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Exemple de code de traitement d’image

L’exemple de code suivant montre comment implémenter un filtre de traitement d’image simple. Ce filtre de traitement d’image prend en charge la luminosité et le contraste, ainsi que les propriétés de rotation et de bureau facultatives.

Note Des parties de code sont omises de l’exemple suivant pour des raisons de concision.

///
///  Constructor
///
CImageFilter::CImageFilter(VOID) :
    m_pWiaItem(NULL),
    m_pAppWiaTransferCallback(NULL),
    m_nRefCount(0),
    m_pCurrentStream(NULL)
{
    //
    // Nothing
    //
}

///
///  Destructor
///
CImageFilter::~CImageFilter()
{
    if (m_pWiaItem)
    {
        m_pWiaItem->Release();
        m_pWiaItem = NULL;
    }
    if (m_pAppWiaTransferCallback)
    {
        m_pAppWiaTransferCallback->Release();
        m_pAppWiaTransferCallback = NULL;
    }
}

//
// pWiaItem is the WIA item we are doing the download for.
// In the case of folder transfers, this will actually be
// the parent item of the images we are acquiring.
//
STDMETHODIMP
CImageFilter::InitializeFilter(
                  IN IWiaItem2  *pWiaItem,
                  IN IWiaTransferCallback  *pWiaTransferCallback)
{
    HRESULT  hr = S_OK;

    hr = (pWiaItem && pWiaTransferCallback) ? S_OK : E_INVALIDARG;

    //
    // InitializeFilter should only be called only once, but,
    // to be safe, we release any old resources we might still
    // reference before we take references to the new resources.
    //
    if (SUCCEEDED(hr))
    {
        if (m_pWiaItem)
        {
            m_pWiaItem->Release();
            m_pWiaItem = NULL;
        }
        if (m_pAppWiaTransferCallback)
        {
            m_pAppWiaTransferCallback->Release();
            m_pAppWiaTransferCallback = NULL;
        }

        m_pWiaItem = pWiaItem;
        m_pWiaItem->AddRef();
        m_pAppWiaTransferCallback = pWiaTransferCallback;
        m_pAppWiaTransferCallback->AddRef();
    }

    return hr;
}

STDMETHODIMP
CImageFilter::FilterPreviewImage(
                  IN IWiaItem2  *pWiaChildItem,
                  IN RECT  InputImageExtents,
                  IN IStream  *pInputStream)
{
    IStream  *pAppStream   = NULL;
    BSTR  bstrItemName     = NULL;
    BSTR  bstrFullItemName = NULL;
    LONG  xpos = 0, ypos = 0, width = 0, height = 0;
    LONG  lBrightness = 0;
    LONG  lContrast   = 0;
    LONG  lDeskewX    = 0;
    LONG  lDeskewY    = 0;
    LONG  lRotation   = PORTRAIT;

    HRESULT  hr;

    hr = m_pAppWiaTransferCallback ? S_OK : E_UNEXPECTED;

    //
    // Read all of the properties we need.
    //
    if (SUCCEEDED(hr))
    {
        hr = ReadAllProperties(pWiaChildItem,
                               &xpos,
                               &ypos,
                               &width,
                               &height,
                               &bstrItemName,
                               &bstrFullItemName,
                               &lBrightness,
                               &lContrast,
                               &lRotation,
                               &lDeskewX,
                               &lDeskewY);
    }

    //
    // If the upper left corner of the passed image does
    // not correspond to (0,0) on the flatbed, adjust
    // xpos and ypos accordingly in order to "cut out"
    // the correct region represented by pWiaChildItem
    // from pInputStream.
    //
    if (SUCCEEDED(hr))
    {
        xpos = xpos - InputImageExtents.left;
        ypos = ypos - InputImageExtents.top;
    }

