rosaria/Legacy/Aria/ArNetworking/examples/drawingsExampleWithRobot.cpp

#include "Aria.h"
#include "ArNetworking.h"
#include <math.h>

/** @example drawingsExampleWithRobot.cpp Example showing how to draw custom
 * graphics in clients such as MobileEyes, and enable drawing of sensor
 * readings as well.
 *
 * This is an example server that shows how to draw arbitrary figures in a
 * client (e.g. MobileEyes). It also uses the convenient built-in
 * support for visualization built in to ArRobot, ArSick, ArSonarDevice,
 * etc.  
 *
 * @sa drawingsExample.cpp which does not include robot and sensor drawings
 */

/* These are callbacks that respond to client requests for the drawings' 
 * geometry data. */
void exampleHomeDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);
void exampleDotsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);
void exampleXDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);
void exampleArrowsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);

int main(int argc, char **argv)
{
  Aria::init();
  ArRobot robot;
  ArServerBase server;

  ArArgumentParser parser(&argc, argv);
  ArSimpleConnector simpleConnector(&parser);
  ArServerSimpleOpener simpleOpener(&parser);


  // parse the command line... fail and print the help if the parsing fails
  // or if help was requested
  parser.loadDefaultArguments();
  if (!simpleConnector.parseArgs() || !simpleOpener.parseArgs() || 
      !parser.checkHelpAndWarnUnparsed())
  {    
    simpleConnector.logOptions();
    simpleOpener.logOptions();
    exit(1);
  }

  // Set up where we'll look for files such as config file, user/password file,
  // etc.
  char fileDir[1024];
  ArUtil::addDirectories(fileDir, sizeof(fileDir), Aria::getDirectory(), 
			 "ArNetworking/examples");

  // first open the server up
  if (!simpleOpener.open(&server, fileDir, 240))
  {
    if (simpleOpener.wasUserFileBad())
      printf("Error: Bad user/password/permissions file.\n");
    else
      printf("Error: Could not open server port. Use -help to see options.\n");
    exit(1);
  }


  // Devices
  ArAnalogGyro gyro(&robot);

  ArSonarDevice sonarDev;
  robot.addRangeDevice(&sonarDev);

  ArIRs irs;
  robot.addRangeDevice(&irs);

  ArBumpers bumpers;
  robot.addRangeDevice(&bumpers);

  ArSick sick(361, 180);
  robot.addRangeDevice(&sick);  
  

  ArServerInfoRobot serverInfoRobot(&server, &robot);
  ArServerInfoSensor serverInfoSensor(&server, &robot);

  // This is the service that provides drawing data to the client.
  ArServerInfoDrawings drawings(&server);

  // Convenience function that sets up drawings for all the robot's current
  // range devices (using default shape and color info)
  drawings.addRobotsRangeDevices(&robot);

  // Add our custom drawings
  drawings.addDrawing(
      //                shape:      color:               size:   layer:
      new ArDrawingData("polyLine", ArColor(255, 0, 0),  2,      49),
      "exampleDrawing_Home", 
      new ArGlobalFunctor2<ArServerClient*, ArNetPacket*>(&exampleHomeDrawingNetCallback)
  );
  drawings.addDrawing(                                    
      new ArDrawingData("polyDots", ArColor(0, 255, 0), 250, 48),
      "exampleDrawing_Dots", 
      new ArGlobalFunctor2<ArServerClient*, ArNetPacket*>(&exampleDotsDrawingNetCallback)
  );
  drawings.addDrawing(
      new ArDrawingData("polySegments", ArColor(0, 0, 0), 4, 52),
      "exampleDrawing_XMarksTheSpot", 
      new ArGlobalFunctor2<ArServerClient*, ArNetPacket*>(&exampleXDrawingNetCallback)
  );
  drawings.addDrawing(
      new ArDrawingData("polyArrows", ArColor(255, 0, 255), 500, 100),
      "exampleDrawing_Arrows", 
      new ArGlobalFunctor2<ArServerClient*, ArNetPacket*>(&exampleArrowsDrawingNetCallback)
  );

  // modes for moving the robot
  ArServerModeStop modeStop(&server, &robot);
  ArServerModeDrive modeDrive(&server, &robot);
  ArServerModeRatioDrive modeRatioDrive(&server, &robot);
  ArServerModeWander modeWander(&server, &robot);
  modeStop.addAsDefaultMode();
  modeStop.activate();

