# Get submatrix of matrix with smaller size

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

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; }
private:
MatrixData( const MatrixData & );
MatrixData& operator=( const MatrixData & );
};

template<typename T>
class Matrix
{
Matrix(size_t nni, size_t nnj) :
data( new MatrixData( nni*nnj ) ),
ni(nni),
nj(nnj),
row_stride(ni),
col_stride(1)
{
}

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;
retval.ni = new_ni;
retval.nj = new_nj;
return retval;
}

Matrix transpose()
{
Matrix retval(*this);
std::swap(retval.ni,retval.nj);
std::swap(retval.row_stride,retval.col_stride);
}

private:
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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