namespace kernel {
namespace routing {
-FatTreeZone::~FatTreeZone()
-{
- for (FatTreeNode const* node : this->nodes_)
- delete node;
- for (FatTreeLink const* link : this->links_)
- delete link;
-}
-
-bool FatTreeZone::is_in_sub_tree(FatTreeNode* root, FatTreeNode* node) const
+bool FatTreeZone::is_in_sub_tree(const FatTreeNode* root, const FatTreeNode* node) const
{
XBT_DEBUG("Is %d(%u,%u) in the sub tree of %d(%u,%u) ?", node->id, node->level, node->position, root->id, root->level,
root->position);
return true;
}
-void FatTreeZone::get_local_route(NetPoint* src, NetPoint* dst, Route* into, double* latency)
+void FatTreeZone::get_local_route(const NetPoint* src, const NetPoint* dst, Route* into, double* latency)
{
if (dst->is_router() || src->is_router())
return;
/* Let's find the source and the destination in our internal structure */
auto searchedNode = this->compute_nodes_.find(src->id());
- xbt_assert(searchedNode != this->compute_nodes_.end(), "Could not find the source %s [%u] in the fat tree",
+ xbt_assert(searchedNode != this->compute_nodes_.end(), "Could not find the source %s [%lu] in the fat tree",
src->get_cname(), src->id());
- FatTreeNode* source = searchedNode->second;
+ const FatTreeNode* source = searchedNode->second.get();
searchedNode = this->compute_nodes_.find(dst->id());
- xbt_assert(searchedNode != this->compute_nodes_.end(), "Could not find the destination %s [%u] in the fat tree",
+ xbt_assert(searchedNode != this->compute_nodes_.end(), "Could not find the destination %s [%lu] in the fat tree",
dst->get_cname(), dst->id());
- FatTreeNode* destination = searchedNode->second;
+ const FatTreeNode* destination = searchedNode->second.get();
- XBT_VERB("Get route and latency from '%s' [%u] to '%s' [%u] in a fat tree", src->get_cname(), src->id(),
+ XBT_VERB("Get route and latency from '%s' [%lu] to '%s' [%lu] in a fat tree", src->get_cname(), src->id(),
dst->get_cname(), 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 && has_loopback()) {
- into->link_list_.push_back(source->loopback_);
- if (latency)
- *latency += source->loopback_->get_latency();
+ add_link_latency(into->link_list_, source->loopback_, latency);
return;
}
- FatTreeNode* currentNode = source;
+ const FatTreeNode* currentNode = source;
// up part
while (not is_in_sub_tree(currentNode, destination)) {
if (currentNode->limiter_link_)
into->link_list_.push_back(currentNode->limiter_link_);
- into->link_list_.push_back(currentNode->parents[d]->up_link_);
-
- if (latency)
- *latency += currentNode->parents[d]->up_link_->get_latency();
+ add_link_latency(into->link_list_, currentNode->parents[d]->up_link_, latency);
currentNode = currentNode->parents[d]->up_node_;
}
while (currentNode != destination) {
for (unsigned int i = 0; i < currentNode->children.size(); i++) {
if (i % this->num_children_per_node_[currentNode->level - 1] == destination->label[currentNode->level - 1]) {
-
- into->link_list_.push_back(currentNode->children[i]->down_link_);
+ add_link_latency(into->link_list_, currentNode->children[i]->down_link_, latency);
if (currentNode->limiter_link_)
into->link_list_.push_back(currentNode->limiter_link_);
- if (latency)
- *latency += currentNode->children[i]->down_link_->get_latency();
currentNode = currentNode->children[i]->down_node_;
XBT_DEBUG("%d(%u,%u) is accessible through %d(%u,%u)", destination->id, destination->level,
destination->position, currentNode->id, currentNode->level, currentNode->position);
// Nodes are totally ordered, by level and then by position, in this->nodes
for (unsigned int i = 0; i < levels_; i++) {
for (unsigned int j = 0; j < nodes_by_level_[i]; j++) {
- connect_node_to_parents(nodes_[k]);
+ connect_node_to_parents(nodes_[k].get());
k++;
}
}
msgBuffer.str("");
msgBuffer << "Nodes are : ";
- for (FatTreeNode const* node : this->nodes_) {
+ for (auto const& node : this->nodes_) {
msgBuffer << node->id << "(" << node->level << "," << node->position << ") ";
}
XBT_DEBUG("%s", msgBuffer.str().c_str());
msgBuffer.clear();
msgBuffer << "Links are : ";
- for (FatTreeLink const* link : this->links_) {
+ for (auto const& link : this->links_) {
msgBuffer << "(" << link->up_node_->id << "," << link->down_node_->id << ") ";
}
XBT_DEBUG("%s", msgBuffer.str().c_str());
XBT_DEBUG("We are connecting node %d(%u,%u) to his parents.", node->id, node->level, node->position);
currentParentNode += this->get_level_position(level + 1);
for (unsigned int i = 0; i < this->nodes_by_level_[level + 1]; i++) {
- if (this->are_related(*currentParentNode, node)) {
+ if (this->are_related(currentParentNode->get(), node)) {
XBT_DEBUG("%d(%u,%u) and %d(%u,%u) are related,"
" with %u links between them.",
node->id, node->level, node->position, (*currentParentNode)->id, (*currentParentNode)->level,
(*currentParentNode)->position, this->num_port_lower_level_[level]);
for (unsigned int j = 0; j < this->num_port_lower_level_[level]; j++) {
