/* * Copyright © 2021 Behdad Esfahbod * * This is part of HarfBuzz, a text shaping library. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and its documentation for any purpose, provided that the * above copyright notice and the following two paragraphs appear in * all copies of this software. * * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. */ #include "hb.hh" #include "hb-map.hh" #include "hb-set.hh" #include int main (int argc, char **argv) { /* Test copy constructor. */ { hb_map_t v1; v1.set (1, 2); hb_map_t v2 {v1}; assert (v1.get_population () == 1); assert (v2.get_population () == 1); assert (v1[1] == 2); assert (v2[1] == 2); } /* Test copy assignment. */ { hb_map_t v1; v1.set (1, 2); hb_map_t v2 = v1; assert (v1.get_population () == 1); assert (v2.get_population () == 1); assert (v1[1] == 2); assert (v2[1] == 2); } /* Test move constructor. */ { hb_map_t s {}; s.set (1, 2); hb_map_t v (std::move (s)); assert (s.get_population () == 0); assert (v.get_population () == 1); } /* Test move assignment. */ { hb_map_t s {}; s.set (1, 2); hb_map_t v; v = std::move (s); assert (s.get_population () == 0); assert (v.get_population () == 1); } /* Test initializing from iterable. */ { hb_map_t s; s.set (1, 2); s.set (3, 4); hb_vector_t> v (s); hb_map_t v0 (v); hb_map_t v1 (s); hb_map_t v2 (std::move (s)); assert (s.get_population () == 0); assert (v0.get_population () == 2); assert (v1.get_population () == 2); assert (v2.get_population () == 2); } /* Test call fini() twice. */ { hb_map_t s; for (int i = 0; i < 16; i++) s.set(i, i+1); s.fini(); } /* Test initializing from iterator. */ { hb_map_t s; s.set (1, 2); s.set (3, 4); hb_map_t v (hb_iter (s)); assert (v.get_population () == 2); } /* Test initializing from initializer list and swapping. */ { using pair_t = hb_pair_t; hb_map_t v1 {pair_t{1,2}, pair_t{4,5}}; hb_map_t v2 {pair_t{3,4}}; hb_swap (v1, v2); assert (v1.get_population () == 1); assert (v2.get_population () == 2); } /* Test class key / value types. */ { hb_hashmap_t m1; hb_hashmap_t m2; hb_hashmap_t m3; assert (m1.get_population () == 0); assert (m2.get_population () == 0); assert (m3.get_population () == 0); } { hb_hashmap_t m0; hb_hashmap_t m1; hb_hashmap_t m2; hb_hashmap_t m3; std::string s; for (unsigned i = 1; i < 1000; i++) { s += "x"; m0.set (i, i); m1.set (s, i); m2.set (i, s); m3.set (s, s); } } /* Test hashing maps. */ { using pair = hb_pair_t; hb_hashmap_t m1; m1.set (hb_map_t (), hb_map_t {}); m1.set (hb_map_t (), hb_map_t {pair (1u, 2u)}); m1.set (hb_map_t {pair (1u, 2u)}, hb_map_t {pair (2u, 3u)}); assert (m1.get (hb_map_t ()) == hb_map_t {pair (1u, 2u)}); assert (m1.get (hb_map_t {pair (1u, 2u)}) == hb_map_t {pair (2u, 3u)}); } /* Test hashing sets. */ { hb_hashmap_t m1; m1.set (hb_set_t (), hb_set_t ()); m1.set (hb_set_t (), hb_set_t {1}); m1.set (hb_set_t {1, 1000}, hb_set_t {2}); assert (m1.get (hb_set_t ()) == hb_set_t {1}); assert (m1.get (hb_set_t {1000, 1}) == hb_set_t {2}); } /* Test hashing vectors. */ { using vector_t = hb_vector_t; hb_hashmap_t m1; m1.set (vector_t (), vector_t {1}); m1.set (vector_t {1}, vector_t {2}); m1 << hb_pair_t {vector_t {2}, vector_t ()}; assert (m1.get (vector_t ()) == vector_t {1}); assert (m1.get (vector_t {1}) == vector_t {2}); } /* Test moving values */ { using vector_t = hb_vector_t; hb_hashmap_t m1; vector_t v {3}; assert (v.length == 1); m1 << hb_pair_t {vector_t {3}, v}; assert (v.length == 1); m1 << hb_pair_t {vector_t {4}, std::move (v)}; assert (v.length == 0); m1 << hb_pair_t {vector_t {4}, vector_t {5}}; m1 << hb_pair_t {vector_t {4}, vector_t {5}}; hb_hashmap_t m2; vector_t v2 {3}; m2.set (vector_t {4}, v2); assert (v2.length == 1); m2.set (vector_t {5}, std::move (v2)); assert (v2.length == 0); } /* Test hb::shared_ptr. */ { hb_hashmap_t, hb::shared_ptr> m; m.set (hb::shared_ptr (hb_set_get_empty ()), hb::shared_ptr (hb_set_get_empty ())); m.get (hb::shared_ptr (hb_set_get_empty ())); m.iter (); m.keys (); m.values (); m.iter_ref (); m.keys_ref (); m.values_ref (); } /* Test hb::unique_ptr. */ { hb_hashmap_t, hb::unique_ptr> m; m.set (hb::unique_ptr (hb_set_get_empty ()), hb::unique_ptr (hb_set_get_empty ())); m.get (hb::unique_ptr (hb_set_get_empty ())); m.iter_ref (); m.keys_ref (); m.values_ref (); } /* Test more complex unique_ptr's. */ { hb_hashmap_t>> m; m.get (0); const hb::unique_ptr> *v1; m.has (0, &v1); hb::unique_ptr> *v2; m.has (0, &v2); } /* Test hashmap with complex shared_ptrs as keys. */ { hb_hashmap_t, unsigned> m; hb_map_t *m1 = hb_map_create (); hb_map_t *m2 = hb_map_create (); m1->set (1,3); m2->set (1,3); hb::shared_ptr p1 {m1}; hb::shared_ptr p2 {m2}; m.set (p1,1); assert (m.has (p2)); m1->set (2,4); assert (!m.has (p2)); } /* Test value type with hb_bytes_t. */ { hb_hashmap_t m; char c_str[] = "Test"; hb_bytes_t bytes (c_str); m.set (1, bytes); assert (m.has (1)); } /* Test operators. */ { hb_map_t m1, m2, m3; m1.set (1, 2); m1.set (2, 4); m2.set (1, 2); m2.set (2, 4); m3.set (1, 3); m3.set (3, 5); assert (m1 == m2); assert (m1 != m3); assert (!(m2 == m3)); m2 = m3; assert (m2.has (1)); assert (!m2.has (2)); assert (m2.has (3)); assert (m3.has (3)); } /* Test reset. */ { hb_hashmap_t m; m.set (1, hb_set_t {1, 2, 3}); m.reset (); } return 0; }