NAG Library Manual, Mark 27.3
```/* nag::ad::g02aa Tangent Example Program.
*/

#include <dco.hpp>
#include <iostream>

std::stringstream filecontent("4 \
2.0   -1.0    0.0    0.0 \
-1.0    2.0   -1.0    0.0 \
0.0   -1.0    2.0   -1.0 \
0.0    0.0   -1.0    2.0 ");

// Function which calls NAG AD routines.
template <typename T> void func(std::vector<T> &g, std::vector<T> &x);

// Driver with tangent calls.
// Computes the Nearest Correlation Matrix X for an input matrix G.
// Also, computes the sum of all Jacobian elements of dX/dG.
void driver(const std::vector<double> &gv,
std::vector<double> &      xv,
double &                   dxdg);

int main()
{
std::cout << " nag::ad::g02aa Tangent Example Program Results\n";

Integer n;
filecontent >> n;

// Input Matrix G, whose NCM we want to compute
std::vector<double> gv(n * n);
for (int i = 0; i < n; ++i)
{
for (int j = 0; j < n; ++j)
{
filecontent >> gv[i + j * n];
}
}

// Output NCM X
std::vector<double> xv(n * n);

// Sum of all Jacobian elements dX/dG
double dxdg;

driver(gv, xv, dxdg);

std::cout.setf(std::ios::scientific, std::ios::floatfield);
std::cout.precision(5);
std::cout << "\n Nearest Correlation Matrix:\n\n";
for (int i = 0; i < n; i++)
{
for (int j = 0; j < n; j++)
{
std::cout.width(13);
std::cout << xv[i + j * n];
}
std::cout << std::endl;
}

std::cout << "\n Derivatives calculated: First order tangents\n";

// Print derivatives of NCM X w.r.t. input matrix G
std::cout << "\n Sum of Jacobian elements of NCM X w.r.t. input matrix G:\n";
std::cout << " sum_ij [dX/dG]_ij = " << dxdg << std::endl;

return 0;
}

// Driver with tangent calls.
// Computes the Nearest Correlation Matrix X for an input matrix G.
// Also, computes the sum of all Jacobian elements of dX/dG.
void driver(const std::vector<double> &gv,
std::vector<double> &      xv,
double &                   dxdg)
{
using T = dco::gt1s<double>::type;

std::vector<T> g(gv.size());
dco::value(g)      = gv;
dco::derivative(g) = std::vector<double>(gv.size(), 1.0);

// Variable to differentiate
std::vector<T> x(xv.size());

// Call the NAG AD Lib functions
func(g, x);
// Extract the computed NCM
xv = dco::value(x);

// Sum of the tangents of x
dxdg = 0.0;
for (int i = 0; i < x.size(); i++)
{
dxdg += dco::derivative(x[i]);
}
}

// Function which calls NAG AD routines.
template <typename T> void func(std::vector<T> &g, std::vector<T> &x)
{
Integer n   = sqrt(g.size());
Integer pdg = n;
Integer pdx = n;

// Set up method parameters
T       errtol = 1.00e-7;
Integer maxits = 200;
Integer maxit  = 10;
// Output variables
Integer iter, feval;
T       nrmgrd;
// Create AD configuration data object
Integer ifail     = 0;