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Is there a way to calculate mean and standard deviation for a vector containing samples using boost? Or do I have to create an accumulator and feed the vector into it?

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Unclear question. –  phaedrus Sep 30 '11 at 22:05

3 Answers 3

up vote 20 down vote accepted

Using accumulators is the way to compute means and standard deviations in boost.

  accumulator_set<double, stats<tag::variance> > acc;
  for_each(a_vec.begin(), a_vec.end(), bind<void>(ref(acc), _1));

  cout << mean(acc) << endl;
  cout << sqrt(variance(acc)) << endl;
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If performance is important to you, and your compiler supports lambdas, the stdev calculation can be made faster and simpler: In tests with VS 2012 I've found that the following code is over 10 X quicker than the Boost code given in the chosen answer; it's also 5 X quicker than the safer version of the answer using standard libraries given above.

Note I'm using sample standard deviation, so the below code gives slightly different results (Why there is a Minus One in Standard Deviations)

double sum = std::accumulate(std::begin(v), std::end(v), 0.0);
double m =  sum / v.size();

double accum = 0.0;
std::for_each (std::begin(v), std::end(v), [&](const double d) {
    accum += (d - m) * (d - m);

double stdev = sqrt(accum / (v.size()-1));
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Thanks for sharing this answer even a year later. Now I come another year later and made this one generic for both the value type and the container type. See here (Note: I guess that my range-based for loop is as fast as your lambda code.) –  leemes Feb 3 at 3:07
what is the difference between using std::end(v) instead of v.end()? –  BananaCode May 3 at 20:28
The std::end() function was added by C++11 standard for cases when there is nothing like v.end(). The std::end can be overloaded for the less standard container -- see en.cppreference.com/w/cpp/iterator/end –  pepr Jun 22 at 19:16

I don't know if Boost has more specific functions, but you can do it with the standard library.

Given std::vector<double> v, this is the naive way:

double sum = std::accumulate(v.begin(), v.end(), 0.0);
double mean = sum / v.size();

double sq_sum = std::inner_product(v.begin(), v.end(), v.begin(), 0.0);
double stdev = std::sqrt(sq_sum / v.size() - mean * mean);

This is susceptible to overflow or underflow for huge or tiny values. A slightly better way to calculate the standard deviation is:

std::vector<double> diff(v.size());
std::transform(v.begin(), v.end(), diff.begin(),
               std::bind2nd(std::minus<double>(), mean));
double sq_sum = std::inner_product(diff.begin(), diff.end(), diff.begin(), 0.0);
double stdev = std::sqrt(sq_sum / v.size());
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Does the bottom section of code depend on top? I.e, is mean in the second section same as mean defined in first section? –  drb Nov 16 '11 at 20:30
Yes; obviously, the bottom part depends on the value of mean calculated in the top part. –  musiphil Nov 23 '11 at 7:31

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