1 // Copyright (C) 2006-2020 CEA/DEN, EDF R&D
3 // This library is free software; you can redistribute it and/or
4 // modify it under the terms of the GNU Lesser General Public
5 // License as published by the Free Software Foundation; either
6 // version 2.1 of the License, or (at your option) any later version.
8 // This library is distributed in the hope that it will be useful,
9 // but WITHOUT ANY WARRANTY; without even the implied warranty of
10 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 // Lesser General Public License for more details.
13 // You should have received a copy of the GNU Lesser General Public
14 // License along with this library; if not, write to the Free Software
15 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
20 #include "ForEachLoop.hxx"
21 #include "TypeCode.hxx"
22 #include "Visitor.hxx"
23 #include "ComposedNode.hxx"
24 #include "Executor.hxx"
25 #include "AutoLocker.hxx"
30 #include <algorithm> // std::replace_if
33 #include "YacsTrace.hxx"
39 using namespace YACS::ENGINE;
42 /*! \class YACS::ENGINE::ForEachLoop
43 * \brief Loop node for parametric calculation
48 const char FakeNodeForForEachLoop::NAME[]="thisIsAFakeNode";
50 const char SplitterNode::NAME_OF_SEQUENCE_INPUT[]="SmplsCollection";
52 const char ForEachLoopGen::NAME_OF_SPLITTERNODE[]="splitter";
54 const int ForEachLoopGen::NOT_RUNNING_BRANCH_ID=-1;
56 const char ForEachLoopGen::INTERCEPTOR_STR[]="_interceptor";
58 InterceptorInputPort::InterceptorInputPort(const std::string& name, Node *node, TypeCode* type):AnyInputPort(name,node,type),
59 DataPort(name,node,type),Port(node),
64 InterceptorInputPort::InterceptorInputPort(const InterceptorInputPort& other, Node *newHelder):AnyInputPort(other,newHelder),DataPort(other,newHelder),
65 Port(other,newHelder),
70 void InterceptorInputPort::getAllRepresentants(std::set<InPort *>& repr) const
72 set<InPort *> ports=_repr->edSetInPort();
73 for(set<InPort *>::iterator iter=ports.begin();iter!=ports.end();iter++)
74 (*iter)->getAllRepresentants(repr);
77 InputPort *InterceptorInputPort::clone(Node *newHelder) const
79 return new InterceptorInputPort(*this,newHelder);
82 void InterceptorInputPort::setRepr(AnySplitOutputPort *repr)
87 bool AnySplitOutputPort::decrRef()
92 void AnySplitOutputPort::incrRef() const
97 AnySplitOutputPort::AnySplitOutputPort(const std::string& name, Node *node, TypeCode *type):OutputPort(name,node,type),
98 DataPort(name,node,type),Port(node),
99 _repr(0),_intercptr(0),_cnt(1)
103 AnySplitOutputPort::AnySplitOutputPort(const AnySplitOutputPort& other, Node *newHelder):OutputPort(other,newHelder),
104 DataPort(other,newHelder),
105 Port(other,newHelder),
106 _repr(0),_intercptr(0),_cnt(1)
110 bool AnySplitOutputPort::addInPort(InPort *inPort)
112 bool ret=OutputPort::addInPort(inPort);
114 _repr->addInPort(_intercptr);
118 void AnySplitOutputPort::getAllRepresented(std::set<OutPort *>& represented) const
121 OutPort::getAllRepresented(represented);
123 _repr->getAllRepresented(represented);
126 int AnySplitOutputPort::removeInPort(InPort *inPort, bool forward)
128 bool ret=OutputPort::removeInPort(inPort,forward);
130 if(_setOfInputPort.empty())
131 _repr->removeInPort(_intercptr,forward);
135 void AnySplitOutputPort::addRepr(OutPort *repr, InterceptorInputPort *intercptr)
138 _intercptr=intercptr;
141 OutputPort *AnySplitOutputPort::clone(Node *newHelder) const
143 return new AnySplitOutputPort(*this,newHelder);
146 SeqAnyInputPort::SeqAnyInputPort(const std::string& name, Node *node, TypeCodeSeq* type):AnyInputPort(name,node,type),DataPort(name,node,type),Port(node)
151 SeqAnyInputPort::SeqAnyInputPort(const SeqAnyInputPort& other, Node *newHelder):AnyInputPort(other,newHelder),DataPort(other,newHelder),Port(other,newHelder)
155 InputPort *SeqAnyInputPort::clone(Node *newHelder) const
157 return new SeqAnyInputPort(*this,newHelder);
160 unsigned SeqAnyInputPort::getNumberOfElements() const
162 const SequenceAny * valCsted=(const SequenceAny *) _value;
163 if (valCsted) return valCsted->size();
167 Any *SeqAnyInputPort::getValueAtRank(int i) const
169 const SequenceAny * valCsted=(const SequenceAny *) _value;
170 AnyPtr ret=(*valCsted)[i];
175 std::string SeqAnyInputPort::dump()
177 stringstream xmldump;
178 int nbElem = getNumberOfElements();
179 xmldump << "<value><array><data>" << endl;
180 for (int i = 0; i < nbElem; i++)
182 Any *val = getValueAtRank(i);
183 switch (((YACS::ENGINE::TypeCodeSeq *)edGetType())->contentType()->kind())
186 xmldump << "<value><double>" << setprecision(16) << val->getDoubleValue() << "</double></value>" << endl;
189 xmldump << "<value><int>" << val->getIntValue() << "</int></value>" << endl;
192 xmldump << "<value><boolean>" << val->getBoolValue() << "</boolean></value>" << endl;
195 xmldump << "<value><string>" << val->getStringValue() << "</string></value>" << endl;
198 xmldump << "<value><objref>" << ToBase64(val->getStringValue()) << "</objref></value>" << endl;
201 xmldump << "<value><error> NO_SERIALISATION_AVAILABLE </error></value>" << endl;
205 xmldump << "</data></array></value>" << endl;
206 return xmldump.str();
209 SplitterNode::SplitterNode(const std::string& name, TypeCode *typeOfData,
210 ForEachLoopGen *father):ElementaryNode(name),
211 _dataPortToDispatch(NAME_OF_SEQUENCE_INPUT,
212 this,(TypeCodeSeq *)TypeCode::sequenceTc("","",typeOfData))
217 SplitterNode::SplitterNode(const SplitterNode& other, ForEachLoopGen *father):ElementaryNode(other,father),
218 _dataPortToDispatch(other._dataPortToDispatch,this)
222 InputPort *SplitterNode::getInputPort(const std::string& name) const
224 if(name==NAME_OF_SEQUENCE_INPUT)
225 return (InputPort *)&_dataPortToDispatch;
227 return ElementaryNode::getInputPort(name);
230 Node *SplitterNode::simpleClone(ComposedNode *father, bool editionOnly) const
232 return new SplitterNode(*this,(ForEachLoopGen *)father);
235 unsigned SplitterNode::getNumberOfElements() const
237 return _dataPortToDispatch.getNumberOfElements();
240 void SplitterNode::execute()
242 //Nothing : should never been called elsewhere big problem...
