00001
00002 #ifndef GAZEBO_MSGS_MESSAGE_WORLDSTATE_H
00003 #define GAZEBO_MSGS_MESSAGE_WORLDSTATE_H
00004 #include <string>
00005 #include <vector>
00006 #include <map>
00007 #include <ostream>
00008 #include "ros/serialization.h"
00009 #include "ros/builtin_message_traits.h"
00010 #include "ros/message_operations.h"
00011 #include "ros/time.h"
00012
00013 #include "ros/macros.h"
00014
00015 #include "ros/assert.h"
00016
00017 #include "std_msgs/Header.h"
00018 #include "geometry_msgs/Pose.h"
00019 #include "geometry_msgs/Twist.h"
00020 #include "geometry_msgs/Wrench.h"
00021
00022 namespace gazebo_msgs
00023 {
00024 template <class ContainerAllocator>
00025 struct WorldState_ {
00026 typedef WorldState_<ContainerAllocator> Type;
00027
00028 WorldState_()
00029 : header()
00030 , name()
00031 , pose()
00032 , twist()
00033 , wrench()
00034 {
00035 }
00036
00037 WorldState_(const ContainerAllocator& _alloc)
00038 : header(_alloc)
00039 , name(_alloc)
00040 , pose(_alloc)
00041 , twist(_alloc)
00042 , wrench(_alloc)
00043 {
00044 }
00045
00046 typedef ::std_msgs::Header_<ContainerAllocator> _header_type;
00047 ::std_msgs::Header_<ContainerAllocator> header;
00048
00049 typedef std::vector<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > , typename ContainerAllocator::template rebind<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > >::other > _name_type;
00050 std::vector<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > , typename ContainerAllocator::template rebind<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > >::other > name;
00051
00052 typedef std::vector< ::geometry_msgs::Pose_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Pose_<ContainerAllocator> >::other > _pose_type;
00053 std::vector< ::geometry_msgs::Pose_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Pose_<ContainerAllocator> >::other > pose;
00054
00055 typedef std::vector< ::geometry_msgs::Twist_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Twist_<ContainerAllocator> >::other > _twist_type;
00056 std::vector< ::geometry_msgs::Twist_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Twist_<ContainerAllocator> >::other > twist;
00057
00058 typedef std::vector< ::geometry_msgs::Wrench_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Wrench_<ContainerAllocator> >::other > _wrench_type;
00059 std::vector< ::geometry_msgs::Wrench_<ContainerAllocator> , typename ContainerAllocator::template rebind< ::geometry_msgs::Wrench_<ContainerAllocator> >::other > wrench;
00060
00061
00062 typedef boost::shared_ptr< ::gazebo_msgs::WorldState_<ContainerAllocator> > Ptr;
00063 typedef boost::shared_ptr< ::gazebo_msgs::WorldState_<ContainerAllocator> const> ConstPtr;
00064 boost::shared_ptr<std::map<std::string, std::string> > __connection_header;
00065 };
00066 typedef ::gazebo_msgs::WorldState_<std::allocator<void> > WorldState;
00067
00068 typedef boost::shared_ptr< ::gazebo_msgs::WorldState> WorldStatePtr;
00069 typedef boost::shared_ptr< ::gazebo_msgs::WorldState const> WorldStateConstPtr;
00070
00071
00072 template<typename ContainerAllocator>
00073 std::ostream& operator<<(std::ostream& s, const ::gazebo_msgs::WorldState_<ContainerAllocator> & v)
00074 {
00075 ros::message_operations::Printer< ::gazebo_msgs::WorldState_<ContainerAllocator> >::stream(s, "", v);
00076 return s;}
00077
00078 }
00079
00080 namespace ros
00081 {
00082 namespace message_traits
00083 {
00084 template<class ContainerAllocator> struct IsMessage< ::gazebo_msgs::WorldState_<ContainerAllocator> > : public TrueType {};
00085 template<class ContainerAllocator> struct IsMessage< ::gazebo_msgs::WorldState_<ContainerAllocator> const> : public TrueType {};
00086 template<class ContainerAllocator>
00087 struct MD5Sum< ::gazebo_msgs::WorldState_<ContainerAllocator> > {
00088 static const char* value()
00089 {
00090 return "de1a9de3ab7ba97ac0e9ec01a4eb481e";
00091 }
00092
