send_point_cloud_2.cpp
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29 
30 #include "ros/ros.h"
31 #include "sensor_msgs/PointCloud2.h"
32 #include "math.h"
33 
34 int main( int argc, char **argv )
35 {
36  ros::init( argc, argv, "send_points2" );
37 
38  int rate = 1;
39  bool moving = true;
40  int size = 100;
41 
42  if( argc > 1 )
43  {
44  rate = atoi( argv[1] );
45  }
46  if( argc > 2 )
47  {
48  moving = bool( atoi( argv[2] ));
49  }
50  if( argc > 3 )
51  {
52  size = atoi( argv[3] );
53  }
54 
55  ros::NodeHandle nh;
56 
57  ros::Publisher pub = nh.advertise<sensor_msgs::PointCloud2>("points2", 10);
58  ros::Rate loop_rate( rate );
59 
60  sensor_msgs::PointCloud2 msg;
61  int width = size;
62  int height = 2*size;
63  msg.header.frame_id = "base_link";
64  msg.is_dense = false;
65  msg.is_bigendian = false;
66 
67  msg.fields.resize( 5 );
68 
69  msg.fields[0].name = "x";
70  msg.fields[0].offset = 0;
71  msg.fields[0].datatype = sensor_msgs::PointField::FLOAT32;
72  msg.fields[0].count = 1;
73 
74  msg.fields[1].name = "y";
75  msg.fields[1].offset = 4;
76  msg.fields[1].datatype = sensor_msgs::PointField::FLOAT32;
77  msg.fields[1].count = 1;
78 
79  msg.fields[2].name = "z";
80  msg.fields[2].offset = 8;
81  msg.fields[2].datatype = sensor_msgs::PointField::FLOAT32;
82  msg.fields[2].count = 1;
83 
84  msg.fields[3].name = "rgb";
85  msg.fields[3].offset = 12;
86  msg.fields[3].datatype = sensor_msgs::PointField::INT32;
87  msg.fields[3].count = 1;
88 
89  msg.fields[4].name = "joy";
90  msg.fields[4].offset = 16;
91  msg.fields[4].datatype = sensor_msgs::PointField::FLOAT32;
92  msg.fields[4].count = 1;
93 
94  msg.point_step = 20;
95 
96  int count = 0;
97  while( ros::ok() )
98  {
99  width++;
100  int num_points = width * height;
101  msg.row_step = width * msg.point_step;
102  msg.height = height;
103  msg.width = width;
104  msg.data.resize( num_points * msg.point_step );
105  for( int x = 0; x < width; x++ )
106  {
107  for( int y = 0; y < height; y++ )
108  {
109  uint8_t* ptr = &msg.data[0] + (x + y * width) * msg.point_step;
110  *(float*)ptr = x / 100.0f;
111  ptr += 4;
112  *(float*)ptr = y / 100.0f;
113  ptr += 4;
114  *(float*)ptr = 0.1 * sinf( x / 10.0f ) * sinf( y / 10.0f );
115  ptr += 4;
116  *ptr = (x+count) & 0xff;
117  ptr++;
118  *ptr = y & 0xff;
119  ptr++;
120  *ptr = (x+y) & 0xff;
121  ptr++;
122  ptr++;
123  *(float*)ptr = 127.0f + 127.0f * sinf( (x - count)/ 10.0f ) * sinf( y / 10.0f );
124  // ptr += 4;
125  }
126  }
127  msg.header.seq = count;
128  msg.header.stamp = ros::Time::now();
129 
130  printf( "publishing at %d hz, %s, %d x %d points.\n",
131  rate, (moving?"moving":"static"), width, height );
132 
133  pub.publish( msg );
134 
135  ros::spinOnce();
136  loop_rate.sleep();
137  if( moving )
138  {
139  ++count;
140  }
141  }
142 }
void publish(const boost::shared_ptr< M > &message) const
f
ROSCPP_DECL void init(int &argc, char **argv, const std::string &name, uint32_t options=0)
TFSIMD_FORCE_INLINE const tfScalar & y() const
ROSCPP_DECL bool ok()
TFSIMD_FORCE_INLINE const tfScalar & x() const
int main(int argc, char **argv)
Publisher advertise(const std::string &topic, uint32_t queue_size, bool latch=false)
static Time now()
ROSCPP_DECL void spinOnce()


rviz
Author(s): Dave Hershberger, David Gossow, Josh Faust
autogenerated on Sat Apr 27 2019 02:33:42