Eclipse SUMO - Simulation of Urban MObility
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GUIInductLoop.cpp
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1/****************************************************************************/
2// Eclipse SUMO, Simulation of Urban MObility; see https://eclipse.dev/sumo
3// Copyright (C) 2001-2024 German Aerospace Center (DLR) and others.
4// This program and the accompanying materials are made available under the
5// terms of the Eclipse Public License 2.0 which is available at
6// https://www.eclipse.org/legal/epl-2.0/
7// This Source Code may also be made available under the following Secondary
8// Licenses when the conditions for such availability set forth in the Eclipse
9// Public License 2.0 are satisfied: GNU General Public License, version 2
10// or later which is available at
11// https://www.gnu.org/licenses/old-licenses/gpl-2.0-standalone.html
12// SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-or-later
13/****************************************************************************/
20// The gui-version of the MSInductLoop, together with the according
21/****************************************************************************/
22#include <config.h>
23
33#include <microsim/MSLane.h>
35#include "GUIEdge.h"
37#include "GUIInductLoop.h"
38
39
40// ===========================================================================
41// method definitions
42// ===========================================================================
43/* -------------------------------------------------------------------------
44 * GUIInductLoop-methods
45 * ----------------------------------------------------------------------- */
46GUIInductLoop::GUIInductLoop(const std::string& id, MSLane* const lane,
47 double position, double length,
48 std::string name, const std::string& vTypes,
49 const std::string& nextEdges,
50 int detectPersons, bool show) :
51 MSInductLoop(id, lane, position, length, name, vTypes, nextEdges, detectPersons, true),
52 myWrapper(nullptr),
53 myShow(show) {
54}
55
56
58
59
62 if (hasParameter("hotkey")) {
64 }
65 // caller (GUINet) takes responsibility for pointer
66 myWrapper = new MyWrapper(*this, myPosition);
67 return myWrapper;
68}
69
70
71void
73 if (myWrapper != nullptr) {
75 }
76}
77
78
79// -------------------------------------------------------------------------
80// GUIInductLoop::MyWrapper-methods
81// -------------------------------------------------------------------------
82
84 GUIDetectorWrapper(GLO_E1DETECTOR, detector.getID(), GUIIconSubSys::getIcon(GUIIcon::E1)),
85 myDetector(detector), myPosition(pos),
86 myHaveLength(myPosition != detector.getEndPosition()),
87 mySpecialColor(nullptr) {
88 mySupportsOverride = true;
90 myBoundary.add(myFGPosition.x() + (double) 5.5, myFGPosition.y() + (double) 5.5);
91 myBoundary.add(myFGPosition.x() - (double) 5.5, myFGPosition.y() - (double) 5.5);
93
94 if (myHaveLength) {
95 const MSLane& lane = *detector.getLane();
96 const double endPos = detector.getEndPosition();
97 myFGShape = lane.getShape();
101 myFGShapeRotations.reserve(myFGShape.size() - 1);
102 myFGShapeLengths.reserve(myFGShape.size() - 1);
103 int e = (int) myFGShape.size() - 1;
104 for (int i = 0; i < e; ++i) {
105 const Position& f = myFGShape[i];
