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There is a function, accepting 2D-array:

void foo ( double ** p ) 
{ /*writing some data into p*/ }

I wouldn't like to pass raw 2D array into this function because i don't want to manage memory calling new and delete. Also i wouldn't like to change function signature to void foo ( std::vector< std::vector<double> >& ). And i can't make foo as a template function (in my project it's a COM-interface method).

I would like to pass some RAII object decoring it raw-one, like

void foo ( double * p ){}
std::vectore<double> v(10);
p( &v[0] );

Is there way to do this for 2D-arrays? I tried

std::vector< std::vector<int> > v;
foo( &v[0][0] )

and

std::vector< std::tr1::shared_ptr<int> > v;

but i get compile errors error C2664 - cannot convert parameter.

Also, can one be sure that raw address arithmetics inside the function works ok in this case?

No C++11, the sizes of 2D-array are known.

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2 Answers 2

up vote 1 down vote accepted

One possible solution is to change:

std::vector< std::vector<int> > v;
foo( &v[0][0] )

to

std::vector< std::vector<int> > v;
std::vector<int*> v_ptr;
for (...) {
    v_ptr[i] = &v[i][0];
}
foo( &v_ptr[0])
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Thank you, at least my compilator processes it with no errors! I'd like to know, can one be sure about using address arithmetics inside foo? –  fogbit Aug 17 '12 at 12:29
    
@fogbit Yes, this should be fine –  Andreas Brinck Aug 17 '12 at 12:59

Although Andreas already gave an answer to your question that solves your particular problem, I would like to point out, that although that works, it is probably not what you want to do.

As you are using C++ (and not an easier to use language), I am assuming that you care about performance. In that case your approach is in all likelihood wrong from the beginning, as double** represents an array of arrays (or rather can represent) and not a 2D array. Why is this bad? Because, just as with the std::vector< std::vector<int> > example, multiple allocations are required, and the resulting memory is non-contiguous (which is bad for the cache) unlike a double array[N][M].

For 2D arrays you should in fact use 1D arrays with index calculation, which is far more cache-friendly. This of course does not allow [x][y]-style indexing (instead you have to use [x+N*y] or [y+M*x], depending on your choice of "Fortran order" or "C order"), but avoids cache issues and only requires a single allocation (and a simple double*pointer).

If you are iterating all elements of the array as in

for(unsigned x = 0; x < N; ++x) for(unsigned y = 0; y < M; ++y)
{
    unsigned idx = y + M * x;
    p[idx] = bar(x, y); // equivalent to p[x][y] = bar(x,y) in the array-of-arrays case
}

You can even avoid the multiplications as this is basically just a 1D iteration with additional generation of 2D indices

for(unsigned x = 0, idx = 0; x < N; ++x) for(unsigned y = 0; y < M; ++y, ++idx)
{
    p[idx] = bar(x, y);
}
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