245 void SplitterNode::init(bool start)
247 ElementaryNode::init(start);
248 _dataPortToDispatch.exInit(start);
251 void SplitterNode::putSplittedValueOnRankTo(int rankInSeq, int branch, bool first)
253 Any *valueToDispatch=_dataPortToDispatch.getValueAtRank(rankInSeq);
254 ForEachLoopGen *fatherTyped=(ForEachLoopGen *)_father;
255 fatherTyped->putValueOnBranch(valueToDispatch,branch,first);
256 valueToDispatch->decrRef();
259 FakeNodeForForEachLoop::FakeNodeForForEachLoop(ForEachLoopGen *loop, bool normalFinish):ElementaryNode(NAME),
261 _normalFinish(normalFinish)
263 _state=YACS::TOACTIVATE;
264 _father=_loop->getFather();
267 FakeNodeForForEachLoop::FakeNodeForForEachLoop(const FakeNodeForForEachLoop& other):ElementaryNode(other),_loop(0),
272 Node *FakeNodeForForEachLoop::simpleClone(ComposedNode *father, bool editionOnly) const
274 return new FakeNodeForForEachLoop(*this);
277 void FakeNodeForForEachLoop::exForwardFailed()
279 _loop->exForwardFailed();
282 void FakeNodeForForEachLoop::exForwardFinished()
284 _loop->exForwardFinished();
287 void FakeNodeForForEachLoop::execute()
290 throw Exception("");//only to trigger ABORT on Executor
292 _loop->pushAllSequenceValues();
295 void FakeNodeForForEachLoop::aborted()
297 _loop->setState(YACS::ERROR);
300 void FakeNodeForForEachLoop::finished()
302 _loop->setState(YACS::DONE);
305 ForEachLoopPassedData::ForEachLoopPassedData(const std::vector<unsigned int>& passedIds, const std::vector<SequenceAny *>& passedOutputs, const std::vector<std::string>& nameOfOutputs):_passedIds(passedIds),_passedOutputs(passedOutputs),_nameOfOutputs(nameOfOutputs)
307 std::size_t sz(_passedIds.size()),sz1(passedOutputs.size()),sz2(nameOfOutputs.size());
309 throw YACS::Exception("ForEachLoopPassedData::ForEachLoopPassedData : nameOfOutputs and passedOutputs must have the same size !");
310 for(std::vector<SequenceAny *>::iterator it=_passedOutputs.begin();it!=_passedOutputs.end();it++)
312 const SequenceAny *elt(*it);
314 if(sz!=(std::size_t)elt->size())
315 throw YACS::Exception("ForEachLoopPassedData::ForEachLoopPassedData : incoherent input of passed data !");
317 for(std::vector<SequenceAny *>::iterator it=_passedOutputs.begin();it!=_passedOutputs.end();it++)
319 SequenceAny *elt(*it);
325 ForEachLoopPassedData::ForEachLoopPassedData(const ForEachLoopPassedData& copy)
326 : _passedIds(copy._passedIds),
327 _passedOutputs(copy._passedOutputs),
328 _nameOfOutputs(copy._nameOfOutputs),
329 _flagsIds(copy._flagsIds)
333 ForEachLoopPassedData::~ForEachLoopPassedData()
335 for(std::vector<SequenceAny *>::iterator it=_passedOutputs.begin();it!=_passedOutputs.end();it++)
337 SequenceAny *elt(*it);
343 void ForEachLoopPassedData::init()
348 void ForEachLoopPassedData::checkCompatibilyWithNb(int nbOfElts) const
351 throw YACS::Exception("ForEachLoopPassedData::checkCompatibilyWithNb : nb of elts is expected to be > 0 !");
352 std::size_t sizeExp(_passedIds.size()),nbOfElts2(nbOfElts);
353 if(nbOfElts2<sizeExp)
354 throw YACS::Exception("ForEachLoopPassedData::checkCompatibilyWithNb : Invalid nb of elemts in input seq regarding passed data set !");
355 for(std::vector<unsigned int>::const_iterator it=_passedIds.begin();it!=_passedIds.end();it++)
358 throw YACS::Exception("ForEachLoopPassedData::checkCompatibilyWithNb : Invalid nb of elemts in input seq regarding passed data set 2 !");
360 _flagsIds.resize(nbOfElts);
361 std::fill(_flagsIds.begin(),_flagsIds.end(),false);
362 for(std::vector<unsigned int>::const_iterator it=_passedIds.begin();it!=_passedIds.end();it++)
370 std::ostringstream oss; oss << "ForEachLoopPassedData::checkCompatibilyWithNb : id " << *it << " in list of ids appears more than once !";
371 throw YACS::Exception(oss.str());
376 std::ostringstream oss; oss << "ForEachLoopPassedData::checkCompatibilyWithNb : Presence of id " << *it << " in list of ids ! Must be in [0," << nbOfElts << ") !";
377 throw YACS::Exception(oss.str());
382 void ForEachLoopPassedData::checkLevel2(const std::vector<AnyInputPort *>& ports) const
384 std::size_t sz(_nameOfOutputs.size());
386 throw YACS::Exception("ForEachLoopPassedData::checkLevel2 : mismatch of size of vectors !");
387 for(std::size_t i=0;i<sz;i++)
389 AnyInputPort *elt(ports[i]);
391 throw YACS::Exception("ForEachLoopPassedData::checkLevel2 : presence of null instance !");
392 if(_nameOfOutputs[i]!=elt->getName())
394 std::ostringstream oss; oss << "ForEachLoopPassedData::checkLevel2 : At pos #" << i << " the name is not OK !";
395 throw YACS::Exception(oss.str());
401 * performs local to abs id. Input \a localId refers to an id in all jobs to perform. Returned id refers to pos in whole output sequences.
