3dpcp/.svn/pristine/1f/1ff694340f907a92134585612918621390a04042.svn-base

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2012-10-24 09:28:22 +00:00
/**
* Point Cloud Segmentation using Felzenszwalb-Huttenlocher Algorithm
*
* Copyright (C) Jacobs University Bremen
*
* Released under the GPL version 3.
*
* @author Billy Okal <b.okal@jacobs-university.de>
* @author Mihai-Cotizo Sima
* @file fhsegmentation.cc
*/
#include <iostream>
#include <string>
#include <fstream>
#include <errno.h>
#include <boost/program_options.hpp>
#include <slam6d/io_types.h>
#include <slam6d/globals.icc>
#include <slam6d/scan.h>
#include <scanserver/clientInterface.h>
#include <segmentation/FHGraph.h>
#ifdef _MSC_VER
#define strcasecmp _stricmp
#define strncasecmp _strnicmp
#else
#include <strings.h>
#endif
namespace po = boost::program_options;
using namespace std;
/// validate IO types
void validate(boost::any& v, const std::vector<std::string>& values,
IOType*, int) {
if (values.size() == 0)
throw std::runtime_error("Invalid model specification");
string arg = values.at(0);
try {
v = formatname_to_io_type(arg.c_str());
} catch (...) { // runtime_error
throw std::runtime_error("Format " + arg + " unknown.");
}
}
/// Parse commandline options
void parse_options(int argc, char **argv, int &start, int &end, bool &scanserver, int &max_dist, int &min_dist, string &dir,
IOType &iotype, float &sigma, int &k, int &neighbors, float &eps, float &radius, int &min_size)
{
/// ----------------------------------
/// set up program commandline options
/// ----------------------------------
po::options_description cmd_options("Usage: fhsegmentation <options> where options are (default values in brackets)");
cmd_options.add_options()
("help,?", "Display this help message")
("start,s", po::value<int>(&start)->default_value(0), "Start at scan number <arg>")
("end,e", po::value<int>(&end)->default_value(-1), "Stop at scan number <arg>")
("scanserver,S", po::value<bool>(&scanserver)->default_value(false), "Use the scanserver as an input method")
("format,f", po::value<IOType>(&iotype)->default_value(UOS),
"using shared library <arg> for input. (chose format from [uos|uosr|uos_map|"
"uos_rgb|uos_frames|uos_map_frames|old|rts|rts_map|ifp|"
"riegl_txt|riegl_rgb|riegl_bin|zahn|ply])")
("max,M", po::value<int>(&max_dist)->default_value(-1),"neglegt all data points with a distance larger than <arg> 'units")
("min,m", po::value<int>(&min_dist)->default_value(-1), "neglegt all data points with a distance smaller than <arg> 'units")
("K,k", po::value<int>(&k)->default_value(1), "<arg> value of K value used in the FH segmentation")
("neighbors,N", po::value<int>(&neighbors)->default_value(1), "use approximate <arg>-nearest neighbors search or limit the number of points")
("sigma,v", po::value<float>(&sigma)->default_value(1.0), "Set the Gaussian variance for smoothing to <arg>")
("radius,r", po::value<float>(&radius)->default_value(-1.0), "Set the range of radius search to <arg>")
("eps,E", po::value<float>(&eps)->default_value(1.0), "Set error threshold used by the AKNN algorithm to <arg>")
("minsize,z", po::value<int>(&min_size)->default_value(0), "Keep segments of size at least <arg>")
;
po::options_description hidden("Hidden options");
hidden.add_options()
("input-dir", po::value<string>(&dir), "input dir");
po::positional_options_description pd;
pd.add("input-dir", 1);
po::options_description all;
all.add(cmd_options).add(hidden);
po::variables_map vmap;
po::store(po::command_line_parser(argc, argv).options(all).positional(pd).run(), vmap);
po::notify(vmap);
if (vmap.count("help")) {
cout << cmd_options << endl;
exit(-1);
}
// read scan path
if (dir[dir.length()-1] != '/') dir = dir + "/";
}
/// distance measures
double weight1(Point a, Point b)
{
return a.distance(b);
}
double weight2(Point a, Point b)
{
return a.distance(b) * .5 + fabs(a.reflectance-b.reflectance) * .5;
}
/// Write a pose file with the specofied name
void writePoseFiles(string dir, const double* rPos, const double* rPosTheta, int num, int outnum)
{
for (int i = outnum; i < num; i++) {
string poseFileName = dir + "segments/scan" + to_string(i, 3) + ".pose";
ofstream posout(poseFileName.c_str());
posout << rPos[0] << " "
<< rPos[1] << " "
<< rPos[2] << endl
