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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ #include "precompiled_sd.hxx" #include "ConfigurationUpdater.hxx" #include "ConfigurationTracer.hxx" #include "ConfigurationClassifier.hxx" #include "ConfigurationControllerBroadcaster.hxx" #include "framework/Configuration.hxx" #include "framework/FrameworkHelper.hxx" #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::drawing::framework; using ::sd::framework::FrameworkHelper; using ::rtl::OUString; using ::std::vector; #undef VERBOSE //#define VERBOSE 2 namespace { static const sal_Int32 snShortTimeout (100); static const sal_Int32 snNormalTimeout (1000); static const sal_Int32 snLongTimeout (10000); static const sal_Int32 snShortTimeoutCountThreshold (1); static const sal_Int32 snNormalTimeoutCountThreshold (5); } namespace sd { namespace framework { //===== ConfigurationUpdaterLock ============================================== class ConfigurationUpdaterLock { public: ConfigurationUpdaterLock (ConfigurationUpdater& rUpdater) : mrUpdater(rUpdater) { mrUpdater.LockUpdates(); } ~ConfigurationUpdaterLock(void) { mrUpdater.UnlockUpdates(); } private: ConfigurationUpdater& mrUpdater; }; //===== ConfigurationUpdater ================================================== ConfigurationUpdater::ConfigurationUpdater ( const ::boost::shared_ptr& rpBroadcaster, const ::boost::shared_ptr& rpResourceManager, const Reference& rxControllerManager) : mxControllerManager(), mpBroadcaster(rpBroadcaster), mxCurrentConfiguration(Reference(new Configuration(NULL, false))), mxRequestedConfiguration(), mbUpdatePending(false), mbUpdateBeingProcessed(false), mnLockCount(0), maUpdateTimer(), mnFailedUpdateCount(0), mpResourceManager(rpResourceManager) { // Prepare the timer that is started when after an update the current // and the requested configuration differ. With the timer we try // updates until the two configurations are the same. maUpdateTimer.SetTimeout(snNormalTimeout); maUpdateTimer.SetTimeoutHdl(LINK(this,ConfigurationUpdater,TimeoutHandler)); SetControllerManager(rxControllerManager); } ConfigurationUpdater::~ConfigurationUpdater (void) { maUpdateTimer.Stop(); } void ConfigurationUpdater::SetControllerManager( const Reference& rxControllerManager) { mxControllerManager = rxControllerManager; } void ConfigurationUpdater::RequestUpdate ( const Reference& rxRequestedConfiguration) { mxRequestedConfiguration = rxRequestedConfiguration; // Find out whether we really can update the configuration. if (IsUpdatePossible()) { #if defined VERBOSE && VERBOSE>=1 OSL_TRACE("UpdateConfiguration start"); #endif // Call UpdateConfiguration while that is possible and while someone // set mbUpdatePending to true in the middle of it. do { UpdateConfiguration(); if (mbUpdatePending && IsUpdatePossible()) continue; } while (false); } else { mbUpdatePending = true; #if defined VERBOSE && VERBOSE>=1 OSL_TRACE("scheduling update for later"); #endif } } Reference ConfigurationUpdater::GetCurrentConfiguration (void) const { return mxCurrentConfiguration; } bool ConfigurationUpdater::IsUpdatePossible (void) { return ! mbUpdateBeingProcessed && mxControllerManager.is() && mnLockCount==0 && mxRequestedConfiguration.is() && mxCurrentConfiguration.is(); } void ConfigurationUpdater::UpdateConfiguration (void) { #if defined VERBOSE && VERBOSE>=1 OSL_TRACE("UpdateConfiguration update"); #endif SetUpdateBeingProcessed(true); comphelper::ScopeGuard aScopeGuard ( ::boost::bind(&ConfigurationUpdater::SetUpdateBeingProcessed, this, false)); try { mbUpdatePending = false; CleanRequestedConfiguration(); ConfigurationClassifier aClassifier(mxRequestedConfiguration, mxCurrentConfiguration); if (aClassifier.Partition()) { #if defined VERBOSE && VERBOSE>=2 OSL_TRACE("ConfigurationUpdater::UpdateConfiguration("); ConfigurationTracer::TraceConfiguration( mxRequestedConfiguration, "requested configuration"); ConfigurationTracer::TraceConfiguration( mxCurrentConfiguration, "current configuration"); #endif // Notify the begining of the update. ConfigurationChangeEvent aEvent; aEvent.Type = FrameworkHelper::msConfigurationUpdateStartEvent; aEvent.Configuration = mxRequestedConfiguration; mpBroadcaster->NotifyListeners(aEvent); // Do the actual update. All exceptions are caught and ignored, // so that the the end of the update is notified always. try { if (mnLockCount == 0) UpdateCore(aClassifier); } catch(RuntimeException) { } // Notify the end of the update. aEvent.Type = FrameworkHelper::msConfigurationUpdateEndEvent; mpBroadcaster->NotifyListeners(aEvent); CheckUpdateSuccess(); } else { #if defined VERBOSE && VERBOSE>0 OSL_TRACE("nothing to do"); #if defined VERBOSE && VERBOSE>=2 ConfigurationTracer::TraceConfiguration( mxRequestedConfiguration, "requested configuration"); ConfigurationTracer::TraceConfiguration( mxCurrentConfiguration, "current configuration"); #endif #endif } } catch (RuntimeException e) { DBG_UNHANDLED_EXCEPTION(); } #if defined VERBOSE && VERBOSE>0 OSL_TRACE("ConfigurationUpdater::UpdateConfiguration)"); OSL_TRACE("UpdateConfiguration end"); #endif } void ConfigurationUpdater::CleanRequestedConfiguration (void) { if (mxControllerManager.is()) { // Request the deactivation of pure anchors that have no child. vector > aResourcesToDeactivate; CheckPureAnchors(mxRequestedConfiguration, aResourcesToDeactivate); if (!aResourcesToDeactivate.empty() ) { Reference xCC ( mxControllerManager->getConfigurationController()); vector >::iterator iId; for (iId=aResourcesToDeactivate.begin(); iId!