Example #1
0
void EssenceDataTest::createFileMob(unsigned int mobid_Index)
{
  assert(_pFile && _pHeader && _pDictionary);
  assert(NULL == _pSourceMob);
  assert(NULL == _pMob);
  assert(NULL == _pFileDescriptor);
  assert(NULL == _pEssenceDescriptor);
  assert(NULL == _pSourceMob);

  CAAFBuiltinDefs defs (_pDictionary);

  // Create a Mob
  check(defs.cdSourceMob()->CreateInstance(IID_IAAFSourceMob, 
										   (IUnknown **)&_pSourceMob));

  check(_pSourceMob->QueryInterface (IID_IAAFMob, (void **)&_pMob));
  
  check(_pMob->SetMobID(TEST_MobIDs[mobid_Index]));
  check(_pMob->SetName(L"EssenceDataTest File Mob"));
  
  // instantiate a concrete subclass of FileDescriptor
  check(defs.cdAIFCDescriptor()->
		CreateInstance(IID_IAAFFileDescriptor,
					   (IUnknown **)&_pFileDescriptor));

	IAAFAIFCDescriptor*			pAIFCDesc = NULL;
	check(_pFileDescriptor->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
	check(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
	pAIFCDesc->Release();
	pAIFCDesc = NULL;

  check(_pFileDescriptor->QueryInterface (IID_IAAFEssenceDescriptor,
                                          (void **)&_pEssenceDescriptor));
  check(_pSourceMob->SetEssenceDescriptor (_pEssenceDescriptor));

  check(_pHeader->AddMob(_pMob));

  createEssenceData(_pSourceMob);

  // Cleanup instance data for reuse...
  _pEssenceDescriptor->Release();
  _pEssenceDescriptor = NULL;

  _pFileDescriptor->Release();
  _pFileDescriptor = NULL;

  _pMob->Release();
  _pMob = NULL;

  _pSourceMob->Release();
  _pSourceMob = NULL;
}
Example #2
0
static HRESULT CreateAAFFile(const aafWChar * pFileName)
{
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMasterMob*				pMasterMob = NULL;
	IAAFEssenceAccess*			pEssenceAccess = NULL;
	IAAFEssenceFormat*			pFormat = NULL;
	IAAFLocator					*pLocator = NULL;
	aafMobID_t					masterMobID;
	aafProductIdentification_t	ProductInfo;
	aafRational_t				editRate = {11025, 1};
	aafRational_t				sampleRate = {11025, 1};
	IAAFClassDef				*pCDMasterMob = NULL;
	IAAFDataDef					*pSoundDef = NULL;
	aafUInt32					samplesWritten, bytesWritten;

	// Delete any previous test file before continuing...
	char cFileName[FILENAME_MAX];
	convert(cFileName, sizeof(cFileName), pFileName);
	remove(cFileName);

	aafProductVersion_t ver = {1, 0, 0, 0, kAAFVersionBeta};
	ProductInfo.companyName = companyName;
	ProductInfo.productName = productName;
	ProductInfo.productVersion = &ver;
	ProductInfo.productVersionString = NULL;
	ProductInfo.productID = NIL_UID;
	ProductInfo.platform = NULL;		// Set by SDK when saving

	// Create a new AAF file
	check(AAFFileOpenNewModify (pFileName, 0, &ProductInfo, &pFile));
	check(pFile->GetHeader(&pHeader));

	// Get the AAF Dictionary from the file
	check(pHeader->GetDictionary(&pDictionary));

	/* Lookup class definitions for the objects we want to create. */
	check(pDictionary->LookupClassDef(AUID_AAFMasterMob, &pCDMasterMob));

	/* Lookup any necessary data definitions. */
	check(pDictionary->LookupDataDef(kAAFDataDef_Sound, &pSoundDef));

	/* Create a Mastermob */

	// Get a Master MOB Interface
	check(pCDMasterMob->CreateInstance(IID_IAAFMasterMob, (IUnknown **)&pMasterMob));

	// Get a Mob interface and set its variables.
	check(pMasterMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
	check(pMob->GetMobID(&masterMobID));
	if (input_video == NULL)
	{
		check(pMob->SetName(L"Laser"));
	}
	else
	{
		check(pMob->SetName(pFileName));
	}

	// Add Mobs to the Header
	check(pHeader->AddMob(pMob));

	// Locator needed for non-embedded essence
	IAAFClassDef *classDef = NULL;
	check(pDictionary->LookupClassDef(AUID_AAFNetworkLocator, &classDef));
	check(classDef->CreateInstance(IID_IAAFLocator, (IUnknown **)&pLocator));
	classDef->Release();
	classDef = NULL;

	if (container == NIL_UID)
	{
		pLocator = NULL;
	}
	else if (container == ContainerAAF)
	{
		check(pLocator->SetPath(L"Laser.aaf"));
		remove("Laser.aaf");
	}
	else if (container == ContainerFile)
	{
		check(pLocator->SetPath(L"Laser.pcm"));
		remove("Laser.pcm");
	}
	else	// RIFFWAVE container
	{
		check(pLocator->SetPath(L"Laser.wav"));
		remove("Laser.wav");
	}

	// Get a pointer to video data for WriteSamples
	unsigned char *dataPtr, buf[4096];
	memcpy(buf, uncompressedWAVE_Laser+44, sizeof(uncompressedWAVE_Laser));
	dataPtr = buf;

	/* Create the Essence Data specifying the codec, container, edit rate and sample rate */
	check(pMasterMob->CreateEssence(1,			// Slot ID within MasterMob
						pSoundDef,				// MediaKind
						kAAFCodecPCM,			// codecID
						editRate,				// edit rate
						sampleRate,				// sample rate
						kAAFCompressionDisable,
						pLocator,				// Locator
						container,			// Container
						&pEssenceAccess));		//

	pEssenceAccess->SetEssenceCodecFlavour( kAAFNilCodecFlavour );

	// Set Format specifiers that describe the essence data
	// Sample rate is already specified in the CreateEssence() call
	aafUInt32 sampleBits = 8;
	aafUInt32 numChannels = 1;

	check(pEssenceAccess->GetEmptyFileFormat(&pFormat));
	check(pFormat->AddFormatSpecifier(kAAFAudioSampleBits, sizeof(sampleBits), (aafUInt8 *)&sampleBits));
	check(pFormat->AddFormatSpecifier(kAAFNumChannels, sizeof(numChannels), (aafUInt8 *)&numChannels));
	check(pEssenceAccess->PutFileFormat(pFormat));

	pFormat->Release();

	/* Write the samples */
	int total_samples = 0;
	if (input_video == NULL)		// using generated uncompressed video?
	{
		for (int i = 0; i < 1793; i++)		// Laser example has 1793 samples
		{
			check(pEssenceAccess->WriteSamples(
						1,					//
						sizeof(buf),		// buffer size
						dataPtr++,			// pointer to video frame
						&samplesWritten,
						&bytesWritten));
			total_samples += samplesWritten;
		}
	}
	printf("Wrote %d samples\n", total_samples);

	/* Set the essence to indicate that you have finished writing the samples */
	check(pEssenceAccess->CompleteWrite());

	pEssenceAccess->Release();
	pEssenceAccess = NULL;

	/* Release COM interfaces */

	pMob->Release();
	pMasterMob->Release();

	pSoundDef->Release();
	pCDMasterMob->Release();

	pDictionary->Release();
	pHeader->Release();

	/* Save the AAF file */
	pFile->Save();

	/* Close the AAF file */
	pFile->Close();
	pFile->Release();

	return moduleErrorTmp;
}
Example #3
0
static HRESULT CreateAAFFile(const aafWChar * pFileName, testDataFile_t *dataFile, testType_t testType)
{
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
	IAAFDictionary*					pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMasterMob*				pMasterMob = NULL;
	IAAFEssenceAccess*			pEssenceAccess = NULL;
	IAAFEssenceFormat*			pFormat = NULL;
	IAAFEssenceFormat			*format = NULL;
	IAAFLocator					*pLocator = NULL;
	aafMobID_t					masterMobID;
	aafProductIdentification_t	ProductInfo;
	aafRational_t				editRate = {44100, 1};
	aafRational_t				sampleRate = {44100, 1};
	FILE*						pWavFile = NULL;
	unsigned char				dataBuff[4096], *dataPtr;
	aafUInt32					dataOffset, dataLen;
	aafUInt16					bitsPerSample, numCh;
	aafInt32					n, numSpecifiers;
	aafUID_t					essenceFormatCode, testContainer;
  IAAFClassDef *pMasterMobDef = NULL;
  IAAFClassDef *pNetworkLocatorDef = NULL;
  IAAFDataDef *pSoundDef = NULL;
  aafUInt32 samplesWritten, bytesWritten;


	// Delete any previous test file before continuing...
	char chFileName[1000];
	convert(chFileName, sizeof(chFileName), pFileName);
	remove(chFileName);
	if(dataFile != NULL)
	{
		// Delete any previous test file before continuing...
		char chFileName[1000];
		convert(chFileName, sizeof(chFileName), dataFile->dataFilename);
		remove(chFileName);
	}

	aafProductVersion_t v;
	v.major = 1;
	v.minor = 0;
	v.tertiary = 0;
	v.patchLevel = 0;
	v.type = kAAFVersionUnknown;
	ProductInfo.companyName = companyName;
	ProductInfo.productName = productName;
	ProductInfo.productVersion = &v;
	ProductInfo.productVersionString = NULL;
	ProductInfo.productID = NIL_UID;
	ProductInfo.platform = NULL;

	/* Create a new AAF file */

	check(AAFFileOpenNewModifyEx (pFileName, &kAAFFileKind_Aaf4KBinary, 0, &ProductInfo, &pFile));
	check(pFile->GetHeader(&pHeader));
	
	/* Get the AAF Dictionary from the file */
	check(pHeader->GetDictionary(&pDictionary));
	
  /* Lookup class definitions for the objects we want to create. */
  check(pDictionary->LookupClassDef(AUID_AAFMasterMob, &pMasterMobDef));
  check(pDictionary->LookupClassDef(AUID_AAFNetworkLocator, &pNetworkLocatorDef));

  /* Lookup any necessary data definitions. */
  check(pDictionary->LookupDataDef(kAAFDataDef_Sound, &pSoundDef));

	/* Create a Mastermob */
	
	// Get a Master MOB Interface
	check(pMasterMobDef->
		  CreateInstance(IID_IAAFMasterMob, 
						 (IUnknown **)&pMasterMob));
	// Get a Mob interface and set its variables.
	check(pMasterMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
	check(pMob->GetMobID(&masterMobID));
	check(pMob->SetName(L"A Master Mob"));
	
	// Add it to the file 
	check(pHeader->AddMob(pMob));

	if(dataFile != NULL)
	{
		// Make a locator, and attach it to the EssenceDescriptor
		check(pNetworkLocatorDef->
			  CreateInstance(IID_IAAFLocator, 
							 (IUnknown **)&pLocator));		
		check(pLocator->SetPath (dataFile->dataFilename));
		testContainer = dataFile->dataFormat;
	}
	else
	{
		pLocator = NULL;
		testContainer = ContainerAAF;
	}


	// Open the Essence file to be included in this AAF file("Laser.wav")
	pWavFile = fopen("Laser.wav", "r");
	if (pWavFile)
	{
		// Read in the essence data
		int rc = fread(dataBuff, sizeof(unsigned char), sizeof(dataBuff), pWavFile);
		(void)rc;
		check(loadWAVEHeader(dataBuff,
										&bitsPerSample,
										&numCh,
										&sampleRate,
										&dataOffset,
										&dataLen));


		assert (numCh == 1, "Input file must be mono audio data");
		//  The testtype is for Internal Standard calls so set dataPtr
		dataPtr = dataBuff + dataOffset;
		
		/* Create the Essence Data specifying the codec, container, edit rate and sample rate */
		check(pMasterMob->CreateEssence(1,				// Slot ID
									pSoundDef,			// MediaKind
									kAAFCodecWAVE,			// codecID
									editRate,			// edit rate
									sampleRate,			// sample rate
									kAAFCompressionDisable,
									pLocator,			// In current file
									testContainer,		// In AAF Format
									&pEssenceAccess));	// Compress disabled

		check(pEssenceAccess->GetFileFormatParameterList (&format));
		check(format->NumFormatSpecifiers (&numSpecifiers));
		for(n = 0; n < numSpecifiers; n++)
		{
			check(format->GetIndexedFormatSpecifier (n, &essenceFormatCode, 0, NULL, NULL));
		}
		format->Release();
		format = NULL;

		// Tell the AAFEssenceAccess what the format is.
		check(pEssenceAccess->GetEmptyFileFormat (&pFormat));
		check(pFormat->NumFormatSpecifiers (&numSpecifiers));

		/* Set the properties that describe the essence data, such as audio sample size */
		
		aafInt32	sampleSize = bitsPerSample;
		check(pFormat->AddFormatSpecifier (kAAFAudioSampleBits, sizeof(sampleSize), (aafUInt8 *)&sampleSize));
		check(pEssenceAccess->PutFileFormat (pFormat));
		pFormat->Release();
		pFormat = NULL;
		
		/* Write the samples */

		aafInt32 samplesLeft = dataLen;
		aafUInt32 bytesPerSample = bitsPerSample/8;
		aafUInt32 samplesToWrite = 0;
		if (dataLen*bytesPerSample < (sizeof(dataBuff) - dataOffset))
			samplesToWrite = dataLen;
		else
			samplesToWrite  = (sizeof(dataBuff) - dataOffset)/bytesPerSample;

		//read input wav file in chunks and write them to Essence stream
		while (true) 
		{
			check(pEssenceAccess->WriteSamples(	samplesToWrite,	// Number of Samples
												sizeof(dataBuff), // buffer size
												dataPtr,	// THE data
												&samplesWritten,
												&bytesWritten));
			samplesLeft = samplesLeft-samplesToWrite;
			if (samplesLeft <= 0)
				break;
			
			aafUInt32 bytesToWrite = fread(dataBuff, sizeof(unsigned char), sizeof(dataBuff), pWavFile);
			samplesToWrite = bytesToWrite/bytesPerSample;
			dataPtr = dataBuff;
		}

		// Close the essence data file
		fclose(pWavFile);

		/* Set the essence to indicate that you have finished writing the samples */
		check(pEssenceAccess->CompleteWrite());

    pEssenceAccess->Release();
    pEssenceAccess = NULL;
	}
	else
	{
		printf("***Failed to open Wave file Laser.wav\n");
	}

	/* Release COM interfaces */

	pMob->Release();
	pMob = NULL;
	pMasterMob->Release();
	pMasterMob = NULL;

  pSoundDef->Release();
  pSoundDef = NULL;
  pNetworkLocatorDef->Release();
  pNetworkLocatorDef = NULL;
  pMasterMobDef->Release();
  pMasterMobDef = NULL;

	pDictionary->Release();
	pDictionary = NULL;
	pHeader->Release();
	pHeader = NULL;
	
	/* Save the AAF file */
	pFile->Save();
	
	/* Close the AAF file */
	pFile->Close();
	pFile->Release();
	pFile = NULL;


cleanup:
	// Cleanup and return
	if(pFormat)
		pFormat->Release();

	if(format)
		format->Release();

	if(pLocator)
		pLocator->Release();

  if (pEssenceAccess)
		pEssenceAccess->Release();
	
	if (pMasterMob)
		pMasterMob->Release();

	if (pMob)
		pMob->Release();

  if (pSoundDef)
    pSoundDef->Release();

  if (pNetworkLocatorDef)
    pNetworkLocatorDef->Release();

  if (pMasterMobDef)
    pMasterMobDef->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile)
  {
    pFile->Close();
		pFile->Release();
  }


	return moduleErrorTmp;
}
Example #4
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	// IAAFSession*				pSession = NULL;
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
  IAAFDictionary*  pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMob*					pReferencedMob = NULL;
	IAAFTimelineMobSlot*		newSlot = NULL;
	IAAFSegment*				seg = NULL;
	bool bFileOpen = false;
	HRESULT						hr = AAFRESULT_SUCCESS;
	IAAFComponent*				pComponent = NULL;

	try
	{
	    // Remove the previous test file if any.
	    RemoveTestFile(pFileName);

		// Create the file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		//Make the MOB to be referenced
		checkResult(defs.cdMasterMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pReferencedMob));
		checkResult(pReferencedMob->SetMobID(TEST_referencedMobID));
		checkResult(pReferencedMob->SetName(L"AAFSourceClipTest::ReferencedMob"));

		// Create a Mob
		checkResult(defs.cdCompositionMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"AAFSourceClipTest"));

		// Create a SourceClip
		checkResult(defs.cdSourceClip()->
					CreateInstance(IID_IAAFSegment, 
								   (IUnknown **)&seg));
		 checkResult(seg->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		 checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
		pComponent->Release();
		pComponent = NULL;
								 		
		aafRational_t editRate = { 0, 1};
		checkResult(pMob->AppendNewTimelineSlot (editRate,
												 seg,
												 1,
												 slotName,
												 0,
												 &newSlot));

		checkResult(pHeader->AddMob(pMob));
		checkResult(pHeader->AddMob(pReferencedMob));
	}
  catch (HRESULT& rResult)
  {
    hr = rResult;
  }

  // Cleanup and return
	if (newSlot)
		newSlot->Release();

	if (pComponent)
		pComponent->Release();

	if (seg)
		seg->Release();

	if (pMob)
		pMob->Release();

	if (pReferencedMob)
		pReferencedMob->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile) 
	{
		if (bFileOpen)
		  {
			pFile->Save();
			pFile->Close();
		  }
		pFile->Release();
	}


	return hr;
}
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *			pFile = NULL;
	bool				bFileOpen = false;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*		pDictionary = NULL;
	IAAFMob*			pMob = NULL;
	IAAFRIFFChunk*		pRIFFChunk = NULL;
	IAAFRIFFChunk*		pRIFFChunk2 = NULL;
	IAAFSourceMob*				pSourceMob = NULL;
	IAAFEssenceDescriptor*		pEssDesc = NULL;
	IAAFBWFImportDescriptor*			pBWFImportDesc = NULL;
	aafUInt32			testNum;
	HRESULT				hr = S_OK;



		// Remove the previous test file if any.
		RemoveTestFile(pFileName);

		// Create the file.
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		checkResult(defs.cdSourceMob()->
			  CreateInstance(IID_IAAFSourceMob, 
							 (IUnknown **)&pSourceMob));
		pSourceMob->QueryInterface(IID_IAAFMob, (void **)&pMob);
	
		pMob->SetMobID(TEST_MobID);
		pMob->SetName(L"BWFImportDescriptorTest");
		
		//Create BWFImportDescriptor to hold the RIFFChunk
		checkResult( defs.cdBWFImportDescriptor()->
					  CreateInstance(IID_IAAFBWFImportDescriptor, (IUnknown **)&pBWFImportDesc));
					 
		// Create RIFFChunks and append them to BWFImportDescriptor

		checkResult(defs.cdRIFFChunk()->CreateInstance(IID_IAAFRIFFChunk, 
							 (IUnknown **)&pRIFFChunk));
		checkResult(defs.cdRIFFChunk()->CreateInstance(IID_IAAFRIFFChunk, 
							 (IUnknown **)&pRIFFChunk2));
							 
		checkResult(pBWFImportDesc->AppendUnknownBWFChunk(pRIFFChunk));
		checkResult(pBWFImportDesc->AppendUnknownBWFChunk(pRIFFChunk2));
		checkExpression(pBWFImportDesc->AppendUnknownBWFChunk(pRIFFChunk)==AAFRESULT_OBJECT_ALREADY_ATTACHED, AAFRESULT_TEST_FAILED);
		checkResult(pBWFImportDesc->SetFileSecurityReport(TEST_FileSecurityReport));
		checkResult(pBWFImportDesc->SetFileSecurityWave(TEST_FileSecurityWave));
		checkResult(pBWFImportDesc->SetCodingHistory(TEST_CodingHistory));
		checkResult(pBWFImportDesc->SetBasicData(TEST_BasicData));
		checkResult(pBWFImportDesc->SetStartOfModulation(TEST_StartOfModulation));
		checkResult(pBWFImportDesc->SetQualityEvent(TEST_QualityEvent));
		checkResult(pBWFImportDesc->SetEndOfModulation(TEST_EndOfModulation));
		checkResult(pBWFImportDesc->SetQualityParameter(TEST_QualityParameter));	
		checkResult(pBWFImportDesc->SetOperatorComment(TEST_OperatorComment));
		checkResult(pBWFImportDesc->SetCueSheet(TEST_CueSheet));
						 
		checkResult( pBWFImportDesc->QueryInterface(IID_IAAFEssenceDescriptor, (void **)&pEssDesc));
		checkResult(pSourceMob->SetEssenceDescriptor(pEssDesc));
		
		//Add the MOB to the file
		checkResult(pHeader->AddMob(pMob));
		
		testNum = 0;
		checkResult(pRIFFChunk->Initialize(chunkID));
		checkResult(pRIFFChunk->Write(sizeof(RIFFChunksmiley), (unsigned char *)RIFFChunksmiley, &testNum));
		checkExpression(testNum == sizeof(RIFFChunksmiley), AAFRESULT_TEST_FAILED);
		testNum = 0;
		checkResult(pRIFFChunk2->Initialize(chunkID2));
		checkResult(pRIFFChunk2->Write(sizeof(RIFFChunkfrowney), (unsigned char *)RIFFChunkfrowney, &testNum));
		checkExpression(testNum == sizeof(RIFFChunkfrowney), AAFRESULT_TEST_FAILED);
		pFile->Save();

		pEssDesc->Release();
		pEssDesc = NULL;		
		pBWFImportDesc->Release();
		pBWFImportDesc = NULL;
		
		pRIFFChunk->Release();
		pRIFFChunk = NULL;
		
		pRIFFChunk2->Release();
		pRIFFChunk2 = NULL;
	
		pMob->Release();
		pMob = NULL;
	
		pSourceMob->Release();
		pSourceMob = NULL;

		pDictionary->Release();
		pDictionary = NULL;

		pHeader->Release();
		pHeader = NULL;


		pFile->Close();	
		pFile->Release();
		pFile = NULL;
		
	return hr;

}
Example #6
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	// IAAFSession *				pSession = NULL;
	IAAFFile *					pFile = NULL;
	bool 						bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
  	IAAFDictionary*  			pDictionary = NULL;
	IAAFSourceMob				*pSourceMob = NULL;
	IAAFMob						*pMob = NULL;
	IAAFEssenceDescriptor 		*edesc = NULL;
	HRESULT						hr = S_OK;


  try
  {
    // Remove the previous test file if any.
    RemoveTestFile(pFileName);


    // Create the file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
    // We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

    // Get the AAF Dictionary so that we can create valid AAF objects.
    checkResult(pHeader->GetDictionary(&pDictionary));
	CAAFBuiltinDefs defs (pDictionary);
 		
    //Make the first mob

	  // Create a FileMob
	  checkResult(defs.cdSourceMob()->
				  CreateInstance(IID_IAAFSourceMob, 
								 (IUnknown **)&pSourceMob));

	  checkResult(pSourceMob->QueryInterface (IID_IAAFMob, (void **)&pMob));

	  checkResult(pMob->SetMobID(TEST_File_MobID));
	  checkResult(pMob->SetName(L"File Mob"));

	  // Check the Mob2 usage code implementations.
	  // Need IAAFMob2 for to do that.
	  {
	    IAAFSmartPointer<IAAFMob2> pMobInterface2;
	    checkResult( pMob->QueryInterface( IID_IAAFMob2, reinterpret_cast<void**>(&pMobInterface2) ) );
	    checkResult( pMobInterface2->SetUsageCode( kAAFUsage_Template ) );
	  }

