emsApplication/sdk/include/hv/EventLoopThreadPool.h

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2024-09-10 16:12:38 +08:00
#ifndef HV_EVENT_LOOP_THREAD_POOL_HPP_
#define HV_EVENT_LOOP_THREAD_POOL_HPP_
#include "EventLoopThread.h"
#include "hbase.h"
namespace hv {
class EventLoopThreadPool : public Status {
public:
EventLoopThreadPool(int thread_num = std::thread::hardware_concurrency()) {
setStatus(kInitializing);
thread_num_ = thread_num;
next_loop_idx_ = 0;
setStatus(kInitialized);
}
~EventLoopThreadPool() {
stop();
join();
}
int threadNum() {
return thread_num_;
}
void setThreadNum(int num) {
thread_num_ = num;
}
EventLoopPtr nextLoop(load_balance_e lb = LB_RoundRobin) {
size_t numLoops = loop_threads_.size();
if (numLoops == 0) return NULL;
size_t idx = 0;
if (lb == LB_RoundRobin) {
if (++next_loop_idx_ >= numLoops) next_loop_idx_ = 0;
idx = next_loop_idx_ % numLoops;
} else if (lb == LB_Random) {
idx = hv_rand(0, numLoops - 1);
} else if (lb == LB_LeastConnections) {
for (size_t i = 1; i < numLoops; ++i) {
if (loop_threads_[i]->loop()->connectionNum < loop_threads_[idx]->loop()->connectionNum) {
idx = i;
}
}
} else {
// Not Implemented
}
return loop_threads_[idx]->loop();
}
EventLoopPtr loop(int idx = -1) {
if (idx >= 0 && idx < (int)loop_threads_.size()) {
return loop_threads_[idx]->loop();
}
return nextLoop();
}
hloop_t* hloop(int idx = -1) {
EventLoopPtr ptr = loop(idx);
return ptr ? ptr->loop() : NULL;
}
// @param wait_threads_started: if ture this method will block until all loop_threads started.
// @param pre: This functor will be executed when loop_thread started.
// @param post:This Functor will be executed when loop_thread stopped.
void start(bool wait_threads_started = false,
std::function<void(const EventLoopPtr&)> pre = NULL,
std::function<void(const EventLoopPtr&)> post = NULL) {
if (thread_num_ == 0) return;
if (status() >= kStarting && status() < kStopped) return;
setStatus(kStarting);
auto started_cnt = std::make_shared<std::atomic<int>>(0);
auto exited_cnt = std::make_shared<std::atomic<int>>(0);
loop_threads_.clear();
for (int i = 0; i < thread_num_; ++i) {
auto loop_thread = std::make_shared<EventLoopThread>();
const EventLoopPtr& loop = loop_thread->loop();
loop_thread->start(false,
[this, started_cnt, pre, &loop]() {
if (++(*started_cnt) == thread_num_) {
setStatus(kRunning);
}
if (pre) pre(loop);
return 0;
},
[this, exited_cnt, post, &loop]() {
if (post) post(loop);
if (++(*exited_cnt) == thread_num_) {
setStatus(kStopped);
}
return 0;
}
);
loop_threads_.push_back(loop_thread);
}
if (wait_threads_started) {
while (status() < kRunning) {
hv_delay(1);
}
}
}
// @param wait_threads_started: if ture this method will block until all loop_threads stopped.
// stop thread-safe
void stop(bool wait_threads_stopped = false) {
if (status() < kStarting || status() >= kStopping) return;
setStatus(kStopping);
for (auto& loop_thread : loop_threads_) {
loop_thread->stop(false);
}
if (wait_threads_stopped) {
join();
}
}
// @brief join all loop_threads
// @note destructor will join loop_threads if you forget to call this method.
void join() {
for (auto& loop_thread : loop_threads_) {
loop_thread->join();
}
}
private:
int thread_num_;
std::vector<EventLoopThreadPtr> loop_threads_;
std::atomic<unsigned int> next_loop_idx_;
};
}
#endif // HV_EVENT_LOOP_THREAD_POOL_HPP_