62 myAmCreateEdgeSource(
false),
63 myLogicStatus(loaded ? FEATURE_LOADED : FEATURE_GUESSED),
64 myAmResponsible(
false),
65 myHasValidLogic(loaded),
66 myAmTLSSelected(
false),
67 myColorForMissingConnections(
false),
68 myTesselation(nbn->getID(),
"",
RGBColor::MAGENTA, nbn->getShape(),
false,
true, 0),
71 updateCenteringBoundary(
false);
79 if (crossing->unreferenced()) {
85 WRITE_DEBUG(
"Deleting unreferenced " + crossing->getTagStr() +
" '" + crossing->getID() +
"' in GNEJunction destructor");
91 walkingArea->decRef();
92 if (walkingArea->unreferenced()) {
98 WRITE_DEBUG(
"Deleting unreferenced " + walkingArea->getTagStr() +
" '" + walkingArea->getID() +
"' in GNEJunction destructor");
104 WRITE_DEBUG(
"Deleting NBNode of '" +
getID() +
"' in GNEJunction destructor");
164 if (shape.size() > 2) {
170 if ((index != -1) && shape[index].distanceSquaredTo2D(clickedPosition) < (snap_radius * snap_radius)) {
172 shape.erase(shape.begin() + index);
187 if (rebuildNBNodeCrossings) {
194 std::vector<GNECrossing*> retrievedCrossings;
199 retrievedCrossings.push_back(retrievedGNECrossing);
210 retrievedGNECrossing->
incRef();
217 if (crossing->isAttributeCarrierSelected()) {
218 crossing->unselectAttributeCarrier();
226 if (crossing->unreferenced()) {
228 WRITE_DEBUG(
"Deleting unreferenced " + crossing->getTagStr() +
" in rebuildGNECrossings()");
253 FXMenuPane* TLSOperations =
new FXMenuPane(ret);
262 mcAddJoinedTLS->disable();
267 mcAddJoinedTLS->enable();
269 mcAddJoinedTLS->disable();
287 new FXMenuSeparator(ret);
315 const std::string menuEntryInfo =
"Convert to roundabout (using junction attribute radius " +
toString(radius) +
")";
320 mcRoundabout->disable();
329 mcCustomShape->disable();
330 mcClearConnections->disable();
331 mcResetConnections->disable();
334 if (handlingSelection) {
335 mcResetCustomShape->setText(
TL(
"Reset junction shapes"));
339 mcClearConnections->disable();
343 mcResetCustomShape->disable();
349 std::string reason =
"wrong edit mode";
351 mcReplaceByGeometryPoint->setText(mcReplaceByGeometryPoint->getText() +
" (" + reason.c_str() +
")");
352 mcReplaceByGeometryPoint->disable();
355 if (numEndpoints == 1) {
356 mcSplitJunction->disable();
357 mcSplitJunctionAndReconnect->disable();
381 const double EXTENT = 2;
412 bool drawBubble =
true;
435 if (junctionExaggeration > 0) {
452 if (junctionShapeColor.
alpha() != 0) {
470 glTranslated(mousePosition.
x(), mousePosition.
y(), 0.1);
492 if (junctionExaggeration > 1) {
518 if (bubbleColor.
alpha() != 0) {
592std::vector<GNEJunction*>
595 std::set<GNEJunction*> junctions;
597 junctions.insert(incomingEdge->getFromJunction());
600 junctions.insert(outgoingEdge->getToJunction());
602 return std::vector<GNEJunction*>(junctions.begin(), junctions.end());
659const std::vector<GNEEdge*>&
665const std::vector<GNEEdge*>&
671const std::vector<GNECrossing*>&
677const std::vector<GNEWalkingArea*>&
683std::vector<GNEConnection*>
685 std::vector<GNEConnection*> connections;
687 for (
const auto& connection : incomingEdge->getGNEConnections()) {
688 connections.push_back(connection);
733 assert(undoList != 0);
737 for (EdgeVector::iterator it = incoming.begin(); it != incoming.end(); it++) {
757 std::vector<NBEdge::Connection> connections = srcNBE->
getConnections();
759 for (std::vector<NBEdge::Connection>::reverse_iterator con_it = connections.rbegin(); con_it != connections.rend(); con_it++) {
760 if (lane >= 0 && (*con_it).fromLane != lane) {
763 bool hasTurn = con_it->toEdge == turnEdge;
772 std::vector<NBConnection> removeConnections;
774 removeConnections.push_back(
NBConnection(srcNBE, con.fromLane, con.toEdge, con.toLane));
784 std::vector<NBConnection> removeConnections;
787 std::vector<NBEdge::Connection> connections = srcNBE->getConnections();
788 for (std::vector<NBEdge::Connection>::reverse_iterator con_it = connections.rbegin(); con_it != connections.rend(); con_it++) {
789 if ((*con_it).toEdge == destNBE) {
790 if (lane >= 0 && (*con_it).toLane != lane) {
793 bool hasTurn = srcNBE->getTurnDestination() == destNBE;
800 removeConnections.push_back(
NBConnection(srcNBE, (*con_it).fromLane, destNBE, (*con_it).toLane));
812 if (connections.size() > 0) {
814 for (
const auto&
TLS : coypOfTls) {
817 if (tlDef !=
nullptr) {
818 std::string newID = tlDef->
getID();
825 undoList->
add(
new GNEChange_TLS(
this, replacementDef,
true,
false, newID),
true);
827 const std::vector<NBNode*> copyOfNodes = tlDef->
getNodes();
828 for (
const auto& node : copyOfNodes) {
831 undoList->
add(
new GNEChange_TLS(sharing, replacementDef,
true,
false, newID),
true);
850 for (
const auto&
TLS : coypOfTls) {
853 if (tlDef !=
nullptr) {
854 std::string newID = tlDef->
getID();
857 for (
int i = 0; i < (int)which->
getLanes().size(); ++i) {
861 undoList->
add(
new GNEChange_TLS(
this, replacementDef,
true,
false, newID),
true);
863 const std::vector<NBNode*> copyOfNodes = tlDef->
getNodes();
864 for (
const auto& node : copyOfNodes) {
867 undoList->
add(
new GNEChange_TLS(sharing, replacementDef,
true,
false, newID),
true);
877 for (EdgeVector::iterator it = incoming.begin(); it != incoming.end(); it++) {
890 for (
const auto&
TLS : coypOfTls) {
892 if (tlDef !=
nullptr) {
894 std::string newID = tlDef->
getID();
899 replacementDef = repl;
916 replacementDef = repl;
929 undoList->
add(
new GNEChange_TLS(
this, replacementDef,
true,
false, newID),
true);
