namespace kernel {
namespace routing {
-DragonflyZone::DragonflyZone(NetZone* father, const char* name) : ClusterZone(father, name)
+DragonflyZone::DragonflyZone(NetZone* father, std::string name) : ClusterZone(father, name)
{
}
(*coords)[3] = rankId % numNodesPerBlade_;
}
-void DragonflyZone::parse_specific_arguments(sg_platf_cluster_cbarg_t cluster)
+void DragonflyZone::parse_specific_arguments(ClusterCreationArgs* cluster)
{
std::vector<std::string> parameters;
std::vector<std::string> tmp;
}
}
-void DragonflyZone::createLink(std::string id, int numlinks, surf::LinkImpl** linkup, surf::LinkImpl** linkdown)
+void DragonflyZone::createLink(const std::string& id, int numlinks, surf::LinkImpl** linkup, surf::LinkImpl** linkdown)
{
*linkup = nullptr;
*linkdown = nullptr;
*latency += myRouter->myNodes_[myCoords[3] * numLinksperLink_]->latency();
if (hasLimiter_) { // limiter for sender
- std::pair<surf::LinkImpl*, surf::LinkImpl*> info = privateLinks_.at(src->id() * linkCountPerNode_ + hasLoopback_);
+ std::pair<surf::LinkImpl*, surf::LinkImpl*> info =
+ privateLinks_.at(src->id() * linkCountPerNode_ + (hasLoopback_ ? 1 : 0));
route->link_list->push_back(info.first);
}
route->link_list->push_back(currentRouter->blackLinks_[targetCoords[1]]);
if (latency)
*latency += currentRouter->blackLinks_[targetCoords[1]]->latency();
- currentRouter = routers_[targetCoords[0] * (numChassisPerGroup_ * numBladesPerChassis_) +
- targetCoords[1] * numBladesPerChassis_ + targetCoords[2]];
}
}
if (hasLimiter_) { // limiter for receiver
- std::pair<surf::LinkImpl*, surf::LinkImpl*> info = privateLinks_.at(dst->id() * linkCountPerNode_ + hasLoopback_);
+ std::pair<surf::LinkImpl*, surf::LinkImpl*> info =
+ privateLinks_.at(dst->id() * linkCountPerNode_ + (hasLoopback_ ? 1 : 0));
route->link_list->push_back(info.first);
}