  
  // Connect to the robot.
  if (!simpleConnector.connectRobot(&robot))
  {
    printf("Error: Could not connect to robot... exiting\n");
    Aria::shutdown();
    return 1;
  }

  // set up the laser before handing it to the laser mode
  simpleConnector.setupLaser(&sick);

  robot.enableMotors();

  // start the robot cycle running in a background thread
  robot.runAsync(true);

  // start the laser processing cycle in a background thread
  sick.runAsync();

  // connect the laser if it was requested
  if (!simpleConnector.connectLaser(&sick))
  {
    printf("Error: Could not connect to laser... exiting\n");
    Aria::shutdown();
    return 1;
  }

  // log whatever we wanted to before the runAsync
  simpleOpener.checkAndLog();

  // run the server thread in the background
  server.runAsync();

  printf("Server is now running...\n");


  // Add a key handler mostly that windows can exit by pressing
  // escape, note that the key handler prevents you from running this program
  // in the background on Linux.
  ArKeyHandler *keyHandler;
  if ((keyHandler = Aria::getKeyHandler()) == NULL)
  {
    keyHandler = new ArKeyHandler;
    Aria::setKeyHandler(keyHandler);
    robot.lock();
    robot.attachKeyHandler(keyHandler);
    robot.unlock();
    printf("To exit, press escape.\n");
  }

  robot.waitForRunExit();
 

  Aria::shutdown();
  exit(0);  
}


// Network callbacks for drawings' current geometry data:

void exampleHomeDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {
  ArNetPacket reply;

  // 7 Vertices
  reply.byte4ToBuf(7);

  // Centered on 0,0.
  // X:                    Y:
  reply.byte4ToBuf(-500);  reply.byte4ToBuf(500);   // Vertex 1
  reply.byte4ToBuf(-500);  reply.byte4ToBuf(-500);  // Vertex 2
  reply.byte4ToBuf(500);   reply.byte4ToBuf(-500);  // Vertex 3
  reply.byte4ToBuf(500);   reply.byte4ToBuf(500);   // Vertex 4
  reply.byte4ToBuf(0);     reply.byte4ToBuf(1000);  // Vertex 5
  reply.byte4ToBuf(-500);  reply.byte4ToBuf(500);   // Vertex 6
  reply.byte4ToBuf(500);   reply.byte4ToBuf(500);   // Vertex 7

  client->sendPacketUdp(&reply);
}

void exampleDotsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {
  ArNetPacket reply;

  unsigned int tik = ArUtil::getTime() % 200;
  double t = tik / 5.0;

  // Three dots
  reply.byte4ToBuf(3);

  // Dot 1:
  reply.byte4ToBuf(3000);  // X coordinate (mm)
  reply.byte4ToBuf((int) (sin(t) * 1000));// Y

  // Dot 2:
  reply.byte4ToBuf(3500);  // X
  reply.byte4ToBuf((int) (sin(t+500) * 1000));// Y

  // Dot 3:
  reply.byte4ToBuf(4000);  // X
  reply.byte4ToBuf((int) (sin(t+1000) * 1000));// Y

  client->sendPacketUdp(&reply);
}

void exampleXDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {
  ArNetPacket reply;

  // X marks the spot. 2 line segments, so 4 vertices:
  reply.byte4ToBuf(4);

  // Segment 1:
  reply.byte4ToBuf(-4250); // X1
  reply.byte4ToBuf(250);   // Y1
  reply.byte4ToBuf(-3750); // X2
  reply.byte4ToBuf(-250);  // Y2

  // Segment 2:
  reply.byte4ToBuf(-4250); // X1
  reply.byte4ToBuf(-250);  // Y1
  reply.byte4ToBuf(-3750); // X2
  reply.byte4ToBuf(250);   // Y2
  
  client->sendPacketUdp(&reply);
}

void exampleArrowsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {
  // 1 Arrow that points at the robot
  ArNetPacket reply;
  reply.byte4ToBuf(1);
  reply.byte4ToBuf(0);      // Pos. X
  reply.byte4ToBuf(700);   // Pos. Y
  client->sendPacketUdp(&reply);
}
Import docker from LAB15_OLD 2021-12-16 15:07:59 +01:00			`#include "Aria.h"`
			`#include "ArNetworking.h"`
			`#include <math.h>`

			`/** @example drawingsExampleWithRobot.cpp Example showing how to draw custom`
			`* graphics in clients such as MobileEyes, and enable drawing of sensor`
			`* readings as well.`
			`*`
			`* This is an example server that shows how to draw arbitrary figures in a`
			`* client (e.g. MobileEyes). It also uses the convenient built-in`
			`* support for visualization built in to ArRobot, ArSick, ArSonarDevice,`
			`* etc.`
			`*`
			`* @sa drawingsExample.cpp which does not include robot and sensor drawings`
			`*/`

