int main(int argc, char **argv)
{
ConfigKeeper * cfg = ConfigKeeper::inst();
if (!cfg->processCmdLine(argc, argv))
{
return 1; // exit early
}
cout << cfg->getNodes() << " " << cfg->getNetworks() << " ";
cout << cfg->getSysPeriodSecs() << " " << cfg->getOutfileName() << endl;
NetGraph ng;
ng.print();
return 0;
}
NetGraph::NetGraph() : _ng( ConfigKeeper::inst()->getNetworks() + ConfigKeeper::inst()->getNodes())
{
ConfigKeeper * cfg = ConfigKeeper::inst();
// The general idea...
// Create the proper number of networks and nodes
unsigned long idx;
cout << "Creating nodes and nets..." << endl;
for ( idx = 0; idx < cfg->getNetworks(); idx++ )
{
_nets_nodes.push_back( new Net(idx) );
}
for ( ; idx < cfg->getNetworks() + cfg->getNodes(); idx++ )
{
_nets_nodes.push_back( new Node(idx) );
}
// Take the list of nodes and connect each one to at least one bus
unsigned long nidx;
cout << "Connecting nodes to nets..." << endl;
if ( cfg->getNetworks() > 0 )
{
for (nidx = cfg->getNetworks(); nidx < cfg->getNetworks() + cfg->getNodes(); nidx++)
{
cout << "Network " << nidx << ": ";
// For the vertex, select a number of nets to connect to and
// then make a list of them
unsigned long numnets = _rnd.chooseInt(1, cfg->getMaxNetsPerNode());
cout << numnets << " nets " << endl;
std::vector< long > nets = _rnd.chooseInts(0, cfg->getNetworks()-1, numnets);
for ( unsigned long eidx = 0; eidx < numnets; eidx++ )
{
cout << " connecting (" << nidx << "," << nets[eidx] << ")" << endl;
add_edge(nidx, nets[eidx], _ng);
}
cout << endl;
}
cout << endl;
}
// Continue adding node/bus edges until the whole graph is connected
/*std::vector<size_type> rank(num_vertices(_ng));
std::vector<NetworkVertex> parent(num_vertices(_ng));
typedef size_type* Rank;
typedef NetworkVertex* Parent;
disjoint_sets<Rank, Parent> ds(&rank[0], &parent[0]);
initialize_incremental_components(_ng, ds);
incremental_components(_ng, ds);
// Make a single connected component
// @todo -- come back and look at cleaning this up:
// The graph structure isn't using the type system.
// This will not be quite as random as it should be.
// For now we'll check and warn
if ( ds.count_sets() > 1)
cout << "The generated network is not connected!!! (" << ds.count_sets() << " comps)" << endl;
/*while ( ds.count_sets() > 1 )
{
NetworkVertex vn1 = parent[ds.count_sets()-1];
NetworkVertex vn2 = parent[ds.count_sets()-2];
NetworkVertex
} */
// Create a random number of tasks per processor
cout << "Creating random tasks..." << endl;
std::vector< double > dividers;
dividers.push_back(1.0);
dividers.push_back(2.0);
dividers.push_back(4.0);
unsigned long tidx = 0;
// Counterintuitive syntax -- we're iterating over nodes
for (nidx = cfg->getNetworks(); nidx < cfg->getNetworks() + cfg->getNodes(); nidx++)
{
unsigned long numtasks = _rnd.chooseInt(1, cfg->getMaxTasksPerNode());
cout << "Node " << nidx << ": " << numtasks << endl;
for ( idx = 0; idx < numtasks; idx++ )
{
Task t(tidx++, nidx);
cout << "p";
t._periodSecs = cfg->getSysPeriodSecs() / _rnd.chooseFromList(dividers);
cout << "w";
// Get a reasonable task exec length
double res = cfg->getSysResolutionSecs();
t._wcetSecs = max( t._periodSecs * _rnd.chooseDouble(cfg->getMinTaskUtil(), cfg->getMaxTaskUtil()),
res );
cout << "c";
Node * n = dynamic_cast<Node *>(_nets_nodes[nidx]);
cout << "r";
t._parent = n->id;
cout << "t";
n->_tasks.push_back(t);
_tasks.push_back(t);
cout << " added task " << t.id << " pd " << t._periodSecs << " et " << t._wcetSecs << " p " << t._parent << endl;
//add_vertex(t.id, _tg);
}
}
cout << "Creating subgraph structure..." << endl;
_tg = new TaskGraph(_tasks.size());
cout << "Creating subgraphs..." << endl;
for ( unsigned long bidx = 0; bidx < cfg->getNetworks(); bidx++ )
{
_tg_subs.push_back(_tg->create_subgraph());
}
cout << "Finished creating subgraph structure." << endl;
// Iterate over the buses...