931 const std::vector<NBNode*> copyOfNodes = tlDef->
getNodes();
932 for (
const auto& node : copyOfNodes) {
935 undoList->
add(
new GNEChange_TLS(sharing, replacementDef,
true,
false, newID),
true);
946 for (
const auto& crossing : copyOfGNECrossings) {
948 EdgeSet edgeSet(crossing->getCrossingEdges().begin(), crossing->getCrossingEdges().end());
950 if (edgeSet.count(edge->
getNBEdge()) == 1) {
952 if ((crossing->getCrossingEdges().size() == 1) && (crossing->getCrossingEdges().front() == edge->
getNBEdge())) {
956 std::vector<std::string> edges = GNEAttributeCarrier::parse<std::vector<std::string>>(crossing->getAttribute(
SUMO_ATTR_EDGES));
957 edges.erase(std::find(edges.begin(), edges.end(), edge->
getID()));
976 if (crossing->getCrossingEdges() == NBNodeCrossing->
edges) {
980 if (createIfNoExist) {
984 WRITE_DEBUG(
"Created " + createdGNECrossing->
getTagStr() +
" '" + createdGNECrossing->
getID() +
"' in retrieveGNECrossing()");
991 return createdGNECrossing;
1003 if (walkingArea->getID() == NBNodeWalkingAreaID) {
1007 if (createIfNoExist) {
1011 WRITE_DEBUG(
"Created " + createdGNEWalkingArea->
getTagStr() +
" '" + createdGNEWalkingArea->
getID() +
"' in retrieveGNEWalkingArea()");
1018 return createdGNEWalkingArea;
1029 for (
const auto& j : i->getGNEConnections()) {
1030 j->markConnectionGeometryDeprecated();
1032 if (includingNeighbours) {
1033 i->getFromJunction()->markConnectionsDeprecated(
false);
1050 for (
const auto&
TLS : copyOfTls) {
1058 }
else if (
getNBNode()->isTLControlled()) {
1062 for (
const auto&
TLS : copyOfTls) {
1064 const std::vector<NBNode*> copyOfNodes =
TLS->getNodes();
1065 for (
const auto& node : copyOfNodes) {
1091 walkingArea->decRef();
1093 if (walkingArea->isAttributeCarrierSelected()) {
1094 walkingArea->unselectAttributeCarrier();
1102 if (walkingArea->unreferenced()) {
1104 WRITE_DEBUG(
"Deleting unreferenced " + walkingArea->getTagStr() +
" in rebuildGNEWalkingAreas()");
1121 retrievedGNEWalkingArea->
incRef();
1175 for (
const auto& j : i->getGNEConnections()) {
1176 if (j->getNBEdgeConnection().keepClear) {
1220 for (
const auto& j : i->getGNEConnections()) {
1235 for (
const auto&
TLS : copyOfTls) {
1237 if (oldLoaded !=
nullptr) {
1240 std::vector<NBNode*> nodes =
TLS->getNodes();
1241 for (
const auto& node : nodes) {
1255 for (
const auto& oldTLS : copyOfTls) {
1256 std::vector<NBNode*> copyOfNodes = oldTLS->getNodes();
1260 for (
const auto& node : copyOfNodes) {
1264 for (
const auto& node : copyOfNodes) {
1275 assert(copyOfTls.size() > 0);
1278 const bool currentIsSingle = currentTLS->
getNodes().size() == 1;
1279 const bool currentIsLoaded =
dynamic_cast<NBLoadedSUMOTLDef*
>(currentTLS) !=
nullptr;
1280 if (currentIsLoaded) {
1285 for (
const auto&
TLS : copyOfTls) {
1290 const std::map<std::string, NBTrafficLightDefinition*> programs = tlCont.
getPrograms(value);
1291 if (programs.size() > 0) {
1292 for (
const auto& TLSProgram : programs) {
1294 if (
dynamic_cast<NBOwnTLDef*
>(oldTLS) !=
nullptr) {
1302 newTLSJoined->
joinLogic(currentTLSCopy);
1309 std::vector<NBNode*> copyOfNodes = oldTLS->
getNodes();
1310 for (
const auto& node : copyOfNodes) {
1318 if (currentIsSingle && currentIsLoaded) {
1321 renamedLogic->
setID(value);
1323 renamedTLS->
setID(value);
1330 delete currentTLSCopy;
1348 return canParse<Position>(value);
1351 return canParse<PositionVector>(value);
1353 if (value.empty() || (value ==
"default")) {
1356 return canParse<double>(value) && ((parse<double>(value) >= 0) || (parse<double>(value) == -1));
1365 return canParse<bool>(value);
1373 return canParse<bool>(value);
1392 if (incomingEdge->getGNEConnections().size() > 0) {
1437 glTranslated(pos.
x(), pos.
y(), 2.2);
1439 const double halfWidth = 32 / s.
scale;
1440 const double halfHeight = 64 / s.
scale;
1451 crossing->drawGL(s);
1455 walkingArea->drawGL(s);
1459 for (
const auto& connection : incomingEdge->getGNEConnections()) {
1460 connection->drawGL(s);
1465 if (!demandElement->getTagProperty().isPlacedInRTree()) {
1466 demandElement->drawGL(s);
1478 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1482 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1489 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1493 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1502 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1506 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1519 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1523 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1535 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1536 }
else if (drawShape) {
1541 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1546 if ((inspectedACs.size() == 1) &&
1552 if (vehicle->getParentJunctions().front() ==
this) {
1555 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1559 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1561 }
else if (vehicle->getParentJunctions().back() ==
this) {
1564 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1568 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1576 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1580 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1587 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1591 (junctionExaggeration >= 1) ? junctionExaggeration : 1);
1631 i->clearGNEConnections();
1646 if (value.empty() || (value ==
"default")) {
1656 for (
const auto&
TLS : copyOfTls) {
1660 if (!
