void tearDown() {
for(int i = 0; i < 2; i++)
_storage->releaseBucket(_buckets[i]);
delete _work;
_work = NULL;
_ctx->shutdown();
_trace->prepareShutdown();
delete _storage;
_storage = NULL;
delete _ctx;
_ctx = NULL;
_trace->shutdown();
delete _trace;
_trace = NULL;
delete _sstConnMgr;
_sstConnMgr = NULL;
delete _ohSSTConnMgr;
_ohSSTConnMgr = NULL;
delete _mainStrand;
_mainStrand = NULL;
delete _ios;
_ios = NULL;
}
int main(int argc, char** argv) {
using namespace Sirikata;
InitOptions();
Trace::Trace::InitOptions();
OHTrace::InitOptions();
InitSimOHOptions();
ParseOptions(argc, argv);
PluginManager plugins;
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_OH_PLUGINS) );
String trace_file = GetPerServerFile(STATS_OH_TRACE_FILE, 1);
Trace::Trace* gTrace = new Trace::Trace(trace_file);
BoundingBox3f region = GetOptionValue<BoundingBox3f>("region");
Duration duration = GetOptionValue<Duration>("duration");
// Get the starting time
Time start_time = Timer::now();
srand( GetOptionValue<uint32>("rand-seed") );
Network::IOService* ios = Network::IOServiceFactory::makeIOService();
Network::IOStrand* mainStrand = ios->createStrand();
ObjectHostContext* ctx = new ObjectHostContext(ObjectHostID(1), ios, mainStrand, gTrace, start_time, duration);
ObjectFactory* obj_factory = new ObjectFactory(ctx, region, duration);
// Nothing actually runs here -- we only cared about getting the
// object factory setup so it could dump the object pack data.
gTrace->prepareShutdown();
delete obj_factory;
delete ctx;
gTrace->shutdown();
delete gTrace;
gTrace = NULL;
delete mainStrand;
Network::IOServiceFactory::destroyIOService(ios);
return 0;
}
bool simulation::match_trace(trace::Trace& trace)
{
state_t& current = m_full_trace.back();
lps::multi_action action = trace.currentAction();
trace.increasePosition();
for (size_t i = 0; i < current.transitions.size(); ++i)
{
if (current.transitions[i].action == action &&
(!trace.current_state_exists() ||
current.transitions[i].destination == trace.currentState()))
{
current.transition_number = i;
push_back(trace.currentState());
if (trace.getPosition() == trace.number_of_actions() || match_trace(trace))
{
return true;
}
m_full_trace.pop_back();
}
}
return false;
}
int main(int argc, char** argv) {
using namespace Sirikata;
DynamicLibrary::Initialize();
InitOptions();
Trace::Trace::InitOptions();
OHTrace::InitOptions();
InitSimOHOptions();
ParseOptions(argc, argv);
PluginManager plugins;
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_OH_PLUGINS) );
// Fill defaults after plugin loading to ensure plugin-added
// options get their defaults.
FillMissingOptionDefaults();
// Rerun original parse to make sure any newly added options are
// properly parsed.
