# include # include # include # include # include # include using namespace std; # include "lagrange_interp_2d.hpp" # include "test_interp_2d.hpp" # include "r8lib.hpp" int main ( ); void test01 ( int prob, int m ); //****************************************************************************80 int main ( ) //****************************************************************************80 // // Purpose: // // MAIN is the main program for LAGRANGE_INTERP_2D_PRB. // // Discussion: // // LAGRANGE_INTERP_2D_PRB tests the LAGRANGE_INTERP_2D library. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 13 September 2012 // // Author: // // John Burkardt // { int i; int m; int m_test[5] = { 1, 2, 3, 4, 8 }; int m_test_num = 5; int prob; int prob_num; timestamp ( ); cout << "\n"; cout << "LAGRANGE_INTERP_2D_PRB:\n"; cout << " C++ version\n"; cout << " Test the LAGRANGE_INTERP_2D library.\n"; cout << " The R8LIB library is needed.\n"; cout << " This test also needs the TEST_INTERP_2D library.\n"; prob_num = f00_num ( ); // // Numerical tests. // for ( prob = 1; prob <= prob_num; prob++ ) { for ( i = 0; i < m_test_num; i++ ) { m = m_test[i]; test01 ( prob, m ); } } // // Terminate. // cout << "\n"; cout << "LAGRANGE_INTERP_2D_PRB:\n"; cout << " Normal end of execution.\n"; cout << "\n"; timestamp ( ); return 0; } //****************************************************************************80 void test01 ( int prob, int m ) //****************************************************************************80 // // Purpose: // // LAGRANGE_INTERP_2D_TEST01 tests LAGRANGE_INTERP_2D. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 13 September 2012 // // Author: // // John Burkardt // // Parameters: // // Input, int PROB, the problem number. // // Input, int M, the polynomial degree in each dimension. // { double app_error; int i; int ij; double int_error; int j; int mx; int my; int nd; int ni; double *xd; double *xd_1d; double *xi; double *xi_1d; double *yd; double *yd_1d; double *yi; double *yi_1d; double *zd; double *zdm; double *zi; mx = m; my = m; cout << "\n"; cout << "LAGRANGE_INTERP_2D_TEST01:\n"; cout << " Interpolate data from TEST_INTERP_2D problem #" << prob << "\n"; cout << " Using polynomial interpolant of product degree " << mx << " x " << my << "\n"; nd = ( mx + 1 ) * ( my + 1 ); cout << " Number of data points = " << nd << "\n"; xd_1d = r8vec_chebyspace_new ( mx + 1, 0.0, 1.0 ); yd_1d = r8vec_chebyspace_new ( my + 1, 0.0, 1.0 ); xd = new double[(mx+1)*(my+1)]; yd = new double[(mx+1)*(my+1)]; zd = new double[(mx+1)*(my+1)]; ij = 0; for ( j = 0; j < my + 1; j++ ) { for ( i = 0; i < mx + 1; i++ ) { xd[ij] = xd_1d[i]; yd[ij] = yd_1d[j]; ij = ij + 1; } } f00_f0 ( prob, nd, xd, yd, zd ); if ( nd <= 20 ) { r8vec3_print ( nd, xd, yd, zd, " X, Y, Z data:" ); } // // #1: Does interpolant match function at data points? // ni = nd; xi = new double[ni]; yi = new double[ni]; for ( i = 0; i < ni; i++ ) { xi[i] = xd[i]; yi[i] = yd[i]; } zi = lagrange_interp_2d ( mx, my, xd_1d, yd_1d, zd, ni, xi, yi ); if ( ni <= 20 ) { r8vec3_print ( ni, xi, yi, zi, " X, Y, Z interpolation:" ); } int_error = r8vec_norm_affine ( ni, zi, zd ) / ( double ) ( ni ); cout << "\n"; cout << " RMS data interpolation error = " << int_error << "\n"; delete [] xi; delete [] yi; delete [] zi; // // #2: Does interpolant approximate data at midpoints? // if ( 1 < nd ) { xi_1d = new double[mx]; yi_1d = new double[my]; for ( i = 0; i < mx; i++ ) { xi_1d[i] = 0.5 * ( xd_1d[i] + xd_1d[i+1] ); } for ( i = 0; i < my; i++ ) { yi_1d[i] = 0.5 * ( yd_1d[i] + yd_1d[i+1] ); } ni = mx * my; xi = new double[ni]; yi = new double[ni]; zdm = new double[ni]; ij = 0; for ( j = 0; j < my; j++ ) { for ( i = 0; i < mx; i++ ) { xi[ij] = xi_1d[i]; yi[ij] = yi_1d[j]; ij = ij + 1; } } f00_f0 ( prob, ni, xi, yi, zdm ); zi = lagrange_interp_2d ( mx, my, xd_1d, yd_1d, zd, ni, xi, yi ); app_error = r8vec_norm_affine ( ni, zi, zdm ) / ( double ) ( ni ); cout << "\n"; cout << " RMS data approximation error = " << app_error << "\n"; delete [] xi; delete [] xi_1d; delete [] yi; delete [] yi_1d; delete [] zdm; delete [] zi; } delete [] xd; delete [] xd_1d; delete [] yd; delete [] yd_1d; delete [] zd; return; }