00093 static const char* value(const ::gazebo_msgs::WorldState_<ContainerAllocator> &) { return value(); }
00094 static const uint64_t static_value1 = 0xde1a9de3ab7ba97aULL;
00095 static const uint64_t static_value2 = 0xc0e9ec01a4eb481eULL;
00096 };
00097
00098 template<class ContainerAllocator>
00099 struct DataType< ::gazebo_msgs::WorldState_<ContainerAllocator> > {
00100 static const char* value()
00101 {
00102 return "gazebo_msgs/WorldState";
00103 }
00104
00105 static const char* value(const ::gazebo_msgs::WorldState_<ContainerAllocator> &) { return value(); }
00106 };
00107
00108 template<class ContainerAllocator>
00109 struct Definition< ::gazebo_msgs::WorldState_<ContainerAllocator> > {
00110 static const char* value()
00111 {
00112 return "# This is a message that holds data necessary to reconstruct a snapshot of the world\n\
00113 #\n\
00114 # = Approach to Message Passing =\n\
00115 # The state of the world is defined by either\n\
00116 # 1. Inertial Model pose, twist\n\
00117 # * kinematic data - connectivity graph from Model to each Link\n\
00118 # * joint angles\n\
00119 # * joint velocities\n\
00120 # * Applied forces - Body wrench\n\
00121 # * relative transform from Body to each collision Geom\n\
00122 # Or\n\
00123 # 2. Inertial (absolute) Body pose, twist, wrench\n\
00124 # * relative transform from Body to each collision Geom - constant, so not sent over wire\n\
00125 # * back compute from canonical body info to get Model pose and twist.\n\
00126 #\n\
00127 # Chooing (2.) because it matches most physics engines out there\n\
00128 # and is simpler.\n\
00129 #\n\
00130 # = Future =\n\
00131 # Consider impacts on using reduced coordinates / graph (parent/child links) approach\n\
00132 # constraint and physics solvers.\n\
00133 #\n\
00134 # = Application =\n\
00135 # This message is used to do the following:\n\
00136 # * reconstruct the world and objects for sensor generation\n\
00137 # * stop / start simulation - need pose, twist, wrench of each body\n\
00138 # * collision detection - need pose of each collision geometry. velocity/acceleration if \n\
00139 #\n\
00140 # = Assumptions =\n\
00141 # Assuming that each (physics) processor node locally already has\n\
00142 # * collision information - Trimesh for Geoms, etc\n\
00143 # * relative transforms from Body to Geom - this is assumed to be fixed, do not send oved wire\n\
00144 # * inertial information - does not vary in time\n\
00145 # * visual information - does not vary in time\n\
00146 #\n\
00147 \n\
00148 Header header\n\
00149 \n\
00150 string[] name\n\
00151 geometry_msgs/Pose[] pose\n\
00152 geometry_msgs/Twist[] twist\n\
00153 geometry_msgs/Wrench[] wrench\n\
00154 \n\
00155 ================================================================================\n\
00156 MSG: std_msgs/Header\n\
00157 # Standard metadata for higher-level stamped data types.\n\
00158 # This is generally used to communicate timestamped data \n\
00159 # in a particular coordinate frame.\n\
00160 # \n\
00161 # sequence ID: consecutively increasing ID \n\
00162 uint32 seq\n\
00163 #Two-integer timestamp that is expressed as:\n\
00164 # * stamp.secs: seconds (stamp_secs) since epoch\n\
00165 # * stamp.nsecs: nanoseconds since stamp_secs\n\
00166 # time-handling sugar is provided by the client library\n\
00167 time stamp\n\
00168 #Frame this data is associated with\n\
00169 # 0: no frame\n\
00170 # 1: global frame\n\
00171 string frame_id\n\
00172 \n\
00173 ================================================================================\n\
00174 MSG: geometry_msgs/Pose\n\
00175 # A representation of pose in free space, composed of postion and orientation. \n\
00176 Point position\n\
00177 Quaternion orientation\n\
00178 \n\
00179 ================================================================================\n\
00180 MSG: geometry_msgs/Point\n\
00181 # This contains the position of a point in free space\n\
00182 float64 x\n\
