namespace kernel {
namespace routing {
-DragonflyZone::DragonflyZone(NetZone* father, std::string name) : ClusterZone(father, name)
-{
-}
+DragonflyZone::DragonflyZone(NetZoneImpl* father, std::string name) : ClusterZone(father, name) {}
DragonflyZone::~DragonflyZone()
{
return;
}
- this->generateRouters();
- this->generateLinks();
+ this->generate_routers();
+ this->generate_links();
}
DragonflyRouter::DragonflyRouter(int group, int chassis, int blade) : group_(group), chassis_(chassis), blade_(blade)
delete blue_links_;
}
-void DragonflyZone::generateRouters()
+void DragonflyZone::generate_routers()
{
this->routers_ =
new DragonflyRouter*[this->num_groups_ * this->num_chassis_per_group_ * this->num_blades_per_chassis_];
}
}
-void DragonflyZone::createLink(const std::string& id, int numlinks, resource::LinkImpl** linkup,
- resource::LinkImpl** linkdown)
+void DragonflyZone::create_link(const std::string& id, int numlinks, resource::LinkImpl** linkup,
+ resource::LinkImpl** linkdown)
{
*linkup = nullptr;
*linkdown = nullptr;
XBT_DEBUG("Generating link %s", id.c_str());
resource::LinkImpl* link;
if (this->sharing_policy_ == s4u::Link::SharingPolicy::SPLITDUPLEX) {
- *linkup = resource::LinkImpl::byName(linkTemplate.id + "_UP"); // check link?
- *linkdown = resource::LinkImpl::byName(linkTemplate.id + "_DOWN"); // check link ?
+ *linkup = s4u::Link::by_name(linkTemplate.id + "_UP")->get_impl(); // check link?
+ *linkdown = s4u::Link::by_name(linkTemplate.id + "_DOWN")->get_impl(); // check link ?
} else {
- link = resource::LinkImpl::byName(linkTemplate.id);
+ link = s4u::Link::by_name(linkTemplate.id)->get_impl();
*linkup = link;
*linkdown = link;
}
}
-void DragonflyZone::generateLinks()
+void DragonflyZone::generate_links()
{
static int uniqueId = 0;
resource::LinkImpl* linkup;
for (unsigned int j = 0; j < num_links_per_link_ * this->num_nodes_per_blade_; j += num_links_per_link_) {
std::string id = "local_link_from_router_" + std::to_string(i) + "_to_node_" +
std::to_string(j / num_links_per_link_) + "_" + std::to_string(uniqueId);
- this->createLink(id, 1, &linkup, &linkdown);
+ this->create_link(id, 1, &linkup, &linkdown);
this->routers_[i]->my_nodes_[j] = linkup;
if (this->sharing_policy_ == s4u::Link::SharingPolicy::SPLITDUPLEX)
for (unsigned int k = j + 1; k < this->num_blades_per_chassis_; k++) {
std::string id = "green_link_in_chassis_" + std::to_string(i % num_chassis_per_group_) + "_between_routers_" +
std::to_string(j) + "_and_" + std::to_string(k) + "_" + std::to_string(uniqueId);
- this->createLink(id, this->num_links_green_, &linkup, &linkdown);
+ this->create_link(id, this->num_links_green_, &linkup, &linkdown);
this->routers_[i * num_blades_per_chassis_ + j]->green_links_[k] = linkup;
this->routers_[i * num_blades_per_chassis_ + k]->green_links_[j] = linkdown;
for (unsigned int l = 0; l < this->num_blades_per_chassis_; l++) {
std::string id = "black_link_in_group_" + std::to_string(i) + "_between_chassis_" + std::to_string(j) +
"_and_" + std::to_string(k) +"_blade_" + std::to_string(l) + "_" + std::to_string(uniqueId);
- this->createLink(id, this->num_links_black_, &linkup, &linkdown);
+ this->create_link(id, this->num_links_black_, &linkup, &linkdown);
this->routers_[i * num_blades_per_chassis_ * num_chassis_per_group_ + j * num_blades_per_chassis_ + l]
