Eclipse SUMO - Simulation of Urban MObility
GUIMEInductLoop.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 /****************************************************************************/
18 // The gui-version of the MEInductLoop
19 /****************************************************************************/
20 #include <config.h>
21 
22 
23 #include <utils/gui/globjects/GLIncludes.h>
24 #include <utils/gui/globjects/GUIGlObject.h>
25 #include <utils/geom/PositionVector.h>
26 #include <guisim/GUILane.h>
27 #include <utils/gui/div/GLHelper.h>
28 #include <utils/gui/div/GUIParameterTableWindow.h>
29 #include <microsim/logging/FuncBinding_IntParam.h>
30 #include <microsim/logging/FunctionBinding.h>
31 #include <mesosim/MEInductLoop.h>
32 #include <mesosim/MESegment.h>
33 #include "GUIMEInductLoop.h"
34 
35 
36 // ===========================================================================
37 // method definitions
38 // ===========================================================================
39 /* -------------------------------------------------------------------------
40  * GUIMEInductLoop-methods
41  * ----------------------------------------------------------------------- */
42 GUIMEInductLoop::GUIMEInductLoop(const std::string& id, MESegment* s,
43  double position,
44  const std::string name, const std::string& vTypes,
45  const std::string& nextEdges,
46  int detectPersons,
47  bool /*show*/):
48  MEInductLoop(id, s, position, name, vTypes, nextEdges, detectPersons)
49 {}
50 
51 
52 GUIMEInductLoop::~GUIMEInductLoop() {}
53 
54 
55 GUIDetectorWrapper*
56 GUIMEInductLoop::buildDetectorGUIRepresentation() {
57  return new MyWrapper(*this, myPosition);
58 }
59 
60 // -----------------------------------------------------------------------
61 // GUIMEInductLoop::MyWrapper-methods
62 // -----------------------------------------------------------------------
63 
64 GUIMEInductLoop::MyWrapper::MyWrapper(GUIMEInductLoop& detector, double pos)
65  : GUIDetectorWrapper(GLO_E1DETECTOR_ME, detector.getID(), GUIIconSubSys::getIcon(GUIIcon::E1)),
66  myDetector(detector), myPosition(pos) {
67  const MSLane* lane = detector.mySegment->getEdge().getLanes()[0];
68  myFGPosition = lane->geometryPositionAtOffset(pos);
69  myBoundary.add(myFGPosition.x() + (double) 5.5, myFGPosition.y() + (double) 5.5);
70  myBoundary.add(myFGPosition.x() - (double) 5.5, myFGPosition.y() - (double) 5.5);
71  myFGRotation = -lane->getShape().rotationDegreeAtOffset(pos);
72 }
73 
74 
75 GUIMEInductLoop::MyWrapper::~MyWrapper() {}
76 
77 
78 double
79 GUIMEInductLoop::MyWrapper::getExaggeration(const GUIVisualizationSettings& s) const {
80  return s.addSize.getExaggeration(s, this);
81 }
82 
83 
84 Boundary
85 GUIMEInductLoop::MyWrapper::getCenteringBoundary() const {
86  Boundary b(myBoundary);
87  b.grow(20);
88  return b;
89 }
90 
91 
92 
93 GUIParameterTableWindow*
94 GUIMEInductLoop::MyWrapper::getParameterWindow(GUIMainWindow& app,
95  GUISUMOAbstractView& /* parent */) {
96  GUIParameterTableWindow* ret = new GUIParameterTableWindow(app, *this);
97  // add items
98  /*
99  ret->mkItem("flow [veh/h]", true,
100  new FuncBinding_IntParam<GUIMEInductLoop, double>(
101  &(getLoop()), &GUIMEInductLoop::getFlow, 1));
102  ret->mkItem("mean speed [m/s]", true,
103  new FuncBinding_IntParam<GUIMEInductLoop, double>(
104  &(getLoop()), &GUIMEInductLoop::getMeanSpeed, 1));
105  ret->mkItem("occupancy [%]", true,
106  new FuncBinding_IntParam<GUIMEInductLoop, double>(
107  &(getLoop()), &GUIMEInductLoop::getOccupancy, 1));
108  ret->mkItem("mean vehicle length [m]", true,
109  new FuncBinding_IntParam<GUIMEInductLoop, double>(
