FXTreeItem*
GNEFrame::ACHierarchy::addACIntoList(GNEAttributeCarrier *AC, FXTreeItem* itemParent) {
FXTreeItem* item = myTreelist->insertItem(0, itemParent, AC->getHierarchyName().c_str(), AC->getIcon(), AC->getIcon());
myTreeItemToACMap[item] = AC;
item->setExpanded(true);
return item;
}
void
GNEFrame::ACHierarchy::showAttributeCarrierChilds(GNEAttributeCarrier *AC, FXTreeItem* itemParent) {
// Switch gl type of ac
switch (AC->getTag()) {
case SUMO_TAG_JUNCTION: {
// retrieve junction
GNEJunction* junction = myFrameParent->getViewNet()->getNet()->retrieveJunction(AC->getID(), false);
if(junction) {
// insert junction item
FXTreeItem* junctionItem = addACIntoList(AC, itemParent);
// insert edges
for (auto i : junction->getGNEEdges()) {
showAttributeCarrierChilds(i, junctionItem);
}
// insert crossings
for (auto i : junction->getGNECrossings()) {
showAttributeCarrierChilds(i, junctionItem);
}
}
break;
}
case SUMO_TAG_EDGE: {
// retrieve edge
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(AC->getID(), false);
if(edge) {
// insert edge item
FXTreeItem* edgeItem = addACIntoList(AC, itemParent);
// insert lanes
for (int i = 0; i < (int)edge->getLanes().size(); i++) {
showAttributeCarrierChilds(edge->getLanes().at(i), edgeItem);
}
// insert additionals of edge
for (auto i : edge->getAdditionalChilds()) {
showAttributeCarrierChilds(i, edgeItem);
}
}
break;
}
case SUMO_TAG_LANE: {
// retrieve lane
GNELane* lane = myFrameParent->getViewNet()->getNet()->retrieveLane(AC->getID(), false);
if(lane) {
// insert lane item
FXTreeItem* laneItem = addACIntoList(AC, itemParent);
// insert additionals of lanes
for (auto i : lane->getAdditionalChilds()) {
showAttributeCarrierChilds(i, laneItem);
}
// insert incoming connections of lanes (by default isn't expanded)
if (lane->getGNEIncomingConnections().size() > 0) {
std::vector<GNEConnection*> incomingLaneConnections = lane->getGNEIncomingConnections();
FXTreeItem* incomingConnections = myTreelist->insertItem(0, laneItem, "Incomings", incomingLaneConnections.front()->getIcon(), lane->getGNEIncomingConnections().front()->getIcon());
myTreeItemsConnections.insert(incomingConnections);
incomingConnections->setExpanded(false);
// insert incoming connections
for (auto i : incomingLaneConnections) {
showAttributeCarrierChilds(i, incomingConnections);
}
}
// insert outcoming connections of lanes (by default isn't expanded)
if (lane->getGNEOutcomingConnections().size() > 0) {
std::vector<GNEConnection*> outcomingLaneConnections = lane->getGNEOutcomingConnections();
FXTreeItem* outgoingConnections = myTreelist->insertItem(0, laneItem, "Outcomings", outcomingLaneConnections.front()->getIcon(), lane->getGNEOutcomingConnections().front()->getIcon());
myTreeItemsConnections.insert(outgoingConnections);
outgoingConnections->setExpanded(false);
// insert outcoming connections
for (auto i : outcomingLaneConnections) {
showAttributeCarrierChilds(i, outgoingConnections);
}
}
}
break;
}
case SUMO_TAG_POI:
case SUMO_TAG_POLY:
case SUMO_TAG_CROSSING:
case SUMO_TAG_CONNECTION: {
// insert connection item
addACIntoList(AC, itemParent);
break;
}
default: {
// check if is an additional
if(GNEAttributeCarrier::getTagProperties(AC->getTag()).isAdditional()) {
// retrieve additional
GNEAdditional *additional = myFrameParent->getViewNet()->getNet()->retrieveAdditional(AC->getTag(), AC->getID(), false);
if(additional) {
// insert additional item
FXTreeItem* additionalItem = addACIntoList(AC, itemParent);
// insert additionals childs
for (auto i : additional->getAdditionalChilds()) {
showAttributeCarrierChilds(i, additionalItem);
}
}
}
break;
}
}
}
FXTreeItem*
GNEFrame::ACHierarchy::showAttributeCarrierParents() {
// Switch gl type of ac
switch (myAC->getTag()) {
case SUMO_TAG_EDGE: {
// obtain Edge
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(myAC->getID(), false);
if(edge) {
// insert Junctions of edge in tree (Pararell because a edge has always two Junctions)
FXTreeItem* junctionSourceItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " origin").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
