void CUdmApp::UdmMain(
Udm::DataNetwork* p_backend, // Backend pointer(already open!)
Udm::Object focusObject, // Focus object
set<Udm::Object> selectedObjects, // Selected objects
long param, // Parameters
CComPtr<IMgaProject> mgaProject)
{
/*char currtime[128];
time_t now = time(0);
struct tm* tm = localtime(&now);
sprintf(currtime,"%02d-%02d-%04d %02d:%02d:%02d", (tm->tm_mon + 1), tm->tm_mday, (tm->tm_year+1900), tm->tm_hour, tm->tm_min, tm->tm_sec);
std::string ct(currtime);
*/
std::string start_time = getTimeNow();
try{
CyPhyML::RootFolder cyphy_rf = CyPhyML::RootFolder::Cast(p_backend->GetRootObject());
set<CyPhyML::CWC> cwcs;
if( focusObject!=Udm::null
&& (Uml::IsDerivedFrom(focusObject.type(), CyPhyML::CWC::meta)))
{
cwcs.insert(CyPhyML::CWC::Cast(focusObject));
}
else
{
for(set<Udm::Object>::iterator i=selectedObjects.begin();i!=selectedObjects.end();++i)
{
Udm::Object currObj = *i;
if(Uml::IsDerivedFrom(currObj.type(), CyPhyML::CWC::meta))
{
cwcs.insert(CyPhyML::CWC::Cast(currObj));
}
// User has selected a Configurations container -- elaborate all CWC within.
if(Uml::IsDerivedFrom(currObj.type(), CyPhyML::Configurations::meta))
{
set<CWC> s_cwc = Configurations::Cast(currObj).CWC_children();
for (set<CWC>::const_iterator i = s_cwc.begin(); i != s_cwc.end(); i++)
{
cwcs.insert(*i);
}
}
}
}
if(cwcs.empty()){
AfxMessageBox(L"Please open a CWC model or select CWC model(s) to invoke the interpreter.");
return;
}
CyPhyML::Configurations cfg_model = (*(cwcs.begin())).Configurations_parent();
CyPhyML::DesignContainer rootDC = cfg_model.DesignContainer_parent();
CyPhyML::Configurations cfgModel;
bool useCurrent = true;
bool flatten = false;
std::string outFdr;
// Hide dialog box in silent mode OR if user isn't pressing CTRL
if (param == GME_SILENT_MODE ||
!((GetKeyState(VK_CONTROL) & 0x8000)))
{
param = GME_SILENT_MODE;
}
if (param == GME_SILENT_MODE)
{
useCurrent = true;
flatten = false;
outFdr = "notused";
}
else
{
CConfigExportDialog cfgExDlg;
if (cfgExDlg.DoModal()==IDOK)
{
useCurrent = cfgExDlg.m_useCurrent;
flatten = cfgExDlg.m_flatten;
outFdr = (LPCSTR)((CStringA)cfgExDlg.m_outputfdr);
}
else
return;
}
int idCnt = cwcs.size();
CStatusDialog prgDlg;
if (param != GME_SILENT_MODE)
{
prgDlg.Create(IDD_PROGRESS_DIALOG);
GetStatusDlg(&prgDlg);
prgDlg.SetProgress("Preparing to export models...");
}
if(!useCurrent)
{
if (param != GME_SILENT_MODE)
{
prgDlg.SetRange(40*idCnt);
}
std::string outfileBase = outFdr+"\\"+getFileNameNoExt((LPCSTR)((CStringA)mgaPath));
for(set<CyPhyML::CWC>::iterator i=cwcs.begin();i!=cwcs.end();++i)
{
CyPhyML::CWC cwc = *i;
std::string outfile = outfileBase+"_"+(std::string)cwc.name()+".mga";
std::string msg ="create new CyPhy model for: "+(std::string)cwc.name()+"...";
if (param != GME_SILENT_MODE)
{
prgDlg.SetProgress(CString(msg.c_str()));
}
Udm::SmartDataNetwork outDN(CyPhyML::diagram);
outDN.CreateNew(outfile,"CyPhyML", CyPhyML::RootFolder::meta, Udm::CHANGES_LOST_DEFAULT);
