namespace kernel {
namespace routing {
-FatTreeZone::FatTreeZone(NetZone* father, const char* name) : ClusterZone(father, name)
+FatTreeZone::FatTreeZone(NetZone* father, std::string name) : ClusterZone(father, name)
{
XBT_DEBUG("Creating a new fat tree.");
}
return true;
}
-void FatTreeZone::getLocalRoute(NetPoint* src, NetPoint* dst, sg_platf_route_cbarg_t into, double* latency)
+void FatTreeZone::getLocalRoute(NetPoint* src, NetPoint* dst, RouteCreationArgs* into, double* latency)
{
if (dst->isRouter() || src->isRouter())
/* Let's find the source and the destination in our internal structure */
auto searchedNode = this->computeNodes_.find(src->id());
xbt_assert(searchedNode != this->computeNodes_.end(), "Could not find the source %s [%u] in the fat tree",
- src->name().c_str(), src->id());
+ src->getCname(), src->id());
FatTreeNode* source = searchedNode->second;
searchedNode = this->computeNodes_.find(dst->id());
xbt_assert(searchedNode != this->computeNodes_.end(), "Could not find the destination %s [%u] in the fat tree",
- dst->name().c_str(), dst->id());
+ dst->getCname(), dst->id());
FatTreeNode* destination = searchedNode->second;
- XBT_VERB("Get route and latency from '%s' [%u] to '%s' [%u] in a fat tree", src->name().c_str(), src->id(),
- dst->name().c_str(), dst->id());
+ XBT_VERB("Get route and latency from '%s' [%u] to '%s' [%u] in a fat tree", src->getCname(), src->id(),
+ dst->getCname(), dst->id());
/* In case destination is the source, and there is a loopback, let's use it instead of going up to a switch */
if (source->id == destination->id && this->hasLoopback_) {
- into->link_list->push_back(source->loopback);
+ into->link_list.push_back(source->loopback);
if (latency)
*latency += source->loopback->latency();
return;
int k = this->upperLevelNodesNumber_[currentNode->level];
d = d % k;
- into->link_list->push_back(currentNode->parents[d]->upLink);
+ into->link_list.push_back(currentNode->parents[d]->upLink);
if (latency)
*latency += currentNode->parents[d]->upLink->latency();
if (this->hasLimiter_)
- into->link_list->push_back(currentNode->limiterLink);
+ into->link_list.push_back(currentNode->limiterLink);
currentNode = currentNode->parents[d]->upNode;
}
while (currentNode != destination) {
for (unsigned int i = 0; i < currentNode->children.size(); i++) {
if (i % this->lowerLevelNodesNumber_[currentNode->level - 1] == destination->label[currentNode->level - 1]) {
- into->link_list->push_back(currentNode->children[i]->downLink);
+ into->link_list.push_back(currentNode->children[i]->downLink);
if (latency)
*latency += currentNode->children[i]->downLink->latency();
currentNode = currentNode->children[i]->downNode;
if (this->hasLimiter_)
- into->link_list->push_back(currentNode->limiterLink);
+ into->link_list.push_back(currentNode->limiterLink);
XBT_DEBUG("%d(%u,%u) is accessible through %d(%u,%u)", destination->id, destination->level,
destination->position, currentNode->id, currentNode->level, currentNode->position);
}
this->links_.push_back(newLink);
}
-void FatTreeZone::parse_specific_arguments(sg_platf_cluster_cbarg_t cluster)
+void FatTreeZone::parse_specific_arguments(ClusterCreationArgs* cluster)
{
std::vector<std::string> parameters;
std::vector<std::string> tmp;
boost::split(parameters, cluster->topo_parameters, boost::is_any_of(";"));
+ const std::string error_msg {"Fat trees are defined by the levels number and 3 vectors, see the documentation for more information"};