403 int ForEachLoopPassedData::toAbsId(int localId) const
406 throw YACS::Exception("ForEachLoopPassedData::toAbsId : local pos must be >= 0 !");
407 int ret(0),curLocId(0);
408 for(std::vector<bool>::const_iterator it=_flagsIds.begin();it!=_flagsIds.end();it++,ret++)
412 if(localId==curLocId)
417 throw YACS::Exception("ForEachLoopPassedData::toAbsId : not referenced Id !");
421 * Equivalent to toAbsId except that only ON are considered here.
423 int ForEachLoopPassedData::toAbsIdNot(int localId) const
426 throw YACS::Exception("ForEachLoopPassedData::toAbsIdNot : local pos must be >= 0 !");
427 int ret(0),curLocId(0);
428 for(std::vector<bool>::const_iterator it=_flagsIds.begin();it!=_flagsIds.end();it++,ret++)
430 if(*it)//<- diff is here !
432 if(localId==curLocId)
437 throw YACS::Exception("ForEachLoopPassedData::toAbsIdNot : not referenced Id !");
440 int ForEachLoopPassedData::getNumberOfElementsToDo() const
442 std::size_t nbAllElts(_flagsIds.size());
443 std::size_t ret(nbAllElts-_passedIds.size());
447 void ForEachLoopPassedData::assignAlreadyDone(const std::vector<SequenceAny *>& execVals) const
449 std::size_t sz(execVals.size());
450 if(_passedOutputs.size()!=sz)
451 throw YACS::Exception("ForEachLoopPassedData::assignedAlreadyDone : mismatch of size of vectors !");
452 for(std::size_t i=0;i<sz;i++)
454 SequenceAny *elt(_passedOutputs[i]);
455 SequenceAny *eltDestination(execVals[i]);
457 throw YACS::Exception("ForEachLoopPassedData::assignedAlreadyDone : presence of null elt !");
458 unsigned int szOfElt(elt->size());
459 for(unsigned int j=0;j<szOfElt;j++)
461 AnyPtr elt1((*elt)[j]);
462 int jAbs(toAbsIdNot(j));
463 eltDestination->setEltAtRank(jAbs,elt1);
468 ForEachLoopGen::ForEachLoopGen(const std::string& name, TypeCode *typeOfDataSplitted, std::unique_ptr<NbBranchesAbstract>&& branchManager):
469 DynParaLoop(name,typeOfDataSplitted,std::move(branchManager)),
470 _splitterNode(NAME_OF_SPLITTERNODE,typeOfDataSplitted,this),
471 _execCurrentId(0),_nodeForSpecialCases(0),_currentIndex(0),_passedData(0)
475 ForEachLoopGen::ForEachLoopGen(const ForEachLoopGen& other, ComposedNode *father, bool editionOnly):DynParaLoop(other,father,editionOnly),
476 _splitterNode(other._splitterNode,this),
477 _execCurrentId(0),_nodeForSpecialCases(0),_currentIndex(0),_passedData(0)
481 for(vector<AnySplitOutputPort *>::const_iterator iter2=other._outGoingPorts.begin();iter2!=other._outGoingPorts.end();iter2++,i++)
483 AnySplitOutputPort *temp=new AnySplitOutputPort(*(*iter2),this);
484 InterceptorInputPort *interc=new InterceptorInputPort(*other._intecptrsForOutGoingPorts[i],this);
485 temp->addRepr(getOutPort(other.getOutPortName((*iter2)->getRepr())),interc);
486 interc->setRepr(temp);
487 _outGoingPorts.push_back(temp);
488 _intecptrsForOutGoingPorts.push_back(interc);
492 ForEachLoopGen::~ForEachLoopGen()
495 for(vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();iter!=_outGoingPorts.end();iter++)
497 for(vector<InterceptorInputPort *>::iterator iter2=_intecptrsForOutGoingPorts.begin();iter2!=_intecptrsForOutGoingPorts.end();iter2++)
502 void ForEachLoopGen::init(bool start)
504 DynParaLoop::init(start);
505 _splitterNode.init(start);
514 void ForEachLoopGen::exUpdateState()
516 DEBTRACE("ForEachLoopGen::exUpdateState");
517 if(_state == YACS::DISABLED)
519 if(_state == YACS::DONE)
521 if(_inGate.exIsReady())
523 //internal graph update
525 int nbOfElts(_splitterNode.getNumberOfElements()),nbOfEltsDone(0);
526 int nbOfBr(_nbOfBranches->getNumberOfBranches(nbOfElts));
529 _passedData->checkCompatibilyWithNb(nbOfElts);
530 nbOfEltsDone=_passedData->getNumberOfEltsAlreadyDone();
532 int nbOfEltsToDo(nbOfElts-nbOfEltsDone);
534 DEBTRACE("nbOfElts=" << nbOfElts);
535 DEBTRACE("nbOfBr=" << nbOfBr);
539 prepareSequenceValues(0);
540 delete _nodeForSpecialCases;
541 _nodeForSpecialCases=new FakeNodeForForEachLoop(this,true);
542 setState(YACS::ACTIVATED);
547 delete _nodeForSpecialCases;
548 _nodeForSpecialCases=new FakeNodeForForEachLoop(this,getAllOutPortsLeavingCurrentScope().empty());
549 setState(YACS::ACTIVATED);
552 if(nbOfBr>nbOfEltsToDo)
554 _execNodes.resize(nbOfBr);
555 _execIds.resize(nbOfBr);
556 _execOutGoingPorts.resize(nbOfBr);
557 prepareSequenceValues(nbOfElts);
559 _execInitNodes.resize(nbOfBr);
560 _initializingCounter = 0;
