#include #include #include static void test_sorted_iterators (cruft::TAP::logger &tap) { std::array keys; // Attempt to generate a list of unsorted keys. // // This _might_ fail because shuffle _might_ return the original ordering, // but I feel the number of keys we're using here should sufficiently // mitigate this risk. std::iota (std::begin (keys), std::end (keys), 0); std::shuffle (std::begin (keys), std::end (keys), cruft::random::generator ()); if (std::is_sorted (std::begin (keys), std::end (keys))) throw std::logic_error ("Keys should not be sorted before insertion"); cruft::map::multi_fixed<64,int,int> obj; for (auto const k: keys) obj.insert ({k, k}); tap.expect ( std::is_sorted ( obj.begin (), obj.end (), [] (auto const &a, auto const &b) { return a.first < b.first; } ), "iterator range is provided in sorted order" ); } static void test_bad_alloc (cruft::TAP::logger &tap) { tap.expect_throw ([] (void) { cruft::map::multi_fixed<1,int,int> obj; obj.insert ({0,0}); obj.insert ({1,1}); }, "overcommitting storage results in std::bad_alloc"); } int main () { cruft::TAP::logger tap; { cruft::map::multi_fixed<8,int,int> a, b; tap.expect_eq (a, b, "default construction equality"); a.insert ({ 0, 1 }); tap.expect_eq (a.size (), 1u, "unit size after first insertion"); tap.expect_eq (a.find (0)->second, 1, "value retrieval after insertion"); tap.expect_neq (a, b, "inequality after insertion"); } { cruft::map::multi_fixed<4,int,int> const a {{ {0,0}, {3,3}, }}; cruft::map::multi_fixed<4,int,int> const b {{ {2,2}, {0,0}, }}; cruft::map::multi_fixed<4,int,int> const expected {{ {0,0}, {0,0}, {2,2}, {3,3}, }}; tap.expect_eq (a + b, expected, "summation of two sets"); } { cruft::map::multi_fixed<4,int,int> const a {{ {0,0}, {2,2}, {3,3}, }}; cruft::map::multi_fixed<4,int,int> const b {{ {0,0}, {1,1}, {2,2}, {4,4}, }}; cruft::map::multi_fixed<4,int,int> const expected {{ {3, 3} }}; tap.expect_eq (a - b, expected, "difference of two sets"); } test_sorted_iterators (tap); test_bad_alloc (tap); return tap.status (); }