Eclipse SUMO - Simulation of Urban MObility
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GUIOverheadWire.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 a MSOverheadWire
21/****************************************************************************/
22#include <config.h>
23
24#include <string>
27#include <utils/geom/Boundary.h>
32#include <microsim/MSNet.h>
33#include <microsim/MSLane.h>
34#include <microsim/MSEdge.h>
37#include <gui/GUIGlobals.h>
46#include "GUINet.h"
47#include "GUIEdge.h"
48#include "GUIPerson.h"
49#include "GUIOverheadWire.h"
50
51
52// ===========================================================================
53// method definitions
54// ===========================================================================
55GUIOverheadWire::GUIOverheadWire(const std::string& id, MSLane& lane, double frompos, double topos, bool voltageSource) :
56 MSOverheadWire(id, lane, frompos, topos, voltageSource),
58 myFGShape = lane.getShape();
62 myFGShapeRotations.reserve(myFGShape.size() - 1);
63 myFGShapeLengths.reserve(myFGShape.size() - 1);
64 int e = (int)myFGShape.size() - 1;
65 for (int i = 0; i < e; ++i) {
66 const Position& f = myFGShape[i];
67 const Position& s = myFGShape[i + 1];
68 myFGShapeLengths.push_back(f.distanceTo(s));
69 myFGShapeRotations.push_back((double)atan2((s.x() - f.x()), (f.y() - s.y())) * (double) 180.0 / (double)M_PI);
70 }
72 tmp.move2side(1.5);
73
74 // position of the centre of the lane + move2side
75 //myFGSignPos = tmp.getLineCenter();
76
77 // position of beginning of the lane + move2side (2 equivallent commands ?)
78 //myFGSignPos = tmp.positionAtOffset(double(0.0));
79 myFGSignPos = tmp[0];
80
81 myFGSignRot = 0;
82 if (tmp.length() != 0) {
84 const double rotSign = MSGlobals::gLefthand ? -1 : 1;
85 myFGSignRot -= 90 * rotSign;
86 }
87}
88
89
92
93GUIOverheadWireClamp::GUIOverheadWireClamp(const std::string& id, MSLane& lane_start, MSLane& lane_end) :
95 myFGShape.clear();
96 myFGShape.push_back(lane_start.getShape().front());
97 myFGShape.push_back(lane_end.getShape().back());
98}
99
102
105 // Create table items
107
108 // add items
109 ret->mkItem(TL("begin position [m]"), false, myBegPos);
110 ret->mkItem(TL("end position [m]"), false, myEndPos);
111 //ret->mkItem(TL("voltage [V]"), false, myVoltage);
112
113 // close building
114 ret->closeBuilding();
115 return ret;
116}
117
118
130
131
132double
136
137
141 b.grow(20);
142 return b;
143}
144
145
146void
148 // Draw overhead wire segment
151 RGBColor lightgray(211, 211, 211, 255);
152 RGBColor green(76, 170, 50, 255);
153 RGBColor yellow(255, 235, 0, 255);
154 RGBColor yellowCharge(255, 180, 0, 255);
155 RGBColor redCharge(255, 51, 51, 255);
156 RGBColor redChargeOverheadWire(180, 0, 0, 255);
157
158 GUIColorScheme scheme = GUIColorScheme("by overhead wire current", RGBColor::BLACK, "road", true);
159 double range = 200;
160 scheme.clear();
161 scheme.addColor(RGBColor::RED, (0));
162 scheme.addColor(RGBColor::ORANGE, (range * 1 / 6.0));
163 scheme.addColor(RGBColor::YELLOW, (range * 2 / 6.0));
164 scheme.addColor(RGBColor::GREEN, (range * 3 / 6.0));
165 scheme.addColor(RGBColor::CYAN, (range * 4 / 6.0));
166 scheme.addColor(RGBColor::BLUE, (range * 5 / 6.0));
167 scheme.addColor(RGBColor::MAGENTA, (200));
168
169 // draw the area depending if the vehicle is charging
170 glTranslated(0, 0, getType());
171
172 // get relative line thickness
173 const double exaggeration = getExaggeration(s);
174
175 //right catenary
176 double toPos = getEndLanePosition();
177 double fromPos = 0;
