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disk_integrals_prb.cpp
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# include <cstdlib>
# include <iostream>
# include <iomanip>
# include <cmath>
using namespace std;
# include "disk_integrals.hpp"
int main ( );
void test01 ( );
//****************************************************************************80
int main ( )
//****************************************************************************80
//
// Purpose:
//
// MAIN is the main program for DISK_INTEGRALS_PRB.
//
// Discussion:
//
// DISK_INTEGRALS_PRB tests the DISK_INTEGRALS library.
//
// Licensing:
//
// This code is distributed under the GNU LGPL license.
//
// Modified:
//
// 08 January 2014
//
// Author:
//
// John Burkardt
//
{
timestamp ( );
cout << "\n";
cout << "DISK_INTEGRALS_PRB\n";
cout << " C++ version\n";
cout << " Test the DISK_INTEGRALS library.\n";
test01 ( );
/*
Terminate.
*/
cout << "\n";
cout << "DISK_INTEGRALS_PRB\n";
cout << " Normal end of execution.\n";
cout << "\n";
timestamp ( );
return 0;
}
//****************************************************************************80
void test01 ( )
//****************************************************************************80
//
// Purpose:
//
// TEST01 uses DISK01_SAMPLE to estimate a number of integrals.
//
// Licensing:
//
// This code is distributed under the GNU LGPL license.
//
// Modified:
//
// 08 January 2014
//
// Author:
//
// John Burkardt
//
{
int *e;
double error;
double exact;
int i;
int m = 2;
int n = 4192;
double result;
int seed;
int test;
int test_num = 20;
double *value;
double *x;
cout << "\n";
cout << "TEST01\n";
cout << " Estimate monomial integrals using Monte Carlo\n";
cout << " over the interior of the unit disk in 2D.\n";
//
// Get sample points.
//
seed = 123456789;
x = disk01_sample ( n, seed );
cout << "\n";
cout << " Number of sample points used is " << n << "\n";
//
// Randomly choose X,Y exponents between 0 and 8.
//
cout << "\n";
cout << " If any exponent is odd, the integral is zero.\n";
cout << " We will restrict this test to randomly chosen even exponents.\n";
cout << "\n";
cout << " Ex Ey MC-Estimate Exact Error\n";
cout << "\n";
for ( test = 1; test <= test_num; test++ )
{
e = i4vec_uniform_ab_new ( m, 0, 4, seed );
for ( i = 0; i < m; i++ )
{
e[i] = e[i] * 2;
}
value = monomial_value ( m, n, e, x );
result = disk01_area ( ) * r8vec_sum ( n, value ) / ( double ) ( n );
exact = disk01_monomial_integral ( e );
error = fabs ( result - exact );
cout << " " << setw(2) << e[0]
<< " " << setw(2) << e[1]
<< " " << setw(14) << result
<< " " << setw(14) << exact
<< " " << setw(10) << error << "\n";
delete [] e;
delete [] value;
}
delete [] x;
return;
}