=aResourcesToDeactivate.end(); ++iId) if (iId->is()) xCC->requestResourceDeactivation(*iId); } } } void ConfigurationUpdater::CheckUpdateSuccess (void) { // When the two configurations differ then start the timer to call // another update later. if ( ! AreConfigurationsEquivalent(mxCurrentConfiguration, mxRequestedConfiguration)) { if (mnFailedUpdateCount <= snShortTimeoutCountThreshold) maUpdateTimer.SetTimeout(snShortTimeout); else if (mnFailedUpdateCount < snNormalTimeoutCountThreshold) maUpdateTimer.SetTimeout(snNormalTimeout); else maUpdateTimer.SetTimeout(snLongTimeout); ++mnFailedUpdateCount; maUpdateTimer.Start(); } else { // Update was successfull. Reset the failed update count. mnFailedUpdateCount = 0; } } void ConfigurationUpdater::UpdateCore (const ConfigurationClassifier& rClassifier) { try { #if defined VERBOSE && VERBOSE>=2 rClassifier.TraceResourceIdVector( "requested but not current resources:", rClassifier.GetC1minusC2()); rClassifier.TraceResourceIdVector( "current but not requested resources:", rClassifier.GetC2minusC1()); rClassifier.TraceResourceIdVector( "requested and current resources:", rClassifier.GetC1andC2()); #endif // Updating of the sub controllers is done in two steps. In the // first the sub controllers typically shut down resources that are // not requested anymore. In the second the sub controllers // typically set up resources that have been newly requested. mpResourceManager->DeactivateResources(rClassifier.GetC2minusC1(), mxCurrentConfiguration); mpResourceManager->ActivateResources(rClassifier.GetC1minusC2(), mxCurrentConfiguration); #if defined VERBOSE && VERBOSE>=2 OSL_TRACE("ConfigurationController::UpdateConfiguration)"); ConfigurationTracer::TraceConfiguration( mxRequestedConfiguration, "requested configuration"); ConfigurationTracer::TraceConfiguration( mxCurrentConfiguration, "current configuration"); #endif // Deactivate pure anchors that have no child. vector > aResourcesToDeactivate; CheckPureAnchors(mxCurrentConfiguration, aResourcesToDeactivate); if (!aResourcesToDeactivate.empty() ) mpResourceManager->DeactivateResources(aResourcesToDeactivate, mxCurrentConfiguration); } catch(RuntimeException) { DBG_UNHANDLED_EXCEPTION(); } } void ConfigurationUpdater::CheckPureAnchors ( const Reference& rxConfiguration, vector >& rResourcesToDeactivate) { if ( ! rxConfiguration.is()) return; // Get a list of all resources in the configuration. Sequence > aResources( rxConfiguration->getResources( NULL, OUString(), AnchorBindingMode_INDIRECT)); sal_Int32 nCount (aResources.getLength()); // Prepare the list of pure anchors that have to be deactivated. rResourcesToDeactivate.clear(); // Iterate over the list in reverse order because when there is a chain // of pure anchors with only the last one having no child then the whole // list has to be deactivated. sal_Int32 nIndex (nCount-1); while (nIndex >= 0) { const Reference xResourceId (aResources[nIndex]); const Reference xResource ( mpResourceManager->GetResource(xResourceId).mxResource); bool bDeactiveCurrentResource (false); // Skip all resources that are no pure anchors. if (xResource.is() && xResource->isAnchorOnly()) { // When xResource is not an anchor of the the next resource in // the list then it is the anchor of no resource at all. if (nIndex == nCount-1) { // No following anchors, deactivate this one, then remove it // from the list. bDeactiveCurrentResource = true; } else { const Reference xPrevResourceId (aResources[nIndex+1]); if ( ! xPrevResourceId.is() || ! xPrevResourceId->isBoundTo(xResourceId, AnchorBindingMode_DIRECT)) { // The previous resource (id) does not exist or is not bound to // the current anchor. bDeactiveCurrentResource = true; } } } if (bDeactiveCurrentResource) { #if defined VERBOSE && VERBOSE>=2 OSL_TRACE("deactiving pure anchor %s because it has no children", OUStringToOString( FrameworkHelper::ResourceIdToString(xResourceId), RTL_TEXTENCODING_UTF8).getStr()); #endif // Erase element from current configuration. for (sal_Int32 nI=nIndex; nI ConfigurationUpdater::GetLock (void) { return ::boost::shared_ptr(new ConfigurationUpdaterLock(*this)); } void ConfigurationUpdater::SetUpdateBeingProcessed (bool bValue) { mbUpdateBeingProcessed = bValue; } IMPL_LINK(ConfigurationUpdater, TimeoutHandler, Timer*, EMPTYARG) { OSL_TRACE("configuration update timer"); if ( ! mbUpdateBeingProcessed && mxCurrentConfiguration.is() && mxRequestedConfiguration.is()) { if ( ! AreConfigurationsEquivalent(mxCurrentConfiguration, mxRequestedConfiguration)) { OSL_TRACE("configurations differ, requesting update"); RequestUpdate(mxRequestedConfiguration); } } return 0; } } } // end of namespace sd::framework