TLS->knowsParameter(
"barrierPhases")) {
1661 TLS->setParameter(
"barrierPhases",
"4,8");
1663 if (!
TLS->knowsParameter(
"barrier2Phases")) {
1664 TLS->setParameter(
"barrier2Phases",
"2,6");
1666 if (!
TLS->knowsParameter(
"ring1")) {
1667 TLS->setParameter(
"ring1",
"0,2,0,4");
1669 if (!
TLS->knowsParameter(
"ring2")) {
1670 TLS->setParameter(
"ring2",
"0,6,0,8");
1689 if (parse<bool>(value)) {
1740 switch (activeScheme) {
1800 if (edge->getGNEConnections().size() > 0) {
1828 for (
const auto& edge :
getNBNode()->getEdges()) {
1832 std::set<GNEJunction*> affectedJunctions;
1833 std::set<GNEEdge*> affectedEdges;
1837 affectedJunctions.insert(edge->getFromJunction());
1838 affectedJunctions.insert(edge->getToJunction());
1840 for (
const auto& junctionSourceEdge : edge->getFromJunction()->getChildEdges()) {
1841 affectedEdges.insert(junctionSourceEdge);
1844 for (
const auto& junctionDestinyEdge : edge->getToJunction()->getChildEdges()) {
1845 affectedEdges.insert(junctionDestinyEdge);
1849 for (
const auto& affectedJunction : affectedJunctions) {
1850 affectedJunction->clearWalkingAreas();
1853 for (
const auto& affectedEdge : affectedEdges) {
1855 if (updateEdgeBoundaries) {
1856 affectedEdge->updateCenteringBoundary(
true);
1859 affectedEdge->updateGeometry();
1914 tlCont.
insert(tlDef, forceInsert);
1922 if (tlDef->
getNodes().size() == 1) {
@ NETWORK_MOVE
mode for moving network elements
@ NETWORK_CREATE_EDGE
mode for creating new edges
@ NETWORK_TLS
mode for editing tls
@ NETWORK_CONNECT
mode for connecting lanes
@ MID_GNE_JUNCTION_ADDTLS
Add TLS into junction.
@ MID_GNE_JUNCTION_RESET_EDGE_ENDPOINTS
reset edge endpoints
@ MID_GNE_JUNCTION_CLEAR_CONNECTIONS
clear junction's connections
@ MID_GNE_JUNCTION_SELECT_ROUNDABOUT
select all roundabout nodes and edges of the current roundabout
@ MID_GNE_JUNCTION_RESET_SHAPE
reset junction shape
@ MID_GNE_JUNCTION_RESET_CONNECTIONS
reset junction's connections
@ MID_GNE_JUNCTION_SPLIT
turn junction into multiple junctions
@ MID_GNE_JUNCTION_REPLACE
turn junction into geometry node
@ MID_GNE_JUNCTION_CONVERT_ROUNDABOUT
convert junction to roundabout
@ MID_GNE_JUNCTION_SPLIT_RECONNECT
turn junction into multiple junctions and reconnect them heuristically
@ MID_GNE_JUNCTION_EDIT_SHAPE
edit junction shape
@ MID_GNE_JUNCTION_ADDJOINTLS
Add join TLS into junctions.
GUIPostDrawing gPostDrawing
GUIIcon
An enumeration of icons used by the gui applications.
#define WRITE_GLDEBUG(msg)
std::set< NBEdge * > EdgeSet
container for unique edges
std::vector< NBEdge * > EdgeVector
container for (sorted) edges
@ GNE_TAG_TRIP_JUNCTIONS
a trip between junctions (used in NETEDIT)
@ GNE_TAG_FLOW_JUNCTIONS
a flow between junctions (used in NETEDIT)
@ SUMO_TAG_JUNCTION
begin/end of the description of a junction
@ SUMO_TAG_TRAFFIC_LIGHT
a traffic light
@ SUMO_TAG_EDGE
begin/end of the description of an edge
SumoXMLNodeType
Numbers representing special SUMO-XML-attribute values for representing node- (junction-) types used ...
@ TRAFFIC_LIGHT_RIGHT_ON_RED
@ TRAFFIC_LIGHT_NOJUNCTION
SumoXMLAttr
Numbers representing SUMO-XML - attributes.
@ SUMO_ATTR_TLLINKINDEX2
link: the index of the opposite direction link of a pedestrian crossing
@ SUMO_ATTR_RADIUS
The turning radius at an intersection in m.
@ SUMO_ATTR_TLLAYOUT
node: the layout of the traffic light program
@ GNE_ATTR_SELECTED
element is selected
@ SUMO_ATTR_EDGES
the edges of a route
@ GNE_ATTR_PARAMETERS
parameters "key1=value1|key2=value2|...|keyN=valueN"
@ SUMO_ATTR_FRINGE
Fringe type of node.
@ GNE_ATTR_MODIFICATION_STATUS
whether a feature has been loaded,guessed,modified or approved
@ SUMO_ATTR_SHAPE
edge: the shape in xml-definition
@ SUMO_ATTR_TLTYPE
node: the type of traffic light
@ SUMO_ATTR_TLID
link,node: the traffic light id responsible for this link
@ SUMO_ATTR_RIGHT_OF_WAY
How to compute right of way.
@ SUMO_ATTR_TLLINKINDEX
link: the index of the link within the traffic light
@ SUMO_ATTR_KEEP_CLEAR
Whether vehicles must keep the junction clear.
std::string joinToString(const std::vector< T > &v, const T_BETWEEN &between, std::streamsize accuracy=gPrecision)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
A class that stores a 2D geometrical boundary.
