return (src_coord - dst_coord) * (src_coord - dst_coord);
}
-static std::vector<double>* getCoordsFromNetpoint(NetPoint* np)
+static std::vector<double>* netpoint_get_coords(NetPoint* np)
{
simgrid::kernel::routing::vivaldi::Coords* coords = np->extension<simgrid::kernel::routing::vivaldi::Coords>();
xbt_assert(coords, "Please specify the Vivaldi coordinates of %s %s (%p)",
return &coords->coords;
}
-VivaldiZone::VivaldiZone(NetZone* father, std::string name) : ClusterZone(father, name)
-{
-}
+VivaldiZone::VivaldiZone(NetZoneImpl* father, std::string name) : ClusterZone(father, name) {}
-void VivaldiZone::setPeerLink(NetPoint* netpoint, double bw_in, double bw_out, std::string coord)
+void VivaldiZone::set_peer_link(NetPoint* netpoint, double bw_in, double bw_out, std::string coord)
{
xbt_assert(netpoint->get_englobing_zone() == this,
"Cannot add a peer link to a netpoint that is not in this netzone");
/* Compute the extra latency due to the euclidean distance if needed */
if (lat) {
- std::vector<double>* srcCoords = getCoordsFromNetpoint(src);
- std::vector<double>* dstCoords = getCoordsFromNetpoint(dst);
+ std::vector<double>* srcCoords = netpoint_get_coords(src);
+ std::vector<double>* dstCoords = netpoint_get_coords(dst);
double euclidean_dist =
sqrt(euclidean_dist_comp(0, srcCoords, dstCoords) + euclidean_dist_comp(1, srcCoords, dstCoords)) +