# Efficient way of converting matlab matrix to array in c++

I have a Matlab code which I should convert to c++. In one file there are a lot of matrices and I want to convert them to arrays(or vectors). I need efficient way of converting those matrices.

``````f = [   -.000212080863  .000358589677   .002178236305   ...
-.004159358782  -.010131117538  .023408156762   ...
.028168029062   -.091920010549  -.052043163216  ...
.421566206729   .774289603740   .437991626228   ...
-.062035963906  -.105574208706  .041289208741   ...
.032683574283   -.019761779012  -.009164231153  ...
.006764185419   .002433373209   -.001662863769  ...
-.000638131296  .000302259520   .000140541149   ...
-.000041340484  -.000021315014  .000003734597   ...
.000002063806   -.000000167408  -.000000095158  ];
``````

I tried things like this but all my trials give some errors.

``````int* first;
first = new int[5];
first = {1,2,3,4,5};
``````

Note: I can put commas and change `[` to `{` manually.

Thanks,

-
I suggest you to use some linear algebra libraries like eigen –  Bibek Subedi Jul 11 '13 at 10:37
Could you explain a bit more, please? –  smttsp Jul 11 '13 at 10:38

If the value is constant (as in, you are happy to recompile for each time you want to change the values), then you can do:

``````double f[] = {  -.000212080863,  .000358589677,   .002178236305,   ... };
``````

(Note the addition of commas, and curly brackets instead of square ones).

If the values are changing, then you want to use a `vector<double> f;`, clean up the input a bit and use something like:

``````ifstream infile("numbers.txt");
while(infile >> value)
{
f.push_back(value);
}
``````
-

You can use something like this:

``````PMatrix MatrixData::factory(string parser){
typedef boost::tokenizer<boost::char_separator<char> > tokenizer;

// Verifica formattazione matrice

if (!((parser[0]=='{' && parser[parser.size()-1] == '}')||(parser[0]=='[' && parser[parser.size()-1] == ']')))
assert( (std::cout<<"Wrong matrix structure"<<std::endl, 0) );

// Verifica struttura matrice

boost::char_separator<char> row_sep("[]{};");
boost::char_separator<char> col_sep(",");
unsigned int row_number,col_number;

tokenizer::iterator rowtok_iter;
tokenizer::iterator coltok_iter;

row_number = 0;
tokenizer rowtokens(parser, row_sep);
for (rowtok_iter = rowtokens.begin();rowtok_iter != rowtokens.end(); ++rowtok_iter)
row_number++;

col_number = 0;
tokenizer coltokens(*rowtokens.begin(), col_sep);
col_number = std::distance(coltokens.begin(),coltokens.end());

//cout << row_number << " rows and " << col_number << " columns" << endl;

unsigned int active_row_col_number;
double* values = new double[col_number*row_number];
unsigned int i = 0;

for (rowtok_iter = rowtokens.begin();rowtok_iter != rowtokens.end(); ++rowtok_iter){
active_row_col_number = 0;
tokenizer coltokens1(*rowtok_iter, col_sep);
for (coltok_iter = coltokens1.begin();coltok_iter != coltokens1.end();++coltok_iter){
active_row_col_number++;
values[i]=strtod(coltok_iter->c_str(),0);
i++;
}
if (active_row_col_number!=col_number)
assert( (std::cout<<"Wrong matrix structure 1"<<std::endl, 0) );
}
PMatrix ret = MatrixData::factory(row_number,col_number,values);
delete[] values;
return ret;
}
``````

which directly parses a Matlab-formatted matrix from a string and puts the result into "values".

This is not the cleanest code you can imagine, but it can be cleaned up. It's using boost::tokenizer, as you can see. Hope it helps.

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It looks nice, but I don't want to read from matlab all the time, I want to convert it into c++ code once and no returning back to matlab again. –  smttsp Jul 11 '13 at 10:54
you don't want to read the matlab-formatted string, is that what you mean? Of course this doesn't read "from" matlab. you just call the function as in factory("{1,2,3,4,5}"); (it works with both matlab and c sintax) –  Stefano Falasca Jul 11 '13 at 11:12

If your compiler supports it, you could also use an initializer list

``````vector<double> f{ -.000212080863, .000358589677, ...} // replace elipses with other numerical values
``````

This will give you the advantage that you vector size is not stack limited. Keep in mind that matlab uses column order for matrices, so you need to take care when converting those.

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It doesnt support, this exists in c++11 compiler I thing, not the previous compilers –  smttsp Jul 13 '13 at 13:29