Boundary & grow(double by)
extends the boundary by the given amount
static void drawFilledPoly(const PositionVector &v, bool close)
Draws a filled polygon described by the list of points.
static void drawBoundary(const Boundary &b)
Draw a boundary (used for debugging)
static void setColor(const RGBColor &c)
Sets the gl-color to this value.
static void drawFilledCircle(double width, int steps=8)
Draws a filled circle around (0,0)
static void pushName(unsigned int name)
push Name
static void popMatrix()
pop matrix
static void drawBoxLine(const Position &beg, double rot, double visLength, double width, double offset=0)
Draws a thick line.
static void popName()
pop Name
static void pushMatrix()
push matrix
static void drawText(const std::string &text, const Position &pos, const double layer, const double size, const RGBColor &col=RGBColor::BLACK, const double angle=0, const int align=0, double width=-1)
static void drawTextSettings(const GUIVisualizationTextSettings &settings, const std::string &text, const Position &pos, const double scale, const double angle=0, const double layer=2048, const int align=0)
const std::string getID() const
get ID (all Attribute Carriers have one)
bool isAttributeCarrierSelected() const
check if attribute carrier is selected
friend class GNEChange_Attribute
declare friend class
static const std::string True
true value in string format (used for comparing boolean values in getAttribute(......
const std::string & getTagStr() const
get tag assigned to this object in string format
static const std::string FEATURE_GUESSED
feature has been reguessed (may still be unchanged be we can't tell (yet)
void unselectAttributeCarrier(const bool changeFlag=true)
unselect attribute carrier using GUIGlobalSelection
bool drawUsingSelectColor() const
check if attribute carrier must be drawn using selecting color.
GNENet * myNet
pointer to net
void selectAttributeCarrier(const bool changeFlag=true)
select attribute carrier using GUIGlobalSelection
static const std::string FEATURE_MODIFIED
feature has been manually modified (implies approval)
static const std::string False
true value in string format(used for comparing boolean values in getAttribute(...))
bool myPossibleCandidate
flag to mark this element as possible candidate
bool mySpecialCandidate
flag to mark this element as special candidate
bool myTargetCandidate
flag to mark this element as target candidate
bool myConflictedCandidate
flag to mark this element as conflicted candidate
bool mySourceCandidate
flag to mark this element as source candidate
const GNEJunction * getJunctionSource() const
get junction source for new edge
This object is responsible for drawing a shape and for supplying a a popup menu. Messages are routete...
void updateCenteringBoundary(const bool updateGrid)
update centering boundary (implies change in RTREE)
void updateGeometry()
update pre-computed geometry information
struct for saving subordinated elements (Junction->Edge->Lane->(Additional | DemandElement)
ProtectElements * getProtectElements() const
get protect elements modul
A road/street connecting two junctions (netedit-version)
NBEdge * getNBEdge() const
returns the internal NBEdge
const std::vector< GNELane * > & getLanes() const
returns a reference to the lane vector
void updateJunctionPosition(GNEJunction *junction, const Position &origPos)
update edge geometry after junction move
const std::vector< GNEDemandElement * > & getChildDemandElements() const
return child demand elements
const std::vector< GNEEdge * > & getChildEdges() const
get child edges
void removeTLSConnections(std::vector< NBConnection > &connections, GNEUndoList *undoList)
remove the given connections from all traffic light definitions of this junction
void drawDottedContours(const GUIVisualizationSettings &s, const bool drawShape, const bool drawBubble, const double junctionExaggeration, const double bubbleRadius) const
draw dotted contours
void updateGLObject()
update GLObject (geometry, ID, etc.)
void markAsCreateEdgeSource()
marks as first junction in createEdge-mode
void addTrafficLight(NBTrafficLightDefinition *tlDef, bool forceInsert)
adds a traffic light
const std::vector< GNEEdge * > & getGNEIncomingEdges() const
Returns incoming GNEEdges.
void rebuildGNEWalkingAreas()
rebuilds WalkingAreas objects for this junction
void updateGeometryAfterNetbuild(bool rebuildNBNodeCrossings=false)
update pre-computed geometry information without modifying netbuild structures
bool myAmResponsible
whether we are responsible for deleting myNBNode
void removeGeometryPoint(const Position clickedPosition, GNEUndoList *undoList)
remove geometry point in the clicked position
const std::vector< GNECrossing * > & getGNECrossings() const
Returns GNECrossings.
friend class GNEChange_TLS
Declare friend class.
TesselatedPolygon myTesselation
An object that stores the shape and its tesselation.
const std::vector< GNEWalkingArea * > & getGNEWalkingAreas() const
Returns GNEWalkingAreas.
std::string getAttribute(SumoXMLAttr key) const
void setResponsible(bool newVal)
set responsibility for deleting internal structures
void deleteGLObject()
delete element
bool myColorForMissingConnections
whether this junction probably should have some connections but doesn't
GNEJunction(GNENet *net, NBNode *nbn, bool loaded=false)
Constructor.
void unMarkAsCreateEdgeSource()
removes mark as first junction in createEdge-mode
void moveJunctionGeometry(const Position &pos, const bool updateEdgeBoundaries)
reposition the node at pos without updating GRID and informs the edges
double getExaggeration(const GUIVisualizationSettings &s) const
return exaggeration associated with this GLObject
void updateGeometry()
update pre-computed geometry information (including crossings)
bool isLogicValid()
whether this junction has a valid logic
void drawTLSIcon(const GUIVisualizationSettings &s) const
draw TLS icon
std::vector< GNEEdge * > myGNEOutgoingEdges
vector with the (child) outgoings GNEEdges vinculated with this junction
double getColorValue(const GUIVisualizationSettings &s, int activeScheme) const
determines color value
void commitMoveShape(const GNEMoveResult &moveResult, GNEUndoList *undoList)
commit move shape
void drawJunctionChildren(const GUIVisualizationSettings &s) const
draw junction childs
void selectTLS(bool selected)
notify the junction of being selected in tls-mode. (used to control drawing)
void replaceIncomingConnections(GNEEdge *which, GNEEdge *by, GNEUndoList *undoList)
replace one edge by another in all tls connections
void removeOutgoingGNEEdge(GNEEdge *edge)
remove outgoing GNEEdge
double getMaxDrawingSize() const
get the maximum size (in either x-, or y-dimension) for determining whether to draw or not
void markAsModified(GNEUndoList *undoList)
prevent re-guessing connections at this junction
void setAttribute(SumoXMLAttr key, const std::string &value, GNEUndoList *undoList)
std::vector< GNECrossing * > myGNECrossings
the built crossing objects
void invalidateTLS(GNEUndoList *undoList, const NBConnection &deletedConnection=NBConnection::InvalidConnection, const NBConnection &addedConnection=NBConnection::InvalidConnection)
void clearWalkingAreas()
clear walking areas
void removeIncomingGNEEdge(GNEEdge *edge)
remove incoming GNEEdge
std::vector< GNEConnection * > getGNEConnections() const
Returns all GNEConnections vinculated with this junction.