			`/* These are callbacks that respond to client requests for the drawings'`
			`* geometry data. */`
			`void exampleHomeDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);`
			`void exampleDotsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);`
			`void exampleXDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);`
			`void exampleArrowsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt);`

			`int main(int argc, char **argv)`
			`{`
			`Aria::init();`
			`ArRobot robot;`
			`ArServerBase server;`

			`ArArgumentParser parser(&argc, argv);`
			`ArSimpleConnector simpleConnector(&parser);`
			`ArServerSimpleOpener simpleOpener(&parser);`


			`// parse the command line... fail and print the help if the parsing fails`
			`// or if help was requested`
			`parser.loadDefaultArguments();`
			`if (!simpleConnector.parseArgs() \|\| !simpleOpener.parseArgs() \|\|`
			`!parser.checkHelpAndWarnUnparsed())`
			`{`
			`simpleConnector.logOptions();`
			`simpleOpener.logOptions();`
			`exit(1);`
			`}`

			`// Set up where we'll look for files such as config file, user/password file,`
			`// etc.`
			`char fileDir[1024];`
			`ArUtil::addDirectories(fileDir, sizeof(fileDir), Aria::getDirectory(),`
			`"ArNetworking/examples");`

			`// first open the server up`
			`if (!simpleOpener.open(&server, fileDir, 240))`
			`{`
			`if (simpleOpener.wasUserFileBad())`
			`printf("Error: Bad user/password/permissions file.\n");`
			`else`
			`printf("Error: Could not open server port. Use -help to see options.\n");`
			`exit(1);`
			`}`


			`// Devices`
			`ArAnalogGyro gyro(&robot);`

			`ArSonarDevice sonarDev;`
			`robot.addRangeDevice(&sonarDev);`

			`ArIRs irs;`
			`robot.addRangeDevice(&irs);`

			`ArBumpers bumpers;`
			`robot.addRangeDevice(&bumpers);`

			`ArSick sick(361, 180);`
			`robot.addRangeDevice(&sick);`


			`ArServerInfoRobot serverInfoRobot(&server, &robot);`
			`ArServerInfoSensor serverInfoSensor(&server, &robot);`

			`// This is the service that provides drawing data to the client.`
			`ArServerInfoDrawings drawings(&server);`

			`// Convenience function that sets up drawings for all the robot's current`
			`// range devices (using default shape and color info)`
			`drawings.addRobotsRangeDevices(&robot);`

			`// Add our custom drawings`
			`drawings.addDrawing(`
			`// shape: color: size: layer:`
			`new ArDrawingData("polyLine", ArColor(255, 0, 0), 2, 49),`
			`"exampleDrawing_Home",`
			`new ArGlobalFunctor2<ArServerClient, ArNetPacket>(&exampleHomeDrawingNetCallback)`
			`);`
			`drawings.addDrawing(`
			`new ArDrawingData("polyDots", ArColor(0, 255, 0), 250, 48),`
			`"exampleDrawing_Dots",`
			`new ArGlobalFunctor2<ArServerClient, ArNetPacket>(&exampleDotsDrawingNetCallback)`
			`);`
			`drawings.addDrawing(`
			`new ArDrawingData("polySegments", ArColor(0, 0, 0), 4, 52),`
			`"exampleDrawing_XMarksTheSpot",`
			`new ArGlobalFunctor2<ArServerClient, ArNetPacket>(&exampleXDrawingNetCallback)`
			`);`
			`drawings.addDrawing(`
			`new ArDrawingData("polyArrows", ArColor(255, 0, 255), 500, 100),`
			`"exampleDrawing_Arrows",`
			`new ArGlobalFunctor2<ArServerClient, ArNetPacket>(&exampleArrowsDrawingNetCallback)`
			`);`

			`// modes for moving the robot`
			`ArServerModeStop modeStop(&server, &robot);`
			`ArServerModeDrive modeDrive(&server, &robot);`
			`ArServerModeRatioDrive modeRatioDrive(&server, &robot);`
			`ArServerModeWander modeWander(&server, &robot);`
			`modeStop.addAsDefaultMode();`
			`modeStop.activate();`



			`// Connect to the robot.`
			`if (!simpleConnector.connectRobot(&robot))`
			`{`
			`printf("Error: Could not connect to robot... exiting\n");`
			`Aria::shutdown();`
			`return 1;`
			`}`

