示例#1
0
/*
 *  dynamic reconfigure call back
*/
void RosAriaNode::dynamic_reconfigureCB(rosaria::RosAriaConfig &config, uint32_t level)
{
  //
  // Odometry Settings
  //
  robot->lock();
  if(TicksMM != config.TicksMM and config.TicksMM > 0)
  {
    ROS_INFO("Setting TicksMM from Dynamic Reconfigure: %d -> %d ", TicksMM, config.TicksMM);
    TicksMM = config.TicksMM;
    robot->comInt(93, TicksMM);
  }
  
  if(DriftFactor != config.DriftFactor)
  {
    ROS_INFO("Setting DriftFactor from Dynamic Reconfigure: %d -> %d ", DriftFactor, config.DriftFactor);
    DriftFactor = config.DriftFactor;
    robot->comInt(89, DriftFactor);
  }
  
  if(RevCount != config.RevCount and config.RevCount > 0)
  {
    ROS_INFO("Setting RevCount from Dynamic Reconfigure: %d -> %d ", RevCount, config.RevCount);
    RevCount = config.RevCount;
    robot->comInt(88, RevCount);
  }
  
  //
  // Acceleration Parameters
  //
  int value;
  value = config.trans_accel * 1000;
  if(value != robot->getTransAccel() and value > 0)
  {
    ROS_INFO("Setting TransAccel from Dynamic Reconfigure: %d", value);
    robot->setTransAccel(value);
  }
  
  value = config.trans_decel * 1000;
  if(value != robot->getTransDecel() and value > 0)
  {
    ROS_INFO("Setting TransDecel from Dynamic Reconfigure: %d", value);
    robot->setTransDecel(value);
  } 
  
  value = config.lat_accel * 1000;
  if(value != robot->getLatAccel() and value > 0)
  {
    ROS_INFO("Setting LatAccel from Dynamic Reconfigure: %d", value);
    if (robot->getAbsoluteMaxLatAccel() > 0 )
      robot->setLatAccel(value);
  }
  
  value = config.lat_decel * 1000;
  if(value != robot->getLatDecel() and value > 0)
  {
    ROS_INFO("Setting LatDecel from Dynamic Reconfigure: %d", value);
    if (robot->getAbsoluteMaxLatDecel() > 0 )
      robot->setLatDecel(value);
  }
  
  value = config.rot_accel * 180/M_PI;
  if(value != robot->getRotAccel() and value > 0)
  {
    ROS_INFO("Setting RotAccel from Dynamic Reconfigure: %d", value);
    robot->setRotAccel(value);
  }
  
  value = config.rot_decel * 180/M_PI;
  if(value != robot->getRotDecel() and value > 0)
  {
    ROS_INFO("Setting RotDecel from Dynamic Reconfigure: %d", value);
    robot->setRotDecel(value);
  } 
  robot->unlock();
}
示例#2
0
void RosAriaNode::dynamic_reconfigureCB(rosaria::RosAriaConfig &config, uint32_t level)
{
  //ROS_INFO("Dynamic reconfigure callback fired!");
  //
  // Odometry Settings
  //
  robot->lock();
  if(TicksMM != config.TicksMM and config.TicksMM > 0)
  {
    ROS_INFO("Setting TicksMM from Dynamic Reconfigure: %d -> %d ", TicksMM, config.TicksMM);
    TicksMM = config.TicksMM;
    robot->comInt(93, TicksMM);
  }
  
  if(DriftFactor != config.DriftFactor)
  {
    ROS_INFO("Setting DriftFactor from Dynamic Reconfigure: %d -> %d ", DriftFactor, config.DriftFactor);
    DriftFactor = config.DriftFactor;
    robot->comInt(89, DriftFactor);
  }
  
  if(RevCount != config.RevCount and config.RevCount > 0)
  {
    ROS_INFO("Setting RevCount from Dynamic Reconfigure: %d -> %d ", RevCount, config.RevCount);
    RevCount = config.RevCount;
    robot->comInt(88, RevCount);
  }
  
  ////
  ////  WHEN ROSPARAM INITIALIZES WITH THE DEFAULT VALUES, IT FILLS IN ONE NON-ZERO VALUE AT A TIME
  ////  CONSEQUENTLY, THE SAME _CORRECT_ VALUE IS SET TO MAKE SURE THAT parameter_updates, AND ROSPARAM
  ////  ALL REFLECT THE PROGRAMATICALLY SET DEFAULT VALUES AFTER INITIALIZATION COMPLETES
  ////

  //
  // Acceleration Parameters
  //
  double value;
  value = config.trans_accel * 1000.0;
  if(value != robot->getTransAccel() and value > 0)
  {
    ROS_INFO("Setting TransAccel from Dynamic Reconfigure: %f m/s^2", config.trans_accel);
    robot->setTransAccel(value);
  }
  else if (value == 0)
    setDynParam("trans_accel", dynConf_default.trans_accel); 

  value = config.trans_decel * 1000.0;
  if(value != robot->getTransDecel() and value > 0)
  {
    ROS_INFO("Setting TransDecel from Dynamic Reconfigure: %f m/s^2", config.trans_decel);
    robot->setTransDecel(value);
  }
  else if (value == 0)
    setDynParam("trans_decel", dynConf_default.trans_decel);
  
  value = config.rot_accel * 180.0/M_PI;
  if(value != robot->getRotAccel() and value > 0)
  {
    ROS_INFO("Setting RotAccel from Dynamic Reconfigure: %f radians/s^2", config.rot_accel);
    robot->setRotAccel(value);
  }
  else if (value == 0)
    setDynParam("rot_accel", dynConf_default.rot_accel);
  
  value = config.rot_decel * 180.0/M_PI;
  if(value != robot->getRotDecel() and value > 0)
  {
    ROS_INFO("Setting RotDecel from Dynamic Reconfigure: %f radians/s^2", config.rot_decel);
    robot->setRotDecel(value);
  } 
  else if (value == 0)
    setDynParam("rot_decel", dynConf_default.rot_decel);

  value = config.rot_vel_max * 180.0/M_PI;
  if(value != robot->getRotVelMax() and value > 0)
  {
    ROS_INFO("Setting RotVelMax from Dynamic Reconfigure: %f radians/s", config.rot_vel_max);
    robot->setRotVelMax(value);
  }
  else if (value == 0)
    setDynParam("rot_vel_max", dynConf_default.rot_vel_max);

  value=config.trans_vel_max * 1000.0;
  if (value != robot->getTransVelMax() and value > 0)
  {
    ROS_INFO("Setting TransVelMax from Dynamic Reconfigure: %f m/s", config.trans_vel_max);
    robot->setTransVelMax(value);
  }
  else if (value == 0)
    setDynParam("trans_vel_max", dynConf_default.trans_vel_max);

  robot->unlock();
}