	  // Create a concrete subclass of FileDescriptor
 	  checkResult(defs.cdAIFCDescriptor()->
				  CreateInstance(IID_IAAFEssenceDescriptor, 
								 (IUnknown **)&edesc));		


		IAAFAIFCDescriptor*			pAIFCDesc = NULL;
		checkResult(edesc->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
		checkResult(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
		pAIFCDesc->Release();
		pAIFCDesc = NULL;

    checkResult(pSourceMob->SetEssenceDescriptor (edesc));

	  checkResult(pHeader->AddMob(pMob));

    // Reusing local variable so we need to release the inteface.
    pMob->Release();
    pMob = NULL;

	  // Create a MasterMob
	  checkResult(defs.cdMasterMob()->
				  CreateInstance(IID_IAAFMob, 
								 (IUnknown **)&pMob));

	  checkResult(pMob->SetMobID(TEST_Master_MobID));
	  checkResult(pMob->SetName(L"Master Mob"));

	  // Check the Mob2 usage code implementations.
	  // Need IAAFMob2 for to do that.
	  {
	    IAAFSmartPointer<IAAFMob2> pMobInterface2;
	    checkResult( pMob->QueryInterface( IID_IAAFMob2, reinterpret_cast<void**>(&pMobInterface2) ) );
	    checkResult( pMobInterface2->SetUsageCode( kAAFUsage_Template ) );
	  }

	  checkResult(pHeader->AddMob(pMob));

    // Reusing local variable so we need to release the inteface.
    pMob->Release();
    pMob = NULL;

	  // Create a CompositionMob
	  checkResult(defs.cdCompositionMob()->
				  CreateInstance(IID_IAAFMob, 
								 (IUnknown **)&pMob));

	  checkResult(pMob->SetMobID(TEST_Composition_MobID));
  	  checkResult(pMob->SetName(L"Composition Mob"));

	  // Check the Mob2 usage code implementations.
	  // Need IAAFMob2 for to do that.
	  IAAFSmartPointer<IAAFMob2> pMobInterface2;
	  checkResult( pMob->QueryInterface( IID_IAAFMob2, reinterpret_cast<void**>(&pMobInterface2) ) );
	  checkResult( pMobInterface2->SetUsageCode( kAAFUsage_TopLevel ) );

	  checkResult(pHeader->AddMob(pMob));
	}
  catch (HRESULT& rResult)
  {
    hr = rResult;
  }
	

  // Cleanup and return
  if (edesc)
    edesc->Release();

  if (pMob)
    pMob->Release();
  
  if (pSourceMob)
    pSourceMob->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile) 
	{
		if (bFileOpen)
		  {
			pFile->Save();
			pFile->Close();
		  }
		pFile->Release();
	}

	return hr;
}
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile*				pFile = NULL;
	IAAFHeader*				pHeader = NULL;
	IAAFDictionary*			pDictionary = NULL;
	IAAFSourceMob*			pSourceMob = NULL;
	IAAFMob*				pMob = NULL;
	IAAFDataEssenceDescriptor*		pDataEssenceDesc = NULL;
	IAAFEssenceDescriptor*	pEssDesc = NULL;

	HRESULT			hr = AAFRESULT_SUCCESS;


	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);


		// Create the AAF file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));

		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
 		
		// Create a source mob
		CAAFBuiltinDefs defs (pDictionary);
		checkResult(defs.cdSourceMob()->
					CreateInstance(IID_IAAFSourceMob, 
								   (IUnknown **)&pSourceMob));

		checkResult(pSourceMob->QueryInterface(IID_IAAFMob, (void **)&pMob));

		checkResult(pMob->SetMobID(TEST_MobID));
		
		RegisterDataEssenceDescriptorTest( pDictionary );

		checkResult(pMob->SetName(L"DataEssenceDescriptorTest"));
		checkResult( pDictionary->CreateInstance( TestDataEssenceDescriptorClassID,
							   IID_IAAFDataEssenceDescriptor,
							   (IUnknown**)&pDataEssenceDesc ) );		

		aafUID_t		dataEssenceCoding;
   		memset(&dataEssenceCoding, 0, sizeof(aafUID_t));
		checkResult(pDataEssenceDesc->SetDataEssenceCoding(dataEssenceCoding));
		
		checkResult(pDataEssenceDesc->QueryInterface(IID_IAAFEssenceDescriptor, (void **)&pEssDesc));
		checkResult(pSourceMob->SetEssenceDescriptor(pEssDesc));

		// Add the MOB to the file
		checkResult(pHeader->AddMob(pMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
  
	// Cleanup and return
	if (pEssDesc)
		pEssDesc->Release();

	if (pDataEssenceDesc)
		pDataEssenceDesc->Release();

	if (pMob)
		pMob->Release();

	if (pSourceMob)
		pSourceMob->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile)
	{
		pFile->Save();
		pFile->Close();
		pFile->Release();
	}

	return hr;
}
Example #8
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile*			pFile = NULL;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*		pDictionary = NULL;
	IAAFOperationDef*		pOperationDef = NULL;
	IAAFParameterDef*	pParamDef = NULL;
	IAAFDefObject*		pDefObject = NULL;
	IAAFOperationGroup			*pOperationGroup = NULL;
	IAAFMob				*pMob = NULL;
	IAAFSegment			*pSeg = NULL;
	IAAFTimelineMobSlot	*pSlot = NULL;
	IAAFParameter		*pParm = NULL;
	IAAFVaryingValue		*pVaryingValue = NULL;
	IAAFSegment			*pFiller = NULL;
	IAAFComponent		*pComponent = NULL;
	IAAFSourceClip		 *pSourceClip = NULL;
	IAAFControlPoint	 *pControlPoint = NULL;
	IAAFSourceReference *pSourceRef = NULL;
	IAAFInterpolationDef *pInterpDef = NULL;
	IAAFPluginManager	*pMgr = NULL;
	IAAFTypeDef			*pTypeDef = NULL;
	bool				bFileOpen = false;
	HRESULT				hr = S_OK;
//	aafUID_t			testInterpDef = kAAFTypeID_Rational;
	aafLength_t			effectLen = TEST_EFFECT_LEN;
	aafUID_t			effectID = kTestEffectID;
	aafUID_t			parmID = kTestParmID;
	aafRational_t		testLevel1 = kTestLevel1;
	aafRational_t		testLevel2 = kTestLevel2;
	aafRational_t		testTime1 = kTestTime1;
	aafRational_t		testTime2 = kTestTime2;
/*	long				test;
*/

	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);


		// Create the AAF file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;

		// Get the AAF file header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
    
		CAAFBuiltinDefs defs (pDictionary);

		checkResult(defs.cdOperationDef()->
					CreateInstance(IID_IAAFOperationDef, 
								   (IUnknown **)&pOperationDef));
    
		checkResult(defs.cdParameterDef()->
					CreateInstance(IID_IAAFParameterDef, 
								   (IUnknown **)&pParamDef));

 		checkResult(pDictionary->LookupTypeDef (kAAFTypeID_Rational, &pTypeDef));
    checkResult(pParamDef->Initialize (parmID, TEST_PARAM_NAME, TEST_PARAM_DESC, pTypeDef));

		checkResult(AAFGetPluginManager(&pMgr));
		checkResult(pMgr->CreatePluginDefinition(LinearInterpolator, pDictionary, &pDefObject));
		checkResult(pDefObject->QueryInterface(IID_IAAFInterpolationDef, (void **) &pInterpDef));
		pDefObject->Release();
		pDefObject = NULL;

		checkResult(pOperationDef->Initialize (effectID, TEST_EFFECT_NAME, TEST_EFFECT_DESC));
		checkResult(pDictionary->RegisterOperationDef (pOperationDef));
		checkResult(pDictionary->RegisterParameterDef (pParamDef));
		checkResult(pDictionary->RegisterInterpolationDef (pInterpDef));


		checkResult(pOperationDef->SetDataDef (defs.ddkAAFPicture()));
		checkResult(pOperationDef->SetIsTimeWarp (kAAFFalse));
		checkResult(pOperationDef->SetNumberInputs (TEST_NUM_INPUTS));
		checkResult(pOperationDef->SetCategory (TEST_CATEGORY));
		checkResult(pOperationDef->AddParameterDef (pParamDef));
		checkResult(pOperationDef->SetBypass (TEST_BYPASS));

		checkResult(pParamDef->SetDisplayUnits(TEST_PARAM_UNITS));

		//Make the first mob
		long	test;
		aafRational_t	videoRate = { 2997, 100 };
		// Create a Mob
		checkResult(defs.cdCompositionMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pMob));

		checkResult(pMob->SetName(L"AAFOperationGroupTest"));
	  
		// Add some slots
		for(test = 0; test < 2; test++)
		{
 			checkResult(defs.cdOperationGroup()->
						CreateInstance(IID_IAAFOperationGroup, 
									   (IUnknown **)&pOperationGroup));
			
			checkResult(defs.cdFiller()->
						CreateInstance(IID_IAAFSegment, 
									   (IUnknown **)&pFiller));
			checkResult(pFiller->QueryInterface (IID_IAAFComponent, (void **)&pComponent));
			checkResult(pComponent->SetLength(effectLen));
			CAAFBuiltinDefs defs(pDictionary);
			checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
 			checkResult(pOperationGroup->Initialize(defs.ddkAAFPicture(), TEST_EFFECT_LEN, pOperationDef));

			checkResult(defs.cdVaryingValue()->
						CreateInstance(IID_IAAFVaryingValue, 
									   (IUnknown **)&pVaryingValue));
			checkResult(pVaryingValue->Initialize (pParamDef, pInterpDef));

			checkResult(defs.cdControlPoint()->
						CreateInstance(IID_IAAFControlPoint, 
									   (IUnknown **)&pControlPoint));
			checkResult(pControlPoint->Initialize (pVaryingValue, testTime1, sizeof(testLevel1), (aafDataBuffer_t)&testLevel1));
			checkResult(pControlPoint->SetEditHint(kAAFRelativeLeft));
			checkResult(pVaryingValue->AddControlPoint(pControlPoint));
			pControlPoint->Release();
			pControlPoint = NULL;
			checkResult(defs.cdControlPoint()->
						CreateInstance(IID_IAAFControlPoint, 
									   (IUnknown **)&pControlPoint));
			checkResult(pControlPoint->Initialize (pVaryingValue, testTime2, sizeof(testLevel2), (aafDataBuffer_t)&testLevel2));
			checkResult(pControlPoint->SetEditHint(kAAFProportional));
			checkResult(pVaryingValue->AddControlPoint(pControlPoint));
			pControlPoint->Release();
			pControlPoint = NULL;

			checkResult(pVaryingValue->QueryInterface (IID_IAAFParameter, (void **)&pParm));
			checkResult(pOperationGroup->AddParameter (pParm));

			checkResult(pOperationGroup->AppendInputSegment (pFiller));
			pFiller->Release();
			pFiller = NULL;

			checkResult(pOperationGroup->SetBypassOverride (1));
			checkResult(defs.cdSourceClip()->
						CreateInstance(IID_IAAFSourceClip, 
									   (IUnknown **)&pSourceClip));
			aafSourceRef_t	sourceRef;
			sourceRef.sourceID = zeroMobID;
			sourceRef.sourceSlotID = 0;
			sourceRef.startTime = 0;
			checkResult(pSourceClip->Initialize (defs.ddkAAFPicture(), effectLen, sourceRef));
			checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference, (void **)&pSourceRef));
			checkResult(pOperationGroup->SetRender (pSourceRef));
			checkResult(pOperationGroup->QueryInterface (IID_IAAFSegment, (void **)&pSeg));

			checkResult(pMob->AppendNewTimelineSlot (videoRate, pSeg, test+1, slotNames[test], 0, &pSlot));

			pSlot->Release();
			pSlot = NULL;

			pSeg->Release();
			pSeg = NULL;

			pOperationGroup->Release();
			pOperationGroup = NULL;
			pParm->Release();
			pParm = NULL;
			pVaryingValue->Release();
			pVaryingValue = NULL;
			pComponent->Release();
			pComponent = NULL;
			pSourceRef->Release();
			pSourceRef = NULL;
			pSourceClip->Release();
			pSourceClip = NULL;
		}

		// Add the mob to the file.
		checkResult(pHeader->AddMob(pMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}


	// Cleanup and return
	if(pSourceRef)
		pSourceRef->Release();
	if(pControlPoint)
		pControlPoint->Release();
	if(pSourceClip)
		pSourceClip->Release();
	if (pDefObject)
		pDefObject->Release();
	if (pOperationGroup)
		pOperationGroup->Release();
	if (pMob)
		pMob->Release();
	if (pSeg)
		pSeg->Release();
	if (pSlot)
		pSlot->Release();
	if (pComponent)
		pComponent->Release();

	if (pParm)
		pParm->Release();
//	if (pIntDef)
//		pIntDef->Release();
	if (pInterpDef)
		pInterpDef->Release();
	if (pVaryingValue)
		pVaryingValue->Release();
	if (pFiller)
		pFiller->Release();

	if (pOperationDef)
		pOperationDef->Release();

	if (pParamDef)
		pParamDef->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();
	if(pMgr)
		pMgr->Release();
	if(pTypeDef)
		pTypeDef->Release();
      
	if (pFile)
	{  // Close file
		if (bFileOpen)
		{
			pFile->Save();
			pFile->Close();
		}
		pFile->Release();
	}

	return hr;
}
Example #9
0
void HTMLClipTest::CreateHTMLClip()
{
  assert(_pHeader && _pDictionary);

  HRESULT hr = S_OK;
  IAAFMasterMob *pMasterMob = NULL;
  IAAFMob *pReferencedMob = NULL;
  IAAFHTMLClip *pHTMLClip = NULL;
  IAAFSourceReference *pSourceReference = NULL;
  IAAFCompositionMob *pCompositionMob = NULL;
  IAAFMob *pReferencingMob = NULL;
  IAAFSegment *pSegment = NULL;
  IAAFTimelineMobSlot *pMobSlot = NULL;
  IAAFComponent *pComponent = NULL;

  CAAFBuiltinDefs defs (_pDictionary);

  try
  {
    //Make the MOB to be referenced
    checkResult(defs.cdMasterMob()->
				CreateInstance(IID_IAAFMasterMob, 
							   (IUnknown **)&pMasterMob));
  
    checkResult(pMasterMob->QueryInterface(IID_IAAFMob, (void **)&pReferencedMob));
    checkResult(pReferencedMob->GetMobID(&_referencedMobID));
    checkResult(pReferencedMob->SetName(L"HTMLClipTest::ReferencedMob"));

    // Save the master mob.
    checkResult(_pHeader->AddMob(pReferencedMob));

    // Use EssenceAccess to write some html essence
      // Create a file mob for the html essence.
      // Create the corresponding html essence.
      // Write some html essence.


    // Create a HTMLClip
    checkResult(defs.cdHTMLClip()->
				CreateInstance(IID_IAAFHTMLClip, 
							   (IUnknown **)&pHTMLClip));
    checkResult(pHTMLClip->SetBeginAnchor(const_cast<wchar_t *>(_beginAnchor)));
    checkResult(pHTMLClip->SetEndAnchor(const_cast<wchar_t *>(_endAnchor)));
     checkResult(pHTMLClip->QueryInterface(IID_IAAFComponent, (void **)&pComponent));

	 checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
	 pComponent->Release();
	 pComponent = NULL;

    // Initialize the source reference data.
    checkResult(pHTMLClip->QueryInterface(IID_IAAFSourceReference, (void **)&pSourceReference));
    checkResult(pSourceReference->SetSourceID(_referencedMobID));
    checkResult(pSourceReference->SetSourceMobSlotID(0));

    // Create a composition mob to hold the html clip.
    checkResult(defs.cdCompositionMob()->
				CreateInstance(IID_IAAFCompositionMob, 
							   (IUnknown **)&pCompositionMob));
    checkResult(pCompositionMob->QueryInterface(IID_IAAFMob, (void **)&pReferencingMob));
    checkResult(pReferencingMob->SetName(L"CompositionMob_HTMLClipTest"));
 
  
    checkResult(pHTMLClip->QueryInterface(IID_IAAFSegment, (void **)&pSegment));
    IAAFMobSlot *pSlot = NULL;
	aafRational_t editRate = { 0, 1};
    checkResult(pReferencingMob->AppendNewTimelineSlot(editRate,
													   pSegment,
													   1,
													   L"HTMLClipTest",
													   0,
													   &pMobSlot));


    // Save the referencing mob.
    checkResult(_pHeader->AddMob(pReferencingMob));
  }
  catch (HRESULT& rHR)
  {
    hr = rHR;
    // fall through and handle cleanup
  }

  // Cleanup local references
  if (pMobSlot)
  {
    pMobSlot->Release();
    pMobSlot = NULL;
  }
  if (pComponent)
  {
    pComponent->Release();
    pComponent = NULL;
  }

  if (pSegment)
  {
    pSegment->Release();
    pSegment = NULL;
  }

  if (pReferencingMob)
  {
    pReferencingMob->Release();
    pReferencingMob = NULL;
  }

  if (pCompositionMob)
  {
    pCompositionMob->Release();
    pCompositionMob = NULL;
  }

  if (pSourceReference)
  {
    pSourceReference->Release();
    pSourceReference = NULL;
  }

  if (pHTMLClip)
  {
    pHTMLClip->Release();
    pHTMLClip = NULL;
  }

  if (pReferencedMob)
  {
    pReferencedMob->Release();
    pReferencedMob = NULL;
  }

  if (pMasterMob)
  {
    pMasterMob->Release();
    pMasterMob = NULL;
  }


  // Propogate the error if necessary.
  checkResult(hr);
}
Example #10
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *					pFile = NULL;
	bool bFileOpen = false;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*  pDictionary = NULL;
	IAAFMob						*pMob = NULL;
	IAAFMobSlot		*newSlot = NULL;
	IAAFSegment		*seg = NULL;
	IAAFSourceClip	*sclp = NULL;
	IAAFComponent	*pComp = NULL;
	HRESULT						hr = S_OK;
	
	
	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);
		
		// Create the file.
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
		
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));
		
		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
		
		//Make the first mob
		long	test;
		
		// Create a concrete subclass of Mob
		checkResult(defs.cdMasterMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pMob));
		
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"MOBTest"));
		
		// Add some slots
		for(test = 0; test < 5; test++)
		{
			checkResult(defs.cdSourceClip()->
						CreateInstance(IID_IAAFSourceClip, 
									   (IUnknown **)&sclp));		
			
			checkResult(sclp->QueryInterface (IID_IAAFComponent, (void **)&pComp));
			checkResult(pComp->SetDataDef (defs.ddkAAFPicture()));
			pComp->Release();
			pComp = NULL;
			checkResult(sclp->QueryInterface (IID_IAAFSegment, (void **)&seg));
			
			// Create a concrete subclass of MobSlot
			checkResult(defs.cdStaticMobSlot()->
						CreateInstance(IID_IAAFMobSlot, 
									   (IUnknown **)&newSlot));		
			
			checkResult(newSlot->SetSegment(seg));
			checkResult(newSlot->SetSlotID(test+1));
			checkResult(newSlot->SetPhysicalNum(test+2));
			checkResult(newSlot->SetName(slotNames[test]));
			checkResult(pMob->AppendSlot (newSlot));
			
			newSlot->Release();
			newSlot = NULL;
			
			seg->Release();
			seg = NULL;
			
			sclp->Release();
			sclp = NULL;
		}
		
		// Add the mob to the file.
		checkResult(pHeader->AddMob(pMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	
	// Cleanup and return
	if (newSlot)
		newSlot->Release();
	
	if (seg)
		seg->Release();
	
	if (sclp)
		sclp->Release();
	
	if (pComp)
		pComp->Release();
	
	if (pMob)
		pMob->Release();
	
	if (pDictionary)
		pDictionary->Release();
	
	if (pHeader)
		pHeader->Release();
	
	if (pFile)
	{  // Close file
		if (bFileOpen)
		{
			pFile->Save();
			pFile->Close();
		}
		pFile->Release();
	}
	
	return hr;
}
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	HRESULT hr = AAFRESULT_SUCCESS;
	
	IAAFFile* pFile = NULL;
	IAAFHeader * pHeader = NULL;
	IAAFDictionary * pDict = NULL;
	
	try
	{
		//Do the usual ...
		RemoveTestFile (pFileName);
		checkResult (CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		assert (pFile);
		checkResult (pFile->GetHeader (&pHeader));
		assert (pHeader);
		checkResult (pHeader->GetDictionary (&pDict));
		assert (pDict);
		CAAFBuiltinDefs defs (pDict);
		
		///////////////////////
		
		//checkResult(createCHARType (pDict));
		
		checkResult(addCHARTypeToComponent (pDict));
		///////////
		
		//Create a concrete subclass of mob 
		IAAFMobSP spMob;
		checkResult(defs.cdMasterMob()->
			CreateInstance(IID_IAAFMob, 
			(IUnknown **)&spMob));
		
		checkResult(spMob->SetMobID(TEST_MobID));
		checkResult(spMob->SetName(L"Some Mob"));
		
		//Add a slot - make it our Filler
		/// first, create  Filler 
		IAAFFillerSP  spFill;
		checkResult(defs.cdFiller()->CreateInstance(IID_IAAFFiller, (IUnknown**)&spFill));
		checkResult(spFill->Initialize(defs.ddkAAFSound(), 10));
		
		checkResult(createCHARFiller(pDict, spFill));
		
		//seg
		//QI the filler for its segment
		IAAFSegmentSP spSeg;
		checkResult(spFill->QueryInterface (IID_IAAFSegment, (void **)&spSeg));
		
		//Create a concrete subclass of mob slot
		IAAFMobSlotSP spMobSlot;
		checkResult(defs.cdStaticMobSlot()->
			CreateInstance(IID_IAAFMobSlot, 
									   (IUnknown **)&spMobSlot));		
		
		//Add the segment to the mobslot
		checkResult(spMobSlot->SetSegment(spSeg));
		checkResult(spMobSlot->SetSlotID(TEST_SLOT_ID));
		checkResult(spMobSlot->SetName(TEST_SLOT_NAME));
		
		//Append the slot to the Mob ....
		checkResult(spMob->AppendSlot (spMobSlot));
		
		//FINALLY .... Add mob to header
		checkResult (pHeader->AddMob (spMob));
		
		//////////////////// done /!!!!!!!!!!!!!!!!!!!!!!
		
