# Use std::count to count equal values in a pair of arrays

Given a pair of equal length arrays . .

``````void someFunc (const float **inputChannelData)
{
const float* L = inputChannelData[0];
const float* R = inputChannelData[1];
...
``````

I can see that it is pretty easy to count the number of occurrences of a constant value using `std::count` . .

``````std::count(L, L+someIntegerOffset, 0.0f)
``````

... but is there a standard algorithm (or idiom) that counts the element-wise (same index in each array) number of identical values in two arrays?

A Matlab equivalent would look like `sum(L==R)`

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`std::count` has a predicate form `std::count_if`, and documentation suggest it gets the argument by lvalue.

So I believe I could hack together a lambda that captures the two arrays, from &arg gets the distance/index, then checks both values. I doubt I would use it that way though instead of old-fashioned for loop.

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You can use `zip` for this, look here Sequence-zip function for c++11?

And then `count_if` with predicate, that tuple has only identical elements.

Also, you can simply create array of pairs and do the same.

Something like this for count with pairs.

``````void someFunc(const float** inputChannelData, size_t offset)
{
const float* R = inputChannelData[0];
const float* L = inputChannelData[1];
std::vector<std::pair<int, int>> pairs;
std::transform(L, L + offset, R, std::back_inserter(pairs),
[](float l, float r)
{
return std::make_pair(l, r);
});
size_t equal_pairs = std::count_if(pairs.begin(), pairs.end(),
[](const std::pair<float, float>& p)
{
return p.first == p.second;
});
}
``````
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