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IMFTransform::ProcessOutput method

Generates output from the current input data.

Syntax


HRESULT ProcessOutput(
  [in]       DWORD dwFlags,
  [in]       DWORD cOutputBufferCount,
  [in, out]  MFT_OUTPUT_DATA_BUFFER *pOutputSamples,
  [out]      DWORD *pdwStatus
);

Parameters

dwFlags [in]

Bitwise OR of zero or more flags from the _MFT_PROCESS_OUTPUT_FLAGS enumeration.

cOutputBufferCount [in]

Number of elements in the pOutputSamples array. The value must be at least 1.

pOutputSamples [in, out]

Pointer to an array of MFT_OUTPUT_DATA_BUFFER structures, allocated by the caller. The MFT uses this array to return output data to the caller.

pdwStatus [out]

Receives a bitwise OR of zero or more flags from the _MFT_PROCESS_OUTPUT_STATUS enumeration.

Return value

The method returns an HRESULT. Possible values include, but are not limited to, those in the following table.

Return codeDescription
S_OK

The method succeeded.

E_UNEXPECTED

The ProcessOutput method was called on an asynchronous MFT that was not expecting this method call.

MF_E_INVALIDSTREAMNUMBER

Invalid stream identifier in the dwStreamID member of one or more MFT_OUTPUT_DATA_BUFFER structures.

MF_E_TRANSFORM_NEED_MORE_INPUT

The transform cannot produce output data until it receives more input data.

MF_E_TRANSFORM_STREAM_CHANGE

The format has changed on an output stream, or there is a new preferred format, or there is a new output stream.

MF_E_TRANSFORM_TYPE_NOT_SET

You must set the media type on one or more streams of the MFT.

 

Note  If you are converting a DirectX Media Object (DMO) to an MFT, be aware that S_FALSE is not a valid return code for IMFTransform::ProcessOutput, unlike the IMediaObject::ProcessOutput method.

Remarks

The size of the pOutputSamples array must be equal to or greater than the number of selected output streams. The number of selected output streams equals the total number of output streams minus the number of deselected streams. A stream is deselected if it has the MFT_OUTPUT_STREAM_OPTIONAL flag and the caller does not set a media type (or sets the media type to NULL). For more information, see _MFT_OUTPUT_STREAM_INFO_FLAGS enumeration.

This method generates output samples and can also generate events. If the method succeeds, at least one of the following conditions is true:

  • One or more samples in the pOutputSamples array contains output data.
  • One or more members of the pOutputSamples array contains a non-empty collection of events.

If MFT_UNIQUE_METHOD_NAMES is defined before including Mftransform.h, this method is renamed MFTProcessOutput. See Creating Hybrid DMO/MFT Objects.

Output Buffers

The MFT returns output data for a stream through the pSample member of the MFT_OUTPUT_DATA_BUFFER structure. This structure member is a pointer to the IMFSample interface of a media sample. (See Media Samples.) The media sample is allocated either by the caller or by the MFT, depending on the MFT's allocation model. To find the allocation model, call IMFTransform::GetOutputStreamInfo and examine the dwFlags member of the MFT_OUTPUT_STREAM_INFO structure:

  • If the MFT_OUTPUT_STREAM_PROVIDES_SAMPLES flag is present, the MFT allocates the media sample.
  • If the MFT_OUTPUT_STREAM_CAN_PROVIDE_SAMPLES flag is present, the caller can optionally provide a media sample. If pSample is NULL, the MFT will allocate the media sample.
  • If neither of these two flags is present, the caller must allocate the media sample.

These flags remain constant unless the media type for the output stream changes.

If the caller allocates the media sample, the media sample must contain a buffer that is large enough to hold the output data. To find the buffer requirements, call GetOutputStreamInfo. The MFT writes the output data to the start of the buffer, overwriting any data that already exists in the buffer.

If the MFT allocates the sample, the MFT also allocates the buffers for the sample.

If the MFT has multiple output streams, the streams might produce output at different rates, so some streams might have output while other streams do not. If a stream did not any produce output, the MFT sets the MFT_OUTPUT_DATA_BUFFER_NO_SAMPLE flag in the dwStatus member of the MFT_OUTPUT_DATA_BUFFER structure for that stream. In that case, if the caller allocated pSample, the buffers in the sample do not contain any valid data. If the caller did not allocate pSample, the MFT_OUTPUT_DATA_BUFFER_NO_SAMPLE flag indicates that pSample still equals NULL after the method returns.

If no output streams have data, and the MFT has no events to return, then ProcessOutput returns MF_E_TRANSFORM_NEED_MORE_INPUT.