		//Verify results right away (during this creation process) ....
		checkResult(verifyContents (pHeader, pDict, kAAFTrue));  //True => minimal testing 
		
	}
	catch (HRESULT & rResult)
	{
		hr = rResult;
	}
	
	if (pDict) pDict->Release();
	if (pHeader) pHeader->Release();
	if (pFile)
	{
		stopGap(pFile->Save());
		stopGap(pFile->Close());
		pFile->Release();
	}
	
	return hr;
}//CreateAAFFile()
Example #12
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
  IAAFFile *					pFile = NULL;
  bool 							bFileOpen = false;
  IAAFHeader *        			pHeader = NULL;
  IAAFDictionary*  				pDictionary = NULL;
  IAAFMob						*pMob = NULL;
  IAAFMob						*pMob2 = NULL;
  IAAFMob2                      *pMobInterface2 = NULL;
  IAAFTimelineMobSlot 			*newSlot = NULL;
  IAAFStaticMobSlot 			*newStaticSlot=NULL;
  IAAFEventMobSlot 				*newEventSlot=NULL;
  IAAFSegment					*seg = NULL;
  IAAFSourceClip				*sclp = NULL;
  IAAFEvent						*event=NULL;
  IAAFComponent*				pComponent = NULL;
  IAAFClassDef					*pcdEventMeta=NULL;
  IAAFClassDef					*pcdEvent=NULL;
  IAAFClassDef					*pcdEventConcrete=NULL;
  HRESULT						hr = S_OK;
  aafNumSlots_t					numMobs;
  aafUInt32 					bufLen = 0;
  aafUInt32 					bytesRead = 0;
  aafUInt32 					numComments = 0;
  aafUInt32						numFound = 0;
  aafWChar						name[500];
  aafWChar						value[500];
  IEnumAAFTaggedValues 			*enumTaggedVal = NULL;
  IAAFTaggedValue				*taggedVal = NULL;
  IAAFMobSlot 					*mSlot = NULL;
  IAAFFiller 					*filler = NULL;
  IAAFKLVData					*pKLVData = NULL;
  IAAFTypeDef*					pBaseType = NULL;
  IAAFSourceReference 			*pSourceRef = NULL;
  IAAFTimecode					*pTimecode = NULL;
  aafTimecode_t					timecode;
  int 							i;


  try
	{
	  // Remove the previous test file if any.
	  RemoveTestFile(pFileName);

	  // Create the file.
	  checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
	  bFileOpen = true;
 
	  // We can't really do anthing in AAF without the header.
	  checkResult(pFile->GetHeader(&pHeader));

	  // Get the AAF Dictionary so that we can create valid AAF objects.
	  checkResult(pHeader->GetDictionary(&pDictionary));
 		
	  CAAFBuiltinDefs defs (pDictionary);

	  //Make the first mob
	  long	test;

	  // Create a concrete subclass of Mob
	  checkResult(defs.cdMasterMob()->
				  CreateInstance(IID_IAAFMob, 
								 (IUnknown **)&pMob));
	  checkResult( pMob->QueryInterface(IID_IAAFMob2,(void**)&pMobInterface2));

	  checkResult(pMob->SetMobID(MOBTestID));
      checkExpression(pMob->GetNameBufLen(&bufLen) == AAFRESULT_PROP_NOT_PRESENT, AAFRESULT_TEST_FAILED);
      checkExpression(pMob->GetName(name, 0) == AAFRESULT_PROP_NOT_PRESENT, AAFRESULT_TEST_FAILED);
	  checkExpression(pMob->SetName(NULL) == AAFRESULT_NULL_PARAM, AAFRESULT_TEST_FAILED);
	  checkResult(pMob->SetName(mobName));
	  
	  checkResult(pMob->SetCreateTime(creationTimeStamp));
	  checkResult(pMob->SetModTime(modificationTimeStamp));

	  // Add some slots
	  for(test = 1; test < 6; test++)
		{
		  checkResult(defs.cdSourceClip()->
					  CreateInstance(IID_IAAFSourceClip, 
									 (IUnknown **)&sclp));		
		  checkResult(sclp->QueryInterface(IID_IAAFSourceReference, (void **)&pSourceRef));
		  checkResult(pSourceRef->SetSourceID(MOBTestID3));

		  checkResult(sclp->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		  checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));

		  checkResult(sclp->QueryInterface (IID_IAAFSegment, (void **)&seg));

		  aafRational_t editRate = { 0, 1};
		  checkResult(pMob->AppendNewTimelineSlot (editRate,
												   seg,
												   test+1,
												   slotNames[test],
												   0,
												   &newSlot));

		

		  if(test == 5)
		  {
			  checkExpression(pMob->AppendNewTimelineSlot (editRate,
										   NULL,
										   test+1,
										   slotNames[test],
										   0,
										   &newSlot) == AAFRESULT_NULL_PARAM, 
										   AAFRESULT_TEST_FAILED);

			  checkExpression(pMob->AppendNewTimelineSlot (editRate,
										   seg,
										   test+1,
										   NULL,
										   0,
										   &newSlot) == AAFRESULT_NULL_PARAM, 
										   AAFRESULT_TEST_FAILED);

			  checkExpression(pMob->AppendNewTimelineSlot (editRate,
										   seg,
										   test+1,
										   slotNames[test],
										   0,
										   NULL) == AAFRESULT_NULL_PARAM, 
										   AAFRESULT_TEST_FAILED);

			  pMob->RemoveSlotAt(4);
			  checkExpression(pMob->RemoveSlotAt(test+1) == AAFRESULT_BADINDEX,
			  							   AAFRESULT_TEST_FAILED);
		  }

		  newSlot->Release();
		  newSlot = NULL;

		  if(newStaticSlot)
			newStaticSlot->Release();
		  newStaticSlot = NULL;

		  seg->Release();
		  seg = NULL;

		  sclp->Release();
		  sclp = NULL;
		  
		  pComponent->Release();
		  pComponent = NULL;
		  
		  pSourceRef->Release();
		  pSourceRef = NULL;
		}



		// PrependSlot
 		checkResult(defs.cdStaticMobSlot()->
					  CreateInstance(IID_IAAFMobSlot, 
									 (IUnknown **)&mSlot));		
 		checkResult(defs.cdFiller()->
					  CreateInstance(IID_IAAFFiller, 
									 (IUnknown **)&filler));		

		checkResult(filler->Initialize(defs.ddkAAFSound(), 10));
		checkResult(filler->QueryInterface (IID_IAAFSegment, (void **)&seg));

		checkResult(mSlot->SetName(slotNames[0]));
		checkResult(mSlot->SetPhysicalNum(1));
		checkResult(mSlot->SetSlotID(1));
		checkResult(mSlot->SetSegment(seg));

		checkResult(pMob->PrependSlot(mSlot));
		checkExpression(pMob->PrependSlot(mSlot) == AAFRESULT_OBJECT_ALREADY_ATTACHED,
															AAFRESULT_TEST_FAILED);			
		checkExpression(pMob->PrependSlot(NULL) == AAFRESULT_NULL_PARAM, 
												  AAFRESULT_TEST_FAILED);
		mSlot->Release();
		mSlot = NULL;
		
		seg->Release();
		seg = NULL;
		
		filler->Release();
		filler = NULL;

		// AppendSlot
 		checkResult(defs.cdStaticMobSlot()->
					  CreateInstance(IID_IAAFMobSlot, 
									 (IUnknown **)&mSlot));		
 		checkResult(defs.cdFiller()->
					  CreateInstance(IID_IAAFFiller, 
									 (IUnknown **)&filler));		

		checkResult(filler->Initialize(defs.ddkAAFSound(), 10));
		checkResult(filler->QueryInterface (IID_IAAFSegment, (void **)&seg));

		checkResult(mSlot->SetName(slotNames[6]));
		checkResult(mSlot->SetPhysicalNum(1));
		checkResult(mSlot->SetSlotID(7));
		checkResult(mSlot->SetSegment(seg));

		checkResult(pMob->AppendSlot(mSlot));
		checkExpression(pMob->AppendSlot(mSlot) == AAFRESULT_OBJECT_ALREADY_ATTACHED,
															AAFRESULT_TEST_FAILED);			
		checkExpression(pMob->AppendSlot(NULL) == AAFRESULT_NULL_PARAM, 
												  AAFRESULT_TEST_FAILED);
		mSlot->Release();
		mSlot = NULL;
		
		seg->Release();
		seg = NULL;

		filler->Release();
		filler = NULL;

 		// InsertSlotAt -- insert a timecode object for OffsetToMobTimecode() testing
		timecode.startFrame = TCstartFrame;	// One hour
		timecode.drop = TCdrop;
		timecode.fps = TCfps;

		checkResult(defs.cdTimecode()->
					  CreateInstance(IID_IAAFTimecode, 
									 (IUnknown **)&pTimecode));
		checkResult(pTimecode->Initialize(100, &timecode));		
		checkResult(pTimecode->QueryInterface (IID_IAAFSegment, (void **)&seg));
		
		assert(pComponent == NULL);
		checkResult(pTimecode->QueryInterface(IID_IAAFComponent,(void **)&pComponent));
		checkResult(pComponent->SetDataDef(defs.ddkAAFTimecode()));
		pComponent->Release();
		pComponent = NULL;

 		checkResult(defs.cdStaticMobSlot()->
					  CreateInstance(IID_IAAFMobSlot, 
									 (IUnknown **)&mSlot));		

		checkResult(mSlot->SetName(slotNames[5]));
		checkResult(mSlot->SetPhysicalNum(1));
		checkResult(mSlot->SetSlotID(6));
		checkResult(mSlot->SetSegment(seg));

		checkExpression(pMob->InsertSlotAt(8, mSlot) == AAFRESULT_BADINDEX, 
												  AAFRESULT_TEST_FAILED);
		checkResult(pMob->InsertSlotAt(5, mSlot));

		checkExpression(pMob->InsertSlotAt(4, mSlot) == AAFRESULT_OBJECT_ALREADY_ATTACHED,
															AAFRESULT_TEST_FAILED);			
		checkExpression(pMob->InsertSlotAt(1, NULL) == AAFRESULT_NULL_PARAM, 
												  AAFRESULT_TEST_FAILED);
		mSlot->Release();
		mSlot = NULL;

		seg->Release();
		seg = NULL;
		
		pTimecode->Release();
		pTimecode = NULL;


		//now test AppendNewStaticSlot
		checkResult(defs.cdSourceClip()->
			CreateInstance(IID_IAAFSourceClip, 
			(IUnknown **)&sclp));		
		checkResult(sclp->QueryInterface(IID_IAAFSourceReference, (void **)&pSourceRef));
		checkResult(pSourceRef->SetSourceID(MOBTestID_Static));

		checkResult(sclp->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));

		checkResult(sclp->QueryInterface (IID_IAAFSegment, (void **)&seg));

		checkResult(pMobInterface2->AppendNewStaticSlot (  seg,
			8,
			slotNames[7],
			&newStaticSlot));

		if(newStaticSlot)
			newStaticSlot->Release();
		newStaticSlot = NULL;


		seg->Release();
		seg = NULL;

		pSourceRef->Release();
		pSourceRef = NULL;

		sclp->Release();
		sclp = NULL;

		pComponent->Release();
		pComponent = NULL;



		//now test AppendNewEventSlot

		//Create a concrete version of IAAFEvent
		checkResult (pDictionary->CreateMetaInstance (AUID_AAFClassDef, IID_IAAFClassDef, (IUnknown**) &pcdEventMeta));
		checkResult (pDictionary->LookupClassDef (AUID_AAFEvent, &pcdEvent));
		checkResult (pcdEventMeta->Initialize (kClassID_ConcreteEvent, pcdEvent, L"COncreteEvent", kAAFTrue));
		checkResult (pDictionary->RegisterClassDef (pcdEventMeta));

		//Now instantiate it
		checkResult(pDictionary->LookupClassDef(kClassID_ConcreteEvent, &pcdEventConcrete));
		checkResult(pcdEventConcrete->CreateInstance(IID_IAAFEvent, (IUnknown **)&event));
		
		//and initialize reqruied properties
		checkResult(event->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
		event->SetPosition(1);

		aafRational_t EventeditRate = { 0, 1};

		//get the segment
		checkResult(event->QueryInterface (IID_IAAFSegment, (void **)&seg));
		checkResult(pMobInterface2->AppendNewEventSlot (  EventeditRate,
															seg,
															9,
															slotNames[8],
															0,
															&newEventSlot));

		if(newEventSlot)
			newEventSlot->Release();
		newEventSlot = NULL;

		seg->Release();
		seg = NULL;

		pComponent->Release();
		pComponent = NULL;

		event->Release();
		event = NULL;

		pcdEventConcrete->Release();
		pcdEventConcrete = NULL;

		pcdEvent->Release();
		pcdEvent = NULL;

		pcdEventMeta->Release();
		pcdEventMeta = NULL;


		// Try CountKLVData before any have been attached
		numFound = 1;
		checkResult(pMob->CountKLVData(&numFound));
		checkExpression(numFound == 0, AAFRESULT_TEST_FAILED);
		checkExpression(pMob->CountKLVData(NULL) == AAFRESULT_NULL_PARAM,
			AAFRESULT_TEST_FAILED);		  
		// AppendKLVData - attach some objects
		checkResult(pDictionary->LookupTypeDef (kAAFTypeID_UInt8Array, &pBaseType));
		checkResult(pDictionary->RegisterKLVDataKey(TEST_KLV, pBaseType));
		pBaseType->Release();
		pBaseType = NULL;

		checkExpression(pMob->AppendKLVData(NULL) == AAFRESULT_NULL_PARAM,
		  												AAFRESULT_TEST_FAILED);	
 		checkResult(defs.cdKLVData()->
					  CreateInstance(IID_IAAFKLVData, 
									 (IUnknown **)&pKLVData));									 		
		checkResult(pKLVData->Initialize(TEST_KLV, sizeof(KLVfrowney), 
		  													(unsigned char *)KLVfrowney));
		checkResult(pMob->AppendKLVData(pKLVData));		  
		pKLVData->Release();
		pKLVData = NULL;
		  
 		checkResult(defs.cdKLVData()->
					  CreateInstance(IID_IAAFKLVData, 
									 (IUnknown **)&pKLVData));
		checkResult(pKLVData->Initialize(TEST_KLV, sizeof(KLVfrowney), 
		  													(unsigned char *)KLVfrowney));
		checkResult(pMob->AppendKLVData(pKLVData));		  
		checkExpression(pMob->AppendKLVData(pKLVData) == AAFRESULT_OBJECT_ALREADY_ATTACHED,
		  														AAFRESULT_TEST_FAILED);		  
		  												
		// RemoveKLVData - remove object #2
		checkExpression(pMob->RemoveKLVData(NULL) == AAFRESULT_NULL_PARAM,
		  												AAFRESULT_TEST_FAILED);		  
 		checkResult(pMob->CountKLVData(&numFound));
		checkExpression(numFound == 2, AAFRESULT_TEST_FAILED);
 		checkResult(pMob->RemoveKLVData(pKLVData));
 		checkResult(pMob->CountKLVData(&numFound));
		checkExpression(numFound == 1, AAFRESULT_TEST_FAILED);
		pKLVData->Release();
		pKLVData = NULL;
 		  
		// Try removing an object that is not attached
 		checkResult(defs.cdKLVData()->
					  CreateInstance(IID_IAAFKLVData, 
									 (IUnknown **)&pKLVData));
		checkResult(pKLVData->Initialize(TEST_KLV, sizeof(KLVsmiley), 
		  													(unsigned char *)KLVsmiley));
		checkExpression(pMob->RemoveKLVData(pKLVData) == AAFRESULT_OBJECT_NOT_ATTACHED, 
		  												AAFRESULT_TEST_FAILED);
		// Attach it to replace the one removed												
		checkResult(pMob->AppendKLVData(pKLVData));

		pKLVData->Release();
		pKLVData = NULL;

		// Comments
		checkExpression(pMob->GetComments(&enumTaggedVal) == AAFRESULT_PROP_NOT_PRESENT,
													AAFRESULT_TEST_FAILED);
		// Check CountComments()
		checkExpression(pMob->CountComments(NULL) == AAFRESULT_NULL_PARAM,
															AAFRESULT_TEST_FAILED);
		numComments = 1;
		checkResult(pMob->CountComments(&numComments));
		checkExpression(numComments == 0, AAFRESULT_TEST_FAILED);
		
		// Check AppendComments()
		checkExpression(pMob->AppendComment(NULL, pComment[0]) == AAFRESULT_NULL_PARAM,
																	AAFRESULT_TEST_FAILED);
		checkExpression(pMob->AppendComment(const_cast<aafWChar*>(pCategory[0]), NULL) == AAFRESULT_NULL_PARAM,
																	AAFRESULT_TEST_FAILED);
		for (i = 0; i < 5; ++i)
		{
		checkResult(pMob->AppendComment(const_cast<aafWChar*>(pCategory[i]), pComment[i]));
		}

		checkResult(pMob->CountComments(&numComments));
		checkExpression(numComments == 5, AAFRESULT_TEST_FAILED);

		// Check GetComments()
		checkExpression(pMob->GetComments(NULL) == AAFRESULT_NULL_PARAM,
													AAFRESULT_TEST_FAILED);
		checkResult(pMob->GetComments(&enumTaggedVal));
		for (i = 0; i < 5; ++i)
		{						
			checkResult(enumTaggedVal->NextOne(&taggedVal));
			
			checkResult(taggedVal->GetNameBufLen(&bufLen));
			checkResult(taggedVal->GetName(name, bufLen));
			checkExpression(wcscmp(name, pCategory[i]) == 0, AAFRESULT_TEST_FAILED);
			
			checkResult(taggedVal->GetValueBufLen(&bufLen));
			checkResult(taggedVal->GetValue(bufLen, (aafDataBuffer_t)value, &bytesRead));
			checkExpression(wcscmp(value, pComment[i]) == 0, AAFRESULT_TEST_FAILED);

			taggedVal->Release();
			taggedVal = NULL;
		}		

		
 		checkResult(defs.cdTaggedValue()->
					  CreateInstance(IID_IAAFTaggedValue, 
									 (IUnknown **)&taggedVal));		
						
		checkExpression(pMob->RemoveComment(taggedVal) == AAFRESULT_OBJECT_NOT_ATTACHED, 
													AAFRESULT_TEST_FAILED);
		taggedVal->Release();
		taggedVal = NULL;

		enumTaggedVal->Reset();
		enumTaggedVal->Skip(2);
		checkResult(enumTaggedVal->NextOne(&taggedVal));
		checkExpression(pMob->RemoveComment(NULL) == AAFRESULT_NULL_PARAM, 
													AAFRESULT_TEST_FAILED);
		checkResult(pMob->RemoveComment(taggedVal));
		taggedVal->Release();
		taggedVal = NULL;
			
		enumTaggedVal->Reset();
		for (i = 0; i < 5; ++i)
		{
 			if (i==2)
 				continue;
 										
			checkResult(enumTaggedVal->NextOne(&taggedVal));
			
			checkResult(taggedVal->GetNameBufLen(&bufLen));
			checkResult(taggedVal->GetName(name, bufLen));
			checkExpression(wcscmp(name, pCategory[i]) == 0, AAFRESULT_TEST_FAILED);
			
			checkResult(taggedVal->GetValueBufLen(&bufLen));
			checkResult(taggedVal->GetValue(bufLen, (aafDataBuffer_t)value, &bytesRead));
			checkExpression(wcscmp(value, pComment[i]) == 0, AAFRESULT_TEST_FAILED);

			taggedVal->Release();
			taggedVal = NULL;
		}		

		enumTaggedVal->Release();
		enumTaggedVal = NULL;
		

  	  // Check the Mob2 attribute and usage code implementations.
 	  // Need IAAFMob2 for that;
	 checkResult( pMobInterface2->AppendAttribute( AttributeNames[0], AttributeValues[0] ) );
	 checkResult( pMobInterface2->AppendAttribute( AttributeNames[1], AttributeValues[1] ) );
	 checkResult( pMobInterface2->SetUsageCode( kAAFUsage_SubClip ) );

	  // Add the mob to the file.
	  checkResult(pHeader->AddMob(pMob));

	  // Test changing the mob id after the mob is attached to the
	  // content store.  Change it, then reset to the original id.
	  checkResult(pMob->SetMobID(MOBTestID2));
	  checkResult(pMob->SetMobID(MOBTestID));
	  
	  // Create another Mob, check mob count, then delete and recheck count
	  checkResult(defs.cdMasterMob()->
				  CreateInstance(IID_IAAFMob, 
								 (IUnknown **)&pMob2));

	  checkResult(pMob2->SetMobID(MOBTestID2));
	  checkResult(pMob2->SetName(mobName));
	  
	  checkResult(pMob2->SetCreateTime(creationTimeStamp));
	  checkResult(pMob2->SetModTime(modificationTimeStamp));
	  // Add the mob to the file.
	  checkResult(pHeader->AddMob(pMob2));
	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression(numMobs == 2, AAFRESULT_TEST_FAILED);
	  checkResult(pHeader->RemoveMob(pMob2));
	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression(numMobs == 1, AAFRESULT_TEST_FAILED);

	  //try Copy()
	  const aafCharacter *copy_name = L"Name of Copied Mob";
	  IAAFMobSP spCopiedMob;
	  checkResult(pMob->Copy(copy_name, &spCopiedMob));
	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression(numMobs == 2, AAFRESULT_TEST_FAILED);
	  checkResult(pHeader->RemoveMob(spCopiedMob));
	  checkResult(pHeader->CountMobs(kAAFAllMob, &numMobs));
	  checkExpression(numMobs == 1, AAFRESULT_TEST_FAILED);

	  //try CloneExternal
	  IAAFMobSP spClonedMob;
	  IAAFFileSP spDestFile;
	  aafCharacter dest_filename[128];
	  wcscpy(dest_filename, pFileName);
	  wcscat(dest_filename, L"_clone");


	  // Remove the previous test file if any.
	  RemoveTestFile(dest_filename);
	  checkResult(CreateTestFile( dest_filename, fileKind, rawStorageType, productID, &spDestFile ));
	  checkResult(pMob->CloneExternal(kAAFNoFollowDepend, kAAFNoIncludeMedia, spDestFile, &spClonedMob));
	  checkResult(spDestFile->Save());	  	
	  checkResult(spDestFile->Close());	  	
	}
  catch (HRESULT& rResult)
	{
	  hr = rResult;
	}


  // Cleanup and return
  if (enumTaggedVal)
    enumTaggedVal->Release();

  if (newSlot)
    newSlot->Release();

  if (newStaticSlot)
	newStaticSlot->Release();
		 

  if (seg)
    seg->Release();

  if (pComponent)
    pComponent->Release();

  if (sclp)
    sclp->Release();

  if (pMob)
    pMob->Release();

  if (pMob2)
    pMob2->Release();

  if (pMobInterface2)
    pMobInterface2->Release();

  if (pDictionary)
    pDictionary->Release();

  if (pHeader)
    pHeader->Release();

 if(pcdEventMeta)
	  pcdEventMeta->Release();

 if(pcdEvent)
	  pcdEvent->Release();

  if(pcdEventConcrete)
	  pcdEventConcrete->Release();
 

      
  if (pFile)
	{  // Close file
	  if (bFileOpen)
		{
		  pFile->Save();
		  pFile->Close();
		}
	  pFile->Release();
	}

  return hr;
}
Example #13
0
extern int main(int argc, char *argv[])
{
	const char *filename_cstr = "test.aaf";

#ifndef _MSC_VER
	setlocale (LC_ALL, "en_US.UTF-8");
#endif

	if (argc >= 2)
	{
		filename_cstr = argv[1];
	}

	// convert C str to wide string
	aafWChar filename[FILENAME_MAX];
	size_t status = mbstowcs(filename, filename_cstr, sizeof(filename));
	if (status == (size_t)-1) {
		fprintf(stderr, "mbstowcs failed for \"%s\"\n", filename_cstr);
		return 1;
	}
	remove(filename_cstr);

	IAAFFile *pFile = NULL;
	int mode = 0;

	aafProductIdentification_t productID;
	aafProductVersion_t TestVersion = {1, 1, 0, 0, kAAFVersionUnknown};
	productID.companyName = (aafCharacter*)L"HSC";
	productID.productName = (aafCharacter*)L"String Tester";
	productID.productVersion = &TestVersion;
	productID.productVersionString = NULL;
	productID.productID = TestProductID;
	productID.platform = (aafCharacter*)L"Linux";

	// Create new AAF file
	check(AAFFileOpenNewModify(filename, mode, &productID, &pFile));