ParseOptions(argc, argv);
ReportVersion(); // After options so log goes to the right place
std::string time_server=GetOptionValue<String>("time-server");
NTPTimeSync sync;
if (time_server.size() > 0)
sync.start(time_server);
ObjectHostID oh_id = GetOptionValue<ObjectHostID>("ohid");
String trace_file = GetPerServerFile(STATS_OH_TRACE_FILE, oh_id);
Trace::Trace* gTrace = new Trace::Trace(trace_file);
MaxDistUpdatePredicate::maxDist = GetOptionValue<float64>(MAX_EXTRAPOLATOR_DIST);
BoundingBox3f region = GetOptionValue<BoundingBox3f>("region");
Vector3ui32 layout = GetOptionValue<Vector3ui32>("layout");
Duration duration = GetOptionValue<Duration>("duration");
// Get the starting time
String start_time_str = GetOptionValue<String>("wait-until");
Time start_time = start_time_str.empty() ? Timer::now() : Timer::getSpecifiedDate( start_time_str );
start_time += GetOptionValue<Duration>("wait-additional");
srand( GetOptionValue<uint32>("rand-seed") );
Network::IOService* ios = Network::IOServiceFactory::makeIOService();
Network::IOStrand* mainStrand = ios->createStrand();
ODPSST::ConnectionManager* sstConnMgr = new ODPSST::ConnectionManager();
OHDPSST::ConnectionManager* ohSSTConnMgr = new OHDPSST::ConnectionManager();
ObjectHostContext* ctx = new ObjectHostContext("simoh", oh_id, sstConnMgr, ohSSTConnMgr, ios, mainStrand, gTrace, start_time, duration);
String servermap_type = GetOptionValue<String>("servermap");
String servermap_options = GetOptionValue<String>("servermap-options");
ServerIDMap * server_id_map =
ServerIDMapFactory::getSingleton().getConstructor(servermap_type)(ctx, servermap_options);
String timeseries_type = GetOptionValue<String>(OPT_TRACE_TIMESERIES);
String timeseries_options = GetOptionValue<String>(OPT_TRACE_TIMESERIES_OPTIONS);
Trace::TimeSeries* time_series = Trace::TimeSeriesFactory::getSingleton().getConstructor(timeseries_type)(ctx, timeseries_options);
ObjectFactory* obj_factory = new ObjectFactory(ctx, region, duration);
ObjectHost* obj_host = new ObjectHost(ctx, gTrace, server_id_map);
Scenario* scenario = ScenarioFactory::getSingleton().getConstructor(GetOptionValue<String>("scenario"))(GetOptionValue<String>("scenario-options"));
// If we're one of the initial nodes, we'll have to wait until we hit the start time
{
Time now_time = Timer::now();
if (start_time > now_time) {
Duration sleep_time = start_time - now_time;
printf("Waiting %f seconds\n", sleep_time.toSeconds() ); fflush(stdout);
#if SIRIKATA_PLATFORM == SIRIKATA_WINDOWS
Sleep( sleep_time.toMilliseconds() );
#else
usleep( sleep_time.toMicroseconds() );
#endif
}
}
///////////Go go go!! start of simulation/////////////////////
ctx->add(ctx);
ctx->add(obj_factory);
scenario->initialize(ctx);
ctx->add(scenario);
ctx->add(sstConnMgr);
ctx->add(ohSSTConnMgr);
ctx->run(2);
ctx->cleanup();
if (GetOptionValue<bool>(PROFILE)) {
ctx->profiler->report();
}
gTrace->prepareShutdown();
delete server_id_map;
delete obj_factory;
delete scenario;
delete obj_host;
delete ctx;
delete sstConnMgr;
delete ohSSTConnMgr;
delete time_series;
gTrace->shutdown();
delete gTrace;
gTrace = NULL;
delete mainStrand;
Network::IOServiceFactory::destroyIOService(ios);
sync.stop();
Sirikata::Logging::finishLog();
return 0;
}
int main (int argc, char** argv) {
using namespace Sirikata;
DynamicLibrary::Initialize();
InitOptions();
Trace::Trace::InitOptions();
OHTrace::InitOptions();
InitCPPOHOptions();
ParseOptions(argc, argv, OPT_CONFIG_FILE, AllowUnregisteredOptions);
PluginManager plugins;
String search_path=GetOptionValue<String>(OPT_OH_PLUGIN_SEARCH_PATHS);
if (search_path.length()) {
while (true) {
String::size_type where=search_path.find(":");
if (where==String::npos) {
DynamicLibrary::AddLoadPath(search_path);
break;
}else {
DynamicLibrary::AddLoadPath(search_path.substr(0,where));
search_path=search_path.substr(where+1);
}
}
}
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_EXTRA_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_OH_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_OH_EXTRA_PLUGINS) );
// Fill defaults after plugin loading to ensure plugin-added
// options get their defaults.
