#include "hash_map.hh" #include "clock.hh" #include "string.hh" #include "buffer_utils.hh" #include "unit_tests.hh" #include #include namespace Kakoune { UnitTest test_hash_map{[] { // Basic usage { HashMap map; map.insert({10, 1}); map.insert({20, 2}); kak_assert(map.find_index(0) == -1); kak_assert(map.find_index(10) == 0); kak_assert(map.find_index(20) == 1); kak_assert(map[10] == 1); kak_assert(map[20] == 2); kak_assert(map[30] == 0); map[30] = 3; kak_assert(map.find_index(30) == 2); map.remove(20); kak_assert(map.find_index(30) == 1); kak_assert(map.size() == 2); } // Multiple entries with the same key { HashMap map; map.insert({10, 1}); map.insert({10, 2}); kak_assert(map.find_index(10) == 0); map.remove(10); kak_assert(map.find_index(10) == 0); map.remove(10); kak_assert(map.find_index(10) == -1); map.insert({20, 1}); map.insert({20, 2}); map.remove_all(20); kak_assert(map.find_index(20) == -1); } // Check hash compatible support { HashMap map; map.insert({"test", 10}); kak_assert(map["test"_sv] == 10); map.remove("test"_sv); } // make sure we get what we expect from the hash map { std::random_device dev; std::default_random_engine re{dev()}; std::uniform_int_distribution dist; HashMap map; Vector> ref; for (int i = 0; i < 100; ++i) { auto key = dist(re), value = dist(re); ref.push_back({key, value}); map.insert({key, value}); std::shuffle(ref.begin(), ref.end(), re); for (auto& elem : ref) { auto it = map.find(elem.first); kak_assert(it != map.end() and it->value == elem.second); } } } }}; template void do_profile(size_t count, StringView type) { std::random_device dev; std::default_random_engine re{dev()}; std::uniform_int_distribution dist{0, count}; Vector vec; for (size_t i = 0; i < count; ++i) vec.push_back(i); std::shuffle(vec.begin(), vec.end(), re); Map map; auto start = Clock::now(); for (auto v : vec) map.insert({v, dist(re)}); auto after_insert = Clock::now(); for (size_t i = 0; i < count; ++i) ++map[dist(re)]; auto after_read = Clock::now(); for (size_t i = 0; i < count; ++i) map.erase(dist(re)); auto after_remove = Clock::now(); int c = 0; for (auto v : vec) { auto it = map.find(v); if (it != map.end()) ++c; } auto after_find = Clock::now(); using namespace std::chrono; write_to_debug_buffer(format("{} ({}) -- inserts: {}us, reads: {}us, remove: {}us, find: {}us ({})", type, count, duration_cast(after_insert - start).count(), duration_cast(after_read - after_insert).count(), duration_cast(after_remove - after_read).count(), duration_cast(after_find - after_remove).count(), c)); } void profile_hash_maps() { for (auto i : { 1000, 10000, 100000, 1000000, 10000000 }) { do_profile>(i, "UnorderedMap"); do_profile>(i, " HashMap"); } } }