-// Copyright (C) 2006-2008 CEA/DEN, EDF R&D
+// Copyright (C) 2006-2014 CEA/DEN, EDF R&D
//
-// This library is free software; you can redistribute it and/or
-// modify it under the terms of the GNU Lesser General Public
-// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
+// This library is free software; you can redistribute it and/or
+// modify it under the terms of the GNU Lesser General Public
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
//
-// This library is distributed in the hope that it will be useful,
-// but WITHOUT ANY WARRANTY; without even the implied warranty of
-// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-// Lesser General Public License for more details.
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+// Lesser General Public License for more details.
//
-// You should have received a copy of the GNU Lesser General Public
-// License along with this library; if not, write to the Free Software
-// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
+// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
-// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
+
#include "Loop.hxx"
#include "InputPort.hxx"
#include "OutputPort.hxx"
repr.insert(s.begin(),s.end());
}
-void *InputPort4DF2DS::get() const throw(Exception)
+void *InputPort4DF2DS::get() const throw(YACS::Exception)
{
if(!_data)
{
DFToDSForLoop::~DFToDSForLoop()
{
+ edDisconnectAllLinksWithMe();
}
void DFToDSForLoop::getReadyTasks(std::vector<Task *>& tasks)
{
}
-InputPort *DFToDSForLoop::getInputPort(const std::string& name) const throw(Exception)
+InputPort *DFToDSForLoop::getInputPort(const std::string& name) const throw(YACS::Exception)
{
+ try {
+ return Node::getInputPort(name);
+ }
+ catch(Exception& e) {}
+
list<InputPort *>::const_iterator it =_setOfInputPort.begin();
return (*it);
}
-OutputDataStreamPort *DFToDSForLoop::getOutputDataStreamPort(const std::string& name) const throw(Exception)
+OutputDataStreamPort *DFToDSForLoop::getOutputDataStreamPort(const std::string& name) const throw(YACS::Exception)
{
list<OutputDataStreamPort *>::const_iterator it =_setOfOutputDataStreamPort.begin();
return (*it);
DSToDFForLoop::~DSToDFForLoop()
{
+ edDisconnectAllLinksWithMe();
}
void DSToDFForLoop::getReadyTasks(std::vector<Task *>& tasks)
{
}
-OutputPort *DSToDFForLoop::getOutputPort(const std::string& name) const throw(Exception)
+OutputPort *DSToDFForLoop::getOutputPort(const std::string& name) const throw(YACS::Exception)
{
list<OutputPort *>::const_iterator it = _setOfOutputPort.begin();
return (*it);
}
-InputDataStreamPort *DSToDFForLoop::getInputDataStreamPort(const std::string& name) const throw(Exception)
+InputDataStreamPort *DSToDFForLoop::getInputDataStreamPort(const std::string& name) const throw(YACS::Exception)
{
list<InputDataStreamPort *>::const_iterator it = _setOfInputDataStreamPort.begin();
return (*it);
void FakeNodeForLoop::exForwardFailed()
{
_loop->exForwardFailed();
- FakeNodeForLoop *normallyThis=_loop->_nodeForNullTurnOfLoops;
- _loop->_nodeForNullTurnOfLoops=0;
- delete normallyThis;
}
void FakeNodeForLoop::exForwardFinished()
{
_loop->exForwardFinished();
- FakeNodeForLoop *normallyThis=_loop->_nodeForNullTurnOfLoops;
- _loop->_nodeForNullTurnOfLoops=0;
- delete normallyThis;
}
void FakeNodeForLoop::execute()
Loop::~Loop()
{
delete _node;
- delete _nodeForNullTurnOfLoops;
+ if(_nodeForNullTurnOfLoops)delete _nodeForNullTurnOfLoops;
for(set<DSToDFForLoop *>::iterator iter1=_inputsTraducer.begin();iter1!=_inputsTraducer.end();iter1++)
delete (*iter1);
for(set<DFToDSForLoop *>::iterator iter2=_outputsTraducer.begin();iter2!=_outputsTraducer.end();iter2++)
return ret;
}
-bool Loop::edAddChild(Node *node) throw(Exception)
+bool Loop::edAddChild(Node *node) throw(YACS::Exception)
{
return edSetNode(node);
}
}
}
-void Loop::edRemoveChild(Node *node) throw(Exception)
+void Loop::edRemoveChild(Node *node) throw(YACS::Exception)
{
StaticDefinedComposedNode::edRemoveChild(node);
if(_node==node)
modified();
}
-void Loop::selectRunnableTasks(std::vector<Task *>& tasks)
-{
-}
-
std::list<Node *> Loop::edGetDirectDescendants() const
{
list<Node *> ret;
return StaticDefinedComposedNode::getNumberOfInputPorts()+1;
}
-Node *Loop::getChildByShortName(const std::string& name) const throw(Exception)
+Node *Loop::getChildByShortName(const std::string& name) const throw(YACS::Exception)
{
if (_node)
if(name==_node->getName())
throw Exception(what);
}
-TypeCode* Loop::MappingDF2DS(TypeCode* type) throw(Exception)
+TypeCode* Loop::MappingDF2DS(TypeCode* type) throw(YACS::Exception)
{
return type;
}
-TypeCode* Loop::MappingDS2DF(TypeCode* type) throw(Exception)
+TypeCode* Loop::MappingDS2DF(TypeCode* type) throw(YACS::Exception)