562 _execFinalizeNodes.resize(nbOfBr);
564 vector<Node *> origNodes;
565 origNodes.push_back(_initNode);
566 origNodes.push_back(_node);
567 origNodes.push_back(_finalizeNode);
569 //Conversion exceptions can be thrown by createOutputOutOfScopeInterceptors
570 //so catch them to control errors
573 for(i=0;i<nbOfBr;i++)
575 DEBTRACE( "-------------- 2" );
576 vector<Node *> clonedNodes = cloneAndPlaceNodesCoherently(origNodes);
578 _execInitNodes[i] = clonedNodes[0];
579 _execNodes[i] = clonedNodes[1];
581 _execFinalizeNodes[i] = clonedNodes[2];
582 DEBTRACE( "-------------- 4" );
583 prepareInputsFromOutOfScope(i);
584 DEBTRACE( "-------------- 5" );
585 createOutputOutOfScopeInterceptors(i);
586 DEBTRACE( "-------------- 6" );
588 for(i=0;i<nbOfBr;i++)
590 DEBTRACE( "-------------- 1 " << i << " " << _execCurrentId);
591 _execIds[i]=_execCurrentId;
592 int posInAbs(_execCurrentId);
594 posInAbs=_passedData->toAbsId(_execCurrentId);
595 _splitterNode.putSplittedValueOnRankTo(posInAbs,i,true);
597 DEBTRACE( "-------------- 7" );
601 _passedData->checkLevel2(_execOutGoingPorts[0]);
602 _passedData->assignAlreadyDone(_execVals);
604 // clean inputs data coming from the outside in _node
605 set< InPort * > portsToSetVals=getAllInPortsComingFromOutsideOfCurrentScope();
606 for(auto iter : portsToSetVals)
608 InputPort *curPortCasted=(InputPort *) iter;//Cast granted by ForEachLoopGen::buildDelegateOf(InPort)
609 if(!curPortCasted->canSafelySqueezeMemory())// this can appear strange ! if not safelySqueeze -> release. Nevertheless it is true.
610 curPortCasted->releaseData(); // these input ports have been incremented with InputPort::put into DynParaLoop::prepareInputsFromOutOfScope. So they can be released now.
613 catch(YACS::Exception& ex)
615 //ForEachLoop must be put in error and the exception rethrown to notify the caller
616 DEBTRACE( "ForEachLoopGen::exUpdateState: " << ex.what() );
617 setState(YACS::ERROR);
618 setErrorDetails(ex.what());
623 setState(YACS::ACTIVATED); // move the calling of setState method there for adding observers for clone nodes in GUI part
626 for(i=0;i<nbOfBr;i++)
629 _execInitNodes[i]->exUpdateState();
630 _initializingCounter++;
635 _execNodes[i]->exUpdateState();
638 forwardExecStateToOriginalBody(_execNodes[nbOfBr-1]);
642 void ForEachLoopGen::exUpdateProgress()
644 // emit notification to all observers registered with the dispatcher on any change of the node's state
645 sendEvent("progress");
648 void ForEachLoopGen::getReadyTasks(std::vector<Task *>& tasks)
652 if(_state==YACS::TOACTIVATE) setState(YACS::ACTIVATED);
653 if(_state==YACS::TOACTIVATE || _state==YACS::ACTIVATED)
655 if(_nodeForSpecialCases)
657 _nodeForSpecialCases->getReadyTasks(tasks);
660 vector<Node *>::iterator iter;
661 for (iter=_execNodes.begin() ; iter!=_execNodes.end() ; iter++)
662 (*iter)->getReadyTasks(tasks);
663 for (iter=_execInitNodes.begin() ; iter!=_execInitNodes.end() ; iter++)
664 (*iter)->getReadyTasks(tasks);
665 for (iter=_execFinalizeNodes.begin() ; iter!=_execFinalizeNodes.end() ; iter++)
666 (*iter)->getReadyTasks(tasks);
670 int ForEachLoopGen::getNumberOfInputPorts() const
672 return DynParaLoop::getNumberOfInputPorts()+1;
675 void ForEachLoopGen::checkNoCyclePassingThrough(Node *node)
680 void ForEachLoopGen::selectRunnableTasks(std::vector<Task *>& tasks)
684 std::list<InputPort *> ForEachLoopGen::getSetOfInputPort() const
686 list<InputPort *> ret=DynParaLoop::getSetOfInputPort();
687 ret.push_back((InputPort *)&_splitterNode._dataPortToDispatch);
691 std::list<InputPort *> ForEachLoopGen::getLocalInputPorts() const
693 list<InputPort *> ret=DynParaLoop::getLocalInputPorts();
694 ret.push_back((InputPort *)&_splitterNode._dataPortToDispatch);
698 InputPort *ForEachLoopGen::getInputPort(const std::string& name) const
700 if(name==SplitterNode::NAME_OF_SEQUENCE_INPUT)
701 return (InputPort *)&_splitterNode._dataPortToDispatch;
703 return DynParaLoop::getInputPort(name);
706 OutputPort *ForEachLoopGen::getOutputPort(const std::string& name) const
708 for(vector<AnySplitOutputPort *>::const_iterator iter=_outGoingPorts.begin();iter!=_outGoingPorts.end();iter++)
710 if(name==(*iter)->getName())
711 return (OutputPort *)(*iter);
713 return DynParaLoop::getOutputPort(name);
716 OutPort *ForEachLoopGen::getOutPort(const std::string& name) const
