// Generated by gencpp from file sensor_msgs/PointCloud.msg // DO NOT EDIT! #ifndef SENSOR_MSGS_MESSAGE_POINTCLOUD_H #define SENSOR_MSGS_MESSAGE_POINTCLOUD_H #include #include #include #include #include #include #include #include #include namespace sensor_msgs { template struct PointCloud_ { typedef PointCloud_ Type; PointCloud_() : header() , points() , channels() { } PointCloud_(const ContainerAllocator& _alloc) : header(_alloc) , points(_alloc) , channels(_alloc) { (void)_alloc; } typedef ::std_msgs::Header_ _header_type; _header_type header; typedef std::vector< ::geometry_msgs::Point32_ , typename ContainerAllocator::template rebind< ::geometry_msgs::Point32_ >::other > _points_type; _points_type points; typedef std::vector< ::sensor_msgs::ChannelFloat32_ , typename ContainerAllocator::template rebind< ::sensor_msgs::ChannelFloat32_ >::other > _channels_type; _channels_type channels; typedef boost::shared_ptr< ::sensor_msgs::PointCloud_ > Ptr; typedef boost::shared_ptr< ::sensor_msgs::PointCloud_ const> ConstPtr; }; // struct PointCloud_ typedef ::sensor_msgs::PointCloud_ > PointCloud; typedef boost::shared_ptr< ::sensor_msgs::PointCloud > PointCloudPtr; typedef boost::shared_ptr< ::sensor_msgs::PointCloud const> PointCloudConstPtr; // constants requiring out of line definition template std::ostream& operator<<(std::ostream& s, const ::sensor_msgs::PointCloud_ & v) { ros::message_operations::Printer< ::sensor_msgs::PointCloud_ >::stream(s, "", v); return s; } template bool operator==(const ::sensor_msgs::PointCloud_ & lhs, const ::sensor_msgs::PointCloud_ & rhs) { return lhs.header == rhs.header && lhs.points == rhs.points && lhs.channels == rhs.channels; } template bool operator!=(const ::sensor_msgs::PointCloud_ & lhs, const ::sensor_msgs::PointCloud_ & rhs) { return !(lhs == rhs); } } // namespace sensor_msgs namespace ros { namespace message_traits { template struct IsMessage< ::sensor_msgs::PointCloud_ > : TrueType { }; template struct IsMessage< ::sensor_msgs::PointCloud_ const> : TrueType { }; template struct IsFixedSize< ::sensor_msgs::PointCloud_ > : FalseType { }; template struct IsFixedSize< ::sensor_msgs::PointCloud_ const> : FalseType { }; template struct HasHeader< ::sensor_msgs::PointCloud_ > : TrueType { }; template struct HasHeader< ::sensor_msgs::PointCloud_ const> : TrueType { }; template struct MD5Sum< ::sensor_msgs::PointCloud_ > { static const char* value() { return "d8e9c3f5afbdd8a130fd1d2763945fca"; } static const char* value(const ::sensor_msgs::PointCloud_&) { return value(); } static const uint64_t static_value1 = 0xd8e9c3f5afbdd8a1ULL; static const uint64_t static_value2 = 0x30fd1d2763945fcaULL; }; template struct DataType< ::sensor_msgs::PointCloud_ > { static const char* value() { return "sensor_msgs/PointCloud"; } static const char* value(const ::sensor_msgs::PointCloud_&) { return value(); } }; template struct Definition< ::sensor_msgs::PointCloud_ > { static const char* value() { return "# This message holds a collection of 3d points, plus optional additional\n" "# information about each point.\n" "\n" "# Time of sensor data acquisition, coordinate frame ID.\n" "Header header\n" "\n" "# Array of 3d points. Each Point32 should be interpreted as a 3d point\n" "# in the frame given in the header.\n" "geometry_msgs/Point32[] points\n" "\n" "# Each channel should have the same number of elements as points array,\n" "# and the data in each channel should correspond 1:1 with each point.\n" "# Channel names in common practice are listed in ChannelFloat32.msg.\n" "ChannelFloat32[] channels\n" "\n" "================================================================================\n" "MSG: std_msgs/Header\n" "# Standard metadata for higher-level stamped data types.