GNEWalkingArea * retrieveGNEWalkingArea(const std::string &NBNodeWalkingAreaID, bool createIfNoExist=true)
get GNEWalkingArea if exist, and if not create it if create is enabled
GNEMoveOperation * getMoveOperation()
get move operation
GNECrossing * retrieveGNECrossing(NBNode::Crossing *NBNodeCrossing, bool createIfNoExist=true)
get GNECrossing if exist, and if not create it if create is enabled
std::vector< GNEEdge * > myGNEIncomingEdges
vector with the (child) incomings GNEEdges vinculated with this junction
const PositionVector & getJunctionShape() const
void setMoveShape(const GNEMoveResult &moveResult)
set move shape
void markConnectionsDeprecated(bool includingNeighbours)
mark connections as deprecated
const Parameterised::Map & getACParametersMap() const
get parameters map
void mirrorXLeftHand()
temporarily mirror coordinates in lefthand network to compute correct crossing geometries
void drawGL(const GUIVisualizationSettings &s) const
Draws the object.
double myMaxDrawingSize
The maximum size (in either x-, or y-dimension) for determining whether to draw or not.
Position getPositionInView() const
Returns position of hierarchical element in view.
bool isAttributeComputed(SumoXMLAttr key) const
bool myAmTLSSelected
whether this junction is selected in tls-mode
void removeConnectionsFrom(GNEEdge *edge, GNEUndoList *undoList, bool updateTLS, int lane=-1)
remove all connections from the given edge
bool isValid(SumoXMLAttr key, const std::string &value)
void addIncomingGNEEdge(GNEEdge *edge)
add incoming GNEEdge
RGBColor setColor(const GUIVisualizationSettings &s, bool bubble) const
sets junction color depending on circumstances
bool myHasValidLogic
whether this junctions logic is valid
std::string myLogicStatus
modification status of the junction logic (all connections across this junction)
void updateCenteringBoundary(const bool updateGrid)
update centering boundary (implies change in RTREE)
const std::vector< GNEEdge * > & getGNEOutgoingEdges() const
Returns incoming GNEEdges.
void removeEdgeFromCrossings(GNEEdge *edge, GNEUndoList *undoList)
removes the given edge from all pedestrian crossings
NBNode * getNBNode() const
Return net build node.
NBNode * myNBNode
A reference to the represented junction.
GUIGLObjectPopupMenu * getPopUpMenu(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own popup-menu.
void checkMissingConnections()
compute whether this junction probably should have some connections but doesn't
std::vector< GNEJunction * > getJunctionNeighbours() const
return GNEJunction neighbours
void setJunctionType(const std::string &value, GNEUndoList *undoList)
set junction Type (using undo/redo)
double myExaggeration
exaggeration used in tesselation
~GNEJunction()
Destructor.
void setLogicValid(bool valid, GNEUndoList *undoList, const std::string &status=FEATURE_GUESSED)
std::vector< GNEWalkingArea * > myGNEWalkingAreas
the built walkingArea objects
void removeConnectionsTo(GNEEdge *edge, GNEUndoList *undoList, bool updateTLS, int lane=-1)
remove all connections to the given edge
bool myAmCreateEdgeSource
whether this junction is the first junction for a newly creatededge
void buildTLSOperations(GUISUMOAbstractView &parent, GUIGLObjectPopupMenu *ret, const int numSelectedJunctions)
build TLS operations contextual menu
void addOutgoingGNEEdge(GNEEdge *edge)
add outgoing GNEEdge
void rebuildGNECrossings(bool rebuildNBNodeCrossings=true)
rebuilds crossing objects for this junction
bool isAttributeEnabled(SumoXMLAttr key) const
void removeTrafficLight(NBTrafficLightDefinition *tlDef)
removes a traffic light
GNEMoveOperation * calculateMoveShapeOperation(const PositionVector originalShape, const Position mousePosition, const double snapRadius, const bool onlyContour)
calculate move shape operation
PositionVector shapeToUpdate
shape to update (edited in moveElement)
void insertWalkingArea(GNEWalkingArea *walkingArea)
insert walkingArea
GNEJunction * retrieveJunction(const std::string &id, bool hardFail=true) const
get junction by id
void updateJunctionID(GNEJunction *junction, const std::string &newID)
update junction ID in container
void insertCrossing(GNECrossing *crossing)
insert crossing
void deleteWalkingArea(GNEWalkingArea *walkingArea)
delete walkingArea
int getNumberOfSelectedJunctions() const
get number of selected junctions
const std::set< GNECrossing * > & getCrossings() const
get crossings
GNEEdge * retrieveEdge(const std::string &id, bool hardFail=true) const
get edge by id
GNEDemandElement * retrieveDemandElement(SumoXMLTag type, const std::string &id, bool hardFail=true) const
Returns the named demand element.
void deleteCrossing(GNECrossing *crossing)
delete crossing
const std::set< GNEWalkingArea * > & getWalkingAreas() const
get walkingAreas
A NBNetBuilder extended by visualisation and editing capabilities.
void deleteCrossing(GNECrossing *crossing, GNEUndoList *undoList)
remove crossing
NBNetBuilder * getNetBuilder() const
get net builder
void addGLObjectIntoGrid(GNEAttributeCarrier *AC)
add GL Object into net
void removeGLObjectFromGrid(GNEAttributeCarrier *AC)
add GL Object into net
NBTrafficLightLogicCont & getTLLogicCont()
returns the tllcont of the underlying netbuilder
GNENetHelper::AttributeCarriers * getAttributeCarriers() const
get all attribute carriers used in this net
GNEPathManager * getPathManager()
get path manager
void requireRecompute()
inform the net about the need for recomputation
void addExplicitTurnaround(std::string id)
add edge id to the list of explicit turnarounds
void deleteJunction(GNEJunction *junction, GNEUndoList *undoList)
removes junction and all incident edges
GNEViewNet * getViewNet() const
get view net
bool myShapeEdited
flag to check if element shape is being edited
bool isShapeEdited() const
check if shape is being edited
Boundary getCenteringBoundary() const
Returns the boundary to which the view shall be centered in order to show the object.