110  &(getLoop()), &GUIMEInductLoop::getMeanVehicleLength, 1));
111  ret->mkItem("empty time [s]", true,
112  new FunctionBinding<GUIMEInductLoop, double>(
113  &(getLoop()), &GUIMEInductLoop::getTimeSinceLastDetection));
114  */
115  //
116  ret->mkItem("position [m]", false, myPosition);
117  ret->mkItem("lane", false, myDetector.mySegment->getID());
118  // close building
119  ret->closeBuilding();
120  return ret;
121 }
122 
123 
124 void
125 GUIMEInductLoop::MyWrapper::drawGL(const GUIVisualizationSettings& s) const {
126  GLHelper::pushName(getGlID());
127  glPolygonOffset(0, -2);
128  double width = (double) 2.0 * s.scale;
129  glLineWidth(1.0);
130  const double exaggeration = getExaggeration(s);
131  // shape
132  glColor3d(1, 1, 0);
133  GLHelper::pushMatrix();
134  glTranslated(myFGPosition.x(), myFGPosition.y(), getType());
135  glRotated(myFGRotation, 0, 0, 1);
136  glScaled(exaggeration, exaggeration, exaggeration);
137  glBegin(GL_QUADS);
138  glVertex2d(0 - 1.0, 2);
139  glVertex2d(-1.0, -2);
140  glVertex2d(1.0, -2);
141  glVertex2d(1.0, 2);
142  glEnd();
143  glBegin(GL_LINES);
144  // without the subtracted offsets, lines are partially longer
145  // than the boxes
146  glVertex2d(0, 2 - .1);
147  glVertex2d(0, -2 + .1);
148  glEnd();
149 
150  // outline
151  if (width * exaggeration > 1) {
152  glColor3d(1, 1, 1);
153  glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
154  glBegin(GL_QUADS);
155  glVertex2d(0 - 1.0, 2);
156  glVertex2d(-1.0, -2);
157  glVertex2d(1.0, -2);
158  glVertex2d(1.0, 2);
159  glEnd();
160  glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
161  }
162 
163  // position indicator
164  if (width * exaggeration > 1) {
165  glRotated(90, 0, 0, -1);
166  glColor3d(1, 1, 1);
167  glBegin(GL_LINES);
168  glVertex2d(0, 1.7);
169  glVertex2d(0, -1.7);
170  glEnd();
171  }
172  GLHelper::popMatrix();
173  drawName(getCenteringBoundary().getCenter(), s.scale, s.addName);
174  GLHelper::popName();
175 }
176 
177 
178 GUIMEInductLoop&
179 GUIMEInductLoop::MyWrapper::getLoop() {
180  return myDetector;
181 }
182 
183 
184 /****************************************************************************/
FuncBinding_IntParam.h
GLO_E1DETECTOR_ME
@ GLO_E1DETECTOR_ME
a E1 detector
Definition: GUIGlObjectTypes.h:88
GUIIcon
GUIIcon
An enumeration of icons used by the gui applications.
Definition: GUIIcons.h:33
Boundary
A class that stores a 2D geometrical boundary.
Definition: Boundary.h:39
Boundary::add
void add(double x, double y, double z=0)
Makes the boundary include the given coordinate.
Definition: Boundary.cpp:78
Boundary::grow
Boundary & grow(double by)
extends the boundary by the given amount
Definition: Boundary.cpp:319
GLHelper::pushName
static void pushName(unsigned int name)
push Name
Definition: GLHelper.cpp:139
GLHelper::popMatrix
static void popMatrix()
pop matrix
Definition: GLHelper.cpp:130
GLHelper::popName
static void popName()
pop Name
Definition: GLHelper.cpp:148
GLHelper::pushMatrix
static void pushMatrix()
push matrix
Definition: GLHelper.cpp:117
GUIMEInductLoop::MyWrapper::getExaggeration
double getExaggeration(const GUIVisualizationSettings &s) const
return exaggeration associated with this GLObject
Definition: GUIMEInductLoop.cpp:79
GUIMEInductLoop::MyWrapper::myBoundary
Boundary myBoundary
The detector's boundary.
Definition: GUIMEInductLoop.h:115
GUIMEInductLoop::MyWrapper::myFGPosition
Position myFGPosition
The position in full-geometry mode.
Definition: GUIMEInductLoop.h:118
GUIMEInductLoop::MyWrapper::getParameterWindow
GUIParameterTableWindow * getParameterWindow(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own parameter window.
