#include #include #include using namespace boost::unit_test; #include // this is necessary for BOOST_CHECK_EQUAL, but there's no equivalent in the C // API, so I'm reluctant to include it in cairomm right now bool operator==(const Cairo::Matrix& A, const Cairo::Matrix& B) { return A.xx == B.xx && A.yx == B.yx && A.xy == B.xy && A.yy == B.yy && A.x0 == B.x0 && A.y0 == B.y0; } // this is necessary for BOOST_CHECK_EQUAL to work but doesn't seem useful // enough to put in the actual implementation std::ostream& operator<<(std::ostream& out, const Cairo::Matrix& matrix) { return out << "[ " << matrix.xx << ", " << matrix.yx << ", " << matrix.xy << ", " << matrix.yy << ", " << matrix.x0 << ", " << matrix.y0 << " ]"; } void test_constructors() { cairo_matrix_t c_identity; cairo_matrix_init_identity(&c_identity); BOOST_CHECK_EQUAL(c_identity.xx, Cairo::identity_matrix().xx); BOOST_CHECK_EQUAL(c_identity.xy, Cairo::identity_matrix().xy); BOOST_CHECK_EQUAL(c_identity.yx, Cairo::identity_matrix().yx); BOOST_CHECK_EQUAL(c_identity.yy, Cairo::identity_matrix().yy); BOOST_CHECK_EQUAL(c_identity.x0, Cairo::identity_matrix().x0); BOOST_CHECK_EQUAL(c_identity.y0, Cairo::identity_matrix().y0); // nonsense values, just for testing const double xx=1, yx=2, xy=3, yy=5, x0=6, y0=7; cairo_matrix_t c_matrix; cairo_matrix_init(&c_matrix, xx, yx, xy, yy, x0, y0); Cairo::Matrix cpp_matrix(xx, yx, xy, yy, x0, y0); BOOST_CHECK_EQUAL(c_matrix.xx, cpp_matrix.xx); BOOST_CHECK_EQUAL(c_matrix.xy, cpp_matrix.xy); BOOST_CHECK_EQUAL(c_matrix.yx, cpp_matrix.yx); BOOST_CHECK_EQUAL(c_matrix.yy, cpp_matrix.yy); BOOST_CHECK_EQUAL(c_matrix.x0, cpp_matrix.x0); BOOST_CHECK_EQUAL(c_matrix.y0, cpp_matrix.y0); } void test_invert() { // test a valid matrix BOOST_CHECK_NO_THROW(Cairo::identity_matrix().invert()); // check a degenerate matrix Cairo::Matrix degenerate(0,0,0,0,0,0); BOOST_CHECK_THROW(degenerate.invert(), std::logic_error); } cairo_matrix_t* test_matrix = 0; static void foo(cairo_matrix_t* matrix) { test_matrix = matrix; } void test_cast() { // make sure that we can cast between C++ and C types without ill effect Cairo::Matrix matrix = Cairo::identity_matrix(); cairo_matrix_t casted = (cairo_matrix_t) Cairo::identity_matrix(); // check that it's equal to the identity matrix cairo_matrix_t identity; cairo_matrix_init_identity(&identity); BOOST_CHECK_EQUAL(casted.xx, identity.xx); BOOST_CHECK_EQUAL(casted.xy, identity.xy); BOOST_CHECK_EQUAL(casted.yx, identity.yx); BOOST_CHECK_EQUAL(casted.yy, identity.yy); BOOST_CHECK_EQUAL(casted.x0, identity.x0); BOOST_CHECK_EQUAL(casted.y0, identity.y0); // pass C++ type as an argument to C foo(&matrix); BOOST_CHECK_EQUAL(matrix.xx, test_matrix->xx); BOOST_CHECK_EQUAL(matrix.xy, test_matrix->xy); BOOST_CHECK_EQUAL(matrix.yx, test_matrix->yx); BOOST_CHECK_EQUAL(matrix.yy, test_matrix->yy); BOOST_CHECK_EQUAL(matrix.x0, test_matrix->x0); BOOST_CHECK_EQUAL(matrix.y0, test_matrix->y0); } void test_multiply() { Cairo::Matrix A = Cairo::scaled_matrix(2, 4); Cairo::Matrix B = Cairo::translation_matrix(5.3, 1.2); Cairo::Matrix C = A * B; Cairo::Matrix D; D.multiply(A, B); BOOST_CHECK_EQUAL(C, D); } test_suite* init_unit_test_suite(int /*argc*/, char** /*argv*/) { test_suite* test= BOOST_TEST_SUITE( "Cairo::Matrix Tests" ); test->add (BOOST_TEST_CASE (&test_constructors)); test->add (BOOST_TEST_CASE (&test_invert)); test->add (BOOST_TEST_CASE (&test_cast)); test->add (BOOST_TEST_CASE (&test_multiply)); return test; }