	// Create a simple Mob
	IAAFClassDef	*classDef = NULL;
	IAAFMob			*pMob = NULL;
	IAAFHeader		*pHeader = NULL;
	IAAFDictionary	*pDictionary = NULL;

	check(pFile->GetHeader(&pHeader));
	check(pHeader->GetDictionary(&pDictionary));
	check(pDictionary->LookupClassDef(AUID_AAFMasterMob, &classDef));
	check(classDef->CreateInstance(IID_IAAFMob, (IUnknown **)&pMob));
	classDef->Release();

	
	check(pMob->SetMobID(TEST_MobID));

	// UTF-8 for codepoint U+1D11E (musical G Clef): 0xf0,0x9d,0x84,0x9e
	// UTF-8 for codepoint U+1D122 (musical F Clef): 0xf0,0x9d,0x84,0xa2
	// http://unicode.org/charts/PDF/U1D100.pdf 
	// http://en.wikipedia.org/wiki/UTF-8
	aafCharacter *mobname;
	const unsigned char inputStr[] = {	0xf0,0x9d,0x84,0x9e,	// U+1D11E
										0xf0,0x9d,0x84,0xa2,	// U+1D122
										0x4d, 0x6f, 0x62,		// 'M' 'o' 'b'
										0x0 };

	// Convert UTF-8 inputStr to native wchar_t representation (UTF-32 Unix, UTF-16 Windows)
	int wlen = 0, n;
#ifndef _MSC_VER
	int ret;
	char *p = (char *)inputStr;
	while ((ret = mblen(p, 4)) > 0)
	{ ++wlen; p+=ret; }
	mobname = new aafCharacter[wlen+1];
	n = mbstowcs(mobname, (const char *)inputStr, wlen+1);

	if (n == -1)
	{
		fprintf (stderr, "mbstowcs returned -1. Invalid multibyte string\n");
		exit(1);
	}
#else
	// Under Windows we must use MultiByteToWideChar() to get correct UTF-8 conversion to UTF-16
	// since mbstowcs() is broken for UTF-8.
	wlen = MultiByteToWideChar (CP_UTF8, MB_ERR_INVALID_CHARS, (LPCSTR)inputStr, -1, NULL, 0);
	if (wlen == 0)
	{
		fprintf (stderr, "MultiByteToWideChar returned 0. Invalid multibyte string\n");
		exit(1);
	}
	mobname = new aafCharacter[wlen];
	n = MultiByteToWideChar (CP_UTF8, MB_ERR_INVALID_CHARS, (LPCSTR)inputStr, -1, mobname, wlen);
	if (n == 0)
	{
		fprintf (stderr, "MultiByteToWideChar returned 0. Invalid multibyte string\n");
		exit(1);
	}
#endif

	// SetName() calls OMSimpleProperty::set() which does a memcpy of the mobname string
	// to an OMByte* variable 'bits()' at OMProperty.cpp:399
	// Found by setting an rwatch on mobname address.
	check(pMob->SetName(mobname));
	aafUInt32 size_before = 0;
	check(pMob->GetNameBufLen(&size_before));
	check(pHeader->AddMob(pMob));
	pMob->Release();
	pHeader->Release();
	pDictionary->Release();

	// All the work of storing to disk happens during Save()
	// The bits() variable is next read in OMType::contract() at OMType.cpp:137
	// which is called by ImplAAFTypeDefCharacter::externalize() at ImplAAFTypeDefCharacter.cpp:307
	// which is called by ImplAAFTypeDefString::externalize() at ImplAAFTypeDefString.cpp:584
	// which is called by OMSSStoredObject::save() at OMSSStoredObject.cpp:382
	check(pFile->Save());
	check(pFile->Close());
	pFile->Release();

	// OMCharacterStringProperty<CharacterType>::stringLength() at OMVariableSizePropertyT.h:80
	// calculates string length of AAF string properties

	// Read AAF file back in
	check(AAFFileOpenExistingRead(filename, mode, &pFile));

	// Get the Mob
	check(pFile->GetHeader(&pHeader));
	check(pHeader->LookupMob(TEST_MobID, &pMob));
	aafUInt32 size_after = 0;
	check(pMob->GetNameBufLen(&size_after));
	aafCharacter *mobname_after = new aafCharacter[size_after];
	check(pMob->GetName(mobname_after, size_after));

	// Compare Mob name before storing to disk with Mob name read back from disk
	int test_result = 0;
	if (size_before != size_after) {
		printf("size_before=%d != size_after=%d\n", size_before, size_after);
		test_result = 1;
	}
	else {
		if (memcmp(mobname, mobname_after, size_before) != 0) {
			printf("wchar_t* mobname and wchar_t* mobname_after differ:\n");
			printf("  %s\n", hexDump(mobname, size_before));
			printf("  %s\n", hexDump(mobname_after, size_after));
			test_result = 1;
		}
	}

	// Check if the multibyte (UTF-8) versions of mobname and mobname_after match.
	char *outputStr;
#ifndef _MSC_VER
	wlen = wcslen(mobname_after)*sizeof(aafCharacter) + 1;
	outputStr = new char [wlen];
	n = wcstombs (outputStr, mobname_after, wlen);
	if (n == -1)
	{
		fprintf(stderr, "Could not convert mobname_after to multibyte str\n");
		exit(1);
	}
#else
	wlen = WideCharToMultiByte(CP_UTF8, 0, mobname_after, -1, NULL, 0, NULL, NULL);
	if (wlen == 0)
	{
		fprintf (stderr, "Failed to convert mobname_after to multibyte string\n");
		exit(1);
	}
	outputStr = new char[wlen];

	wlen = WideCharToMultiByte(CP_UTF8, 0, mobname_after, -1, outputStr, wlen, NULL, NULL);
#endif

	if (strlen((char *)inputStr) != strlen(outputStr))
	{
		fprintf(stderr, "UTF-8 version of string: input length(%d) != output length(%d)\n", (int)strlen((char *)inputStr), (int)strlen(outputStr));
		test_result = 1;
	}

	if (strcmp((char *)inputStr, outputStr) != 0)
	{
		fprintf(stderr, "UTF-8 version of string: input and output strings differ\n");
		printf("  %s\n", hexDump(inputStr, strlen((char *)inputStr)));
		printf("  %s\n", hexDump(outputStr, strlen(outputStr)));
		test_result = 1;
	}

	pMob->Release();
	pHeader->Release();
	check(pFile->Close());
	pFile->Release();

	delete [] mobname;
	delete [] mobname_after;
	return test_result;
}
Example #14
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *			pFile = NULL;
	bool				bFileOpen = false;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*		pDictionary = NULL;
	IAAFMob				*pMob = NULL;
	IAAFMob*			pRMob = NULL;
	IAAFMasterMob*		pReferencedMob = NULL;
	IAAFCompositionMob* pCompMob = NULL;
	IAAFTimelineMobSlot	*newSlot = NULL;
	IAAFSegment			*seg = NULL;
	IAAFSourceClip		*sclp = NULL;
	HRESULT				hr = S_OK;

	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);

		// Create the file.
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		//Make the first mob
		long	test;

		// Create a  Composition Mob
		checkResult(defs.cdCompositionMob()->
					CreateInstance(IID_IAAFCompositionMob, 
								   (IUnknown **)&pCompMob));

		checkResult(pCompMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"AAFTaggedValuesTest"));

		// append a comment to this mob !!
		checkResult(pMob->AppendComment(const_cast<aafWChar*>(TagNames), Comments));
	  
		checkResult(pMob->AppendComment(const_cast<aafWChar*>(TagNames), AltComment));

		// Create a master mob to be referenced
		checkResult(defs.cdMasterMob()->
					CreateInstance(IID_IAAFMasterMob, 
								   (IUnknown **)&pReferencedMob));

		checkResult(pReferencedMob->QueryInterface(IID_IAAFMob, (void **)&pRMob));
		checkResult(pRMob->SetMobID(TEST_referencedMobID));
		checkResult(pRMob->SetName(L"AAFTaggedValueTest::ReferencedMob"));

		// Add some slots
		for(test = 0; test < 5; test++)
		{
 			checkResult(defs.cdSourceClip()->
						CreateInstance(IID_IAAFSourceClip, 
									   (IUnknown **)&sclp));		
			// Set the properties for the SourceClip
			sourceRef.sourceID = TEST_referencedMobID;
			sourceRef.sourceSlotID = 0;
			sourceRef.startTime = 0;
			IAAFDataDefSP pDataDef;
			checkResult(pDictionary->LookupDataDef(*slotDDefs[test], &pDataDef));
			checkResult(sclp->Initialize(pDataDef, slotsLength[test], sourceRef));

			checkResult(sclp->QueryInterface (IID_IAAFSegment, (void **)&seg));
			
			aafRational_t editRate = { 0, 1};
			checkResult(pMob->AppendNewTimelineSlot (editRate,
													 seg,
													 test+1,
													 slotNames[test],
													 0,
													 &newSlot));

			newSlot->Release();
			newSlot = NULL;

			seg->Release();
			seg = NULL;

			sclp->Release();
			sclp = NULL;
		}

		// Add the mob to the file.
		checkResult(pHeader->AddMob(pMob));
		checkResult(pHeader->AddMob(pRMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}


  // Cleanup and return
  if (newSlot)
    newSlot->Release();

  if (seg)
    seg->Release();

  if (sclp)
    sclp->Release();

  if (pCompMob)
	  pCompMob->Release();

  if (pMob)
    pMob->Release();

  if (pReferencedMob)
	  pReferencedMob->Release();

  if (pRMob)
	  pRMob->Release();

  if (pDictionary)
    pDictionary->Release();

  if (pHeader)
    pHeader->Release();
      
  if (pFile)
  {  // Close file
    if (bFileOpen)
	  {
		  pFile->Save();
		  pFile->Close();
	  }
    pFile->Release();
  }

  return hr;
}
Example #15
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *			pFile = NULL;
	bool				bFileOpen = false;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*		pDictionary = NULL;
	IAAFMob*			pMob = NULL;
	IAAFRIFFChunk*		pRIFFChunk = NULL;
	IAAFSourceMob*				pSourceMob = NULL;
	IAAFEssenceDescriptor*		pEssDesc = NULL;
	IAAFBWFImportDescriptor*			pBWFImportDesc = NULL;
	aafUInt32			byteswritten;
	aafUInt32			bBytesWrote = 0;
	HRESULT				hr = S_OK;



		// Remove the previous test file if any.
		RemoveTestFile(pFileName);

		// Create the file.
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		checkResult(defs.cdSourceMob()->
			  CreateInstance(IID_IAAFSourceMob, 
							 (IUnknown **)&pSourceMob));
		pSourceMob->QueryInterface(IID_IAAFMob, (void **)&pMob);
	
		pMob->SetMobID(TEST_MobID);
		pMob->SetName(L"RIFFChunkTest");
		
		//Create BWFImportDescriptor to hold the RIFFChunk
		checkResult( defs.cdBWFImportDescriptor()->
					  CreateInstance(IID_IAAFBWFImportDescriptor, (IUnknown **)&pBWFImportDesc));
					 
		// Create RIFFChunk and add it to BWFImportDescriptor

		checkResult(defs.cdRIFFChunk()->CreateInstance(IID_IAAFRIFFChunk, 
							 (IUnknown **)&pRIFFChunk));
		checkResult(pBWFImportDesc->AppendUnknownBWFChunk(pRIFFChunk));
								 
		checkResult( pBWFImportDesc->QueryInterface(IID_IAAFEssenceDescriptor, (void **)&pEssDesc));
		checkResult(pSourceMob->SetEssenceDescriptor(pEssDesc));
		
		//Add the MOB to the file
		checkResult(pHeader->AddMob(pMob));

		bBytesWrote = 0;
		checkResult(pRIFFChunk->Initialize(chunkID));
		checkResult(pRIFFChunk->Write(sizeof(RIFFChunksmiley), (unsigned char *)RIFFChunksmiley, &bBytesWrote));
		byteswritten = bBytesWrote;
		bBytesWrote = 0;
		checkResult(pRIFFChunk->Write(sizeof(RIFFChunkfrowney), (unsigned char *)RIFFChunkfrowney, &bBytesWrote));
		byteswritten += bBytesWrote;
		checkExpression(byteswritten == sizeof(RIFFChunksmiley) + sizeof(RIFFChunkfrowney), AAFRESULT_TEST_FAILED);
		
		pFile->Save();

		pEssDesc->Release();
		pEssDesc = NULL;		
		pBWFImportDesc->Release();
		pBWFImportDesc = NULL;
		
		pRIFFChunk->Release();
		pRIFFChunk = NULL;
	
		pMob->Release();
		pMob = NULL;
	
		pSourceMob->Release();
		pSourceMob = NULL;

		pDictionary->Release();
		pDictionary = NULL;

		pHeader->Release();
		pHeader = NULL;


		pFile->Close();	
		pFile->Release();
		pFile = NULL;
		
	return hr;

}
Example #16
0
static HRESULT ProcessAAFFile(const aafWChar * pFileName, testType_t testType)
{
	IAAFFile *					pFile = NULL;
	IAAFHeader *				pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IEnumAAFMobs*				pMobIter = NULL;
	aafNumSlots_t				numMobs, numSlots;
	aafSearchCrit_t				criteria;
	aafMobID_t					mobID;
	aafWChar					namebuf[1204];
	const aafWChar*				slotName = L"A slot in Composition Mob";
	IAAFComponent*				pComponent = NULL;
	IAAFComponent*				aComponent = NULL;
	IEnumAAFMobSlots*			pMobSlotIter = NULL;
	IAAFMobSlot*				pMobSlot = NULL;
	IAAFTimelineMobSlot*		newSlot = NULL;
	IAAFSegment*				seg = NULL;
	IAAFSegment*				pSegment = NULL;
	IAAFMob*					pCompMob = NULL;
	IAAFMob*					pMob = NULL;
	aafPosition_t				zeroPos = 0;
	IAAFSequence*				pAudioSequence = NULL;
	IAAFSourceClip*				pSourceClip = NULL;
	aafLength_t					duration;
	IAAFTimelineMobSlot* pTimelineMobSlot = NULL;
  IAAFClassDef *pCompositionMobDef = NULL;
  IAAFClassDef *pSequenceDef = NULL;
  IAAFClassDef *pSourceClipDef = NULL;
  IAAFDataDef *pSoundDef = NULL;
  IAAFDataDef *pDataDef = NULL;
	

	// Set the edit rate information
	aafRational_t				editRate;
	editRate.numerator = 48000;
	editRate.denominator = 1;

	// Set search condition to true
	bool lookingForAudio = true;

	// Call the routine (from ExportAudioExample) to make the file for processing
	check(CreateAAFFile(pwFileName, NULL, testStandardCalls, &pFile));

	/* Get the Header and iterate through the Master Mobs in the existing file */
	check(pFile->GetHeader(&pHeader));
	check(pHeader->GetDictionary(&pDictionary));

	
  /* Lookup class definitions for the objects we want to create. */
  check(pDictionary->LookupClassDef(AUID_AAFCompositionMob, &pCompositionMobDef));
  check(pDictionary->LookupClassDef(AUID_AAFSequence, &pSequenceDef));
  check(pDictionary->LookupClassDef(AUID_AAFSourceClip, &pSourceClipDef));

  /* Lookup any necessary data definitions. */
  check(pDictionary->LookupDataDef(kAAFDataDef_Sound, &pSoundDef));
  

	// Get the number of master mobs in the existing file (must not be zero)
	check(pHeader->CountMobs(kAAFMasterMob, &numMobs));
	if (numMobs != 0)
	{
		printf("Found %d Master Mobs\n", numMobs);
		criteria.searchTag = kAAFByMobKind;
		criteria.tags.mobKind = kAAFMasterMob;
		check(pHeader->GetMobs(&criteria, &pMobIter));

		/* Create a Composition Mob */
		check(pCompositionMobDef->
			  CreateInstance(IID_IAAFMob,
							 (IUnknown **)&pCompMob));
		/* Append the Mob to the Header */
		check(pHeader->AddMob(pCompMob));
 
		/* Create a TimelineMobSlot with an audio sequence */
		check(pSequenceDef->
			  CreateInstance(IID_IAAFSequence,
							 (IUnknown **)&pAudioSequence));
		check(pAudioSequence->QueryInterface(IID_IAAFSegment, (void **)&seg));

		check(pAudioSequence->QueryInterface(IID_IAAFComponent,
											 (void **)&aComponent));

		check(aComponent->SetDataDef(pSoundDef));
		check(pCompMob->AppendNewTimelineSlot(editRate, seg, 1, slotName, zeroPos, &newSlot));
    seg->Release();
    seg = NULL;
    newSlot->Release();
    newSlot = NULL;

		// This variable is about to be overwritten so we need to release the old interface
		aComponent->Release();
		aComponent = NULL;

		while((AAFRESULT_SUCCESS == pMobIter->NextOne(&pMob)))
		{
			//  Print out information about the Mob
			char mobIDstr[256];
			char mobName[256];

			check(pMob->GetMobID (&mobID));
			check(pMob->GetName (namebuf, sizeof(namebuf)));
			convert(mobName, sizeof(mobName), namebuf);
			MobIDtoString(mobID, mobIDstr);
			printf("    MasterMob Name = '%s'\n", mobName);
			printf("        (mobID %s)\n", mobIDstr);
			
			// Add a Source Clip for each Master Mob to the audio sequence by iterating
			check(pMob->GetSlots(&pMobSlotIter));
			
			/* Iterating through all Mob Slots */
			// Get the number of slots
			check(pMob->CountSlots(&numSlots));
			
			while (lookingForAudio && (AAFRESULT_SUCCESS == pMobSlotIter->NextOne(&pMobSlot)));
			{
				/* Check to see if it is an Audio Timeline Mob Slot */
				HRESULT hr;
				
				hr=pMobSlot->QueryInterface(IID_IAAFTimelineMobSlot,(void **) &pTimelineMobSlot);
				if (SUCCEEDED(hr))
				{
					printf("Found a timeline mob slot\n");
					check(pMobSlot->GetDataDef(&pDataDef));
					
					// Check that we have a sound file by examining its data definition
          aafBool bIsSoundKind = kAAFFalse;
          check(pDataDef->IsSoundKind(&bIsSoundKind));

          if (kAAFTrue == bIsSoundKind)
					{
						printf("Found a sound file\n");

						// We are no longer looking for audio data so set boolean	
						lookingForAudio = false;

						/* Get the information for the new source clip */
						check(pMob->GetMobID(&sourceRef.sourceID));
						check(pMobSlot->GetSlotID(&sourceRef.sourceSlotID));
						check(pTimelineMobSlot->GetOrigin(&sourceRef.startTime));
						check(pMobSlot->GetSegment(&pSegment));
						check(pSegment->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
						check(pComponent->GetLength(&duration));
            pComponent->Release();
            pComponent = NULL;
            pSegment->Release();
            pSegment = NULL;
						
						// this loop is to be removed upon fixing of the bug
						// in essenceaccess relating to codec definitions...
						int j = 0;
						for (j=0; j<10; j++)
						{
							/* Create a new Source Clip */
							check(pSourceClipDef->
								  CreateInstance(IID_IAAFSourceClip,
												 (IUnknown **)&pSourceClip));
							// Initialize the Source Clip
							check(pSourceClip->Initialize( pSoundDef, duration, sourceRef));
							check(pSourceClip->QueryInterface(IID_IAAFComponent, (void **) &pComponent));
							check(pAudioSequence->AppendComponent(pComponent));
              pComponent->Release();
              pComponent = NULL;
							pSourceClip->Release();
							pSourceClip = NULL;
						}
					}
					pTimelineMobSlot->Release();
					pTimelineMobSlot = NULL;

          pDataDef->Release();
          pDataDef = NULL;
				}	
        
        pMobSlot->Release();
        pMobSlot = NULL;
			}

      pMobSlotIter->Release();
      pMobSlotIter = NULL;
		  pMob->Release();
		  pMob = NULL;
		}
		

    pAudioSequence->Release();
    pAudioSequence = NULL;

    pCompMob->Release();
    pCompMob = NULL;

		pMobIter->Release();
		pMobIter = NULL;
	}
	else
	{
		printf("Error with file: File has no Master mobs.\n");
	}

cleanup:
	// Cleanup and return
  if (pSourceClip)
    pSourceClip->Release();

  if (pComponent)
    pComponent->Release();

  if (pSegment)
    pSegment->Release();

  if (pTimelineMobSlot)
    pTimelineMobSlot->Release();

  if (pMobSlotIter)
    pMobSlotIter->Release();

  if (pMob)
    pMob->Release();

  if (newSlot)
    newSlot->Release();

  if (aComponent)
    aComponent->Release();

  if (seg)
    seg->Release();

  if (pAudioSequence)
    pAudioSequence->Release();

  if (pCompMob)
    pCompMob->Release();

  if (pMobIter)
		pMobIter->Release();

  if (pDataDef)
    pDataDef->Release();

  if (pSoundDef)
    pSoundDef->Release();

  if (pSourceClipDef)
    pSourceClipDef->Release();

  if (pSequenceDef)
    pSequenceDef->Release();

  if (pCompositionMobDef)
    pCompositionMobDef->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile) 
	{
	  /* Save the AAF file */
    pFile->Save();
	  /* Close the AAF file */
		pFile->Close();
		pFile->Release();
	}

	return moduleErrorTmp;
}
Example #17
0
static HRESULT CreateAAFFile(aafWChar * pFileName, bool comp_enable)
{
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
	IAAFHeader2*				pHeader2 = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMasterMob*				pMasterMob = NULL;
	IAAFEssenceAccess*			pEssenceAccess = NULL;
	aafMobID_t					masterMobID;
	aafProductIdentification_t	ProductInfo;
	IAAFClassDef				*pCDMasterMob = NULL;
	IAAFDataDef					*pPictureDef = NULL;
	aafUInt32					samplesWritten, bytesWritten;


	// Delete any previous test file before continuing...
	char cFileName[FILENAME_MAX];
	convert(cFileName, sizeof(cFileName), pFileName);
	remove(cFileName);

	cout << "Creating file " << cFileName << " using WriteSamples with " <<
		(comp_enable ? "CompressionEnable" : "CompressionDisable") << endl;

	aafProductVersion_t ver = {1, 0, 0, 0, kAAFVersionBeta};
	ProductInfo.companyName = const_cast<wchar_t *>(L"none");
	ProductInfo.productName = const_cast<wchar_t *>(L"AAF SDK");
	ProductInfo.productVersion = &ver;
	ProductInfo.productVersionString = const_cast<wchar_t *>(L"1.0.0.0 Beta");
	ProductInfo.productID = NIL_UID;
	ProductInfo.platform = NULL;		// Set by SDK when saving

	// select the file kind
	const aafUID_t*			fileKind = &kAAFFileKind_DontCare;
	if( FormatMXF )			fileKind = &kAAFFileKind_AafKlvBinary;
	else if( FormatSS512 )	fileKind = &kAAFFileKind_Aaf512Binary;
	else					fileKind = &kAAFFileKind_Aaf4KBinary;

	// Create a new AAF file
	check(AAFFileOpenNewModifyEx(pFileName, fileKind, 0, &ProductInfo, &pFile));
	check(pFile->GetHeader(&pHeader));

	// Set the operational pattern
	check(pHeader->QueryInterface(IID_IAAFHeader2, (void **)&pHeader2));
	check(pHeader2->SetOperationalPattern(kAAFOpDef_Atom));

	// Get the AAF Dictionary from the file
	check(pHeader->GetDictionary(&pDictionary));

	/* Lookup class definitions for the objects we want to create. */
	check(pDictionary->LookupClassDef(AUID_AAFMasterMob, &pCDMasterMob));

