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#include <cstdio>
#include <thread>
#include <atomic>
#include "salticidae/event.h"
#include "salticidae/util.h"
using salticidae::TimerEvent;
using salticidae::Config;
void test_mpsc(int nproducers, int nops, size_t burst_size) {
size_t total = nproducers * nops;
salticidae::EventContext ec;
std::atomic<size_t> collected(0);
using queue_t = salticidae::MPSCQueueEventDriven<int>;
queue_t q;
q.reg_handler(ec, [&collected, burst_size](queue_t &q) {
size_t cnt = burst_size;
int x;
while (q.try_dequeue(x))
{
printf("%d\n", x);
collected.fetch_add(1);
if (!--cnt) return true;
}
return false;
});
std::vector<std::thread> producers;
std::thread consumer([&collected, total, &ec]() {
TimerEvent timer(ec, [&ec, &collected, total](TimerEvent &timer) {
if (collected.load() == total) ec.stop();
timer.add(1);
});
timer.add(1);
ec.dispatch();
});
for (int i = 0; i < nproducers; i++)
{
producers.emplace(producers.end(), std::thread([&q, nops, i, nproducers]() {
int x = i;
for (int j = 0; j < nops; j++)
{
//usleep(rand() / double(RAND_MAX) * 100);
q.enqueue(x);
x += nproducers;
}
}));
}
for (auto &t: producers) t.join();
SALTICIDAE_LOG_INFO("producers terminate");
consumer.join();
SALTICIDAE_LOG_INFO("consumers terminate");
}
void test_mpmc(int nproducers, int nconsumers, int nops, size_t burst_size) {
size_t total = nproducers * nops;
using queue_t = salticidae::MPMCQueueEventDriven<int>;
queue_t q;
std::vector<std::thread> producers;
std::vector<std::thread> consumers;
std::vector<salticidae::EventContext> ecs;
std::atomic<size_t> collected(0);
ecs.resize(nconsumers);
for (int i = 0; i < nconsumers; i++)
{
q.reg_handler(ecs[i], [&collected, burst_size](queue_t &q) {
size_t cnt = burst_size;
int x;
while (q.try_dequeue(x))
{
//usleep(10);
printf("%d\n", x);
collected.fetch_add(1);
if (!--cnt) return true;
}
return false;
});
}
for (int i = 0; i < nconsumers; i++)
{
consumers.emplace(consumers.end(), std::thread(
[&collected, total, &ec = ecs[i]]() {
TimerEvent timer(ec, [&ec, &collected, total](TimerEvent &timer) {
if (collected.load() == total) ec.stop();
timer.add(1);
});
timer.add(1);
ec.dispatch();
}));
}
for (int i = 0; i < nproducers; i++)
{
producers.emplace(producers.end(), std::thread([&q, nops, i, nproducers]() {
int x = i;
for (int j = 0; j < nops; j++)
{
//usleep(rand() / double(RAND_MAX) * 100);
q.enqueue(x);
x += nproducers;
}
}));
}
for (auto &t: producers) t.join();
SALTICIDAE_LOG_INFO("producers terminate");
for (auto &t: consumers) t.join();
SALTICIDAE_LOG_INFO("consumers terminate");
}
int main(int argc, char **argv) {
Config config;
auto opt_nproducers = Config::OptValInt::create(16);
auto opt_nconsumers = Config::OptValInt::create(4);
auto opt_burst_size = Config::OptValInt::create(128);
auto opt_nops = Config::OptValInt::create(100000);
auto opt_mpmc = Config::OptValFlag::create(false);
auto opt_help = Config::OptValFlag::create(false);
config.add_opt("nproducers", opt_nproducers, Config::SET_VAL);
config.add_opt("nconsumers", opt_nconsumers, Config::SET_VAL);
config.add_opt("burst-size", opt_burst_size, Config::SET_VAL);
config.add_opt("nops", opt_nops, Config::SET_VAL);
config.add_opt("mpmc", opt_mpmc, Config::SWITCH_ON);
config.add_opt("help", opt_help, Config::SWITCH_ON, 'h', "show this help info");
config.parse(argc, argv);
if (opt_help->get())
{
config.print_help();
exit(0);
}
if (!opt_mpmc->get())
{
SALTICIDAE_LOG_INFO("testing an MPSC queue...");
test_mpsc(opt_nproducers->get(), opt_nops->get(),
opt_burst_size->get());
}
else
{
SALTICIDAE_LOG_INFO("testing an MPMC queue...");
test_mpmc(opt_nproducers->get(), opt_nconsumers->get(),
opt_nops->get(), opt_burst_size->get());
}
return 0;
}
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