\n" "# This is generally used to communicate timestamped data \n" "# in a particular coordinate frame.\n" "# \n" "# sequence ID: consecutively increasing ID \n" "uint32 seq\n" "#Two-integer timestamp that is expressed as:\n" "# * stamp.sec: seconds (stamp_secs) since epoch (in Python the variable is called 'secs')\n" "# * stamp.nsec: nanoseconds since stamp_secs (in Python the variable is called 'nsecs')\n" "# time-handling sugar is provided by the client library\n" "time stamp\n" "#Frame this data is associated with\n" "string frame_id\n" "\n" "================================================================================\n" "MSG: geometry_msgs/Point32\n" "# This contains the position of a point in free space(with 32 bits of precision).\n" "# It is recommeded to use Point wherever possible instead of Point32. \n" "# \n" "# This recommendation is to promote interoperability. \n" "#\n" "# This message is designed to take up less space when sending\n" "# lots of points at once, as in the case of a PointCloud. \n" "\n" "float32 x\n" "float32 y\n" "float32 z\n" "================================================================================\n" "MSG: sensor_msgs/ChannelFloat32\n" "# This message is used by the PointCloud message to hold optional data\n" "# associated with each point in the cloud. The length of the values\n" "# array should be the same as the length of the points array in the\n" "# PointCloud, and each value should be associated with the corresponding\n" "# point.\n" "\n" "# Channel names in existing practice include:\n" "# \"u\", \"v\" - row and column (respectively) in the left stereo image.\n" "# This is opposite to usual conventions but remains for\n" "# historical reasons. The newer PointCloud2 message has no\n" "# such problem.\n" "# \"rgb\" - For point clouds produced by color stereo cameras. uint8\n" "# (R,G,B) values packed into the least significant 24 bits,\n" "# in order.\n" "# \"intensity\" - laser or pixel intensity.\n" "# \"distance\"\n" "\n" "# The channel name should give semantics of the channel (e.g.\n" "# \"intensity\" instead of \"value\").\n" "string name\n" "\n" "# The values array should be 1-1 with the elements of the associated\n" "# PointCloud.\n" "float32[] values\n" ; } static const char* value(const ::sensor_msgs::PointCloud_&) { return value(); } }; } // namespace message_traits } // namespace ros namespace ros { namespace serialization { template struct Serializer< ::sensor_msgs::PointCloud_ > { template inline static void allInOne(Stream& stream, T m) { stream.next(m.header); stream.next(m.points); stream.next(m.channels); } ROS_DECLARE_ALLINONE_SERIALIZER }; // struct PointCloud_ } // namespace serialization } // namespace ros namespace ros { namespace message_operations { template struct Printer< ::sensor_msgs::PointCloud_ > { template static void stream(Stream& s, const std::string& indent, const ::sensor_msgs::PointCloud_& v) { s << indent << "header: "; s << std::endl; Printer< ::std_msgs::Header_ >::stream(s, indent + " ", v.header); s << indent << "points[]" << std::endl; for (size_t i = 0; i < v.points.size(); ++i) { s << indent << " points[" << i << "]: "; s << std::endl; s << indent; Printer< ::geometry_msgs::Point32_ >::stream(s, indent + " ", v.points[i]); } s << indent << "channels[]" << std::endl; for (size_t i = 0; i < v.channels.size(); ++i) { s << indent << " channels[" << i << "]: "; s << std::endl; s << indent; Printer< ::sensor_msgs::ChannelFloat32_ >::stream(s, indent + " ", v.channels[i]); } } }; } // namespace message_operations } // namespace ros #endif // SENSOR_MSGS_MESSAGE_POINTCLOUD_H