	/* Lookup any necessary data definitions. */
	check(pDictionary->LookupDataDef(kAAFDataDef_Picture, &pPictureDef));

	/* Create a Mastermob */

	// Get a Master MOB Interface
	check(pCDMasterMob->CreateInstance(IID_IAAFMasterMob, (IUnknown **)&pMasterMob));

	// Get a Mob interface and set its variables.
	check(pMasterMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
	check(pMob->GetMobID(&masterMobID));
	if (input_video == NULL)
	{
		check(pMob->SetName(L"DNX_color_bars"));
	}
	else
	{
		check(pMob->SetName(pFileName));
	}

	// Add Mobs to the Header
	check(pHeader->AddMob(pMob));

	/* Create the Essence Data specifying the codec, container, edit rate and sample rate */
	check(pMasterMob->CreateEssence(
		1,			// Slot ID within MasterMob
		pPictureDef,			// MediaKind
		UseDNX? kAAFCodecDNxHD : kAAFCodecVC3,			// codecID
		editRate,				// edit rate
		editRate,				// sample rate
		comp_enable ? kAAFCompressionEnable : kAAFCompressionDisable,
		NULL,					// No Locator used
		ContainerAAF,			// Essence embedded in AAF file
		&pEssenceAccess));		//

	// Set the codec flavour for desired video format
	switch(ComprID)
	{
	case 1235:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1235 );
		break;
	case 1238:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1238 );
		break;
	case 1237:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1237 );
		break;
	case 1241:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1241 );
		break;
	case 1243:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1243 );
		break;
	case 1244:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1244 );
		break;
	case 1242:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1242 );
		break;
	case 1250:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1250 );
		break;
	case 1251:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1251 );
		break;
	case 1252:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1252 );
		break;
	case 1253:
		pEssenceAccess->SetEssenceCodecFlavour( kAAFCodecFlavour_VC3_1253 );
		break;
	default:
		break;
	}

	switch( input_type )
	{
	case P_UYVY:
	case BarsUYVY:
	default:
		layout = UseDNX?Layout_P_UYVY:Layout_UYVYM;
		break;

	case UYVY:
		layout = UseDNX?Layout_UYVY:Layout_Unknown;
		break;

	case BGRAI:
	case BarsRGB:
		layout = UseDNX?Layout_BGRAI:Layout_Unknown;
		break;

	case BGRA:
		layout = UseDNX?Layout_BGRA:Layout_Unknown;
		break;
	}

	// Set up the information about the format of the data
	IAAFEssenceFormat *  fmtTemplate=NULL;
	check(pEssenceAccess->GetEmptyFileFormat (&fmtTemplate));
	
	if( UseLegacyUIDs )
		check(fmtTemplate->AddFormatSpecifier (kAAFLegacyAUIDs, sizeof(UseLegacyUIDs), (aafDataBuffer_t)&UseLegacyUIDs));

	if( UseDNX )
		check(fmtTemplate->AddFormatSpecifier (kAAFNumThreads, sizeof(nCodecThreads), (aafDataBuffer_t)&nCodecThreads));

	if( UseDNX )
		check(fmtTemplate->AddFormatSpecifier (kAAFBufferLayout, sizeof(layout), (aafDataBuffer_t)&layout));

	// codec will automatically SetEssenceKey() for MXF if !UseLegacyUIDs
	// codec will automatically SetEssenceKey() for Avid legacy if UseLegacyUIDs

	// future: if other kAAFEssenceElementKey, set it here

	// future: if other kAAFPhysicalTrackNum, set it here

	// Put the format specifiers into the codec
	check(pEssenceAccess->PutFileFormat( fmtTemplate ));

	// For fun, print the name of the selected codec flavour
	aafWChar codec_name[128] = L"";
	check(pEssenceAccess->GetCodecName(sizeof(codec_name), codec_name));
	printf("  using codec flavour \"%ls\"\n", codec_name);

	// Write the video samples
	int total_samples = 0;
	if( input_type==Raw )
	{
		// Read one frame of raw VC3 video at a time, repeat last frame until end
		FILE * ip=fopen( input_video,"rb" );
		if(!ip) return false;

		aafUInt32  nwant = GetBytesPerEditUnit(ComprID); 
		unsigned char* raw_buff = new unsigned char [ nwant ];

		size_t nread=0;

		while( Duration-- )
		{
			// keep on trying to read
			if( !feof( ip ) ) nread=fread( raw_buff, 1, nwant, ip );

			// abandon if partial frame (complete frame or zero is ok
			if ( nread!=nwant && nread!= 0 ) { perror(input_video); break; }

			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, raw_buff, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] raw_buff;
		fclose( ip );
	}
	else if( input_type==P_UYVY || input_type==UYVYI || input_type==UYVYM )
	{
		// Load a single frame of uncompressed
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*(GetPixelsPerLine(ComprID)/2)*(UseDNX?5:8); 
	
		unsigned char* video_buffer = new unsigned char [ nwant ];

		// int LoadXYUV( BufferLayout_t target, byte *video_buffer, int len, int H, int V, const char *input_video, 
		//				 bool isLittleEndian=true, bool isBigEndian=false, bool isP_UYVY=false );

		LoadXYUV( UseDNX?Layout_P_UYVY:Layout_UYVYM, 
			      video_buffer, nwant, 
				  GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1), 
				  input_video,
				  input_type==UYVYI, input_type==UYVYM, input_type==P_UYVY );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}
	else if( input_type==UYVY )
	{
		// Load a single frame of uncompressed
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*(GetPixelsPerLine(ComprID)/2)*(UseDNX?4:8); 
	
		unsigned char* video_buffer = new unsigned char [ nwant ];

		// int LoadXYUV( BufferLayout_t target, byte *video_buffer, int len, int H, int V, const char *input_video, 
		//				 bool isLittleEndian=true, bool isBigEndian=false, bool isP_UYVY=false );

		LoadXYUV( UseDNX?Layout_UYVY:Layout_UYVYM, 
			      video_buffer, nwant, 
				  GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1), 
				  input_video,
				  false, false, false );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}
	else if( input_type==BGRAI )
	{
		// never get here with VC3Codec

		// Load a single frame of uncompressed
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*GetPixelsPerLine(ComprID)*8; 
	
		unsigned char* video_buffer = new unsigned char [ nwant ];

		// int LoadXRGB( BufferLayout_t target, byte *video_buffer, int len, int H, int V, const char *input_video, 
		//				 bool isLittleEndian=true, bool isBigEndian=false, bool hasA=false, bool isRGB=false );

		LoadXRGB( Layout_BGRAI, 
			      video_buffer, nwant, 
				  GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1), 
				  input_video,
				  input_type==BGRAI, false, true, false );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}
	else if( input_type==BGRA )
	{
		// never get here with VC3Codec

		// Load a single frame of uncompressed
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*GetPixelsPerLine(ComprID)*8; 
	
		unsigned char* video_buffer = new unsigned char [ nwant ];

		// int LoadXRGB( BufferLayout_t target, byte *video_buffer, int len, int H, int V, const char *input_video, 
		//				 bool isLittleEndian=true, bool isBigEndian=false, bool hasA=false, bool isRGB=false );

		LoadXRGB( Layout_BGRA, 
			      video_buffer, nwant, 
				  GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1), 
				  input_video,
				  input_type==BGRAI, false, true, false );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}
	else if( input_type==BarsRGB )		// using generated rgb colo(u)r bars
	{
		// never get here with VC3Codec

		// Create a frame of colour bars
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*GetPixelsPerLine(ComprID)*8; 
		unsigned char* video_buffer = new unsigned char [ nwant ];

		LoadXBars( Layout_BGRAI, video_buffer, nwant, GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1) );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}
	else // if( input_type==BarsUYVY || input_video == NULL || others... )		// using generated component colo(u)r bars
	{
		// Create a frame of colour bars
		aafUInt32  nwant = GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1)*(GetPixelsPerLine(ComprID)/2)*(UseDNX?5:8); 
		unsigned char* video_buffer = new unsigned char [ nwant ];

		LoadXBars( UseDNX?Layout_P_UYVY:Layout_UYVYM, video_buffer, nwant, GetPixelsPerLine(ComprID), GetLinesPerField(ComprID)*(IsInterlaced(ComprID)?2:1) );

		while( Duration-- )
		{
			samplesWritten=0;
			check(pEssenceAccess->WriteSamples(1, nwant, video_buffer, &samplesWritten, &bytesWritten));
			total_samples += samplesWritten;
		}
		delete[] video_buffer;
	}

	printf("Completed Write\n");

	/* Set the essence to indicate that you have finished writing the samples */
	check(pEssenceAccess->CompleteWrite());
	check(pHeader2->UpdateEssenceContainers());

	pEssenceAccess->Release();

	pMob->Release();
	pMasterMob->Release();

	pPictureDef->Release();
	pCDMasterMob->Release();

	pDictionary->Release();
	pHeader->Release();
	pHeader2->Release();

	/* Save the AAF file */
	pFile->Save();

	/* Close the AAF file */
	pFile->Close();
	pFile->Release();

	return moduleErrorTmp;
}
Example #18
0
void EventTest::CreateEvent()
{
  assert(_pHeader && _pDictionary);

  HRESULT hr = S_OK;
  IAAFEvent *pEvent = NULL;
  IAAFEventMobSlot *pEventMobSlot = NULL;
  IAAFSegment *pSegment = NULL;
  IAAFMobSlot *pMobSlot = NULL;
  IAAFDataDef *pDataDef = NULL;
  IAAFComponent *pComp = NULL;
  IAAFMob *pMob = NULL;

  CAAFBuiltinDefs defs (_pDictionary);

  try
  {
	  // not already in dictionary
		checkResult(defs.cdDataDef()->
					CreateInstance (IID_IAAFDataDef,
									(IUnknown **)&pDataDef));
	  hr = pDataDef->Initialize (kAAFDataDef_Test, L"Test", L"Test data");
	  hr = _pDictionary->RegisterDataDef (pDataDef);

	// Create a concrete subclass of event
    checkResult(defs.cdCommentMarker()->
				CreateInstance(IID_IAAFEvent, 
							   (IUnknown **)&pEvent));
    checkResult(pEvent->SetPosition(_position));
    checkResult(pEvent->SetComment(const_cast<wchar_t*>(_eventComment)));
	checkResult(pEvent->QueryInterface(IID_IAAFComponent, (void **)&pComp));
	checkResult(pComp->SetDataDef(pDataDef));
	pComp->Release();
	pComp = NULL;

    // Get the segment inteface to the event to install into the mob slot.
    checkResult(pEvent->QueryInterface(IID_IAAFSegment, (void **)&pSegment));

    // Create and initialize an EventMobSlot
    checkResult(defs.cdEventMobSlot()->
				CreateInstance(IID_IAAFEventMobSlot, 
							   (IUnknown **)&pEventMobSlot));
    checkResult(pEventMobSlot->SetEditRate(const_cast<aafRational_t *>(&_editRate)));

    // Get the mob slot interface so that we can add the event segment.
    checkResult(pEventMobSlot->QueryInterface(IID_IAAFMobSlot, (void **)&pMobSlot));

    // Add the event segment to the event mob slot.
    checkResult(pMobSlot->SetSegment(pSegment));

    // Create the mob to hold the new event mob slot.
    checkResult(defs.cdCompositionMob()->
				CreateInstance(IID_IAAFMob, 
							   (IUnknown **)&pMob));
    checkResult(pMob->SetName(L"CompositionMob::Name:Test mob to hold an event mob slot"));

    // Append event slot to the composition mob.
    checkResult(pMob->AppendSlot(pMobSlot));

    // Save the id of the composition mob that contains our test
    // event mob slot.
    checkResult(pMob->SetMobID(gMobID));
    
    // Attach the mob to the header...
    checkResult(_pHeader->AddMob(pMob));

  }
  catch (HRESULT& rHR)
  {
    hr = rHR;
    // fall through and handle cleanup
  }

  // Cleanup local references
  if (pMob)
  {
    pMob->Release();
    pMob = NULL;
  }

  if (pDataDef)
  {
    pDataDef->Release();
    pDataDef = NULL;
  }

  if (pComp)
  {
    pComp->Release();
    pComp = NULL;
  }

  if (pMobSlot)
  {
    pMobSlot->Release();
    pMobSlot = NULL;
  }

  if (pEventMobSlot)
  {
    pEventMobSlot->Release();
    pEventMobSlot = NULL;
  }

  if (pSegment)
  {
    pSegment->Release();
    pSegment = NULL;
  }

  if (pEvent)
  {
    pEvent->Release();
    pEvent = NULL;
  }



  // Propogate the error if necessary.
  checkResult(hr);
}
Example #19
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	// IAAFSession 				*pSession = NULL;
	IAAFFile 					*pFile = NULL;
	IAAFHeader 					*pHeader = NULL;
	IAAFDictionary				*pDictionary = NULL;
	IAAFLocator					*pLocator = NULL;
	IAAFLocator					*pLocator2 = NULL;
	IAAFSourceMob 				*pSourceMob = NULL;
	IAAFMob						*pMob = NULL;
	IAAFEssenceDescriptor 		*edesc = NULL;
	IEnumAAFLocators			*pEnumLocators = NULL;
	aafUInt32					numLocators, numLocators2;
	aafUInt32					i;
	HRESULT						hr = AAFRESULT_SUCCESS,
								localhr = AAFRESULT_SUCCESS;
	bool bFileOpen = false;
//	aafUID_t					ddef = kAAFDataDef_Sound;

	try 
	{
	    // Remove the previous test file if any.
	  RemoveTestFile(pFileName);

	  // Create the file.
	  checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
	  bFileOpen = true;
 
	  // We can't really do anthing in AAF without the header.
	  checkResult(pFile->GetHeader(&pHeader));

	  // Get the AAF Dictionary so that we can create valid AAF objects.
	  checkResult(pHeader->GetDictionary(&pDictionary));
 		
	  CAAFBuiltinDefs defs (pDictionary);

		//Make the first mob
		// Create a Mob
		checkResult(defs.cdSourceMob()->
					CreateInstance(IID_IAAFSourceMob, 
								   (IUnknown **)&pSourceMob));
		
		// Initialize mob properties:
		checkResult(pSourceMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"EssenceDescriptorTest"));
		
		// Create the descriptor:
		// instantiate a concrete subclass of EssenceDescriptor
		checkResult(defs.cdAIFCDescriptor()->
					CreateInstance(IID_IAAFEssenceDescriptor, 
								   (IUnknown **)&edesc));		

		IAAFAIFCDescriptor*			pAIFCDesc = NULL;
		checkResult(edesc->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
		checkResult(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
		pAIFCDesc->Release();
		pAIFCDesc = NULL;

		checkResult(pSourceMob->SetEssenceDescriptor (edesc));


/* CountLocators()	******************************************/
		localhr = AAFRESULT_SUCCESS;
		// Verify AAFRESULT_NULL_PARAM is returned
		if (edesc->CountLocators(NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;		
		
		// Verify that there are no locators
		if (edesc->CountLocators(&numLocators) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		if (0 != numLocators)
			localhr = AAFRESULT_TEST_FAILED;
			
		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	CountLocators() ...		Passed"<< endl;
		else
		{
			cout<< "	CountLocators() ...		FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}
		
/* AppendLocator()	******************************************/
		localhr = AAFRESULT_SUCCESS;
		// Verify AAFRESULT_NULL_PARAM is returned
		if (edesc->AppendLocator(NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;		

		// Append and Count a bunch of Locators
		for (i=1; i<=10; i++)
		{
			// Make a concrete subclass of locator, and attach it to
			// the EssenceDescriptor
			checkResult(defs.cdNetworkLocator()->
					CreateInstance(IID_IAAFLocator, 
								   (IUnknown **)&pLocator));	
								   	
			if (edesc->AppendLocator(pLocator) != AAFRESULT_SUCCESS)
				localhr = AAFRESULT_TEST_FAILED;

			// Verify the number of locators
			numLocators = 0;
			edesc->CountLocators(&numLocators);
			if (i != numLocators)
				localhr = AAFRESULT_TEST_FAILED;

			// Verify that locator was appended
			edesc->GetLocatorAt(i-1, &pLocator2);
			if (pLocator2 != pLocator)
				localhr = AAFRESULT_TEST_FAILED;

			pLocator->Release();
			pLocator = 0;
			pLocator2->Release();
			pLocator2 = 0;
		}

		// Make sure we can't add it again

//		if (edesc->AppendLocator(pLocator) != AAFRESULT_OBJECT_ALREADY_ATTACHED)

//			localhr = AAFRESULT_TEST_FAILED;


		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	AppendLocator() ...		Passed"<< endl;
		else
		{
			cout<< "	AppendLocator() ...		FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}
			

/* PrependLocator()	******************************************/
		localhr = AAFRESULT_SUCCESS;
		// Verify AAFRESULT_NULL_PARAM is returned
		if (edesc->PrependLocator(NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;		

		for (; i<=20; i++)
		{
			// Make a concrete subclass of locator, and attach it to
			// the EssenceDescriptor
			checkResult(defs.cdNetworkLocator()->
					CreateInstance(IID_IAAFLocator, 
								   (IUnknown **)&pLocator));	
								   	
			if (edesc->PrependLocator(pLocator) != AAFRESULT_SUCCESS)
				localhr = AAFRESULT_TEST_FAILED;

			// Verify the number of locators
			numLocators = 0;
			edesc->CountLocators(&numLocators);
			if (i != numLocators)
				localhr = AAFRESULT_TEST_FAILED;
				
			// Verify that locator was prepended
			edesc->GetLocatorAt(0, &pLocator2);
			if (pLocator2 != pLocator)
				localhr = AAFRESULT_TEST_FAILED;

			pLocator->Release();
			pLocator = 0;
			pLocator2->Release();
			pLocator2 = 0;
		}

		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	PrependLocator() ...	Passed"<< endl;
		else
		{
			cout<< "	PrependLocator() ...	FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}


/* InsertLocatorAt()	**************************************/
		localhr = AAFRESULT_SUCCESS;

		// Make a concrete subclass of locator to attach
		checkResult(defs.cdNetworkLocator()->
						CreateInstance(IID_IAAFLocator, 
				   			(IUnknown **)&pLocator));			

		// Verify that we can't remove an index value that is out of range
		if (edesc->InsertLocatorAt(numLocators+1, pLocator) != AAFRESULT_BADINDEX)
			localhr = AAFRESULT_TEST_FAILED;

		// Verify behavior when NULL is passed in
		if (edesc->InsertLocatorAt(1, NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;

		edesc->CountLocators(&numLocators);

		// Insert it
		if (edesc->InsertLocatorAt(0, pLocator) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		// Check it
		edesc->GetLocatorAt(0, &pLocator2);
		if (pLocator2 != pLocator)
			localhr = AAFRESULT_TEST_FAILED;
		// Count it	
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != numLocators+1)
			localhr = AAFRESULT_TEST_FAILED;

		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;


		edesc->CountLocators(&numLocators);
		// Make a concrete subclass of locator to attach in the middle
		checkResult(defs.cdNetworkLocator()->
						CreateInstance(IID_IAAFLocator, 
				   			(IUnknown **)&pLocator));			
		// Insert it
		if (edesc->InsertLocatorAt(numLocators/2, pLocator) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		// Check it
		edesc->GetLocatorAt(numLocators/2, &pLocator2);
		if (pLocator2 != pLocator)
			localhr = AAFRESULT_TEST_FAILED;
		// Count it	
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != numLocators+1)
			localhr = AAFRESULT_TEST_FAILED;

		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;


		edesc->CountLocators(&numLocators);
		// Make a concrete subclass of locator to attach to the end
		checkResult(defs.cdNetworkLocator()->
						CreateInstance(IID_IAAFLocator, 
				   			(IUnknown **)&pLocator));			
		// Insert it.  note: its 0 based so the end is numLocators - 1
		if (edesc->InsertLocatorAt(numLocators-1, pLocator) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		// Check it
		edesc->GetLocatorAt(numLocators-1, &pLocator2);
		if (pLocator2 != pLocator)
			localhr = AAFRESULT_TEST_FAILED;
		// Count it	
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != numLocators+1)
			localhr = AAFRESULT_TEST_FAILED;
			
		// Make sure we can't add it again
		if (edesc->InsertLocatorAt(numLocators+1, pLocator) != AAFRESULT_OBJECT_ALREADY_ATTACHED)
			localhr = AAFRESULT_TEST_FAILED;
		
		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;


		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	InsertLocatorAt() ...	Passed"<< endl;
		else
		{
			cout<< "	InsertLocatorAt() ...	FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}
			
			
/* GetLocatorAt()	******************************************/
		localhr = AAFRESULT_SUCCESS;
		edesc->CountLocators(&numLocators);
		// Verify that we can't remove an index value that is out of range
		// note: Locators index is 0 based so the index numLocators is out of range
		if (edesc->GetLocatorAt(numLocators, &pLocator) != AAFRESULT_BADINDEX)
			localhr = AAFRESULT_TEST_FAILED;

		// Verify behavior when NULL is passed in
		if (edesc->GetLocatorAt(1, NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;
			
		for (i=0; i<numLocators; i++)
		{
			pLocator = NULL;
			if (edesc->GetLocatorAt(i, &pLocator) != AAFRESULT_SUCCESS)
				localhr = AAFRESULT_TEST_FAILED;

			if (pLocator != NULL)
				pLocator->Release();
		}
			
		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	GetLocatorAt() ...		Passed"<< endl;
		else
		{
			cout<< "	GetLocatorAt() ...		FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}


/* GetLocators()	******************************************/
		if (edesc->GetLocators(NULL) != AAFRESULT_NULL_PARAM)
			localhr = AAFRESULT_TEST_FAILED;	

		pEnumLocators = NULL;
		if (edesc->GetLocators(&pEnumLocators) == AAFRESULT_SUCCESS)
		{
			if (pEnumLocators != NULL)
			{	
				// Try a simple test to confirm
				if (pEnumLocators->NextOne(&pLocator) != AAFRESULT_SUCCESS)					
					localhr = AAFRESULT_TEST_FAILED;
				edesc->GetLocatorAt(0, &pLocator2);

				if (pLocator != pLocator2)
					localhr = AAFRESULT_TEST_FAILED;
				else
					pLocator2->Release();

				pLocator->Release();
				pLocator = 0;

				pEnumLocators->Release();
			}
			else
				localhr = AAFRESULT_TEST_FAILED;			
		}
		else	
			localhr = AAFRESULT_TEST_FAILED;

		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	GetLocators() ...		Passed"<< endl;
		else
		{
			cout<< "	GetLocators() ...		FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}


		

/* RemoveLocatorAt()	******************************************/
		localhr = AAFRESULT_SUCCESS;

		// Verify that we can't remove an index value that is out of range
		// note: Locators index is 0 based so the index numLocators is out of range

		if (edesc->RemoveLocatorAt (numLocators) != AAFRESULT_BADINDEX)
			localhr = AAFRESULT_TEST_FAILED;
				
		// Remove locator at beginning, but Release it first
		edesc->CountLocators(&numLocators);

		edesc->GetLocatorAt(0, &pLocator);
		pLocator->Release();

		edesc->GetLocatorAt(1, &pLocator);
		if (edesc->RemoveLocatorAt (0) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;

		// Verify the count
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != (numLocators - 1))
			localhr = AAFRESULT_TEST_FAILED;

		edesc->GetLocatorAt(0, &pLocator2);
		// Verify that the locators shifted properly
		if (pLocator != pLocator2)
			localhr = AAFRESULT_TEST_FAILED;
		
		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;

