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FmAxialDamper.C
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FmAxialDamper.C
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// SPDX-FileCopyrightText: 2023 SAP SE
//
// SPDX-License-Identifier: Apache-2.0
//
// This file is part of FEDEM - https://openfedem.org
////////////////////////////////////////////////////////////////////////////////
#include "vpmDB/FmAxialDamper.H"
#include "vpmDB/FmDB.H"
#include "FFaLib/FFaString/FFaParse.H"
#include "FFaLib/FFaDefinitions/FFaMsg.H"
#ifdef USE_INVENTOR
#include "vpmDisplay/FdAxialSprDa.H"
#endif
/**********************************************************************
*
* Class constructor and destructor
*
**********************************************************************/
Fmd_DB_SOURCE_INIT(FcAXIAL_DAMPER, FmAxialDamper, FmDamperBase);
FmAxialDamper::FmAxialDamper()
{
Fmd_CONSTRUCTOR_INIT(FmAxialDamper);
FFA_REFERENCELIST_FIELD_INIT(itsTriadsField, itsTriads, "TRIAD_CONNECTIONS");
itsTriads.setAutoSizing(false);
#ifdef USE_INVENTOR
itsDisplayPt = new FdAxialSprDa(this);
#endif
}
FmAxialDamper::~FmAxialDamper()
{
this->disconnect();
}
void FmAxialDamper::getEntities(std::vector<FmSensorChoice>& choicesToFill, int)
{
choicesToFill.clear();
choicesToFill.push_back(itsEntityTable[FmIsMeasuredBase::LENGTH]);
choicesToFill.push_back(itsEntityTable[FmIsMeasuredBase::VEL]);
choicesToFill.push_back(itsEntityTable[FmIsMeasuredBase::FORCE]);
}
bool FmAxialDamper::connect(FmTriad* tr1, FmTriad* tr2)
{
bool status = this->mainConnect();
this->setOwnerTriads(tr1, tr2);
return status;
}
bool FmAxialDamper::detach()
{
if (!detachTriad)
return false;
else if (!detachTriad->isAttached())
{
FFaMsg::list("Detach: The damper triad is already detached.\n");
return false;
}
// Check which triad the user wants to remove
FmTriad* triad1 = this->getFirstTriad();
FmTriad* triad2 = this->getSecondTriad();
if (detachTriad == triad1)
triad1 = NULL;
else if (detachTriad == triad2)
triad2 = NULL;
else
return false;
// Make a new triad for the detach
FmTriad* newTriad = new FmTriad();
newTriad->setParentAssembly(this->getParentAssembly());
newTriad->connect();
newTriad->setGlobalCS(detachTriad->getGlobalCS());
if (!triad1)
this->setOwnerTriads(newTriad,triad2);
else
this->setOwnerTriads(triad1,newTriad);
newTriad->draw();
if (!detachTriad->hasReferences())
{
detachTriad->erase();
detachTriad = NULL;
}
return true;
}
FmTriad* FmAxialDamper::getFirstTriad() const
{
return (itsTriads.size() < 1 ? static_cast<FmTriad*>(NULL) : itsTriads[0]);
}
FmTriad* FmAxialDamper::getSecondTriad() const
{
return (itsTriads.size() < 2 ? static_cast<FmTriad*>(NULL) : itsTriads[1]);
}
void FmAxialDamper::removeOwnerTriads()
{
itsTriads.setPtrs({NULL, NULL});
}
void FmAxialDamper::setOwnerTriads(FmTriad* tr1, FmTriad* tr2)
{
itsTriads.setPtrs({tr1, tr2});
}
std::ostream& FmAxialDamper::writeFMF(std::ostream& os)
{
os <<"AXIAL_DAMPER\n{\n";
this->writeFields(os);
os <<"}\n\n";
return os;
}
bool FmAxialDamper::cloneLocal(FmBase* obj, int depth)
{
if (!obj->isOfType(FmAxialDamper::getClassTypeID()))
return false;
else if (depth < FmBase::DEEP_APPEND)
return true;
FmAxialDamper* copyObj = static_cast<FmAxialDamper*>(obj);
this->setOwnerTriads(copyObj->getFirstTriad(),copyObj->getSecondTriad());
if (depth == FmBase::DEEP_REPLACE)
copyObj->removeOwnerTriads();
return true;
}
bool FmAxialDamper::readAndConnect(std::istream& is, std::ostream&)
{
FmAxialDamper* obj = new FmAxialDamper();
while (is.good())
{
std::stringstream activeStatement;
char keyWord[BUFSIZ];
if (FaParse::parseFMFASCII(keyWord, is, activeStatement, '=', ';'))
parentParse(keyWord, activeStatement, obj);
}
obj->connect();
return true;
}
void FmAxialDamper::initAfterResolve()
{
this->FmDamperBase::initAfterResolve();
this->setOwnerTriads(this->getFirstTriad(),this->getSecondTriad());
}
bool FmAxialDamper::clone(FmBase* obj, int depth)
{
return cloneInherited(obj, depth);
}
int FmAxialDamper::checkAxialDampers()
{
int errCount = 0;
std::vector<FmAxialDamper*> allDampers;
FmDB::getAllAxialDampers(allDampers);
for (FmAxialDamper* damper : allDampers)
if (!damper->getFirstTriad() || !damper->getSecondTriad())
{
errCount++;
ListUI <<"ERROR: "<< damper->getIdString(true)
<<" is not attached to any triads.\n";
}
return errCount;
}
int FmAxialDamper::printSolverEntry(FILE* fp)
{
fprintf(fp,"! Axial damper\n");
fprintf(fp,"&DAMPER\n");
this->printID(fp);
for (int i = 0; i < 2; i++)
fprintf(fp," triad%dId = %d\n", i+1, itsTriads[i]->getBaseID());
return this->FmDamperBase::printSolverEntry(fp);
}