{
return type;
}
void Loop::buildDelegateOf(InPort * & port, OutPort *initialStart, const std::list<ComposedNode *>& pointsOfView)
{
string typeOfPortInstance=port->getNameOfTypeOfCurrentInstance();
- if(typeOfPortInstance!=InputPort::NAME or
- (typeOfPortInstance == InputPort::NAME and
- initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME and
+ if(typeOfPortInstance!=InputPort::NAME ||
+ (typeOfPortInstance == InputPort::NAME &&
+ initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME &&
!isNecessaryToBuildSpecificDelegateDF2DS(pointsOfView)) )
return ;
InputPort *portCasted=(InputPort *)port;
void Loop::buildDelegateOf(std::pair<OutPort *, OutPort *>& port, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView)
{
string typeOfPortInstance=(port.first)->getNameOfTypeOfCurrentInstance();
- if(typeOfPortInstance!=OutputPort::NAME or
- ( typeOfPortInstance == OutputPort::NAME and
- finalTarget->getNameOfTypeOfCurrentInstance()== InputPort::NAME and
+ if(typeOfPortInstance!=OutputPort::NAME ||
+ ( typeOfPortInstance == OutputPort::NAME &&
+ finalTarget->getNameOfTypeOfCurrentInstance()== InputPort::NAME &&
!isNecessaryToBuildSpecificDelegateDF2DS(pointsOfView)) )
return ;
OutPort *portCasted=port.first;
port.first=(*iter)->getOutputDataStreamPort("");
}
-void Loop::getDelegateOf(InPort * & port, OutPort *initialStart, const std::list<ComposedNode *>& pointsOfView) throw(Exception)
+void Loop::getDelegateOf(InPort * & port, OutPort *initialStart, const std::list<ComposedNode *>& pointsOfView) throw(YACS::Exception)
{
string typeOfPortInstance=port->getNameOfTypeOfCurrentInstance();
- if(typeOfPortInstance!=InputPort::NAME or
- (typeOfPortInstance == InputPort::NAME and
- initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME and
+ if(typeOfPortInstance!=InputPort::NAME ||
+ (typeOfPortInstance == InputPort::NAME &&
+ initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME &&
!isNecessaryToBuildSpecificDelegateDF2DS(pointsOfView)) )
return ;
InputPort *portCasted=(InputPort *)port;
}
void Loop::getDelegateOf(std::pair<OutPort *, OutPort *>& port, InPort *finalTarget,
- const std::list<ComposedNode *>& pointsOfView) throw(Exception)
+ const std::list<ComposedNode *>& pointsOfView) throw(YACS::Exception)
{
string typeOfPortInstance=(port.first)->getNameOfTypeOfCurrentInstance();
- if(typeOfPortInstance!=OutputPort::NAME or
- ( typeOfPortInstance == OutputPort::NAME and
- finalTarget->getNameOfTypeOfCurrentInstance()== InputPort::NAME and
+ if(typeOfPortInstance!=OutputPort::NAME ||
+ ( typeOfPortInstance == OutputPort::NAME &&
+ finalTarget->getNameOfTypeOfCurrentInstance()== InputPort::NAME &&
!isNecessaryToBuildSpecificDelegateDF2DS(pointsOfView)) )
return ;
OutPort *portCasted=port.first;
port.first=(*iter)->getOutputDataStreamPort("");
}
-void Loop::releaseDelegateOf(InPort * & port, OutPort *initialStart, const std::list<ComposedNode *>& pointsOfView) throw(Exception)
+void Loop::releaseDelegateOf(InPort * & port, OutPort *initialStart, const std::list<ComposedNode *>& pointsOfView) throw(YACS::Exception)
{
string typeOfPortInstance=port->getNameOfTypeOfCurrentInstance();
- if(typeOfPortInstance!=InputPort::NAME or
- ( typeOfPortInstance == InputPort::NAME and
- initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME and
+ if(typeOfPortInstance!=InputPort::NAME ||
+ ( typeOfPortInstance == InputPort::NAME &&
+ initialStart->getNameOfTypeOfCurrentInstance()== OutputPort::NAME &&
!isNecessaryToBuildSpecificDelegateDF2DS(pointsOfView)) )
return ;
InputPort *portCasted=(InputPort *)port;
}
}
-void Loop::releaseDelegateOf(OutPort *portDwn, OutPort *portUp, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView) throw(Exception)
+void Loop::releaseDelegateOf(OutPort *portDwn, OutPort *portUp, InPort *finalTarget, const std::list<ComposedNode *>& pointsOfView) throw(YACS::Exception)
{
if(portDwn==portUp)
return ;
}
}
-void Loop::checkNoCyclePassingThrough(Node *node) throw(Exception)
+void Loop::checkNoCyclePassingThrough(Node *node) throw(YACS::Exception)
{
//throw Exception("Loop::checkNoCyclePassingThrough : Internal error occured");
}
* \param end : the InPort to connect
* \return true if a new link has been created, false otherwise.
*/
-bool Loop::edAddDFLink(OutPort *start, InPort *end) throw(Exception)
+bool Loop::edAddDFLink(OutPort *start, InPort *end) throw(YACS::Exception)
{
return edAddLink(start,end);
}
fw[(ComposedNode *)this].push_back(start);
}
-void Loop::checkBasicConsistency() const throw(Exception)
+void Loop::checkBasicConsistency() const throw(YACS::Exception)
{
DEBTRACE("Loop::checkBasicConsistency");
ComposedNode::checkBasicConsistency();