Akash Vibhute
rosserial library for mbed Inspired by nucho's rosserial library This library is still under development
Dependents: mbed_roshydro_test
Library still under development!
controller_manager_msgs/ControllerStatistics.h
- Committer:
- akashvibhute
- Date:
- 2015-02-15
- Revision:
- 0:30537dec6e0b
File content as of revision 0:30537dec6e0b:
#ifndef _ROS_controller_manager_msgs_ControllerStatistics_h
#define _ROS_controller_manager_msgs_ControllerStatistics_h
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include "ros/msg.h"
#include "ros/time.h"
#include "ros/duration.h"
namespace controller_manager_msgs
{
class ControllerStatistics : public ros::Msg
{
public:
const char* name;
const char* type;
ros::Time timestamp;
bool running;
ros::Duration max_time;
ros::Duration mean_time;
ros::Duration variance_time;
int32_t num_control_loop_overruns;
ros::Time time_last_control_loop_overrun;
ControllerStatistics():
name(""),
type(""),
timestamp(),
running(0),
max_time(),
mean_time(),
variance_time(),
num_control_loop_overruns(0),
time_last_control_loop_overrun()
{
}
virtual int serialize(unsigned char *outbuffer) const
{
int offset = 0;
uint32_t length_name = strlen(this->name);
memcpy(outbuffer + offset, &length_name, sizeof(uint32_t));
offset += 4;
memcpy(outbuffer + offset, this->name, length_name);
offset += length_name;
uint32_t length_type = strlen(this->type);
memcpy(outbuffer + offset, &length_type, sizeof(uint32_t));
offset += 4;
memcpy(outbuffer + offset, this->type, length_type);
offset += length_type;
*(outbuffer + offset + 0) = (this->timestamp.sec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->timestamp.sec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->timestamp.sec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->timestamp.sec >> (8 * 3)) & 0xFF;
offset += sizeof(this->timestamp.sec);
*(outbuffer + offset + 0) = (this->timestamp.nsec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->timestamp.nsec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->timestamp.nsec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->timestamp.nsec >> (8 * 3)) & 0xFF;
offset += sizeof(this->timestamp.nsec);
union {
bool real;
uint8_t base;
} u_running;
u_running.real = this->running;
*(outbuffer + offset + 0) = (u_running.base >> (8 * 0)) & 0xFF;
offset += sizeof(this->running);
*(outbuffer + offset + 0) = (this->max_time.sec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->max_time.sec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->max_time.sec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->max_time.sec >> (8 * 3)) & 0xFF;
offset += sizeof(this->max_time.sec);
*(outbuffer + offset + 0) = (this->max_time.nsec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->max_time.nsec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->max_time.nsec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->max_time.nsec >> (8 * 3)) & 0xFF;
offset += sizeof(this->max_time.nsec);
*(outbuffer + offset + 0) = (this->mean_time.sec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->mean_time.sec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->mean_time.sec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->mean_time.sec >> (8 * 3)) & 0xFF;
offset += sizeof(this->mean_time.sec);
*(outbuffer + offset + 0) = (this->mean_time.nsec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->mean_time.nsec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->mean_time.nsec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->mean_time.nsec >> (8 * 3)) & 0xFF;
offset += sizeof(this->mean_time.nsec);
*(outbuffer + offset + 0) = (this->variance_time.sec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->variance_time.sec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->variance_time.sec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->variance_time.sec >> (8 * 3)) & 0xFF;
offset += sizeof(this->variance_time.sec);
*(outbuffer + offset + 0) = (this->variance_time.nsec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->variance_time.nsec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->variance_time.nsec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->variance_time.nsec >> (8 * 3)) & 0xFF;
offset += sizeof(this->variance_time.nsec);
union {
int32_t real;
uint32_t base;
} u_num_control_loop_overruns;
u_num_control_loop_overruns.real = this->num_control_loop_overruns;
*(outbuffer + offset + 0) = (u_num_control_loop_overruns.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_num_control_loop_overruns.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_num_control_loop_overruns.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_num_control_loop_overruns.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->num_control_loop_overruns);
*(outbuffer + offset + 0) = (this->time_last_control_loop_overrun.sec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->time_last_control_loop_overrun.sec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->time_last_control_loop_overrun.sec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->time_last_control_loop_overrun.sec >> (8 * 3)) & 0xFF;
offset += sizeof(this->time_last_control_loop_overrun.sec);