FXTreeItem* junctionDestinyItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " destiny").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
junctionDestinyItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionSourceItem] = edge->getGNEJunctionSource();
myTreeItemToACMap[junctionDestinyItem] = edge->getGNEJunctionDestiny();
// return junction destiny Item
return junctionDestinyItem;
} else {
return nullptr;
}
}
case SUMO_TAG_LANE: {
// obtain lane
GNELane* lane = myFrameParent->getViewNet()->getNet()->retrieveLane(myAC->getID(), false);
if(lane) {
// obtain edge parent
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(lane->getParentEdge().getID());
//inser Junctions of lane of edge in tree (Pararell because a edge has always two Junctions)
FXTreeItem* junctionSourceItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " origin").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
FXTreeItem* junctionDestinyItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " destiny").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
junctionDestinyItem->setExpanded(true);
// Create edge item
FXTreeItem* edgeItem = myTreelist->insertItem(nullptr, junctionDestinyItem, edge->getHierarchyName().c_str(), edge->getIcon(), edge->getIcon());
edgeItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionSourceItem] = edge->getGNEJunctionSource();
myTreeItemToACMap[junctionDestinyItem] = edge->getGNEJunctionDestiny();
myTreeItemToACMap[edgeItem] = edge;
// return edge item
return edgeItem;
} else {
return nullptr;
}
}
case SUMO_TAG_POILANE: {
// Obtain POILane
GNEPOI* POILane = myFrameParent->getViewNet()->getNet()->retrievePOI(myAC->getID(), false);
if(POILane) {
// obtain lane parent
GNELane* lane = myFrameParent->getViewNet()->getNet()->retrieveLane(POILane->getLane()->getID());
// obtain edge parent
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(lane->getParentEdge().getID());
//inser Junctions of lane of edge in tree (Pararell because a edge has always two Junctions)
FXTreeItem* junctionSourceItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " origin").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
FXTreeItem* junctionDestinyItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " destiny").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
junctionDestinyItem->setExpanded(true);
// Create edge item
FXTreeItem* edgeItem = myTreelist->insertItem(nullptr, junctionDestinyItem, edge->getHierarchyName().c_str(), edge->getIcon(), edge->getIcon());
edgeItem->setExpanded(true);
// Create lane item
FXTreeItem* laneItem = myTreelist->insertItem(0, edgeItem, lane->getHierarchyName().c_str(), lane->getIcon(), lane->getIcon());
laneItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionSourceItem] = edge->getGNEJunctionSource();
myTreeItemToACMap[junctionDestinyItem] = edge->getGNEJunctionDestiny();
myTreeItemToACMap[edgeItem] = edge;
myTreeItemToACMap[laneItem] = lane;
// return Lane item
return laneItem;
} else {
return nullptr;
}
}
case SUMO_TAG_CROSSING: {
// obtain Crossing
GNECrossing* crossing = myFrameParent->getViewNet()->getNet()->retrieveCrossing(myAC->getID(), false);
if(crossing) {
// obtain junction
GNEJunction* junction = crossing->getParentJunction();
// create junction item
FXTreeItem* junctionItem = myTreelist->insertItem(nullptr, nullptr, junction->getHierarchyName().c_str(), junction->getIcon(), junction->getIcon());
junctionItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionItem] = junction;
// return junction Item
return junctionItem;
} else {
return nullptr;
}
}
case SUMO_TAG_CONNECTION: {
// obtain Connection
GNEConnection* connection = myFrameParent->getViewNet()->getNet()->retrieveConnection(myAC->getID(), false);
if(connection) {
// create edge from item
FXTreeItem* edgeFromItem = myTreelist->insertItem(nullptr, nullptr, connection->getEdgeFrom()->getHierarchyName().c_str(), connection->getEdgeFrom()->getIcon(), connection->getEdgeFrom()->getIcon());
edgeFromItem->setExpanded(true);
// create edge to item
FXTreeItem* edgeToItem = myTreelist->insertItem(nullptr, nullptr, connection->getEdgeTo()->getHierarchyName().c_str(), connection->getEdgeTo()->getIcon(), connection->getEdgeTo()->getIcon());
