eigen/doc/echelon.cpp
Benoit Jacob 6f09d3a67d - many updates after Cwise change
- fix compilation in product.cpp with std::complex
- fix bug in MatrixBase::operator!=
2008-07-08 07:56:01 +00:00

122 lines
3.3 KiB
C++

#include <Eigen/Core>
USING_PART_OF_NAMESPACE_EIGEN
namespace Eigen {
/* Echelon a matrix in-place:
*
* Meta-Unrolled version, for small fixed-size matrices
*/
template<typename Derived, int Step>
struct unroll_echelon
{
enum { k = Step - 1,
Rows = Derived::RowsAtCompileTime,
Cols = Derived::ColsAtCompileTime,
CornerRows = Rows - k,
CornerCols = Cols - k
};
static void run(MatrixBase<Derived>& m)
{
unroll_echelon<Derived, Step-1>::run(m);
int rowOfBiggest, colOfBiggest;
m.template corner<CornerRows, CornerCols>(BottomRight)
.cwise().abs()
.maxCoeff(&rowOfBiggest, &colOfBiggest);
m.row(k).swap(m.row(k+rowOfBiggest));
m.col(k).swap(m.col(k+colOfBiggest));
m.template corner<CornerRows-1, CornerCols>(BottomRight)
-= m.col(k).template end<CornerRows-1>()
* (m.row(k).template end<CornerCols>() / m(k,k));
}
};
template<typename Derived>
struct unroll_echelon<Derived, 0>
{
static void run(MatrixBase<Derived>& m) {}
};
/* Echelon a matrix in-place:
*
* Non-unrolled version, for dynamic-size matrices.
* (this version works for all matrices, but in the fixed-size case the other
* version is faster).
*/
template<typename Derived>
struct unroll_echelon<Derived, Dynamic>
{
static void run(MatrixBase<Derived>& m)
{
for(int k = 0; k < m.diagonal().size() - 1; k++)
{
int rowOfBiggest, colOfBiggest;
int cornerRows = m.rows()-k, cornerCols = m.cols()-k;
m.corner(BottomRight, cornerRows, cornerCols)
.cwise().abs()
.maxCoeff(&rowOfBiggest, &colOfBiggest);
m.row(k).swap(m.row(k+rowOfBiggest));
m.col(k).swap(m.col(k+colOfBiggest));
m.corner(BottomRight, cornerRows-1, cornerCols)
-= m.col(k).end(cornerRows-1) * (m.row(k).end(cornerCols) / m(k,k));
}
}
};
using namespace std;
template<typename Derived>
void echelon(MatrixBase<Derived>& m)
{
const int size = DiagonalCoeffs<Derived>::SizeAtCompileTime;
const bool unroll = size <= 4;
unroll_echelon<Derived, unroll ? size-1 : Dynamic>::run(m);
}
template<typename Derived>
void doSomeRankPreservingOperations(MatrixBase<Derived>& m)
{
for(int a = 0; a < 3*(m.rows()+m.cols()); a++)
{
double d = ei_random<double>(-1,1);
int i = ei_random<int>(0,m.rows()-1); // i is a random row number
int j;
do {
j = ei_random<int>(0,m.rows()-1);
} while (i==j); // j is another one (must be different)
m.row(i) += d * m.row(j);
i = ei_random<int>(0,m.cols()-1); // i is a random column number
do {
j = ei_random<int>(0,m.cols()-1);
} while (i==j); // j is another one (must be different)
m.col(i) += d * m.col(j);
}
}
} // namespace Eigen
using namespace std;
int main(int, char **)
{
srand((unsigned int)time(0));
const int Rows = 6, Cols = 4;
typedef Matrix<double, Rows, Cols> Mat;
const int N = Rows < Cols ? Rows : Cols;
// start with a matrix m that's obviously of rank N-1
Mat m = Mat::identity(Rows, Cols); // args just in case of dyn. size
m.row(0) = m.row(1) = m.row(0) + m.row(1);
doSomeRankPreservingOperations(m);
// now m is still a matrix of rank N-1
cout << "Here's the matrix m:" << endl << m << endl;
cout << "Now let's echelon m (repeating many times for benchmarking purposes):" << endl;
for(int i = 0; i < 1000000; i++) echelon(m);
cout << "Now m is:" << endl << m << endl;
}