# include # include # include # include using namespace std; # include "matrix_exponential.hpp" # include "test_matrix_exponential.hpp" # include "c8lib.hpp" # include "r8lib.hpp" int main ( ); void matrix_exponential_test01 ( ); void matrix_exponential_test02 ( ); //****************************************************************************80 int main ( ) //****************************************************************************80 // // Purpose: // // MAIN is the main program for MATRIX_EXPONENTIAL_PRB. // // Discussion: // // MATRIX_EXPONENTIAL_PRB tests the MATRIX_EXPONENTIAL library. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 March 2013 // // Author: // // John Burkardt // { timestamp ( ); cout << "\n"; cout << "MATRIX_EXPONENTIAL_TEST:\n"; cout << " C++ version\n"; cout << " Test the MATRIX_EXPONENTIAL library.\n"; cout << " The C8LIB and R8LIB libraries are needed.\n"; cout << " This test needs the TEST_MATRIX_EXPONENTIAL library.\n"; matrix_exponential_test01 ( ); matrix_exponential_test02 ( ); // // Terminate. // cout << "\n"; cout << "MATRIX_EXPONENTIAL_TEST:\n"; cout << " Normal end of execution.\n"; cout << "\n"; timestamp ( ); return 0; } //****************************************************************************80 void matrix_exponential_test01 ( ) //****************************************************************************80 // // Purpose: // // MATRIX_EXPONENTIAL_TEST01 compares real matrix exponential algorithms. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 02 December 2011 // // Author: // // John Burkardt // { double *a; double *a_exp; int n; int test; int test_num; cout << "\n"; cout << "MATRIX_EXPONENTIAL_TEST01:\n"; cout << " EXPM is MATLAB's matrix exponential function\n"; cout << " R8MAT_EXPM1 is an equivalent to EXPM\n"; cout << " R8MAT_EXPM2 uses a Taylor series approach\n"; cout << " R8MAT_EXPM3 relies on an eigenvalue calculation.\n"; test_num = r8mat_exp_test_num ( ); for ( test = 1; test <= test_num; test++ ) { cout << "\n"; cout << " Test #" << test << "\n"; r8mat_exp_story ( test ); n = r8mat_exp_n ( test ); cout << " Matrix order N = " << n << "\n"; a = r8mat_exp_a ( test, n ); r8mat_print ( n, n, a, " Matrix:" ); a_exp = r8mat_expm1 ( n, a ); r8mat_print ( n, n, a_exp, " R8MAT_EXPM1(A):" ); delete [] a_exp; a_exp = r8mat_expm2 ( n, a ); r8mat_print ( n, n, a_exp, " R8MAT_EXPM2(A):" ); delete [] a_exp; // // a_exp = r8mat_expm3 ( n, a ); // r8mat_print ( n, n, a_exp, " R8MAT_EXPM3(A):" ); // delete [] a_exp; // a_exp = r8mat_exp_expa ( test, n ); r8mat_print ( n, n, a_exp, " Exact Exponential:" ); delete [] a_exp; delete [] a; } return; } //****************************************************************************80 void matrix_exponential_test02 ( ) //****************************************************************************80 // // Purpose: // // MATRIX_EXPONENTIAL_TEST02 compares complex matrix exponential algorithms. // // Licensing: // // This code is distributed under the GNU LGPL license. // // Modified: // // 05 March 2013 // // Author: // // John Burkardt // { complex *a; complex *a_exp; int n; int test; int test_num; cout << "\n"; cout << "MATRIX_EXPONENTIAL_TEST02:\n"; cout << " EXPM is MATLAB's matrix exponential function\n"; cout << " C8MAT_EXPM1 is an equivalent to EXPM\n"; cout << " C8MAT_EXPM2 uses a Taylor series approach\n"; cout << " C8MAT_EXPM3 relies on an eigenvalue calculation.\n"; test_num = c8mat_exp_test_num ( ); for ( test = 1; test <= test_num; test++ ) { cout << "\n"; cout << " Test #" << test << "\n"; c8mat_exp_story ( test ); n = c8mat_exp_n ( test ); cout << " Matrix order N = " << n << "\n"; a = c8mat_exp_a ( test, n ); c8mat_print ( n, n, a, " Matrix:" ); a_exp = c8mat_expm1 ( n, a ); c8mat_print ( n, n, a_exp, " C8MAT_EXPM1(A):" ); delete [] a_exp; // a_exp = c8mat_expm2 ( n, a ); // c8mat_print ( n, n, a_exp, " C8MAT_EXPM2(A):" ); // delete [] a_exp; // // a_exp = c8mat_expm3 ( n, a ); // c8mat_print ( n, n, a_exp, " C8MAT_EXPM3(A):" ); // delete [] a_exp; // a_exp = c8mat_exp_expa ( test, n ); c8mat_print ( n, n, a_exp, " Exact Exponential:" ); delete [] a_exp; delete [] a; } return; }