106 const Position& s = myFGShape[i + 1];
107 myFGShapeLengths.push_back(f.distanceTo(s));
108 myFGShapeRotations.push_back((double) atan2((s.x() - f.x()), (f.y() - s.y())) * (double) 180.0 / (double) PI);
109 }
110 myOutline.push_back(lane.geometryPositionAtOffset(pos, -1));
111 myOutline.push_back(lane.geometryPositionAtOffset(pos, 1));
112 myOutline.push_back(lane.geometryPositionAtOffset(endPos, 1));
113 myOutline.push_back(lane.geometryPositionAtOffset(endPos, -1));
114 myIndicators.push_back(lane.geometryPositionAtOffset(pos, -1.7));
115 myIndicators.push_back(lane.geometryPositionAtOffset(pos, 1.7));
116 myIndicators.push_back(lane.geometryPositionAtOffset(endPos, 1.7));
117 myIndicators.push_back(lane.geometryPositionAtOffset(endPos, -1.7));
118 }
119}
120
121
123
124
127 Boundary b(myBoundary);
128 b.grow(20);
129 return b;
130}
131
132
133
136 GUISUMOAbstractView& /*parent !!! recheck this - never needed?*/) {
138 // add items
139 // parameter
140 ret->mkItem(TL("name"), false, myDetector.getName());
141 ret->mkItem(TL("position [m]"), false, myPosition);
142 if (myDetector.getEndPosition() != myPosition) {
143 ret->mkItem(TL("end position [m]"), false, myDetector.getEndPosition());
144 }
145 ret->mkItem(TL("lane"), false, myDetector.getLane()->getID());
146 if (myDetector.isTyped()) {
147 ret->mkItem(TL("vTypes"), false, toString(myDetector.getVehicleTypes()));
148 }
149 // values
150 ret->mkItem(TL("entered vehicles [-]"), true,
152 ret->mkItem(TL("speed [m/s]"), true,
154 ret->mkItem(TL("occupancy [%]"), true,
156 ret->mkItem(TL("vehicle length [m]"), true,
158 ret->mkItem(TL("empty time [s]"), true,
160 ret->mkItem(TL("occupied time [s]"), true,
162 ret->mkItem(TL("interval entered vehicles [#]"), true,
164 ret->mkItem(TL("interval speed [m/s]"), true,
166 ret->mkItem(TL("interval occupancy [%]"), true,
168 ret->mkItem(TL("last interval entered vehicles [#]"), true,
170 ret->mkItem(TL("last interval speed [m/s]"), true,
172 ret->mkItem(TL("last interval occupancy [%]"), true,
174 // close building
175 ret->closeBuilding(&myDetector);
176 return ret;
177}
178
179
180void
182 if (!myDetector.isVisible()) {
183 return;
184 }
185 GLHelper::pushName(getGlID());
186 double width = (double) 2.0 * s.scale;
187 glLineWidth(1.0);
188 const double exaggeration = getExaggeration(s);
189 glColor3d(1, 1, 0);
190 if (myHaveLength) {
192 glTranslated(0, 0, GLO_JUNCTION + 0.4); // do not draw on top of linkRules
193 GLHelper::drawBoxLines(myFGShape, myFGShapeRotations, myFGShapeLengths, MIN2(1.0, exaggeration), 0, 0);
194 if (width * exaggeration > 1) {
195
196 // outline
197 setOutlineColor();
198 glTranslated(0, 0, .01);
199 glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
200 glBegin(GL_QUADS);
201 for (const Position& p : myOutline) {
202 glVertex2d(p.x(), p.y());
203 }
204 glEnd();
205 glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
206
207 // position indicator
208 glBegin(GL_LINES);
209 glVertex2d(myIndicators[0].x(), myIndicators[0].y());
210 glVertex2d(myIndicators[1].x(), myIndicators[1].y());
211 glEnd();
212 glBegin(GL_LINES);
213 glVertex2d(myIndicators[2].x(), myIndicators[2].y());
214 glVertex2d(myIndicators[3].x(), myIndicators[3].y());
215 glEnd();
216
217 // jammed actuated-tls detector, draw crossed-out:
218 if (mySpecialColor != nullptr && *mySpecialColor == RGBColor::ORANGE) {
219 glBegin(GL_LINES);
220 glVertex2d(myOutline[0].x(), myOutline[0].y());
221 glVertex2d(myOutline[2].x(), myOutline[2].y());
222 glEnd();
223 glBegin(GL_LINES);
224 glVertex2d(myOutline[1].x(), myOutline[1].y());
225 glVertex2d(myOutline[3].x(), myOutline[3].y());
226 glEnd();
227 }
228 }
230 } else {
231 // classic shape
233 glTranslated(0, 0, GLO_JUNCTION + 0.4); // do not draw on top of linkRules
234 glTranslated(myFGPosition.x(), myFGPosition.y(), 0);
235 glRotated(myFGRotation, 0, 0, 1);
236 glScaled(exaggeration, exaggeration, 1);
237 glBegin(GL_QUADS);
238 glVertex2d(0 - 1.0, 2);
239 glVertex2d(-1.0, -2);
240 glVertex2d(1.0, -2);
241 glVertex2d(1.0, 2);
242 glEnd();
243 glTranslated(0, 0, .01);
244 setOutlineColor();
245
246 if (width * exaggeration > 1) {
247 // outline
248 glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
249 glBegin(GL_QUADS);
250 glVertex2d(0 - 1.0, 2);
251 glVertex2d(-1.0, -2);
252 glVertex2d(1.0, -2);
253 glVertex2d(1.0, 2);
254 glEnd();
255 glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
256
257 // position indicator
258 glRotated(90, 0, 0, -1);
259 glBegin(GL_LINES);
260 glVertex2d(0, 1.7);
261 glVertex2d(0, -1.7);
262 glEnd();
263
264 // jammed actuated-tls detector, draw crossed-out:
265 if (mySpecialColor != nullptr && *mySpecialColor == RGBColor::ORANGE) {
266 glBegin(GL_LINES);
267 glVertex2d(-1.0, 2);
268 glVertex2d(1.0, -2);
269 glEnd();
270 glBegin(GL_LINES);
271 glVertex2d(-1.0, -2);
272 glVertex2d(1.0, 2);
273 glEnd();
274 }
275 }
277 }
278 drawName(getCenteringBoundary().getCenter(), s.scale, s.addName);
280}
281
282
283void
285 if (haveOverride()) {
286 glColor3d(1, 0, 1);
287 } else if (mySpecialColor == nullptr) {
288 glColor3d(1, 1, 1);
289 } else {
290 GLHelper::setColor(*mySpecialColor);
291 }
292}
293
294bool
296 return myDetector.getOverrideTime() >= 0;
297}
298
299
300void
302 if (haveOverride()) {
303 myDetector.overrideTimeSinceDetection(-1);
304 } else {
305 myDetector.overrideTimeSinceDetection(0);
306 }
307}
308
309/****************************************************************************/
@ GLO_E1DETECTOR
a E1 detector
@ GLO_JUNCTION
a junction
GUIIcon
An enumeration of icons used by the gui applications.
Definition GUIIcons.h:33
#define TL(string)
Definition MsgHandler.h:315
T MIN2(T a, T b)
Definition StdDefs.h:76
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
Definition ToString.h:46
A class that stores a 2D geometrical boundary.
Definition Boundary.h:39
void add(double x, double y, double z=0)
Makes the boundary include the given coordinate.
Definition Boundary.cpp:78
Boundary & grow(double by)
extends the boundary by the given amount
Definition Boundary.cpp:343
static bool registerHotkey(const std::string &key, MSInductLoop *det)
register hotkey actions
static void setColor(const RGBColor &c)
Sets the gl-color to this value.
Definition GLHelper.cpp:649
static void pushName(unsigned int name)
push Name
Definition GLHelper.cpp:140
static void popMatrix()
pop matrix
Definition GLHelper.cpp:131
static void drawBoxLines(const PositionVector &geom, const std::vector< double > &rots, const std::vector< double > &lengths, double width, int cornerDetail=0, double offset=0)
Draws thick lines.