CyPhyML::RootFolder out_rf = CyPhyML::RootFolder::Cast(outDN.GetRootObject());
UdmUtil::copy_assoc_map copymap;
udmCopy(p_backend->GetRootObject().__impl(), outDN.GetRootObject().__impl(),&outDN,copymap,"mga");
// UdmUtil::CopyObjectHierarchy(p_backend->GetRootObject().__impl(), outDN.GetRootObject().__impl(), &outDN, copymap);
UdmUtil::copy_assoc_map::iterator map_it = copymap.find(cwc);
ASSERT(map_it!=copymap.end());
Udm::Object to_cwc_obj = (*map_it).second;
ASSERT(to_cwc_obj.type() == CyPhyML::CWC::meta);
if (param != GME_SILENT_MODE)
{
prgDlg.SetProgress(CString(msg.c_str()));
}
//CyPhyML::Components coms = CyPhyML::Components::Create(out_rf);
//coms.name() = "Configurations ("+start_time+")";
CyPhyML::ComponentAssemblies ca_rootFdr = CyPhyML::ComponentAssemblies::Create(out_rf);
ca_rootFdr.name() = "Generated configurations";
CyPhyML::ComponentAssemblies ca_folder_dc = CyPhyML::ComponentAssemblies::Create(ca_rootFdr);
ca_folder_dc.name() = rootDC.name();
CyPhyML::ComponentAssemblies ca_folder = CyPhyML::ComponentAssemblies::Create(ca_folder_dc);
ca_folder.name() = "Configurations ("+start_time+")";
CyPhyCAExporter dexport(ca_folder, CyPhyML::CWC::Cast(to_cwc_obj), flatten);
dexport.showGui = param != GME_SILENT_MODE;
dexport.createComponentAssembly();
//outDN.SaveAs(outfile);
outDN.CloseWithUpdate();
std::string addlog("CyPhy model \"<A HREF=\""+outfile+ "\">"+outfile+"\"</A> generated for "+appendObjLink(cwc));
GMEConsole::Console::Out::writeLine(addlog);
}
}
else
{
if (param != GME_SILENT_MODE)
{
prgDlg.SetRange(25*idCnt);
}
set<CyPhyML::ComponentAssemblies>::iterator cafdr_it;
CyPhyML::ComponentAssemblies ca_rootFdr;
set<CyPhyML::ComponentAssemblies> ca_fdrs = cyphy_rf.ComponentAssemblies_kind_children();
for(cafdr_it=ca_fdrs.begin();cafdr_it!=ca_fdrs.end();++cafdr_it)
{
CyPhyML::ComponentAssemblies ca_fdr = *cafdr_it;
if((std::string)ca_fdr.name()=="Generated configurations")
{
ca_rootFdr = ca_fdr;
break;
}
}
if(ca_rootFdr==Udm::null)
{
ca_rootFdr = CyPhyML::ComponentAssemblies::Create(cyphy_rf);
ca_rootFdr.name() = "Generated configurations";
}
CyPhyML::ComponentAssemblies ca_folder_dc;
std::string rootDC_name = rootDC.name();
set<CyPhyML::ComponentAssemblies> ca_fdr_fdrs = ca_rootFdr.ComponentAssemblies_kind_children();
for(cafdr_it=ca_fdr_fdrs.begin();cafdr_it!=ca_fdr_fdrs.end();++cafdr_it)
{
CyPhyML::ComponentAssemblies ca_fdr = *cafdr_it;
if((std::string)ca_fdr.name()==rootDC_name)
{
ca_folder_dc = ca_fdr;
break;
}
}
if(ca_folder_dc==Udm::null)
{
ca_folder_dc = CyPhyML::ComponentAssemblies::Create(ca_rootFdr);
ca_folder_dc.name() = rootDC_name;
}
CyPhyML::ComponentAssemblies ca_folder = CyPhyML::ComponentAssemblies::Create(ca_folder_dc);
ca_folder.name() = "Configurations ("+start_time+")";
int txCount = 0;
for(set<CyPhyML::CWC>::iterator i=cwcs.begin();i!=cwcs.end();++i)
{
if (idCnt > 40 && txCount++ == 20)
{
txCount = 0;
COMTHROW(mgaProject->CommitTransaction());
COMTHROW(mgaProject->FlushUndoQueue());
CComPtr<IMgaTerritory> terr;
