DragonflyZone::DragonflyZone(const std::string& name) : ClusterBase(name) {}
-DragonflyZone::Coords DragonflyZone::rankId_to_coords(int rankId) const
+DragonflyZone::Coords DragonflyZone::rankId_to_coords(unsigned long rankId) const
{
// coords : group, chassis, blade, node
Coords coords;
void DragonflyZone::generate_routers(const s4u::ClusterCallbacks& set_callbacks)
{
- int id = 0;
+ unsigned long id = 2 * num_groups_ * num_chassis_per_group_ * num_blades_per_chassis_ * num_nodes_per_blade_;
/* get limiter for this router */
auto get_limiter = [this, &id, &set_callbacks](unsigned int i, unsigned int j,
unsigned int k) -> resource::LinkImpl* {
if (dst->is_router() || src->is_router())
return;
- XBT_VERB("dragonfly getLocalRoute from '%s'[%u] to '%s'[%u]", src->get_cname(), src->id(), dst->get_cname(),
+ XBT_VERB("dragonfly getLocalRoute from '%s'[%lu] to '%s'[%lu]", src->get_cname(), src->id(), dst->get_cname(),
dst->id());
if ((src->id() == dst->id()) && has_loopback()) {
zone->set_link_characteristics(bandwidth, latency, sharing_policy);
/* populating it */
- std::vector<unsigned int> dimensions = {params.groups.first, params.chassis.first, params.routers.first,
- params.nodes};
+ std::vector<unsigned long> dimensions = {params.groups.first, params.chassis.first, params.routers.first,
+ params.nodes};
int tot_elements = std::accumulate(dimensions.begin(), dimensions.end(), 1, std::multiplies<>());
for (int i = 0; i < tot_elements; i++) {
kernel::routing::NetPoint* netpoint;
zone->fill_leaf_from_cb(i, dimensions, set_callbacks, &netpoint, &loopback, &limiter);
}
zone->build_upper_levels(set_callbacks);
-
return zone->get_iface();
}
} // namespace s4u