178 PositionVector myFGShape_aux = myFGShape;
179 const MSLane& lane_aux = getLane();
180 std::vector<double> myFGShapeRotations_aux;
181 std::vector<double> myFGShapeLengths_aux;
182 int e_aux = 0;
183 Node* node = NULL;
184 double voltage = 0;
185
186 if (myCircuitStartNodePos != NULL) {
188 GLHelper::setColor(scheme.getColor(MAX2(0.0, voltage - 400)));
189 }
190
191 Circuit* circuit = getCircuit();
192 // loop over charging vehicles under the overhead wire segment to color the wire segment parts according to the voltage level
193 // lock access to myChargingVehicles
194 lock();
195 for (auto it = myChargingVehicles.begin(); it != myChargingVehicles.end(); ++it) {
196 // position of the vehicle on the lane
197 fromPos = (*it)->getPositionOnLane() - ((*it)->getVehicleType().getLength() / 2);
198 if (fromPos < 0) {
199 fromPos = 0;
200 };
201
202 myFGShape_aux = myFGShape;
203 myFGShape_aux = myFGShape_aux.getSubpart(
204 lane_aux.interpolateLanePosToGeometryPos(fromPos),
205 lane_aux.interpolateLanePosToGeometryPos(toPos));
206
207 myFGShapeRotations_aux.clear();
208 myFGShapeLengths_aux.clear();
209
210 myFGShapeRotations_aux.reserve(myFGShape.size() - 1);
211 myFGShapeLengths_aux.reserve(myFGShape.size() - 1);
212
213 e_aux = (int)myFGShape_aux.size() - 1;
214 for (int i = 0; i < e_aux; ++i) {
215 const Position& f_aux = myFGShape_aux[i];
216 const Position& s_aux = myFGShape_aux[i + 1];
217 myFGShapeLengths_aux.push_back(f_aux.distanceTo(s_aux));
218 myFGShapeRotations_aux.push_back((double)atan2((s_aux.x() - f_aux.x()), (f_aux.y() - s_aux.y())) * (double) 180.0 / (double)M_PI);
219 }
220
221 voltage = 0;
222 if (circuit != nullptr) {
223 // RICE_CHECK: it caused crash of SUMO GUI often in debug mode and
224 // vector "_STL_VERIFY(_Mycont->_Myfirst <= _Ptr && _Ptr < _Mycont->_Mylast,
225 // "can't dereference out of range vector iterator"); "
226 circuit->lock();
227 node = circuit->getNode("pos_" + (*it)->getID());
228 if (node != nullptr) {
229 voltage = node->getVoltage();
230 }
231 circuit->unlock();
232 }
233 GLHelper::setColor(scheme.getColor(MAX2(0.0, voltage - 400)));
234 GLHelper::drawBoxLines(myFGShape_aux, myFGShapeRotations_aux, myFGShapeLengths_aux, exaggeration / 8, 0, 0.5);
235
236 toPos = fromPos;
237 }
238 unlock();
239
240 // coloring the last remaining part of wire's segment
241 myFGShape_aux = myFGShape;
242
243 myFGShape_aux = myFGShape_aux.getSubpart(
245 lane_aux.interpolateLanePosToGeometryPos(toPos));
246
247 myFGShapeRotations_aux.clear();
248 myFGShapeLengths_aux.clear();
249
250 myFGShapeRotations_aux.reserve(myFGShape.size() - 1);
251 myFGShapeLengths_aux.reserve(myFGShape.size() - 1);
252
253 e_aux = (int)myFGShape_aux.size() - 1;
254 for (int i = 0; i < e_aux; ++i) {
255 const Position& f_aux = myFGShape_aux[i];
256 const Position& s_aux = myFGShape_aux[i + 1];
257 myFGShapeLengths_aux.push_back(f_aux.distanceTo(s_aux));
258 myFGShapeRotations_aux.push_back((double)atan2((s_aux.x() - f_aux.x()), (f_aux.y() - s_aux.y())) * (double) 180.0 / (double)M_PI);
259 }
260 GLHelper::drawBoxLines(myFGShape_aux, myFGShapeRotations_aux, myFGShapeLengths_aux, exaggeration / 8, 0, 0.5);
261
262
263 //left catenary
264 //coloring of left-side overhead wire segment in case of
265 // * a vehicle is under the segment
266 // * a vehicle is at least under the traction substation of the segment
267 // * no vehicle is connected to the traction substation of the segment
268 if (getElecHybridCount() > 0) {
269 GLHelper::setColor(redChargeOverheadWire);
