From 57c2f4ea0148287d0bcea913cb34ba716489df4b Mon Sep 17 00:00:00 2001 From: Aleksandar Donchev Date: Tue, 26 Aug 2014 18:15:19 +0200 Subject: * Converter Implementation . Signed-off-by: Christian Linke --- AudioManagerDaemon/src/CAmRouter.cpp | 1114 ++++++++++++++++++++++++++-------- 1 file changed, 871 insertions(+), 243 deletions(-) (limited to 'AudioManagerDaemon/src/CAmRouter.cpp') diff --git a/AudioManagerDaemon/src/CAmRouter.cpp b/AudioManagerDaemon/src/CAmRouter.cpp index d574e45..6ab0a07 100644 --- a/AudioManagerDaemon/src/CAmRouter.cpp +++ b/AudioManagerDaemon/src/CAmRouter.cpp @@ -13,30 +13,83 @@ * * * \author Christian Mueller, christian.ei.mueller@bmw.de BMW 2011,2012 + * \author Aleksandar Donchev, Aleksander.Donchev@partner.bmw.de BMW 2013,2014 * * \file CAmRouter.cpp * For further information see http://www.genivi.org/. * */ -#include "CAmRouter.h" #include #include #include #include +#include "CAmRouter.h" #include "IAmDatabaseHandler.h" #include "CAmControlSender.h" +#include "shared/CAmDltWrapper.h" + + namespace am { + +void getSourceSinkPossibleConnectionFormats(std::vector*>::iterator iteratorSource, + std::vector*>::iterator iteratorSink, + std::vector & outConnectionFormats) +{ + CAmNode * nodeSink = *iteratorSink; + assert(nodeSink->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::SINK); + + CAmNode * nodeSource = *iteratorSource; + assert(nodeSource->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::SOURCE); + + am_Source_s *source = nodeSource->getData().data.source; + am_Sink_s *sink = nodeSink->getData().data.sink; + CAmRouter::listPossibleConnectionFormats(source->listConnectionFormats, sink->listConnectionFormats, outConnectionFormats); +} + +template void getMergeConnectionFormats(const X * element, + const am_CustomConnectionFormat_t connectionFormat, + const std::vector & listConnectionFormats, + std::vector & outListMergeConnectionFormats) +{ + std::vector listRestrictedConnectionFormats; + CAmRouter::getRestrictedOutputFormats(element->convertionMatrix, + element->listSourceFormats, + element->listSinkFormats, + connectionFormat, + listRestrictedConnectionFormats); + std::sort(listRestrictedConnectionFormats.begin(), listRestrictedConnectionFormats.end()); //todo: this might be not needed if we use strictly sorted input + std::insert_iterator > inserter(outListMergeConnectionFormats, outListMergeConnectionFormats.begin()); + set_intersection(listConnectionFormats.begin(), listConnectionFormats.end(), listRestrictedConnectionFormats.begin(), listRestrictedConnectionFormats.end(), inserter); +} + + CAmRouter::CAmRouter(IAmDatabaseHandler* iDatabaseHandler, CAmControlSender* iSender) : mpDatabaseHandler(iDatabaseHandler), // - mpControlSender(iSender) + mpControlSender(iSender), + mOnlyFreeConversionNodes(false), + mRoutingGraph(), + mNodeListSources(), + mNodeListSinks(), + mNodeListGateways(), + mNodeListConverters(), + mNodeListSourceStatus(), + mNodeListSinkStatus(), + mNodeListConverterStatus(), + mNodeListGatewayStatus(), + mpRootSource(0), + mpRootSink(0) { assert(mpDatabaseHandler); assert(mpControlSender); } +CAmRouter::~CAmRouter() +{ +} + /** * returns the best route between a source and a sink * @param onlyfree if true only free gateways are used @@ -48,213 +101,67 @@ CAmRouter::CAmRouter(IAmDatabaseHandler* iDatabaseHandler, CAmControlSender* iSe am_Error_e CAmRouter::getRoute(const bool onlyfree, const am_sourceID_t sourceID, const am_sinkID_t sinkID, std::vector & returnList) { returnList.clear(); - //first find out in which domains the source and sink are - am_domainID_t sourceDomainID; - am_domainID_t sinkDomainID; - if (mpDatabaseHandler->getDomainOfSource(sourceID, sourceDomainID) != E_OK) - return (E_NON_EXISTENT); - if (mpDatabaseHandler->getDomainOfSink(sinkID, sinkDomainID) != E_OK) - return (E_NON_EXISTENT); - - if (sourceDomainID == sinkDomainID) //shortcut if the domains are the same... - { - //first get the list of possible connection formats - std::vector listFormats, listPriorityConnectionFormats; - listPossibleConnectionFormats(sourceID, sinkID, listFormats); - - //dummy route - am_Route_s route; - route.sinkID = sinkID; - route.sourceID = sourceID; - route.route.clear(); - - //get the prio of the Controller: - mpControlSender->getConnectionFormatChoice(sourceID, sinkID, route, listFormats, listPriorityConnectionFormats); - - //no possible connection, so no route ! But we report OK since there is no fault ... - if (listPriorityConnectionFormats.empty()) - return (E_OK); - - //return the first item as route: - am_RoutingElement_s routingElement; - routingElement.sourceID = sourceID; - routingElement.sinkID = sinkID; - routingElement.connectionFormat = listPriorityConnectionFormats[0]; - routingElement.domainID = sourceDomainID; - - //Now get a route: - am_Route_s actualRoute; - actualRoute.route.push_back(routingElement); - actualRoute.sourceID = sourceID; - actualRoute.sinkID = sinkID; - - //push it to the return list - we are done here ... - returnList.push_back(actualRoute); - return (E_OK); - - } - CAmRoutingTree routingtree(sourceDomainID); //Build up a Tree from the Source_Domain to every other domain. - std::vector flattree; //This list is the flat tree - std::vector matchtree; - std::vector listGatewayID; //holds all gateway ids of the route - am_RoutingElement_s routingElement; - am_Route_s actualRoute; //holds the actual Route - am_sourceID_t lastSource = 0; - - mpDatabaseHandler->getRoutingTree(onlyfree, routingtree, flattree); //Build up the tree out of the database as - - //we go through the returned flattree and look for our sink, after that flattree holds only treeItems that match - std::vector::iterator iterator = flattree.begin(); - for (; iterator != flattree.end(); ++iterator) - { - if ((*iterator)->returnDomainID() == sinkDomainID) - { - matchtree.push_back(*iterator); - } - } - - //No we need to trace back the routes for each entry in matchtree - iterator = matchtree.begin(); - for (; iterator != matchtree.end(); ++iterator) - { - std::vector actualRoutingElement; //intermediate list of current routing pairs - //getting the route for the actual item - routingtree.getRoute(*iterator, listGatewayID); //This gives only the Gateway IDs we need more - - //go throught the gatewayids and get more information - std::vector::iterator gatewayIterator = listGatewayID.begin(); - for (; gatewayIterator != listGatewayID.end(); ++gatewayIterator) - { - am_Gateway_s gatewayData; - if (mpDatabaseHandler->getGatewayInfoDB(*gatewayIterator, gatewayData) != E_OK) - return (E_UNKNOWN); - - //at the beginning of the route, we connect first the source to the first gateway - if (gatewayIterator == listGatewayID.begin()) - { - routingElement.sourceID = sourceID; - routingElement.domainID = sourceDomainID; - } - else - { - routingElement.sourceID = lastSource; - routingElement.domainID = gatewayData.domainSinkID; - } - routingElement.sinkID = gatewayData.sinkID; - actualRoutingElement.push_back(routingElement); - lastSource = gatewayData.sourceID; - } - //at the end of the route, connect to the sink ! - routingElement.sourceID = lastSource; - routingElement.sinkID = sinkID; - routingElement.domainID = sinkDomainID; - actualRoutingElement.push_back(routingElement); - - //So now we got the route, what is missing are the connectionFormats... - - //Step through the routes and try to use always the best connectionFormat - std::vector::iterator routingInterator = actualRoutingElement.begin(); - gatewayIterator = listGatewayID.begin(); - if (findBestWay(sinkID, sourceID, actualRoutingElement, routingInterator, gatewayIterator) != E_OK) - { - continue; - } - - //add the route to the list of routes... - actualRoute.sourceID = sourceID; - actualRoute.sinkID = sinkID; - actualRoute.route = actualRoutingElement; - returnList.push_back(actualRoute); - } - return (E_OK); + am_Source_s source; + am_Sink_s sink; + mpDatabaseHandler->getSourceInfoDB(sourceID, source); + mpDatabaseHandler->getSinkInfoDB(sinkID, sink); + return getRoute(onlyfree, source, sink, returnList); } -void CAmRouter::listPossibleConnectionFormats(const am_sourceID_t sourceID, const am_sinkID_t sinkID, std::vector& listFormats) const +bool CAmRouter::getAllowedFormatsFromConvMatrix( const std::vector & convertionMatrix, + const std::vector & listSourceFormats, + const std::vector & listSinkFormats, + std::vector & sourceFormats, + std::vector & sinkFormats) { - std::vector listSourceFormats; - std::vector listSinkFormats; - mpDatabaseHandler->getListSinkConnectionFormats(sinkID, listSinkFormats); - mpDatabaseHandler->getListSourceConnectionFormats(sourceID, listSourceFormats); - std::sort(listSinkFormats.begin(), listSinkFormats.end()); //todo: this might be not needed if we use strictly sorted input - std::sort(listSourceFormats.begin(), listSourceFormats.end()); //todo: this might be not needed if we use strictly sorted input - std::insert_iterator > inserter(listFormats, listFormats.begin()); - set_intersection(listSourceFormats.begin(), listSourceFormats.end(), listSinkFormats.begin(), listSinkFormats.end(), inserter); + const size_t sizeSourceFormats = listSourceFormats.size(); + const size_t sizeSinkFormats = listSinkFormats.size(); + const size_t sizeConvertionMatrix = convertionMatrix.size(); + + if(sizeSourceFormats==0||sizeSinkFormats==0||sizeConvertionMatrix==0||sizeConvertionMatrix!=sizeSinkFormats*sizeSourceFormats) + { + return false; + } + + std::vector::const_iterator iterator = convertionMatrix.begin(); + for (; iterator != convertionMatrix.end(); ++iterator) + { + if( true == *iterator ) + { + const size_t index = iterator-convertionMatrix.begin(); + size_t idx = index%sizeSourceFormats; + sourceFormats.push_back(listSourceFormats.at(idx)); + idx = index/sizeSourceFormats; + sinkFormats.push_back(listSinkFormats.at(idx)); + } + } + return sourceFormats.size()>0; } -am_Error_e CAmRouter::findBestWay(am_sinkID_t sinkID, am_sourceID_t sourceID, std::vector & listRoute, std::vector::iterator routeIterator, std::vector::iterator gatewayIterator) +void CAmRouter::listPossibleConnectionFormats(std::vector & inListSourceFormats, + std::vector & inListSinkFormats, + std::vector & outListFormats) { - am_Error_e returnError = E_NOT_POSSIBLE; - std::vector listConnectionFormats; - std::vector listMergeConnectionFormats; - std::vector listPriorityConnectionFormats; - std::vector::iterator nextIterator = routeIterator + 1; - //get best connection format - listPossibleConnectionFormats(routeIterator->sourceID, routeIterator->sinkID, listConnectionFormats); - - //if we have not just started, we need to take care about the gateways... - if (routeIterator != listRoute.begin()) - { - //since we have to deal with Gateways, there are restrictions what connectionFormat we can take. So we need to take the subset of connections that are restricted: - std::vector listRestrictedConnectionFormats; - std::insert_iterator > inserter(listMergeConnectionFormats, listMergeConnectionFormats.begin()); - std::vector::iterator tempIterator(routeIterator); - tempIterator--; - listRestrictedOutputFormatsGateways(*gatewayIterator, (tempIterator)->connectionFormat, listRestrictedConnectionFormats); - std::sort(listRestrictedConnectionFormats.begin(), listRestrictedConnectionFormats.end()); //todo: this might be not needed if we use strictly sorted input - set_intersection(listConnectionFormats.begin(), listConnectionFormats.end(), listRestrictedConnectionFormats.begin(), listRestrictedConnectionFormats.end(), inserter); - gatewayIterator++; - } - else - { - listMergeConnectionFormats = listConnectionFormats; - } - - am_Route_s