# include # include # include # include "simplex_integrals.h" int main ( ); void test01 ( ); void test02 ( ); /******************************************************************************/ int main ( ) /******************************************************************************/ /* Purpose: MAIN is the main program for SIMPLEX_INTEGRALS_TEST. Discussion: SIMPLEX_INTEGRALS_TEST tests the SIMPLEX_INTEGRALS library. Licensing: This code is distributed under the GNU LGPL license. Modified: 16 January 2014 Author: John Burkardt */ { timestamp ( ); printf ( "\n" ); printf ( "SIMPLEX_INTEGRALS_TEST\n" ); printf ( " C version\n" ); printf ( " Test the SIMPLEX_INTEGRALS library.\n" ); test01 ( ); test02 ( ); /* Terminate. */ printf ( "\n" ); printf ( "SIMPLEX_INTEGRALS_TEST\n" ); printf ( " Normal end of execution.\n" ); printf ( "\n" ); timestamp ( ); return 0; } /******************************************************************************/ void test01 ( ) /******************************************************************************/ /* Purpose: TEST01 compares exact and estimated integrals in 3D. Licensing: This code is distributed under the GNU LGPL license. Modified: 16 January 2014 Author: John Burkardt */ { int *e; double error; double exact; int m = 3; int n = 4192; double result; int seed; int test; int test_num = 20; double *value; double *x; printf ( "\n" ); printf ( "TEST01\n" ); printf ( " Estimate monomial integrals using Monte Carlo\n" ); printf ( " over the interior of the unit simplex in M dimensions.\n" ); /* Get sample points. */ seed = 123456789; x = simplex01_sample ( m, n, &seed ); printf ( "\n" ); printf ( " Number of sample points used is %d\n", n ); /* Randomly choose exponents. */ printf ( "\n" ); printf ( " We randomly choose the exponents.\n" ); printf ( "\n" ); printf ( " Ex Ey Ez MC-Estimate Exact Error\n" ); printf ( "\n" ); for ( test = 1; test <= test_num; test++ ) { e = i4vec_uniform_ab_new ( m, 0, 4, &seed ); value = monomial_value ( m, n, e, x ); result = simplex01_volume ( m ) * r8vec_sum ( n, value ) / ( double ) ( n ); exact = simplex01_monomial_integral ( m, e ); error = fabs ( result - exact ); printf ( " %2d %2d %2d %14.6g %14.6g %10.2e\n", e[0], e[1], e[2], result, exact, error ); free ( e ); free ( value ); } return; } /******************************************************************************/ void test02 ( ) /******************************************************************************/ /* Purpose: TEST02 compares exact and estimated integrals in 6D. Licensing: This code is distributed under the GNU LGPL license. Modified: 16 January 2014 Author: John Burkardt */ { int *e; double error; double exact; int m = 6; int n = 4192; double result; int seed; int test; int test_num = 20; double *value; double *x; printf ( "\n" ); printf ( "TEST02\n" ); printf ( " Estimate monomial integrals using Monte Carlo\n" ); printf ( " over the interior of the unit simplex in M dimensions.\n" ); /* Get sample points. */ seed = 123456789; x = simplex01_sample ( m, n, &seed ); printf ( "\n" ); printf ( " Number of sample points used is %d\n", n ); /* Randomly choose exponents. */ printf ( "\n" ); printf ( " We randomly choose the exponents.\n" ); printf ( "\n" ); printf ( " E1 E2 E3 E4 E5 E6 MC-Estimate Exact Error\n" ); printf ( "\n" ); for ( test = 1; test <= test_num; test++ ) { e = i4vec_uniform_ab_new ( m, 0, 4, &seed ); value = monomial_value ( m, n, e, x ); result = simplex01_volume ( m ) * r8vec_sum ( n, value ) / ( double ) ( n ); exact = simplex01_monomial_integral ( m, e ); error = fabs ( result - exact ); printf ( " %2d %2d %2d %2d %2d %2d %14.6g %14.6g %10.2e\n", e[0], e[1], e[2], e[3], e[4], e[5], result, exact, error ); free ( e ); free ( value ); } return; }