#pragma once ///@file #include "error.hh" #include "sync.hh" #include #include #include #include namespace nix { MakeError(ThreadPoolShutDown, Error); /** * A simple thread pool that executes a queue of work items * (lambdas). */ class ThreadPool { public: ThreadPool(size_t maxThreads = 0); ~ThreadPool(); /** * An individual work item. * * \todo use std::packaged_task? */ typedef std::function work_t; /** * Enqueue a function to be executed by the thread pool. */ void enqueue(const work_t & t); /** * Execute work items until the queue is empty. * * \note Note that work items are allowed to add new items to the * queue; this is handled correctly. * * Queue processing stops prematurely if any work item throws an * exception. This exception is propagated to the calling thread. If * multiple work items throw an exception concurrently, only one * item is propagated; the others are printed on stderr and * otherwise ignored. */ void process(); private: size_t maxThreads; struct State { std::queue pending; size_t active = 0; std::exception_ptr exception; std::vector workers; bool draining = false; }; std::atomic_bool quit{false}; Sync state_; std::condition_variable work; void doWork(bool mainThread); void shutdown(); }; /** * Process in parallel a set of items of type T that have a partial * ordering between them. Thus, any item is only processed after all * its dependencies have been processed. */ template void processGraph( ThreadPool & pool, const std::set & nodes, std::function(const T &)> getEdges, std::function processNode) { struct Graph { std::set left; std::map> refs, rrefs; }; Sync graph_(Graph{nodes, {}, {}}); std::function worker; worker = [&](const T & node) { { auto graph(graph_.lock()); auto i = graph->refs.find(node); if (i == graph->refs.end()) goto getRefs; goto doWork; } getRefs: { auto refs = getEdges(node); refs.erase(node); { auto graph(graph_.lock()); for (auto & ref : refs) if (graph->left.count(ref)) { graph->refs[node].insert(ref); graph->rrefs[ref].insert(node); } if (graph->refs[node].empty()) goto doWork; } } return; doWork: processNode(node); /* Enqueue work for all nodes that were waiting on this one and have no unprocessed dependencies. */ { auto graph(graph_.lock()); for (auto & rref : graph->rrefs[node]) { auto & refs(graph->refs[rref]); auto i = refs.find(node); assert(i != refs.end()); refs.erase(i); if (refs.empty()) pool.enqueue(std::bind(worker, rref)); } graph->left.erase(node); graph->refs.erase(node); graph->rrefs.erase(node); } }; for (auto & node : nodes) pool.enqueue(std::bind(worker, std::ref(node))); pool.process(); if (!graph_.lock()->left.empty()) throw Error("graph processing incomplete (cyclic reference?)"); } }