COMTHROW(mgaProject->BeginTransactionInNewTerr(TRANSACTION_GENERAL, &terr));
}
CyPhyML::CWC cwc = *i;
std::string msg ="create ComponentAssembly for:"+(std::string)cwc.name()+"...";
if (param != GME_SILENT_MODE)
{
prgDlg.SetProgress(CString(msg.c_str()));
}
try
{
CyPhyCAExporter dexport(ca_folder, cwc, flatten);
dexport.showGui = param != GME_SILENT_MODE;
dexport.createComponentAssembly();
std::string addlog("ComponentAssembly "+appendObjLink(dexport.getComponentAssembly())+" generated for "+appendObjLink(cwc));
GMEConsole::Console::Out::writeLine(addlog);
//#ifdef _DEBUG
// std::string end_time = getTimeNow();
// coms.name() = "Configurations ("+start_time+"-"+end_time+")";
//#else
// coms.name() = "Configurations ("+start_time+")";
//#endif
}
catch(udm_exception &exc)
{
ca_folder.DeleteObject();
// coms.DeleteObject();
std::string addlog("ComponentAssembly for "+appendObjLink(cwc)+" has failed: "+(std::string)exc.what());
GMEConsole::Console::Out::writeLine(addlog);
}
catch(...)
{
std::string addlog("ComponentAssembly for "+appendObjLink(cwc)+" has failed.");
GMEConsole::Console::Out::writeLine(addlog);
}
}
}
if (param != GME_SILENT_MODE)
{
prgDlg.OnFinished();
}
}
catch(udm_exception &exc)
{
AfxMessageBox(CString(exc.what()));
throw exc;
}
catch(...)
{
throw;
}
}
// This is the main component method for interpereters and plugins.
// May als be used in case of invokeable addons
STDMETHODIMP RawComponent::InvokeEx( IMgaProject *project, IMgaFCO *currentobj,
IMgaFCOs *selectedobjs, long param) {
// Calling the user's initialization function
if(CUdmApp::Initialize())
{
return S_FALSE;
}
CComPtr<IMgaProject>ccpProject(project);
try
{
if(interactive)
{
CComBSTR projname;
CComBSTR focusname = "<nothing>";
CComPtr<IMgaTerritory> terr;
COMTHROW(ccpProject->CreateTerritory(NULL, &terr));
// Setting up Udm
#ifdef _DYNAMIC_META
#ifdef _DYNAMIC_META_DOM
// Loading the meta for the project
UdmDom::DomDataNetwork ddnMeta(Uml::diagram);
Uml::Diagram theUmlDiagram;
// Opening the XML meta of the project
ddnMeta.OpenExisting(config.metaPath,"uml.xsd", Udm::CHANGES_LOST_DEFAULT);
// Casting the DataNetwork to diagram
theUmlDiagram = Uml::Diagram::Cast(ddnMeta.GetRootObject());
// Creating the UDM diagram
Udm::UdmDiagram udmDataDiagram;
udmDataDiagram.dgr = &theUmlDiagram;
udmDataDiagram.init = dummy;
#elif defined _DYNAMIC_META_STATIC
// Loading the meta for the project
UdmStatic::StaticDataNetwork dnsMeta(Uml::diagram);
Uml::Diagram theUmlDiagram;
// Opening the static meta of the project
dnsMeta.OpenExisting(config.metaPath, "", Udm::CHANGES_LOST_DEFAULT);
// Casting the DataNetwork to diagram
theUmlDiagram = Uml::Diagram::Cast(dnsMeta.GetRootObject());
// Creating the UDM diagram
Udm::UdmDiagram udmDataDiagram;
udmDataDiagram.dgr = &theUmlDiagram;
udmDataDiagram.init = dummy;
#else
ASSERT((0,"Nor _DYNAMIC_META_DOM either _DYNAMIC_META_STATIC defined for dynamic loading"));
#endif
// Loading the project
UdmGme::GmeDataNetwork dngBackend(udmDataDiagram);