FillMissingOptionDefaults();
// Rerun original parse to make sure any newly added options are
// properly parsed.
ParseOptions(argc, argv, OPT_CONFIG_FILE);
DaemonizeAndSetOutputs();
ReportVersion(); // After options so log goes to the right place
String time_server = GetOptionValue<String>("time-server");
NTPTimeSync sync;
if (time_server.size() > 0)
sync.start(time_server);
#ifdef __GNUC__
#ifndef __APPLE__
if (GetOptionValue<bool>(OPT_SIGFPE)) {
feenableexcept(FE_DIVBYZERO|FE_INVALID|FE_OVERFLOW|FE_UNDERFLOW);
}
#endif
#endif
ObjectHostID oh_id = GetOptionValue<ObjectHostID>("ohid");
String trace_file = GetPerServerFile(STATS_OH_TRACE_FILE, oh_id);
Trace::Trace* trace = new Trace::Trace(trace_file);
srand( GetOptionValue<uint32>("rand-seed") );
Network::IOService* ios = new Network::IOService("Object Host");
Network::IOStrand* mainStrand = ios->createStrand("Object Host Main");
ODPSST::ConnectionManager* sstConnMgr = new ODPSST::ConnectionManager();
OHDPSST::ConnectionManager* ohSstConnMgr = new OHDPSST::ConnectionManager();
Time start_time = Timer::now(); // Just for stats in ObjectHostContext.
Duration duration = Duration::zero(); // Indicates to run forever.
ObjectHostContext* ctx = new ObjectHostContext("cppoh", oh_id, sstConnMgr, ohSstConnMgr, ios, mainStrand, trace, start_time, duration);
String servermap_type = GetOptionValue<String>("servermap");
String servermap_options = GetOptionValue<String>("servermap-options");
ServerIDMap * server_id_map =
ServerIDMapFactory::getSingleton().getConstructor(servermap_type)(ctx, servermap_options);
String timeseries_type = GetOptionValue<String>(OPT_TRACE_TIMESERIES);
String timeseries_options = GetOptionValue<String>(OPT_TRACE_TIMESERIES_OPTIONS);
Trace::TimeSeries* time_series = Trace::TimeSeriesFactory::getSingleton().getConstructor(timeseries_type)(ctx, timeseries_options);
String commander_type = GetOptionValue<String>(OPT_COMMAND_COMMANDER);
String commander_options = GetOptionValue<String>(OPT_COMMAND_COMMANDER_OPTIONS);
Command::Commander* commander = NULL;
if (!commander_type.empty())
commander = Command::CommanderFactory::getSingleton().getConstructor(commander_type)(ctx, commander_options);
Transfer::TransferMediator::getSingleton().registerContext(ctx);
SpaceID mainSpace(GetOptionValue<UUID>(OPT_MAIN_SPACE));
String oh_options = GetOptionValue<String>(OPT_OH_OPTIONS);
ObjectHost *oh = new CppohObjectHost(ctx, ios, oh_options);
// Add all the spaces to the ObjectHost. We used to have SpaceIDMap and
// fill in the same ServerIDMap for all these. Now we just add the
// ServerIDMap for the main space. We need a better way of handling multiple
// spaces.