route; - route.sinkID = sinkID; - route.sourceID = sourceID; - route.route = listRoute; - - //let the controller decide: - mpControlSender->getConnectionFormatChoice(routeIterator->sourceID, routeIterator->sinkID, route, listMergeConnectionFormats, listPriorityConnectionFormats); - - //we have the list sorted after prios - now we try one after the other with the next part of the route - std::vector::iterator connectionFormatIterator = listPriorityConnectionFormats.begin(); - - //here we need to check if we are at the end and stop - if (nextIterator == listRoute.end()) - { - if (!listPriorityConnectionFormats.empty()) - { - routeIterator->connectionFormat = listPriorityConnectionFormats.front(); - return (E_OK); - } - else - return (E_NOT_POSSIBLE); - } - - for (; connectionFormatIterator != listPriorityConnectionFormats.end(); ++connectionFormatIterator) - { - routeIterator->connectionFormat = *connectionFormatIterator; - if ((returnError = findBestWay(sinkID, sourceID, listRoute, nextIterator, gatewayIterator)) == E_OK) - { - break; - } - } - - return (returnError); + std::sort(inListSourceFormats.begin(), inListSourceFormats.end()); + std::sort(inListSinkFormats.begin(), inListSinkFormats.end()); + std::insert_iterator > inserter(outListFormats, outListFormats.begin()); + set_intersection(inListSourceFormats.begin(), inListSourceFormats.end(), inListSinkFormats.begin(), inListSinkFormats.end(), inserter); } -void CAmRouter::listRestrictedOutputFormatsGateways(const am_gatewayID_t gatewayID, const am_CustomConnectionFormat_t sinkConnectionFormat, std::vector & listFormats) const + +bool CAmRouter::getRestrictedOutputFormats(const std::vector & convertionMatrix, + const std::vector & listSourceFormats, + const std::vector & listSinkFormats, + const am_CustomConnectionFormat_t connectionFormat, + std::vector & listFormats) { listFormats.clear(); - am_Gateway_s gatewayData; - mpDatabaseHandler->getGatewayInfoDB(gatewayID, gatewayData); - std::vector::const_iterator rowSinkIterator = gatewayData.listSinkFormats.begin(); - std::vector::const_iterator matrixIterator = gatewayData.convertionMatrix.begin(); + std::vector::const_iterator rowSinkIterator = listSinkFormats.begin(); + std::vector::const_iterator matrixIterator = convertionMatrix.begin(); //find the row number of the sink - rowSinkIterator = find(gatewayData.listSinkFormats.begin(), gatewayData.listSinkFormats.end(), sinkConnectionFormat); - int rowNumberSink = rowSinkIterator - gatewayData.listSinkFormats.begin(); + rowSinkIterator = find(listSinkFormats.begin(), listSinkFormats.end(), connectionFormat); + int rowNumberSink = rowSinkIterator - listSinkFormats.begin(); //go through the convertionMatrix and find out if the conversion is possible, if yes, add connectionFormat ... std::advance(matrixIterator, rowNumberSink); @@ -264,96 +171,817 @@ void CAmRouter::listRestrictedOutputFormatsGateways(const am_gatewayID_t gateway { if (*matrixIterator) { - listFormats.push_back(gatewayData.listSourceFormats.at((matrixIterator - gatewayData.convertionMatrix.begin()) / gatewayData.listSinkFormats.size())); + listFormats.push_back(listSourceFormats.at((matrixIterator - convertionMatrix.begin()) / listSinkFormats.size())); } - std::advance(matrixIterator, gatewayData.listSinkFormats.size()); - } while (gatewayData.convertionMatrix.end() - matrixIterator > 0); + std::advance(matrixIterator, listSinkFormats.size()); + } while (convertionMatrix.end() - matrixIterator > 0); + + return listFormats.size(); } -CAmRouter::~CAmRouter() +#ifdef EXTENDED_ROUTING_GRAPH +void appendNodes(CAmGraph & routingGraph, + const std::vector & listConnectionFormats, + am_RoutingNodeData_s & nodeData, + std::vector*> & nodeList) { + std::for_each(listConnectionFormats.begin(), listConnectionFormats.end(), [&](const am_CustomConnectionFormat_t cf){ + nodeData.inConnectionFormat = cf; + nodeList.push_back(&routingGraph.addNode(nodeData)); + }); } -CAmRoutingTreeItem::CAmRoutingTreeItem(const am_domainID_t domainID, const am_gatewayID_t gatewayID, CAmRoutingTreeItem *parent) : - mDomainID(domainID), // - mGatewayID(gatewayID), // - mpParentItem(parent) +void appendNodes(CAmGraph & routingGraph, + const std::vector & sourceConnectionFormats, + const std::vector & sinkConnectionFormats, + const std::vector & convertionMatrix, + am_RoutingNodeData_s & nodeData, + std::vector*> & nodeList) { - assert(mDomainID!=0); + + std::vector sourceFormats, sinkFormats; + if(CAmRouter::getAllowedFormatsFromConvMatrix(convertionMatrix, sourceConnectionFormats, sinkConnectionFormats, sourceFormats, sinkFormats)) + { + for(size_t i = 0; i < sourceFormats.size(); i++) + { + nodeData.inConnectionFormat = sinkFormats[i]; + nodeData.outConnectionFormat = sourceFormats[i]; + nodeList.push_back(&routingGraph.addNode(nodeData)); + } + } } +#endif -void CAmRoutingTreeItem::appendChild(CAmRoutingTreeItem *newChild) +am_Error_e CAmRouter::getRoute(const bool onlyfree, const am_Source_s & aSource, const am_Sink_s & aSink, std::vector & listRoutes) { - assert(newChild); - mListChildItems.push_back(newChild); + clear(); + mOnlyFreeConversionNodes = onlyfree; + + // We need to copy the sinks, sources, converters, gateways, because we don't know what store is being used (SQLite or Map). + //todo: Don't make copy for map storage. + std::deque listSources; + std::deque listSinks; + std::deque listGateways; + std::deque listConverters; + + am_Error_e error = E_OK; + + am_RoutingNodeData_s nodeDataSrc; + nodeDataSrc.type = NodeDataType::SOURCE; + mpDatabaseHandler->enumerateSources([&](const am_Source_s & obj){ + listSources.push_back(obj); + nodeDataSrc.data.source = &listSources.back(); + mNodeListSourceStatus[obj.sourceID]=false; +#ifdef EXTENDED_ROUTING_GRAPH + appendNodes(mRoutingGraph, obj.listConnectionFormats, nodeDataSrc, mNodeListSources); +#else + mNodeListSources.push_back(&mRoutingGraph.addNode(nodeDataSrc)); +#endif + }); + am_RoutingNodeData_s nodeDataSink; + nodeDataSink.type = NodeDataType::SINK; + mpDatabaseHandler->enumerateSinks([&](const am_Sink_s & obj){ + listSinks.push_back(obj); + nodeDataSink.data.sink = &listSinks.back(); + mNodeListSinkStatus[obj.sinkID]=false; +#ifdef EXTENDED_ROUTING_GRAPH + appendNodes(mRoutingGraph, obj.listConnectionFormats, nodeDataSink, mNodeListSinks); +#else + mNodeListSinks.push_back(&mRoutingGraph.addNode(nodeDataSink)); +#endif + }); + am_RoutingNodeData_s nodeDataGateway; + nodeDataGateway.type = NodeDataType::GATEWAY; + mpDatabaseHandler->enumerateGateways([&](const am_Gateway_s & obj){ + listGateways.push_back(obj); + nodeDataGateway.data.gateway = &listGateways.back(); + mNodeListGatewayStatus[obj.gatewayID]=false; +#ifdef EXTENDED_ROUTING_GRAPH + appendNodes(mRoutingGraph, obj.listSourceFormats, obj.listSinkFormats, obj.convertionMatrix, nodeDataGateway, mNodeListGateways); +#else + mNodeListGateways.push_back(&mRoutingGraph.addNode(nodeDataGateway)); +#endif + }); + am_RoutingNodeData_s nodeDataConverter; + nodeDataConverter.type = NodeDataType::CONVERTER; + mpDatabaseHandler->enumerateConverters([&](const am_Converter_s & obj){ + listConverters.push_back(obj); + nodeDataConverter.data.converter = &listConverters.back(); + mNodeListConverterStatus[obj.converterID]=false; +#ifdef EXTENDED_ROUTING_GRAPH + appendNodes(mRoutingGraph, obj.listSourceFormats, obj.listSinkFormats, obj.convertionMatrix, nodeDataConverter, mNodeListConverters); +#else + mNodeListConverters.push_back(&mRoutingGraph.addNode(nodeDataConverter)); +#endif + }); + + buildGraph(aSource, aSink); + +#ifdef EXTENDED_ROUTING_GRAPH + std::vector*>> pathNodes; + getShortestPath(listRoutes, pathNodes); +#else + std::vector*>> pathNodes; + error = getAllPaths(listRoutes, pathNodes); +#endif + return error; } -void CAmRoutingTreeItem::returnChildItems(std::vector listChildItems) +void CAmRouter::buildGraph( const am_Source_s & aSource, const am_Sink_s & aSink) { - listChildItems = mListChildItems; + //build up a topological sorted graph +#ifdef EXTENDED_ROUTING_GRAPH + mpRootSource = (am_Source_s*)&aSource; + mpRootSink = (am_Sink_s*)&aSink; + for(auto it1=aSource.listConnectionFormats.begin(); it1!=aSource.listConnectionFormats.end(); it1++) + { + am::CAmNode* pRootNodeSource = sourceNodeWithID(aSource.sourceID, *it1); + for(auto it2=aSink.listConnectionFormats.begin(); it2!=aSink.listConnectionFormats.end(); it2++) + { + am::CAmNode* pRootNodeSink = sinkNodeWithID(aSink.sinkID, *it2); + if(pRootNodeSource && pRootNodeSink) + { + if(aSource.domainID==aSink.domainID) + routeInSameDomain(*pRootNodeSource, *pRootNodeSink); + else + routeInAnotherDomain(*pRootNodeSource, *pRootNodeSink); + } + } + } +#else + mpRootSource = sourceNodeWithID(aSource.sourceID); + mpRootSink = sinkNodeWithID(aSink.sinkID); + + assert(mpRootSource); + assert(mpRootSink); + + if(aSource.domainID==aSink.domainID) + { + routeInSameDomain(*mpRootSource, *mpRootSink); + } + else + { + routeInAnotherDomain(*mpRootSource, *mpRootSink); + } +#endif +#ifdef TRACE_GRAPH + mRoutingGraph.trace([&](const CAmNode & node, const std::vector*> & list) { + std::cout << "Node " << node.getIndex() << " :"; + ((CAmNode &)node).getData().trace(); + std::cout << "-->"; + std::for_each(list.begin(), list.end(), [&](const CAmVertex* refVertex){ + am::CAmNode* data = refVertex->getNode(); + std::cout << "Node " << data->getIndex() << " :"; + data->getData().trace(); + }); + std::cout << std::endl; + }); +#endif } +#ifdef EXTENDED_ROUTING_GRAPH -am_domainID_t CAmRoutingTreeItem::returnDomainID() const +CAmNode* CAmRouter::sinkNodeWithID(const am_sinkID_t sinkID, const am_CustomConnectionFormat_t connectionFormat) { - return (mDomainID); + auto iter = std::find_if(mNodeListSinks.begin(), mNodeListSinks.end(), [sinkID, connectionFormat](CAmNode* node){ + return node->getData().data.sink->sinkID==sinkID && node->getData().inConnectionFormat==connectionFormat; + }); + if(iter!=mNodeListSinks.end()) + return *iter; + return NULL; } -am_gatewayID_t CAmRoutingTreeItem::returnGatewayID() const +CAmNode* CAmRouter::sourceNodeWithID(const am_sourceID_t sourceID, const am_CustomConnectionFormat_t connectionFormat) +{ + auto iter = std::find_if(mNodeListSources.begin(), mNodeListSources.end(), [sourceID, connectionFormat](CAmNode* node){ + return node->getData().data.source->sourceID==sourceID && node->getData().inConnectionFormat==connectionFormat; + }); + if(iter!=mNodeListSources.end()) + return *iter; + return NULL; +} +#else +CAmNode* CAmRouter::sinkNodeWithID(const am_sinkID_t sinkID) { - return (mGatewayID); + auto iter = std::find_if(mNodeListSinks.begin(), mNodeListSinks.end(), [sinkID](CAmNode* node){ + return node->getData().data.sink->sinkID==sinkID; + }); + if(iter!=mNodeListSinks.end()) + return *iter; + return NULL; } -CAmRoutingTreeItem* CAmRoutingTreeItem::returnParent() const +CAmNode* CAmRouter::sourceNodeWithID(const am_sourceID_t sourceID) { - return (mpParentItem); + auto iter = std::find_if(mNodeListSources.begin(), mNodeListSources.end(), [sourceID](CAmNode* node){ + return node->getData().data.source->sourceID==sourceID; + }); + if(iter!=mNodeListSources.end()) + return *iter; + return NULL; } +#endif -CAmRoutingTreeItem::~CAmRoutingTreeItem() +void CAmRouter::connectNodes(const CAmNode & node1, + const CAmNode & node2, + const am_CustomConnectionFormat_t vertexData, + const int16_t weight) { + if( !mRoutingGraph.isAnyVertex(node1, node2) ) + mRoutingGraph.connectNodes(node1, node2, vertexData, weight); } -CAmRoutingTree::CAmRoutingTree(const am_domainID_t rootDomainID) : - mRootItem(CAmRoutingTreeItem(rootDomainID)) +bool CAmRouter::routeInSameDomain(CAmNode & aSource, CAmNode & aSink) { - assert(rootDomainID!