// Copyright (C) 2009 Davis E. King (davis@dlib.net) // License: Boost Software License See LICENSE.txt for the full license. #include #include #include #include #include #include #include "../stl_checked.h" #include "../array.h" #include "../rand.h" #include #include "tester.h" namespace { using namespace test; using namespace dlib; using namespace std; logger dlog("test.matrix_qr"); dlib::rand rnd; // ---------------------------------------------------------------------------------------- template const matrix symm(const mat_type& m) { return m*trans(m); } // ---------------------------------------------------------------------------------------- template const matrix randmat(long r, long c) { matrix m(r,c); for (long row = 0; row < m.nr(); ++row) { for (long col = 0; col < m.nc(); ++col) { m(row,col) = static_cast(rnd.get_random_double()); } } return m; } template const matrix randmat() { matrix m; for (long row = 0; row < m.nr(); ++row) { for (long col = 0; col < m.nc(); ++col) { m(row,col) = static_cast(rnd.get_random_double()); } } return m; } // ---------------------------------------------------------------------------------------- template void test_qr ( const matrix_type& m) { typedef typename matrix_type::type type; const type eps = 10*max(abs(m))*sqrt(std::numeric_limits::epsilon()); dlog << LDEBUG << "test_qr(): " << m.nr() << " x " << m.nc() << " eps: " << eps; print_spinner(); qr_decomposition test(m); DLIB_TEST(test.nr() == m.nr()); DLIB_TEST(test.nc() == m.nc()); type temp; DLIB_TEST_MSG( (temp= max(abs(test.get_q()*test.get_r() - m))) < eps,temp); // none of the matrices we should be passing in to test_qr() should be non-full rank. DLIB_TEST(test.is_full_rank() == true); if (m.nr() == m.nc()) { matrix m2; matrix col; m2 = identity_matrix(m.nr()); DLIB_TEST_MSG(equal(m*test.solve(m2), m2,eps),max(abs(m*test.solve(m2)- m2))); m2 = randmat(m.nr(),5); DLIB_TEST_MSG(equal(m*test.solve(m2), m2,eps),max(abs(m*test.solve(m2)- m2))); m2 = randmat(m.nr(),1); DLIB_TEST_MSG(equal(m*test.solve(m2), m2,eps),max(abs(m*test.solve(m2)- m2))); col = randmat(m.nr(),1); DLIB_TEST_MSG(equal(m*test.solve(col), col,eps),max(abs(m*test.solve(m2)- m2))); } else { DLIB_TEST_MSG(dlib::equal(pinv(m), test.solve(identity_matrix(m.nr())), eps), max(abs(pinv(m) - test.solve(identity_matrix(m.nr())))) ); } // now make us a non-full rank matrix if (m.nc() > 1) { matrix sm(m); set_colm(sm,0) = colm(sm,1); qr_decomposition test2(sm); DLIB_TEST_MSG( (temp= max(abs(test.get_q()*test.get_r() - m))) < eps,temp); if (test2.nc() < 100) { DLIB_TEST_MSG(test2.is_full_rank() == false,"eps: " << eps); } } } // ---------------------------------------------------------------------------------------- void matrix_test_double() { test_qr(10*randmat(1,1)); test_qr(10*randmat(2,2)); test_qr(10*symm(randmat(2,2))); test_qr(10*randmat(4,4)); test_qr(10*randmat(9,4)); test_qr(10*randmat(15,15)); test_qr(2*symm(randmat(15,15))); test_qr(10*randmat(100,100)); test_qr(10*randmat(237,200)); test_qr(10*randmat(200,101)); test_qr(10*randmat()); test_qr(10*randmat()); test_qr(10*randmat()); test_qr(10*randmat()); test_qr(10*randmat()); test_qr(10*randmat()); test_qr(10*randmat()); typedef matrix mat; test_qr(mat(3*randmat(9,4))); test_qr(mat(3*randmat(9,9))); } // ---------------------------------------------------------------------------------------- void matrix_test_float() { test_qr(3*randmat(1,1)); test_qr(3*randmat(2,2)); test_qr(3*randmat(4,4)); test_qr(3*randmat(9,4)); test_qr(3*randmat(237,200)); test_qr(3*randmat()); test_qr(3*randmat()); test_qr(3*randmat()); test_qr(3*randmat()); test_qr(3*randmat()); typedef matrix mat; test_qr(mat(3*randmat(5,4))); test_qr(mat(3*randmat(9,9))); } // ---------------------------------------------------------------------------------------- class matrix_tester : public tester { public: matrix_tester ( ) : tester ("test_matrix_qr", "Runs tests on the matrix QR component.") { //rnd.set_seed(cast_to_string(time(0))); } void perform_test ( ) { dlog << LINFO << "seed string: " << rnd.get_seed(); dlog << LINFO << "begin testing with double"; matrix_test_double(); dlog << LINFO << "begin testing with float"; matrix_test_float(); } } a; }