oh->addServerIDMap(mainSpace, server_id_map);
String objstorage_type = GetOptionValue<String>(OPT_OBJECT_STORAGE);
String objstorage_options = GetOptionValue<String>(OPT_OBJECT_STORAGE_OPTS);
OH::Storage* obj_storage =
OH::StorageFactory::getSingleton().getConstructor(objstorage_type)(ctx, objstorage_options);
oh->setStorage(obj_storage);
String objpersistentset_type = GetOptionValue<String>(OPT_OH_PERSISTENT_SET);
String objpersistentset_options = GetOptionValue<String>(OPT_OH_PERSISTENT_SET_OPTS);
OH::PersistedObjectSet* obj_persistent_set =
OH::PersistedObjectSetFactory::getSingleton().getConstructor(objpersistentset_type)(ctx, objpersistentset_options);
oh->setPersistentSet(obj_persistent_set);
String objfactory_type = GetOptionValue<String>(OPT_OBJECT_FACTORY);
String objfactory_options = GetOptionValue<String>(OPT_OBJECT_FACTORY_OPTS);
ObjectFactory* obj_factory = NULL;
String obj_query_type = GetOptionValue<String>(OPT_OBJECT_QUERY_PROCESSOR);
String obj_query_options = GetOptionValue<String>(OPT_OBJECT_QUERY_PROCESSOR_OPTS);
OH::ObjectQueryProcessor* obj_query_processor =
OH::ObjectQueryProcessorFactory::getSingleton().getConstructor(obj_query_type)(ctx, obj_query_options);
oh->setQueryProcessor(obj_query_processor);
String query_data_type = GetOptionValue<String>(OPT_OBJECT_QUERY_DATA);
String query_data_type_opts = GetOptionValue<String>(OPT_OBJECT_QUERY_DATA_OPTS);
if (query_data_type != "") {
assert(QueryDataLookupFactory::getSingleton().hasConstructor(query_data_type));
oh->setQueryDataLookupConstructor(QueryDataLookupFactory::getSingleton().getConstructor(query_data_type), query_data_type_opts);
}
///////////Go go go!! start of simulation/////////////////////
ctx->add(ctx);
ctx->add(obj_storage);
ctx->add(obj_persistent_set);
ctx->add(obj_query_processor);
ctx->add(oh);
ctx->add(sstConnMgr);
ctx->add(ohSstConnMgr);
if (!objfactory_type.empty())
{
obj_factory = ObjectFactoryFactory::getSingleton().getConstructor(objfactory_type)(ctx, oh, mainSpace, objfactory_options);
obj_factory->generate();
}
ctx->run(1);
ctx->cleanup();
if (GetOptionValue<bool>(PROFILE)) {
ctx->profiler->report();
}
trace->prepareShutdown();
Mesh::FilterFactory::destroy();
ModelsSystemFactory::destroy();
ObjectScriptManagerFactory::destroy();
delete oh;
delete obj_storage;
delete obj_persistent_set;
SimulationFactory::destroy();
delete commander;
delete ctx;
delete time_series;
trace->shutdown();
delete trace;
trace = NULL;
delete mainStrand;
delete ios;
delete sstConnMgr;
delete ohSstConnMgr;
Transfer::TransferMediator::destroy();
plugins.gc();
sync.stop();
Sirikata::Logging::finishLog();
DaemonCleanup();
return 0;
}
int main(int argc, char** argv) {
using namespace Sirikata;
DynamicLibrary::Initialize();
InitOptions();
Trace::Trace::InitOptions();
InitCSegOptions();
ParseOptions(argc, argv);
PluginManager plugins;
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS));
plugins.loadList( GetOptionValue<String>(OPT_EXTRA_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_CSEG_PLUGINS));
// Fill defaults after plugin loading to ensure plugin-added
// options get their defaults.
FillMissingOptionDefaults();
// Rerun original parse to make sure any newly added options are
// properly parsed.