		// Remove locator in middle, but Release it first
		edesc->CountLocators(&numLocators);
		edesc->GetLocatorAt((numLocators/2), &pLocator);
		pLocator->Release();

		edesc->GetLocatorAt((numLocators/2 +1), &pLocator);
		if (edesc->RemoveLocatorAt (numLocators/2) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != (numLocators - 1))
			localhr = AAFRESULT_TEST_FAILED;
		
		edesc->GetLocatorAt(numLocators/2, &pLocator2);
		// Verify that the locators shifted properly
		if (pLocator != pLocator2)
			localhr = AAFRESULT_TEST_FAILED;

		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;


		// Remove locator at end, but Release it first
		edesc->CountLocators(&numLocators);
		edesc->GetLocatorAt(numLocators-1, &pLocator);
		pLocator->Release();

		edesc->GetLocatorAt(numLocators-2, &pLocator);
		if (edesc->RemoveLocatorAt (numLocators-1) != AAFRESULT_SUCCESS)
			localhr = AAFRESULT_TEST_FAILED;
		
		edesc->CountLocators(&numLocators2);
		if (numLocators2 != (numLocators - 1))
			localhr = AAFRESULT_TEST_FAILED;

		edesc->GetLocatorAt(numLocators2-1, &pLocator2);
		// Verify that the locators shifted properly
		if (pLocator != pLocator2)
			localhr = AAFRESULT_TEST_FAILED;

		pLocator->Release();
		pLocator = 0;
		pLocator2->Release();
		pLocator2 = 0;

		if (localhr == AAFRESULT_SUCCESS)
			cout<< "	RemoveLocatorAt() ...	Passed"<< endl;
		else
		{
			cout<< "	RemoveLocatorAt() ...	FAILED"<< endl;
			hr = AAFRESULT_TEST_FAILED;
		}

/*************************************************************/


	// Add the source mob into the tree
	checkResult(pHeader->AddMob(pMob));

	}
	catch (HRESULT& rResult)
	{
    hr = rResult;
	}


	// Cleanup object references
	if (edesc)
		edesc->Release();

	if (pMob)
		pMob->Release();

	if (pSourceMob)
		pSourceMob->Release();
	
	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();
			
	if (pFile)
	{	// Close file, clean-up and return
		if (bFileOpen)
		  {
			pFile->Save();
			pFile->Close();
		  }
 		pFile->Release();
	}

	return hr;
}
Example #20
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile*		pFile = NULL;
	bool bFileOpen = false;
	IAAFHeader *        pHeader = NULL;
	IAAFDictionary*  pDictionary = NULL;
	IAAFMob*		pMob = NULL;
	IAAFMasterMob*	pMasterMob = NULL;
	IAAFSourceMob* pSrcMob = NULL;
	IAAFSourceMob* pTapeMob = NULL;
	IAAFEssenceDescriptor*	pDesc = NULL;
	IAAFMob*				pTempMob = NULL;
	HRESULT			hr = S_OK;
	long			test;
	aafSourceRef_t	ref;
	IAAFEssenceDescriptor*		pEssDesc = NULL;
	IAAFTapeDescriptor*			pTapeDesc = NULL;
	
	
	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);
		
		
		// Create the AAF file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
		
		// Get the AAF file header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		
		CAAFBuiltinDefs defs (pDictionary);
		
		// Create a Master Mob
		checkResult(defs.cdMasterMob()->
			CreateInstance(IID_IAAFMob, 
			(IUnknown **)&pMob));
		
		// Set the IAAFMob properties
		checkResult(pMob->SetMobID(TEST_Master_MobID));
		checkResult(pMob->SetName(MobName));
		
		checkResult(pMob->QueryInterface(IID_IAAFMasterMob, (void **) &pMasterMob));
		
		// Create source mob to associate with our MasterMob.
		checkResult(defs.cdSourceMob()->
			CreateInstance(IID_IAAFSourceMob, 
			(IUnknown **)&pTapeMob));		
		hr = defs.cdTapeDescriptor()->
			CreateInstance(IID_IAAFTapeDescriptor, 
			(IUnknown **)&pTapeDesc);		
		if (AAFRESULT_SUCCESS == hr)
		{
			hr = pTapeDesc->QueryInterface(IID_IAAFEssenceDescriptor, (void **)&pEssDesc);
			if (AAFRESULT_SUCCESS == hr)
			{
				hr = pTapeMob->SetEssenceDescriptor(pEssDesc);
				if (AAFRESULT_SUCCESS == hr)
				{
					hr = pTapeDesc->SetTapeManufacturer( Manufacturer );
					if (AAFRESULT_SUCCESS == hr )
					{
						hr = pTapeDesc->SetTapeModel( Model );
						if (AAFRESULT_SUCCESS == hr )
						{
							hr = pTapeDesc->SetTapeFormFactor( FormFactor );
							if (AAFRESULT_SUCCESS == hr )
							{
								hr = pTapeDesc->SetSignalType( VideoSignalType );
								if (AAFRESULT_SUCCESS == hr )
								{
									hr = pTapeDesc->SetTapeFormat( TapeFormat );
									if (AAFRESULT_SUCCESS == hr )
										hr = pTapeDesc->SetTapeLength( TapeLength );
								}
							}
						}
					}
				}
				pEssDesc->Release();
				pEssDesc = NULL;
			}
			pTapeDesc->Release();
			pTapeDesc = NULL;
		}
		for (test = 0; test < NumMobSlots; test++)
		{
			IAAFDataDefSP pDataDef;
			checkResult (pDictionary->LookupDataDef (*slotDDefs[test], &pDataDef));
			checkResult(pTapeMob->AddNilReference (test, TAPE_MOB_LENGTH_ARR[test], pDataDef, slotRates[test]));
		}
		checkResult(pTapeMob->QueryInterface(IID_IAAFMob, (void **) &pTempMob));
		checkResult(pTempMob->SetName(TAPE_MOB_NAME));
		checkResult(pTempMob->SetMobID(tapeMobID));
		//save the id for future (test) reference
//		TAPE_MOB_ID = tapeMobID;

		checkResult(pHeader->AddMob(pTempMob));
		pTempMob->Release();
		pTempMob = NULL;
		
		// Add some slots
		for (test = 0; test < NumMobSlots; test++)
		{
			// Create source mob to associate with our MasterMob.
			checkResult(defs.cdSourceMob()->
				CreateInstance(IID_IAAFSourceMob, 
				(IUnknown **)&pSrcMob));		
			
			ref.sourceID = tapeMobID;
			ref.sourceSlotID = test;
			ref.startTime = TAPE_MOB_OFFSET_ARR[test];
			IAAFDataDefSP pDDef;
			checkResult(pDictionary->LookupDataDef(*slotDDefs[test], &pDDef));
			checkResult(pSrcMob->AppendPhysSourceRef (slotRates[test],
				test,
				pDDef,
				ref,
				TAPE_MOB_LENGTH_ARR[test]));
			
			// Create a concrete subclass of EssenceDescriptor
			checkResult(defs.cdAIFCDescriptor()->
				CreateInstance(IID_IAAFEssenceDescriptor, 
				(IUnknown **)&pDesc));	

			IAAFAIFCDescriptor*			pAIFCDesc = NULL;
			checkResult(pDesc->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
			checkResult(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
			pAIFCDesc->Release();
			pAIFCDesc = NULL;

			checkResult(pSrcMob->SetEssenceDescriptor(pDesc));
			pDesc->Release();
			pDesc = NULL;
			
			// Append source MOB to header
			checkResult(pSrcMob->QueryInterface(IID_IAAFMob, (void **) &pTempMob));
			checkResult(pTempMob->SetMobID(TEST_Source_MobIDs[test]));
			checkResult(pTempMob->SetName(L"source mob"));
			
			checkResult(pHeader->AddMob(pTempMob));
			pTempMob->Release();
			pTempMob = NULL;
			
			IAAFDataDefSP pDataDef;
			checkResult (pDictionary->LookupDataDef (*slotDDefs[test], &pDataDef));
			checkResult(pMasterMob->AddMasterSlot(pDataDef, test, pSrcMob, test+1, slotNames[test]));
			
			pSrcMob->Release();
			pSrcMob = NULL;
		}
		
		// Add the master mob to the file and cleanup
		checkResult(pHeader->AddMob(pMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
	
	// Cleanup and return
	if (pTempMob)
		pTempMob->Release();
	
	if (pEssDesc)
		pEssDesc->Release();
	
	if (pTapeDesc)
		pTapeDesc->Release();
	
	
	if (pDesc)
		pDesc->Release();
	
	if (pSrcMob)
		pSrcMob->Release();
	
	if (pTapeMob)
		pTapeMob->Release();
	
	if (pMasterMob)
		pMasterMob->Release();
	
	if (pMob)
		pMob->Release();
	
	if (pDictionary)
		pDictionary->Release();
	
	if (pHeader)
		pHeader->Release();
	
	if (pFile)
	{  // Close file
		if (bFileOpen)
		{
			pFile->Save();
			pFile->Close();
		}
		pFile->Release();
	}
	
	return hr;
}
Example #21
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	HRESULT hr = AAFRESULT_SUCCESS;
	
	IAAFFile* pFile = NULL;
	IAAFHeader * pHeader = NULL;
	IAAFDictionary * pDict = NULL;
	IAAFCompositionMob * pCMob = NULL;
	IAAFMob * pMob = NULL;
	IAAFObject * pObj = NULL;
	
	try
	{
		//Do the usual ...
		RemoveTestFile (pFileName);
		checkResult (CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		assert (pFile);
		checkResult (pFile->GetHeader (&pHeader));
		assert (pHeader);
		checkResult (pHeader->GetDictionary (&pDict));
		assert (pDict);
		CAAFBuiltinDefs defs (pDict);
		
		//Create a composition ...
		checkResult (defs.cdCompositionMob()->
			CreateInstance (IID_IAAFCompositionMob,
			(IUnknown **) &pCMob));
		assert (pCMob);
		checkResult (pCMob->Initialize (TEST_NAME));
		
		//... Get its mob, and add it to the header info
		checkResult (pCMob->QueryInterface (IID_IAAFMob,
										  (void **) &pMob));
		assert (pMob);
		checkResult (pHeader->AddMob (pMob));
		
	}
	catch (HRESULT & rResult)
	{
		hr = rResult;
	}
	
	if (pCMob) pCMob->Release();
	if (pMob) pCMob->Release();
	if (pObj) pObj->Release();
	if (pDict) pDict->Release();
	if (pHeader) pHeader->Release();
	if (pFile)
	{
		AAFRESULT temphr = pFile->Save();
		if (! SUCCEEDED (temphr)) return temphr;
		temphr = pFile->Close();
		if (! SUCCEEDED (temphr)) return temphr;
		pFile->Release();
	}
	
	return hr;
}
Example #22
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
    IAAFFile *					pFile = NULL;
    bool bFileOpen = false;
    IAAFHeader *				pHeader = NULL;
    IAAFDictionary*  pDictionary = NULL;
    IAAFContainerDef*  pContainer = NULL;
    IAAFSourceMob	*pSourceMob = NULL;
    IAAFMob			*pMob = NULL;
    IAAFEssenceDescriptor *edesc = NULL;
    IAAFFileDescriptor *pFileDesc = NULL;
    IAAFFileDescriptor2 *pFileDesc2 = NULL;

    HRESULT						hr = S_OK;

    try
    {
        // Remove the previous test file if any.
        RemoveTestFile(pFileName);


        // Create the file
        checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
        bFileOpen = true;

        // We can't really do anthing in AAF without the header.
        checkResult(pFile->GetHeader(&pHeader));

        // Get the AAF Dictionary so that we can create valid AAF objects.
        checkResult(pHeader->GetDictionary(&pDictionary));
        CAAFBuiltinDefs defs (pDictionary);

        //Make the first mob
        long			test;
        aafRational_t	audioRate = { 44100, 1 };

        // Create a Mob
        checkResult(defs.cdSourceMob()->
                    CreateInstance(IID_IAAFSourceMob,
                                   (IUnknown **)&pSourceMob));

        checkResult(pSourceMob->QueryInterface (IID_IAAFMob, (void **)&pMob));

        checkResult(pMob->SetMobID(TEST_MobID));
        checkResult(pMob->SetName(L"FileDescriptorTest"));

        // Add some slots
        for(test = 0; test < 2; test++)
        {
            checkResult(pSourceMob->AddNilReference (test+1, 0, defs.ddkAAFSound(), audioRate));
        }

        // Create a concrete subclass of FileDescriptor
        checkResult(defs.cdAIFCDescriptor()->
                    CreateInstance(IID_IAAFEssenceDescriptor,
                                   (IUnknown **)&edesc));

        IAAFAIFCDescriptor*			pAIFCDesc = NULL;
        checkResult(edesc->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
        checkResult(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
        pAIFCDesc->Release();
        pAIFCDesc = NULL;

        checkResult(edesc->QueryInterface(IID_IAAFFileDescriptor, (void **) &pFileDesc));
        checkResult(pFileDesc->SetSampleRate (checkSampleRate));
        checkResult(pDictionary->LookupContainerDef(checkContainer, &pContainer));
        checkResult(pFileDesc->SetContainerFormat (pContainer));
        pContainer->Release();
        pContainer = NULL;

        checkResult(pFileDesc->SetLength (checkLength));
        checkResult(pFileDesc->QueryInterface(IID_IAAFFileDescriptor2, (void **)&pFileDesc2));
        checkResult(pFileDesc2->SetLinkedSlotID (checkLinkedSlotID));
//		checkResult(pFileDesc->SetIsInContainer (kAAFTrue));

        checkResult(pSourceMob->SetEssenceDescriptor (edesc));

        checkResult(pHeader->AddMob(pMob));

    }
    catch (HRESULT& rResult)
    {
        hr = rResult;
    }

    if (pFileDesc)
        pFileDesc->Release();

    if (pFileDesc2)
        pFileDesc2->Release();

    if (edesc)
        edesc->Release();

    if (pMob)
        pMob->Release();

    if (pSourceMob)
        pSourceMob->Release();

    if (pDictionary)
        pDictionary->Release();

    if (pHeader)
        pHeader->Release();

    if (pFile)
    {
        if (bFileOpen)
        {
            pFile->Save();
            pFile->Close();
        }
        pFile->Release();
    }

    return hr;
}
Example #23
0
static HRESULT CreateAAFFile(aafWChar *filename, aafUID_constref fileKind)
{
	TestProductID.companyName = companyName;
	TestProductID.productName = productName;
	TestProductID.productVersionString = NULL;
	TestProductID.productID = UnitTestProductID;
	TestProductID.platform = NULL;
	TestProductID.productVersion = &TestVersion;

	HRESULT			hr = S_OK;

	try
	{
		RemoveTestFile(filename);

		// Open new file
		IAAFFile		*pFile = NULL;
		TestProductID.productVersionString = const_cast<aafWChar*>(L"CreateAAFFile");
		checkResult( AAFFileOpenNewModifyEx(
						filename,
						&fileKind,
						0,
						&TestProductID,
						&pFile) );

		// Get the header & dictionary
		IAAFHeader		*pHeader = NULL;
		IAAFDictionary	*pDictionary = NULL;
		checkResult(pFile->GetHeader(&pHeader));
		checkResult(pHeader->GetDictionary(&pDictionary));

		// Create a MasterMob
		IAAFMob			*pMob = NULL;
		IAAFClassDef	*classDef = NULL;
		checkResult(pDictionary->LookupClassDef(AUID_AAFMasterMob, &classDef));
		checkResult(classDef->CreateInstance(IID_IAAFMob, (IUnknown **)&pMob));
		classDef->Release();
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"CreateAAFFile - MasterMob"));
		checkResult(pHeader->AddMob(pMob));
		pMob->Release();

		// Create a SourceMob 
		IAAFSourceMob			*pSourceMob = NULL;
		checkResult(pDictionary->LookupClassDef(AUID_AAFSourceMob, &classDef));
		checkResult(classDef->CreateInstance(IID_IAAFSourceMob, (IUnknown **)&pSourceMob));
		classDef->Release();
		checkResult(pSourceMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
		checkResult(pMob->SetMobID(TEST_SourceMobID));
		checkResult(pMob->SetName(L"CreateAAFFile - SourceMob"));

		IAAFEssenceDescriptor	*edesc = NULL;
		IAAFAIFCDescriptor		*pAIFCDesc = NULL;
		checkResult(pDictionary->LookupClassDef(AUID_AAFAIFCDescriptor, &classDef));
		checkResult(classDef->CreateInstance(IID_IAAFEssenceDescriptor, (IUnknown **)&edesc));
		classDef->Release();
		checkResult(edesc->QueryInterface(IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
		aafUInt8	buf[] = {0x00};
		checkResult(pAIFCDesc->SetSummary(sizeof(buf), buf));
		checkResult(pSourceMob->SetEssenceDescriptor(edesc));
		checkResult(pHeader->AddMob(pMob));
		pAIFCDesc->Release();
		edesc->Release();
		pSourceMob->Release();
		pMob->Release();

		pDictionary->Release();
		pHeader->Release();

		// Save & close the file
		checkResult(pFile->Save());
		checkResult(pFile->Close());
		checkResult(pFile->Release());

		cout << "CreateAAFFile() - created new file" << endl;
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
		cout << "*** CreateAAFFile: caught error hr=0x" << hex << hr << dec << endl;
	}

	return hr;
}
Example #24
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile*				pFile = NULL;
	IAAFHeader*				pHeader = NULL;
	IAAFDictionary*			pDictionary = NULL;
	IAAFSourceMob*			pSourceMob = NULL;
	IAAFMob*				pMob = NULL;
	IAAFTIFFDescriptor*		pTIFFDesc = NULL;
	IAAFEssenceDescriptor*	pEssDesc = NULL;
	HRESULT					hr = AAFRESULT_SUCCESS;
	aafUInt8				summary[512];
	aafUInt16				numEntries = 2;
	unsigned long			nOffset;

#if defined( OS_WINDOWS )
	tiffHeader.tiff_byteOrder = TIFF_LITTLEENDIAN;
#else
	tiffHeader.tiff_byteOrder = TIFF_BIGENDIAN;
#endif
	tiffHeader.tiff_identNumber = TIFF_VERSION;
	tiffHeader.tiff_firstIFD = 0;
	
	memcpy(summary, (void *)&tiffHeader, sizeof(tiffHeader));
	nOffset = sizeof(tiffHeader);

	tagImageWidth.tdir_tag = TIFFTAG_IMAGEWIDTH;
	tagImageWidth.tdir_type = TIFF_LONG;
	tagImageWidth.tdir_count = 1;
	tagImageWidth.tdir_offset = 320;

	tagImageLength.tdir_tag = TIFFTAG_IMAGELENGTH;
	tagImageLength.tdir_type = TIFF_LONG;
	tagImageLength.tdir_count = 1;
	tagImageLength.tdir_offset = 640;

	// Write IFD data
	memcpy(summary+nOffset, &numEntries, sizeof(numEntries));
	nOffset += sizeof(numEntries);
	memcpy((void *)(summary+nOffset), (void *)&tagImageWidth, sizeof(tagImageWidth));
	nOffset += sizeof(tagImageWidth);
	memcpy((void *)(summary+nOffset), (void *)&tagImageLength, sizeof(tagImageLength));
	nOffset += sizeof(tagImageLength);

	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);


		// Create the AAF file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));

		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		// Create a source mob
		checkResult(defs.cdSourceMob()->
					CreateInstance(IID_IAAFSourceMob, 
								   (IUnknown **)&pSourceMob));
		checkResult(pSourceMob->QueryInterface(IID_IAAFMob, (void **)&pMob));

		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"TIFFDescriptorTest"));
		checkResult(defs.cdTIFFDescriptor()->
					CreateInstance(IID_IAAFTIFFDescriptor, 
								   (IUnknown **)&pTIFFDesc));		
		checkResult(pTIFFDesc->QueryInterface(IID_IAAFEssenceDescriptor, (void **)&pEssDesc));
		checkResult(pTIFFDesc->SetIsUniform(kAAFFalse));
		checkResult(pTIFFDesc->SetIsContiguous(kAAFTrue));
		checkResult(pTIFFDesc->SetLeadingLines((aafInt32)10));
		checkResult(pTIFFDesc->SetTrailingLines((aafInt32)20));
		checkResult(pTIFFDesc->SetJPEGTableID((aafJPEGTableID_t)0));
		checkResult(pTIFFDesc->SetSummary((aafUInt32)nOffset, (aafDataValue_t) summary));

		checkResult(pSourceMob->SetEssenceDescriptor(pEssDesc));

		// Add the MOB to the file
		checkResult(pHeader->AddMob(pMob));
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	
  
	// Cleanup and return
	if (pTIFFDesc)
	   pTIFFDesc->Release();

	if (pDictionary)
	   pDictionary->Release();

	if (pEssDesc)
		pEssDesc->Release();

	if (pMob)
		pMob->Release();

	if (pSourceMob)
		pSourceMob->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile)
	{
		pFile->Save();
		pFile->Close();
		pFile->Release();
	}

	return hr;
}
Example #25
0
void EnumEssenceDataTest::createFileMob(int itemNumber)
{
  assert(_pFile && _pHeader && _pDictionary);
  assert(NULL == _pSourceMob);
  assert(NULL == _pMob);
  assert(NULL == _pFileDescriptor);
  assert(NULL == _pEssenceDescriptor);
  assert(NULL == _pSourceMob);

  // Format the mob name.
  wchar_t wcBuffer[512];
  char cBuffer[256];
  sprintf(cBuffer, "EnumEssenceDataTest File Mob %d", itemNumber);
  size_t count = mbstowcs(wcBuffer, cBuffer, strlen(cBuffer) + 1);
  if (static_cast<size_t>(-1) == count)
    check(AAFRESULT_INTERNAL_ERROR);


  CAAFBuiltinDefs defs (_pDictionary);
  // Create a Mob
  check(defs.cdSourceMob()->
		CreateInstance(IID_IAAFSourceMob, 
					   (IUnknown **)&_pSourceMob));

  check(_pSourceMob->QueryInterface (IID_IAAFMob, (void **)&_pMob));
  
  check(_pMob->SetMobID(TEST_MobIDs[itemNumber]));
  check(_pMob->SetName(wcBuffer));
  
  // Create a concrete subclass of FileDescriptor
  check(defs.cdAIFCDescriptor()->
		CreateInstance(IID_IAAFFileDescriptor, 
					   (IUnknown **)&_pFileDescriptor));


	IAAFAIFCDescriptor*			pAIFCDesc = NULL;
	check(_pFileDescriptor->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
	check(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
	pAIFCDesc->Release();
	pAIFCDesc = NULL;

  check(_pFileDescriptor->QueryInterface (IID_IAAFEssenceDescriptor,
                                          (void **)&_pEssenceDescriptor));
  check(_pSourceMob->SetEssenceDescriptor (_pEssenceDescriptor));

  check(_pHeader->AddMob(_pMob));

  createEssenceData(_pSourceMob);

  // Cleanup instance data for reuse...
  _pEssenceDescriptor->Release();
  _pEssenceDescriptor = NULL;

  _pFileDescriptor->Release();
  _pFileDescriptor = NULL;

  _pMob->Release();
  _pMob = NULL;

  _pSourceMob->Release();
  _pSourceMob = NULL;
}
Example #26
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *					pFile = NULL;
  bool bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
  IAAFDictionary*  pDictionary = NULL;
	IAAFLocator	*				pLocator = NULL;
	IAAFNetworkLocator *		pNetLocator = NULL;
	IAAFSourceMob	*pSourceMob = NULL;
	IAAFMob			*pMob = NULL;
	IAAFEssenceDescriptor *edesc = NULL;
	aafUInt32					numLocators;
	HRESULT						hr = AAFRESULT_SUCCESS;


	try
	{
	    // Remove the previous test file if any.
	    RemoveTestFile(pFileName);


