void
GUIEdge::drawMesoVehicles(const GUIVisualizationSettings& s) const {
GUIMEVehicleControl* vehicleControl = GUINet::getGUIInstance()->getGUIMEVehicleControl();
if (vehicleControl != 0) {
// draw the meso vehicles
vehicleControl->secureVehicles();
AbstractMutex::ScopedLocker locker(myLock);
size_t laneIndex = 0;
MESegment::Queue queue;
for (std::vector<MSLane*>::const_iterator msl = myLanes->begin(); msl != myLanes->end(); ++msl, ++laneIndex) {
GUILane* l = static_cast<GUILane*>(*msl);
// go through the vehicles
SUMOReal segmentOffset = 0; // offset at start of current segment
for (MESegment* segment = MSGlobals::gMesoNet->getSegmentForEdge(*this);
segment != 0; segment = segment->getNextSegment()) {
const SUMOReal length = segment->getLength();
if (laneIndex < segment->numQueues()) {
// make a copy so we don't have to worry about synchronization
queue = segment->getQueue(laneIndex);
const size_t queueSize = queue.size();
SUMOReal vehiclePosition = segmentOffset + length;
// draw vehicles beginning with the leader at the end of the segment
SUMOReal xOff = 0;
for (size_t i = 0; i < queueSize; ++i) {
GUIMEVehicle* veh = static_cast<GUIMEVehicle*>(queue[queueSize - i - 1]);
const SUMOReal vehLength = veh->getVehicleType().getLengthWithGap();
while (vehiclePosition < segmentOffset) {
// if there is only a single queue for a
// multi-lane edge shift vehicles and start
// drawing again from the end of the segment
vehiclePosition += length;
xOff += 2;
}
const Position p = l->geometryPositionAtOffset(vehiclePosition);
const SUMOReal angle = l->getShape().rotationAtOffset(l->interpolateLanePosToGeometryPos(vehiclePosition));
veh->setPositionAndAngle(p, angle);
veh->drawGL(s);
vehiclePosition -= vehLength;
}
}
segmentOffset += length;
}
glPopMatrix();
}
vehicleControl->releaseVehicles();
}
}
void
GUIEdge::drawMesoVehicles(const GUIVisualizationSettings& s) const {
const GUIVisualizationTextSettings& nameSettings = s.vehicleName;
const SUMOReal exaggeration = s.vehicleSize.getExaggeration(s);
GUIMEVehicleControl* vehicleControl = GUINet::getGUIInstance()->getGUIMEVehicleControl();
if (vehicleControl != 0) {
// draw the meso vehicles
vehicleControl->secureVehicles();
size_t laneIndex = 0;
MESegment::Queue queue;
for (std::vector<MSLane*>::const_iterator msl = myLanes->begin(); msl != myLanes->end(); ++msl, ++laneIndex) {
GUILane* l = static_cast<GUILane*>(*msl);
// go through the vehicles
SUMOReal segmentOffset = 0; // offset at start of current segment
for (MESegment* segment = MSGlobals::gMesoNet->getSegmentForEdge(*this);
segment != 0; segment = segment->getNextSegment()) {
const SUMOReal length = segment->getLength() * segment->getLengthGeometryFactor();
if (laneIndex < segment->numQueues()) {
// make a copy so we don't have to worry about synchronization
queue = segment->getQueue(laneIndex);
const SUMOReal avgCarSize = segment->getBruttoOccupancy() / segment->getCarNumber();
const SUMOReal avgCarHalfSize = 0.5 * avgCarSize;
const size_t queueSize = queue.size();
SUMOReal vehiclePosition = segmentOffset + length;
// draw vehicles beginning with the leader at the end of the segment
SUMOReal xOff = 0;
for (size_t i = 0; i < queueSize; ++i) {
MSBaseVehicle* veh = queue[queueSize - i - 1];
const SUMOReal vehLength = veh->getVehicleType().getLengthWithGap();
setVehicleColor(s, veh);
while (vehiclePosition < segmentOffset) {
// if there is only a single queue for a
// multi-lane edge shift vehicles and start
// drawing again from the end of the segment
vehiclePosition += length;
xOff += 2;
}
const Position p = l->geometryPositionAtOffset(vehiclePosition);
const SUMOReal angle = -l->getShape().rotationDegreeAtOffset(l->interpolateLanePosToGeometryPos(vehiclePosition));
glPushMatrix();
glTranslated(p.x(), p.y(), 0);
glRotated(angle, 0, 0, 1);
glTranslated(xOff, 0, GLO_VEHICLE);
glScaled(exaggeration, vehLength * exaggeration, 1);
glBegin(GL_TRIANGLES);
glVertex2d(0, 0);
glVertex2d(0 - 1.25, 1);
glVertex2d(0 + 1.25, 1);
glEnd();
glPopMatrix();
if (nameSettings.show) {
glPushMatrix();
glRotated(angle, 0, 0, 1);
glTranslated(xOff, 0, 0);
glRotated(-angle, 0, 0, 1);
GLHelper::drawText(veh->getID(),
l->geometryPositionAtOffset(vehiclePosition - 0.5 * vehLength),
GLO_MAX, nameSettings.size / s.scale, nameSettings.color);
glPopMatrix();
}
vehiclePosition -= vehLength;
}
}
segmentOffset += length;
}
glPopMatrix();
}
vehicleControl->releaseVehicles();
