#ifndef SPROUT_LIBS_ARRAY_TEST_ARRAY_CPP #define SPROUT_LIBS_ARRAY_TEST_ARRAY_CPP #include #include #include namespace testspr { static void array_test() { using namespace sprout; { SPROUT_STATIC_CONSTEXPR int carr[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}; SPROUT_STATIC_CONSTEXPR auto arr1 = sprout::to_array(carr); SPROUT_STATIC_CONSTEXPR auto arr2 = sprout::make_array(1, 2, 3, 4, 5, 6, 7, 8, 9, 10); SPROUT_STATIC_CONSTEXPR auto arr3 = sprout::make_common_array(1, 2, 3, 4, 5, 6, 7, 8, 9, 10); TESTSPR_BOTH_ASSERT(testspr::equal(carr, arr1)); TESTSPR_BOTH_ASSERT(testspr::equal(carr, arr2)); TESTSPR_BOTH_ASSERT(testspr::equal(carr, arr3)); // begin TESTSPR_BOTH_ASSERT(carr[0] == *arr1.begin()); TESTSPR_BOTH_ASSERT(carr[0] == *arr2.begin()); // cbegin TESTSPR_BOTH_ASSERT(carr[0] == *arr1.cbegin()); TESTSPR_BOTH_ASSERT(carr[0] == *arr2.cbegin()); // end TESTSPR_BOTH_ASSERT(carr[9] == *(arr1.end() - 1)); TESTSPR_BOTH_ASSERT(carr[9] == *(arr2.end() - 1)); // cend TESTSPR_BOTH_ASSERT(carr[9] == *(arr1.cend() - 1)); TESTSPR_BOTH_ASSERT(carr[9] == *(arr2.cend() - 1)); // rbegin TESTSPR_BOTH_ASSERT(carr[9] == *arr1.rbegin()); TESTSPR_BOTH_ASSERT(carr[9] == *arr2.rbegin()); // crbegin TESTSPR_BOTH_ASSERT(carr[9] == *arr1.crbegin()); TESTSPR_BOTH_ASSERT(carr[9] == *arr2.crbegin()); // rend TESTSPR_BOTH_ASSERT(carr[0] == *(arr1.rend() - 1)); TESTSPR_BOTH_ASSERT(carr[0] == *(arr2.rend() - 1)); // crend TESTSPR_BOTH_ASSERT(carr[0] == *(arr1.crend() - 1)); TESTSPR_BOTH_ASSERT(carr[0] == *(arr2.crend() - 1)); // size TESTSPR_BOTH_ASSERT(arr1.size() == 10); TESTSPR_BOTH_ASSERT(arr2.size() == 10); // empty TESTSPR_BOTH_ASSERT(!arr1.empty()); TESTSPR_BOTH_ASSERT(!arr2.empty()); TESTSPR_BOTH_ASSERT((array{{}}.empty())); // max_size TESTSPR_BOTH_ASSERT(arr1.max_size() == 10); TESTSPR_BOTH_ASSERT(arr2.max_size() == 10); // operator[] TESTSPR_BOTH_ASSERT(carr[0] == arr1[0]); TESTSPR_BOTH_ASSERT(carr[0] == arr2[0]); // at TESTSPR_BOTH_ASSERT(carr[0] == arr1.at(0)); TESTSPR_BOTH_ASSERT(carr[0] == arr2.at(0)); // front TESTSPR_BOTH_ASSERT(carr[0] == arr1.front()); TESTSPR_BOTH_ASSERT(carr[0] == arr2.front()); // back TESTSPR_BOTH_ASSERT(carr[9] == arr1.back()); TESTSPR_BOTH_ASSERT(carr[9] == arr2.back()); // data TESTSPR_BOTH_ASSERT(carr[0] == *arr1.data()); TESTSPR_BOTH_ASSERT(carr[0] == *arr2.data()); // c_array { auto arr = arr1; TESTSPR_ASSERT(carr[0] == *arr.c_array()); } // assign TESTSPR_BOTH_ASSERT(testspr::equal(arr1.assign(-1), array{{-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}})); { auto arr = arr1; arr.assign(-1); TESTSPR_ASSERT(testspr::equal(arr, array{{-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}})); } // fill TESTSPR_BOTH_ASSERT(testspr::equal(arr1.fill(-1), array{{-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}})); { auto arr = arr1; arr.fill(-1); TESTSPR_ASSERT(testspr::equal(arr, array{{-1, -1, -1, -1, -1, -1, -1, -1, -1, -1}})); } // swap { auto arr1 = array{{1, 2}}; auto arr2 = array{{-1, -2}}; arr1.swap(arr2); TESTSPR_ASSERT(arr1[0] == -1); } // operator= { auto arr1 = array{{1, 2}}; arr1 = array{{-1, -2}}; TESTSPR_ASSERT(arr1[0] == -1); } // operator== TESTSPR_BOTH_ASSERT(arr1 == arr2); // operator!= TESTSPR_BOTH_ASSERT(!(arr1 != arr2)); // operator< TESTSPR_BOTH_ASSERT(!(arr1 < arr2)); // operator> TESTSPR_BOTH_ASSERT(!(arr1 > arr2)); // operator<= TESTSPR_BOTH_ASSERT(arr1 <= arr2); // operator>= TESTSPR_BOTH_ASSERT(arr1 >= arr2); } } } // namespace testspr #ifndef TESTSPR_CPP_INCLUDE # define TESTSPR_TEST_FUNCTION testspr::array_test # include #endif #endif // #ifndef SPROUT_LIBS_ARRAY_TEST_ARRAY_CPP