<< deg(rPosTheta[0]) << " "
<< deg(rPosTheta[1]) << " "
<< deg(rPosTheta[2]) << endl;
posout.clear();
posout.close();
}
}
/// write scan files for all segments
void writeScanFiles(string dir, int outnum, const vector<vector<Point>* > cloud)
{
for (int i = outnum, j = 0; i < (int)cloud.size() && j < (int)cloud.size(); i++, j++) {
vector<Point>* segment = cloud[j];
string scanFileName = dir + "segments/scan" + to_string(i,3) + ".3d";
ofstream scanout(scanFileName.c_str());
for (int k = 0; k < (int)segment->size(); k++) {
Point p = segment->at(k);
scanout << p.x << " " << p.y << " " << p.z << endl;
}
scanout.close();
}
}
/// =============================================
/// Main
/// =============================================
int main(int argc, char** argv)
{
int start, end;
bool scanserver;
int max_dist, min_dist;
string dir;
IOType iotype;
float sigma;
int k, neighbors;
float eps;
float radius;
int min_size;
parse_options(argc, argv, start, end, scanserver, max_dist, min_dist,
dir, iotype, sigma, k, neighbors, eps, radius, min_size);
/// ----------------------------------
/// Prepare and read scans
/// ----------------------------------
if (scanserver) {
try {
ClientInterface::create();
} catch(std::runtime_error& e) {
cerr << "ClientInterface could not be created: " << e.what() << endl;
cerr << "Start the scanserver first." << endl;
exit(-1);
}
}
/// Make directory for saving the scan segments
string segdir = dir + "segments";
#ifdef _MSC_VER
int success = mkdir(segdir.c_str());
#else
int success = mkdir(segdir.c_str(), S_IRWXU|S_IRWXG|S_IRWXO);
#endif
if(success == 0) {
cout << "Writing segments to " << segdir << endl;
} else if(errno == EEXIST) {
cout << "WARN: Directory " << segdir << " exists already. Contents will be overwriten" << endl;
} else {
cerr << "Creating directory " << segdir << " failed" << endl;
exit(1);
}
/// Read the scans
Scan::openDirectory(scanserver, dir, iotype, start, end);
if(Scan::allScans.size() == 0) {
cerr << "No scans found. Did you use the correct format?" << endl;
exit(-1);
}
/// --------------------------------------------
/// Initialize and perform segmentation
/// --------------------------------------------
std::vector<Scan*>::iterator it = Scan::allScans.begin();
int outscan = start;
for( ; it != Scan::allScans.end(); ++it) {
Scan* scan = *it;
const double* rPos = scan->get_rPos();
const double* rPosTheta = scan->get_rPosTheta();
/// read scan into points
DataXYZ xyz(scan->get("xyz"));
vector<Point> points;
points.reserve(xyz.size());
for(unsigned int j = 0; j < xyz.size(); j++) {
Point p(xyz[j][0], xyz[j][1], xyz[j][2]);
points.push_back(p);
}
/// create the graph and get the segments
cout << "creating graph" << endl;
FHGraph sgraph(points, weight2, sigma, eps, neighbors, radius);
cout << "segmenting graph" << endl;
edge* sedges = sgraph.getGraph();
universe* segmented = segment_graph(sgraph.getNumPoints(),
sgraph.getNumEdges(),
sedges, k);
cout << "post processing" << endl;
for (int i = 0; i < sgraph.getNumEdges(); ++i)
{
int a = sedges[i].a;
int b = sedges[i].b;
int aa = segmented->find(a);
int bb = segmented->find(b);
if ( (aa!=bb) &&
(segmented->size(aa) < min_size ||
segmented->size(bb) < min_size) )
segmented->join(aa, bb);
}
delete[] sedges;
int nr = segmented->num_sets();
cout << "Obtained " << nr << " segment(s)" << endl;
/// write point clouds with segments
vector< vector<Point>* > clouds;
clouds.reserve(nr);
for (int i=0; i<nr; ++i)
clouds.push_back( new vector<Point> );
map<int, int> components2cloud;
int kk = 0;
for (int i = 0; i < sgraph.getNumPoints(); ++i)
{
int component = segmented->find(i);
if ( components2cloud.find(component)==components2cloud.end() )
{
components2cloud[component] = kk++;
clouds[components2cloud[component]]->reserve(segmented->size(component));
}
clouds[components2cloud[component]]->push_back(sgraph[i]);
}
// pose file (repeated for the number of segments
writePoseFiles(dir, rPos, rPosTheta, clouds.size(), outscan);
// scan files for all segments
writeScanFiles(dir, outscan, clouds);
outscan += clouds.size();
/// clean up
sgraph.dispose();
}
// shutdown everything
if (scanserver)
ClientInterface::destroy();
else
Scan::closeDirectory();
cout << "Normal program end" << endl;
return 0;
}