ParseOptions(argc, argv);
ReportVersion(); // After options so log goes to the right place
ServerID server_id = GetOptionValue<ServerID>("cseg-id");
String trace_file = GetPerServerFile(STATS_TRACE_FILE, server_id);
Trace::Trace* trace = new Trace::Trace(trace_file);
// Compute the starting date/time
String start_time_str = GetOptionValue<String>("wait-until");
Time start_time = start_time_str.empty() ? Timer::now() : Timer::getSpecifiedDate( start_time_str );
Duration duration = GetOptionValue<Duration>("duration")
+ GetOptionValue<Duration>("additional-cseg-duration")
+ GetOptionValue<Duration>("wait-additional");
Network::IOService* ios = new Network::IOService("CSeg");
Network::IOStrand* mainStrand = ios->createStrand("CSeg Main");
CSegContext* cseg_context = new CSegContext(server_id, ios, mainStrand, trace, start_time, duration);
String timeseries_type = GetOptionValue<String>(OPT_TRACE_TIMESERIES);
String timeseries_options = GetOptionValue<String>(OPT_TRACE_TIMESERIES_OPTIONS);
Trace::TimeSeries* time_series = Trace::TimeSeriesFactory::getSingleton().getConstructor(timeseries_type)(cseg_context, timeseries_options);
BoundingBox3f region = GetOptionValue<BoundingBox3f>("region");
Vector3ui32 layout = GetOptionValue<Vector3ui32>("layout");
uint32 max_space_servers = GetOptionValue<uint32>("max-servers");
if (max_space_servers == 0)
max_space_servers = layout.x * layout.y * layout.z;
srand( GetOptionValue<uint32>("rand-seed") );
String servermap_type = GetOptionValue<String>("servermap");
String servermap_options = GetOptionValue<String>("cseg-servermap-options");
ServerIDMap * server_id_map =
ServerIDMapFactory::getSingleton().getConstructor(servermap_type)(cseg_context, servermap_options);
DistributedCoordinateSegmentation* cseg = new DistributedCoordinateSegmentation(cseg_context, region, layout, max_space_servers, server_id_map);
///////////Go go go!! start of simulation/////////////////////
srand(time(NULL));
cseg_context->add(cseg_context);
cseg_context->add(cseg);
cseg_context->run(2);
std::cout << "CSEG cleaning up\n";
fflush(stdout);
cseg_context->cleanup();
if (GetOptionValue<bool>(PROFILE)) {
cseg_context->profiler->report();
}
trace->prepareShutdown();
delete cseg;
trace->shutdown();
delete trace;
trace = NULL;
delete cseg_context;
cseg_context = NULL;
delete time_series;
delete mainStrand;
delete ios;
plugins.gc();
Sirikata::Logging::finishLog();
return 0;
}
int main (int argc, char** argv) {
using namespace Sirikata;
DynamicLibrary::Initialize();
InitOptions();
Trace::Trace::InitOptions();
OHTrace::InitOptions();
InitCPPOHOptions();
ParseOptions(argc, argv, OPT_CONFIG_FILE);
PluginManager plugins;
String search_path=GetOptionValue<String>(OPT_OH_PLUGIN_SEARCH_PATHS);
if (search_path.length()) {
while (true) {
String::size_type where=search_path.find(":");
if (where==String::npos) {
DynamicLibrary::AddLoadPath(search_path);
break;
}else {
DynamicLibrary::AddLoadPath(search_path.substr(0,where));
search_path=search_path.substr(where+1);
}
}
}
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_OH_PLUGINS) );
String time_server = GetOptionValue<String>("time-server");
NTPTimeSync sync;
if (time_server.size() > 0)
sync.start(time_server);
#ifdef __GNUC__
#ifndef __APPLE__
if (GetOptionValue<bool>(OPT_SIGFPE)) {
feenableexcept(FE_DIVBYZERO|FE_INVALID|FE_OVERFLOW|FE_UNDERFLOW);
}
#endif
#endif
ObjectHostID oh_id = GetOptionValue<ObjectHostID>("ohid");
String trace_file = GetPerServerFile(STATS_OH_TRACE_FILE, oh_id);
Trace::Trace* trace = new Trace::Trace(trace_file);
String servermap_type = GetOptionValue<String>("servermap");
String servermap_options = GetOptionValue<String>("servermap-options");
ServerIDMap * server_id_map =
ServerIDMapFactory::getSingleton().getConstructor(servermap_type)(servermap_options);
srand( GetOptionValue<uint32>("rand-seed") );
Network::IOService* ios = Network::IOServiceFactory::makeIOService();
Network::IOStrand* mainStrand = ios->createStrand();
Time start_time = Timer::now(); // Just for stats in ObjectHostContext.