typedef graph_traits<NetworkGraph> GraphTraits;
property_map<NetworkGraph, vertex_index_t>::type vindex = get(vertex_index, _ng);
graph_traits<NetworkGraph>::adjacency_iterator ai;
graph_traits<NetworkGraph>::adjacency_iterator ai_end;
cout << "Creating task dependencies..." << endl;
unsigned long bidx;
for ( bidx = 0; bidx < cfg->getNetworks(); bidx++ )
{
// Create a random graph between the tasks visible to that bus
// (it could have almost any properties we want)
// Get the nodes for this bus
//_tg_subs[bidx] = _tg.create_subgraph();
for ( boost::tuples::tie(ai, ai_end) = adjacent_vertices(bidx, _ng); ai != ai_end; ++ai)
{
// Get the tasks for this node
Node * n = dynamic_cast<Node *>(_nets_nodes[vindex[*ai]]);
for ( std::vector<Task>::iterator pT = n->_tasks.begin(); pT != n->_tasks.end(); pT++)
{
add_vertex( pT->id, _tg_subs[bidx] );
}
}
// Create a random graph using those tasks, and store a message length
double p = cfg->getMsgProb();
graph_traits<TaskGraph>::vertex_iterator vi, vi_end;
graph_traits<TaskGraph>::vertex_iterator vi2, vi2_end;
for ( boost::tuples::tie(vi, vi_end) = vertices(_tg_subs[bidx]); vi != vi_end; ++vi)
{
for ( boost::tuples::tie(vi2, vi2_end) = vertices(_tg_subs[bidx]); vi2 != vi2_end; ++vi2 )
{
if ( vi == vi2 )
continue;
if ( _rnd.choose(p) )
{
unsigned long msgln = _rnd.chooseInt(cfg->getMinMsgBytes(), cfg->getMaxMsgBytes());
ostringstream msgtag;
msgtag << bidx << "," << vindex[*vi] << "," << vindex[*vi2];
cout << "Adding " << msgtag.str() << " with length " << msgln << endl;
_tasks[vindex[*vi]]._msg_lengths[msgtag.str()] = msgln;
add_edge(*vi, *vi2, _tg_subs[bidx]);
}
}
}
}
cout << "Creation finished." << endl;
}
// Output
bool NetGraph::print()
{
cout << "Generating schedule file..." << endl;
ConfigKeeper * cfg = ConfigKeeper::inst();
ostringstream out;
out << "% Schedule Generated by Tester" << endl;
time_t tsecs;
time( &tsecs );
struct tm * timeinfo;
timeinfo = localtime( &tsecs );
char timestr[50];
strftime(timestr, 99, "%H:%M:%S %a, %b %d, %Y", timeinfo);
//out << "% at " << timestr << endl << endl;
out << "Resolution " << fixed << cfg->getSysResolutionSecs() << "s" << endl << endl;
std::vector< SystemObject * >::iterator nidx;
for ( nidx = _nets_nodes.begin() + cfg->getNetworks(); nidx != _nets_nodes.end(); nidx++ )
{
Node * n = dynamic_cast< Node * >(*nidx);
out << "Proc P" << n->id << " 100MHz 0s 0s" << endl;
std::vector< Task >::iterator pTsk;
for ( pTsk = n->_tasks.begin(); pTsk != n->_tasks.end(); pTsk++ )
{
double freq = 1.0;
if ( (*pTsk)._periodSecs > 1.0e-12 )
{
freq = 1.0 / (*pTsk)._periodSecs;
}
out << "Comp C" << (*pTsk).id << " =" << freq << "Hz " << (*pTsk)._wcetSecs << "s" << endl;
}
out << endl;
}
unsigned long nnet, midx = 1;
for ( nidx = _nets_nodes.begin(), nnet = 0; nnet < cfg->getNetworks(); nidx++, nnet++ )
{
Net * n = dynamic_cast< Net * >(*nidx);
out << "Bus B" << n->id << " 1Mb 0s" << endl;
// subgraph: _tg_subs[nnet]
typedef property_map<TaskGraph, vertex_index_t>::type IndexMap;
IndexMap index = get(vertex_index, _tg_subs[nnet]);
graph_traits< TaskGraph >::edge_iterator ei, ei_end;
for ( boost::tuples::tie(ei, ei_end) = edges(_tg_subs[nnet]); ei != ei_end; ++ei )
{
unsigned long t1idx = index[source(*ei, _tg_subs[nnet])];
unsigned long t2idx = index[target(*ei, _tg_subs[nnet])];
Task * t1 = &_tasks[t1idx];
Task * t2 = &_tasks[t2idx];
ostringstream msgtag;
msgtag << nnet << "," << t1idx << "," << t2idx;
std::map< std::string, unsigned long >::iterator msgln = t1->_msg_lengths.find(msgtag.str());
// @todo: This is a bad hack -- change to eliminate the subgraph structure. It's not what we need.
if ( msgln != (t1->_msg_lengths).end())
{
cout << "Retrieving tag " << msgtag.str() << " with length " << t1->_msg_lengths[msgtag.str()] << endl;
out << "Msg M" << midx++ << " " << t1->_msg_lengths[msgtag.str()] << "B ";
out << "P" << t1->_parent << "/" << "C" << t1->id << " ";
out << "P" << t2->_parent << "/" << "C" << t2->id << " " << endl;
}
}
out << endl;
}
// Write it out to a file
std::string filename(ConfigKeeper::inst()->getOutfileName());
ofstream ofile( filename.c_str() );
ofile << out.str();
ofile.close();
//SchedGen sg(std::string("TestDesign"));
cout << "File generated." << endl;
return false;
}