*(outbuffer + offset + 0) = (this->time_last_control_loop_overrun.nsec >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (this->time_last_control_loop_overrun.nsec >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (this->time_last_control_loop_overrun.nsec >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (this->time_last_control_loop_overrun.nsec >> (8 * 3)) & 0xFF;
offset += sizeof(this->time_last_control_loop_overrun.nsec);
return offset;
}
virtual int deserialize(unsigned char *inbuffer)
{
int offset = 0;
uint32_t length_name;
memcpy(&length_name, (inbuffer + offset), sizeof(uint32_t));
offset += 4;
for(unsigned int k= offset; k< offset+length_name; ++k){
inbuffer[k-1]=inbuffer[k];
}
inbuffer[offset+length_name-1]=0;
this->name = (char *)(inbuffer + offset-1);
offset += length_name;
uint32_t length_type;
memcpy(&length_type, (inbuffer + offset), sizeof(uint32_t));
offset += 4;
for(unsigned int k= offset; k< offset+length_type; ++k){
inbuffer[k-1]=inbuffer[k];
}
inbuffer[offset+length_type-1]=0;
this->type = (char *)(inbuffer + offset-1);
offset += length_type;
this->timestamp.sec = ((uint32_t) (*(inbuffer + offset)));
this->timestamp.sec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->timestamp.sec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->timestamp.sec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->timestamp.sec);
this->timestamp.nsec = ((uint32_t) (*(inbuffer + offset)));
this->timestamp.nsec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->timestamp.nsec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->timestamp.nsec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->timestamp.nsec);
union {
bool real;
uint8_t base;
} u_running;
u_running.base = 0;
u_running.base |= ((uint8_t) (*(inbuffer + offset + 0))) << (8 * 0);
this->running = u_running.real;
offset += sizeof(this->running);
this->max_time.sec = ((uint32_t) (*(inbuffer + offset)));
this->max_time.sec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->max_time.sec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->max_time.sec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->max_time.sec);
this->max_time.nsec = ((uint32_t) (*(inbuffer + offset)));
this->max_time.nsec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->max_time.nsec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->max_time.nsec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->max_time.nsec);
this->mean_time.sec = ((uint32_t) (*(inbuffer + offset)));
this->mean_time.sec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->mean_time.sec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->mean_time.sec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->mean_time.sec);
this->mean_time.nsec = ((uint32_t) (*(inbuffer + offset)));
this->mean_time.nsec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->mean_time.nsec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->mean_time.nsec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->mean_time.nsec);
this->variance_time.sec = ((uint32_t) (*(inbuffer + offset)));
this->variance_time.sec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->variance_time.sec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->variance_time.sec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->variance_time.sec);
this->variance_time.nsec = ((uint32_t) (*(inbuffer + offset)));
this->variance_time.nsec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->variance_time.nsec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->variance_time.nsec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->variance_time.nsec);
union {
int32_t real;
uint32_t base;
} u_num_control_loop_overruns;
u_num_control_loop_overruns.base = 0;
u_num_control_loop_overruns.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_num_control_loop_overruns.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_num_control_loop_overruns.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_num_control_loop_overruns.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->num_control_loop_overruns = u_num_control_loop_overruns.real;
offset += sizeof(this->num_control_loop_overruns);
this->time_last_control_loop_overrun.sec = ((uint32_t) (*(inbuffer + offset)));
this->time_last_control_loop_overrun.sec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->time_last_control_loop_overrun.sec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->time_last_control_loop_overrun.sec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->time_last_control_loop_overrun.sec);
this->time_last_control_loop_overrun.nsec = ((uint32_t) (*(inbuffer + offset)));
this->time_last_control_loop_overrun.nsec |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
this->time_last_control_loop_overrun.nsec |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
this->time_last_control_loop_overrun.nsec |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
offset += sizeof(this->time_last_control_loop_overrun.nsec);
return offset;
}
const char * getType(){ return "controller_manager_msgs/ControllerStatistics"; };
const char * getMD5(){ return "697780c372c8d8597a1436d0e2ad3ba8"; };
};
}
#endif