// STL includes #include #include // QT includes #include #include #include // hyperion include #include #if defined(ENABLE_FORWARDER) #include #endif #include #include // utils #include #include #include // LedDevice includes #include #include #include #if defined(ENABLE_EFFECTENGINE) // effect engine includes #include #endif // settingsManagaer #include // BGEffectHandler #include // CaptureControl (Daemon capture) #include // Boblight #if defined(ENABLE_BOBLIGHT_SERVER) #include #endif Hyperion::Hyperion(quint8 instance, bool readonlyMode) : QObject() , _instIndex(instance) , _settingsManager(new SettingsManager(instance, this, readonlyMode)) , _componentRegister(nullptr) , _ledString(hyperion::createLedString(getSetting(settings::LEDS).array(), hyperion::createColorOrder(getSetting(settings::DEVICE).object()))) , _imageProcessor(nullptr) , _muxer(nullptr) , _raw2ledAdjustment(hyperion::createLedColorsAdjustment(static_cast(_ledString.leds().size()), getSetting(settings::COLOR).object())) , _ledDeviceWrapper(nullptr) , _deviceSmooth(nullptr) #if defined(ENABLE_EFFECTENGINE) , _effectEngine(nullptr) #endif #if defined(ENABLE_FORWARDER) , _messageForwarder(nullptr) #endif , _log(nullptr) , _hwLedCount() , _ledGridSize(hyperion::getLedLayoutGridSize(getSetting(settings::LEDS).array())) , _BGEffectHandler(nullptr) , _captureCont(nullptr) , _ledBuffer(_ledString.leds().size(), ColorRgb::BLACK) #if defined(ENABLE_BOBLIGHT_SERVER) , _boblightServer(nullptr) #endif , _readOnlyMode(readonlyMode) { QString subComponent = "I"+QString::number(instance); this->setProperty("instance", (QString) subComponent); _log= Logger::getInstance("HYPERION", subComponent); _componentRegister = new ComponentRegister(this); _imageProcessor = new ImageProcessor(_ledString, this); _muxer = new PriorityMuxer(static_cast(_ledString.leds().size()), this); } Hyperion::~Hyperion() { freeObjects(); } void Hyperion::start() { // forward settings changed to Hyperion connect(_settingsManager, &SettingsManager::settingsChanged, this, &Hyperion::settingsChanged); // get newVideoMode from HyperionIManager connect(this, &Hyperion::newVideoMode, this, &Hyperion::handleNewVideoMode); if (!_raw2ledAdjustment->verifyAdjustments()) { Warning(_log, "At least one led has no color calibration, please add all leds from your led layout to an 'LED index' field!"); } // handle hwLedCount _hwLedCount = getSetting(settings::DEVICE).object()["hardwareLedCount"].toInt(getLedCount()); // Initialize colororder vector for (const Led& led : _ledString.leds()) { _ledStringColorOrder.push_back(led.colorOrder); } // connect Hyperion::update with Muxer visible priority changes as muxer updates independent connect(_muxer, &PriorityMuxer::visiblePriorityChanged, this, &Hyperion::update); connect(_muxer, &PriorityMuxer::visiblePriorityChanged, this, &Hyperion::handleSourceAvailability); connect(_muxer, &PriorityMuxer::visibleComponentChanged, this, &Hyperion::handleVisibleComponentChanged); // listens for ComponentRegister changes of COMP_ALL to perform core enable/disable actions // connect(&_componentRegister, &ComponentRegister::updatedComponentState, this, &Hyperion::updatedComponentState); // listen for settings updates of this instance (LEDS & COLOR) connect(_settingsManager, &SettingsManager::settingsChanged, this, &Hyperion::handleSettingsUpdate); #if 0 // set color correction activity state const QJsonObject color = getSetting(settings::COLOR).object(); #endif // initialize LED-devices QJsonObject ledDevice = getSetting(settings::DEVICE).object(); ledDevice["currentLedCount"] = _hwLedCount; // Inject led count info _ledDeviceWrapper = new