Definition: GUIMEInductLoop.cpp:94
GUIMEInductLoop::MyWrapper::getCenteringBoundary
Boundary getCenteringBoundary() const
Returns the boundary to which the view shall be centered in order to show the object.
Definition: GUIMEInductLoop.cpp:85
GUIMEInductLoop::MyWrapper::getLoop
GUIMEInductLoop & getLoop()
Returns the detector itself.
Definition: GUIMEInductLoop.cpp:179
GUIMEInductLoop::MyWrapper::myFGRotation
double myFGRotation
The rotation in full-geometry mode.
Definition: GUIMEInductLoop.h:121
GUIMEInductLoop::MyWrapper::MyWrapper
MyWrapper(GUIMEInductLoop &detector, double pos)
Constructor.
Definition: GUIMEInductLoop.cpp:64
GUIMEInductLoop::MyWrapper::drawGL
void drawGL(const GUIVisualizationSettings &s) const
Draws the object.
Definition: GUIMEInductLoop.cpp:125
GUIMEInductLoop::GUIMEInductLoop
GUIMEInductLoop(const std::string &id, MESegment *s, double position, const std::string name, const std::string &vTypes, const std::string &nextEdges, int detectPersons, bool show)
Construtor.
Definition: GUIMEInductLoop.cpp:42
GUIMEInductLoop::buildDetectorGUIRepresentation
virtual GUIDetectorWrapper * buildDetectorGUIRepresentation()
Returns this detector's visualisation-wrapper.
Definition: GUIMEInductLoop.cpp:56
GUIMEInductLoop::~GUIMEInductLoop
~GUIMEInductLoop()
Destructor.
Definition: GUIMEInductLoop.cpp:52
GUIParameterTableWindow
A window containing a gl-object's parameter.
Definition: GUIParameterTableWindow.h:61
GUIParameterTableWindow::mkItem
void mkItem(const char *name, bool dynamic, ValueSource< T > *src)
Adds a row which obtains its value from a ValueSource.
Definition: GUIParameterTableWindow.h:107
GUIParameterTableWindow::closeBuilding
void closeBuilding(const Parameterised *p=0)
Closes the building of the table.
Definition: GUIParameterTableWindow.cpp:252
GUIVisualizationSettings
Stores the information about how to visualize structures.
Definition: GUIVisualizationSettings.h:572
GUIVisualizationSettings::addName
GUIVisualizationTextSettings addName
Definition: GUIVisualizationSettings.h:897
GUIVisualizationSettings::addSize
GUIVisualizationSizeSettings addSize
Definition: GUIVisualizationSettings.h:895
GUIVisualizationSettings::scale
double scale
information about a lane's width (temporary, used for a single view)
Definition: GUIVisualizationSettings.h:995
MEInductLoop
An induction loop for mesoscopic simulation.
Definition: MEInductLoop.h:45
MEInductLoop::mySegment
MESegment *const mySegment
mesoscopic edge segment the loop lies on
Definition: MEInductLoop.h:100
MEInductLoop::myPosition
const double myPosition
position from the start of the edge / lane
Definition: MEInductLoop.h:103
MESegment
A single mesoscopic segment (cell)
Definition: MESegment.h:49
MESegment::getEdge
const MSEdge & getEdge() const
Returns the edge this segment belongs to.
Definition: MESegment.h:359
MSEdge::getLanes
const std::vector< MSLane * > & getLanes() const
Returns this edge's lanes.
Definition: MSEdge.h:168
MSLane
Representation of a lane in the micro simulation.
Definition: MSLane.h:84
MSLane::geometryPositionAtOffset
const Position geometryPositionAtOffset(double offset, double lateralOffset=0) const
Definition: MSLane.h:552
MSLane::getShape
virtual const PositionVector & getShape(bool) const
Definition: MSLane.h:294
Position::x
double x() const
Returns the x-position.
Definition: Position.h:55
Position::y
double y() const
Returns the y-position.
Definition: Position.h:60
PositionVector::rotationDegreeAtOffset
double rotationDegreeAtOffset(double pos) const
Returns the rotation at the given length.
Definition: PositionVector.cpp:342
GUIVisualizationSizeSettings::getExaggeration
double getExaggeration(const GUIVisualizationSettings &s, const GUIGlObject *o, double factor=20) const
return the drawing size including exaggeration and constantSize values
Definition: GUIVisualizationSettings.cpp:340