718 for(vector<AnySplitOutputPort *>::const_iterator iter=_outGoingPorts.begin();iter!=_outGoingPorts.end();iter++)
720 if(name==(*iter)->getName())
721 return (OutPort *)(*iter);
723 return DynParaLoop::getOutPort(name);
726 Node *ForEachLoopGen::getChildByShortName(const std::string& name) const
728 if(name==NAME_OF_SPLITTERNODE)
729 return (Node *)&_splitterNode;
731 return DynParaLoop::getChildByShortName(name);
734 //! Method used to notify the node that a child node has finished
736 * Update the current state and return the change state
738 * \param node : the child node that has finished
739 * \return the state change
741 YACS::Event ForEachLoopGen::updateStateOnFinishedEventFrom(Node *node)
743 DEBTRACE("updateStateOnFinishedEventFrom " << node->getName() << " " << node->getState());
745 switch(getIdentityOfNotifyerNode(node,id))
748 return updateStateForInitNodeOnFinishedEventFrom(node,id);
750 return updateStateForWorkNodeOnFinishedEventFrom(node,id,true);
752 return updateStateForFinalizeNodeOnFinishedEventFrom(node,id);
756 return YACS::NOEVENT;
759 YACS::Event ForEachLoopGen::updateStateForInitNodeOnFinishedEventFrom(Node *node, unsigned int id)
761 _execNodes[id]->exUpdateState();
763 _initializingCounter--;
765 if (_initializingCounter == 0)
766 _initNode->setState(DONE);
767 return YACS::NOEVENT;
771 * \param [in] isNormalFinish - if true
773 YACS::Event ForEachLoopGen::updateStateForWorkNodeOnFinishedEventFrom(Node *node, unsigned int id, bool isNormalFinish)
779 int globalId(_execIds[id]);
781 globalId=_passedData->toAbsId(globalId);
782 sendEvent2("progress_ok",&globalId);
783 storeOutValsInSeqForOutOfScopeUse(globalId,id);
787 int globalId(_execIds[id]);
789 globalId=_passedData->toAbsId(globalId);
790 sendEvent2("progress_ko",&globalId);
793 if(_execCurrentId==getFinishedId())
794 {//No more elements of _dataPortToDispatch to treat
795 _execIds[id]=NOT_RUNNING_BRANCH_ID;
796 //analyzing if some samples are still on treatment on other branches.
797 bool isFinished(true);
798 for(int i=0;i<_execIds.size() && isFinished;i++)
799 isFinished=(_execIds[i]==NOT_RUNNING_BRANCH_ID);
804 if(_failedCounter!=0)
805 {// case of keepgoing mode + a failed
806 std::ostringstream oss; oss << "Keep Going mode activated and some errors (" << _failedCounter << ")reported !";
807 DEBTRACE("ForEachLoopGen::updateStateOnFinishedEventFrom : "<< oss.str());
808 setState(YACS::FAILED);
811 pushAllSequenceValues();
815 _node->setState(YACS::DONE);
817 ComposedNode* compNode = dynamic_cast<ComposedNode*>(_node);
820 std::list<Node *> aChldn = compNode->getAllRecursiveConstituents();
821 std::list<Node *>::iterator iter=aChldn.begin();
822 for(;iter!=aChldn.end();iter++)
823 (*iter)->setState(YACS::DONE);
827 if (_finalizeNode == NULL)
829 // No finalize node, we just finish the loop at the end of exec nodes execution
830 setState(YACS::DONE);
835 // Run the finalize nodes, the loop will be done only when they all finish
836 _unfinishedCounter = 0; // This counter indicates how many branches are not finished
837 for (int i=0 ; i<_execIds.size() ; i++)
839 YASSERT(_execIds[i] == NOT_RUNNING_BRANCH_ID);
840 DEBTRACE("Launching finalize node for branch " << i);
841 _execFinalizeNodes[i]->exUpdateState();
842 _unfinishedCounter++;
844 return YACS::NOEVENT;
847 catch(YACS::Exception& ex)
849 DEBTRACE("ForEachLoopGen::updateStateOnFinishedEventFrom: "<<ex.what());
850 //no way to push results : put following nodes in FAILED state
851 //TODO could be more fine grain : put only concerned nodes in FAILED state
853 setState(YACS::ERROR);
858 else if(_state == YACS::ACTIVATED)
859 {//more elements to do and loop still activated
860 _execIds[id]=_execCurrentId;
861 int posInAbs(_execCurrentId);
863 posInAbs=_passedData->toAbsId(_execCurrentId);
864 _splitterNode.putSplittedValueOnRankTo(posInAbs,id,false);
865 //forwardExecStateToOriginalBody(node);
868 node->exUpdateState();
869 //forwardExecStateToOriginalBody(node);
873 {//elements to process and loop no more activated
874 DEBTRACE("foreach loop state " << _state);
876 return YACS::NOEVENT;
879 YACS::Event ForEachLoopGen::updateStateForFinalizeNodeOnFinishedEventFrom(Node *node, unsigned int id)
881 DEBTRACE("Finalize node finished on branch " << id);
882 _unfinishedCounter--;