		// Create the file.
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		//Make the first mob
		// Create a Mob
		checkResult(defs.cdSourceMob()->
					CreateInstance(IID_IAAFSourceMob, 
								   (IUnknown **)&pSourceMob));

		checkResult(pSourceMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"SourceMOBTest"));
		
		// Create a concrete subclass of EssenceDescriptor
		checkResult(defs.cdAIFCDescriptor()->
					CreateInstance(IID_IAAFEssenceDescriptor, 
								   (IUnknown **)&edesc));
										

		IAAFAIFCDescriptor*			pAIFCDesc = NULL;
		checkResult(edesc->QueryInterface (IID_IAAFAIFCDescriptor, (void **)&pAIFCDesc));
		checkResult(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
		pAIFCDesc->Release();
		pAIFCDesc = NULL;

			// Verify that there are no locators
		checkResult(edesc->CountLocators(&numLocators));
		checkExpression(0 == numLocators, AAFRESULT_TEST_FAILED);

  
		// Make a locator, and attach it to the EssenceDescriptor
		checkResult(defs.cdNetworkLocator()->
					CreateInstance(IID_IAAFNetworkLocator, 
								   (IUnknown **)&pNetLocator));		
		checkResult(pNetLocator->QueryInterface (IID_IAAFLocator, (void **)&pLocator));

		checkResult(pLocator->SetPath (TEST_PATH));
		
		checkResult(edesc->AppendLocator(pLocator));
 		checkResult(pSourceMob->SetEssenceDescriptor (edesc));

		// Verify that there is now one locator
		checkResult(edesc->CountLocators(&numLocators));
		checkExpression(1 == numLocators, AAFRESULT_TEST_FAILED);

		// Add the source mob into the tree
		checkResult(pHeader->AddMob(pMob));

	}
  catch (HRESULT& rResult)
  {
    hr = rResult;
  }

	// cleanup
	if (pLocator)
		pLocator->Release();

	if (pNetLocator)
		pNetLocator->Release();

	if (edesc)
		edesc->Release();

	if (pMob)
		pMob->Release();

	if (pSourceMob)
		pSourceMob->Release();

  if (pDictionary)
    pDictionary->Release();

	if (pHeader)
		pHeader->Release();

	if (pFile)
	{
		if (bFileOpen)
		  {
			pFile->Save();
			pFile->Close();
		  }
		pFile->Release();
	}
	// hr = pSession->EndSession();
 	// if (AAFRESULT_SUCCESS != hr)
	//	return hr;

	// if (pSession) pSession->Release();


	return hr;
}
Example #27
0
static HRESULT CreateAAFFile(const aafWChar * pFileName, testDataFile_t *dataFile, testType_t /* testType */)
{
  IAAFFile*					pFile = NULL;
  IAAFHeader*					pHeader = NULL;
  IAAFDictionary*				pDictionary = NULL;
  IAAFMob*					pMob = NULL;
  IAAFMasterMob*				pMasterMob = NULL;
  IAAFClassDef*   pKLVDataCD=NULL;
  IAAFClassDef*   pCommentMarkerCD=NULL;
  IAAFTypeDef*    pUnknownBaseType=NULL;
  IAAFTypeDef*	pInt32BaseType=NULL;
  // IAAFTypeDef* pASCIIStringBaseType=NULL;
  IAAFKLVData* pKLVData=NULL;

  IAAFEssenceAccess*			pEssenceAccess = NULL;
  IAAFEssenceMultiAccess*		pMultiEssence = NULL;
  IAAFEssenceFormat*			pFormat = NULL;
  IAAFEssenceFormat*	format = NULL;
  IAAFLocator*	pLocator = NULL;
  IAAFClassDef*	pCDMasterMob = 0;
  IAAFClassDef                *pCDNetworkLocator = 0;
  IAAFDataDef                 *pDdefSound = 0;
  IAAFDataDef*	pDDefSceneDesc=0;
  IAAFEventMobSlot  *pEventSlot=0;
  IAAFMobSlot   *pSlot=0;
  IAAFSequence  *pSeqSceneDesc=0;
  IAAFSegment   *pSegment=0;
  IAAFEvent     *pEventSceneDesc=0;
  IAAFComponent *pComp=0;
  HRESULT	      hr = AAFRESULT_SUCCESS;


  // !!!Previous revisions of this file contained variables here required to handle external essence
  aafMobID_t					masterMobID;
  aafProductIdentification_t	ProductInfo;
  aafRational_t   editRate = {30000, 1001};
  aafRational_t	sampleRate = {44100, 1};
  aafRational_t	eventTimebase = {30000, 1001};
  aafPosition_t	position=0;
  FILE*	pWavFile = NULL;
  unsigned char	dataBuff[4096], *dataPtr;
  //	aafUInt32	bytesWritten;
  aafUInt32	dataOffset, dataLen;
  aafUInt16	bitsPerSample, numCh;
  aafInt32	n, numSpecifiers;
  aafUID_t	essenceFormatCode, testContainer;
  aafUInt32 samplesWritten, bytesWritten;
  // delete any previous test file before continuing...
  char chFileName[1000];
  convert(chFileName, sizeof(chFileName), pFileName);
  remove(chFileName);
  if(dataFile != NULL)
    {
      // delete any previous test file before continuing...
      char chFileName[1000];
      convert(chFileName, sizeof(chFileName), dataFile->dataFilename);
      remove(chFileName);
    }


  aafProductVersion_t v;
  v.major = 1;
  v.minor = 0;
  v.tertiary = 0;
  v.patchLevel = 0;
  v.type = kAAFVersionUnknown;

  ProductInfo.companyName = companyName;
  ProductInfo.productName = productName;
  ProductInfo.productVersion = &v;
  ProductInfo.productVersionString = NULL;
  ProductInfo.productID = NIL_UID;
  ProductInfo.platform = NULL;

  check(AAFFileOpenNewModifyEx (pFileName, &kAAFFileKind_Aaf4KBinary, 0, &ProductInfo, &pFile));
  check(pFile->GetHeader(&pHeader));

  // test
  // Get the AAF Dictionary so that we can create valid AAF objects.
  check(pHeader->GetDictionary(&pDictionary));

  check(pDictionary->LookupClassDef(AUID_AAFMasterMob,
				    &pCDMasterMob));
  check(pDictionary->LookupClassDef(AUID_AAFNetworkLocator,
				    &pCDNetworkLocator));
  check(pDictionary->LookupDataDef(kAAFDataDef_Sound,
				   &pDdefSound));

  // !!!Previous revisions of this file contained code here required to handle external essence

  // Get a Master MOB Interface
  check(pCDMasterMob->
	CreateInstance(IID_IAAFMasterMob, 
		       (IUnknown **)&pMasterMob));
  // Get a Mob interface and set its variables.
  check(pMasterMob->QueryInterface(IID_IAAFMob, (void **)&pMob));
  check(pMob->GetMobID(&masterMobID));
  check(pMob->SetName(L"A Master Mob"));
	
  // Add it to the file 
  check(pHeader->AddMob(pMob));

  // !!!Previous revisions of this file contained code here required to handle external essence

  if(dataFile != NULL)
    {
      // Make a locator, and attach it to the EssenceDescriptor
      check(pCDNetworkLocator->
	    CreateInstance(IID_IAAFLocator, 
			   (IUnknown **)&pLocator));		
      check(pLocator->SetPath (dataFile->dataFilename));
      testContainer = dataFile->dataFormat;
    }
  else
    {
      pLocator = NULL;
      testContainer = ContainerAAF;
    }


  // open the Essence file to be included in this AAF file("Laser.wav")
  pWavFile = fopen("Laser.wav", "r");
  if (pWavFile)
    {
      // read in the essence data
      fread(dataBuff, sizeof(unsigned char), sizeof(dataBuff), pWavFile);
      check(loadWAVEHeader(dataBuff,
			   &bitsPerSample,
			   &numCh,
			   &sampleRate,
			   &dataOffset,
			   &dataLen));
      dataPtr = dataBuff + dataOffset;
      // now create the Essence data file
     check(pMasterMob->CreateEssence(1,				// Slot ID
				      pDdefSound,		// MediaKind
				      kAAFCodecWAVE,		// codecID
				      editRate,		// edit rate
				      sampleRate,		// sample rate
				      kAAFCompressionDisable,
				      pLocator,	// In current file
				      testContainer,	// In AAF Format
				      &pEssenceAccess));// Compress disabled

      check(pEssenceAccess->GetFileFormatParameterList (&format));
      check(format->NumFormatSpecifiers (&numSpecifiers));
      for(n = 0; n < numSpecifiers; n++)
	{
	  check(format->GetIndexedFormatSpecifier (n, &essenceFormatCode, 0, NULL, NULL));
	}
      format->Release();
      format = NULL;

      // Tell the AAFEssenceAccess what the format is.
      check(pEssenceAccess->GetEmptyFileFormat (&pFormat));
      check(pFormat->NumFormatSpecifiers (&numSpecifiers));

      aafInt32	sampleSize = bitsPerSample;
      check(pFormat->AddFormatSpecifier (kAAFAudioSampleBits, sizeof(sampleSize), (aafUInt8 *)&sampleSize));
      check(pEssenceAccess->PutFileFormat (pFormat));
      pFormat->Release();
      pFormat = NULL;
      // write out the data

      check(pEssenceAccess->WriteSamples( dataLen,//!!! hardcoded bytes/sample ==1// Number of Samples
						sizeof(dataBuff), // buffer size
						dataPtr,	// THE data
						&samplesWritten,
						&bytesWritten));

      // close essence data file
      fclose(pWavFile);
      pWavFile = NULL;
      // Finish writing the destination
      check(pEssenceAccess->CompleteWrite());
      pEssenceAccess->Release();
      pEssenceAccess=NULL;
      // First register DataDef for SceneDescription
      // Is SceneDescription in dictionary already
      // Try using Timecode for MC compat
      hr = pDictionary->LookupDataDef(kAAFDataDef_Timecode,
				      &pDDefSceneDesc);
      // hr = pDictionary->LookupDataDef(kAAFDataDef_SceneDescription,
      //					 &pDDefSceneDesc);
      if (hr != AAFRESULT_SUCCESS) 
	{
	  check(pDictionary->CreateInstance(AUID_AAFDataDef,IID_IAAFDataDef,
					    (IUnknown **)&pDDefSceneDesc));
	  check(pDDefSceneDesc->Initialize(kAAFDataDef_SceneDescription,
					   L"SceneDescEvent",L"DataDefinition for Scene Description Events"));
	  check(pDictionary->RegisterDataDef(pDDefSceneDesc));
	}

      // Add EventSlot to MasterMob

      // Create Slot
      check(pDictionary->CreateInstance(AUID_AAFEventMobSlot, IID_IAAFEventMobSlot,
					(IUnknown **)&pEventSlot));

      check(pEventSlot->SetEditRate(&eventTimebase));

      // Get the mob slot interface so that we can add the event segment.
      check(pEventSlot->QueryInterface(IID_IAAFMobSlot, (void **)&pSlot));
      pEventSlot->Release();
      pEventSlot = NULL;
      aafSlotID_t eventSlotID=5;
      check(pSlot->SetSlotID(eventSlotID));
      check(pSlot->SetName(L"SceneDescriptions"));

      // Set up Sequence for Scene Descriptors
      check(pDictionary->CreateInstance(AUID_AAFSequence,IID_IAAFSequence,
					(IUnknown **)&pSeqSceneDesc));
      check(pSeqSceneDesc->Initialize(pDDefSceneDesc));

      // Create first Comment Marker
      check(pDictionary->LookupClassDef(AUID_AAFCommentMarker,
					&pCommentMarkerCD));
      check(pCommentMarkerCD->CreateInstance(IID_IAAFEvent,
					     (IUnknown **)&pEventSceneDesc));
      position=0;
      check(pEventSceneDesc->SetPosition(position));
      check(pEventSceneDesc->SetComment(L"Racers heading up the hill"));
      check(pEventSceneDesc->QueryInterface(IID_IAAFComponent, (void **)&pComp));
      check(pComp->SetDataDef(pDDefSceneDesc));		
      // Add it to the sequence
      check(pSeqSceneDesc->AppendComponent(pComp));
      pComp->Release();
      pComp = NULL;
      pEventSceneDesc->Release();
      pEventSceneDesc=NULL;

      // Create second Comment Marker
      check(pCommentMarkerCD->CreateInstance(IID_IAAFEvent,
					     (IUnknown **)&pEventSceneDesc));
      position=100;
      check(pEventSceneDesc->SetPosition(position));
      check(pEventSceneDesc->SetComment(L"Racer pulls away from crowd"));
      check(pEventSceneDesc->QueryInterface(IID_IAAFComponent, (void **)&pComp));
      check(pComp->SetDataDef(pDDefSceneDesc));		
      // Add it to the sequence
      check(pSeqSceneDesc->AppendComponent(pComp));
      pComp->Release();
      pComp = NULL;
      pEventSceneDesc->Release();
      pEventSceneDesc=NULL;
      check(pSeqSceneDesc->QueryInterface(IID_IAAFSegment, (void **)&pSegment));

      // Create third Comment Marker
      check(pCommentMarkerCD->CreateInstance(IID_IAAFEvent,
					     (IUnknown **)&pEventSceneDesc));
      position=250;
      check(pEventSceneDesc->SetPosition(position));
      check(pEventSceneDesc->SetComment(L"Racer passes finish line"));
      check(pEventSceneDesc->QueryInterface(IID_IAAFComponent, (void **)&pComp));
      check(pComp->SetDataDef(pDDefSceneDesc));		
      // Add it to the sequence
      check(pSeqSceneDesc->AppendComponent(pComp));
      pComp->Release();
      pComp = NULL;
      pEventSceneDesc->Release();
      pEventSceneDesc=NULL;
      // Add the event sequence to the event mob slot
      // Sequence must have at least one component to ensure event mob slot is valid
      check(pSlot->SetSegment(pSegment));
      pSegment->Release();
      pSegment = NULL;

      // Append the event slot to the Master Mob
      check(pMob->AppendSlot(pSlot));

      // Add the KLV data to the Master Mob

      // Register the two KLVKeys
      check(pDictionary->LookupTypeDef(kAAFTypeID_UInt8Array,
				       &pUnknownBaseType));
      check(pDictionary->RegisterKLVDataKey(KLVKey_BinaryBlob1,
					    pUnknownBaseType));
      check(pDictionary->LookupTypeDef(kAAFTypeID_Int32,
				       &pInt32BaseType));
      check(pDictionary->RegisterKLVDataKey(KLVKey_Int32_1,
					    pInt32BaseType));
      // Next define new ASCII string data def
      // check(pDictionary->RegisterKLVDataKey(KLVKey_ASCIIString1,
      //				      pASCIIStringBaseType));

      // Get the KLVData ClassDefinition
      check(pDictionary->LookupClassDef(AUID_AAFKLVData,
					&pKLVDataCD));


      // Create KLVData and append it to Mob
      check(pKLVDataCD->CreateInstance(IID_IAAFKLVData, 
				       (IUnknown **)&pKLVData));
		
      check(pKLVData->Initialize(KLVKey_BinaryBlob1,
				 sizeof(blobData), (aafUInt8 *)blobData));
      check(pMob->AppendKLVData(pKLVData));
      pKLVData->Release();
      pKLVData=NULL;

      // Create KLVData and append it to Mob
      check(pKLVDataCD->CreateInstance(IID_IAAFKLVData, 
				       (IUnknown **)&pKLVData));
		
      check(pKLVData->Initialize(KLVKey_Int32_1,
				 sizeof(int32Data), (aafUInt8 *)&int32Data));
      check(pMob->AppendKLVData(pKLVData));
      pKLVData->Release();
      pKLVData=NULL;
    }
  else
    {
      printf("***Failed to open Wave file Laser.wav\n");
    }
  // Release all unnecesary interfaces

  if (pInt32BaseType)
    pInt32BaseType->Release();
  pInt32BaseType=NULL;
  if (pUnknownBaseType)
    pUnknownBaseType->Release();
  pUnknownBaseType=NULL;
  if (pKLVDataCD)
    pKLVDataCD->Release();
  pKLVDataCD=NULL;
  if (pCommentMarkerCD)
    pCommentMarkerCD->Release();
  pCommentMarkerCD=NULL;
  if(pComp)
    pComp->Release();
  pComp=NULL;
  if(pEventSceneDesc)
    pEventSceneDesc->Release();
  pEventSceneDesc=0;
  if(pSegment)
    pSegment->Release();
  pSegment=NULL;
  if(pSeqSceneDesc)
    pSeqSceneDesc->Release();
  pSeqSceneDesc=NULL;
  if(pSlot)
    pSlot->Release();
  pSlot=NULL;
  if(pEventSlot)
    pEventSlot->Release();
  pEventSlot=NULL;
  if(pDDefSceneDesc)
    pDDefSceneDesc->Release();
  pDDefSceneDesc=NULL;

  if(pMasterMob)
    pMasterMob->Release();
  pMasterMob = NULL;
  if(pMob)
    pMob->Release();
  pMob = NULL;

  if(pDictionary)
    pDictionary->Release();
  pDictionary = NULL;
  if(pHeader)
    pHeader->Release();
  pHeader = NULL;
  //!!!DebugOnly
  pFile->Save();
  pFile->Close();
  pFile->Release();
  pFile = NULL;
  if (pEssenceAccess)
    {	
      pEssenceAccess->Release();
      pEssenceAccess= NULL;
    }

 cleanup:
  // Cleanup and return
  if(pFormat)
    pFormat->Release();
  if(format)
    format->Release();
  if(pLocator)
    pLocator->Release();

  if (pWavFile)
    fclose(pWavFile);

  if (pEssenceAccess)
    pEssenceAccess->Release();
	
  if (pMultiEssence)
    pMultiEssence->Release();
	
  if (pMasterMob)
    pMasterMob->Release();

  if (pMob)
    pMob->Release();

  if (pDictionary)
    pDictionary->Release();

  if (pHeader)
    pHeader->Release();

  if (pCDMasterMob)
    {
      pCDMasterMob->Release();
      pCDMasterMob = 0;
    }

  if (pCDNetworkLocator)
    {
      pCDNetworkLocator->Release();
      pCDNetworkLocator = 0;
    }

  if (pDdefSound)
    {
      pDdefSound->Release ();
      pDdefSound = 0;
    }

  if (pFile)
    {
      pFile->Close();
      pFile->Release();
    }


  return moduleErrorTmp;
}
Example #28
0
static HRESULT CreateAAFFile(aafWChar * pFileName, long int N)
{
  IAAFFile*                   pFile = NULL;
  IAAFHeader*                 pHeader = NULL;
  IAAFDictionary*             pDictionary = NULL;
  IAAFMob*                    pMob = NULL;
  IAAFMob*                    pCompMob = NULL;
  IAAFEssenceDescriptor*      aDesc = NULL;
  IAAFMasterMob*              pMasterMob = NULL;
  IAAFSourceMob*              pFileMob = NULL;
  IAAFSourceMob*              pTapeMob = NULL;
  IAAFSequence*               pSequence = NULL;
  IAAFComponent*              aComponent = NULL;
  IAAFFileDescriptor*         pFileDesc = NULL;
  IAAFAIFCDescriptor*         pAIFCDesc = NULL;
  IAAFTapeDescriptor*         pTapeDesc = NULL;
  IAAFTimelineMobSlot*        newSlot = NULL;
  IAAFSegment*                seg = NULL;
  IAAFSourceClip*             fileSclp = NULL;
  IAAFSourceClip*             masterSclp = NULL;
  IAAFSourceClip*             compSclp = NULL;
  IAAFComponent*              compFill = NULL;
  IAAFLocator*                pLocator = NULL;
  IAAFNetworkLocator*         pNetLocator = NULL;
  IAAFClassDef *              pCDCompositionMob = 0;
  IAAFClassDef *              pCDSequence = 0;
  IAAFClassDef *              pCDSourceMob = 0;
  IAAFClassDef *              pCDTapeDescriptor = 0;
  IAAFClassDef *              pCDAIFCDescriptor = 0;
  IAAFClassDef *              pCDNetworkLocator = 0;
  IAAFClassDef *              pCDMasterMob = 0;
  IAAFClassDef *              pCDSourceClip = 0;
  IAAFClassDef *              pCDFiller = 0;
  IAAFDataDef *               pDdefPicture = 0;
  aafRational_t               videoRate = { 30000, 1001 };
  aafMobID_t                  tapeMobID, fileMobID, masterMobID;
  aafTimecode_t               tapeTC = { 108000, kAAFTcNonDrop, 30};
  aafLength_t                 fileLen = FILE1_LENGTH;
  aafLength_t                 fillLen = FILL_LENGTH;
  aafLength_t                 segLen = SEG_LENGTH;
  aafProductIdentification_t  ProductInfo;
  long int                    i = 0;

  moduleErrorTmp = S_OK;


  // delete any previous test file before continuing...
  char chFileName[1000];
  convert(chFileName, sizeof(chFileName), pFileName);
  remove(chFileName);

  aafProductVersion_t v;
  v.major = 1;
  v.minor = 0;
  v.tertiary = 0;
  v.patchLevel = 0;
  v.type = kAAFVersionUnknown;
  ProductInfo.companyName = companyName;
  ProductInfo.productName = productName;
  ProductInfo.productVersion = &v;
  ProductInfo.productVersionString = NULL;
  ProductInfo.productID = NIL_UID;
  ProductInfo.platform = NULL;

#if defined(USE_MEMORY_FILE)
  check(MemoryFileOpenNewModify (0, &ProductInfo, &pFile));
#else
  check(AAFFileOpenNewModifyEx (pFileName, &kAAFFileKind_Aaf4KBinary, 0, &ProductInfo, &pFile));
#endif

  check(pFile->GetHeader(&pHeader));

  // Get the AAF Dictionary so that we can create valid AAF objects.
  check(pHeader->GetDictionary(&pDictionary));

  check(pDictionary->LookupClassDef(AUID_AAFCompositionMob,
                                    &pCDCompositionMob));
  check(pDictionary->LookupClassDef(AUID_AAFSequence,
                                    &pCDSequence));
  check(pDictionary->LookupClassDef(AUID_AAFSourceMob,
                                    &pCDSourceMob));
  check(pDictionary->LookupClassDef(AUID_AAFTapeDescriptor,
                                    &pCDTapeDescriptor));
  check(pDictionary->LookupClassDef(AUID_AAFAIFCDescriptor,
                                    &pCDAIFCDescriptor));
  check(pDictionary->LookupClassDef(AUID_AAFNetworkLocator,
                                    &pCDNetworkLocator));
  check(pDictionary->LookupClassDef(AUID_AAFMasterMob,
                                    &pCDMasterMob));
  check(pDictionary->LookupClassDef(AUID_AAFSourceClip,
                                    &pCDSourceClip));
  check(pDictionary->LookupClassDef(AUID_AAFFiller,
                                    &pCDFiller));
  check(pDictionary->LookupDataDef(kAAFDataDef_Picture,
                                   &pDdefPicture));

// IMPORTANT: major remodification is from this point onwards...

