Functions
laser_data.c File Reference
#include <math.h>
#include <stdlib.h>
#include <string.h>
#include "csm_all.h"
Include dependency graph for laser_data.c:

Go to the source code of this file.

Functions

double * alloc_double_array (int n, double def)
int * alloc_int_array (int n, int def)
void ld_alloc (LDP ld, int nrays)
LDP ld_alloc_new (int nrays)
void ld_compute_cartesian (LDP ld)
void ld_compute_world_coords (LDP ld, const double *pose)
unsigned int ld_corr_hash (LDP ld)
void ld_dealloc (struct laser_data *ld)
void ld_free (LDP ld)
int ld_num_valid_correspondences (LDP ld)
int ld_valid_fields (LDP ld)

Function Documentation

double * alloc_double_array ( int  n,
double  def 
)

Definition at line 18 of file laser_data.c.

int * alloc_int_array ( int  n,
int  def 
)

Definition at line 26 of file laser_data.c.

void ld_alloc ( LDP  ,
int  nrays 
)

This allocs the fields in the given structure. Use ld_alloc_new(), not this.

Definition at line 34 of file laser_data.c.

LDP ld_alloc_new ( int  nrays)

This returns a new structure, with all fields initialized

Definition at line 12 of file laser_data.c.

Fills the x,y fields in "points" by transforming (theta, reading) to cartesian

Definition at line 118 of file laser_data.c.

void ld_compute_world_coords ( LDP  ,
const double *  pose 
)

Computes the "points_w" coordinates by roto-translating "points"

Definition at line 133 of file laser_data.c.

unsigned int ld_corr_hash ( LDP  ld)

Computes an hash of the correspondences

Definition at line 267 of file laser_data.c.

void ld_dealloc ( struct laser_data ld)

Definition at line 92 of file laser_data.c.

void ld_free ( LDP  )

This DOES free() the pointer

Definition at line 87 of file laser_data.c.

Returns the number of valid correspondences.

Definition at line 168 of file laser_data.c.

int ld_valid_fields ( LDP  )

Do an extensive sanity check about the data contained in the structure.

Definition at line 179 of file laser_data.c.



csm
Author(s): Andrea Censi
autogenerated on Mon Jan 16 2017 03:48:29