885 DEBTRACE(_unfinishedCounter << " finalize nodes still running");
886 if (_unfinishedCounter == 0)
888 _finalizeNode->setState(YACS::DONE);
889 setState(YACS::DONE);
893 return YACS::NOEVENT;
896 YACS::Event ForEachLoopGen::updateStateOnFailedEventFrom(Node *node, const Executor *execInst)
899 DynParaLoop::TypeOfNode ton(getIdentityOfNotifyerNode(node,id));
900 // TODO: deal with keepgoing without the dependency to Executor
901 if(ton!=WORK_NODE || !execInst->getKeepGoingProperty())
902 return DynParaLoop::updateStateOnFailedEventFrom(node,execInst);
906 return updateStateForWorkNodeOnFinishedEventFrom(node,id,false);
910 void ForEachLoopGen::InterceptorizeNameOfPort(std::string& portName)
912 std::replace_if(portName.begin(), portName.end(), std::bind1st(std::equal_to<char>(), '.'), '_');
913 portName += INTERCEPTOR_STR;
916 void ForEachLoopGen::buildDelegateOf(std::pair<OutPort *, OutPort *>& port, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView)
918 DynParaLoop::buildDelegateOf(port,finalTarget,pointsOfView);
919 string typeOfPortInstance=(port.first)->getNameOfTypeOfCurrentInstance();
920 if(typeOfPortInstance==OutputPort::NAME)
922 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
924 for(;iter!=_outGoingPorts.end();iter++,i++)
925 if((*iter)->getRepr()==port.first || *iter==port.first)
927 if(iter!=_outGoingPorts.end())
929 if(*iter!=port.first)
932 (*iter)->addRepr(port.first,_intecptrsForOutGoingPorts[i]);
938 TypeCode *tcTrad((YACS::ENGINE::TypeCode*)finalTarget->edGetType()->subContentType(getFEDeltaBetween(port.first,finalTarget)));
939 TypeCodeSeq *newTc=(TypeCodeSeq *)TypeCode::sequenceTc("","",tcTrad);
940 // The out going ports belong to the ForEachLoop, whereas
941 // the delegated port belongs to a node child of the ForEachLoop.
942 // The name of the delegated port contains dots (bloc.node.outport),
943 // whereas the name of the out going port shouldn't do.
944 std::string outputPortName(getPortName(port.first));
945 InterceptorizeNameOfPort(outputPortName);
946 AnySplitOutputPort *newPort(new AnySplitOutputPort(outputPortName,this,newTc));
947 InterceptorInputPort *intercptor(new InterceptorInputPort(outputPortName + "_in",this,tcTrad));
948 intercptor->setRepr(newPort);
950 newPort->addRepr(port.first,intercptor);
951 _outGoingPorts.push_back(newPort);
952 _intecptrsForOutGoingPorts.push_back(intercptor);
957 throw Exception("ForEachLoopGen::buildDelegateOf : not implemented for DS because not specified");
960 void ForEachLoopGen::getDelegateOf(std::pair<OutPort *, OutPort *>& port, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView)
962 string typeOfPortInstance=(port.first)->getNameOfTypeOfCurrentInstance();
963 if(typeOfPortInstance==OutputPort::NAME)
965 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
966 for(;iter!=_outGoingPorts.end();iter++)
967 if((*iter)->getRepr()==port.first)
969 if(iter==_outGoingPorts.end())
971 string what("ForEachLoopGen::getDelegateOf : Port with name "); what+=port.first->getName(); what+=" not exported by ForEachLoop "; what+=_name;
972 throw Exception(what);
978 throw Exception("ForEachLoopGen::getDelegateOf : not implemented because not specified");
981 void ForEachLoopGen::releaseDelegateOf(OutPort *portDwn, OutPort *portUp, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView)
983 string typeOfPortInstance=portDwn->getNameOfTypeOfCurrentInstance();
984 if(typeOfPortInstance==OutputPort::NAME)
986 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
987 vector<InterceptorInputPort *>::iterator iter2=_intecptrsForOutGoingPorts.begin();
988 for(;iter!=_outGoingPorts.end();iter++,iter2++)
989 if((*iter)->getRepr()==portDwn)
991 //ASSERT(portUp==*iter.second)
992 if((*iter)->decrRef())
994 AnySplitOutputPort *p=*iter;
995 _outGoingPorts.erase(iter);
997 InterceptorInputPort *ip=*iter2;
998 _intecptrsForOutGoingPorts.erase(iter2);
1004 OutPort *ForEachLoopGen::getDynOutPortByAbsName(int branchNb, const std::string& name)
1006 string portName, nodeName;
1007 splitNamesBySep(name,Node::SEP_CHAR_IN_PORT,nodeName,portName,false);
1008 Node *staticChild = getChildByName(nodeName);
1009 return _execNodes[branchNb]->getOutPort(portName);//It's impossible(garanteed by YACS::ENGINE::ForEachLoopGen::buildDelegateOf)
1010 //that a link starting from _initNode goes out of scope of 'this'.
