// // MultiCRTMachine.cpp // Clock Signal // // Created by Thomas Harte on 29/01/2018. // Copyright 2018 Thomas Harte. All rights reserved. // #include "MultiCRTMachine.hpp" #include #include using namespace Analyser::Dynamic; MultiCRTMachine::MultiCRTMachine(const std::vector> &machines, std::mutex &machines_mutex) : machines_(machines), machines_mutex_(machines_mutex), queues_(machines.size()) { speaker_ = MultiSpeaker::create(machines); } void MultiCRTMachine::perform_parallel(const std::function &function) { // Apply a blunt force parallelisation of the machines; each run_for is dispatched // to a separate queue and this queue will block until all are done. volatile std::size_t outstanding_machines; std::condition_variable condition; std::mutex mutex; { std::lock_guard machines_lock(machines_mutex_); std::lock_guard lock(mutex); outstanding_machines = machines_.size(); for(std::size_t index = 0; index < machines_.size(); ++index) { CRTMachine::Machine *crt_machine = machines_[index]->crt_machine(); queues_[index].enqueue([&mutex, &condition, crt_machine, function, &outstanding_machines]() { if(crt_machine) function(crt_machine); std::lock_guard lock(mutex); outstanding_machines--; condition.notify_all(); }); } } std::unique_lock lock(mutex); condition.wait(lock, [&outstanding_machines] { return !outstanding_machines; }); } void MultiCRTMachine::perform_serial(const std::function &function) { std::lock_guard machines_lock(machines_mutex_); for(const auto &machine: machines_) { CRTMachine::Machine *const crt_machine = machine->crt_machine(); if(crt_machine) function(crt_machine); } } void MultiCRTMachine::set_scan_target(Outputs::Display::ScanTarget *scan_target) { scan_target_ = scan_target; CRTMachine::Machine *const crt_machine = machines_.front()->crt_machine(); if(crt_machine) crt_machine->set_scan_target(scan_target); } Outputs::Speaker::Speaker *MultiCRTMachine::get_speaker() { return speaker_; } void MultiCRTMachine::run_for(Time::Seconds duration) { perform_parallel([=](::CRTMachine::Machine *machine) { if(machine->get_confidence() >= 0.01f) machine->run_for(duration); }); if(delegate_) delegate_->multi_crt_did_run_machines(); } void MultiCRTMachine::did_change_machine_order() { if(scan_target_) scan_target_->will_change_owner(); perform_serial([=](::CRTMachine::Machine *machine) { machine->set_scan_target(nullptr); }); CRTMachine::Machine *const crt_machine = machines_.front()->crt_machine(); if(crt_machine) crt_machine->set_scan_target(scan_target_); if(speaker_) { speaker_->set_new_front_machine(machines_.front().get()); } }