Definition GLHelper.cpp:348
static void popName()
pop Name
Definition GLHelper.cpp:149
static void pushMatrix()
push matrix
Definition GLHelper.cpp:118
bool mySupportsOverride
whether this detector supports virtual detector calls
A MSInductLoop-visualiser.
void drawGL(const GUIVisualizationSettings &s) const override
Draws the object.
bool haveOverride() const override
whether this detector has an active virtual detector call
bool myHaveLength
Whether this detector has defined a length.
void toggleOverride() const override
toggle virtual detector call
void setSpecialColor(const RGBColor *color)
set (outline) color for extra visualization
PositionVector myIndicators
Boundary myBoundary
The detector's boundary.
std::vector< double > myFGShapeLengths
The lengths of the shape parts.
Boundary getCenteringBoundary() const override
Returns the boundary to which the view shall be centered in order to show the object.
double myFGRotation
The rotation in full-geometry mode.
PositionVector myFGShape
The shape.
MyWrapper(GUIInductLoop &detector, double pos)
Constructor.
Position myFGPosition
The position in full-geometry mode.
std::vector< double > myFGShapeRotations
The rotations of the shape parts.
GUIParameterTableWindow * getParameterWindow(GUIMainWindow &app, GUISUMOAbstractView &parent) override
Returns an own parameter window.
The gui-version of the MSInductLoop.
MyWrapper * myWrapper
the glObject wrapper for this induction loop
virtual GUIDetectorWrapper * buildDetectorGUIRepresentation()
Returns this detector's visualisation-wrapper.
~GUIInductLoop()
Destructor.
void setSpecialColor(const RGBColor *color)
sets special caller for myWrapper
GUIInductLoop(const std::string &id, MSLane *const lane, double position, double length, std::string name, const std::string &vTypes, const std::string &nextEdges, int detectPersons, bool show)
Constructor.
A window containing a gl-object's parameter.
void mkItem(const char *name, bool dynamic, ValueSource< T > *src)
Adds a row which obtains its value from a ValueSource.
void closeBuilding(const Parameterised *p=0)
Closes the building of the table.
Stores the information about how to visualize structures.
GUIVisualizationTextSettings addName
double scale
information about a lane's width (temporary, used for a single view)
An unextended detector measuring at a fixed position on a fixed lane.
double getOccupancyTime() const
Returns the time of continous occupation by the same vehicle in seconds or 0 if there is no vehicle o...
double getOccupancy() const
Returns the current occupancy.
double getIntervalOccupancy(bool lastInterval=false) const
double getEnteredNumber(const int offset) const
Returns the number of vehicles that have passed the detector.
int getIntervalVehicleNumber(bool lastInterval=false) const
double getEndPosition() const
Returns the end position of the detector on the lane.
double getSpeed(const int offset) const
Returns the speed of the vehicle on the detector.
double getVehicleLength(const int offset) const
Returns the length of the vehicle on the detector.
const double myPosition
Detector's position on lane [m].
double getTimeSinceLastDetection() const
Returns the time since the last vehicle left the detector.
double getIntervalMeanSpeed(bool lastInterval=false) const
Representation of a lane in the micro simulation.
Definition MSLane.h:84
double interpolateLanePosToGeometryPos(double lanePos) const
Definition MSLane.h:554
virtual const PositionVector & getShape(bool) const
Definition MSLane.h:294
const Position geometryPositionAtOffset(double offset, double lateralOffset=0) const
Definition MSLane.h:560
const MSLane * getLane() const
Returns the lane the reminder works on.
bool hasParameter(const std::string &key) const
Returns whether the parameter is set.
virtual const std::string getParameter(const std::string &key, const std::string defaultValue="") const
Returns the value for a given key.
A point in 2D or 3D with translation and scaling methods.
Definition Position.h:37
double distanceTo(const Position &p2) const
returns the euclidean distance in 3 dimensions
Definition Position.h:266
double x() const
Returns the x-position.
Definition Position.h:55
double y() const
Returns the y-position.
Definition Position.h:60
double rotationDegreeAtOffset(double pos) const
Returns the rotation at the given length.
PositionVector getSubpart(double beginOffset, double endOffset) const
get subpart of a position vector
static const RGBColor ORANGE
Definition RGBColor.h:191