-/* Copyright (c) 2014-2017. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2014-2018. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include "src/kernel/routing/DragonflyZone.hpp"
-#include "src/kernel/routing/NetPoint.hpp"
+#include "simgrid/kernel/routing/DragonflyZone.hpp"
+#include "simgrid/kernel/routing/NetPoint.hpp"
#include "src/surf/network_interface.hpp"
#include <boost/algorithm/string/classification.hpp>
throw std::invalid_argument(std::string("Last parameter is not the amount of nodes per blade:") + parameters[3]);
}
- if (cluster->sharing_policy == SURF_LINK_FULLDUPLEX)
+ if (cluster->sharing_policy == SURF_LINK_SPLITDUPLEX)
this->numLinksperLink_ = 2;
this->cluster_ = cluster;
sg_platf_new_link(&linkTemplate);
XBT_DEBUG("Generating link %s", id.c_str());
surf::LinkImpl* link;
- if (this->cluster_->sharing_policy == SURF_LINK_FULLDUPLEX) {
+ if (this->cluster_->sharing_policy == SURF_LINK_SPLITDUPLEX) {
*linkup = surf::LinkImpl::byName(linkTemplate.id + "_UP"); // check link?
*linkdown = surf::LinkImpl::byName(linkTemplate.id + "_DOWN"); // check link ?
} else {
this->createLink(id, 1, &linkup, &linkdown);
this->routers_[i]->myNodes_[j] = linkup;
- if (this->cluster_->sharing_policy == SURF_LINK_FULLDUPLEX)
+ if (this->cluster_->sharing_policy == SURF_LINK_SPLITDUPLEX)
this->routers_[i]->myNodes_[j + 1] = linkdown;
uniqueId++;
}
}
-void DragonflyZone::getLocalRoute(NetPoint* src, NetPoint* dst, sg_platf_route_cbarg_t route, double* latency)
+void DragonflyZone::getLocalRoute(NetPoint* src, NetPoint* dst, RouteCreationArgs* route, double* latency)
{
// Minimal routing version.
// TODO : non-minimal random one, and adaptive ?
if ((src->id() == dst->id()) && hasLoopback_) {
std::pair<surf::LinkImpl*, surf::LinkImpl*> info = privateLinks_.at(nodePosition(src->id()));
- route->link_list->push_back(info.first);
+ route->link_list.push_back(info.first);
if (latency)
*latency += info.first->latency();
return;
DragonflyRouter* currentRouter = myRouter;
// node->router local link
- route->link_list->push_back(myRouter->myNodes_[myCoords[3] * numLinksperLink_]);
+ route->link_list.push_back(myRouter->myNodes_[myCoords[3] * numLinksperLink_]);
if (latency)
*latency += myRouter->myNodes_[myCoords[3] * numLinksperLink_]->latency();
if (hasLimiter_) { // limiter for sender
std::pair<surf::LinkImpl*, surf::LinkImpl*> info = privateLinks_.at(nodePositionWithLoopback(src->id()));
- route->link_list->push_back(info.first);
+ route->link_list.push_back(info.first);
}
if (targetRouter != myRouter) {
// go to the router of our group connected to this one.
if (currentRouter->blade_ != targetCoords[0]) {
// go to the nth router in our chassis
- route->link_list->push_back(currentRouter->greenLinks_[targetCoords[0]]);
+ route->link_list.push_back(currentRouter->greenLinks_[targetCoords[0]]);
if (latency)
*latency += currentRouter->greenLinks_[targetCoords[0]]->latency();
currentRouter = routers_[myCoords[0] * (numChassisPerGroup_ * numBladesPerChassis_) +
if (currentRouter->chassis_ != 0) {
// go to the first chassis of our group
- route->link_list->push_back(currentRouter->blackLinks_[0]);
+ route->link_list.push_back(currentRouter->blackLinks_[0]);
if (latency)
*latency += currentRouter->blackLinks_[0]->latency();
currentRouter = routers_[myCoords[0] * (numChassisPerGroup_ * numBladesPerChassis_) + targetCoords[0]];
}
// go to destination group - the only optical hop
- route->link_list->push_back(currentRouter->blueLinks_[0]);
+ route->link_list.push_back(currentRouter->blueLinks_[0]);
if (latency)
*latency += currentRouter->blueLinks_[0]->latency();
currentRouter = routers_[targetCoords[0] * (numChassisPerGroup_ * numBladesPerChassis_) + myCoords[0]];
// same group, but same blade ?
if (targetRouter->blade_ != currentRouter->blade_) {
- route->link_list->push_back(currentRouter->greenLinks_[targetCoords[2]]);
+ route->link_list.push_back(currentRouter->greenLinks_[targetCoords[2]]);
if (latency)
*latency += currentRouter->greenLinks_[targetCoords[2]]->latency();
currentRouter = routers_[targetCoords[0] * (numChassisPerGroup_ * numBladesPerChassis_) + targetCoords[2]];
// same blade, but same chassis ?
if (targetRouter->chassis_ != currentRouter->chassis_) {
- route->link_list->push_back(currentRouter->blackLinks_[targetCoords[1]]);
+ route->link_list.push_back(currentRouter->blackLinks_[targetCoords[1]]);
if (latency)
*latency += currentRouter->blackLinks_[targetCoords[1]]->latency();
}
if (hasLimiter_) { // limiter for receiver
std::pair<surf::LinkImpl*, surf::LinkImpl*> info = privateLinks_.at(nodePositionWithLoopback(dst->id()));
- route->link_list->push_back(info.first);
+ route->link_list.push_back(info.first);
}
// router->node local link
- route->link_list->push_back(targetRouter->myNodes_[targetCoords[3] * numLinksperLink_ + numLinksperLink_ - 1]);
+ route->link_list.push_back(targetRouter->myNodes_[targetCoords[3] * numLinksperLink_ + numLinksperLink_ - 1]);
if (latency)
*latency += targetRouter->myNodes_[targetCoords[3] * numLinksperLink_ + numLinksperLink_ - 1]->latency();
}
