memgraph/tests/concurrent/sl_simulation.cpp

#include "common.h"

constexpr size_t THREADS_NO = std::min(max_no_threads, 8);
constexpr size_t key_range = 1e5;
constexpr size_t op_per_thread = 1e6;
// Depending on value there is a possiblity of numerical overflow
constexpr size_t max_number = 10;
constexpr size_t no_find_per_change = 5;
constexpr size_t no_insert_for_one_delete = 1;

// TODO: document the test

// This test simulates behavior of transactions.
// Each thread makes a series of finds interleaved with method which change.
// Exact ratio of finds per change and insert per delete can be regulated with
// no_find_per_change and no_insert_for_one_delete.
int main()
{
    init_log();

    memory_check(THREADS_NO, [] {
        map_t skiplist;

        auto futures = run<std::pair<long long, long long>>(
            THREADS_NO, skiplist, [](auto acc, auto index) {
                auto rand = rand_gen(key_range);
                auto rand_change = rand_gen_bool(no_find_per_change);
                auto rand_delete = rand_gen_bool(no_insert_for_one_delete);
                long long sum = 0;
                long long count = 0;

                for (int i = 0; i < op_per_thread; i++) {
                    auto num = rand();
                    auto data = num % max_number;
                    if (rand_change()) {
                        if (rand_delete()) {
                            if (acc.remove(num)) {
                                sum -= data;
                                count--;
                            }
                        } else {
                            if (acc.insert(num, data).second) {
                                sum += data;
                                count++;
                            }
                        }
                    } else {
                        auto value = acc.find(num);
                        permanent_assert(value == acc.end() ||
                                             value->second == data,
                                         "Data is invalid");
                    }
                }

                return std::pair<long long, long long>(sum, count);
            });

        auto accessor = skiplist.access();
        long long sums = 0;
        long long counters = 0;
        for (auto &data : collect(futures)) {
            sums += data.second.first;
            counters += data.second.second;
        }

        for (auto &e : accessor) {
            sums -= e.second;
        }
        permanent_assert(sums == 0, "Same values aren't present");
        check_size<map_t>(accessor, counters);
        check_order<map_t>(accessor);
    });
}