Duration duration = Duration::zero(); // Indicates to run forever.
ObjectHostContext* ctx = new ObjectHostContext(oh_id, ios, mainStrand, trace, start_time, duration);
Context::mainContextPtr = ctx;
String timeseries_type = GetOptionValue<String>(OPT_TRACE_TIMESERIES);
String timeseries_options = GetOptionValue<String>(OPT_TRACE_TIMESERIES_OPTIONS);
Trace::TimeSeries* time_series = Trace::TimeSeriesFactory::getSingleton().getConstructor(timeseries_type)(ctx, timeseries_options);
SSTConnectionManager* sstConnMgr = new SSTConnectionManager();
SpaceID mainSpace(GetOptionValue<UUID>(OPT_MAIN_SPACE));
String oh_options = GetOptionValue<String>(OPT_OH_OPTIONS);
ObjectHost *oh = new CppohObjectHost(ctx, ios, oh_options);
// Add all the spaces to the ObjectHost. We used to have SpaceIDMap and
// fill in the same ServerIDMap for all these. Now we just add the
// ServerIDMap for the main space. We need a better way of handling multiple
// spaces.
oh->addServerIDMap(mainSpace, server_id_map);
String objstorage_type = GetOptionValue<String>(OPT_OBJECT_STORAGE);
String objstorage_options = GetOptionValue<String>(OPT_OBJECT_STORAGE_OPTS);
OH::Storage* obj_storage =
OH::StorageFactory::getSingleton().getConstructor(objstorage_type)(ctx, objstorage_options);
oh->setStorage(obj_storage);
String objpersistentset_type = GetOptionValue<String>(OPT_OH_PERSISTENT_SET);
String objpersistentset_options = GetOptionValue<String>(OPT_OH_PERSISTENT_SET_OPTS);
OH::PersistedObjectSet* obj_persistent_set =
OH::PersistedObjectSetFactory::getSingleton().getConstructor(objpersistentset_type)(ctx, objpersistentset_options);
oh->setPersistentSet(obj_persistent_set);
String objfactory_type = GetOptionValue<String>(OPT_OBJECT_FACTORY);
String objfactory_options = GetOptionValue<String>(OPT_OBJECT_FACTORY_OPTS);
ObjectFactory* obj_factory = NULL;
///////////Go go go!! start of simulation/////////////////////
ctx->add(ctx);
ctx->add(obj_storage);
ctx->add(obj_persistent_set);
ctx->add(oh);
ctx->add(sstConnMgr);
if (!objfactory_type.empty())
{
obj_factory = ObjectFactoryFactory::getSingleton().getConstructor(objfactory_type)(ctx, oh, mainSpace, objfactory_options);
obj_factory->generate();
}
ctx->run(1);
ctx->cleanup();
trace->prepareShutdown();
delete oh;
//delete pd;
delete obj_storage;
delete obj_persistent_set;
SimulationFactory::destroy();
delete sstConnMgr;
delete ctx;
delete time_series;
trace->shutdown();
delete trace;
trace = NULL;
delete mainStrand;
Network::IOServiceFactory::destroyIOService(ios);
plugins.gc();
sync.stop();
return 0;
}
int main(int argc, char** argv) {
InitOptions();
InitializeClassOptions::module(SIRIKATA_OPTIONS_MODULE)
.addOption(new OptionValue("mesh","",Sirikata::OptionValueType<String>(),"Mesh to load and display."))
.addOption(new OptionValue("screenshot","",Sirikata::OptionValueType<String>(),"If non-empty, trigger a screenshot to the given filename and exit."))
