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I am representing map ( matrix rows x columns ) with bits using bitset from stl or dynamic_bitset<> from boost ( I can use whatever I want ). I need to get submatrix of that matrix with smaller size( for example a(2,2) a(2,3) a(3,2) a(3,3) there is size 2 ). Is there any efficient structure for representing matrix with bits and getting submatrix from startindex and length without iteration ?

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Same concept as Boost range and slice. Not sure about exact implementation. – Parakram Majumdar Jun 27 '12 at 8:12

1 Answer 1

up vote 2 down vote accepted

It is possible to efficiently share data between matrices and submatrices. The trick is to track three variables in your class.

  • row_stride
  • start
  • data

The data needs to be a shared_ptr like structure so that the underlying data can be destroyed once you are done with it. start will be a pointer into the data referenced by data, row_stride tells you how far to move to get to the next row.

Additional things you might like to track are

  • column stride (This can allow you to take other interesting views into the matrix, and to support transpose efficiently).
  • row and column length - these can be handy for debugging or if you want to make your loops, and multiplies easier to work with.

Here's how this might look for a non-bit based approach (I've omitted much .. but hopefully you get the gist).

template<typename T>
struct MatrixData
   T * data;
   explicit MatrixData( size_t N ) { new T[N]; }
   ~MatrixData() { delete [] data; }
    MatrixData( const MatrixData & );
    MatrixData& operator=( const MatrixData & );

template<typename T>
class Matrix
    Matrix(size_t nni, size_t nnj) :
      data( new MatrixData( nni*nnj ) ),

    T operator()( size_t i, size_t j)
       assert( i < ni );
       assert( j < nj );
       return start + i * col_stride + j * row_stride;

    Matrix submatrix( size_t i_start, size_t j_start, size_t new_ni, size_t new_nj )
       assert( i_start + new_ni < ni );
       assert( j_start + new_nj < nj );

       Matrix retval(*this);
       retval.start += i_start * col_stride + j_start * row_stride; = new_ni;
       retval.nj = new_nj;
       return retval;

    Matrix transpose()
       Matrix retval(*this);

    shared_ptr<MatrixData> data;
    T* start;
    size_t ni;
    size_t nj;
    size_t row_stride;
    size_t col_stride;


Making this work for a bit based version would mean changing the MatrixData to hold one of the bot based structures, changing start to be an index into the structure and changing your operator() to access the data correctly.

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