9

I am using Eigen library for my project. I am searching how to remove a certain row or column from the given matrix in Eigen. I am not successful.

MatrixXd A = X1 X2 X3 X4
             Y1 Y2 Y3 Y4
             Z1 Z2 Z3 Z4
             A1 A2 A3 A4
MatrixXd Atransform = X1 X2 X4
                      Y1 Y2 Y4
                      Z1 Z2 Z4
                      A1 A2 A4
enter code here

other than iterating through whole matrix or by using block operations on matrix A . Is there a method to do it simply.

  • 1
    I don't think there is a method other than using the block operations. – Jakob Nov 14 '12 at 9:01
12

Using the block functions is a bit cleaner:

void removeRow(Eigen::MatrixXd& matrix, unsigned int rowToRemove)
{
    unsigned int numRows = matrix.rows()-1;
    unsigned int numCols = matrix.cols();

    if( rowToRemove < numRows )
        matrix.block(rowToRemove,0,numRows-rowToRemove,numCols) = matrix.block(rowToRemove+1,0,numRows-rowToRemove,numCols);

    matrix.conservativeResize(numRows,numCols);
}

void removeColumn(Eigen::MatrixXd& matrix, unsigned int colToRemove)
{
    unsigned int numRows = matrix.rows();
    unsigned int numCols = matrix.cols()-1;

    if( colToRemove < numCols )
        matrix.block(0,colToRemove,numRows,numCols-colToRemove) = matrix.block(0,colToRemove+1,numRows,numCols-colToRemove);

    matrix.conservativeResize(numRows,numCols);
}
  • This should generally work, but it is not guaranteed that Eigen will copy blocks from left to right (or top to bottom), thus you could theoretically get aliasing problems. – chtz Dec 29 '16 at 22:43
  • @chtz: to avoid this problem use the .eval() function. – davidhigh Apr 26 '17 at 7:49
1

To improve Andrew's answer, use bottomRows/rightCols.

void removeRow(Eigen::MatrixXd& matrix, unsigned int rowToRemove)
{
    unsigned int numRows = matrix.rows()-1;
    unsigned int numCols = matrix.cols();

    if( rowToRemove < numRows )
        matrix.block(rowToRemove,0,numRows-rowToRemove,numCols) = matrix.bottomRows(numRows-rowToRemove);

    matrix.conservativeResize(numRows,numCols);
}

void removeColumn(Eigen::MatrixXd& matrix, unsigned int colToRemove)
{
    unsigned int numRows = matrix.rows();
    unsigned int numCols = matrix.cols()-1;

    if( colToRemove < numCols )
        matrix.block(0,colToRemove,numRows,numCols-colToRemove) = matrix.rightCols(numCols-colToRemove);

    matrix.conservativeResize(numRows,numCols);
}
0

I'm very new in c++ but this code works in may application.

It works only for full dynamic matrixs but can adapt it.

If anyone has a better way please show me i really want to learn.

template<typename ScalarType>
void MatrixXdRemoveCol(Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> *mat, int colindex)
{
    Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> *auxmat = new Eigen::Matrix<ScalarType,-1,-1,0,-1,-1>;

    *auxmat = *mat;

    mat->resize(mat->rows(),mat->cols()-1);

    int rightColsSize = auxmat->cols()-colindex-1;

    mat->leftCols(colindex) = auxmat->leftCols(colindex);
    mat->rightCols(rightColsSize) = auxmat->rightCols(rightColsSize);
}

template<typename ScalarType>
void MatrixXdRemoveCols(Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> *mat, std::vector<int>* cols)
{
    for(auto iter = cols->rbegin();iter != cols->rend();iter++)
        MatrixXdRemoveCol<ScalarType>(mat,*iter);
}

template<typename ScalarType>
void MatrixXdRemoveRow(Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> *mat, int rowindex)
{
    Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> *auxmat = new Eigen::Matrix<ScalarType,-1,-1,0,-1,-1>;

    *auxmat = *mat;

    mat->resize(mat->rows()-1,mat->cols());

    int BottomRowsSize = auxmat->rows()-rowindex-1;

    mat->topRows(rowindex) = auxmat->topRows(rowindex);
    mat->bottomRows(BottomRowsSize) = auxmat->bottomRows(BottomRowsSize);
}
  • 2
    I'm unfamiliar with eigen library, but from general c++ standpoint looks like you have memory leaks in your functions: you allocate auxmats but don't delete them. – cybevnm Jan 11 '14 at 21:26
  • Generally, you should avoid new when writing C++ -- unless you really need to and you know what you are doing. Instead just write Eigen::Matrix<ScalarType,-1,-1,0,-1,-1> auxmat = mat (and pass mat by reference and not by pointer) – chtz Dec 29 '16 at 22:40
0

You may find the following static version better for certain uses (and more in-line with the spirit of Eigen's compile-time efficiency). In this case, you will be creating a new matrix without the row. A similar function can be constructed for columns using .leftCols() .rightCols()

template<typename T>
inline constexpr auto removeRow(const Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic>& matrix, const int& rowNum)
{
    return (Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic>(matrix.rows() - 1, matrix.cols())
        << static_cast<Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic>>(matrix.topRows(rowNum - 1)),
        static_cast<Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic>>(matrix.bottomRows(matrix.rows() - rowNum))).finished();
}

Enjoy!

0

I know it is an old question but it seems that Eigen now support creating a submatrix defined by the rows and columns indexed: http://eigen.tuxfamily.org/bz/show_bug.cgi?id=329 http://eigen.tuxfamily.org/dox-devel/classEigen_1_1DenseBase.html#a0b44220621cd59a75cd0f48cc499518f

It is just not in the documentation it seems...

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