The MFT cannot return more than one sample per stream in a single call to ProcessOutput. If there is more output data available for a stream after ProcessOutput returns, the MFT sets the MFT_OUTPUT_DATA_BUFFER_INCOMPLETE flag in the dwStatus member of the MFT_OUTPUT_DATA_BUFFER structure for that stream.

If the MFT has enough data to produce output, it should refuse to accept any more input until ProcessOutput has been called enough times to pull all of the available output. (An exception is when the IMFTransform::GetOutputStreamInfo method returns the MFT_OUTPUT_STREAM_LAZY_READ flag.) Generally, an MFT with multiple output streams should produce output for a stream as soon as possible, and not wait for all of the streams to have output.

In-Band Events

The MFT can return a collection of event objects in the pEvents member of each MFT_OUTPUT_DATA_BUFFER structure. The MFT allocates both the collection object and the events.

To send an event to the caller, the MFT performs the following steps inside ProcessOutput:

  1. Create a new collection object by calling MFCreateCollection.
  2. Add one or more events to the collection by calling IMFCollection::AddElement.
  3. Set the pEvents member of the MFT_OUTPUT_DATA_BUFFER structure equal to the IMFCollection pointer. The MFT leaves a reference count on this interface; the caller must release the pointer.

Events do not have time stamps. The caller should process the events before processing the output samples. In other words, events occur at the point in the stream immediately after the previous call to ProcessOutput, and prior to any output samples returned from the current ProcessOutput call.

It is valid for the ProcessOutput method to return one or more events and zero output samples.

The caller is responsible for releasing any events that the MFT allocates. When the method returns, check the pEvents member of each MFT_OUTPUT_DATA_BUFFER structure. If the value is not NULL, the caller must release the IMFCollection interface pointer:


// Release the events that an MFT might allocate in IMFTransform::ProcessOutput().
void ReleaseEventCollection(DWORD cOutputBuffers, MFT_OUTPUT_DATA_BUFFER* pBuffers)
{
    for (DWORD i = 0; i < cOutputBuffers; i++)
    {
        if (pBuffers[i].pEvents)
        {
            pBuffers[i].pEvents->Release();
            pBuffers[i].pEvents = NULL;
        }
    }
}


An MFT should not use the IMFMediaEventGenerator interface to send in-band events.

Stream Changes

The ProcessOutput method can cause any of the following changes in an output stream:

  • The deletion of an output stream. To signal a stream deletion, the MFT sets the MFT_OUTPUT_DATA_BUFFER_STREAM_END flag in the dwStatus member of the MFT_OUTPUT_DATA_BUFFER structure for that stream.
  • The creation of a new output stream. To signal a new output stream, the MFT sets the MFT_PROCESS_OUTPUT_STATUS_NEW_STREAMS flag in the pdwStatus parameter. A new stream can have the same stream identifier as a deleted stream.
  • A format change on an output stream. To signal a format change, the MFT sets the MFT_OUTPUT_DATA_BUFFER_FORMAT_CHANGE flag in the dwStatus member of the MFT_OUTPUT_DATA_BUFFER structure for that stream.

It is possible that all three of these actions will result from a single call to ProcessOutput. The caller must respond to them in the order listed here—first deletions, then additions, then format changes.

The MFT_OUTPUT_DATA_BUFFER_FORMAT_CHANGE flag signals a format change on an output stream. This might mean the current media type has become invalid, or the preference order has changed and a more efficient format is available. In the latter case, it is possible that the client will re-set the original media type. To guard against endless loops, the MFT should not set the MFT_OUTPUT_DATA_BUFFER_FORMAT_CHANGE flag again until there is another change. Also, avoid setting this flag if the preference order changes but the current media type is still the most preferred type.

Sample Attributes

An input sample might have attributes, which are accessed through the IMFAttributes interface. Unless a specific attribute no longer applies, all attributes should be copied into the corresponding output sample. The responsibily for copying attributes is determined as follows:

  • If the value of the MFPKEY_EXATTRIBUTE_SUPPORTED property on the MFT is VARIANT_TRUE, the MFT copies the attributes.
  • If the value of MFPKEY_EXATTRIBUTE_SUPPORTED is VARIANT_FALSE, or the property is not set, the client must copy the sample attributes. Do not overwrite any attributes that the MFT sets on the output sample.

For a list of sample attributes, see Sample Attributes.

Asynchronous Processing

The previous remarks describe the synchronous processing model. To support asynchronous processing, see Asynchronous MFTs.

Requirements

Minimum supported client

Windows Vista [desktop apps | Windows Store apps]

Minimum supported server

Windows Server 2008 [desktop apps | Windows Store apps]

Header

Mftransform.h

Library

Mfuuid.lib

See also

IMFTransform
Media Foundation Transforms

 

 

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