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/*
* GenericProjectionFactorsCreator.h
*
* Created on: Oct 10, 2013
* Author: zkira
*/
#ifndef GENERICPROJECTIONFACTORSCREATOR_H_
#define GENERICPROJECTIONFACTORSCREATOR_H_
// Both relative poses and recovered trajectory poses will be stored as Pose3 objects
#include <gtsam/geometry/Pose3.h>
#include <gtsam/linear/NoiseModel.h>
#include <gtsam/nonlinear/NonlinearFactorGraph.h>
// Use a map to store landmark/smart factor pairs
#include <gtsam/base/FastMap.h>
#include <gtsam/slam/ProjectionFactor.h>
#include <gtsam/geometry/PinholeCamera.h>
//#include <boost/foreach.hpp>
//#include <boost/assign.hpp>
//#include <boost/assign/std/vector.hpp>
//#include <fstream>
//#include <iostream>
#include <utility>
namespace gtsam {
typedef GenericProjectionFactor<Pose3, Point3, Cal3_S2> ProjectionFactor;
typedef FastMap<Key, std::vector<boost::shared_ptr<ProjectionFactor> > > ProjectionFactorMap;
typedef FastMap<Key, int> OrderingMap;
template<class POSE, class LANDMARK, class CALIBRATION = Cal3_S2>
class GenericProjectionFactorsCreator {
public:
GenericProjectionFactorsCreator(const SharedNoiseModel& model,
const boost::shared_ptr<CALIBRATION>& K,
boost::optional<POSE> body_P_sensor = boost::none) :
noise_(model), K_(K), body_P_sensor_(body_P_sensor),
orderingMethod(0), totalNumMeasurements(0), numLandmarks(0) {
ordering = boost::make_shared<Ordering>(*(new Ordering()));
};
void add(Key landmarkKey,
Key poseKey, Point2 measurement, NonlinearFactorGraph &graph) {
bool debug = false;
// Create projection factor
ProjectionFactor::shared_ptr projectionFactor(new ProjectionFactor(measurement, noise_, poseKey, landmarkKey, K_));
// Check if landmark exists in mapping
ProjectionFactorMap::iterator pfit = projectionFactors.find(landmarkKey);
if (pfit != projectionFactors.end()) {
if (debug) fprintf(stderr,"Adding measurement to existing landmark\n");
// Add projection factor to list of projection factors associated with this landmark
(*pfit).second.push_back(projectionFactor);
} else {
if (debug) fprintf(stderr,"New landmark (%d)\n", pfit != projectionFactors.end());
// Create a new vector of projection factors
std::vector<ProjectionFactor::shared_ptr> projectionFactorVector;
projectionFactorVector.push_back(projectionFactor);
// Insert projection factor to NEW list of projection factors associated with this landmark
projectionFactors.insert( std::make_pair(landmarkKey, projectionFactorVector) );
// Add projection factor to graph
//graph.push_back(projectionFactor);
// We have a new landmark
numLandmarks++;
landmarkKeys.push_back( landmarkKey );
}
}
void update(NonlinearFactorGraph &graph, gtsam::Values::shared_ptr inputValues, gtsam::Values::shared_ptr outputValues) {
addTriangulatedLandmarks(graph, inputValues, outputValues);
updateOrdering(graph);
}
unsigned int getTotalNumMeasurements() { return totalNumMeasurements; }
unsigned int getNumLandmarks() { return numLandmarks; }
unsigned int getNumPoses() { return cameraPoseKeys.size(); }
boost::shared_ptr<Ordering> getOrdering() { return ordering; }
protected:
void updateTriangulations() {
}
void updateOrdering(NonlinearFactorGraph &graph) {
bool debug = false;
if (1||debug) std::cout << "Landmark Keys: " << landmarkKeys.size() << " Pose Keys: " << cameraPoseKeys.size() << std::endl;
if (1||debug) std::cout << "Pose ordering: " << ordering->size() << std::endl;
if (orderingMethod == 1) {
OrderingMap orderingMap;
// Add landmark keys first for ordering
BOOST_FOREACH(const Key& key, landmarkKeys) {
orderingMap.insert( std::make_pair(key, 1) );
}
//Ordering::iterator oit;
BOOST_FOREACH(const Key& key, cameraPoseKeys) {
orderingMap.insert( std::make_pair(key, 2) );
}
*ordering = graph.orderingCOLAMDConstrained(orderingMap);
}
if (1||debug) std::cout << "Optimizing landmark first " << ordering->size() << std::endl;
}