Boundary myBoundary
object boundary
void invalidatePathCalculator()
invalidate pathCalculator
PathCalculator * getPathCalculator()
obtain instance of PathCalculator
void drawJunctionPathElements(const GUIVisualizationSettings &s, const GNEJunction *junction)
draw junction path elements
void incRef(const std::string &debugMsg="")
Increase reference.
bool isJunctionSelected(const GNEJunction *junction) const
check if given junction is selected (used fo joining)
bool isJoiningJunctions() const
is joining junctions
GNETLSEditorFrame::TLSJunction * getTLSJunction() const
get module for TLS Junction
void end()
End undo command sub-group. If the sub-group is still empty, it will be deleted; otherwise,...
bool hasCommandGroup() const
Check if undoList has command group.
void begin(GUIIcon icon, const std::string &description)
Begin undo command sub-group with current supermode. This begins a new group of commands that are tre...
void add(GNEChange *command, bool doit=false, bool merge=true)
Add new command, executing it if desired. The new command will be merged with the previous command if...
void changeAttribute(GNEChange_Attribute *change)
special method for change attributes, avoid empty changes, always execute
GNEJunction * getJunctionFront() const
get front junction or a pointer to nullptr
const GNEAttributeCarrier * getFrontAttributeCarrier() const
get front attributeCarrier
const GNEViewNetHelper::EditModes & getEditModes() const
get edit modes
bool drawSelectContour(const GUIGlObject *GLObject, const GNEAttributeCarrier *AC) const
check if draw select contour
bool drawDeleteContour(const GUIGlObject *GLObject, const GNEAttributeCarrier *AC) const
check if draw delete contour
bool showJunctionAsBubbles() const
return true if junction must be showed as bubbles
const GNEViewNetHelper::NetworkViewOptions & getNetworkViewOptions() const
get network view options
void drawTranslateFrontAttributeCarrier(const GNEAttributeCarrier *AC, double typeOrLayer, const double extraOffset=0)
draw front attributeCarrier
GNEViewParent * getViewParent() const
get the net object
GNEUndoList * getUndoList() const
get the undoList object
void removeFromAttributeCarrierInspected(const GNEAttributeCarrier *AC)
remove given AC of list of inspected Attribute Carriers
const std::vector< GNEAttributeCarrier * > & getInspectedAttributeCarriers() const
get inspected attribute carriers
bool mergeJunctions(GNEJunction *movedJunction, GNEJunction *targetJunction)
try to merge moved junction with another junction in that spot return true if merging did take place
void buildSelectionACPopupEntry(GUIGLObjectPopupMenu *ret, GNEAttributeCarrier *AC)
Builds an entry which allows to (de)select the object.
bool isAttributeCarrierInspected(const GNEAttributeCarrier *AC) const
check if attribute carrier is being inspected
const GNEViewNetHelper::ObjectsUnderCursor & getObjectsUnderCursor() const
get objects under cursor
GNEDeleteFrame * getDeleteFrame() const
get frame for delete elements
GNETLSEditorFrame * getTLSEditorFrame() const
get frame for NETWORK_TLS
GNECreateEdgeFrame * getCreateEdgeFrame() const
get frame for NETWORK_CREATEEDGE
This object is responsible for drawing a shape and for supplying a a popup menu. Messages are routete...
void updateCenteringBoundary(const bool updateGrid)
update centering boundary (implies change in RTREE)
void updateGeometry()
update pre-computed geometry information
static FXMenuCommand * buildFXMenuCommand(FXComposite *p, const std::string &text, FXIcon *icon, FXObject *tgt, FXSelector sel)
build menu command
static void drawDottedContourClosedShape(const GUIVisualizationSettings &s, const DottedContourType type, const PositionVector &shape, const double exaggeration, const double customWidth=1)
draw dotted contour for the given closed shape (used by Juctions, shapes and TAZs)
static void drawDottedContourCircle(const GUIVisualizationSettings &s, const DottedContourType type, const Position &pos, const double radius, const double exaggeration)
draw dotted contour for the given Position and radius (used by Juctions and POIs)
static void drawGeometryPoints(const GUIVisualizationSettings &s, const Position &mousePos, const PositionVector &shape, const RGBColor &geometryPointColor, const RGBColor &textColor, const double radius, const double exaggeration, const bool editingElevation, const bool drawExtremeSymbols)
draw geometry points
static void drawGeometry(const GUIVisualizationSettings &s, const Position &mousePos, const GUIGeometry &geometry, const double width, double offset=0)
draw geometry
void updateGeometry(const PositionVector &shape)
update entire geometry
static void drawMovingHint(const GUIVisualizationSettings &s, const Position &mousePos, const PositionVector &shape, const RGBColor &hintColor, const double radius, const double exaggeration)
draw moving hint
const std::string & getMicrosimID() const
Returns the id of the object as known to microsim.
void buildShowParamsPopupEntry(GUIGLObjectPopupMenu *ret, bool addSeparator=true)
Builds an entry which allows to open the parameter window.
void buildCenterPopupEntry(GUIGLObjectPopupMenu *ret, bool addSeparator=true)
Builds an entry which allows to center to the object.
void mouseWithinGeometry(const Position center, const double radius) const
check if mouse is within elements geometry (for circles)
void buildNameCopyPopupEntry(GUIGLObjectPopupMenu *ret, bool addSeparator=true)
Builds entries which allow to copy the name / typed name into the clipboard.
void buildPopupHeader(GUIGLObjectPopupMenu *ret, GUIMainWindow &app, bool addSeparator=true)
Builds the header.