}
}
void
GUIEdge::drawGL(const GUIVisualizationSettings& s) const {
if (s.hideConnectors && myFunction == MSEdge::EDGEFUNCTION_CONNECTOR) {
return;
}
if (MSGlobals::gUseMesoSim) {
glPushName(getGlID());
}
// draw the lanes
for (LaneWrapperVector::const_iterator i = myLaneGeoms.begin(); i != myLaneGeoms.end(); ++i) {
#ifdef HAVE_INTERNAL
if (MSGlobals::gUseMesoSim) {
setColor(s);
}
#endif
(*i)->drawGL(s);
}
#ifdef HAVE_INTERNAL
if (MSGlobals::gUseMesoSim) {
const GUIVisualizationTextSettings& nameSettings = s.vehicleName;
GUIMEVehicleControl* vehicleControl = GUINet::getGUIInstance()->getGUIMEVehicleControl();
if (vehicleControl != 0) {
// draw the meso vehicles
vehicleControl->secureVehicles();
size_t laneIndex = 0;
MESegment::Queue queue;
for (LaneWrapperVector::const_iterator l = myLaneGeoms.begin(); l != myLaneGeoms.end(); ++l, ++laneIndex) {
const PositionVector& shape = (*l)->getShape();
const std::vector<SUMOReal>& shapeRotations = (*l)->getShapeRotations();
const std::vector<SUMOReal>& shapeLengths = (*l)->getShapeLengths();
const Position& laneBeg = shape[0];
glPushMatrix();
glTranslated(laneBeg.x(), laneBeg.y(), 0);
glRotated(shapeRotations[0], 0, 0, 1);
// go through the vehicles
int shapeIndex = 0;
SUMOReal shapeOffset = 0; // ofset at start of current shape
SUMOReal segmentOffset = 0; // offset at start of current segment
for (MESegment* segment = MSGlobals::gMesoNet->getSegmentForEdge(*this);
segment != 0; segment = segment->getNextSegment()) {
const SUMOReal length = segment->getLength();
if (laneIndex < segment->numQueues()) {
// make a copy so we don't have to worry about synchronization
queue = segment->getQueue(laneIndex);
const SUMOReal avgCarSize = segment->getOccupancy() / segment->getCarNumber();
const size_t queueSize = queue.size();
for (size_t i = 0; i < queueSize; i++) {
MSBaseVehicle* veh = queue[queueSize - i - 1];
setVehicleColor(s, veh);
SUMOReal vehiclePosition = segmentOffset + length - i * avgCarSize;
SUMOReal xOff = 0.f;
while (vehiclePosition < segmentOffset) {
// if there is only a single queue for a
// multi-lane edge shift vehicles and start
// drawing again from the end of the segment
vehiclePosition += length;
xOff += 0.5f;
}
while (shapeIndex < (int)shapeRotations.size() - 1 && vehiclePosition > shapeOffset + shapeLengths[shapeIndex]) {
glPopMatrix();
shapeOffset += shapeLengths[shapeIndex];
shapeIndex++;
glPushMatrix();
glTranslated(shape[shapeIndex].x(), shape[shapeIndex].y(), 0);
glRotated(shapeRotations[shapeIndex], 0, 0, 1);
}
glPushMatrix();
glTranslated(xOff, -(vehiclePosition - shapeOffset), GLO_VEHICLE);
glPushMatrix();
glScaled(1, avgCarSize, 1);
glBegin(GL_TRIANGLES);
glVertex2d(0, 0);
glVertex2d(0 - 1.25, 1);
glVertex2d(0 + 1.25, 1);
glEnd();
glPopMatrix();
glPopMatrix();
if (nameSettings.show) {
GLHelper::drawText(veh->getID(),
Position(xOff, -(vehiclePosition - shapeOffset)),
GLO_MAX, nameSettings.size / s.scale, nameSettings.color, 0);
}
}
}
segmentOffset += length;
}
glPopMatrix();
}
vehicleControl->releaseVehicles();
}
glPopName();
}
#endif
// (optionally) draw the name and/or the street name
const bool drawEdgeName = s.edgeName.show && myFunction == EDGEFUNCTION_NORMAL;
const bool drawInternalEdgeName = s.internalEdgeName.show && myFunction != EDGEFUNCTION_NORMAL;
const bool drawStreetName = s.streetName.show && myStreetName != "";
if (drawEdgeName || drawInternalEdgeName || drawStreetName) {
GUILaneWrapper* lane1 = myLaneGeoms[0];
GUILaneWrapper* lane2 = myLaneGeoms[myLaneGeoms.size() - 1];
Position p = lane1->getShape().positionAtLengthPosition(lane1->getShape().length() / (SUMOReal) 2.);
p.add(lane2->getShape().positionAtLengthPosition(lane2->getShape().length() / (SUMOReal) 2.));
p.mul(.5);
SUMOReal angle = lane1->getShape().rotationDegreeAtLengthPosition(lane1->getShape().length() / (SUMOReal) 2.);
angle += 90;
if (angle > 90 && angle < 270) {
angle -= 180;
}
if (drawEdgeName) {
drawName(p, s.scale, s.edgeName, angle);
} else if (drawInternalEdgeName) {
drawName(p, s.scale, s.internalEdgeName, angle);
}
if (drawStreetName) {
GLHelper::drawText(getStreetName(), p, GLO_MAX,
s.streetName.size / s.scale, s.streetName.color, angle);
}
}
myLock.lock();
for (std::set<MSPerson*>::const_iterator i = myPersons.begin(); i != myPersons.end(); ++i) {
GUIPerson* person = dynamic_cast<GUIPerson*>(*i);
assert(person != 0);
person->drawGL(s);
}
myLock.unlock();
}