;
ParseOptions(argc, argv, AllowUnregisteredOptions);
PluginManager plugins;
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS) );
plugins.loadList( GetOptionValue<String>(OPT_EXTRA_PLUGINS) );
// FIXME this should be an option
plugins.loadList( "colladamodels,mesh-billboard,mesh-ply,common-filters,nvtt" );
// Fill defaults after plugin loading to ensure plugin-added
// options get their defaults.
FillMissingOptionDefaults();
// Rerun original parse to make sure any newly added options are
// properly parsed.
ParseOptions(argc, argv);
DaemonizeAndSetOutputs();
ReportVersion(); // After options so log goes to the right place
Network::IOService* ios = new Network::IOService("MeshView");
Network::IOStrand* iostrand = ios->createStrand("MeshView Main");
Trace::Trace* trace = new Trace::Trace("meshview.log");
Time epoch = Timer::now();
Context* ctx = new Context("MeshView", ios, iostrand, trace, epoch);
OgreRenderer* renderer = new OgreRenderer(ctx,Network::IOStrandPtr(ios->createStrand("OgreRenderer")));
renderer->initialize("", false);
MeshViewCamera* cam = new MeshViewCamera(renderer);
cam->attach("", 0, 0, Vector4f(.7,.7,.7,1), 0);
cam->setPosition(Vector3d(0, 0, 2));
MeshViewEntity* ent = new MeshViewEntity(renderer, GetOptionValue<String>("screenshot"));
ent->setOgrePosition(Vector3d(0, 0, 0));
ent->setOgreOrientation(Quaternion::identity());
renderer->addObject(ent, Transfer::URI(GetOptionValue<String>("mesh")));
ctx->add(ctx);
ctx->add(renderer);
ctx->run(1);
delete ent;
delete cam;
delete renderer;
ctx->cleanup();
trace->prepareShutdown();
delete ctx;
trace->shutdown();
delete trace;
delete iostrand;
delete ios;
Transfer::TransferMediator::destroy();
plugins.gc();
Sirikata::Logging::finishLog();
DaemonCleanup();
return 0;
}
int main(int argc, char** argv) {
using namespace Sirikata;
DynamicLibrary::Initialize();
InitOptions();
Trace::Trace::InitOptions();
InitPintoOptions();
ParseOptions(argc, argv);
PluginManager plugins;
plugins.loadList( GetOptionValue<String>(OPT_PLUGINS));
plugins.loadList( GetOptionValue<String>(OPT_PINTO_PLUGINS));
// Currently not distributed, so we just use any ID
String trace_file = GetPerServerFile(STATS_TRACE_FILE, (ServerID)0);
Trace::Trace* trace = new Trace::Trace(trace_file);
// Compute the starting date/time
String start_time_str = GetOptionValue<String>("wait-until");
Time start_time = start_time_str.empty() ? Timer::now() : Timer::getSpecifiedDate( start_time_str );
Duration duration = GetOptionValue<Duration>("duration")
+ GetOptionValue<Duration>("wait-additional");
Network::IOService* ios = Network::IOServiceFactory::makeIOService();
Network::IOStrand* mainStrand = ios->createStrand();
PintoContext* pinto_context = new PintoContext(ios, mainStrand, trace, start_time, duration);
PintoManager* pinto = new PintoManager(pinto_context);
srand( GetOptionValue<uint32>("rand-seed") );
///////////Go go go!! start of simulation/////////////////////
srand(time(NULL));
pinto_context->add(pinto_context);
pinto_context->add(pinto);
pinto_context->run(1);
pinto_context->cleanup();
if (GetOptionValue<bool>(PROFILE)) {
pinto_context->profiler->report();
}
trace->prepareShutdown();
delete pinto;
trace->shutdown();
delete trace;
trace = NULL;
delete pinto_context;
pinto_context = NULL;
delete mainStrand;
Network::IOServiceFactory::destroyIOService(ios);
plugins.gc();
return 0;
}