LedDeviceWrapper(this); connect(this, &Hyperion::compStateChangeRequest, _ledDeviceWrapper, &LedDeviceWrapper::handleComponentState); connect(this, &Hyperion::ledDeviceData, _ledDeviceWrapper, &LedDeviceWrapper::updateLeds); _ledDeviceWrapper->createLedDevice(ledDevice); // smoothing _deviceSmooth = new LinearColorSmoothing(getSetting(settings::SMOOTHING), this); connect(this, &Hyperion::settingsChanged, _deviceSmooth, &LinearColorSmoothing::handleSettingsUpdate); //Start in pause mode, a new priority will activate smoothing (either start-effect or grabber) _deviceSmooth->setPause(true); #if defined(ENABLE_FORWARDER) // create the message forwarder only on main instance if (_instIndex == 0) { _messageForwarder = new MessageForwarder(this); _messageForwarder->handleSettingsUpdate(settings::NETFORWARD, getSetting(settings::NETFORWARD)); #if defined(ENABLE_FLATBUF_SERVER) || defined(ENABLE_PROTOBUF_SERVER) connect(GlobalSignals::getInstance(), &GlobalSignals::setBufferImage, this, &Hyperion::forwardBufferMessage); #endif } #endif #if defined(ENABLE_EFFECTENGINE) // create the effect engine; needs to be initialized after smoothing! _effectEngine = new EffectEngine(this); connect(_effectEngine, &EffectEngine::effectListUpdated, this, &Hyperion::effectListUpdated); #endif // initial startup effect hyperion::handleInitialEffect(this, getSetting(settings::FGEFFECT).object()); // handle background effect _BGEffectHandler = new BGEffectHandler(this); // create the Daemon capture interface _captureCont = new CaptureCont(this); // forwards global signals to the corresponding slots connect(GlobalSignals::getInstance(), &GlobalSignals::registerGlobalInput, this, &Hyperion::registerInput); connect(GlobalSignals::getInstance(), &GlobalSignals::clearGlobalInput, this, &Hyperion::clear); connect(GlobalSignals::getInstance(), &GlobalSignals::setGlobalColor, this, &Hyperion::setColor); connect(GlobalSignals::getInstance(), &GlobalSignals::setGlobalImage, this, &Hyperion::setInputImage); // if there is no startup / background effect and no sending capture interface we probably want to push once BLACK (as PrioMuxer won't emit a priority change) update(); #if defined(ENABLE_BOBLIGHT_SERVER) // boblight, can't live in global scope as it depends on layout _boblightServer = new BoblightServer(this, getSetting(settings::BOBLSERVER)); connect(this, &Hyperion::settingsChanged, _boblightServer, &BoblightServer::handleSettingsUpdate); #endif // instance initiated, enter thread event loop emit started(); } void Hyperion::stop() { emit finished(); thread()->wait(); } void Hyperion::freeObjects() { //delete Background effect first that it does not kick in when other priorities are stopped delete _BGEffectHandler; //Remove all priorities to switch off all leds clear(-1,true); // delete components on exit of hyperion core #if defined(ENABLE_BOBLIGHT_SERVER) delete _boblightServer; #endif delete _captureCont; #if defined(ENABLE_EFFECTENGINE) delete _effectEngine; #endif delete _raw2ledAdjustment; #if defined(ENABLE_FORWARDER) delete _messageForwarder; #endif delete _settingsManager; delete _ledDeviceWrapper; delete _imageProcessor; delete _muxer; delete _componentRegister; } void Hyperion::handleSettingsUpdate(settings::type type, const QJsonDocument& config) { // std::cout << "Hyperion::handleSettingsUpdate" << std::endl; // std::cout << config.toJson().toStdString() << std::endl; if(type == settings::COLOR) { const QJsonObject obj = config.object(); // change in color recreate ledAdjustments delete _raw2ledAdjustment; _raw2ledAdjustment = hyperion::createLedColorsAdjustment(static_cast(_ledString.leds().size()), obj); if (!