Boost
C++ Libraries
...one of the most highly
regarded and expertly designed C++ library projects in the
world.
— Herb Sutter and Andrei
Alexandrescu, C++
Coding Standards
Boost
C++ Libraries
...one of the most highly
regarded and expertly designed C++ library projects in the
world.
— Herb Sutter and Andrei
Alexandrescu, C++
Coding Standards
#include <boost/math/statistics/z_test.hpp> namespace boost { namespace math { namespace statistics { template<typename Real> std::pair<Real, Real> one_sample_z_test(Real sample_mean, Real sample_variance, Real num_samples, Real assumed_mean); template<typename ForwardIterator, typename Real = typename std::iterator_traits<ForwardIterator>::value_type> std::pair<Real, Real> one_sample_z_test(ForwardIterator begin, ForwardIterator end, Real assumed_mean); template<typename Container> std::pair<Real, Real> one_sample_z_test(Container const & v, typename Container::value_type assumed_mean); template<typename ForwardIterator, typename Real = typename std::iterator_traits<ForwardIterator>::value_type> std::pair<Real, Real> two_sample_z_test(ForwardIterator begin_1, ForwardIterator end_1, ForwardIterator begin_2, ForwardIterator begin_2); template<typename Container, typename Real = typename Container::value_type> std::pair<Real, Real> two_sample_z_test(Container const & u, Container const & v); template<typename ForwardIterator, typename Real = typename std::iterator_traits<ForwardIterator>::value_type> std::pair<Real, Real> paired_samples_z_test(ForwardIterator begin_1, ForwardIterator end_1, ForwardIterator begin_2, ForwardIterator begin_2); template<typename Container, typename Real = typename Container::value_type> std::pair<Real, Real> paired_samples_z_test(Container const & u, Container const & v); }}}
A set of C++11 compatible functions for various one sample and independent sample z-tests. The input can be any real number or set of real numbers. In the event that the input is an integer or a set of integers typename Real will be deduced as a double precision type.
A one-sample z-test is used to determine whether two population means are different when the variances are known and the sample sizes are large. The z-test is closely related to the t-test but can be performed using a large sample size.
where
with X being the test-statistic and µ0 being the assumed mean
the test statistic X can be assumed to come from a uniform real distribution. Since we wish to know if the sample mean deviates from the true mean in either direction, the test is two-tailed. Hence the p-value is straightforward to calculate from the uniform real distribution on n - 1 degrees of freedom, but nonetheless it is convenient to have it computed here.
An example usage is as follows:
#include <vector> #include <random> #include <boost/math/statistics/z_test.hpp> std::random_device rd; std::mt19937 gen{rd()}; std::normal_distribution<double> dis{0,1}; std::vector<double> v(1024); for (auto & x : v) { x = dis(gen); } auto [t, p] = boost::math::statistics::one_sample_z_test(v, 0.0);
The test statistic is the first element of the pair, and the p-value is the second element.
A two-sample z-test determines if the means of two sets of data have a statistically significant difference from each other.
An example of usage is as follows:
#include <vector> #include <random> #include <boost/math/statistics/z_test.hpp> std::random_device rd; std::mt19937 gen{rd()}; std::normal_distribution<double> dis{0,1}; std::vector<double> u(1024); std::vector<double> v(1024); for(std::size_t i = 0; i < u.size(); ++i) { u[i] = dis(gen); v[i] = dis(gen); } auto [t, p] = boost::math::statistics::two_sample_z_test(u, v);
Nota bene: The sample sizes for the two sets of data do not need to be equal.