- this->add_link(*currentParentNode, node->label[level] + j * this->num_children_per_node_[level], node,
+ this->add_link(currentParentNode->get(), node->label[level] + j * this->num_children_per_node_[level], node,
(*currentParentNode)->label[level] + j * this->num_parents_per_node_[level]);
}
connectionsNumber++;
this->nodes_by_level_[i + 1] = nodesInThisLevel;
}
- // Create the switches
- int k = 0;
- for (unsigned int i = 0; i < this->levels_; i++) {
- for (unsigned int j = 0; j < this->nodes_by_level_[i + 1]; j++) {
- kernel::resource::LinkImpl* limiter = nullptr;
- int id = --k;
- if (set_callbacks.limiter) {
- auto* s4u_link = set_callbacks.limiter(get_iface(), {i + 1, j}, id);
- if (s4u_link)
- limiter = s4u_link->get_impl();
+ /* get limiter for this router */
+ auto get_limiter = [this, &set_callbacks](unsigned long i, unsigned long j, long id) -> resource::LinkImpl* {
+ kernel::resource::LinkImpl* limiter = nullptr;
+ if (set_callbacks.limiter) {
+ const auto* s4u_link = set_callbacks.limiter(get_iface(), {i + 1, j}, id);
+ if (s4u_link) {
+ limiter = s4u_link->get_impl();
}
- auto* newNode = new FatTreeNode(id, i + 1, j, limiter, nullptr);
+ }
+ return limiter;
+ };
+ // Create the switches
+ unsigned long k = 2 * nodes_.size();
+ for (unsigned long i = 0; i < this->levels_; i++) {
+ for (unsigned long j = 0; j < this->nodes_by_level_[i + 1]; j++) {
+ k--;
+ auto newNode = std::make_shared<FatTreeNode>(k, i + 1, j, get_limiter(i, j, k), nullptr);
XBT_DEBUG("We create the switch %d(%u,%u)", newNode->id, newNode->level, newNode->position);
- newNode->children.resize(this->num_children_per_node_[i] * this->num_port_lower_level_[i]);
+ newNode->children.resize(static_cast<size_t>(this->num_children_per_node_[i]) * this->num_port_lower_level_[i]);
if (i != this->levels_ - 1) {
- newNode->parents.resize(this->num_parents_per_node_[i + 1] * this->num_port_lower_level_[i + 1]);
+ newNode->parents.resize(static_cast<size_t>(this->num_parents_per_node_[i + 1]) *
+ this->num_port_lower_level_[i + 1]);
}
newNode->label.resize(this->levels_);
- this->nodes_.push_back(newNode);
+ this->nodes_.emplace_back(newNode);
}
}
}
{
using std::make_pair;
static int position = 0;
- auto* newNode = new FatTreeNode(id, 0, position++, limiter, loopback);
- newNode->parents.resize(this->num_parents_per_node_[0] * this->num_port_lower_level_[0]);
+ auto newNode = std::make_shared<FatTreeNode>(id, 0, position, limiter, loopback);
+ position++;
+ newNode->parents.resize(static_cast<size_t>(this->num_parents_per_node_[0]) * this->num_port_lower_level_[0]);
newNode->label.resize(this->levels_);
this->compute_nodes_.insert(make_pair(id, newNode));
- this->nodes_.push_back(newNode);
+ this->nodes_.emplace_back(newNode);
}
void FatTreeZone::add_link(FatTreeNode* parent, unsigned int parentPort, FatTreeNode* child, unsigned int childPort)
"link_from_" + std::to_string(child->id) + "_" + std::to_string(parent->id) + "_" + std::to_string(uniqueId);
if (get_link_sharing_policy() == s4u::Link::SharingPolicy::SPLITDUPLEX) {
- linkup =
- create_link(id + "_UP", std::vector<double>{get_link_bandwidth()})->set_latency(get_link_latency())->seal();
- linkdown =
- create_link(id + "_DOWN", std::vector<double>{get_link_bandwidth()})->set_latency(get_link_latency())->seal();
+ linkup = create_link(id + "_UP", {get_link_bandwidth()})->set_latency(get_link_latency())->seal();
+ linkdown = create_link(id + "_DOWN", {get_link_bandwidth()})->set_latency(get_link_latency())->seal();
} else {
- linkup = create_link(id, std::vector<double>{get_link_bandwidth()})->set_latency(get_link_latency())->seal();
+ linkup = create_link(id, {get_link_bandwidth()})->set_latency(get_link_latency())->seal();
linkdown = linkup;
}
uniqueId++;
- auto* newLink = new FatTreeLink(child, parent, linkup->get_impl(), linkdown->get_impl());
+ auto newLink = std::make_shared<FatTreeLink>(child, parent, linkup->get_impl(), linkdown->get_impl());
XBT_DEBUG("Creating a link between the parent (%u,%u,%u) and the child (%u,%u,%u)", parent->level, parent->position,
parentPort, child->level, child->position, childPort);
parent->children[parentPort] = newLink;
child->parents[childPort] = newLink;
- this->links_.push_back(newLink);
+ this->links_.emplace_back(newLink);
}
void FatTreeZone::check_topology(unsigned int n_levels, const std::vector<unsigned int>& down_links,
xbt_assert(file.is_open(), "Unable to open file %s", filename.c_str());
file << "graph AsClusterFatTree {\n";
- for (FatTreeNode const* node : this->nodes_) {
+ for (auto const& node : this->nodes_) {
file << node->id;
if (node->id < 0)
file << " [shape=circle];\n";
file << " [shape=hexagon];\n";
}
- for (FatTreeLink const* link : this->links_) {
+ for (auto const& link : this->links_) {
file << link->down_node_->id << " -- " << link->up_node_->id << ";\n";
}
file << "}";