#include <cstring>
#include "gmapping/gridfastslam/gfsreader.h"
#include <iomanip>
#include <limits>
namespace GMapping {
namespace GFSReader{
Record::~Record(){}
void Record::write(ostream& os){};
void CommentRecord::read(istream& is){
char buf[MAX_LINE_LENGHT];
memset(buf,0, MAX_LINE_LENGHT*sizeof(char));
is.getline(buf, MAX_LINE_LENGHT);
text=string(buf);
}
void CommentRecord::write(ostream& os){
os << "#GFS_COMMENT: " << text << endl;
}
PoseRecord::PoseRecord(bool ideal){
truePos=ideal;
}
void PoseRecord::read(istream& is){
is >> pose.x >> pose.y >> pose.theta;
time = 0;
if (is)
is >> time;
}
void PoseRecord::write(ostream& os){
if (truePos)
os << "TRUEPOS ";
else
os << "ODOM ";
os << setiosflags(ios::fixed) << setprecision(6);
os << pose.x << " " << pose.y << " " << pose.theta << " 0 0 0 ";
os << time << " pippo " << time << endl;
}
void NeffRecord::read(istream& is){
is >> neff;
time =0;
if (is)
is >> time;
}
void NeffRecord::write(ostream& os){
os << "NEFF " << neff ;
os << setiosflags(ios::fixed) << setprecision(6);
os << " " << time << " pippo " << time << endl;
}
void OdometryRecord::read(istream& is){
is >> dim;
for (unsigned int i=0; i< dim; i++){
OrientedPoint p;
double w;
is >> p.x;
is >> p.y;
is >> p.theta;
is >> w;
poses.push_back(p);
}
time = 0;
if (is)
is >> time;
}
void RawOdometryRecord::read(istream& is){
is >> pose.x;
is >> pose.y;
is >> pose.theta;
time = 0;
assert(is);
is >> time;
}
void EntropyRecord::read(istream& is){
is >> poseEntropy >> trajectoryEntropy >> mapEntropy;
time =0;
if (is)
is >> time;
}
void EntropyRecord::write(ostream& os){
os << setiosflags(ios::fixed) << setprecision(6) << "ENTROPY " << poseEntropy << " " << trajectoryEntropy << " " << mapEntropy;
os << " " << time << " pippo " << time << endl;
}
void ScanMatchRecord::read(istream& is){
is >> dim;
for (unsigned int i=0; i< dim; i++){
OrientedPoint p;
double w;
is >> p.x;
is >> p.y;
is >> p.theta;
is >> w;
poses.push_back(p);
weights.push_back(w);
}
}
void LaserRecord::read(istream& is){
is >> dim;
for (unsigned int i=0; i< dim; i++){
double r;
is >> r;
readings.push_back(r);
}
is >> pose.x;
is >> pose.y;
is >> pose.theta;
time = 0;
if (is)
is >> time;
}
void LaserRecord::write(ostream& os){
os << "WEIGHT " << weight << endl;
os << "ROBOTLASER1 ";
if ((dim == 541)||(dim == 540)) { // S300
os <<" 4"; // laser type
os <<" -2.351831"; // start_angle
os <<" 4.712389"; // fov
os <<" 0.008727"; // angular res
os <<" 30.0" ; // maxrange
}
else if ((dim == 180)||(dim == 181)) { // PLS
os <<" 0"; // laser type
os <<" -1.570796"; // start_angle
os <<" 3.141593"; // fov
os <<" 0.017453"; // angular res
os <<" 81.9" ; // maxrange
}
else if ((dim == 360)||(dim == 361)) { // LMS
os <<" 0"; // laser type
os <<" -1.570796"; // start_angle
os <<" 3.141593"; // fov
os <<" 0.008726"; // angular res
os <<" 81.9" ; // maxrange
}
else if ((dim == 682)||(dim == 683)) { // URG
os <<" 0"; // laser type
os <<" -2.094395"; // start_angle
os <<" 4.1887902"; // fov
os << " " << 360.0/1024.0/180.0*M_PI; // angular res
os <<" 5.5" ; // maxrange
}
else { // PLS
os <<" 0"; // laser type
os <<" -1.570796"; // start_angle
os <<" 3.141593"; // fov
os <<" 0.017453"; // angular res
os <<" 81.9" ; // maxrange
}
os <<" 0.01"; // accuracy
os <<" 0" ; // remission mode
os <<" "<< dim; // num readings
os << setiosflags(ios::fixed) << setprecision(2);
for (unsigned int i=0; i< dim; i++){
os <<" "<< readings[i] ;
}
os << setiosflags(ios::fixed) << setprecision(6);
os <<" 0"; // num remession values
os <<" "<< pose.x;
os <<" "<< pose.y;
os <<" "<< pose.theta;
os <<" "<< pose.x;
os <<" "<< pose.y;
os <<" "<< pose.theta;
os <<" 0" ; // tv
os <<" 0" ; // rv
os <<" 0.55" ; // forward_safety_dist
os <<" 0.375" ; // sideward_safety_dist
os <<" 1000000.0" ; // turn_axis
os <<" "<< time << " localhost " << time << endl;
};