1013 void ForEachLoopGen::cleanDynGraph()
1015 DynParaLoop::cleanDynGraph();
1016 for(vector< SequenceAny *>::iterator iter3=_execVals.begin();iter3!=_execVals.end();iter3++)
1017 (*iter3)->decrRef();
1019 for(vector< vector<AnyInputPort *> >::iterator iter4=_execOutGoingPorts.begin();iter4!=_execOutGoingPorts.end();iter4++)
1020 for(vector<AnyInputPort *>::iterator iter5=(*iter4).begin();iter5!=(*iter4).end();iter5++)
1022 _execOutGoingPorts.clear();
1025 void ForEachLoopGen::storeOutValsInSeqForOutOfScopeUse(int rank, int branchNb)
1027 vector<AnyInputPort *>::iterator iter;
1029 for(iter=_execOutGoingPorts[branchNb].begin();iter!=_execOutGoingPorts[branchNb].end();iter++,i++)
1031 Any *val=(Any *)(*iter)->getValue();
1032 _execVals[i]->setEltAtRank(rank,val);
1036 int ForEachLoopGen::getFinishedId()
1039 return _splitterNode.getNumberOfElements();
1041 return _passedData->getNumberOfElementsToDo();
1044 void ForEachLoopGen::prepareSequenceValues(int sizeOfSamples)
1046 _execVals.resize(_outGoingPorts.size());
1047 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
1048 for(int i=0;iter!=_outGoingPorts.end();iter++,i++)
1049 _execVals[i]=SequenceAny::New((*iter)->edGetType()->contentType(),sizeOfSamples);
1052 void ForEachLoopGen::pushAllSequenceValues()
1054 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
1056 for(;iter!=_outGoingPorts.end();iter++,i++)
1057 (*iter)->put((const void *)_execVals[i]);
1060 void ForEachLoopGen::createOutputOutOfScopeInterceptors(int branchNb)
1062 vector<AnySplitOutputPort *>::iterator iter=_outGoingPorts.begin();
1064 for(;iter!=_outGoingPorts.end();iter++,i++)
1066 DEBTRACE( (*iter)->getName() << " " << (*iter)->edGetType()->kind() );
1067 //AnyInputPort *interceptor=new AnyInputPort((*iter)->getName(),this,(*iter)->edGetType());
1068 OutPort *portOut=getDynOutPortByAbsName(branchNb,getOutPortName(((*iter)->getRepr())));
1069 DEBTRACE( portOut->getName() );
1070 TypeCode *tc((TypeCode *)(*iter)->edGetType()->contentType());
1071 AnyInputPort *interceptor=new AnyInputPort((*iter)->getName(),this,tc);
1072 portOut->addInPort(interceptor);
1073 _execOutGoingPorts[branchNb].push_back(interceptor);
1077 void ForEachLoopGen::checkLinkPossibility(OutPort *start, const std::list<ComposedNode *>& pointsOfViewStart,
1078 InPort *end, const std::list<ComposedNode *>& pointsOfViewEnd)
1080 DynParaLoop::checkLinkPossibility(start, pointsOfViewStart, end, pointsOfViewEnd);
1081 if(end->getNode() == &_splitterNode)
1082 throw Exception("Illegal link within a foreach loop: \
1083 the 'SmplsCollection' port cannot be linked within the scope of the loop.");
1084 if(end == _nbOfBranches->getPort())
1085 throw Exception("Illegal link within a foreach loop: \
1086 the 'nbBranches' port cannot be linked within the scope of the loop.");
1089 std::list<OutputPort *> ForEachLoopGen::getLocalOutputPorts() const
1091 list<OutputPort *> ret;
1092 ret.push_back(getOutputPort(NAME_OF_SPLITTED_SEQ_OUT));
1096 //! Dump the node state to a stream
1098 * \param os : the output stream
1100 void ForEachLoopGen::writeDot(std::ostream &os) const
1102 os << " subgraph cluster_" << getId() << " {\n" ;
1103 //only one node in a loop
1106 _node->writeDot(os);
1107 os << getId() << " -> " << _node->getId() << ";\n";
1110 os << getId() << "[fillcolor=\"" ;
1111 YACS::StatesForNode state=getEffectiveState();
1112 os << getColorState(state);
1113 os << "\" label=\"" << "Loop:" ;
1114 os << getName() <<"\"];\n";
1117 //! Reset the state of the node and its children depending on the parameter level
1118 void ForEachLoopGen::resetState(int level)
1121 DynParaLoop::resetState(level);
1126 std::string ForEachLoopGen::getProgress() const
1128 int nbElems(getNbOfElementsToBeProcessed());
1129 std::stringstream aProgress;
1131 aProgress << _currentIndex << "/" << nbElems;
1134 return aProgress.str();
1137 //! Get the progress weight for all elementary nodes
1139 * Only elementary nodes have weight. For each node in the loop, the weight done is multiplied
1140 * by the number of elements done and the weight total by the number total of elements
1142 list<ProgressWeight> ForEachLoopGen::getProgressWeight() const
1144 list<ProgressWeight> ret;
1145 list<Node *> setOfNode=edGetDirectDescendants();
1146 int elemDone=getCurrentIndex();
1147 int elemTotal=getNbOfElementsToBeProcessed();
1148 for(list<Node *>::const_iterator iter=setOfNode.begin();iter!=setOfNode.end();iter++)
1150 list<ProgressWeight> myCurrentSet=(*iter)->getProgressWeight();
1151 for(list<ProgressWeight>::iterator iter=myCurrentSet.begin();iter!=myCurrentSet.end();iter++)
1153 (*iter).weightDone=((*iter).weightTotal) * elemDone;
1154 (*iter).weightTotal*=elemTotal;
1156 ret.insert(ret.end(),myCurrentSet.begin(),myCurrentSet.end());
1161 int ForEachLoopGen::getNbOfElementsToBeProcessed() const
1163 int nbOfElems(_splitterNode.getNumberOfElements());
1164 int nbBranches = _nbOfBranches->getNumberOfBranches(nbOfElems);
1166 + (_initNode ? nbBranches:0)
1167 + (_finalizeNode ? nbBranches:0) ;
1171 * This method allows to retrieve the state of \a this during execution or after. This method works even if this is \b NOT complete, or during execution or after a failure in \a this.