#else
using namespace META_NAMESPACE;
// Loading the project
UdmGme::GmeDataNetwork dngBackend(META_NAMESPACE::diagram);
#endif
try
{
// Opening backend
dngBackend.OpenExisting(ccpProject);
CComPtr<IMgaFCO> ccpFocus(currentobj);
Udm::Object currentObject;
if(ccpFocus)
{
currentObject=dngBackend.Gme2Udm(ccpFocus);
}
set<Udm::Object> selectedObjects;
CComPtr<IMgaFCOs> ccpSelObject(selectedobjs);
MGACOLL_ITERATE(IMgaFCO,ccpSelObject){
Udm::Object currObj;
if(MGACOLL_ITER)
{
currObj=dngBackend.Gme2Udm(MGACOLL_ITER);
}
selectedObjects.insert(currObj);
}MGACOLL_ITERATE_END;
#ifdef _ACCESS_MEMORY
// Creating Cache
#ifdef _DYNAMIC_META
UdmStatic::StaticDataNetwork dnsCacheBackend(udmDataDiagram);
#else
UdmStatic::StaticDataNetwork dnsCacheBackend(META_NAMESPACE::diagram);
#endif
const Uml::Class & safeType = Uml::SafeTypeContainer::GetSafeType(dngBackend.GetRootObject().type());
dnsCacheBackend.CreateNew("","",safeType, Udm::CHANGES_LOST_DEFAULT);
Udm::Object nullObject(&Udm::__null);
UdmUtil::copy_assoc_map copyAssocMap;
copyAssocMap[currentObject]=nullObject; // currentObject may be null object
for(set<Udm::Object>::iterator p_CurrSelObject=selectedObjects.begin();
p_CurrSelObject!=selectedObjects.end();p_CurrSelObject++)
{
pair<Udm::Object const, Udm::Object> item(*p_CurrSelObject, nullObject);
pair<UdmUtil::copy_assoc_map::iterator, bool> insRes = copyAssocMap.insert(item);
if (!insRes.second)
{
ASSERT(NULL);
}
}
// Copying from GME to memory
UdmUtil::CopyObjectHierarchy(
dngBackend.GetRootObject().__impl(),
dnsCacheBackend.GetRootObject().__impl(),
&dnsCacheBackend,
copyAssocMap);
// Searching for focus object
Udm::Object currentObjectCache;
UdmUtil::copy_assoc_map::iterator currObject = copyAssocMap.find(currentObject);
if (currObject != copyAssocMap.end()) // It is in the map
{
currentObjectCache=currObject->second;
}
// Searching for selected objects
set<Udm::Object> selectedObjectsCache;
for( p_CurrSelObject=selectedObjects.begin();
p_CurrSelObject!=selectedObjects.end();p_CurrSelObject++)
{
Udm::Object object;
UdmUtil::copy_assoc_map::iterator currSelObjectIt = copyAssocMap.find(*p_CurrSelObject);
if (currSelObjectIt != copyAssocMap.end()) // It is in the map
{
object=currSelObjectIt->second;
selectedObjectsCache.insert(object);
}
}
// Closing GME backend
dngBackend.CloseNoUpdate();
// Calling the main entry point
CUdmApp::UdmMain(&dnsCacheBackend,currentObjectCache,selectedObjectsCache,param);
// Close cache backend
dnsCacheBackend.CloseNoUpdate();
#else
// Calling the main entry point
CUdmApp::UdmMain(&dngBackend,currentObject,selectedObjects,param);
// Closing backend
dngBackend.CloseWithUpdate();
#endif
}
catch(udm_exception &exc)
{
#ifdef _META_ACCESS_MEMORY
dnCacheBackend.CloseNoUpdate();
#endif
// Close GME Backend (we may close it twice, but GmeDataNetwork handles it)
dngBackend.CloseNoUpdate();
AfxMessageBox(exc.what());
return S_FALSE;
}
}
// This is the main component method for interpereters and plugins.