			`// set up the laser before handing it to the laser mode`
			`simpleConnector.setupLaser(&sick);`

			`robot.enableMotors();`

			`// start the robot cycle running in a background thread`
			`robot.runAsync(true);`

			`// start the laser processing cycle in a background thread`
			`sick.runAsync();`

			`// connect the laser if it was requested`
			`if (!simpleConnector.connectLaser(&sick))`
			`{`
			`printf("Error: Could not connect to laser... exiting\n");`
			`Aria::shutdown();`
			`return 1;`
			`}`

			`// log whatever we wanted to before the runAsync`
			`simpleOpener.checkAndLog();`

			`// run the server thread in the background`
			`server.runAsync();`

			`printf("Server is now running...\n");`


			`// Add a key handler mostly that windows can exit by pressing`
			`// escape, note that the key handler prevents you from running this program`
			`// in the background on Linux.`
			`ArKeyHandler *keyHandler;`
			`if ((keyHandler = Aria::getKeyHandler()) == NULL)`
			`{`
			`keyHandler = new ArKeyHandler;`
			`Aria::setKeyHandler(keyHandler);`
			`robot.lock();`
			`robot.attachKeyHandler(keyHandler);`
			`robot.unlock();`
			`printf("To exit, press escape.\n");`
			`}`

			`robot.waitForRunExit();`


			`Aria::shutdown();`
			`exit(0);`
			`}`




			`// Network callbacks for drawings' current geometry data:`

			`void exampleHomeDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {`
			`ArNetPacket reply;`

			`// 7 Vertices`
			`reply.byte4ToBuf(7);`

			`// Centered on 0,0.`
			`// X: Y:`
			`reply.byte4ToBuf(-500); reply.byte4ToBuf(500); // Vertex 1`
			`reply.byte4ToBuf(-500); reply.byte4ToBuf(-500); // Vertex 2`
			`reply.byte4ToBuf(500); reply.byte4ToBuf(-500); // Vertex 3`
			`reply.byte4ToBuf(500); reply.byte4ToBuf(500); // Vertex 4`
			`reply.byte4ToBuf(0); reply.byte4ToBuf(1000); // Vertex 5`
			`reply.byte4ToBuf(-500); reply.byte4ToBuf(500); // Vertex 6`
			`reply.byte4ToBuf(500); reply.byte4ToBuf(500); // Vertex 7`

			`client->sendPacketUdp(&reply);`
			`}`

			`void exampleDotsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {`
			`ArNetPacket reply;`

			`unsigned int tik = ArUtil::getTime() % 200;`
			`double t = tik / 5.0;`

			`// Three dots`
			`reply.byte4ToBuf(3);`

			`// Dot 1:`
			`reply.byte4ToBuf(3000); // X coordinate (mm)`
			`reply.byte4ToBuf((int) (sin(t) * 1000));// Y`

			`// Dot 2:`
			`reply.byte4ToBuf(3500); // X`
			`reply.byte4ToBuf((int) (sin(t+500) * 1000));// Y`

			`// Dot 3:`
			`reply.byte4ToBuf(4000); // X`
			`reply.byte4ToBuf((int) (sin(t+1000) * 1000));// Y`

			`client->sendPacketUdp(&reply);`
			`}`

			`void exampleXDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {`
			`ArNetPacket reply;`

			`// X marks the spot. 2 line segments, so 4 vertices:`
			`reply.byte4ToBuf(4);`

			`// Segment 1:`
			`reply.byte4ToBuf(-4250); // X1`
			`reply.byte4ToBuf(250); // Y1`
			`reply.byte4ToBuf(-3750); // X2`
			`reply.byte4ToBuf(-250); // Y2`

			`// Segment 2:`
			`reply.byte4ToBuf(-4250); // X1`
			`reply.byte4ToBuf(-250); // Y1`
			`reply.byte4ToBuf(-3750); // X2`
			`reply.byte4ToBuf(250); // Y2`

			`client->sendPacketUdp(&reply);`
			`}`

			`void exampleArrowsDrawingNetCallback(ArServerClient* client, ArNetPacket* requestPkt) {`
			`// 1 Arrow that points at the robot`
			`ArNetPacket reply;`
			`reply.byte4ToBuf(1);`
			`reply.byte4ToBuf(0); // Pos. X`
			`reply.byte4ToBuf(700); // Pos. Y`
			`client->sendPacketUdp(&reply);`
			`}`