Robotic Team 1
/
ros_lib_indigo
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Dependencies: BufferedSerial
Fork of
ros_lib_indigo
by 
Gary Servin
sensor_msgs/MultiEchoLaserScan.h
- Committer:
- garyservin
- Date:
- 2016-03-31
- Revision:
- 0:fd24f7ca9688
File content as of revision 0:fd24f7ca9688:
#ifndef _ROS_sensor_msgs_MultiEchoLaserScan_h
#define _ROS_sensor_msgs_MultiEchoLaserScan_h
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include "ros/msg.h"
#include "std_msgs/Header.h"
#include "sensor_msgs/LaserEcho.h"
namespace sensor_msgs
{
class MultiEchoLaserScan : public ros::Msg
{
public:
std_msgs::Header header;
float angle_min;
float angle_max;
float angle_increment;
float time_increment;
float scan_time;
float range_min;
float range_max;
uint8_t ranges_length;
sensor_msgs::LaserEcho st_ranges;
sensor_msgs::LaserEcho * ranges;
uint8_t intensities_length;
sensor_msgs::LaserEcho st_intensities;
sensor_msgs::LaserEcho * intensities;
MultiEchoLaserScan():
header(),
angle_min(0),
angle_max(0),
angle_increment(0),
time_increment(0),
scan_time(0),
range_min(0),
range_max(0),
ranges_length(0), ranges(NULL),
intensities_length(0), intensities(NULL)
{
}
virtual int serialize(unsigned char *outbuffer) const
{
int offset = 0;
offset += this->header.serialize(outbuffer + offset);
union {
float real;
uint32_t base;
} u_angle_min;
u_angle_min.real = this->angle_min;
*(outbuffer + offset + 0) = (u_angle_min.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_angle_min.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_angle_min.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_angle_min.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->angle_min);
union {
float real;
uint32_t base;
} u_angle_max;
u_angle_max.real = this->angle_max;
*(outbuffer + offset + 0) = (u_angle_max.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_angle_max.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_angle_max.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_angle_max.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->angle_max);
union {
float real;
uint32_t base;
} u_angle_increment;
u_angle_increment.real = this->angle_increment;
*(outbuffer + offset + 0) = (u_angle_increment.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_angle_increment.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_angle_increment.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_angle_increment.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->angle_increment);
union {
float real;
uint32_t base;
} u_time_increment;
u_time_increment.real = this->time_increment;
*(outbuffer + offset + 0) = (u_time_increment.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_time_increment.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_time_increment.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_time_increment.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->time_increment);
union {
float real;
uint32_t base;
} u_scan_time;
u_scan_time.real = this->scan_time;
*(outbuffer + offset + 0) = (u_scan_time.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_scan_time.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_scan_time.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_scan_time.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->scan_time);
union {
float real;
uint32_t base;
} u_range_min;
u_range_min.real = this->range_min;
*(outbuffer + offset + 0) = (u_range_min.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_range_min.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_range_min.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_range_min.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->range_min);
union {
float real;
uint32_t base;
} u_range_max;
u_range_max.real = this->range_max;
*(outbuffer + offset + 0) = (u_range_max.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_range_max.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_range_max.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_range_max.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->range_max);
*(outbuffer + offset++) = ranges_length;
*(outbuffer + offset++) = 0;
*(outbuffer + offset++) = 0;
*(outbuffer + offset++) = 0;
for( uint8_t i = 0; i < ranges_length; i++){
offset += this->ranges[i].serialize(outbuffer + offset);
}
*(outbuffer + offset++) = intensities_length;
*(outbuffer + offset++) = 0;
*(outbuffer + offset++) = 0;
*(outbuffer + offset++) = 0;
for( uint8_t i = 0; i < intensities_length; i++){
offset += this->intensities[i].serialize(outbuffer + offset);
}
return offset;
}
virtual int deserialize(unsigned char *inbuffer)
{
int offset = 0;
offset += this->header.deserialize(inbuffer + offset);
union {
float real;
uint32_t base;
} u_angle_min;
u_angle_min.base = 0;
u_angle_min.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_angle_min.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_angle_min.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_angle_min.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->angle_min = u_angle_min.real;
offset += sizeof(this->angle_min);
union {
float real;
uint32_t base;
} u_angle_max;
u_angle_max.base = 0;
u_angle_max.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_angle_max.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_angle_max.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_angle_max.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->angle_max = u_angle_max.real;
offset += sizeof(this->angle_max);
union {
float real;
uint32_t base;
} u_angle_increment;
u_angle_increment.base = 0;
u_angle_increment.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_angle_increment.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_angle_increment.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_angle_increment.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->angle_increment = u_angle_increment.real;
offset += sizeof(this->angle_increment);
union {
float real;
uint32_t base;
} u_time_increment;
u_time_increment.base = 0;
u_time_increment.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_time_increment.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_time_increment.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_time_increment.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->time_increment = u_time_increment.real;
offset += sizeof(this->time_increment);
union {
float real;
uint32_t base;
} u_scan_time;
u_scan_time.base = 0;
u_scan_time.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_scan_time.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_scan_time.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_scan_time.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->scan_time = u_scan_time.real;
offset += sizeof(this->scan_time);
union {
float real;
uint32_t base;
} u_range_min;
u_range_min.base = 0;
u_range_min.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_range_min.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_range_min.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_range_min.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->range_min = u_range_min.real;
offset += sizeof(this->range_min);
union {
float real;
uint32_t base;
} u_range_max;
u_range_max.base = 0;
u_range_max.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_range_max.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_range_max.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_range_max.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->range_max = u_range_max.real;
offset += sizeof(this->range_max);
uint8_t ranges_lengthT = *(inbuffer + offset++);
if(ranges_lengthT > ranges_length)
this->ranges = (sensor_msgs::LaserEcho*)realloc(this->ranges, ranges_lengthT * sizeof(sensor_msgs::LaserEcho));
offset += 3;
ranges_length = ranges_lengthT;
for( uint8_t i = 0; i < ranges_length; i++){
offset += this->st_ranges.deserialize(inbuffer + offset);
memcpy( &(this->ranges[i]), &(this->st_ranges), sizeof(sensor_msgs::LaserEcho));
}
uint8_t intensities_lengthT = *(inbuffer + offset++);
if(intensities_lengthT > intensities_length)
this->intensities = (sensor_msgs::LaserEcho*)realloc(this->intensities, intensities_lengthT * sizeof(sensor_msgs::LaserEcho));
offset += 3;
intensities_length = intensities_lengthT;
for( uint8_t i = 0; i < intensities_length; i++){
offset += this->st_intensities.deserialize(inbuffer + offset);
memcpy( &(this->intensities[i]), &(this->st_intensities), sizeof(sensor_msgs::LaserEcho));
}
return offset;
}
const char * getType(){ return "sensor_msgs/MultiEchoLaserScan"; };
const char * getMD5(){ return "6fefb0c6da89d7c8abe4b339f5c2f8fb"; };
};
}
#endif