199 lines
7.4 KiB
C++
199 lines
7.4 KiB
C++
#pragma once
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#include "diagnostics.hpp"
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#include <atomic>
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#include <condition_variable>
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#include <functional>
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#include <memory>
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#include <mutex>
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#include <optional>
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#include <queue>
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#include <thread>
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#include <vector>
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namespace kpn {
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// ── IScheduler ────────────────────────────────────────────────────────────────
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struct IScheduler {
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virtual ~IScheduler() = default;
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// Submit a task with an optional priority in [0, 1]. Higher = run sooner.
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virtual void submit(std::function<void()> task, float priority = 0.5f) = 0;
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// Start worker threads. Must be called before submit().
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virtual void start() = 0;
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// Halt: signal workers to exit and join them. Pending tasks are discarded.
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virtual void stop() = 0;
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// Drain: block until all in-flight tasks complete. Workers keep running.
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virtual void drain() = 0;
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};
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// ── ThreadPool ────────────────────────────────────────────────────────────────
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//
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// Work-stealing thread pool with per-thread priority queues.
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//
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// Each worker owns a priority_queue (max-heap by priority, FIFO within equal
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// priority via sequence number). submit() distributes via round-robin. When a
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// worker's queue is empty it tries to steal from the most-loaded peer using
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// try_lock to avoid blocking; if no work is found it sleeps on a shared CV.
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//
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// total_ counts tasks submitted-but-not-completed (queued + executing).
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// drain() waits until total_ == 0.
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class ThreadPool : public IScheduler, public IPoolProbe {
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public:
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explicit ThreadPool(std::size_t thread_count) : thread_count_(thread_count) {}
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~ThreadPool() {
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if (!stopped_.load(std::memory_order_relaxed))
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stop();
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}
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void start() override {
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stopped_.store(false, std::memory_order_relaxed);
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queues_.clear();
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for (std::size_t i = 0; i < thread_count_; ++i)
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queues_.push_back(std::make_unique<WorkerQueue>());
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workers_.reserve(thread_count_);
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for (std::size_t i = 0; i < thread_count_; ++i)
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workers_.emplace_back([this, i] { worker_loop(i); });
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}
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void stop() override {
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stopped_.store(true, std::memory_order_seq_cst);
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for (auto& q : queues_) {
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std::lock_guard lock(q->mx);
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std::size_t discarded = q->pq.size();
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while (!q->pq.empty()) q->pq.pop();
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total_.fetch_sub(discarded, std::memory_order_relaxed);
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}
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cv_.notify_all();
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for (auto& t : workers_) if (t.joinable()) t.join();
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workers_.clear();
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queues_.clear();
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}
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void drain() override {
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std::unique_lock lock(drain_mx_);
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drain_cv_.wait(lock, [this] {
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return total_.load(std::memory_order_acquire) == 0;
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});
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}
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void submit(std::function<void()> task, float priority = 0.5f) override {
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std::size_t target = next_.fetch_add(1, std::memory_order_relaxed) % thread_count_;
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{
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std::lock_guard lock(queues_[target]->mx);
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queues_[target]->pq.push(
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{std::move(task), priority, seq_.fetch_add(1, std::memory_order_relaxed)});
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}
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total_.fetch_add(1, std::memory_order_relaxed);
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submitted_.fetch_add(1, std::memory_order_relaxed);
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cv_.notify_one();
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}
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std::size_t thread_count() const { return thread_count_; }
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// ── IPoolProbe ────────────────────────────────────────────────────────────
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PoolSnapshot snapshot(const std::string& name) const override {
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std::size_t a = active_.load(std::memory_order_relaxed);
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std::size_t t = total_.load(std::memory_order_relaxed);
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return {
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name, thread_count_,
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t > a ? t - a : 0, // queued (approximate)
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a, // executing
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submitted_.load(std::memory_order_relaxed),
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completed_.load(std::memory_order_relaxed),
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};
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}
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private:
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struct Task {
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std::function<void()> fn;
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float priority;
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uint64_t seq;
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// max-heap: higher priority runs first; older task wins tie
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bool operator<(const Task& o) const {
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if (priority != o.priority) return priority < o.priority;
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return seq > o.seq;
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}
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};
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// Separate cache lines to prevent false sharing between adjacent queues.
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struct alignas(64) WorkerQueue {
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std::priority_queue<Task> pq;
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std::mutex mx;
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};
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std::optional<std::function<void()>> try_pop(WorkerQueue& q) {
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std::lock_guard lock(q.mx);
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if (q.pq.empty()) return std::nullopt;
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auto fn = std::move(const_cast<Task&>(q.pq.top()).fn);
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q.pq.pop();
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return fn;
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}
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std::optional<std::function<void()>> try_steal(std::size_t thief) {
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// Find the most-loaded peer without blocking — racy peek is fine.
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std::size_t victim = thief, best = 0;
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for (std::size_t i = 0; i < queues_.size(); ++i) {
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if (i == thief) continue;
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std::unique_lock lk(queues_[i]->mx, std::try_to_lock);
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if (!lk) continue;
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std::size_t n = queues_[i]->pq.size();
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if (n > best) { best = n; victim = i; }
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}
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if (victim == thief) return std::nullopt;
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return try_pop(*queues_[victim]);
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}
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void execute(std::function<void()>& fn) {
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active_.fetch_add(1, std::memory_order_relaxed);
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fn();
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completed_.fetch_add(1, std::memory_order_relaxed);
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active_.fetch_sub(1, std::memory_order_relaxed);
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// Notify drain() if this was the last in-flight task.
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// acq_rel ensures the decrement is visible before any drain() load.
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if (total_.fetch_sub(1, std::memory_order_acq_rel) == 1)
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drain_cv_.notify_all();
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}
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void worker_loop(std::size_t id) {
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while (true) {
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if (auto fn = try_pop(*queues_[id])) { execute(*fn); continue; }
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if (auto fn = try_steal(id)) { execute(*fn); continue; }
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std::unique_lock lock(cv_mx_);
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cv_.wait(lock, [this] {
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return stopped_.load(std::memory_order_seq_cst)
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|| total_.load(std::memory_order_relaxed) > 0;
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});
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if (stopped_.load(std::memory_order_seq_cst)
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&& total_.load(std::memory_order_relaxed) == 0)
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return;
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}
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}
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const std::size_t thread_count_;
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std::vector<std::unique_ptr<WorkerQueue>> queues_;
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std::vector<std::thread> workers_;
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std::mutex cv_mx_;
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std::condition_variable cv_;
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std::mutex drain_mx_;
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std::condition_variable drain_cv_;
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std::atomic<bool> stopped_{true};
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std::atomic<size_t> total_{0}; // queued + executing
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std::atomic<size_t> active_{0}; // executing only (for snapshot)
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std::atomic<size_t> next_{0}; // round-robin submit cursor
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std::atomic<uint64_t> seq_{0}; // tie-break for equal-priority tasks
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std::atomic<uint64_t> submitted_{0};
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std::atomic<uint64_t> completed_{0};
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};
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} // namespace kpn
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