_raw2ledAdjustment->verifyAdjustments()) { Warning(_log, "At least one led has no color calibration, please add all leds from your led layout to an 'LED index' field!"); } } else if(type == settings::LEDS) { const QJsonArray leds = config.array(); #if defined(ENABLE_EFFECTENGINE) // stop and cache all running effects, as effects depend heavily on LED-layout _effectEngine->cacheRunningEffects(); #endif // ledstring, img processor, muxer, ledGridSize (effect-engine image based effects), _ledBuffer and ByteOrder of ledstring _ledString = hyperion::createLedString(leds, hyperion::createColorOrder(getSetting(settings::DEVICE).object())); _imageProcessor->setLedString(_ledString); _muxer->updateLedColorsLength(static_cast(_ledString.leds().size())); _ledGridSize = hyperion::getLedLayoutGridSize(leds); std::vector color(_ledString.leds().size(), ColorRgb{0,0,0}); _ledBuffer = color; _ledStringColorOrder.clear(); for (const Led& led : _ledString.leds()) { _ledStringColorOrder.push_back(led.colorOrder); } // handle hwLedCount update _hwLedCount = getSetting(settings::DEVICE).object()["hardwareLedCount"].toInt(getLedCount()); // change in leds are also reflected in adjustment delete _raw2ledAdjustment; _raw2ledAdjustment = hyperion::createLedColorsAdjustment(static_cast(_ledString.leds().size()), getSetting(settings::COLOR).object()); #if defined(ENABLE_EFFECTENGINE) // start cached effects _effectEngine->startCachedEffects(); #endif } else if(type == settings::DEVICE) { QJsonObject dev = config.object(); // handle hwLedCount update _hwLedCount = dev["hardwareLedCount"].toInt(getLedCount()); // force ledString update, if device ByteOrder changed if(_ledDeviceWrapper->getColorOrder() != dev["colorOrder"].toString("rgb")) { _ledString = hyperion::createLedString(getSetting(settings::LEDS).array(), hyperion::createColorOrder(dev)); _imageProcessor->setLedString(_ledString); _ledStringColorOrder.clear(); for (const Led& led : _ledString.leds()) { _ledStringColorOrder.push_back(led.colorOrder); } } // do always reinit until the led devices can handle dynamic changes dev["currentLedCount"] = _hwLedCount; // Inject led count info _ledDeviceWrapper->createLedDevice(dev); // TODO: Check, if framegrabber frequency is lower than latchtime..., if yes, stop } // update once to push single color sets / adjustments/ ledlayout resizes and update ledBuffer color update(); } QJsonDocument Hyperion::getSetting(settings::type type) const { return _settingsManager->getSetting(type); } bool Hyperion::saveSettings(const QJsonObject& config, bool correct) { return _settingsManager->saveSettings(config, correct); } bool Hyperion::restoreSettings(const QJsonObject& config, bool correct) { return _settingsManager->restoreSettings(config, correct); } int Hyperion::getLatchTime() const { return _ledDeviceWrapper->getLatchTime(); } unsigned Hyperion::addSmoothingConfig(int settlingTime_ms, double ledUpdateFrequency_hz, unsigned updateDelay) { return _deviceSmooth->addConfig(settlingTime_ms, ledUpdateFrequency_hz, updateDelay); } unsigned Hyperion::updateSmoothingConfig(unsigned id, int settlingTime_ms, double ledUpdateFrequency_hz, unsigned updateDelay) { return _deviceSmooth->updateConfig(id, settlingTime_ms, ledUpdateFrequency_hz, updateDelay); } int Hyperion::getLedCount() const { return static_cast(_ledString.leds().size()); } void Hyperion::setSourceAutoSelect(bool state) { _muxer->setSourceAutoSelectEnabled(state); } bool Hyperion::setVisiblePriority(int priority) { return _muxer->setPriority(priority); } bool Hyperion::sourceAutoSelectEnabled() const { return _muxer->isSourceAutoSelectEnabled(); } void Hyperion::setNewComponentState(hyperion::Components component, bool state) { _componentRegister->setNewComponentState(component, state); } std::map Hyperion::getAllComponents() const { return _componentRegister->getRegister(); } int Hyperion::isComponentEnabled(hyperion::Components comp) const { return _componentRegister->isComponentEnabled(comp); } void Hyperion::registerInput(int priority, hyperion::Components component, const QString& origin, const QString& owner, unsigned smooth_cfg) { _muxer->registerInput(priority, component, origin, owner, smooth_cfg); } bool Hyperion::setInput(int priority, const std::vector& ledColors, int timeout_ms, bool clearEffect) { if(_muxer->setInput(priority, ledColors, timeout_ms)) { #if defined(ENABLE_EFFECTENGINE) // clear effect if this call does not come from an effect if(clearEffect) { _effectEngine->channelCleared(priority); } #endif // if this priority is visible, update immediately if(priority == _muxer->getCurrentPriority()) { update(); } return true; } return false; } bool Hyperion::setInputImage(int priority, const Image& image, int64_t timeout_ms, bool clearEffect) { if (!_muxer->hasPriority(priority)) { emit GlobalSignals::getInstance()->globalRegRequired(priority); return false; } if(_muxer->setInputImage(priority, image, timeout_ms)) { #if defined(ENABLE_EFFECTENGINE) // clear effect if this call does not come from an effect if(clearEffect) { _effectEngine->channelCleared(priority); } #endif // if this priority is visible, update immediately if(priority == _muxer->getCurrentPriority()) { update(); } return true; } return false; } bool Hyperion::setInputInactive(quint8 priority) { return _muxer->setInputInactive(priority); } void Hyperion::setColor(int priority, const std::vector &ledColors, int timeout_ms, const QString &origin, bool clearEffects) { #if defined(ENABLE_EFFECTENGINE) // clear effect if this call does not come from an effect if (clearEffects) { _effectEngine->channelCleared(priority); } #endif // create full led vector from single/multiple colors size_t size = _ledString.leds().size(); std::vector newLedColors; while (true) { for (const auto &entry : ledColors) { newLedColors.emplace_back(entry); if (newLedColors.size() == size) { goto end; } } } end: // register color registerInput(priority, hyperion::COMP_COLOR, origin); // write color to muxer setInput(priority, newLedColors, timeout_ms); } QStringList Hyperion::getAdjustmentIds() const { return _raw2ledAdjustment->getAdjustmentIds(); } ColorAdjustment * Hyperion::getAdjustment(const QString& id) const { return _raw2ledAdjustment->getAdjustment(id); } void Hyperion::adjustmentsUpdated() { emit adjustmentChanged(); update(); } bool Hyperion::clear(int priority, bool forceClearAll) { bool isCleared = false; if (priority < 0) { _muxer->clearAll(forceClearAll); #if defined(ENABLE_EFFECTENGINE) // send clearall signal to the effect engine _effectEngine->allChannelsCleared(); #endif isCleared = true; } else { #if defined(ENABLE_EFFECTENGINE) // send clear signal to the effect engine // (outside the check so the effect gets cleared even when the effect is not sending colors) _effectEngine->channelCleared(priority); #endif if (_muxer->clearInput(priority)) { isCleared = true; } } return isCleared; } int Hyperion::getCurrentPriority() const { return _muxer->getCurrentPriority(); } bool Hyperion::isCurrentPriority(int priority) const { return getCurrentPriority() == priority; } QList Hyperion::getActivePriorities() const { return _muxer->getPriorities(); } Hyperion::InputInfo Hyperion::getPriorityInfo(int priority) const { return _muxer->getInputInfo(priority); } #if defined(ENABLE_EFFECTENGINE) QString Hyperion::saveEffect(const QJsonObject& obj) { return _effectEngine->saveEffect(obj); } QString Hyperion::deleteEffect(const QString& effectName) { return _effectEngine->deleteEffect(effectName); } std::list Hyperion::getEffects() const { return _effectEngine->getEffects(); } std::list Hyperion::getActiveEffects() const { return _effectEngine->getActiveEffects(); } std::list