# How to rewrite a nested loop using the C++ STL algorithms?

The loop is simple enough, but I just can't seem to wrap my head around using the STL algorithms to give the same nested loop below.

``````const int a_size = 5; // input
const int c_size = 2; // output
const int b_size = a_size * c_size; // multipliers

std::vector<float> a(a_size);
std::vector<float> b(b_size);
std::vector<float> c(c_size);

// fill a and b with data

// this nested loop
for(int i = 0; i<c_size; i++) {
c[i] = 0.0;
for(int k = 0; k<a_size; k++) {
c[i] += (a[k] * b[i*a_size+k]);
}
c[i] = sigmoid(c[i]);
}
``````

The reason why I would like to do this, is for the Boost.Compute library, which would do the calculations on the GPU using STL-like algorithms (std::transform, std::for_each, etc.).

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It seems that one can rewrite your algorithm using matrix operations. –  Siyuan Ren Oct 30 '13 at 9:23
I think it is better to allow users to write arbitrary kernels in `Boost.Compute` - it will be much more useful. For instance via `TaskGraph` method which I described here. –  Evgeny Panasyuk Oct 30 '13 at 9:26

I came up with:

``````auto i = 0;
generate(begin(c), end(c), [&i, &a, &b]
{
return sigmoid(inner_product
(
begin(a), end(a),
begin(b) + distance(begin(a), end(a)) * i++, 0.f
));
});
``````

But it does not look pretty well - probably in such case I would prefer to write my own algorithm.

Or use matrix-form. With `Eigen` library it will became:

``````MatrixXd b;
VectorXd a, c;
// ...
c = (b*a).unaryExpr(sigmoid);
``````
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It will take me a while to digest that. Never heard of Eigen, does it support computations on the GPU? –  user1973386 Oct 30 '13 at 10:21
@user1973386 AFAIK - for the moment it does not support GPU. Though it does vectorization via intrinsics (SSE2, etc). I have just found following thing: `gpumatrix` - "A matrix and array library on GPU with interface compatible with Eigen" - I think it worth to look too. –  Evgeny Panasyuk Oct 30 '13 at 10:24
Too bad it does not support OpenCL just yet, but it's planned. I'll keep track of that library :). –  user1973386 Oct 30 '13 at 10:30
@nijansen As I understand from code-sample - It just provides types similar to GLSL for C++, but not does computations on GPU. –  Evgeny Panasyuk Oct 30 '13 at 10:38

in fact the nested loop is algorithm std::inner_product.

``````auto first = std::begin( b );
auto increment = std::distance( std::begin( a ), std::end( a ) );
//,,

c[i] = std::inner_product( std::begin( a ), std::end( a ), first, 0 );
std::advance( first, increment );
``````

Instead of the outer loop you could use algorithm std::generate.

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