270 } else if (myTractionSubstation != NULL && myTractionSubstation->getElecHybridCount() > 0) {
271 GLHelper::setColor(yellowCharge);
272 } else {
273 GLHelper::setColor(green);
274 }
276
277
278 // draw details unless zoomed out to far
279 if (s.scale * exaggeration >= 10 && myVoltageSource) {
280
281 // push charging power matrix
283 // draw charging power
284 const double lineAngle = s.getTextAngle(myFGSignRot);
285 glTranslated(myFGSignPos.x(), myFGSignPos.y(), 0);
286 glRotated(-lineAngle, 0, 0, 1);
287 GLHelper::drawText((toString(getTractionSubstation()->getSubstationVoltage()) + " V").c_str(), Position(1.2, 0), .1, 1.f, RGBColor(114, 210, 252), 0, FONS_ALIGN_LEFT);
288 // pop charging power matrix
290
291 // draw the sign
292 glTranslated(myFGSignPos.x(), myFGSignPos.y(), 0);
293 int noPoints = 9;
294 if (s.scale * exaggeration > 25) {
295 noPoints = MIN2((int)(9.0 + (s.scale * exaggeration) / 10.0), 36);
296 }
297
298 glScaled(exaggeration, exaggeration, 1);
299 GLHelper::drawFilledCircle((double) 1.1, noPoints);
300 glTranslated(0, 0, .1);
301
302 GLHelper::setColor(yellow);
303 GLHelper::drawFilledCircle((double) 0.9, noPoints);
304
305 if (s.scale * exaggeration >= 4.5) {
306 GLHelper::drawText("C", Position(), .1, 1.6, lightgray, myFGSignRot);
307 }
308
309 glTranslated(5, 0, 0);
310
311 }
312
313
316 drawName(getCenteringBoundary().getCenter(), s.scale, s.addName);
317}
318
319
322 // Create table items
324
325 // add items
326 //ret->mkItem(TL("begin position [m]"), false, NAN);
327 //ret->mkItem(TL("end position [m]"), false, NAN);
328 //ret->mkItem(TL("voltage [V]"), false, NAN);
329
330 // close building
331 ret->closeBuilding();
332 return ret;
333}
334
335
347
348
349double
353
354
358 b.grow(20);
359 return b;
360}
361
362
363void
365 // Draw overhead wire segment
368 RGBColor lightgray(211, 211, 211, 255);
369 RGBColor green(76, 170, 50, 255);
370 RGBColor yellow(255, 235, 0, 255);
371 RGBColor yellowCharge(255, 180, 0, 255);
372 RGBColor redCharge(255, 51, 51, 255);
373 RGBColor redChargeOverheadWire(180, 0, 0, 255);
374
375 // draw the area depending if the vehicle is charging
376 glTranslated(0, 0, getType());
377
378
379 GLHelper::setColor(redChargeOverheadWire);
380
381
382 const double exaggeration = getExaggeration(s);
383 //exaggeration - wide of line
384
385
386
387 PositionVector myFGShape_aux = myFGShape;
388 std::vector<double> myFGShapeRotations_aux;
389 std::vector<double> myFGShapeLengths_aux;
390
391 myFGShapeRotations_aux.clear();
392 myFGShapeLengths_aux.clear();
393
394 myFGShapeRotations_aux.reserve(myFGShape.size() - 1);
395 myFGShapeLengths_aux.reserve(myFGShape.size() - 1);
396
397 int e_aux = (int)myFGShape_aux.size() - 1;
398 for (int i = 0; i < e_aux; ++i) {
399 const Position& f_aux = myFGShape_aux[i];
400 const Position& s_aux = myFGShape_aux[i + 1];
401 myFGShapeLengths_aux.push_back(f_aux.distanceTo(s_aux));
402 myFGShapeRotations_aux.push_back((double)atan2((s_aux.x() - f_aux.x()), (f_aux.y() - s_aux.y())) * (double) 180.0 / (double)M_PI);
403 }
404
405 //GLHelper::setColor(green);
406 GLHelper::drawBoxLines(myFGShape_aux, myFGShapeRotations_aux, myFGShapeLengths_aux, exaggeration / 8, 0, 0.5);
407
408 //GLHelper::drawBoxLines(myFGShape, myFGShapeRotations, myFGShapeLengths, exaggeration / 8, 0, -0.5);
409
410
411
414 drawName(getCenteringBoundary().getCenter(), s.scale, s.addName);
415}
416
417
418/****************************************************************************/
@ GLO_OVERHEAD_WIRE_SEGMENT
a segment of an overhead line
GUIIcon
An enumeration of icons used by the gui applications.