00183 float64 y\n\
00184 float64 z\n\
00185 \n\
00186 ================================================================================\n\
00187 MSG: geometry_msgs/Quaternion\n\
00188 # This represents an orientation in free space in quaternion form.\n\
00189 \n\
00190 float64 x\n\
00191 float64 y\n\
00192 float64 z\n\
00193 float64 w\n\
00194 \n\
00195 ================================================================================\n\
00196 MSG: geometry_msgs/Twist\n\
00197 # This expresses velocity in free space broken into it's linear and angular parts. \n\
00198 Vector3 linear\n\
00199 Vector3 angular\n\
00200 \n\
00201 ================================================================================\n\
00202 MSG: geometry_msgs/Vector3\n\
00203 # This represents a vector in free space. \n\
00204 \n\
00205 float64 x\n\
00206 float64 y\n\
00207 float64 z\n\
00208 ================================================================================\n\
00209 MSG: geometry_msgs/Wrench\n\
00210 # This represents force in free space, seperated into \n\
00211 # it's linear and angular parts. \n\
00212 Vector3 force\n\
00213 Vector3 torque\n\
00214 \n\
00215 ";
00216 }
00217
00218 static const char* value(const ::gazebo_msgs::WorldState_<ContainerAllocator> &) { return value(); }
00219 };
00220
00221 template<class ContainerAllocator> struct HasHeader< ::gazebo_msgs::WorldState_<ContainerAllocator> > : public TrueType {};
00222 template<class ContainerAllocator> struct HasHeader< const ::gazebo_msgs::WorldState_<ContainerAllocator> > : public TrueType {};
00223 }
00224 }
00225
00226 namespace ros
00227 {
00228 namespace serialization
00229 {
00230
00231 template<class ContainerAllocator> struct Serializer< ::gazebo_msgs::WorldState_<ContainerAllocator> >
00232 {
00233 template<typename Stream, typename T> inline static void allInOne(Stream& stream, T m)
00234 {
00235 stream.next(m.header);
00236 stream.next(m.name);
00237 stream.next(m.pose);
00238 stream.next(m.twist);
00239 stream.next(m.wrench);
00240 }
00241
00242 ROS_DECLARE_ALLINONE_SERIALIZER;
00243 };
00244 }
00245 }
00246
00247 namespace ros
00248 {
00249 namespace message_operations
00250 {
00251
00252 template<class ContainerAllocator>
00253 struct Printer< ::gazebo_msgs::WorldState_<ContainerAllocator> >
00254 {
00255 template<typename Stream> static void stream(Stream& s, const std::string& indent, const ::gazebo_msgs::WorldState_<ContainerAllocator> & v)
00256 {
00257 s << indent << "header: ";
00258 s << std::endl;
00259 Printer< ::std_msgs::Header_<ContainerAllocator> >::stream(s, indent + " ", v.header);
00260 s << indent << "name[]" << std::endl;
00261 for (size_t i = 0; i < v.name.size(); ++i)
00262 {
00263 s << indent << " name[" << i << "]: ";
00264 Printer<std::basic_string<char, std::char_traits<char>, typename ContainerAllocator::template rebind<char>::other > >::stream(s, indent + " ", v.name[i]);
00265 }
00266 s << indent << "pose[]" << std::endl;
00267 for (size_t i = 0; i < v.pose.size(); ++i)
00268 {
00269 s << indent << " pose[" << i << "]: ";
00270 s << std::endl;
00271 s << indent;
00272 Printer< ::geometry_msgs::Pose_<ContainerAllocator> >::stream(s, indent + " ", v.pose[i]);
00273 }
00274 s << indent << "twist[]" << std::endl;
00275 for (size_t i = 0; i < v.twist.size(); ++i)
00276 {
00277 s << indent << " twist[" << i << "]: ";
00278 s << std::endl;
00279 s << indent;
00280 Printer< ::geometry_msgs::Twist_<ContainerAllocator> >::stream(s, indent + " ", v.twist[i]);
00281 }
00282 s << indent << "wrench[]" << std::endl;
00283 for (size_t i = 0; i < v.wrench.size(); ++i)
00284 {
00285 s << indent << " wrench[" << i << "]: ";
00286 s << std::endl;
00287 s << indent;
00288 Printer< ::geometry_msgs::Wrench_<ContainerAllocator> >::stream(s, indent + " ", v.wrench[i]);
00289 }
00290 }
00291 };
00292
00293
00294 }
00295 }
00296
00297 #endif // GAZEBO_MSGS_MESSAGE_WORLDSTATE_H
00298