edgeToItem->setExpanded(true);
// create connection item
FXTreeItem* connectionItem = myTreelist->insertItem(0, edgeToItem, connection->getHierarchyName().c_str(), connection->getIcon(), connection->getIcon());
connectionItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[edgeFromItem] = connection->getEdgeFrom();
myTreeItemToACMap[edgeToItem] = connection->getEdgeTo();
myTreeItemToACMap[connectionItem] = connection;
// return connection item
return connectionItem;
} else {
return nullptr;
}
}
default: {
// obtain tag property (only for improve code legibility)
const auto &tagValue = GNEAttributeCarrier::getTagProperties(myAC->getTag());
// check if is an additional, and in other case return nullptr
if(tagValue.isAdditional()) {
// Obtain Additional
GNEAdditional* additional = myFrameParent->getViewNet()->getNet()->retrieveAdditional(myAC->getTag(), myAC->getID(), false);
if(additional) {
// first check if additional has another additional as parent (to add it into root)
if (tagValue.hasParent()) {
GNEAdditional* additionalParent = myFrameParent->getViewNet()->getNet()->retrieveAdditional(tagValue.getParentTag(), additional->getAttribute(GNE_ATTR_PARENT));
// create additional parent item
FXTreeItem* additionalParentItem = myTreelist->insertItem(0, 0, additionalParent->getHierarchyName().c_str(), additionalParent->getIcon(), additionalParent->getIcon());
additionalParentItem->setExpanded(true);
// Save it in myTreeItemToACMap
myTreeItemToACMap[additionalParentItem] = additionalParent;
}
if(tagValue.hasAttribute(SUMO_ATTR_EDGE)) {
// obtain edge parent
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(additional->getAttribute(SUMO_ATTR_EDGE));
//inser Junctions of lane of edge in tree (Pararell because a edge has always two Junctions)
FXTreeItem* junctionSourceItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " origin").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
FXTreeItem* junctionDestinyItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " destiny").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
junctionDestinyItem->setExpanded(true);
// Create edge item
FXTreeItem* edgeItem = myTreelist->insertItem(nullptr, junctionDestinyItem, edge->getHierarchyName().c_str(), edge->getIcon(), edge->getIcon());
edgeItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionSourceItem] = edge->getGNEJunctionSource();
myTreeItemToACMap[junctionDestinyItem] = edge->getGNEJunctionDestiny();
myTreeItemToACMap[edgeItem] = edge;
// return edge item
return edgeItem;
} else if (tagValue.hasAttribute(SUMO_ATTR_LANE)) {
// obtain lane parent
GNELane* lane = myFrameParent->getViewNet()->getNet()->retrieveLane(additional->getAttribute(SUMO_ATTR_LANE));
// obtain edge parent
GNEEdge* edge = myFrameParent->getViewNet()->getNet()->retrieveEdge(lane->getParentEdge().getID());
//inser Junctions of lane of edge in tree (Pararell because a edge has always two Junctions)
FXTreeItem* junctionSourceItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " origin").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
FXTreeItem* junctionDestinyItem = myTreelist->insertItem(nullptr, nullptr, (edge->getGNEJunctionSource()->getHierarchyName() + " destiny").c_str(), edge->getGNEJunctionSource()->getIcon(), edge->getGNEJunctionSource()->getIcon());
junctionDestinyItem->setExpanded(true);
// Create edge item
FXTreeItem* edgeItem = myTreelist->insertItem(nullptr, junctionDestinyItem, edge->getHierarchyName().c_str(), edge->getIcon(), edge->getIcon());
edgeItem->setExpanded(true);
// Create lane item
FXTreeItem* laneItem = myTreelist->insertItem(0, edgeItem, lane->getHierarchyName().c_str(), lane->getIcon(), lane->getIcon());
laneItem->setExpanded(true);
// Save items in myTreeItemToACMap
myTreeItemToACMap[junctionSourceItem] = edge->getGNEJunctionSource();
myTreeItemToACMap[junctionDestinyItem] = edge->getGNEJunctionDestiny();
myTreeItemToACMap[edgeItem] = edge;
myTreeItemToACMap[laneItem] = lane;
// return lane item
return laneItem;
}
}
}
return nullptr;
}
}
}