  // sequence creation code pulled out of the subsequent loop.
  // Create a Composition Mob
  check(pCDCompositionMob->CreateInstance(IID_IAAFMob,
                                          (IUnknown **)&pCompMob));

  check(pCDSequence->CreateInstance(IID_IAAFSequence,
                                    (IUnknown **)&pSequence));
  check(pSequence->QueryInterface (IID_IAAFSegment, (void **)&seg));

  check(pSequence->QueryInterface(IID_IAAFComponent, (void **)&aComponent));

  check(aComponent->SetDataDef(pDdefPicture));
  aComponent->Release();
  aComponent = NULL;

  check(pCompMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
  check(pMob->AppendNewTimelineSlot(videoRate, seg, i, slotName, 0, &newSlot));
  pMob->Release();
  pMob = NULL;
  newSlot->Release();
  newSlot = NULL;
  seg->Release();
  seg = NULL;

  check(pHeader->AddMob(pCompMob));


  // now looping around the remainder N times to make N components
  for (i=0; i < N; i++) {
    //Make the Tape MOB
    check(pCDSourceMob->CreateInstance(IID_IAAFSourceMob,
                                       (IUnknown **)&pTapeMob));
    check(pCDTapeDescriptor->CreateInstance(IID_IAAFTapeDescriptor,
                                            (IUnknown **)&pTapeDesc));
    check(pTapeDesc->QueryInterface (IID_IAAFEssenceDescriptor,
                                     (void **)&aDesc));
    check(pTapeMob->SetEssenceDescriptor(aDesc));
    aDesc->Release();
    aDesc = NULL;
    pTapeDesc->Release();
    pTapeDesc = NULL;

    check(pTapeMob->AppendTimecodeSlot (videoRate, 0, tapeTC, TAPE_LENGTH));
    check(pTapeMob->AddNilReference (1,TAPE_LENGTH, pDdefPicture, videoRate));
    check(pTapeMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
    pTapeMob->Release();
    pTapeMob = NULL;


    // NOTE: TapeMob name is updated to change with number of objects
    // requested at cli.
    // In order to fit with the specification, it is made wide
    char TapeMobNameBuffer[MAX];
    sprintf(TapeMobNameBuffer,"Tape Mob %ld",i);
    aafWChar TapeMobName[MAX];
    mbstowcs(TapeMobName,TapeMobNameBuffer,MAX);

    check(pMob->SetName (TapeMobName));

    check(pHeader->AddMob(pMob));
    check(pMob->GetMobID (&tapeMobID));
    pMob->Release();
    pMob = NULL;

    // Make a FileMob
    check(pCDSourceMob->CreateInstance(IID_IAAFSourceMob,
                                       (IUnknown **)&pFileMob));
    check(pCDAIFCDescriptor->CreateInstance(IID_IAAFFileDescriptor,
                                            (IUnknown **)&pFileDesc));
    check(pFileDesc->QueryInterface (IID_IAAFEssenceDescriptor,
                                     (void **)&aDesc));
    check(pFileDesc->QueryInterface (IID_IAAFAIFCDescriptor,
                                     (void **)&pAIFCDesc));
    check(pAIFCDesc->SetSummary (5, (unsigned char*)"TEST"));
    pAIFCDesc->Release();
    pAIFCDesc = NULL;

    // Make a locator, and attach it to the EssenceDescriptor
    check(pCDNetworkLocator->CreateInstance(IID_IAAFNetworkLocator,
                                            (IUnknown **)&pNetLocator));
    check(pNetLocator->QueryInterface (IID_IAAFLocator, (void **)&pLocator));


    check(pLocator->SetPath (TEST_PATH));
    check(aDesc->AppendLocator(pLocator));
    pLocator->Release();
    pLocator = NULL;
    pNetLocator->Release();
    pNetLocator = NULL;


    check(pFileMob->SetEssenceDescriptor(aDesc));
    aDesc->Release();
    aDesc = NULL;
    pFileDesc->Release();
    pFileDesc = NULL;

    sourceRef.sourceID = tapeMobID;
    sourceRef.sourceSlotID = 1;
    sourceRef.startTime = 0;
    check(pFileMob->NewPhysSourceRef (videoRate, 1, pDdefPicture,
                                      sourceRef, fileLen));

    check(pFileMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
    check(pMob->GetMobID (&fileMobID));
    check(pHeader->AddMob(pMob));
    pMob->Release();
    pMob = NULL;

    //Make the Master MOB
    check(pCDMasterMob->CreateInstance(IID_IAAFMasterMob,
                                       (IUnknown **)&pMasterMob));

    sourceRef.sourceID = fileMobID;
    sourceRef.sourceSlotID = 1;
    sourceRef.startTime = 0;
    check(pMasterMob->NewPhysSourceRef(videoRate, 1, pDdefPicture,
                                       sourceRef, fileLen));
    check(pMasterMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
    check(pMob->GetMobID (&masterMobID));

    // NOTE: MasterMob name is updated to change with number of objects
    // requested at cli.
    // In order to fit with the specification, it is made wide
    char MasterMobNameBuffer[MAX];
    sprintf(MasterMobNameBuffer,"Master Mob %ld",i);
    aafWChar MasterMobName[MAX];
    mbstowcs(MasterMobName,MasterMobNameBuffer,MAX);

    check(pMob->SetName (MasterMobName));

    check(pHeader->AddMob(pMob));
    pMob->Release();
    pMob = NULL;

    // the remaining part of the sequence code, adapted for updating slot names


    // Create a SourceClip
    check(pCDSourceClip->CreateInstance(IID_IAAFSourceClip,
                                        (IUnknown **)&compSclp));

    sourceRef.sourceID = masterMobID;
    sourceRef.sourceSlotID = 1;
    sourceRef.startTime = 0;
    check(compSclp->SetSourceReference (sourceRef));
    check(compSclp->QueryInterface (IID_IAAFComponent, (void **)&aComponent));
    check(aComponent->SetDataDef(pDdefPicture));
    check(aComponent->SetLength (segLen));
    check(pSequence->AppendComponent (aComponent));

    // Create a filler - Get the component interface only (IID_IAAFComponent)
    check(pCDFiller->CreateInstance(IID_IAAFComponent,
                                    (IUnknown **)&compFill));

    check(compFill->SetLength (fillLen));

    check(compFill->SetDataDef(pDdefPicture));
    check(pSequence->AppendComponent (compFill));

    compFill->Release();
    compFill = NULL;

    aComponent->Release();
    aComponent = NULL;

    compSclp->Release();
    compSclp = NULL;

    pMasterMob->Release();
    pMasterMob = NULL;

    pFileMob->Release();
    pFileMob = NULL;

    //  end of loop since only one dictionary and header are needed
    //  the file is then saved, closed and released after all modifications
    //  are complete
  }


cleanup:
  // Cleanup and return
  if (pNetLocator)
    pNetLocator->Release();

  if (pLocator)
    pLocator->Release();

  if (compFill)
    compFill->Release();

  if (compSclp)
    compSclp->Release();

  if (masterSclp)
    masterSclp->Release();

  if (fileSclp)
    fileSclp->Release();

  if (pTapeDesc)
    pTapeDesc->Release();

  if (pFileDesc)
    pFileDesc->Release();

  if (pTapeMob)
    pTapeMob->Release();

  if (pFileMob)
    pFileMob->Release();

  if (pMasterMob)
    pMasterMob->Release();

  if (aDesc)
    aDesc->Release();

  if (newSlot)
    newSlot->Release();

  if (pMob)
    pMob->Release();


  if (pCompMob)
    pCompMob->Release();

  if (seg)
    seg->Release();

  if (aComponent)
    aComponent->Release();

  if (pSequence)
    pSequence->Release();

  if (pDictionary)
    pDictionary->Release();

  if (pHeader)
    pHeader->Release();

  if (pCDCompositionMob) {
    pCDCompositionMob->Release();
    pCDCompositionMob = 0;
  }

  if (pCDSequence) {
    pCDSequence->Release();
    pCDSequence = 0;
  }

  if (pCDSourceMob) {
    pCDSourceMob->Release();
    pCDSourceMob = 0;
  }

  if (pCDTapeDescriptor) {
    pCDTapeDescriptor->Release();
    pCDTapeDescriptor = 0;
  }

  if (pCDAIFCDescriptor) {
    pCDAIFCDescriptor->Release();
    pCDAIFCDescriptor = 0;
  }

  if (pCDNetworkLocator) {
    pCDNetworkLocator->Release();
    pCDNetworkLocator = 0;
  }

  if (pCDMasterMob) {
    pCDMasterMob->Release();
    pCDMasterMob = 0;
  }

  if (pCDSourceClip) {
    pCDSourceClip->Release();
    pCDSourceClip = 0;
  }

  if (pCDFiller) {
    pCDFiller->Release();
    pCDFiller = 0;
  }

  if (pDdefPicture) {
    pDdefPicture->Release();
    pDdefPicture = 0;
  }

  if (pFile) {
    clock_t start = clock();
    clock_t finish;
    double duration;

    pFile->Save();
    pFile->Close();

#if defined(USE_MEMORY_FILE)
    check(MemoryFileSaveToDisk(pFileName, pFile));
#endif
    finish = clock();
    duration = ((double) (finish - start) / CLOCKS_PER_SEC);

    pFile->Release();

    printf("Save time = %f seconds\n", duration);
  }

  return moduleErrorTmp;
}
Example #29
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
	IAAFFile *					pFile = NULL;
	bool						bFileOpen = false;
	IAAFHeader *				pHeader = NULL;
	IAAFDictionary*				pDictionary = NULL;
	IAAFCompositionMob*			pCompMob=NULL;
	IAAFMob*					pMob = NULL;
	IAAFTimelineMobSlot*		pNewSlot = NULL;
	IAAFSourceClip*				pSourceClip = NULL;
	IAAFSourceReference*		pSourceRef = NULL;
	IAAFTransition*				pTransition = NULL;
	IAAFOperationGroup*			pOperationGroup = NULL;
	IAAFSegment*				pSegment = NULL;
	IAAFSegment*				pEffectFiller = NULL;
	IAAFComponent*				pComponent = NULL;
	IAAFFiller*					pFiller = NULL;
	IAAFSequence*				pSequence = NULL;
	IAAFOperationDef*				pOperationDef = NULL;
	IAAFParameter				*pParm = NULL;
	IAAFParameterDef*			pParamDef = NULL;
	IAAFConstantValue*			pConstantValue = NULL;
	
	HRESULT						hr = S_OK;
	aafLength_t					transitionLength;
	aafPosition_t				cutPoint = 0;
	aafLength_t					effectLen = TEST_EFFECT_LEN;
	aafUID_t					effectID = kTestEffectID;
	aafUID_t					parmID = kTestParmID;

	transitionLength = 100;

	try
	{
		// Remove the previous test file if any.
		RemoveTestFile(pFileName);


		// Create the file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
 		
		// Create the effect and parameter definitions
		checkResult(defs.cdOperationDef()->
					CreateInstance(IID_IAAFOperationDef, 
								   (IUnknown **)&pOperationDef));
    
		checkResult(defs.cdParameterDef()->
					CreateInstance(IID_IAAFParameterDef, 
								   (IUnknown **)&pParamDef));

		checkResult(pOperationDef->Initialize (effectID, TEST_EFFECT_NAME, TEST_EFFECT_DESC));
		checkResult(pDictionary->RegisterOperationDef(pOperationDef));
		checkResult(pParamDef->Initialize (parmID, TEST_PARAM_NAME, TEST_PARAM_DESC, defs.tdRational ()));
		checkResult(pParamDef->SetDisplayUnits(TEST_PARAM_UNITS));
		checkResult(pDictionary->RegisterParameterDef(pParamDef));


		checkResult(pOperationDef->SetDataDef (defs.ddkAAFPicture()));
		checkResult(pOperationDef->SetIsTimeWarp (kAAFFalse));
		checkResult(pOperationDef->SetNumberInputs (TEST_NUM_INPUTS));
		checkResult(pOperationDef->SetCategory (TEST_CATEGORY));
		checkResult(pOperationDef->AddParameterDef (pParamDef));
		checkResult(pOperationDef->SetBypass (TEST_BYPASS));


		// ------------------------------------------------------------
		//	To test a Transition we need to create a Sequence which will 
		//	a Filler, a transition and another Filler. I know this is not 
		//  very interesting, but it will let us test the Transition 
		//  interface with the least amount of other stuff.
		// ------------------------------------------------------------
		//
		// Create a CompositionMob
		checkResult(defs.cdCompositionMob()->
					CreateInstance(IID_IAAFCompositionMob, 
								   (IUnknown **)&pCompMob));

		checkResult(pCompMob->Initialize(L"Transition Test"));
		// Get a MOB interface
		checkResult(pCompMob->QueryInterface (IID_IAAFMob, (void **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));

		// Create a Sequence
		checkResult(defs.cdSequence()->
					CreateInstance(IID_IAAFSequence,
								   (IUnknown **) &pSequence));

		// Get a Segment interface
		checkResult(pSequence->QueryInterface(IID_IAAFSegment, (void **)&pSegment));
		// Get a component interface and 
		checkResult(pSequence->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		// set the Data definition for it !
		checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
		// Release the component - because we need to reuse the pointer later
		pComponent->Release();
		pComponent = NULL;

		// Create a new Mob Slot that will contain the sequence
		aafRational_t editRate = { 0, 1};
		checkResult(pMob->AppendNewTimelineSlot(editRate,
												pSegment,
												1,
												L"Transition",
												0,
												&pNewSlot));

		// Create a Filler
		checkResult(defs.cdFiller()->
					CreateInstance(IID_IAAFFiller,
								   (IUnknown **) &pFiller));

		// Get a component interface
		checkResult(pFiller->QueryInterface(IID_IAAFComponent, (void **) &pComponent));
		// Set values for the filler
	    checkResult(pFiller->Initialize(defs.ddkAAFPicture(), fillerLength));
		// append the filler to the sequence
		checkResult(pSequence->AppendComponent(pComponent));

		// Release the component - because we need to reuse the pointer later
		pFiller->Release();
		pFiller = NULL;
		pComponent->Release();
		pComponent = NULL;

		
	    checkResult(defs.cdTransition()->
					CreateInstance(IID_IAAFTransition, 
								   (IUnknown **)&pTransition));

		// Create an empty EffectGroup object !!
		checkResult(defs.cdOperationGroup()->
					CreateInstance(IID_IAAFOperationGroup,
								   (IUnknown **)&pOperationGroup));

		checkResult(pOperationGroup->Initialize(defs.ddkAAFPicture(), transitionLength, pOperationDef));

    // Create a constant value parameter.
		checkResult(defs.cdConstantValue()->
					CreateInstance(IID_IAAFConstantValue, 
								   (IUnknown **)&pConstantValue));
    aafRational_t testLevel = {1, 2};
		checkResult(pConstantValue->Initialize (pParamDef, sizeof(testLevel), (aafDataBuffer_t)&testLevel));

    checkResult(pConstantValue->QueryInterface (IID_IAAFParameter, (void **)&pParm));
    checkResult(pOperationGroup->AddParameter (pParm));
    pParm->Release();
    pParm = NULL;
    pConstantValue->Release();
    pConstantValue = NULL;

		checkResult(defs.cdFiller()->
					CreateInstance(IID_IAAFSegment,
								   (IUnknown **) &pEffectFiller));
		 checkResult(pEffectFiller->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		 checkResult(pComponent->SetDataDef(defs.ddkAAFPicture()));
		pComponent->Release();
		pComponent = NULL;
		checkResult(pOperationGroup->AppendInputSegment (pEffectFiller));
		// release the filler
		pEffectFiller->Release();
		pEffectFiller  = NULL;

		checkResult(pOperationGroup->SetBypassOverride (1));
		checkResult(defs.cdSourceClip()->
					CreateInstance(IID_IAAFSourceClip, 
								   (IUnknown **)&pSourceClip));
		aafSourceRef_t	sourceRef;
		sourceRef.sourceID = zeroMobID;
		sourceRef.sourceSlotID = 0;
		sourceRef.startTime = 0;
		checkResult(pSourceClip->Initialize (defs.ddkAAFPicture(),
											 effectLen,
											 sourceRef));
		checkResult(pSourceClip->QueryInterface (IID_IAAFSourceReference,
												 (void **)&pSourceRef));
		checkResult(pOperationGroup->SetRender (pSourceRef));

		checkResult(pTransition->Initialize (defs.ddkAAFPicture(),
											 transitionLength,
											 cutPoint,
											 pOperationGroup));
		checkResult(pTransition->QueryInterface (IID_IAAFComponent,
												 (void **)&pComponent));

		// now append the transition
		checkResult(pSequence->AppendComponent(pComponent));

		// Release the component - because we need to reuse the pointer later
		pComponent->Release();
		pComponent = NULL;

		// Create the second filler 
		checkResult(defs.cdFiller()->
					CreateInstance(IID_IAAFFiller,
								   (IUnknown **) &pFiller));

		checkResult(pFiller->QueryInterface(IID_IAAFComponent, (void **) &pComponent));
		// Set values for the filler
	    checkResult(pFiller->Initialize(defs.ddkAAFPicture(), fillerLength));
		// append the filler to the sequence
		checkResult(pSequence->AppendComponent(pComponent));
		pComponent->Release();
		pComponent = NULL;
		pFiller->Release();
		pFiller = NULL;

		// Now, we append the composition mob to the file	
		checkResult(pHeader->AddMob(pMob));
		// and we are done !
	}
	catch (HRESULT& rResult)
	{
		hr = rResult;
	}
	

	// Cleanup and return
	if (pParm)
		pParm->Release();

  if (pConstantValue)
		pConstantValue->Release();

	if (pParamDef)
		pParamDef->Release();

	if (pSourceClip)
		pSourceClip->Release();

	if (pSourceRef)
		pSourceRef->Release();

	if (pNewSlot)
		pNewSlot->Release();

	if (pSegment)
		pSegment->Release();

	if (pSequence)
		pSequence->Release();

	if (pFiller)
		pFiller->Release();
	if (pOperationDef)
		pOperationDef->Release();


	if (pOperationGroup)
		pOperationGroup->Release();

	if (pMob)
		pMob->Release();

	if (pCompMob)
		pCompMob->Release();

	if (pDictionary)
		pDictionary->Release();

	if (pHeader)
		pHeader->Release();


	if (pTransition)
		pTransition->Release();

	if (pFile) 
	{
		if (bFileOpen)
		  {
			pFile->Save();
			pFile->Close();
		  }
		pFile->Release();
	}

	return hr;
}
Example #30
0
static HRESULT CreateAAFFile(
    aafWChar * pFileName,
    aafUID_constref fileKind,
    testRawStorageType_t rawStorageType,
    aafProductIdentification_constref productID)
{
  // IAAFSession*				pSession = NULL;
	IAAFFile*					pFile = NULL;
	IAAFHeader*					pHeader = NULL;
  	IAAFDictionary*  pDictionary = NULL;
	IAAFMob*					pMob = NULL;
	IAAFMob*					pReferencedMob = NULL;
	IAAFTimelineMobSlot*		newSlot = NULL;
	IAAFSegment*				seg = NULL;
	IAAFComponent*				pComponent = NULL;
	IAAFDescriptiveClip*		 pDescClip = NULL;
	bool bFileOpen = false;
	HRESULT						hr = AAFRESULT_SUCCESS;
	
	try
	{
		
	    // Remove the previous test file if any.
	    RemoveTestFile(pFileName);

		// Create the file
		checkResult(CreateTestFile( pFileName, fileKind, rawStorageType, productID, &pFile ));
		bFileOpen = true;
 
		// We can't really do anthing in AAF without the header.
		checkResult(pFile->GetHeader(&pHeader));

		// Get the AAF Dictionary so that we can create valid AAF objects.
		checkResult(pHeader->GetDictionary(&pDictionary));
		CAAFBuiltinDefs defs (pDictionary);
		
		//Make the MOB to be referenced
		checkResult(defs.cdMasterMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pReferencedMob));
		checkResult(pReferencedMob->SetMobID(TEST_referencedMobID));
		checkResult(pReferencedMob->SetName(L"AAFDescriptiveClipTest::ReferencedMob"));

		// Create a Mob
		checkResult(defs.cdCompositionMob()->
					CreateInstance(IID_IAAFMob, 
								   (IUnknown **)&pMob));
		checkResult(pMob->SetMobID(TEST_MobID));
		checkResult(pMob->SetName(L"AAFDescriptiveClipTest"));

		// Create a DescriptiveClip
		checkResult(defs.cdDescriptiveClip()->
					CreateInstance(IID_IAAFDescriptiveClip, 
								   (IUnknown **)&pDescClip));
		checkResult(pDescClip->QueryInterface(IID_IAAFComponent, (void **)&pComponent));
		checkResult(pComponent->SetDataDef(defs.ddkAAFSound()));
		pComponent->Release();
		pComponent = NULL;
		
		// Set the properties for the SourceClip
		//checkResult(pDescClip->SetFade( fadeInLen, fadeInType, fadeOutLen, fadeOutType));
	
		sourceRef.sourceID = TEST_referencedMobID;
		sourceRef.sourceSlotID = 0;
		sourceRef.startTime = 0;
		checkResult(pDescClip->Initialize(defs.ddkAAFSound(), 1000, sourceRef));

    	// Get described slots - should not be present.
    	aafUInt32 size = 0;
    	AAFRESULT hr = pDescClip->CountDescribedSlotIDs( &size );
    	checkExpression( AAFRESULT_PROP_NOT_PRESENT == hr, AAFRESULT_TEST_FAILED );
    	
	    // Set/Get single described slot id
	    aafUInt32 setSingleDescribedSlotID = 0xdeadbeef;
	    checkResult( pDescClip->AddDescribedSlotID( setSingleDescribedSlotID ) );
	    aafUInt32 getSingleDescribedSlotID = 0;
	    checkResult( pDescClip->GetDescribedSlotIDs( 1, &getSingleDescribedSlotID ) );
	    checkExpression( setSingleDescribedSlotID == getSingleDescribedSlotID, AAFRESULT_TEST_FAILED );

	    // Clear the ID set for the next test
	    checkResult( pDescClip->RemoveDescribedSlotID( setSingleDescribedSlotID ) );

	    // Set the persistent described slots.
	    for( aafUInt32 i_tid = 0; i_tid < TestDescribedSlotIDsVectorSize; ++i_tid )
	    {
		    checkResult( pDescClip->AddDescribedSlotID( TestDescribedSlotIDsVector[i_tid] ) );
	    }

		aafUInt32 getDescribedSlotIDsVector[TestDescribedSlotIDsVectorSize];

		checkResult( pDescClip->GetDescribedSlotIDs( TestDescribedSlotIDsVectorSize, getDescribedSlotIDsVector ) );
		checkExpression( 0 == memcmp( getDescribedSlotIDsVector, TestDescribedSlotIDsVector, sizeof(TestDescribedSlotIDsVector) ),
					     AAFRESULT_TEST_FAILED );
		
		checkResult(pDescClip->QueryInterface (IID_IAAFSegment, (void **)&seg));
		aafRational_t editRate = { 0, 1};
		checkResult(pMob->AppendNewTimelineSlot (editRate,
												 seg,
												 1,
												 slotName,
												 0,
												 &newSlot));
		checkResult(pHeader->AddMob(pMob));
		checkResult(pHeader->AddMob(pReferencedMob));
  	}
  	catch( const AAFRESULT& hr ) {
    	return hr;
  	}
  		// Cleanup and return


		if (seg)
			seg->Release();

		if (newSlot)
			newSlot->Release();

		if (pDescClip)
			pDescClip->Release();
	
		if (pComponent)
			pComponent->Release();
	
		if (pMob)
			pMob->Release();
	
		if (pReferencedMob)
			pReferencedMob->Release();
	
		if (pDictionary)
			pDictionary->Release();
	
		if (pHeader)
			pHeader->Release();
	
		if (pFile) 
		{
			if (bFileOpen)
			  {
				pFile->Save();
				pFile->Close();
			  }
			pFile->Release();
		}
		
		return hr;
}