=0); + am_RoutingNodeData_s & sourceData = aSource.getData(); + am_RoutingNodeData_s & sinkData = aSink.getData(); + am_Source_s * source = sourceData.data.source; + //If exists connection return + if( mRoutingGraph.isAnyVertex(aSource, aSink)) + return true; + if( mNodeListSourceStatus[source->sourceID] ) + return false; + bool result = false; + mNodeListSourceStatus[source->sourceID]=true; +#ifdef EXTENDED_ROUTING_GRAPH + if(sourceData.inConnectionFormat!=sinkData.inConnectionFormat) // it is not possible to connect them directly + { +#else + am_Sink_s * sink = sinkData.data.sink; + std::vector listFormats; + CAmRouter::listPossibleConnectionFormats(source->listConnectionFormats, sink->listConnectionFormats, listFormats); + if(listFormats.size()==0) // it is not possible to connect them directly + { +#endif + bool availableConverter = false; + for(auto iter = mNodeListConverters.begin(); iter!=mNodeListConverters.end(); iter++) + { + CAmNode* converterNode = *iter; + am_RoutingNodeData_s & converterNodeData = converterNode->getData(); + am_Converter_s * converter = converterNodeData.data.converter; + //Get only converters with end point in current source domain + if( !mNodeListConverterStatus[converter->converterID] && converter->domainID==source->domainID && (!mOnlyFreeConversionNodes || !isComponentConnected(*converter))) + { + //Get the sink connected to the converter... + mNodeListConverterStatus[converter->converterID]=true; +#ifdef EXTENDED_ROUTING_GRAPH + CAmNode *converterSinkNode = this->sinkNodeWithID(converter->sinkID, converterNodeData.inConnectionFormat); +#else + CAmNode *converterSinkNode = this->sinkNodeWithID(converter->sinkID); +#endif + if(converterSinkNode) + { + am_RoutingNodeData_s & converterSinkData = converterSinkNode->getData(); + //Check whether the hidden sink formats match the source formats... +#ifdef EXTENDED_ROUTING_GRAPH + if(sourceData.inConnectionFormat==converterSinkData.inConnectionFormat) + { + CAmNode *converterSourceNode = this->sourceNodeWithID(converter->sourceID, converterNodeData.outConnectionFormat); + if(converterSourceNode) + { + am_RoutingNodeData_s & converterSourceData = converterSourceNode->getData(); + if(converterSourceData.inConnectionFormat==converterSinkData.outConnectionFormat) + { + availableConverter=true; + // Connection source->conv_sink->converter->conv_source + this->connectNodes(aSource, *converterSinkNode, converterNodeData.inConnectionFormat, 1); + this->connectNodes(*converterSinkNode, *converterNode, converterNodeData.inConnectionFormat, 1); + this->connectNodes(*converterNode, *converterSourceNode, converterNodeData.outConnectionFormat, 1); + result|=this->routeInSameDomain(*converterSourceNode, aSink); + } + } + } + else + { + //the converter is not suitable, lets try to find paths through another domains + bool alternResult = this->routeInAnotherDomain(aSource, *converterSinkNode); + if(alternResult) + { + CAmNode *converterSourceNode = this->sourceNodeWithID(converter->sourceID, converterNodeData.outConnectionFormat); + if(converterSourceNode) + { + am_RoutingNodeData_s & converterSourceData = converterSourceNode->getData(); + if(converterSourceData.inConnectionFormat==converterSinkData.outConnectionFormat) + { + // Connection source->conv_sink->converter->conv_source + this->connectNodes(*converterSinkNode, *converterNode, converterNodeData.inConnectionFormat, 1); + this->connectNodes(*converterNode, *converterSourceNode, converterNodeData.outConnectionFormat, 1); + result|=this->routeInSameDomain(*converterSourceNode, aSink); + } + } + } + } +#else + am_Sink_s * nextSink = converterSinkData.data.sink; + std::vector sourceFormats, sinkFormats, intersection; + //Check whether the hidden sink formats match the source formats... + CAmRouter::listPossibleConnectionFormats(source->listConnectionFormats, nextSink->listConnectionFormats, intersection); + if(intersection.size()>0)//OK match source -> conv_sink + { + //Are there convertible formats or not + if(CAmRouter::getAllowedFormatsFromConvMatrix(converter->convertionMatrix, converter->listSourceFormats, converter->listSinkFormats, sourceFormats, sinkFormats)) + { + availableConverter=true; + CAmNode *nextSourceNode = this->sourceNodeWithID(converter->sourceID); + assert(nextSourceNode); + //Connections source->hidden_sink->converter->hidden_source + this->connectNodes(aSource, *converterSinkNode, CF_UNKNOWN, 1); + this->connectNodes(*converterSinkNode, *converterNode, CF_UNKNOWN, 1); + this->connectNodes(*converterNode, *nextSourceNode, CF_UNKNOWN, 1); + //Go ahead with hidden_source and sink + result|=this->routeInSameDomain(*nextSourceNode, aSink); + } + } + else + { + //the converter is not suitable, lets try to find paths through another domains + bool alternResult = this->routeInAnotherDomain(aSource, *converterSinkNode); + if(alternResult) + { + if(CAmRouter::getAllowedFormatsFromConvMatrix(converter->convertionMatrix, converter->listSourceFormats, converter->listSinkFormats, sourceFormats, sinkFormats)) + { + CAmNode *nextSourceNode = this->sourceNodeWithID(converter->sourceID); + assert(nextSourceNode); + //Connections source->hidden_sink->converter->hidden_source + this->connectNodes(*converterSinkNode, *converterNode, CF_UNKNOWN, 1); + this->connectNodes(*converterNode, *nextSourceNode, CF_UNKNOWN, 1); + //Go ahead with hidden_source and sink + result|=this->routeInSameDomain(*nextSourceNode, aSink); + } + } + } +#endif + } + mNodeListConverterStatus[converter->converterID]=false; + } + } + if(!availableConverter) + { + mNodeListSourceStatus[source->sourceID]=false; + result|=this->routeInAnotherDomain(aSource, aSink); + } + } + else + { + //success only if the source can be connected