20 #if EIGEN_VERSION_AT_LEAST(3,1,0) // Requires Eigen>=3.1 21 # include <Eigen/SparseCore> 22 # include <Eigen/SparseQR> 31 COutputLogger(
"GMRF"),
32 m_enable_profiler(false)
91 Eigen::VectorXd & solved_x_inc,
92 Eigen::VectorXd * solved_variances
99 #if EIGEN_VERSION_AT_LEAST(3,1,0) 103 solved_x_inc.setZero(
n);
107 const size_t m = m1 + m2;
113 std::vector<Eigen::Triplet<double> > A_tri;
114 A_tri.reserve(m1 + 2 * m2);
119 int edge_counter = 0;
124 const double w = std::sqrt(e->getInformation());
126 e->evalJacobian(dr_dx);
127 const int node_id = e->node_id;
128 A_tri.push_back(Eigen::Triplet<double>(edge_counter, node_id,
w*dr_dx));
130 g[edge_counter] -=
w*e->evaluateResidual();
138 const double w = std::sqrt(e->getInformation());
139 double dr_dxi, dr_dxj;
140 e->evalJacobian(dr_dxi, dr_dxj);
141 const int node_id_i = e->node_id_i, node_id_j = e->node_id_j;
142 A_tri.push_back(Eigen::Triplet<double>(edge_counter, node_id_i,
w*dr_dxi));
143 A_tri.push_back(Eigen::Triplet<double>(edge_counter, node_id_j,
w*dr_dxj));
145 g[edge_counter] -=
w*e->evaluateResidual();
153 Eigen::SparseMatrix<double> A(m,
n);
157 A.setFromTriplets(A_tri.begin(), A_tri.end());
163 Eigen::SparseQR<Eigen::SparseMatrix<double>, Eigen::COLAMDOrdering<int> > solver;
168 solved_x_inc = solver.solve(
g);
173 if (solved_variances)
177 solved_variances->resize(
n);
183 MRPT_TODO(
"Use compressed access instead of coeff() below");
185 Eigen::SparseMatrix<double> UT = solver.matrixR();
186 Eigen::SparseMatrix<double> solved_covariance(
n,
n);
187 solved_covariance.reserve(UT.nonZeros());
190 const int show_progress_steps = std::max(
int(20),
int(
n / 20));
191 for (
int l =
n - 1; l >= 0; l--)
193 if (!(l % show_progress_steps))
197 double subSigmas = 0.0;
198 for (
size_t j = l + 1; j <
n; j++)
200 if (UT.coeff(l, j) != 0)
206 for (
size_t i = l + 1; i <= j; i++)
208 if (UT.coeff(l, i) != 0)
210 sum += UT.coeff(l, i) * solved_covariance.coeff(i, j);
214 for (
size_t i = j + 1; i <
n; ++i)
216 if (UT.coeff(l, i) != 0)
218 sum += UT.coeff(l, i) * solved_covariance.coeff(j, i);
222 solved_covariance.insert(l, j) = (-
sum / UT.coeff(l, l));
223 subSigmas += UT.coeff(l, j) * solved_covariance.coeff(l, j);
227 solved_covariance.insert(l, l) = (1 / UT.coeff(l, l)) * (1 / UT.coeff(l, l) - subSigmas);
232 for (
unsigned int i = 0; i <
n; i++)
234 const int idx = (int)solver.colsPermutation().indices().coeff(i);
235 const double variance = solved_covariance.coeff(i, i);
236 (*solved_variances)[idx] = variance;
void initialize(const size_t nodeCount)
Initialize the GMRF internal state and copy the prior factors.
Simple, scalar (1-dim) constraint (edge) for a GMRF.
Classes for serialization, sockets, ini-file manipulation, streams, list of properties-values, timewatch, extensions to STL.
bool eraseConstraint(const FactorBase &c)
Removes a constraint. Return true if found and deleted correctly.
#define THROW_EXCEPTION(msg)
Abstract graph and tree data structures, plus generic graph algorithms.
#define MRPT_LOG_DEBUG_FMT(_FMT_STRING,...)
std::deque< const BinaryFactorVirtualBase * > m_factors_binary
const_iterator find(const KEY &key) const
GLubyte GLubyte GLubyte GLubyte w
void enable(bool enabled=true)
std::deque< const UnaryFactorVirtualBase * > m_factors_unary
MRPT_TODO("Modify ping to run on Windows + Test this")
CONTAINER::Scalar sum(const CONTAINER &v)
Computes the sum of all the elements.
mrpt::utils::CTimeLogger m_timelogger
#define MRPT_LOG_DEBUG(_STRING)
void addConstraint(const UnaryFactorVirtualBase &listOfConstraints)
Insert constraints into the GMRF problem.
size_t m_numNodes
number of nodes in the graph
This is the global namespace for all Mobile Robot Programming Toolkit (MRPT) libraries.
A safe way to call enter() and leave() of a mrpt::utils::CTimeLogger upon construction and destructio...
double leave(const char *func_name)
End of a named section.
void updateEstimation(Eigen::VectorXd &solved_x_inc, Eigen::VectorXd *solved_variances=NULL)
void clear()
Reset state: remove all constraints and nodes.
Simple, scalar (1-dim) constraint (edge) for a GMRF.
void enter(const char *func_name)
Start of a named section.
#define MRPT_LOG_DEBUG_STREAM(__CONTENTS)
#define ASSERTMSG_(f, __ERROR_MSG)