GUIGlObjectType getType() const
Returns the type of the object as coded in GUIGlObjectType.
void buildPositionCopyEntry(GUIGLObjectPopupMenu *ret, const GUIMainWindow &app) const
Builds an entry which allows to copy the cursor position if geo projection is used,...
GUIGlID getGlID() const
Returns the numerical id of the object.
void drawName(const Position &pos, const double scale, const GUIVisualizationTextSettings &settings, const double angle=0, bool forceShow=false) const
draw name of item
static FXIcon * getIcon(const GUIIcon which)
returns a icon previously defined in the enum GUIIcon
const GUIGlObject * markedNode
marked Node (used in create edge mode)
const T getColor(const double value) const
const GUIVisualizationSettings & getVisualisationSettings() const
get visualization settings (read only)
virtual Position getPositionInformation() const
Returns the cursor's x/y position within the network.
static GUIGlID getTexture(GUITexture which)
returns a texture previously defined in the enum GUITexture
static void drawTexturedBox(int which, double size)
Draws a named texture as a box with the given size.
Stores the information about how to visualize structures.
GUIVisualizationTextSettings junctionName
GUIVisualizationSizeSettings junctionSize
bool drawBoundaries
enable or disable draw boundaries
bool drawForRectangleSelection
whether drawing is performed for the purpose of selecting objects using a rectangle
bool drawJunctionShape
whether the shape of the junction should be drawn
bool drawForPositionSelection
whether drawing is performed for the purpose of selecting objects with a single click
GUIVisualizationCandidateColorSettings candidateColorSettings
candidate color settings
GUIVisualizationTextSettings junctionID
bool drawMovingGeometryPoint(const double exaggeration, const double radius) const
check if moving geometry point can be draw
GUIVisualizationColorSettings colorSettings
color settings
double scale
information about a lane's width (temporary, used for a single view)
int getCircleResolution() const
function to calculate circle resolution for all circles drawn in drawGL(...) functions
GUIColorer junctionColorer
The junction colorer.
GUIVisualizationNeteditSizeSettings neteditSizeSettings
netedit size settings
double angle
The current view rotation angle.
NBEdge * getFrom() const
returns the from-edge (start of the connection)
int getFromLane() const
returns the from-lane
int getTLIndex() const
returns the index within the controlling tls or InvalidTLIndex if this link is unontrolled
static const int InvalidTlIndex
int getToLane() const
returns the to-lane
NBEdge * getTo() const
returns the to-edge (end of the connection)
static const NBConnection InvalidConnection
void removeRoundabout(const NBNode *node)
remove roundabout that contains the given node
The representation of a single edge during network building.
const std::vector< Connection > & getConnections() const
Returns the connections.
const std::string & getID() const
bool isTurningDirectionAt(const NBEdge *const edge) const
Returns whether the given edge is the opposite direction to this edge.
NBEdge * getTurnDestination(bool possibleDestination=false) const
A loaded (complete) traffic light logic.
void setID(const std::string &newID)
resets the id
NBTrafficLightLogic * getLogic()
Returns the internal logic.
void removeConnection(const NBConnection &conn, bool reconstruct=true)
removes the given connection from the traffic light if recontruct=true, reconstructs the logic and in...
void joinLogic(NBTrafficLightDefinition *def)
join nodes and states from the given logic (append red state)
void addConnection(NBEdge *from, NBEdge *to, int fromLane, int toLane, int linkIndex, int linkIndex2, bool reconstruct=true)
Adds a connection and immediately informs the edges.
void guessMinMaxDuration()
heuristically add minDur and maxDur when switching from tlType fixed to actuated
void replaceRemoved(NBEdge *removed, int removedLane, NBEdge *by, int byLane, bool incoming)
Replaces a removed edge/lane.
bool haveNetworkCrossings()
notify about style of loaded network (Without Crossings)
NBEdgeCont & getEdgeCont()
A definition of a pedestrian crossing.
EdgeVector edges
The edges being crossed.
Represents a single node (junction) during network building.
RightOfWay getRightOfWay() const
Returns hint on how to compute right of way.
Position getCenter() const
Returns a position that is guaranteed to lie within the node shape.
const std::set< NBTrafficLightDefinition * > & getControllingTLS() const
Returns the traffic lights that were assigned to this node (The set of tls that control this node)
void reinit(const Position &position, SumoXMLNodeType type, bool updateEdgeGeometries=false)
Resets initial values.
static const double UNSPECIFIED_RADIUS
unspecified lane width
FringeType getFringeType() const
Returns fringe type.
void buildCrossingsAndWalkingAreas()
build crossings, and walkingareas. Also removes invalid loaded crossings if wished
SumoXMLNodeType getType() const
Returns the type of this node.
void setRightOfWay(RightOfWay rightOfWay)
set method for computing right-of-way
void setCustomShape(const PositionVector &shape)
set the junction shape
static bool isTrafficLight(SumoXMLNodeType type)
return whether the given type is a traffic light
void invalidateIncomingConnections(bool reallowSetting=false)
invalidate incoming connections
const EdgeVector & getIncomingEdges() const
Returns this node's incoming edges (The edges which yield in this node)
void mirrorX()
mirror coordinates along the x-axis
std::vector< std::pair< Position, std::string > > getEndPoints() const
return list of unique endpoint coordinates of all edges at this node
const std::vector< std::unique_ptr< Crossing > > & getCrossingsIncludingInvalid() const
const EdgeVector & getOutgoingEdges() const
Returns this node's outgoing edges (The edges which start at this node)
bool hasCustomShape() const
return whether the shape was set by the user
const std::string & getName() const
Returns intersection name.
void setRadius(double radius)
set the turning radius
void setName(const std::string &name)
set intersection name
const Position & getPosition() const
void removeTrafficLight(NBTrafficLightDefinition *tlDef)
Removes the given traffic light from this node.
const EdgeVector & getEdges() const
Returns all edges which participate in this node (Edges that start or end at this node)
const PositionVector & getShape() const
retrieve the junction shape
double getRadius() const
Returns the turning radius of this node.
bool isRoundabout() const
return whether this node is part of a roundabout
bool checkIsRemovableReporting(std::string &reason) const
check if node is removable and return reason if not
const std::vector< WalkingArea > & getWalkingAreas() const
return this junctions pedestrian walking areas
PositionVector myPoly
the (outer) shape of the junction
void setFringeType(FringeType fringeType)
set method for computing right-of-way
bool isTLControlled() const
Returns whether this node is controlled by any tls.