// May als be used in case of invokeable addons
STDMETHODIMP RawComponent::InvokeEx( IMgaProject *project, IMgaFCO *currentobj,
IMgaFCOs *selectedobjs, long param)
{
CUdmApp udmApp;
// Calling the user's initialization function
if(udmApp.Initialize())
{
return S_FALSE;
}
CComPtr<IMgaProject>ccpProject(project);
try
{
// Setting up the console
GMEConsole::Console::setupConsole(ccpProject);
GMEConsole::Console::clear();
char tmpbuf[128];
_strdate_s(tmpbuf,128);
std::string date(tmpbuf);
_strtime_s(tmpbuf,128);
std::string time(tmpbuf);
GMEConsole::Console::writeLine(date + " " + time + " Starting CyPhyElaborate Tester Interpreter", MSG_INFO);
if(interactive)
{
CComBSTR projname;
CComBSTR focusname = "<nothing>";
CComPtr<IMgaTerritory> terr;
//COMTHROW(ccpProject->CreateTerritory(NULL, &terr));
//COMTHROW(ccpProject->BeginTransaction(terr));
// Setting up Udm
#ifdef _DYNAMIC_META
#ifdef _DYNAMIC_META_DOM
// Loading the meta for the project
UdmDom::DomDataNetwork ddnMeta(Uml::diagram);
Uml::Diagram theUmlDiagram;
// Opening the XML meta of the project
ddnMeta.OpenExisting(META_PATH,"uml.dtd", Udm::CHANGES_LOST_DEFAULT);
// Casting the DataNetwork to diagram
theUmlDiagram = Uml::Diagram::Cast(ddnMeta.GetRootObject());
// Creating the UDM diagram
Udm::UdmDiagram udmDataDiagram;
udmDataDiagram.dgr = &theUmlDiagram;
udmDataDiagram.init = dummy;
#elif defined _DYNAMIC_META_STATIC
// Loading the meta for the project
Udm::SmartDataNetwork dnsMeta(Uml::diagram);
Uml::Diagram theUmlDiagram;
// Opening the static meta of the project
dnsMeta.OpenExisting(META_PATH, "", Udm::CHANGES_LOST_DEFAULT);
// Casting the DataNetwork to diagram
theUmlDiagram = Uml::Diagram::Cast(dnsMeta.GetRootObject());
// Creating the UDM diagram
Udm::UdmDiagram udmDataDiagram;
udmDataDiagram.dgr = &theUmlDiagram;
udmDataDiagram.init = dummy;
#else
#error "Neither _DYNAMIC_META_DOM or _DYNAMIC_META_STATIC defined for dynamic loading"
#endif
// Loading the project
UdmGme::GmeDataNetwork dngBackend(udmDataDiagram);
#else
using namespace META_NAMESPACE;
// Loading the project
UdmGme::GmeDataNetwork dngBackend(META_NAMESPACE::diagram);
#endif
try
{
long status;
COMTHROW(ccpProject->get_ProjectStatus(&status));
if (!(status & 8))
COMTHROW(ccpProject->BeginTransactionInNewTerr(TRANSACTION_NON_NESTED, &terr));
try {
// Opening backend if it is not already opened
dngBackend.OpenExisting(ccpProject, Udm::CHANGES_LOST_DEFAULT, true);
CComPtr<IMgaFCO> ccpFocus(currentobj);
Udm::Object currentObject;
if(ccpFocus)
{
currentObject=dngBackend.Gme2Udm(ccpFocus);
}
std::set<Udm::Object> selectedObjects;
CComPtr<IMgaFCOs> ccpSelObject(selectedobjs);
MGACOLL_ITERATE(IMgaFCO,ccpSelObject){
Udm::Object currObj;
if(MGACOLL_ITER)
