Quelle  retrievedinputstreamdata.cxx   Sprache: C

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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#include <retrievedinputstreamdata.hxx>
#include <retrieveinputstreamconsumer.hxx>
#include <vcl/svapp.hxx>

// #i73788#

SwRetrievedInputStreamDataManager::tDataKey SwRetrievedInputStreamDataManager::snNextKeyValue = 1;

SwRetrievedInputStreamDataManager& SwRetrievedInputStreamDataManager::GetManager()
{
    static SwRetrievedInputStreamDataManager theSwRetrievedInputStreamDataManager;
    return theSwRetrievedInputStreamDataManager;
}

SwRetrievedInputStreamDataManager::tDataKey SwRetrievedInputStreamDataManager::ReserveData(
                        std::weak_ptr< SwAsyncRetrieveInputStreamThreadConsumer > const & pThreadConsumer )
{
    std::unique_lock aGuard(maMutex);

    // create empty data container for given thread Consumer
    tDataKey nDataKey( snNextKeyValue );
    maInputStreamData[nDataKey] = tData(pThreadConsumer);

    // prepare next data key value
    if ( snNextKeyValue < SAL_MAX_UINT64 )
    {
        ++snNextKeyValue;
    }
    else
    {
        snNextKeyValue = 1;
    }

    return nDataKey;
}

void SwRetrievedInputStreamDataManager::PushData(
        const tDataKey nDataKey,
        css::uno::Reference<css::io::XInputStream> const & xInputStream,
        const bool bIsStreamReadOnly )
{
    std::unique_lock aGuard(maMutex);

    std::map< tDataKey, tData >::iterator aIter = maInputStreamData.find( nDataKey );

    if ( aIter == maInputStreamData.end() )
        return;

    // Fill data container.
    (*aIter).second.mxInputStream = xInputStream;
    (*aIter).second.mbIsStreamReadOnly = bIsStreamReadOnly;

    // post user event to process the retrieved input stream data
    if ( GetpApp() )
    {

        tDataKey* pDataKey = new tDataKey;
        *pDataKey = nDataKey;
        Application::PostUserEvent( LINK( this, SwRetrievedInputStreamDataManager, LinkedInputStreamReady ), pDataKey );
    }
    else
    {
        // no application available -> discard data
        maInputStreamData.erase( aIter );
    }
}

bool SwRetrievedInputStreamDataManager::PopData( const tDataKey nDataKey,
                                                 tData& rData )
{
    std::unique_lock aGuard(maMutex);

    bool bDataProvided( false );

    std::map< tDataKey, tData >::iterator aIter = maInputStreamData.find( nDataKey );

    if ( aIter != maInputStreamData.end() )
    {
        rData.mpThreadConsumer = (*aIter).second.mpThreadConsumer;
        rData.mxInputStream = (*aIter).second.mxInputStream;
        rData.mbIsStreamReadOnly = (*aIter).second.mbIsStreamReadOnly;

        maInputStreamData.erase( aIter );

        bDataProvided = true;
    }

    return bDataProvided;
}

/** callback function, which is triggered by input stream data manager on
    filling of the data container to provide retrieved input stream to the
    thread Consumer using <Application::PostUserEvent(..)>

    #i73788#
    Note: This method has to be run in the main thread.
*/
IMPL_STATIC_LINK( SwRetrievedInputStreamDataManager, LinkedInputStreamReady,
                  void*, p, void )
{
    SwRetrievedInputStreamDataManager::tDataKey* pDataKey = static_cast<SwRetrievedInputStreamDataManager::tDataKey*>(p);
    if ( !pDataKey )
    {
        return;
    }

    SwRetrievedInputStreamDataManager& rDataManager =
                            SwRetrievedInputStreamDataManager::GetManager();
    SwRetrievedInputStreamDataManager::tData aInputStreamData;
    if ( rDataManager.PopData( *pDataKey, aInputStreamData ) )
    {
        std::shared_ptr< SwAsyncRetrieveInputStreamThreadConsumer > pThreadConsumer =
                                    aInputStreamData.mpThreadConsumer.lock();
        if ( pThreadConsumer )
        {
            pThreadConsumer->ApplyInputStream( aInputStreamData.mxInputStream,
                                               aInputStreamData.mbIsStreamReadOnly );
        }
    }
    delete pDataKey;
}

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