->black_links_[k] = linkup;
this->routers_[routernumj]->blue_links_ = new resource::LinkImpl*;
std::string id = "blue_link_between_group_"+ std::to_string(i) +"_and_" + std::to_string(j) +"_routers_" +
std::to_string(routernumi) + "_and_" + std::to_string(routernumj) + "_" + std::to_string(uniqueId);
- this->createLink(id, this->num_links_blue_, &linkup, &linkdown);
+ this->create_link(id, this->num_links_blue_, &linkup, &linkdown);
this->routers_[routernumi]->blue_links_[0] = linkup;
this->routers_[routernumj]->blue_links_[0] = linkdown;
route->link_list.push_back(info.first);
if (latency)
- *latency += info.first->latency();
+ *latency += info.first->get_latency();
return;
}
// node->router local link
route->link_list.push_back(myRouter->my_nodes_[myCoords[3] * num_links_per_link_]);
if (latency)
- *latency += myRouter->my_nodes_[myCoords[3] * num_links_per_link_]->latency();
+ *latency += myRouter->my_nodes_[myCoords[3] * num_links_per_link_]->get_latency();
if (has_limiter_) { // limiter for sender
std::pair<resource::LinkImpl*, resource::LinkImpl*> info = private_links_.at(node_pos_with_loopback(src->id()));
// go to the nth router in our chassis
route->link_list.push_back(currentRouter->green_links_[targetCoords[0]]);
if (latency)
- *latency += currentRouter->green_links_[targetCoords[0]]->latency();
+ *latency += currentRouter->green_links_[targetCoords[0]]->get_latency();
currentRouter = routers_[myCoords[0] * (num_chassis_per_group_ * num_blades_per_chassis_) +
myCoords[1] * num_blades_per_chassis_ + targetCoords[0]];
}
// go to the first chassis of our group
route->link_list.push_back(currentRouter->black_links_[0]);
if (latency)
- *latency += currentRouter->black_links_[0]->latency();
+ *latency += currentRouter->black_links_[0]->get_latency();
currentRouter = routers_[myCoords[0] * (num_chassis_per_group_ * num_blades_per_chassis_) + targetCoords[0]];
}
// go to destination group - the only optical hop
route->link_list.push_back(currentRouter->blue_links_[0]);
if (latency)
- *latency += currentRouter->blue_links_[0]->latency();
+ *latency += currentRouter->blue_links_[0]->get_latency();
currentRouter = routers_[targetCoords[0] * (num_chassis_per_group_ * num_blades_per_chassis_) + myCoords[0]];
}
if (targetRouter->blade_ != currentRouter->blade_) {
route->link_list.push_back(currentRouter->green_links_[targetCoords[2]]);
if (latency)
- *latency += currentRouter->green_links_[targetCoords[2]]->latency();
+ *latency += currentRouter->green_links_[targetCoords[2]]->get_latency();
currentRouter = routers_[targetCoords[0] * (num_chassis_per_group_ * num_blades_per_chassis_) + targetCoords[2]];
}
if (targetRouter->chassis_ != currentRouter->chassis_) {
route->link_list.push_back(currentRouter->black_links_[targetCoords[1]]);
if (latency)
- *latency += currentRouter->black_links_[targetCoords[1]]->latency();
+ *latency += currentRouter->black_links_[targetCoords[1]]->get_latency();
}
}
// router->node local link
route->link_list.push_back(targetRouter->my_nodes_[targetCoords[3] * num_links_per_link_ + num_links_per_link_ - 1]);
if (latency)
- *latency += targetRouter->my_nodes_[targetCoords[3] * num_links_per_link_ + num_links_per_link_ - 1]->latency();
+ *latency += targetRouter->my_nodes_[targetCoords[3] * num_links_per_link_ + num_links_per_link_ - 1]->get_latency();
}
}
}