void ResampleRecord::read(istream& is){
is >> dim;
for (unsigned int i=0; i< dim; i++){
unsigned int j;
is >> j;
indexes.push_back(j);
}
}
istream& RecordList::read(istream& is){
while(is){
char buf[MAX_LINE_LENGHT];
is.getline(buf, MAX_LINE_LENGHT);
istringstream lineStream(buf);
string recordType;
lineStream >> recordType;
Record* rec=0;
if (recordType=="LASER_READING"){
rec=new LaserRecord;
// cout << "l" << flush;
}
else if (recordType=="ODO_UPDATE"){
rec=new OdometryRecord;
// cout << "o" << flush;
}
else if (recordType=="ODOM"){
rec=new RawOdometryRecord;
// cout << "O" << flush;
}
else if (recordType=="SM_UPDATE"){
rec=new ScanMatchRecord;
// cout << "m" << flush;
}
else if (recordType=="SIMULATOR_POS"){
rec=new PoseRecord(true);
// cout << "t" << flush;
}
else if (recordType=="RESAMPLE"){
rec=new ResampleRecord;
// cout << "r" << flush;
}
else if (recordType=="NEFF"){
rec=new NeffRecord;
// cout << "n" << flush;
}
else if (recordType=="COMMENT" || recordType=="#COMMENT"){
rec=new CommentRecord;
// cout << "c" << flush;
}
else if (recordType=="ENTROPY"){
rec=new EntropyRecord;
// cout << "c" << flush;
}
if (rec){
rec->read(lineStream);
push_back(rec);
}
}
return is;
}
double RecordList::getLogWeight(unsigned int i) const{
double weight=0;
unsigned int currentIndex=i;
for(RecordList::const_reverse_iterator it=rbegin(); it!=rend(); it++){
ScanMatchRecord* scanmatch=dynamic_cast<ScanMatchRecord*>(*it);
if (scanmatch){
weight+=scanmatch->weights[currentIndex];
}
ResampleRecord* resample=dynamic_cast<ResampleRecord*>(*it);
if (resample){
currentIndex=resample->indexes[currentIndex];
}
}
return weight;
}
double RecordList::getLogWeight(unsigned int i, RecordList::const_iterator frame) const{
double weight=0;
unsigned int currentIndex=i;
for(RecordList::const_reverse_iterator it(frame); it!=rend(); it++){
ScanMatchRecord* scanmatch=dynamic_cast<ScanMatchRecord*>(*it);
if (scanmatch){
weight+=scanmatch->weights[currentIndex];
}
ResampleRecord* resample=dynamic_cast<ResampleRecord*>(*it);
if (resample){
currentIndex=resample->indexes[currentIndex];
}
}
return weight;
}
unsigned int RecordList::getBestIdx() const {
if (empty())
return 0;
const ScanMatchRecord* scanmatch=0;
const_reverse_iterator it=rbegin();
while(!scanmatch){
scanmatch=dynamic_cast<const ScanMatchRecord*>(*it);
it++;
}
unsigned int dim=scanmatch->dim;
sampleSize=(int)dim;
double bestw=-std::numeric_limits<double>::max();
unsigned int best=scanmatch->dim+1;
for (unsigned i=0; i<dim; i++){
double w=getLogWeight(i);
if (w>bestw){
best=i;
bestw=w;
}
}
return best;
}
void RecordList::printLastParticles(ostream& os) const {
if (empty())
return;
const ScanMatchRecord* scanmatch=0;
const_reverse_iterator it=rbegin();
while(!scanmatch){
scanmatch=dynamic_cast<const ScanMatchRecord*>(*it);
it++;
}
if (! scanmatch)
return;
for (vector<OrientedPoint>::const_iterator it=scanmatch->poses.begin(); it!=scanmatch->poses.end(); it++){
os << "MARKER [color=black; circle=" << it->x*100 << "," << it->y*100 << ",10] 0 pippo 0" << endl;
}
}
void RecordList::destroyReferences(){
for(RecordList::iterator it=begin(); it!=end(); it++)
delete (*it);
}
RecordList RecordList::computePath(unsigned int i, RecordList::const_iterator frame) const{
unsigned int currentIndex=i;
OrientedPoint p(0,0,0);
RecordList rl;
//reconstruct a path
bool first=true;
for(RecordList::const_reverse_iterator it(frame); it!=rend(); it++){
const ScanMatchRecord* scanmatch=dynamic_cast<const ScanMatchRecord*>(*it);
if (scanmatch){
p=scanmatch->poses[currentIndex];
first=false;
}
const LaserRecord* laser=dynamic_cast<const LaserRecord*>(*it);
if (laser && !first){
LaserRecord* claser=new LaserRecord(*laser);
claser->pose=p;
rl.push_front(claser);
}
const ResampleRecord* resample=dynamic_cast<const ResampleRecord*>(*it);
if (resample){
currentIndex=resample->indexes[currentIndex];
