31 void TSequenceFeatureObservations::saveToTextFile(
32 const std::string& filName,
bool skipFirstCommentLine)
const 36 ofstream f(filName.c_str());
40 if (!skipFirstCommentLine)
41 f <<
"% FRAME_ID FEAT_ID X Y \n" 42 "%-------------------------------------\n";
44 for (
const auto& it : *
this)
45 f << setw(7) << it.id_frame << setw(7) << it.id_feature << setw(13)
46 << it.px.x << setw(11) << it.px.y << endl;
52 void TSequenceFeatureObservations::loadFromTextFile(
const std::string& filName)
58 ifstream f(filName.c_str());
62 unsigned int linNum = 0;
69 if (lin.empty() || lin[0] ==
'%')
continue;
78 if (!(
s >> camID >> featID >> px.
x >> px.
y))
80 "%s:%u: Error parsing line: '%s'", filName.c_str(), linNum,
89 bool TSequenceFeatureObservations::saveAsSBAFiles(
95 std::map<TLandmarkID, std::map<TCameraPoseID, TPixelCoordf>> obs_by_point;
100 std::map<TCameraPoseID, TPixelCoordf>& m = obs_by_point[o.
id_feature];
105 ofstream f(pts_file.c_str());
106 if (!f.is_open())
return false;
108 f <<
"# X Y Z nframes frame0 x0 y0 frame1 x1 y1 ...\n";
109 for (
auto it = obs_by_point.begin(); it != obs_by_point.end(); ++it)
111 const std::map<TCameraPoseID, TPixelCoordf>& m = it->second;
112 f << pts[it->first].
x <<
" " << pts[it->first].y <<
" " 113 << pts[it->first].z <<
" " << m.size() <<
" ";
115 f << itO.first <<
" " << itO.second.x <<
" " << itO.second.y <<
" ";
119 ofstream fc(cams_file.c_str());
120 if (!fc.is_open())
return false;
122 for (
const auto& pos : cams)
125 fc <<
p.m_quat[0] <<
" " <<
p.m_quat[1] <<
" " <<
p.m_quat[2] <<
" " 126 <<
p.m_quat[3] <<
" " <<
p.x() <<
" " <<
p.y() <<
" " <<
p.z()
136 size_t TSequenceFeatureObservations::removeFewObservedFeatures(
137 size_t minNumObservations)
144 map<TLandmarkID, size_t> numViews;
145 for (
auto& it : *
this) numViews[it.id_feature]++;
150 if (numViews[(*
this)[idx].id_feature] < minNumObservations)
164 void TSequenceFeatureObservations::decimateCameraFrames(
165 const size_t decimate_ratio)
168 if (decimate_ratio == 1)
return;
171 set<TCameraPoseID> frameIDs;
173 frameIDs.insert(it->id_frame);
176 for (
auto it = frameIDs.begin(); it != frameIDs.end();)
181 for (
size_t d = 0; d < decimate_ratio - 1 && it != frameIDs.end(); d++)
187 newLst.reserve(
BASE::size() / decimate_ratio);
189 if (frameIDs.find(it->id_frame) != frameIDs.end())
190 newLst.push_back(*it);
198 void TSequenceFeatureObservations::compressIDs(
199 std::map<TCameraPoseID, TCameraPoseID>* old2new_camIDs,
200 std::map<TLandmarkID, TLandmarkID>* old2new_lmIDs)
203 std::map<TCameraPoseID, TCameraPoseID> camIDs;
204 std::map<TLandmarkID, TLandmarkID> lmIDs;
211 if (lmIDs.find(f_ID) == lmIDs.end())
216 lmIDs[f_ID] = nextID;
218 if (camIDs.find(c_ID) == camIDs.end())
223 camIDs[c_ID] = nextID;
230 for (
size_t i = 0; i < N; ++i)
232 newLst[i].id_feature = lmIDs[(*this)[i].id_feature];
233 newLst[i].id_frame = camIDs[(*this)[i].id_frame];
234 newLst[i].px = (*this)[i].px;
241 if (old2new_camIDs) old2new_camIDs->swap(camIDs);
242 if (old2new_lmIDs) old2new_lmIDs->swap(lmIDs);
TLandmarkID id_feature
A unique ID of this feature.
uint64_t TCameraPoseID
Unique IDs for camera frames (poses)
uint64_t TFeatureID
Definition of a feature ID.
#define THROW_EXCEPTION(msg)
uint64_t TLandmarkID
Unique IDs for landmarks.
One feature observation entry, used within sequences with TSequenceFeatureObservations.
A pair (x,y) of pixel coordinates (subpixel resolution).
A complete sequence of observations of features from different camera frames (poses).
std::vector< mrpt::poses::CPose3D > TFramePosesVec
A list of camera frames (6D poses), which assumes indexes are unique, consecutive IDs...
std::list< T >::iterator erase_return_next(std::list< T > &cont, typename std::list< T >::iterator &it)
Calls the standard "erase" method of a STL container, but also returns an iterator to the next elemen...
static std::string & trim(std::string &s)
Classes for computer vision, detectors, features, etc.
A class used to store a 3D pose as a translation (x,y,z) and a quaternion (qr,qx,qy,qz).
#define ASSERT_ABOVEEQ_(__A, __B)
GLsizei const GLchar ** string
mrpt::img::TPixelCoordf px
The pixel coordinates of the observed feature.
This is the global namespace for all Mobile Robot Programming Toolkit (MRPT) libraries.
const_iterator begin() const
TCameraPoseID id_frame
A unique ID of a "frame" (camera position) from where the feature was observed.
GLenum GLsizei GLenum format
std::vector< mrpt::math::TPoint3D > TLandmarkLocationsVec
A list of landmarks (3D points), which assumes indexes are unique, consecutive IDs.
#define THROW_EXCEPTION_FMT(_FORMAT_STRING,...)
void clear()
Clear the contents of this container.