Hyperion::getEffectSchemas() const { return _effectEngine->getEffectSchemas(); } int Hyperion::setEffect(const QString &effectName, int priority, int timeout, const QString & origin) { return _effectEngine->runEffect(effectName, priority, timeout, origin); } int Hyperion::setEffect(const QString &effectName, const QJsonObject &args, int priority, int timeout, const QString &pythonScript, const QString &origin, const QString &imageData) { return _effectEngine->runEffect(effectName, args, priority, timeout, pythonScript, origin, 0, imageData); } #endif QJsonObject Hyperion::getQJsonConfig() const { return _settingsManager->getSettings(); } void Hyperion::setLedMappingType(int mappingType) { if(mappingType != _imageProcessor->getUserLedMappingType()) { _imageProcessor->setLedMappingType(mappingType); emit imageToLedsMappingChanged(mappingType); } } int Hyperion::getLedMappingType() const { return _imageProcessor->getUserLedMappingType(); } void Hyperion::setVideoMode(VideoMode mode) { emit videoMode(mode); } VideoMode Hyperion::getCurrentVideoMode() const { return _currVideoMode; } QString Hyperion::getActiveDeviceType() const { return _ledDeviceWrapper->getActiveDeviceType(); } void Hyperion::handleVisibleComponentChanged(hyperion::Components comp) { _imageProcessor->setBlackbarDetectDisable((comp == hyperion::COMP_EFFECT)); _imageProcessor->setHardLedMappingType((comp == hyperion::COMP_EFFECT) ? 0 : -1); _raw2ledAdjustment->setBacklightEnabled((comp != hyperion::COMP_COLOR && comp != hyperion::COMP_EFFECT)); } void Hyperion::handleSourceAvailability(int priority) { int previousPriority = _muxer->getPreviousPriority(); if ( priority == PriorityMuxer::LOWEST_PRIORITY) { Debug(_log,"No source left -> Pause output processing and switch LED-Device off"); emit _ledDeviceWrapper->switchOff(); emit _deviceSmooth->setPause(true); } else { if ( previousPriority == PriorityMuxer::LOWEST_PRIORITY ) { Debug(_log,"new source available -> Resume output processing and switch LED-Device on"); emit _ledDeviceWrapper->switchOn(); emit _deviceSmooth->setPause(false); } } } void Hyperion::update() { // Obtain the current priority channel int priority = _muxer->getCurrentPriority(); const PriorityMuxer::InputInfo priorityInfo = _muxer->getInputInfo(priority); // copy image & process OR copy ledColors from muxer Image image = priorityInfo.image; if (image.width() > 1 || image.height() > 1) { emit currentImage(image); _ledBuffer = _imageProcessor->process(image); } else { _ledBuffer = priorityInfo.ledColors; } // emit rawLedColors before transform emit rawLedColors(_ledBuffer); _raw2ledAdjustment->applyAdjustment(_ledBuffer); int i = 0; for (ColorRgb& color : _ledBuffer) { // correct the color byte order switch (_ledStringColorOrder.at(i)) { case ColorOrder::ORDER_RGB: // leave as it is break; case ColorOrder::ORDER_BGR: std::swap(color.red, color.blue); break; case ColorOrder::ORDER_RBG: std::swap(color.green, color.blue); break; case ColorOrder::ORDER_GRB: std::swap(color.red, color.green); break; case ColorOrder::ORDER_GBR: std::swap(color.red, color.green); std::swap(color.green, color.blue); break; case ColorOrder::ORDER_BRG: std::swap(color.red, color.blue); std::swap(color.green, color.blue); break; } i++; } // fill additional hardware LEDs with black if ( _hwLedCount > static_cast(_ledBuffer.size()) ) { _ledBuffer.resize(_hwLedCount, ColorRgb::BLACK); } // Write the data to the device if (_ledDeviceWrapper->enabled()) { // Smoothing is disabled if (! _deviceSmooth->enabled()) { emit ledDeviceData(_ledBuffer); } else { // feed smoothing in pause mode to maintain a smooth transition back to smooth mode if (_deviceSmooth->enabled() || _deviceSmooth->pause()) { _deviceSmooth->updateLedValues(_ledBuffer); } } } }