Definition GUIIcons.h:33
@ OVERHEADWIRE
@ OVERHEADWIRE_CLAMP
GUIPropertyScheme< RGBColor > GUIColorScheme
#define TL(string)
Definition MsgHandler.h:315
T MIN2(T a, T b)
Definition StdDefs.h:76
T MAX2(T a, T b)
Definition StdDefs.h:82
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
Boundary & grow(double by)
extends the boundary by the given amount
Definition Boundary.cpp:343
void unlock()
Definition Circuit.cpp:193
void lock()
Definition Circuit.cpp:189
Node * getNode(std::string name)
Definition Circuit.cpp:98
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 drawFilledCircle(const double widradiusth, const int steps=8)
Draws a filled circle around (0,0)
Definition GLHelper.cpp:564
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
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)
Definition GLHelper.cpp:751
The popup menu of a globject.
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 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 buildSelectionPopupEntry(GUIGLObjectPopupMenu *ret, bool addSeparator=true)
Builds an entry which allows to (de)select the object.
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
PositionVector myFGShape
The shape.
~GUIOverheadWireClamp()
Destructor.
double getExaggeration(const GUIVisualizationSettings &s) const
return exaggeration associated with this GLObject
Boundary getCenteringBoundary() const
Returns the boundary to which the view shall be centered in order to show the object.
GUIOverheadWireClamp(const std::string &id, MSLane &lane_start, MSLane &lane_end)
Constructor.
GUIGLObjectPopupMenu * getPopUpMenu(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own popup-menu.
void drawGL(const GUIVisualizationSettings &s) const
Draws the object.
GUIParameterTableWindow * getParameterWindow(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own parameter window.
PositionVector myFGShape
The shape.
~GUIOverheadWire()
Destructor.
void drawGL(const GUIVisualizationSettings &s) const
Draws the object.
std::vector< double > myFGShapeRotations
The rotations of the shape parts.
GUIGLObjectPopupMenu * getPopUpMenu(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own popup-menu.
GUIParameterTableWindow * getParameterWindow(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own parameter window.
GUIOverheadWire(const std::string &id, MSLane &lane, double frompos, double topos, bool voltageSource)
Constructor.
double getExaggeration(const GUIVisualizationSettings &s) const
return exaggeration associated with this GLObject
double myFGSignRot
The rotation of the sign.
Boundary getCenteringBoundary() const
Returns the boundary to which the view shall be centered in order to show the object.
std::vector< double > myFGShapeLengths
The lengths of the shape parts.
Position myFGSignPos
The position of the sign.
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.
T getColor(const double value) const
int addColor(const T &color, const double threshold, const std::string &name="")
Stores the information about how to visualize structures.
GUIVisualizationTextSettings addName
GUIVisualizationSizeSettings addSize
double scale
information about a lane's width (temporary, used for a single view)
double getTextAngle(double objectAngle) const
return an angle that is suitable for reading text aligned with the given angle (degrees)
static bool gLefthand
Whether lefthand-drive is being simulated.
Definition MSGlobals.h:174
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
Definition of overhead wire segment.
void unlock() const
int getElecHybridCount() const
Node * myCircuitStartNodePos
void lock() const
Circuit * getCircuit() const
MSTractionSubstation * getTractionSubstation() const
MSTractionSubstation * myTractionSubstation
Parameter, Pointer to the electrical substation (by default is nullptr)
std::vector< SUMOVehicle * > myChargingVehicles
const double myBegPos
The begin position this bus stop is located at.
double getBeginLanePosition() const
Returns the begin position of this stop.
const double myEndPos
The end position this bus stop is located at.
double getEndLanePosition() const
Returns the end position of this stop.
const MSLane & getLane() const
Returns the lane this stop is located at.
int getElecHybridCount() const
Definition Node.h:39
double getVoltage()
Definition Node.cpp:53
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
A list of positions.
double length() const
Returns the length.
double rotationDegreeAtOffset(double pos) const
Returns the rotation at the given length.
void move2side(double amount, double maxExtension=100)
move position vector to side using certain amount
Boundary getBoxBoundary() const
Returns a boundary enclosing this list of lines.
PositionVector getSubpart(double beginOffset, double endOffset) const
get subpart of a position vector
static const RGBColor BLUE
Definition RGBColor.h:187
static const RGBColor YELLOW
Definition RGBColor.h:188
static const RGBColor ORANGE
Definition RGBColor.h:191
static const RGBColor CYAN
Definition RGBColor.h:189
static const RGBColor GREEN
Definition RGBColor.h:186
static const RGBColor BLACK
Definition RGBColor.h:193
static const RGBColor MAGENTA
Definition RGBColor.h:190
static const RGBColor RED
named colors
Definition RGBColor.h:185
@ FONS_ALIGN_LEFT
Definition fontstash.h:42
#define M_PI
Definition odrSpiral.cpp:45
double getExaggeration(const GUIVisualizationSettings &s, const GUIGlObject *o, double factor=20) const
return the drawing size including exaggeration and constantSize values