raw_publisher.cpp
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00034 
00035 #include <image_transport/raw_publisher.h>
00036 #include <ros/static_assert.h>
00037 #include <sensor_msgs/Image.h>
00038 
00045 class ImageTransportImage
00046 {
00047 public:
00048   sensor_msgs::Image image_; 
00049   const uint8_t* data_;           
00050 
00054   ImageTransportImage() {}
00055 
00059   ImageTransportImage(const sensor_msgs::Image& image, const uint8_t* data)
00060     : image_(image), data_(data)
00061   {
00062   }
00063 };
00064 
00066 namespace ros {
00067 
00068 namespace message_traits {
00069 
00070 template<> struct MD5Sum<ImageTransportImage>
00071 {
00072   static const char* value() { return MD5Sum<sensor_msgs::Image>::value(); }
00073   static const char* value(const ImageTransportImage&) { return value(); }
00074 
00075   static const uint64_t static_value1 = MD5Sum<sensor_msgs::Image>::static_value1;
00076   static const uint64_t static_value2 = MD5Sum<sensor_msgs::Image>::static_value2;
00077   
00078   // If the definition of sensor_msgs/Image changes, we'll get a compile error here.
00079   ROS_STATIC_ASSERT(MD5Sum<sensor_msgs::Image>::static_value1 == 0x060021388200f6f0ULL);
00080   ROS_STATIC_ASSERT(MD5Sum<sensor_msgs::Image>::static_value2 == 0xf447d0fcd9c64743ULL);
00081 };
00082 
00083 template<> struct DataType<ImageTransportImage>
00084 {
00085   static const char* value() { return DataType<sensor_msgs::Image>::value(); }
00086   static const char* value(const ImageTransportImage&) { return value(); }
00087 };
00088 
00089 template<> struct Definition<ImageTransportImage>
00090 {
00091   static const char* value() { return Definition<sensor_msgs::Image>::value(); }
00092   static const char* value(const ImageTransportImage&) { return value(); }
00093 };
00094 
00095 template<> struct HasHeader<ImageTransportImage> : TrueType {};
00096 
00097 } // namespace ros::message_traits
00098 
00099 namespace serialization {
00100 
00101 template<> struct Serializer<ImageTransportImage>
00102 {
00104   
00105   template<typename Stream>
00106   inline static void write(Stream& stream, const ImageTransportImage& m)
00107   {
00108     stream.next(m.image_.header);
00109     stream.next((uint32_t)m.image_.height); // height
00110     stream.next((uint32_t)m.image_.width); // width
00111     stream.next(m.image_.encoding);
00112     uint8_t is_bigendian = 0;
00113     stream.next(is_bigendian);
00114     stream.next((uint32_t)m.image_.step);
00115     size_t data_size = m.image_.step*m.image_.height;
00116     stream.next((uint32_t)data_size);
00117     if (data_size > 0)
00118       memcpy(stream.advance(data_size), m.data_, data_size);
00119   }
00120 
00121   inline static uint32_t serializedLength(const ImageTransportImage& m)
00122   {
00123     size_t data_size = m.image_.step*m.image_.height;
00124     return serializationLength(m.image_.header) + serializationLength(m.image_.encoding) + 17 + data_size;
00125   }
00126 };
00127 
00128 } // namespace ros::serialization
00129 
00130 } // namespace ros
00131 
00132 
00133 namespace image_transport {
00134 
00135 void RawPublisher::publish(const sensor_msgs::Image& message, const uint8_t* data) const
00136 {
00137    getPublisher().publish(ImageTransportImage(message, data));
00138 }
00139 
00140 } //namespace image_transport


image_transport
Author(s): Patrick Mihelich
autogenerated on Thu Jun 6 2019 21:19:55