    //
    // Now get the application stream and write to it.
    //
    if (SUCCEEDED(hr))
    {
        hr = m_pAppWiaTransferCallback->GetNextStream(
                                            0,
                                            bstrItemName,
                                            bstrFullItemName,
                                            &pAppStream);
    }
    if (SUCCEEDED(hr))
    {
        //
        // DoFiltering is where the actual filtering is done.
        // This function is left out to simplify this example.
        // DoFiltering reads the unfiltered image data from
        // pInputStream and writes the filtered (and possibly
        // deskewed) image into pAppStream.
        //
        // Note: A "real" implementation of DoFiltering should send
        // WIA_TRANSFER_MSG_STATUS messages to the application's
        // callback interface, m_pAppWiaTransferCallback.
        // DoFiltering should preferably also be able to
        // work on bands of data in the case where there is no
        // rotation or deskewing being performed.
        //
        hr = DoFiltering(lBrightness,
                         lContrast,
                         lDeskewX,
                         lDeskewY,
                         pInputStream,
                         pAppStream,
                         xpos,
                         ypos,
                         width,
                         height,
                         lRotation);
    }

    if (pAppStream)
    {
        pAppStream->Release();
    }

    return hr;
}

//
// Our simple image processing filter implementation always
// caches all data internally, and it does not write data back
// to the application's stream until it receives
// WIA_TRANSFER_MSG_END_OF_STREAM. A "real" image-processing
// filter should be able to work on bands of data -- at least
// if there is no rotation or deskew set into the item.
//
// In order to find out how many bytes have been written
// into the application's stream, we store an interface
// pointer to the current filtering stream, m_pCurrentStream.
// When we reach the end of the stream, we must notify the
// filtering stream that it should filter and write all of
// its image data to the application stream, if it has not
// already done so.
//
STDMETHODIMP
CImageFilter::TransferCallback(
                  IN LONG  lFlags,
                  IN WiaTransferParams  *pWiaTransferParams)
{
    HRESULT  hr;

    hr = m_pAppWiaTransferCallback ? S_OK : E_UNEXPECTED;

    if (SUCCEEDED(hr))
    {
        //
        // Note: The percent reflects the amount of scanning
        // the driver reports, whereas the "BytesWritten" member
        // is the actual number of bytes that we have written
        // to the application's stream.
        // We do not modify the percent, however we have to
        // modify the ulBytesWrittenToCurrentStream member.
        //
        if ((pWiaTransferParams->lMessage ==
                            WIA_TRANSFER_MSG_END_OF_STREAM) &&
             m_pCurrentStream )
        {
            hr = m_pCurrentStream->Flush();
        }
        else if (m_pCurrentStream)
        {
            pWiaTransferParams->ulBytesWrittenToCurrentStream =
                                  m_pCurrentStream->m_cBytesWritten;
        }

        hr = m_pAppWiaTransferCallback->TransferCallback(
                                            lFlags,
                                            pWiaTransferParams);
        if (m_pCurrentStream &&
            (pWiaTransferParams->lMessage ==
                            WIA_TRANSFER_MSG_END_OF_STREAM))
        {
            m_pCurrentStream->Release();
            m_pCurrentStream = NULL;
        }
    }
    return hr;
}

//
// GetNextStream creates a filtering stream whose Write method
// writes to the application's stream. Because the item
// represented by bstrFullItemName might be a child item of
// the item passed into InitializeFilter, we have to call
// FindItemByName to retrieve the actual item.
//
STDMETHODIMP
CImageFilter::GetNextStream(
                  IN  LONG     lFlags,
                  IN  BSTR     bstrItemName,
                  IN  BSTR     bstrFullItemName,
                  OUT IStream  **ppDestination)
{
    HRESULT    hr;
    IStream    *pAppStream      = NULL;
    IStream    *pCachingStream  = NULL;
    IWiaItem2  *pCurrentWiaItem = NULL;
    LONG       lBrightness      = 0;
    LONG       lContrast        = 0;
    LONG       lDeskewX         = 0;
    LONG       lDeskewY         = 0;
    LONG       lRotation        = PORTRAIT;

    hr = m_pAppWiaTransferCallback ? S_OK : E_UNEXPECTED;

    if (m_pCurrentStream)
    {
        m_pCurrentStream->Release();
        m_pCurrentStream = NULL;
    }
    if (SUCCEEDED(hr))
    {
        hr = m_pAppWiaTransferCallback->GetNextStream(
                                            lFlags,
                                            bstrItemName,
                                            bstrFullItemName,
                                            &pAppStream);
    }
    if (SUCCEEDED(hr))
    {
        hr = m_pWiaItem->FindItemByName(
                             0,
                             bstrFullItemName,
                             &pCurrentWiaItem);
    }
    //
    // Here we read all properties from pCurrentWiaItem
    // that we need in order to do the filtering.
    // Note: We do not need to read all the properties
    // like we did in update preview. The driver should
    // always return the area represented by the bounding
    // rectangle, so no "cutting" will be done in this case.
    //
    if (SUCCEEDED(hr))
    {
        hr = ReadDownloadProperties(pCurrentWiaItem,
                                    &lBrightness,
                                    &lContrast,
                                    &lRotation,
                                    &lDeskewX,
                                    &lDeskewY);
    }