with the sink +#ifdef EXTENDED_ROUTING_GRAPH + this->connectNodes(aSource, aSink, sourceData.inConnectionFormat, 1); +#else + this->connectNodes(aSource, aSink, CF_UNKNOWN, 1); +#endif + result=true; + } + mNodeListSourceStatus[source->sourceID]=false; + return result; } -CAmRoutingTreeItem *CAmRoutingTree::insertItem(const am_domainID_t domainID, const am_gatewayID_t gatewayID, CAmRoutingTreeItem *parent) +bool CAmRouter::routeInAnotherDomain(CAmNode & aSource, CAmNode & aSink) { - CAmRoutingTreeItem *newTree = new CAmRoutingTreeItem(domainID, gatewayID, parent); - parent->appendChild(newTree); - mListChild.push_back(newTree); - return (newTree); + am_RoutingNodeData_s & sourceData = aSource.getData(); + am_RoutingNodeData_s & sinkData = aSink.getData(); + am_Source_s * source = sourceData.data.source; + am_Sink_s * sink = sinkData.data.sink; + + if(mRoutingGraph.isAnyVertex(aSource, aSink)) + return true; + if( mNodeListSourceStatus[source->sourceID] ) + return false; + mNodeListSourceStatus[source->sourceID]=true; +#ifndef EXTENDED_ROUTING_GRAPH + std::vector sourceFormats, sinkFormats, intersection; +#endif + bool result = false; + for(auto iter = mNodeListGateways.begin(); iter!=mNodeListGateways.end(); iter++) + { + CAmNode* gatewayNode = *iter; + am_RoutingNodeData_s & gatewayNodeData = gatewayNode->getData(); + am_Gateway_s * gateway = gatewayNodeData.data.gateway; + //Get only gateways with end point in current source domain + if( + !mNodeListGatewayStatus[gateway->gatewayID] && + gateway->domainSinkID==source->domainID && + (!mOnlyFreeConversionNodes || !isComponentConnected(*gateway)) ) + { + //Get the sink connected to the gateway... + mNodeListGatewayStatus[gateway->gatewayID]=true; +#ifdef EXTENDED_ROUTING_GRAPH + CAmNode *gatewaySinkNode = this->sinkNodeWithID(gateway->sinkID, gatewayNodeData.inConnectionFormat); +#else + CAmNode *gatewaySinkNode = this->sinkNodeWithID(gateway->sinkID); +#endif + + if(gatewaySinkNode) + { + am_RoutingNodeData_s & gatewaySinkData = gatewaySinkNode->getData(); + //Check whether the hidden sink formats match the source formats... + +#ifdef EXTENDED_ROUTING_GRAPH + if(sourceData.inConnectionFormat==gatewaySinkData.inConnectionFormat) + { + //Check if the gateway is able to convert any formats... + CAmNode *gatewaySourceNode = this->sourceNodeWithID(gateway->sourceID, gatewayNodeData.outConnectionFormat); + if(gatewaySourceNode) + { + am_RoutingNodeData_s & gatewaySourceData = gatewaySourceNode->getData(); + if(gatewaySourceData.inConnectionFormat==gatewayNodeData.outConnectionFormat) + { + am_Source_s * gatewaySource = gatewaySourceData.data.source; + //Connections source->hidden_sink->gateway->hidden_source + this->connectNodes(aSource, *gatewaySinkNode, gatewayNodeData.inConnectionFormat, 1); + this->connectNodes(*gatewaySinkNode, *gatewayNode, gatewayNodeData.inConnectionFormat, 1); + this->connectNodes(*gatewayNode, *gatewaySourceNode, gatewayNodeData.outConnectionFormat, 1); + //Go ahead with hidden_source and sink + if(gatewaySource->domainID==sink->domainID) + result|=this->routeInSameDomain(*gatewaySourceNode, aSink); + else + result|=this->routeInAnotherDomain(*gatewaySourceNode, aSink); + } + } + } + else + { + //the gateway is not suitable, lets try to find paths within this domains + bool alternResult = this->routeInSameDomain(aSource, *gatewaySinkNode); + if(alternResult) + { + CAmNode *gatewaySourceNode = this->sourceNodeWithID(gateway->sourceID, gatewayNodeData.outConnectionFormat); + if(gatewaySourceNode) + { + am_RoutingNodeData_s & gatewaySourceData = gatewaySourceNode->getData(); + if(gatewaySourceData.inConnectionFormat==gatewayNodeData.outConnectionFormat) + { + am_Source_s * gatewaySource = gatewaySourceData.data.source; + //Connections source->hidden_sink->gateway->hidden_source + this->connectNodes(aSource, *gatewaySinkNode, gatewayNodeData.inConnectionFormat, 1); + this->connectNodes(*gatewaySinkNode, *gatewayNode, gatewayNodeData.inConnectionFormat, 1); + this->connectNodes(*gatewayNode, *gatewaySourceNode, gatewayNodeData.outConnectionFormat, 1); + //Go ahead with hidden_source and sink + if(gatewaySource->domainID==sink->domainID) + result|=this->routeInSameDomain(*gatewaySourceNode, aSink); + else + result|=this->routeInAnotherDomain(*gatewaySourceNode, aSink); + } + } + } + } +#else + am_Sink_s * nextSink = gatewaySinkData.data.sink; + std::vector sourceFormats, sinkFormats, intersection; + CAmRouter::listPossibleConnectionFormats(source->listConnectionFormats, nextSink->listConnectionFormats, intersection); + if(intersection.size()>0)//OK match source -> conv_sink + { + //Check if the gateway is able to convert any formats... + if(CAmRouter::getAllowedFormatsFromConvMatrix(gateway->convertionMatrix, gateway->listSourceFormats, gateway->listSinkFormats, sourceFormats, sinkFormats)) + { + CAmNode *nextSourceNode = this->sourceNodeWithID(gateway->sourceID); + assert(nextSourceNode); + am_Source_s * nextSource = nextSourceNode->getData().data.source; + //Connections source->hidden_sink->gateway->hidden_source + this->connectNodes(aSource, *gatewaySinkNode, CF_UNKNOWN, 1); + this->connectNodes(*gatewaySinkNode, *gatewayNode, CF_UNKNOWN, 1); + this->connectNodes(*gatewayNode, *nextSourceNode, CF_UNKNOWN, 1); + //Go ahead with hidden_source and sink + if(nextSource->domainID==sink->domainID) + result|=this->routeInSameDomain(*nextSourceNode, aSink); + else + result|=this->routeInAnotherDomain(*nextSourceNode, aSink); + } + } + else + { + //the gateway is not suitable, lets try to find paths within this domains + mNodeListSourceStatus[source->sourceID]=false; + bool alternResult = this->routeInSameDomain(aSource, *gatewaySinkNode); + if(alternResult) + { + if(CAmRouter::getAllowedFormatsFromConvMatrix(gateway->convertionMatrix, gateway->listSourceFormats, gateway->listSinkFormats, sourceFormats, sinkFormats)) + { + CAmNode *nextSourceNode = this->sourceNodeWithID(gateway->sourceID); + assert(nextSourceNode); + am_Source_s * nextSource = nextSourceNode->getData().data.source; + //Connections source->hidden_sink->gateway->hidden_source + this->connectNodes(*gatewaySinkNode, *gatewayNode, CF_UNKNOWN, 1); + this->connectNodes(*gatewayNode, *nextSourceNode, CF_UNKNOWN, 1); + //Go ahead with hidden_source and sink + if(nextSource->domainID==sink->domainID) + result|=this->routeInSameDomain(*nextSourceNode, aSink); + else + result|=this->routeInAnotherDomain(*nextSourceNode, aSink); + } + } + } +#endif + } + mNodeListGatewayStatus[gateway->gatewayID]=false; + } + } + mNodeListSourceStatus[source->sourceID]=false; + return result; } -void CAmRoutingTree::getRoute(CAmRoutingTreeItem *targetItem, std::vector& listGateways) +#ifdef EXTENDED_ROUTING_GRAPH +void CAmRouter::getShortestPath(const am_Source_s & aSource, + const am_Sink_s & aSink, + std::vector & resultPath, + std::vector*>> & resultNodesPath) { - listGateways.clear(); - CAmRoutingTreeItem *parentItem = targetItem; - while (parentItem != &mRootItem) - { - listGateways.push_back(parentItem->returnGatewayID()); - parentItem = parentItem->returnParent(); - } - std::reverse(listGateways.begin(), listGateways.end()); + std::vector*> listTargets; + std::vector*> * pathNodes; + am_Route_s *path; + am_RoutingElement_s * element; + std::function &)> cb = [&](const am_GraphPathPosition_e pos, CAmNode & object) + { + if(pos==GRAPH_PATH_START) + { + resultNodesPath.emplace_back(); + pathNodes=&resultNodesPath.back(); + resultPath.emplace_back(); + path= &resultPath.back(); + path->sinkID = aSink.sinkID; + path->sourceID = aSource.sourceID; + } + pathNodes->insert(pathNodes->begin(), (CAmNode*)&object); + + am_RoutingNodeData_s & routingData = object.getData(); + + if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SINK) + { + auto iter = path->route.emplace(path->route.begin()); + element = &(*iter); + + element->domainID = routingData.data.sink->domainID; + element->sinkID = routingData.data.sink->sinkID; + element->connectionFormat = routingData.inConnectionFormat; + + } + else if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SOURCE) + { + element->domainID = routingData.data.source->domainID; + element->sourceID = routingData.data.source->sourceID; + element->connectionFormat = routingData.inConnectionFormat; + } + }; + + + for(auto it2=aSink.listConnectionFormats.begin(); it2!=aSink.listConnectionFormats.end(); it2++) + { + am::CAmNode* pRootNodeSink = sinkNodeWithID(aSink.sinkID, *it2); + if(pRootNodeSink) + listTargets.push_back(pRootNodeSink); + } + if(listTargets.size()) + { + for(auto it1=aSource.listConnectionFormats.begin(); it1!=aSource.listConnectionFormats.end(); it1++) + { + am::CAmNode* pRootNodeSource = sourceNodeWithID(aSource.sourceID, *it1); + if(pRootNodeSource) + { + mRoutingGraph.getShortestPath(*pRootNodeSource, listTargets, cb); + } + } + } +} + +void CAmRouter::getShortestPath(std::vector & routes, std::vector*>> & nodes) +{ + getShortestPath(*mpRootSource, *mpRootSink, routes, nodes); } -am_domainID_t CAmRoutingTree::returnRootDomainID() const +void CAmRouter::getShortestPath(const am_Source_s & aSource, const am_Sink_s & aSink, + std::vector*>> & resultPath) { - return (mRootItem.returnDomainID()); + std::vector*> listTargets; + for(auto it2=aSink.listConnectionFormats.begin(); it2!=aSink.listConnectionFormats.end(); it2++) + { + am::CAmNode* pRootNodeSink = sinkNodeWithID(aSink.sinkID, *it2); + if(pRootNodeSink) + listTargets.push_back(pRootNodeSink); + } + if(listTargets.size()) + { + for(auto it1=aSource.listConnectionFormats.begin(); it1!=aSource.listConnectionFormats.end(); it1++) + { + am::CAmNode* pRootNodeSource = sourceNodeWithID(aSource.sourceID, *it1); + if(pRootNodeSource) + { + mRoutingGraph.getShortestPath(*pRootNodeSource, listTargets, resultPath); + } + } + } } +#else -CAmRoutingTreeItem *CAmRoutingTree::returnRootItem() +am_Error_e CAmRouter::determineConnectionFormatsForPath(am_Route_s & routeObjects, std::vector*> & nodes) { - return (&mRootItem); + std::vector::iterator routingElementIterator = routeObjects.route.begin(); + std::vector*>::iterator nodeIterator = nodes.begin(); + if( routingElementIterator!= routeObjects.route.end() && nodeIterator!=nodes.end() ) + return doConnectionFormatsForPath(routeObjects, nodes, routingElementIterator, nodeIterator); + return E_OK; } -CAmRoutingTree::~CAmRoutingTree() +am_Error_e CAmRouter::doConnectionFormatsForPath(am_Route_s & routeObjects, + std::vector*> & nodes, + std::vector::iterator routingElementIterator, + std::vector*>::iterator nodeIterator) { - std::vector::iterator it = mListChild.begin(); - for (; it != mListChild.end(); ++it) + am_Error_e returnError = E_NOT_POSSIBLE; + std::vector listConnectionFormats; + std::vector listMergeConnectionFormats; + + std::vector*>::iterator currentNodeIterator = nodeIterator; + std::vector::iterator currentRoutingElementIterator = routingElementIterator; + + if (currentRoutingElementIterator!=routeObjects.route.begin()) { - delete *it; + std::vector listConnectionFormats; + std::vector::iterator tempIterator = (currentRoutingElementIterator-1); + CAmNode * currentNode = *currentNodeIterator; + getSourceSinkPossibleConnectionFormats(currentNodeIterator+1, currentNodeIterator+2, listConnectionFormats); + + if(currentNode->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::GATEWAY) + { + am_Gateway_s *gateway = currentNode->getData().data.gateway; + getMergeConnectionFormats(gateway, tempIterator->connectionFormat, listConnectionFormats, listMergeConnectionFormats); + } + else if(currentNode->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::CONVERTER) + { + am_Converter_s *converter = currentNode->getData().data.converter; + getMergeConnectionFormats(converter, tempIterator->connectionFormat, listConnectionFormats, listMergeConnectionFormats); + } + currentNodeIterator+=3; } + else + { + CAmNode * currentNode = *currentNodeIterator; + assert(currentNode->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::SOURCE); + + currentNodeIterator++; + assert(currentNodeIterator!