}
}
return rl;
}
void RecordList::printPath(ostream& os, unsigned int i, bool err, bool rawodom) const{
unsigned int currentIndex=i;
OrientedPoint p(0,0,0);
RecordList rl;
double oldWeight=0;
double w=0;
//reconstruct a path
for(RecordList::const_reverse_iterator it=rbegin(); it!=rend(); it++){
const NeffRecord* neff=dynamic_cast<const NeffRecord*>(*it);
if (neff){
NeffRecord* n=new NeffRecord(*neff);
rl.push_front(n);
}
const EntropyRecord* entropy=dynamic_cast<const EntropyRecord*>(*it);
if (entropy){
EntropyRecord* n=new EntropyRecord(*entropy);
rl.push_front(n);
}
const ScanMatchRecord* scanmatch=dynamic_cast<const ScanMatchRecord*>(*it);
if (scanmatch){
PoseRecord* pose=new PoseRecord;
pose->dim=0;
p=pose->pose=scanmatch->poses[currentIndex];
w=scanmatch->weights[currentIndex]-oldWeight;
oldWeight=scanmatch->weights[currentIndex];
if (!rawodom) {
rl.push_front(pose);
}
}
const OdometryRecord* odometry=dynamic_cast<const OdometryRecord*>(*it);
if (odometry){
PoseRecord* pose=new PoseRecord;
pose->dim=0;
p=pose->pose=odometry->poses[currentIndex];
pose->time=odometry->time;
if (!rawodom) {
rl.push_front(pose);
}
}
const RawOdometryRecord* rawodometry=dynamic_cast<const RawOdometryRecord*>(*it);
if (rawodometry){
PoseRecord* pose=new PoseRecord;
pose->dim=0;
pose->pose=rawodometry->pose;
pose->time=rawodometry->time;
if (rawodom) {
rl.push_front(pose);
}
}
const PoseRecord* tpose=dynamic_cast<const PoseRecord*>(*it);
if (tpose){
PoseRecord* pose=new PoseRecord(*tpose);
rl.push_front(pose);
}
const LaserRecord* laser=dynamic_cast<const LaserRecord*>(*it);
if (laser){
LaserRecord* claser=new LaserRecord(*laser);
claser->pose=p;
claser->weight=w;
rl.push_front(claser);
}
const CommentRecord* comment=dynamic_cast<const CommentRecord*>(*it);
if (comment){
CommentRecord* ccomment=new CommentRecord(*comment);
rl.push_front(ccomment);
}
const ResampleRecord* resample=dynamic_cast<const ResampleRecord*>(*it);
if (resample){
rl.push_front(new ResampleRecord(*resample));
currentIndex=resample->indexes[currentIndex];
}
}
bool started=false;
bool computedTransformation=false;
bool truePosFound=false;
OrientedPoint truePose;
OrientedPoint oldPose;
OrientedPoint trueStart, realStart;
bool tpf=false;
double neff=0;
double totalError=0;
int count=0;
for(RecordList::iterator it=rl.begin(); it!=rl.end(); it++){
NeffRecord* neffr=dynamic_cast<NeffRecord*>(*it);
if (neffr)
neff=neffr->neff/(double)sampleSize;
started=started || dynamic_cast<const LaserRecord*>(*it)?true:false;
if (started && ! truePosFound){
PoseRecord* tpose=dynamic_cast<PoseRecord*>(*it);
if (tpose && tpose->truePos){
truePosFound=true;
tpf=true;
truePose=tpose->pose;
os << "# ";
(*it)->write(os);
}
}
if (started && truePosFound && ! computedTransformation){
PoseRecord* pos=dynamic_cast<PoseRecord*>(*it);
if (pos && !pos->truePos){
trueStart=truePose;
realStart=pos->pose;
os << "# ";
(*it)->write(os);
computedTransformation=true;
}
}
if (computedTransformation){
os << setiosflags(ios::fixed) << setprecision(6);
PoseRecord* pos=dynamic_cast<PoseRecord*>(*it);
if (pos){
if (pos->truePos){
tpf=true;
truePose=pos->pose;
} else {
if (tpf){
tpf=false;
OrientedPoint realDelta=absoluteDifference(pos->pose,realStart);
OrientedPoint trueDelta=absoluteDifference(truePose,trueStart);
double ex=realDelta.x-trueDelta.x;
double ey=realDelta.y-trueDelta.y;
double eth=realDelta.theta-trueDelta.theta;
eth=atan2(sin(eth), cos(eth));
if (! err)
os << "# ERROR ";
os << neff << " "
<< ex << " " << ey << " " << eth
<< " " << sqrt(ex*ex+ey*ey) << " " << fabs(eth) << endl;
totalError+=sqrt(ex*ex+ey*ey);
count++;
}
}
}
}
PoseRecord* pos=dynamic_cast<PoseRecord*>(*it);
if (pos)
oldPose=pos->pose;
if (! err)
(*it)->write(os);
delete *it;
}
if (err)
cout << "average error" << totalError/count << endl;
}
}; //gfsreader
}; //GMapping;