// TODO : we have to check for zeros and negative numbers, or it might crash
if (parameters.size() != 4) {
- surf_parse_error(
- "Fat trees are defined by the levels number and 3 vectors, see the documentation for more information");
+ surf_parse_error(error_msg);
}
// The first parts of topo_parameters should be the levels number
// Then, a l-sized vector standing for the children number by level
boost::split(tmp, parameters[1], boost::is_any_of(","));
if (tmp.size() != this->levels_) {
- surf_parse_error("Fat trees are defined by the levels number and 3 vectors"
- ", see the documentation for more information");
+ surf_parse_error(error_msg);
}
for (size_t i = 0; i < tmp.size(); i++) {
try {
// Then, a l-sized vector standing for the parents number by level
boost::split(tmp, parameters[2], boost::is_any_of(","));
if (tmp.size() != this->levels_) {
- surf_parse_error("Fat trees are defined by the levels number and 3 vectors"
- ", see the documentation for more information");
+ surf_parse_error(error_msg);
}
for (size_t i = 0; i < tmp.size(); i++) {
try {
// Finally, a l-sized vector standing for the ports number with the lower level
boost::split(tmp, parameters[3], boost::is_any_of(","));
if (tmp.size() != this->levels_) {
- surf_parse_error("Fat trees are defined by the levels number and 3 vectors"
- ", see the documentation for more information");
+ surf_parse_error(error_msg);
}
for (size_t i = 0; i < tmp.size(); i++) {
try {
file.close();
}
-FatTreeNode::FatTreeNode(sg_platf_cluster_cbarg_t cluster, int id, int level, int position)
+FatTreeNode::FatTreeNode(ClusterCreationArgs* cluster, int id, int level, int position)
: id(id), level(level), position(position)
{
LinkCreationArgs linkTemplate;
linkTemplate.policy = SURF_LINK_SHARED;
linkTemplate.id = "limiter_"+std::to_string(id);
sg_platf_new_link(&linkTemplate);
- this->limiterLink = surf::LinkImpl::byName(linkTemplate.id.c_str());
+ this->limiterLink = surf::LinkImpl::byName(linkTemplate.id);
}
if (cluster->loopback_bw || cluster->loopback_lat) {
linkTemplate.bandwidth = cluster->loopback_bw;
linkTemplate.policy = SURF_LINK_FATPIPE;
linkTemplate.id = "loopback_"+ std::to_string(id);
sg_platf_new_link(&linkTemplate);
- this->loopback = surf::LinkImpl::byName(linkTemplate.id.c_str());
+ this->loopback = surf::LinkImpl::byName(linkTemplate.id);
}
}
-FatTreeLink::FatTreeLink(sg_platf_cluster_cbarg_t cluster, FatTreeNode* downNode, FatTreeNode* upNode)
+FatTreeLink::FatTreeLink(ClusterCreationArgs* cluster, FatTreeNode* downNode, FatTreeNode* upNode)
: upNode(upNode), downNode(downNode)
{
static int uniqueId = 0;
"link_from_" + std::to_string(downNode->id) + "_" + std::to_string(upNode->id) + "_" + std::to_string(uniqueId);
sg_platf_new_link(&linkTemplate);
- if (cluster->sharing_policy == SURF_LINK_FULLDUPLEX) {
+ if (cluster->sharing_policy == SURF_LINK_SPLITDUPLEX) {
std::string tmpID = std::string(linkTemplate.id) + "_UP";
- this->upLink = surf::LinkImpl::byName(tmpID.c_str()); // check link?
+ this->upLink = surf::LinkImpl::byName(tmpID); // check link?
tmpID = std::string(linkTemplate.id) + "_DOWN";
- this->downLink = surf::LinkImpl::byName(tmpID.c_str()); // check link ?
+ this->downLink = surf::LinkImpl::byName(tmpID); // check link ?
} else {
- this->upLink = surf::LinkImpl::byName(linkTemplate.id.c_str());
+ this->upLink = surf::LinkImpl::byName(linkTemplate.id);
this->downLink = this->upLink;
}
uniqueId++;