgrid::kernel::resource::DiskImpl*
-sg_platf_new_disk(simgrid::kernel::routing::DiskCreationArgs* disk); // Add a disk to the current host
+sg_platf_new_disk(const simgrid::kernel::routing::DiskCreationArgs* disk); // Add a disk to the current host
XBT_PUBLIC void sg_platf_new_storage(simgrid::kernel::routing::StorageCreationArgs* storage); // Add a storage to the current Zone
-XBT_PUBLIC void sg_platf_new_storage_type(simgrid::kernel::routing::StorageTypeCreationArgs* storage_type);
+XBT_PUBLIC void sg_platf_new_storage_type(const simgrid::kernel::routing::StorageTypeCreationArgs* storage_type);
XBT_PUBLIC void sg_platf_new_mount(simgrid::kernel::routing::MountCreationArgs* mount);
XBT_PUBLIC void sg_platf_new_actor(simgrid::kernel::routing::ActorCreationArgs* actor);
std::vector<simgrid::kernel::routing::NetPoint*> netpoints =
simgrid::s4u::Engine::get_instance()->get_all_netpoints();
std::sort(netpoints.begin(), netpoints.end(),
- [](simgrid::kernel::routing::NetPoint* a, simgrid::kernel::routing::NetPoint* b) {
+ [](const simgrid::kernel::routing::NetPoint* a, const simgrid::kernel::routing::NetPoint* b) {
return a->get_name() < b->get_name();
});
bool first = true;