lines 6-56 of file: introduction/exp_2_rev1.cpp

{xrst_begin exp_2_rev1.cpp}

exp_2: Verify First Order Reverse Sweep
#######################################

{xrst_spell_off}
{xrst_code cpp} */
# include <cstddef>                 // define size_t
# include <cmath>                   // prototype for fabs
extern bool exp_2_for0(double *v0); // computes zero order forward sweep
bool exp_2_rev1(void)
{  bool ok = true;

   // set the value of v0[j] for j = 1 , ... , 5
   double v0[6];
   ok &= exp_2_for0(v0);

   // initial all partial derivatives as zero
   double f_v[6];
   size_t j;
   for(j = 0; j < 6; j++)
      f_v[j] = 0.;

   // set partial derivative for f5
   f_v[5] = 1.;
   ok &= std::fabs( f_v[5] - 1. ) <= 1e-10; // f5_v5

   // f4 = f5( v1 , v2 , v3 , v4 , v2 + v4 )
   f_v[2] += f_v[5] * 1.;
   f_v[4] += f_v[5] * 1.;
   ok &= std::fabs( f_v[2] - 1. ) <= 1e-10; // f4_v2
   ok &= std::fabs( f_v[4] - 1. ) <= 1e-10; // f4_v4

   // f3 = f4( v1 , v2 , v3 , v3 / 2 )
   f_v[3] += f_v[4] / 2.;
   ok &= std::fabs( f_v[3] - 0.5) <= 1e-10; // f3_v3

   // f2 = f3( v1 , v2 , v1 * v1 )
   f_v[1] += f_v[3] * 2. * v0[1];
   ok &= std::fabs( f_v[1] - 0.5) <= 1e-10; // f2_v1

   // f1 = f2( v1 , 1 + v1 )
   f_v[1] += f_v[2] * 1.;
   ok &= std::fabs( f_v[1] - 1.5) <= 1e-10; // f1_v1

   return ok;
}
/* {xrst_code}
{xrst_spell_on}

{xrst_end exp_2_rev1.cpp}