=nodes.end()); + + CAmNode * nodeSink = *currentNodeIterator; + assert(nodeSink->getData().type==am_RoutingNodeData_s::am_NodeDataType_e::SINK); + + am_Source_s *source = currentNode->getData().data.source; + am_Sink_s *sink = nodeSink->getData().data.sink; + CAmRouter::listPossibleConnectionFormats(source->listConnectionFormats, sink->listConnectionFormats, listMergeConnectionFormats); + currentNodeIterator+=1; //now we are on the next converter/gateway + } + + //let the controller decide: + std::vector listPriorityConnectionFormats; + mpControlSender->getConnectionFormatChoice(currentRoutingElementIterator->sourceID, currentRoutingElementIterator->sinkID, routeObjects, + listMergeConnectionFormats, listPriorityConnectionFormats); + + //we have the list sorted after priors - now we try one after the other with the next part of the route + std::vector::iterator connectionFormatIterator = listPriorityConnectionFormats.begin(); + //here we need to check if we are at the end and stop + std::vector::iterator nextIterator = currentRoutingElementIterator + 1;//next pair source and sink + if (nextIterator == routeObjects.route.end()) + { + if (!listPriorityConnectionFormats.empty()) + { + currentRoutingElementIterator->connectionFormat = listPriorityConnectionFormats.front(); + return (E_OK); + } + else + return (E_NOT_POSSIBLE); + } + + for (; connectionFormatIterator != listPriorityConnectionFormats.end(); ++connectionFormatIterator) + { + currentRoutingElementIterator->connectionFormat = *connectionFormatIterator; + if ((returnError = doConnectionFormatsForPath(routeObjects, nodes, nextIterator, currentNodeIterator)) == E_OK) + { + break; + } + } + return (returnError); +} + +void CAmRouter::getShortestPath(const CAmNode & source, + const CAmNode & destination, + std::vector*> & resultPath) +{ + mRoutingGraph.getShortestPath(source, destination, resultPath); +} + +void CAmRouter::getShortestPath(std::vector*> & resultPath) +{ + getShortestPath(*mpRootSource, *mpRootSink, resultPath); } + +void CAmRouter::getShortestPath(CAmNode & aSource, CAmNode & aSink, + am_Route_s & resultPath, std::vector*> & resultNodesPath) +{ + am_RoutingElement_s * element; + am_RoutingNodeData_s & sinkNodeData = aSink.getData(); + am_RoutingNodeData_s & sourceNodeData = aSource.getData(); + resultPath.sinkID = sinkNodeData.data.sink->sinkID; + resultPath.sourceID = sourceNodeData.data.source->sourceID; + + std::function &)> cb = [&](const am_GraphPathPosition_e, CAmNode & object) + { + resultNodesPath.insert(resultNodesPath.begin(), (CAmNode*)&object); + am_RoutingNodeData_s & routingData = object.getData(); + if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SINK) + { + auto iter = resultPath.route.emplace(resultPath.route.begin()); + element = &(*iter); + element->domainID = routingData.data.sink->domainID; + element->sinkID = routingData.data.sink->sinkID; + element->connectionFormat = CF_UNKNOWN; + } + else if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SOURCE) + { + element->domainID = routingData.data.source->domainID; + element->sourceID = routingData.data.source->sourceID; + element->connectionFormat = CF_UNKNOWN; + } + }; + mRoutingGraph.getShortestPath(aSource, aSink, cb); +} + +void CAmRouter::getShortestPath(am_Route_s & resultPath, std::vector*> & resultNodesPath) +{ + getShortestPath(*mpRootSource, *mpRootSink, resultPath, resultNodesPath); +} + +am_Error_e CAmRouter::getAllPaths(CAmNode & aSource, CAmNode & aSink, + std::vector & resultPath, std::vector*>> & resultNodesPath) +{ + uint8_t errorsCount = 0, successCount = 0; + mRoutingGraph.getAllPaths(aSource, aSink, [&](const std::vector*> & path) { + resultNodesPath.push_back(path); + resultPath.emplace_back(); + am_Route_s & nextRoute = resultPath.back(); + nextRoute.sinkID = aSink.getData().data.sink->sinkID; + nextRoute.sourceID = aSource.getData().data.source->sourceID; + am_RoutingElement_s * element; + for(auto it = path.begin(); it!=path.end(); it++) + { + am_RoutingNodeData_s & routingData = (*it)->getData(); + if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SOURCE) + { + auto iter = nextRoute.route.emplace(nextRoute.route.end()); + element = &(*iter); + element->domainID = routingData.data.source->domainID; + element->sourceID = routingData.data.source->sourceID; + element->connectionFormat = CF_UNKNOWN; + } + else if(routingData.type==am_RoutingNodeData_s::am_NodeDataType_e::SINK) + { + element->domainID = routingData.data.sink->domainID; + element->sinkID = routingData.data.sink->sinkID; + element->connectionFormat = CF_UNKNOWN; + } + } + am_Error_e err = determineConnectionFormatsForPath(nextRoute, (std::vector*> &)path); + if(err!=E_OK) + { + errorsCount++; + auto last = resultPath.end()-1; + resultPath.erase(last); +#ifdef TRACE_GRAPH + std::cout<<"Error by determining connection formats for path from source:"< & resultPath, std::vector*>> & resultNodesPath) +{ + return getAllPaths(*mpRootSource, *mpRootSink, resultPath, resultNodesPath); +} + +#endif + +void CAmRouter::clear() +{ + mNodeListSourceStatus.clear(); + mNodeListSinkStatus.clear(); + mNodeListConverterStatus.clear(); + mNodeListGatewayStatus.clear(); + + mRoutingGraph.clear(); + mNodeListSources.clear(); + mNodeListSinks.clear(); + mNodeListGateways.clear(); + mNodeListConverters.clear(); + mpRootSource=NULL; + mpRootSink=NULL; +} + + } -- cgit v1.2.1