{
currObj=dngBackend.Gme2Udm(MGACOLL_ITER);
}
selectedObjects.insert(currObj);
}MGACOLL_ITERATE_END;
#ifdef _ACCESS_MEMORY
// Creating Cache
#ifdef _DYNAMIC_META
Udm::SmartDataNetwork dnsCacheBackend(udmDataDiagram);
#else
Udm::SmartDataNetwork dnsCacheBackend(META_NAMESPACE::diagram);
#endif
const Uml::Class & safeType = Uml::SafeTypeContainer::GetSafeType(dngBackend.GetRootObject().type());
dnsCacheBackend.CreateNew("tmp.mem","",safeType, Udm::CHANGES_LOST_DEFAULT);
Udm::Object nullObject(&Udm::_null);
UdmUtil::copy_assoc_map copyAssocMap;
copyAssocMap[currentObject]=nullObject; // currentObject may be null object
std::set<Udm::Object>::iterator p_CurrSelObject;
for(p_CurrSelObject=selectedObjects.begin();
p_CurrSelObject!=selectedObjects.end();p_CurrSelObject++)
{
std::pair<Udm::Object const, Udm::Object> item(*p_CurrSelObject, nullObject);
std::pair<UdmUtil::copy_assoc_map::iterator, bool> insRes = copyAssocMap.insert(item);
if (!insRes.second)
{
assert(false);
}
}
// Copying from GME to memory
UdmUtil::CopyObjectHierarchy(
dngBackend.GetRootObject().__impl(),
dnsCacheBackend.GetRootObject().__impl(),
&dnsCacheBackend,
copyAssocMap);
// Searching for focus object
Udm::Object currentObjectCache;
UdmUtil::copy_assoc_map::iterator currObject = copyAssocMap.find(currentObject);
if (currObject != copyAssocMap.end()) // It is in the map
{
currentObjectCache=currObject->second;
}
// Searching for selected objects
std::set<Udm::Object> selectedObjectsCache;
for( p_CurrSelObject=selectedObjects.begin();
p_CurrSelObject!=selectedObjects.end();p_CurrSelObject++)
{
Udm::Object object;
UdmUtil::copy_assoc_map::iterator currSelObjectIt = copyAssocMap.find(*p_CurrSelObject);
if (currSelObjectIt != copyAssocMap.end()) // It is in the map
{
object=currSelObjectIt->second;
selectedObjectsCache.insert(object);
}
}
// Closing GME backend
dngBackend.CloseNoUpdate();
// Calling the main entry point
CUdmApp::UdmMain(&dnsCacheBackend,currentObjectCache,selectedObjectsCache,param);
// Close cache backend
dnsCacheBackend.CloseNoUpdate();
#else
// Calling the main entry point
udmApp.UdmMain(&dngBackend,currentObject,selectedObjects,param);
traceability = std::move(udmApp.traceability);
// Closing backend
dngBackend.CloseWithUpdate();
if (!(status & 8))
ccpProject->CommitTransaction();
} catch (...) {
if (!(status & 8))
ccpProject->AbortTransaction();
throw;
}
#endif
}
catch(udm_exception &exc)
{
#ifdef _META_ACCESS_MEMORY
dnCacheBackend.CloseNoUpdate();
#endif
// Close GME Backend (we may close it twice, but GmeDataNetwork handles it)
dngBackend.CloseNoUpdate();
//COMTHROW(ccpProject->AbortTransaction());
GMEConsole::Console::Error::writeLine(exc.what());
return S_FALSE;
}
}