Esempio n. 1
0
 inline bool
 check_pos_definite(const char* function,
                    const char* name,
                    const Eigen::LLT<Derived>& cholesky) {
   if (cholesky.info() != Eigen::Success
       || !(cholesky.matrixLLT().diagonal().array() > 0.0).all())
     domain_error(function, "Cholesky decomposition of", " failed", name);
   return true;
 }
Esempio n. 2
0
/* ************************************************************************* */
bool choleskyPartial(Matrix& ABC, size_t nFrontal) {

  const bool debug = ISDEBUG("choleskyPartial");

  assert(ABC.rows() == ABC.cols());
  assert(ABC.rows() >= 0 && nFrontal <= size_t(ABC.rows()));

  const size_t n = ABC.rows();

  // Compute Cholesky factorization of A, overwrites A.
  tic(1, "lld");
	Eigen::LLT<Matrix, Eigen::Upper> llt = ABC.block(0,0,nFrontal,nFrontal).selfadjointView<Eigen::Upper>().llt();
  ABC.block(0,0,nFrontal,nFrontal).triangularView<Eigen::Upper>() = llt.matrixU();
  toc(1, "lld");

  if(debug) cout << "R:\n" << Eigen::MatrixXd(ABC.topLeftCorner(nFrontal,nFrontal).triangularView<Eigen::Upper>()) << endl;

  // Compute S = inv(R') * B
  tic(2, "compute S");
  if(n - nFrontal > 0) {
    ABC.topLeftCorner(nFrontal,nFrontal).triangularView<Eigen::Upper>().transpose().solveInPlace(
        ABC.topRightCorner(nFrontal, n-nFrontal));
  }
  if(debug) cout << "S:\n" << ABC.topRightCorner(nFrontal, n-nFrontal) << endl;
  toc(2, "compute S");

  // Compute L = C - S' * S
  tic(3, "compute L");
  if(debug) cout << "C:\n" << Eigen::MatrixXd(ABC.bottomRightCorner(n-nFrontal,n-nFrontal).selfadjointView<Eigen::Upper>()) << endl;
  if(n - nFrontal > 0)
    ABC.bottomRightCorner(n-nFrontal,n-nFrontal).selfadjointView<Eigen::Upper>().rankUpdate(
        ABC.topRightCorner(nFrontal, n-nFrontal).transpose(), -1.0);
  if(debug) cout << "L:\n" << Eigen::MatrixXd(ABC.bottomRightCorner(n-nFrontal,n-nFrontal).selfadjointView<Eigen::Upper>()) << endl;
  toc(3, "compute L");

	// Check last diagonal element - Eigen does not check it
	bool ok;
	if(llt.info() == Eigen::Success) {
		if(nFrontal >= 2) {
			int exp2, exp1;
			(void)frexp(ABC(nFrontal-2, nFrontal-2), &exp2);
			(void)frexp(ABC(nFrontal-1, nFrontal-1), &exp1);
			ok = (exp2 - exp1 < underconstrainedExponentDifference);
		} else if(nFrontal == 1) {
			int exp1;
			(void)frexp(ABC(0,0), &exp1);
			ok = (exp1 > -underconstrainedExponentDifference);
		} else {
			ok = true;
		}
	} else {
		ok = false;
	}

	return ok;
}
Esempio n. 3
0
 inline void check_pos_definite(const char* function, const char* name,
                                const Eigen::LLT<Derived>& cholesky) {
   if (cholesky.info() != Eigen::Success
       || !(cholesky.matrixLLT().diagonal().array() > 0.0).all())
     domain_error(function, "Matrix", " is not positive definite", name);
 }