    if (SUCCEEDED(hr))
    {
        hr = CreateStreamOnHGlobal(0, TRUE, &pCachingStream);
        if (SUCCEEDED(hr))
        {
            //
            // The implementation of CalculateAndSetSize is
            // omitted here. CalculateAndSetSize estimates the
            // maximum size of the image we are about to download;
            // then it calls SetSize on the caching stream.
            // This size calculation is for performance reasons
            // (if the image we are downloading is very large).
            // A "real" image processing filter should probably
            // use a higher-performance stream implementation.
            //
            CalculateAndSetSize(pCurrentWiaItem, pCachingStream);
        }
    }
    if (SUCCEEDED(hr))
    {
        m_pCurrentStream = new CMyFilterStream(
                                   pAppStream,
                                   pCachingStream,
                                   lBrightness,
                                   lContrast,
                                   lRotation,
                                   lDeskewX,
                                   lDeskewY);
        if (m_pCurrentStream)
        {
            hr = m_pCurrentStream->QueryInterface(
                                       IID_IStream,
                                       (void**)ppDestination);
        }
        else
        {
            hr = E_OUTOFMEMORY;
        }
    }
    if (pAppStream)
    {
        pAppStream->Release();
    }
    if (pCachingStream)
    {
        pCachingStream->Release();
    }
    if (pCurrentWiaItem)
    {
        pCurrentWiaItem->Release();
    }

    return hr;
}

//
// FILTERING STREAM IMPLEMENTATION
//

///
/// Constructor - Note: Sets reference count to 1.
///
CMyFilterStream::CMyFilterStream(
                     IStream  *pAppStream,
                     IStream  *pCachingStream,
                     LONG  lBrightness,
                     LONG  lContrast,
                     LONG  lRotation,
                     LONG  lDeskewX,
                     LONG  lDeskewY) :

    m_pAppStream(pAppStream),
    m_pCachingStream(pCachingStream),
    m_nRefCount(1),
    m_cBytesWritten(0),
    m_lBrightness(lBrightness),
    m_lContrast(lContrast),
    m_lRotation(lRotation),
    m_lDeskewX(lDeskewX),
    m_lDeskewY(lDeskewY)
{
    if (m_pAppStream)
    {
        m_pAppStream->AddRef();
    }
    if (m_pCachingStream)
    {
        m_pCachingStream->AddRef();
    }
}

///
/// Destructor
///
CMyFilterStream::~CMyFilterStream()
{
    if (m_pAppStream)
    {
        m_pAppStream->Release();
    }
    if (m_pCachingStream)
    {
        m_pCachingStream->Release();
    }
}

//
// The only IStream method of interest here is Write.
// For this simple ImageProcesing filter, we always write the
// data into the "caching stream". The filtered image data is
// not written into the application's stream until we receive
// an end-of-stream message.
//
STDMETHODIMP
CMyFilterStream::Write(const void *pv, ULONG cb, ULONG *pcbWritten)
{
    return m_pCachingStream->Write(pv, cb, pcbWritten);
}

//
// Flush is called when our callback routine receives
// WIA_TRANSFER_MSG_END_OF_STREAM. In this simple implementation,
// this is when we first write the data to the application's
// stream, m_pAppStream.
//
HRESULT
CMyFilterStream::Flush(VOID)
{
    HRESULT hr;

    hr = DoFiltering(m_pAppWiaTransferCallback,
                     m_lBrightness,
                     m_lContrast,
                     m_lRotation,
                     m_lDeskewX,
                     m_lDeskewY,
                     m_pCachingStream,
                     m_pAppStream);

    if (m_pAppStream)
    {
        m_pAppStream->Release();
        m_pAppStream = NULL;
    }
    if (m_pCachingStream)
    {
        m_pCachingStream->Release();
        m_pCachingStream = NULL;
    }

    return hr;
}