1172 * The typical usage of this method is to retrieve the results of items that passed successfully to avoid to lose all of them if only one fails.
1173 * This method has one input \a execut and 3 outputs.
1175 * \param [in] execut - The single input is for threadsafety reasons because this method can be called safely during the execution of \a this.
1176 * \param [out] outputs - For each output ports in \a this linked with nodes sharing the same father than \a this the passed results are stored.
1177 * All of the items in \a outputs have the same size.
1178 * \param [out] nameOfOutputs - The array with same size than \a outputs, that tells for each item in outputs the output port it refers to.
1179 * \return the list of ids among \c this->edGetSeqOfSamplesPort() that run successfully. The length of this returned array will be the length of all
1180 * SequenceAny objects contained in \a outputs.
1182 * \sa edGetSeqOfSamplesPort
1184 std::vector<unsigned int> ForEachLoopGen::getPassedResults(Executor *execut, std::vector<SequenceAny *>& outputs, std::vector<std::string>& nameOfOutputs) const
1186 YACS::BASES::AutoLocker<YACS::BASES::Mutex> alck(&(execut->getTheMutexForSchedulerUpdate()));
1187 if(_execVals.empty())
1188 return std::vector<unsigned int>();
1189 if(_execOutGoingPorts.empty())
1190 return std::vector<unsigned int>();
1191 std::size_t sz(_execVals.size());
1193 nameOfOutputs.resize(sz);
1194 const std::vector<AnyInputPort *>& ports(_execOutGoingPorts[0]);
1195 for(std::size_t i=0;i<sz;i++)
1197 outputs[i]=_execVals[i]->removeUnsetItemsFromThis();
1198 nameOfOutputs[i]=ports[i]->getName();
1200 return _execVals[0]->getSetItems();
1204 * This method is typically useful for post-mortem relaunch to avoid to recompute already passed cases. This method takes in input exactly the parameters retrieved by
1205 * getPassedResults method.
1207 void ForEachLoopGen::assignPassedResults(const std::vector<unsigned int>& passedIds, const std::vector<SequenceAny *>& passedOutputs, const std::vector<std::string>& nameOfOutputs)
1211 _passedData=new ForEachLoopPassedData(passedIds,passedOutputs,nameOfOutputs);
1214 int ForEachLoopGen::getFEDeltaBetween(OutPort *start, InPort *end)
1216 Node *ns(start->getNode()),*ne(end->getNode());
1217 ComposedNode *co(getLowestCommonAncestor(ns,ne));
1222 ForEachLoopGen *isFE(dynamic_cast<ForEachLoopGen *>(work));
1225 work=work->getFather();
1227 if(dynamic_cast<AnySplitOutputPort *>(start))
1233 * This method is used to obtain the values already processed by the ForEachLoop.
1234 * A new ForEachLoopPassedData object is returned. You have to delete it.
1236 ForEachLoopPassedData* ForEachLoopGen::getProcessedData()const
1238 std::vector<SequenceAny *> outputs;
1239 std::vector<std::string> nameOfOutputs;
1240 if(_execVals.empty() || _execOutGoingPorts.empty())
1241 return new ForEachLoopPassedData(std::vector<unsigned int>(), outputs, nameOfOutputs);
1242 std::size_t sz(_execVals.size());
1244 nameOfOutputs.resize(sz);
1245 const std::vector<AnyInputPort *>& ports(_execOutGoingPorts[0]);
1246 for(std::size_t i=0;i<sz;i++)
1248 outputs[i]=_execVals[i]->removeUnsetItemsFromThis();
1249 nameOfOutputs[i]=ports[i]->getName();
1251 return new ForEachLoopPassedData(_execVals[0]->getSetItems(), outputs, nameOfOutputs);
1254 void ForEachLoopGen::setProcessedData(ForEachLoopPassedData* processedData)
1258 _passedData = processedData;
1262 * \param portName : "interceptorized" name of port.
1264 const YACS::ENGINE::TypeCode* ForEachLoopGen::getOutputPortType(const std::string& portName)const
1266 const YACS::ENGINE::TypeCode* ret=NULL;
1267 vector<AnySplitOutputPort *>::const_iterator it;
1268 for(it=_outGoingPorts.begin();it!=_outGoingPorts.end() && ret==NULL;it++)
1270 std::string originalPortName(getPortName(*it));
1271 //InterceptorizeNameOfPort(originalPortName);
1272 DEBTRACE("ForEachLoopGen::getOutputPortType compare " << portName << " == " << originalPortName);
1273 if(originalPortName == portName)
1275 ret = (*it)->edGetType()->contentType();
1281 Node *ForEachLoop::simpleClone(ComposedNode *father, bool editionOnly) const
1283 return new ForEachLoop(*this,father,editionOnly);
1286 void ForEachLoop::accept(Visitor *visitor)
1288 visitor->visitForEachLoop(this);
1291 void ForEachLoopDyn::accept(Visitor *visitor)
1293 visitor->visitForEachLoopDyn(this);
1296 Node *ForEachLoopDyn::simpleClone(ComposedNode *father, bool editionOnly) const
1298 return new ForEachLoopDyn(*this,father,editionOnly);