void addTriangulatedLandmarks(NonlinearFactorGraph &graph, gtsam::Values::shared_ptr loadedValues,
gtsam::Values::shared_ptr graphValues) {
bool debug = false;
std::vector<boost::shared_ptr<ProjectionFactor> > projectionFactorVector;
std::vector<boost::shared_ptr<ProjectionFactor> >::iterator vfit;
Point3 point;
Pose3 cameraPose;
ProjectionFactorMap::iterator pfit;
if (debug) graphValues->print("graphValues \n");
if (debug) std::cout << " # END VALUES: " << std::endl;
// Iterate through all landmarks
if (debug) std::cout << " PROJECTION FACTOR GROUPED: " << projectionFactors.size();
int numProjectionFactors = 0;
int numProjectionFactorsAdded = 0;
int numFailures = 0;
for (pfit = projectionFactors.begin(); pfit != projectionFactors.end(); pfit++) {
projectionFactorVector = (*pfit).second;
std::vector<Pose3> cameraPoses;
std::vector<Point2> measured;
// Iterate through projection factors
for (vfit = projectionFactorVector.begin(); vfit != projectionFactorVector.end(); vfit++) {
numProjectionFactors++;
if (debug) std::cout << "ProjectionFactor: " << std::endl;
if (debug) (*vfit)->print("ProjectionFactor");
// Iterate through poses
cameraPoses.push_back( loadedValues->at<Pose3>((*vfit)->key1() ) );
measured.push_back( (*vfit)->measured() );
}
// Triangulate landmark based on set of poses and measurements
if (debug) std::cout << "Triangulating: " << std::endl;
try {
point = triangulatePoint3(cameraPoses, measured, *K_);
if (debug) std::cout << "Triangulation succeeded: " << point << std::endl;
} catch( TriangulationUnderconstrainedException& e) {
if (debug) std::cout << "Triangulation failed because of unconstrained exception" << std::endl;
if (debug) {
BOOST_FOREACH(const Pose3& pose, cameraPoses) {
std::cout << " Pose: " << pose << std::endl;
}
}
numFailures++;
continue;
} catch( TriangulationCheiralityException& e) {
if (debug) std::cout << "Triangulation failed because of unconstrained exception" << std::endl;
if (debug) {
std::cout << "Triangulation failed because of cheirality exception" << std::endl;
BOOST_FOREACH(const Pose3& pose, cameraPoses) {
std::cout << " Pose: " << pose << std::endl;
}
}
numFailures++;
continue;
}
// Add projection factors and pose values
for (vfit = projectionFactorVector.begin(); vfit != projectionFactorVector.end(); vfit++) {
numProjectionFactorsAdded++;
if (debug) std::cout << "Adding factor " << std::endl;
if (debug) (*vfit)->print("Projection Factor");
graph.push_back( (*vfit) );
if (!graphValues->exists<Pose3>( (*vfit)->key1()) && loadedValues->exists<Pose3>((*vfit)->key1())) {
graphValues->insert((*vfit)->key1(), loadedValues->at<Pose3>((*vfit)->key1()));
cameraPoseKeys.push_back( (*vfit)->key1() );
}
}
// Add landmark value
if (debug) std::cout << "Adding value " << std::endl;
graphValues->insert( projectionFactorVector[0]->key2(), point); // add point;
landmarkKeys.push_back( projectionFactorVector[0]->key2() );
}
if (1||debug) std::cout << " # PROJECTION FACTORS CALCULATED: " << numProjectionFactors;
if (1||debug) std::cout << " # PROJECTION FACTORS ADDED: " << numProjectionFactorsAdded;
if (1||debug) std::cout << " # FAILURES: " << numFailures;
}
const SharedNoiseModel noise_; ///< noise model used
///< (important that the order is the same as the keys that we use to create the factor)
boost::shared_ptr<CALIBRATION> K_; ///< shared pointer to calibration object
boost::optional<POSE> body_P_sensor_; ///< The pose of the sensor in the body frame
std::vector<Key> cameraPoseKeys;
std::vector<Key> landmarkKeys;
ProjectionFactorMap projectionFactors;
boost::shared_ptr<Ordering> ordering;
// orderingMethod: 0 - COLAMD, 1 - landmark first, then COLAMD on poses (constrained ordering)
int orderingMethod;
unsigned int totalNumMeasurements;
unsigned int numLandmarks;
unsigned int numPoses;
};
}
#endif /* SMARTPROJECTIONFACTORSCREATOR_H_ */
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