/* nag::ad::e01be Tangent Over Tangent Example Program.
*/
#include <dco.hpp>
#include <iostream>
#include <nagad.h>
// Function which calls NAG AD routines.
template <typename T> void func(const T &xint, T &fint, T &dint);
// Driver with the tangent over tangent calls.
// Evaluates a piecewise cubic Hermite interpolant and computes function value
// and derivative at point xint.
// Also computes the sum of all Hessian elements d^2(fint, dint)/d(xint)^2.
void driver(const double &xint, double &fint, double &dint, double &d);
int main()
{
std::cout
<< "nag::ad::e01be Tangent Over Tangent Example Program Results\n\n";
// Point to interpolate at
double xint = 8.4;
// Interpolated function and derivative value
double fint, dint;
// Sum of Hessian elements
double d;
// Call driver
driver(xint, fint, dint, d);
// Print outputs
std::cout << " Derivatives calculated: Second order tangents\n";
std::cout << " Computational mode : algorithmic\n";
std::cout.setf(std::ios::scientific, std::ios::floatfield);
std::cout.precision(6);
std::cout << "\n fint = " << fint << std::endl;
std::cout << " dint = " << dint << std::endl;
// Print derivative
std::cout
<< "\n Sum of all Hessian elements of (fint, dint) w.r.t. interpolation point xint :\n";
std::cout << " sum_i [d^2(fint, dint) / d(xint)^2]_i = " << d << std::endl;
return 0;
}
// Driver with the tangent over tangent calls.
// Evaluates a piecewise cubic Hermite interpolant and computes function value
// and derivative at point xint.
// Also computes the sum of all Hessian elements d^2(fint, dint)/d(xint)^2.
void driver(const double &xintv, double &fintv, double &dintv, double &d)
{
using mode = dco::gt1s<dco::gt1s<double>::type>;
using T = mode::type;
// Variable to differentiate w.r.t.
T xint = xintv;
dco::derivative(dco::value(xint)) = 1.0;
dco::value(dco::derivative(xint)) = 1.0;
// Interpolated function and derivative value
T fint, dint;
// Call the NAG AD Lib functions
func(xint, fint, dint);
// Extract the computed solutions
fintv = dco::passive_value(fint);
dintv = dco::passive_value(dint);
// Tangents of fint and dint
d = dco::derivative(dco::derivative(fint)) +
dco::derivative(dco::derivative(dint));
}
// function which calls NAG AD Library routines
template <typename T> void func(const T &xint, T &fint, T &dint)
{
// Create AD configuration data object
Integer ifail = 0;
nag::ad::handle_t ad_handle;
// Initialize abscissa and ordinate data
std::vector<T> x{7.99, 8.09, 8.19, 8.70, 9.20, 10.00, 12.00, 15.00, 20.00};
std::vector<T> f{0.00000E+0, 0.27643E-4, 0.43750E-1, 0.16918E+0, 0.46943E+0,
0.94374E+0, 0.99864E+0, 0.99992E+0, 0.99999E+0};
// Local output of e01be; approximation of derivatives at points x
std::vector<T> d(x.size());
ifail = 0;
nag::ad::e01be(ad_handle, x.size(), x.data(), f.data(), d.data(), ifail);
// Interpolate at point x
ifail = 0;
nag::ad::e01bg(ad_handle, x.size(), x.data(), f.data(), d.data(), 1, &xint,
&fint, &dint, ifail);
ifail = 0;
}