A traffic light logics which must be computed (only nodes/edges are given)
void setLayout(TrafficLightLayout layout)
sets the layout for the generated signal plan
The base class for traffic light logic definitions.
const std::vector< NBNode * > & getNodes() const
Returns the list of controlled nodes.
const std::string & getProgramID() const
Returns the ProgramID.
TrafficLightType getType() const
get the algorithm type (static etc..)
virtual void setProgramID(const std::string &programID)
Sets the programID.
virtual void addNode(NBNode *node)
Adds a node to the traffic light logic.
SUMOTime getOffset()
Returns the offset.
A container for traffic light definitions and built programs.
const std::map< std::string, NBTrafficLightDefinition * > & getPrograms(const std::string &id) const
Returns all programs for the given tl-id.
bool insert(NBTrafficLightDefinition *logic, bool forceInsert=false)
Adds a logic definition to the dictionary.
void extract(NBTrafficLightDefinition *definition)
Extracts a traffic light definition from myDefinitions but keeps it in myExtracted for eventual * del...
A SUMO-compliant built logic for a traffic light.
static void computeTurnDirectionsForNode(NBNode *node, bool warn)
Computes turnaround destinations for all incoming edges of the given nodes (if any)
virtual void setID(const std::string &newID)
resets the id
const std::string & getID() const
Returns the id.
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
static OptionsCont & getOptions()
Retrieves the options.
static bool areParametersValid(const std::string &value, bool report=false, const std::string kvsep="=", const std::string sep="|")
check if given string can be parsed to a parameters map "key1=value1|key2=value2|....
std::map< std::string, std::string > Map
parameters map
void setParametersStr(const std::string ¶msString, const std::string kvsep="=", const std::string sep="|")
set the inner key/value map in string format "key1=value1|key2=value2|...|keyN=valueN"
const Parameterised::Map & getParametersMap() const
Returns the inner key/value map.
std::string getParametersStr(const std::string kvsep="=", const std::string sep="|") const
Returns the inner key/value map in string format "key1=value1|key2=value2|...|keyN=valueN".
A point in 2D or 3D with translation and scaling methods.
double distanceSquaredTo2D(const Position &p2) const
returns the square of the distance to another position (Only using x and y positions)
double x() const
Returns the x-position.
double z() const
Returns the z-position.
double y() const
Returns the y-position.
void closePolygon()
ensures that the last position equals the first
int indexOfClosest(const Position &p, bool twoD=false) const
Boundary getBoxBoundary() const
Returns a boundary enclosing this list of lines.
void scaleRelative(double factor)
enlarges/shrinks the polygon by a factor based at the centroid
double area() const
Returns the area (0 for non-closed)
bool around(const Position &p, double offset=0) const
Returns the information whether the position vector describes a polygon lying around the given point.
unsigned char alpha() const
Returns the alpha-amount of the color.
static const RGBColor BLACK
RGBColor changedBrightness(int change, int toChange=3) const
Returns a new color with altered brightness.
static const RGBColor MAGENTA
const PositionVector & getShape() const
Returns whether the shape of the polygon.
virtual void setShape(const PositionVector &shape)
Sets the shape of the polygon.
static StringBijection< SumoXMLNodeType > NodeTypes
node types
static StringBijection< TrafficLightType > TrafficLightTypes
traffic light types
static StringBijection< TrafficLightLayout > TrafficLightLayouts
traffic light layouts
static bool isValidNetID(const std::string &value)
whether the given string is a valid id for a network element
static StringBijection< RightOfWay > RightOfWayValues
righ of way algorithms
static StringBijection< FringeType > FringeTypeValues
fringe types
const std::string & getString(const T key) const
bool hasString(const std::string &str) const
T get(const std::string &str) const
std::vector< GLPrimitive > myTesselation
id of the display list for the cached tesselation
PositionVector & getShapeRef()
void drawTesselation(const PositionVector &shape) const
auto get(const nlohmann::detail::iteration_proxy_value< IteratorType > &i) -> decltype(i.key())
NetworkEditMode networkEditMode
the current Network edit mode
bool isCurrentSupermodeData() const
@check if current supermode is Data
bool isCurrentSupermodeNetwork() const
@check if current supermode is Network
static void drawLockIcon(const GNEAttributeCarrier *AC, GUIGlObjectType type, const Position viewPosition, const double exaggeration, const double size=0.5, const double offsetx=0, const double offsety=0)
draw lock icon
bool editingElevation() const
check if we're editing elevation
static const RGBColor special
color for selected special candidate element (Usually selected using shift+click)
static const RGBColor conflict
color for selected conflict candidate element (Usually selected using ctrl+click)
static const RGBColor target
color for selected candidate target
static const RGBColor possible
color for possible candidate element
static const RGBColor source
color for selected candidate source
RGBColor selectionColor
basic selection color
static const RGBColor editShapeColor
color for edited shapes (Junctions, crossings and connections)
static const double junctionGeometryPointRadius
moving junction geometry point radius
static const double junctionBubbleRadius
junction bubble radius
double getExaggeration(const GUIVisualizationSettings &s, const GUIGlObject *o, double factor=20) const
return the drawing size including exaggeration and constantSize values
bool show(const GUIGlObject *o) const
whether to show the text
double scaledSize(double scale, double constFactor=0.1) const
get scale size
A structure which describes a connection between edges or lanes.